阅读说明：本技术 冰箱 (Refrigerator with a door ) 是由 李抒晋 李源珍 吕寅善 明儒袗 徐美英 崔圭宽 尹睿槽 吴旼奎 于 2020-02-13 设计创作，主要内容包括：本发明涉及玄关用冰箱,即使在订购了物品或新鲜食品的用户不在家的情况下,快递司机也能够将派送物品安全地派送给订购者,能够防止派送物品在派送过程中丢失。(The invention relates to a refrigerator for a hallway, which can ensure that an express delivery driver can safely deliver delivery articles to an orderer even if a user ordering the articles or fresh food is not at home, and can prevent the delivery articles from being lost in the delivery process.)

1. A refrigerator, comprising:

a cabinet which is provided to penetrate a door or a wall surface for a hallway and has a storage chamber for storing articles;

an outdoor side door connected to the front surface of the case, opening and closing the storage chamber, and exposed to the outside;

an input part arranged at one side of the door or the box body and used for inputting information;

a control unit that controls the input unit to be activated and to be in a state in which information can be input if a predetermined condition is satisfied, and controls the input unit to be in a deactivated state if another predetermined condition is satisfied; and

a cold air supply device accommodated in the case and supplying cold air to the storage chamber;

the cool air supplying apparatus includes:

a thermoelectric element;

a cold-side heat sink in contact with a heat absorbing surface of the thermoelectric element;

the heat sink at the hot side is contacted with the heating surface of the thermoelectric element;

a cold air circulating fan disposed on the cold side heat sink side to forcibly flow the storage chamber air so that the storage chamber air exchanges heat with the cold side heat sink;

a heat radiation fan which is configured at the side of the heat radiation part at the hot side and forces indoor air to flow so as to exchange heat between the indoor air and the heat radiation part at the hot side;

the refrigerator is characterized in that,

the control unit controls to perform the locking cancellation of the outdoor side door if the input unit is activated and the input unit inputs the entry authentication information to match the pre-stored entry reference information, and controls to perform any one of deletion, initialization, and reset of the pre-stored entry reference information if the door is unlocked.

2. The refrigerator according to claim 1,

the control unit controls the outdoor side door to perform the out-of-box authentication for releasing the locked state of the outdoor side door if the out-of-box authentication information input through the input unit is identical to pre-stored out-of-box reference information;

the in-box authentication and the out-box authentication are performed in different methods from each other.

3. The refrigerator according to claim 2,

the in-box reference information and the out-box reference information are set differently.

4. The refrigerator according to claim 2,

the binning reference information includes information relating to the binned item.

5. The refrigerator according to claim 4,

the box entering reference information comprises at least one of bar code information and QR code information of the box entering object.

6. The refrigerator according to claim 2,

the out-of-box reference information includes information of a user registered in association with the refrigerator.

7. The refrigerator according to claim 6,

the out-of-box reference information comprises at least one of near field communication information of a registered user mobile phone and body information of a user.

8. The refrigerator according to claim 2,

the input part comprises a first input part for inputting the box entering authentication information and a second input part for inputting the box exiting authentication information,

the first input portion and the second input portion are distinguished from each other.

9. The refrigerator according to claim 8,

the first input comprises a scanner for scanning an encryption code,

the second input part includes at least one of a body recognition sensor provided to recognize body information of the user and a short-range communication module of a mobile device recognizing the user.

10. The refrigerator according to claim 2,

the input part comprises a first input part for inputting the box entering authentication information and a second input part for inputting the box exiting authentication information,

the activated method of the first input portion and the activated method of the second input portion are different from each other.

11. The refrigerator according to claim 10,

the first input is activated if it is determined that the storage chamber is empty.

12. The refrigerator according to claim 10,

the second input unit is activated if it is determined that the article is present in the storage compartment by a predetermined reference amount or more.

13. The refrigerator according to claim 2,

the input unit includes a box entering mode provided for inputting information for entering a box and a box exiting mode provided for inputting information for exiting a box.

14. The refrigerator according to claim 11,

the in-box mode comprises a keeping key, and the out-box mode comprises a taking key.

15. The refrigerator according to claim 13,

the control unit controls only the box entry mode to be activated if a predetermined condition is satisfied.

16. The refrigerator according to claim 15,

the control unit determines that the predetermined condition is satisfied if the storage chamber is empty.

17. The refrigerator according to claim 13,

the control unit controls only the out-of-box mode to be activated if a predetermined condition is satisfied.

18. The refrigerator of claim 17,

the control unit determines that the predetermined condition is satisfied if it is determined that the article is present in the storage compartment.

19. The refrigerator of claim 17,

the control unit determines that the predetermined condition is satisfied if it is determined that the storage space in the storage chamber is insufficient.

20. The refrigerator according to claim 2,

the refrigerator further comprises an indoor side door which is connected with the back surface of the box body to open and close the storage chamber and is exposed to the indoor;

the control unit controls the outdoor side door to be locked if the indoor side door is opened.

21. The refrigerator of claim 20,

the control unit restricts execution of the entering authentication procedure in a state where the indoor side door is opened,

the control unit controls to interrupt the entering authentication step if the indoor-side door is opened on the way of performing the entering authentication step.

22. The refrigerator of claim 21,

and if the indoor side door is detected to be closed, the control part controls to reopen the step of entering the box authentication.

23. The refrigerator according to claim 2,

the control unit controls to execute another type of binning authentication if the number of occurrences of an authentication error in which the binning authentication information input through the input unit does not match the pre-stored binning reference information reaches a predetermined number.

24. The refrigerator according to claim 2,

the control unit controls the output authentication in another mode to be executed if the number of occurrences of the authentication error in which the output authentication information input through the input unit does not match the pre-stored output reference information reaches a predetermined number.

25. The refrigerator according to claim 1,

if the article is judged to be in the storage chamber, the control part controls the cold air supply device to be operated so as to keep the set temperature of the storage chamber.

26. The refrigerator of claim 25,

further comprises an image shooting part arranged in the storage chamber,

the image information photographed by the image photographing part is transmitted to the control part, and the control part analyzes the image information and determines whether or not an article exists in the storage compartment.

Technical Field

The present invention relates to a refrigerator installed in a hallway.

Background

Recently, express services for delivering items to a prescribed place are very active. In particular, in the case where the articles are fresh foods, the foods are stored in a refrigerator or an incubator provided in a delivery vehicle and then delivered in order to prevent the foods from being damaged or cooled.

Also, it is common to dispatch food items after wrapping the food items in a packaging material for keeping the food items cold or warm. Since the packing material is made of an environmental pollutant such as styrofoam, there has recently been an increasing call for reduction in use of the material.

On the other hand, if the user is at home for serving, the dispatcher can directly hand over the food to the user, but if the user is not at home or the time of serving is too late or too early, the dispatcher has difficulty in directly handing over the food to the user.

Therefore, even if the sender and the user do not meet each other directly, the user can receive the food, and the food is not damaged or cooled until the user finally hands over.

For this reason, recently, there has been developed a refrigerator which is installed at an entrance (entrance) of a predetermined place, in which a dispatcher can store food in the refrigerator and keep it fresh, and from which a user can take out food at a convenient time.

In the prior art, a refrigerator for a hallway is disclosed, and the details are as follows.

1. Publication patent No. (publication date): 10-2011-0033394(2011.03.31)

2. The invention name is as follows: refrigerator attached to door and gate

According to the above-mentioned prior art documents, although it is disclosed that a cooling device is provided in a lower portion of a refrigerator, there is no disclosure of a specific configuration of the cooling device.

In particular, the refrigerator for the hallway may be installed at a door or a wall surface, and at this time, it is necessary to prevent the refrigerator from being excessively heavy to prevent the refrigerator from falling down from the door or the wall surface.

However, when a cooling device for generating cold air by driving a refrigerant cycle is used in a refrigerator for an entrance, there is a problem in that the weight of the refrigerator becomes too heavy.

In addition, it is necessary to prevent a door, which is exposed to the outside of the entrance, from being opened by a person other than the courier or the user, such as the express driver.

In addition, it is necessary to prevent the articles stored in the refrigerator for the entrance from being stolen by others.

In addition, it is necessary to prevent the entrance refrigerator from functioning as a means for helping a criminal who has stolen the door to open the entrance.

Disclosure of Invention

Problems to be solved by the invention

The present invention has been made to meet the above-mentioned needs and to improve the problems that have been addressed.

Specifically, an object of the present invention is to provide a refrigerator for an entrance capable of storing food fresh and transferring the food to a user safely.

Another object of the present invention is to provide a refrigerator for an entrance, in which a dispatcher who dispatches only articles or food can open a door of the refrigerator for an entrance and store the articles in the refrigerator.

Another object of the present invention is to provide a refrigerator for an entrance, in which only a user or a person who is authorized can open a door of the refrigerator for an entrance and take out articles stored in the refrigerator.

Another object of the present invention is to provide a refrigerator for an entrance which can minimize a loss due to theft of an article by recording a cut-out place as an image or an image when the article stored in the refrigerator for an entrance is cut out by an unauthorized person.

Another object of the present invention is to provide a refrigerator for an entrance, which can be remotely controlled by a mobile device including a mobile phone to remotely control opening and closing of a door of the refrigerator for the entrance and to check a state of a storage space in the refrigerator.

Means for solving the problems

The refrigerator for an entrance for an embodiment of the present invention for achieving the above object may include: a cabinet which is provided to penetrate a door or a wall surface for an entrance and has a storage chamber for storing articles; an outdoor side door connected to the front surface of the case, opening and closing the storage chamber, and exposed to the outside; an input part arranged at one side of the door or the box body and used for inputting information; a control unit that controls the input unit to be activated to a state in which information can be input if a predetermined condition is satisfied, and controls the input unit to be deactivated if another predetermined condition is satisfied; and a cold air supply device accommodated in the case and supplying cold air to the storage chamber.

The cool air supplying apparatus may include: a thermoelectric element; a cold-side heat sink in contact with a heat absorbing surface of the thermoelectric element; the heat sink at the hot side is contacted with the heating surface of the thermoelectric element; a cold air circulating fan disposed on the cold side heat sink side to forcibly flow the storage chamber air so that the storage chamber air exchanges heat with the cold side heat sink; and a heat dissipation fan disposed at the side of the heat dissipation member at the hot side to forcibly flow the indoor air so that the indoor air exchanges heat with the heat dissipation member at the hot side.

The control unit is characterized in that, in a state in which the input unit is activated, the control unit controls the entry authentication to release the locked state of the outdoor side door if the entry authentication information input through the input unit matches pre-stored entry reference information, and controls the control unit to delete, initialize or reset the pre-stored reference information if the locked state of the door is released.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the refrigerator provided by the embodiment of the invention, the following effects are achieved.

First, there is an advantage in that even when a user who orders an item or fresh food is not at home, a courier driver can safely dispatch the dispatched item to the orderer and can prevent the item from being lost during the dispatch.

Secondly, there is an advantage that, in the case where the shipped item is a shipped item that requires low-temperature storage such as fresh food, even if the orderer (or user) is not at home, the shipped item can be prevented from being damaged or deteriorated.

Thirdly, since only a person who can deliver the article, such as an express driver, can open the door of the refrigerator for the entrance outside the entrance, there is an advantage that the article to be delivered can be prevented from being stolen.

Fourth, since the other door cannot be opened in a state where either one of the outdoor side door and the indoor side door of the refrigerator for the hallway is opened, there is an advantage in that it is possible to fundamentally prevent unauthorized persons from easily opening the hallway door through the refrigerator for the hallway.

In addition, there is an advantage in that it is possible to fundamentally prevent the possibility that an unauthorized person uses a weapon to injure the body of the subscriber through the storage space of the vestibule refrigerator.

Fifth, there is an advantage that opening and closing of the door of the refrigerator for the entrance can be controlled by a mobile device such as a mobile phone, and an authentication code or a password required for opening the door of the refrigerator for the entrance can be transmitted to the article dispatcher.

Sixth, there is an advantage in that foods stored in the storage chamber of the refrigerator for the entrance can be easily confirmed using a mobile device such as a mobile phone.

Drawings

Fig. 1 is a diagram showing a state in which a refrigerator for an entrance according to an embodiment of the present invention is installed in an entrance door.

Fig. 2 is a view showing a state in which the external side door is opened in a state in which the vestibule refrigerator is installed in a vestibule door.

Fig. 3 is a schematic view showing states of an indoor side and an outdoor side with reference to the door in a state where the vestibule refrigerator is installed in a vestibule door.

Fig. 4 is a front perspective view showing a configuration of a refrigerator for a hallway according to an embodiment of the present invention.

Fig. 5 is a rear perspective view showing a configuration of a refrigerator for a hallway according to an embodiment of the present invention.

Fig. 6 is a view showing a state of an internal storage chamber of a refrigerator for an entrance according to an embodiment of the present invention.

Fig. 7 is a view showing the configuration of the cool air supply device according to the embodiment of the present invention.

Fig. 8 is a cross-sectional view taken along line 8-8 of fig. 4.

Fig. 9 is a view showing a state where cool air supply and heat radiation are performed in the vestibule refrigerator according to the embodiment of the present invention.

Fig. 10 is a diagram showing a state in which the refrigerator for the entrance according to the embodiment of the present invention is installed on the wall surface of the entrance.

Fig. 11 is a view showing a state in which the refrigerator for an entrance according to the embodiment of the present invention is hung in front of the entrance door by a cord.

Fig. 12 is a diagram showing a state in which a refrigerator for an entrance according to an embodiment of the present invention is placed on a stand.

Fig. 13 is an exploded perspective view showing a structure in which a refrigerator for a hallway according to an embodiment of the present invention is fitted into a wall surface.

Fig. 14 is a cross-sectional view taken along line 14-14 of fig. 13.

Fig. 15 is a block diagram showing a control configuration of the refrigerator for the entrance according to the embodiment of the present invention.

Fig. 16 is a network system connecting a refrigerator for an entrance and a user terminal according to an embodiment of the present invention.

Fig. 17 is a flowchart schematically illustrating a process in which a user orders goods through the internet and goods information is stored in a refrigerator for an entrance.

Fig. 18 is a flowchart illustrating a method of storing an order article in a refrigerator for an entrance according to an embodiment of the present invention.

Fig. 19 is a flowchart showing a storage room temperature control method performed when a delivered article is stored in the hallway refrigerator according to the embodiment of the present invention.

Fig. 20 is a flowchart showing a method of taking out the order goods shipped from the refrigerator for the entrance of the hall according to the embodiment of the present invention.

Fig. 21 is a diagram showing a state before activation of a display unit provided in the outdoor side door.

Fig. 22 is a diagram showing a state in which the display portion of the outdoor side door is activated.

Fig. 23 is a diagram showing a display screen output in the encrypted code scanning step.

Fig. 24 is a diagram showing a display screen output in the step of inputting the authentication code executed due to the occurrence of the encryption code scanning error.

Fig. 25 is a diagram showing a display screen output when the encryption code scan succeeds.

Fig. 26 is a screen of the display unit displayed when the user or the dispatcher activates the display unit in a state where the articles are stored in the storage compartment of the refrigerator for the entrance.

Fig. 27 is a screen of a display unit which is viewed in an authentication procedure performed by a user to take out a stored article.

Fig. 28 is a diagram showing a display screen of the outdoor side door when the user is taking out articles indoors.

Detailed Description

In the following, some embodiments of the invention are explained in detail by means of exemplary drawings. Note that, when reference numerals are given to components in each drawing, the same components are denoted by the same reference numerals as much as possible although they are denoted by different drawings. In describing the embodiments of the present invention, detailed descriptions of related well-known structures or functions will be omitted when it is judged that the understanding of the embodiments of the present invention is hindered.

In describing the components of the embodiments of the present invention, terms such as first, second, and A, B, A, B may be used. The above terms are only used to distinguish the above-mentioned components from other components, and the nature, order, sequence, and the like of the corresponding components are not limited by the above terms. When it is stated that a certain component is "connected", "coupled" or "connected" to another component, it is to be understood that the component may be directly connected or coupled to the other component, and another component may be "connected", "coupled" or "coupled" between the components.

The "user" mentioned in the present specification should be construed as referring to a consumer who orders goods through the internet, an owner of a refrigerator for a hallway, and his family.

In addition, the purchase item or the order item should be construed as other items of all forms including fresh food.

In addition, it should be interpreted that the deliverer is a person who gets a task or authority to deliver the items or commodities ordered by the user to the storage room of the refrigerator for the entrance, such as a courier driver and a postman.

The refrigerator of the present invention may be provided to stand on the bottom surface of the installation space, may be fixed to a door of a building or a wall surface of a building or an additional bracket surface, or may be provided to penetrate and be fixed to the door or the wall surface or the bracket.

On the other hand, it is preferable to configure a refrigeration cycle that is not heavy to reduce damage caused by the refrigerator falling from the installation site. For example, a refrigeration cycle using a small-sized compressor or a refrigeration cycle using a thermoelectric element module may be configured.

Since the noise of the thermoelectric element module is lower than that of the compressor, a refrigeration cycle using the thermoelectric module is preferably used when a refrigerator is installed in a space where low noise is required, for example, a horizontal room, a study room, a living room, a door of a building, a wall surface of a building, or the like.

The thermoelectric module may also be used as a refrigerator or an incubator, compared to a refrigeration cycle using a compressor.

As another example, the refrigerator for a hallway of the present invention may be used as an express box in which the thermoelectric module is not provided.

In the present invention, the input unit is provided at one side of the door or the case to input information. The input portion may be provided with one or a plurality of input units or sub-input portions.

In the present invention, the display provided with the input part may be provided with one or a plurality of input parts.

On the other hand, in the present invention, the input unit and the display may be distinguished from each other.

The control unit of the refrigerator according to the present invention may be controlled such that at least a part of the input unit is in an activated state when a predetermined condition is satisfied, and at least a part of the input unit is switched to a deactivated state when a predetermined other condition is satisfied.

The control portion may control the input portion to be in at least one of i) all input activation, ii) only a part of input activation, and iii) all input deactivation.

Here, the input activation state is defined as a state in which information related to the operation of the refrigerator can be input through the input part, and the input deactivation state is defined as a state in which the information cannot be input.

The refrigerator of the present invention may include a cabinet forming a storage compartment, a door opening and closing the storage compartment, an input part for inputting information related to an operation of the refrigerator, and a control part.

In addition, "information related to the operation of the refrigerator" is defined as information input through an input part of the refrigerator. For example, the instruction to increase or decrease the notch temperature (notch temperature) of the refrigerator, the instruction to apply or block or increase or decrease the voltage to the electric elements or components of the refrigerator, the detection information detected by the sensor attached to the refrigerator, and the like.

The input unit includes at least one of the following elements for inputting information related to the operation of the refrigerator.

a. A key for inputting a command related to an action of the refrigerator.

b. The article information identifier capable of identifying the inherent information for the article includes a barcode identifier such as a barcode for identifying the article, and a barcode identifier such as a QR code for identifying the article.

c. A communication module or element (e.g., a remote controller signal receiving section, a near field communication signal receiving section, etc.) that receives a signal from an external device such as a remote controller including a remote controller or a mobile terminal including a cellular phone.

d. An image capturing unit including a camera for recognizing an image of an object including a person.

e. A microphone that recognizes a sound signal including a human voice.

f. A motion signal detection unit capable of detecting a motion of a person.

g. And an approach signal detection unit (or distance signal detection unit) capable of detecting the approach of a person.

h. A touch input unit capable of detecting a human touch operation.

i. A body information detecting unit for recognizing body information such as vein information, iris information, or DNA information of a person.

j. A vibration signal detection part (for example, a knock signal detection part) for detecting the knock of the user on the door of the refrigerator.

k. A timer capable of detecting the passage of time.

The refrigerator is provided with doors, which may be configured to simultaneously perform functions of a first door ("hereinafter, referred to as an in-door") for opening and closing a storage compartment in order to put articles into the refrigerator and a second door ("hereinafter, referred to as an out-door") for opening and closing the storage compartment in order to take articles out of the refrigerator.

The refrigerator may be provided with a plurality of doors, and the plurality of doors may be configured to include at least the entrance door and the exit door. For example, the loading door may be disposed at a front of the refrigerator, and the unloading door may be disposed at a rear of the refrigerator.

As another example, the inlet door and the outlet door may be both disposed in front of the refrigerator or both disposed in rear of the refrigerator.

This case may be understood as a case where the entry box door and the separate exit box door different from the entry box door are both disposed in front of the refrigerator, and a case where the entry box door and the separate exit box door different from the entry box door are both disposed in rear of the refrigerator.

The refrigerator may be provided with an input unit configured to simultaneously perform a function of a first input unit ("hereinafter, referred to as a loading input unit") for inputting information to load articles into the refrigerator and a function of a second input unit ("hereinafter, referred to as an unloading input unit") for inputting information to take out the articles.

The refrigerator is provided with a plurality of input parts, and the plurality of input parts can be at least composed of the input part and the output part.

Since other people (for example, a dispatcher) than the user can put the articles into the user's refrigerator, it is necessary to prevent the article placer (dispatcher) from performing the put-in authentication again and taking out the put-in articles after the article placer performs the put-in authentication and puts the articles into the refrigerator. Next, an embodiment for solving the above-described situation is explained.

If the information input through the input unit matches preset "entering reference information (entering authentication information)", the refrigerator control unit may execute entering authentication for unlocking the door, and may process the "entering reference information" in any one of deletion, initialization, and reset after the door is unlocked.

On the other hand, the refrigerator control part may control to perform an in-box authentication in which information for in-box is input through an input part, and to perform an out-box authentication in which information for out-box is input through the input part, and may control to perform the in-box authentication and the out-box authentication in different methods from each other. Embodiments in which the in-box authentication method and the out-box authentication method are differently controlled include the following three.

First, the refrigerator controller may control the door to perform the locking cancellation if the information input through the input unit matches "reference information for entering the refrigerator" (e.g., information related to articles to be entered), and the refrigerator controller may control the door to perform the locking cancellation if the information input through the input unit matches "reference information for leaving the refrigerator" (e.g., user information registered in relation to the refrigerator) set to be different from the reference information for entering the refrigerator.

Second, the refrigerator is provided with a plurality of input parts, which may be provided such that a case input part (e.g., an article information identifier such as a barcode identifier or a QR code identifier) and a case output input part (e.g., a communication element receiving a signal from an external device such as a near field communication signal identifier) can be distinguished from each other.

Third, the refrigerator may include an in-box mode (e.g., a storage key) in which information for entering the refrigerator can be input through the input unit, and an out-box mode (e.g., an out-box key) in which information for exiting the refrigerator can be input through the input unit, and the control unit may control to activate only the out-box mode when a predetermined condition is satisfied.

The refrigerator control part may control a method of activating the input part and a method of activating the output input part to be different from each other.

For example, the input unit may be activated when the control unit determines that the storage chamber is empty. If it is determined that the article is present in the storage compartment at a reference value set in advance or more, the control may be performed so as to activate the out-box input unit.

Whether the articles are in the refrigerator or the amount of the articles can be judged by a camera in the refrigerator. Alternatively, it may be controlled such that only the out-of-box mode is activated after unlocking the door by performing in-box authentication.

On the other hand, in the case where the out-of-box mode is selected, the control part may control only a pre-registered refrigerator user to be able to perform out-of-box authentication. For example, the control unit may guide the user to input a preset password in order to perform the out-of-box authentication.

The invention may include at least one of the above embodiments.

In the present invention, the "in-box mode" or the "storage mode" may be defined as a control mode in which the article placer is guided to be able to store the article in the storage room, and the "out-box mode" or the "removal mode" may be defined as a control mode in which the article remover is guided to be able to remove the article from the storage room.

Fig. 1 is a diagram showing a state in which an entrance refrigerator according to an embodiment of the present invention is installed in an entrance door, fig. 2 is a diagram showing a state in which an external side door is opened in a state in which the entrance refrigerator is installed in the entrance door, and fig. 3 is a schematic diagram showing states of an indoor side and an outdoor side with respect to the doors in a state in which the entrance refrigerator is installed in the entrance door.

Referring to fig. 1 to 3, the hallway refrigerator 100 according to the embodiment of the present invention may be installed in a hallway door D of a house or an office. The vestibule door D is disposed on the wall W. The entrance door D may be provided with a door lock L for opening the door.

An opening H is formed in the entrance door D, and the entrance refrigerator 100 is inserted into the opening H and extends to the indoor side I and the outdoor side O. In the following, the direction is defined. The outdoor side O is defined as "front" and the indoor side I is defined as "rear" with respect to the vestibule refrigerator 100.

The refrigerator 100 for an entrance may include a cabinet 110 forming an external appearance. For example, the case 110 may have a substantially rectangular parallelepiped shape and be disposed to penetrate the opening H. A sealing member 160 (see fig. 6) may be provided between the opening H and the outer surface of the case 110 so that the case 110 can be closely attached to the opening H.

A storage chamber 110a for storing food is formed inside the case 110. A camera 118 may be provided at the storage room 110 a. For example, the camera 118 may be disposed at an upper portion of the storage chamber 110 a. The camera 118 may photograph the foods stored in the storage room 110a and upload the photographed images to a delivery app (application).

For this, the refrigerator for the entrance may be provided with a communication module that can communicate with the outside. As an example, the communication module may include a Wireless-Fidelity (Wi-Fi) module.

The storage chamber 110a may be opened to the indoor side I and the outdoor side O.

Specifically, the vestibule refrigerator 100 further includes an outdoor side door 180, and the outdoor side door 180 is provided on one side (outdoor side) of the storage chamber 110a and can open and close the storage chamber 110 a. The outdoor side door 180 is located on the outdoor side O, and may be a door that is opened by a food dispatcher to put food in, for example. The outdoor side door 180 may be locked to prevent the door from being opened arbitrarily at ordinary times.

The vestibule refrigerator 100 further includes an indoor side door 170, and the indoor side door 170 is provided on the other side (indoor side) of the storage chamber 110a and can open and close the storage chamber 110 a. The indoor side door 170 is located on the indoor side I, and may be a door opened by a user to take out food.

The outdoor side door 180 and the indoor side door 170 may be rotatably combined to the case 110.

The outdoor side door 180 includes: a hinge 181 coupled to the case 110; and a latch 185 engaged with the case 110. The hinge 181 may be disposed at one side portion of both side portions of the outdoor side door 180, and the latch 185 may be disposed at the other side portion of the outdoor side door 180. Also, the latch 185 may be provided on a rear surface of the outdoor side door 180.

A latch coupling portion 115 may be formed at the case 110 to be engaged with the latch 185 so as to be coupled with the latch 185 when the outdoor side door 180 is closed.

A pressing portion 182 that can be pressed to open the outdoor side door 180 is provided on the front surface of the outdoor side door 180. The pressing portion 182 is positioned in front of the latch 185 and applies a pressing force to the latch 185, and the latch 185 and the latch coupling portion 115 can be disengaged by the applied pressing force (push-pull type).

Since the indoor side door 170 has a similar configuration to the outdoor side door 180, a hinge, a latch, and a pressing portion may be provided in the indoor side door 170.

A code reader 184 that can read information about the food delivered thereto may be provided on the front surface of the outdoor side door 180. The code reader 184 may comprise a bar code reader or a QR code reader.

When the food dispatcher aligns the food information (code information) provided to the food or the food container with the code reader 184, the vestibule refrigerator 100 can recognize that the food is scheduled to be dispatched and unlock the outdoor side door 180. Thereafter, the dispatcher may open the outdoor side door 180 and store the food in the storage chamber 110 a.

The outdoor side door 180 may be provided with a display unit 150. The display unit 150 displays information required for using the refrigerator 100 for an entrance.

As an example, the display unit 150 may display a "guidance sentence" provided for the sender. As an example, the guide sentence may include a sentence such as "please put a bar code or a QR code of food on a code reader".

An input unit for inputting a password may be displayed on the display unit 150. The sender may unlock the locked state of the outdoor side door 180 by inputting a password predetermined by the user into the input unit.

In summary, the sender may unlock the outdoor side door 180 by recognizing the food code or inputting the password by the code reader 184, and put the food into the storage room 110a after opening the outdoor side door 180.

The case 110 may extend through the door D to an indoor side I and an outdoor side O. A front-rear direction width W2 of a portion of the case 110 extending toward the indoor side I may be greater than a front-rear direction width W1 of a portion of the case extending toward the outdoor side O.

According to the above configuration, the area of the refrigerator 100 for hallways protruding from the door D toward the indoor side I is large and the area of the refrigerator 100 for hallways protruding toward the outdoor side O is small, so that the area of the refrigerator 100 for hallways exposed to the outside through which anyone passes can be reduced. Therefore, the possibility of damage to the hallway refrigerator 100 can be reduced.

The front surface of the outdoor side door 180 may be flush with the front surface of the entrance door D, or may be spaced forward from the front surface of the entrance door D as shown in the drawing.

A front support 119 supported by the outer surface of the door D is provided at the lower portion of the case 110 extending toward the indoor side I. For example, the front support 119 may be attached to an outer surface of the door D.

Also, a cool air supplying apparatus 200 may be provided at a lower portion of the vestibule refrigerator 100. Since the front support 119, which is the front of the portion in which the relatively heavy cold air supply device 200 is accommodated, is supported or attached to the door D, the refrigerator 100 for an entrance can be stably supported at the door D.

Fig. 4 is a front perspective view showing a configuration of a refrigerator for an entrance according to an embodiment of the present invention, fig. 5 is a rear perspective view showing a configuration of a refrigerator for an entrance according to an embodiment of the present invention, and fig. 6 is a view showing a state of an internal storage chamber of the refrigerator for an entrance according to an embodiment of the present invention.

Referring to fig. 4 to 6, a vestibule refrigerator 100 according to an embodiment of the present invention includes a cabinet 110 forming an external appearance. The case 110 may include: two case side surface parts 111; a case top surface 113 connecting upper portions of the two case side surfaces 111; a case bottom surface 115 forming a bottom surface of the case 110; a case back 116 forming a back of the case 110; and a front support 119 extending upward from the front end of the case bottom 115 and supported or attached to the outer surface of the door D. A cold air supply device 200 may be disposed at a rear side of the front support 119.

The cabinet 110 may further include a storage compartment bottom surface portion 117, the storage compartment bottom surface portion 117 extending forward from an upper end of the front support 119 and forming a bottom surface of the storage compartment 110 a.

By the structure of the box 110, the box 110 can beAnd (4) shape. In detail, it can be understood that the case 110 includes a first case forming a storage chamber of a hexahedron and a second case formed at a lower side of the first case. The second housing may be formed in a shape that extends further toward the lower side of the first housing at a position spaced rearward from the front end of the first housing.

A storage chamber 110a is formed inside the first housing, and a heat dissipation space in which the cool air supply device 200 is installed is formed inside the second housing. The storage chamber 110a and the heat dissipation space are partitioned by a partition wall, and the first housing and the second housing may be constructed as a single body. The partition wall may be the storage compartment lower wall 121.

A heat radiation discharge portion 255 may be formed at a lower portion of the case side surface portion 111, specifically, at any portion of the case side surface portion 111 that defines a side surface of the second housing, and the external air that has passed through the heat radiation portion of the cold air supply device 200 may be discharged through the heat radiation discharge portion 255. The heat dissipation exhaust 255 may include an exhaust grid 256.

Openings may be formed in the front and rear surfaces of the case 110, and doors 170 and 180 may be coupled to the openings.

In detail, the door 170, 180 includes: an outdoor side door 180 for opening and closing an opening formed in an outdoor end of the casing 110; and an indoor side door 170 for opening and closing an opening formed in an indoor end portion.

The outdoor side door 180 is a door that a dispenser can open outdoors to store articles to be delivered. The dispatcher can open the outdoor side door 180 and put food into the storage room 110a after password input or article recognition.

On the other hand, the user may open the indoor side door 170 and take out the foods stored in the storage chamber 110 a. The structure of the indoor side door 170 is similar to that of the outdoor side door 180. The side door 170 may be provided with a pressing part 172 operable to open the door in the chamber. The user can open the indoor side door 170 by pressing the pressing part 172. However, the indoor side door 170 is a door disposed on the indoor side and is accessible only by a user, and therefore locking may not be necessary. Thus, a step such as unlocking (password input, article identification, etc.) for opening the outdoor side door 180 is not required.

A cool air supplying apparatus 200 may be provided at a lower portion of the cabinet 100. The cool air supply device 200 may be disposed in a space defined by both lower sides of the case side surface part 111, the case bottom surface part 115, the front support 119, and the case back surface part 116.

An external air inflow portion 252 for allowing external air to flow into the cold air supply device 200 is formed in the case bottom portion 115. The air sucked through the external air inflow portion 252 may be discharged through the heat discharge portion 255 via the heat dissipation fan 280 and the hot-side heat sink 220 of the cold air supply device 200. An inflow grill 253 may be provided at the external air inflow portion 252. It is understood that the external air inflow portion 252 and the heat dissipation discharge portion 255 are formed at the outer wall of the case 110.

The storage room 110a may be defined by an inner wall of the cabinet 110. In detail, the inner wall of the case 110 includes: a lower wall 121 of the storage compartment forming a seating surface for food to be seated; storage compartment side walls 123 extending upward from both sides of the storage compartment lower wall 121; a storage chamber upper wall 126 forming a top surface of the storage chamber 110a and connected to an upper portion of the storage chamber side wall 123; and a storage compartment rear wall 125 connected to a rear portion of the storage compartment side wall 123.

The storage chamber 110a may be configured to form a substantially hexahedral space by the storage chamber lower wall 121, the storage chamber side wall 123, the storage chamber upper wall 126, and the storage chamber rear wall 125. The storage chamber side wall 123 forms one surface of the second flow channel 105 (see fig. 8).

The storage compartment lower wall 121 may be provided with a rib 122 protruding upward, and the rib 122 may extend forward and backward and be provided in plural numbers to be arranged in the left-right direction. The food is seated on the upper side of the plurality of ribs 122, whereby the sliding of the food can be prevented.

A cold air inflow hole 128 for returning the cold air inside the storage chamber 110a to the cold air supply device 200 may be formed at the storage chamber lower wall 121. For example, the cold air inflow hole 128 may be formed at the rear of the storage compartment lower wall 121.

A cold air discharge hole 129 for supplying cold air generated by the cold air supply device 200 to the storage room 110a side may be formed in the storage room side wall 123. With the configuration of the cold air inflow hole 128 and the cold air discharge hole 129, the cold air generated in the cold air supply device 200 can be supplied from the side surface portion of the storage chamber 110a and returned to the cold air supply device 200 through the rear lower portion.

A camera 118 for photographing foods put in the storage chamber 110a may be provided on the upper wall 126 of the storage chamber.

Fig. 7 is a view showing a configuration of a cool air supplying apparatus according to an embodiment of the present invention, fig. 8 is a cross-sectional view taken along line 8-8 of fig. 4, and fig. 9 is a view showing a state where cool air supply and heat radiation are performed in a refrigerator for an entrance according to an embodiment of the present invention.

Referring to fig. 7 to 9, the cool air supplying apparatus 200 according to the embodiment of the present invention may be disposed at a lower portion of the cabinet 100, and disposed at a lower portion of the storage chamber 110a to form a cool air flow path and a heat dissipation flow path.

The cool air supplying apparatus may include a thermoelectric element module generating cool air. Since the hallway refrigerator 100 does not have a part for driving a refrigeration cycle, and does not have a sound source having high noise such as a compressor, for example, it is possible to exhibit an effect of reducing noise generated in driving the refrigerator 100.

Further, since the thermoelectric element module is relatively light in weight, the weight of the entrance refrigerator 100 that needs to be stably installed in the entrance door D can be reduced.

The thermoelectric element module 200 includes thermoelectric elements, which are elements that achieve cooling and heat generation using the peltier effect. When the heat absorbing side of the thermoelectric element is disposed to face the storage chamber 110a and the heat generating side of the thermoelectric element is disposed to face the lower portion of the refrigerator 100, the storage chamber 110a may be cooled by the operation of the thermoelectric element.

In detail, the thermoelectric element module 200 may include: a module body 210 having a quadrangular plate shape, to which the thermoelectric element is coupled; a cold-side heat sink (cold sink)230 disposed at one side of the module body 210 to exchange heat with cold air of the storage chamber 110 a; and a hot side heat sink (heat sink)220 disposed at the other side of the module body 210 to exchange heat with the external air.

With the thermoelectric element module 200 as a reference, one side of the module main body 210 may be a side facing the storage chamber 110, i.e., an upper side, and the other side may be a side facing the outside of the refrigerator 100, i.e., a lower side.

The cold-side heat sink 230 is configured to contact heat absorbing portions of the thermoelectric elements, and the hot-side heat sink 220 is configured to contact heat dissipating portions of the thermoelectric elements. The heat absorbing portion and the heat dissipating portion of the thermoelectric element may have a shape that allows surface contact, and may have surfaces opposite to each other.

In the thermoelectric element module 200, it is necessary to quickly dissipate heat from the heat dissipating part of the thermoelectric element, and sufficient heat absorption can be achieved in the heat absorbing part of the thermoelectric element. Accordingly, the heat exchange area of the hot side heat sink 220 may be greater than the heat exchange area of the cold side heat sink 230.

The hot side heat sink 220 and the cold side heat sink 230 may each include a base in contact with the thermoelectric element and a heat exchange fin combined with the base.

The thermoelectric element module 200 may further include a module insulation material 240 disposed between the cold-side heat sink 230 and the hot-side heat sink 220. For example, the module insulation material 240 may have a quadrangular frame shape and be disposed to surround the edges of the thermoelectric elements.

A cool air circulation fan 270 may be provided on an upper side of the thermoelectric element module 200, and the cool air circulation fan 270 is disposed to face the storage chamber 110a and forcibly circulates cool air of the storage chamber 110 a. The cool air circulation fan 270 may be located at an upper side of the cold-side heat sink 230. For example, the cool air circulation fan 270 may include a centrifugal fan that sucks in cool air in an axial direction and discharges the cool air in a radial direction.

The case 110 may include: an outer case 101 forming an external appearance of the refrigerator 100 for the entrance; an inner case 101 inserted into the inside of the outer case 101, forming at least a portion of an inner wall of the storage chamber; and a heat insulating material 103 provided between the outer case 101 and the inner case 101.

A first flow path pipe 290 is provided inside the case 110, and the first flow path pipe 290 extends from the cold-side heat sink 230 to guide the flow of cold air.

The first flow channel pipe 290 may extend laterally from both sides of the cold-side heat sink 230 and then extend upward. A first cold air flow path 291 may be formed inside the first flow path pipe 290. The first channel pipe 290 may be connected to the second channel pipe 105.

Second flow path pipes 105 are provided at both sides of the inner case 101. The second flow duct 105 forms the storage chamber side wall 123, and the cold air discharge hole 129 is formed at an upper portion of the second flow duct 105.

A second cold air flow path 106 through which cold air flows is formed between both side surfaces of the inner case 101 and the second flow path duct 105. The second cold air flow path 106 may extend upward from the first cold air flow path 291.

When the cool air circulation fan 270 is driven, the cool air of the storage chamber 110a flows in the axial direction of the cool air circulation fan 270 through the cool air inflow hole 128, and is cooled by heat exchange with the cold-side heat sink 230. Thereafter, the cooled cold air flows to both sides in the radial direction of the cold air circulation fan 270 and flows into the first cold air flow path 291.

The cold air flowing along the first cold air flow path 291 flows upward and flows into the second cold air flow path 106, and is then discharged from both sides of the storage chamber 110a through the cold air discharge hole 129.

The thermoelectric element module 200 may further include a heat dissipation fan 280, and the heat dissipation fan 280 introduces external air (indoor air) and heat-exchanges it with the heat dissipation part of the thermoelectric element. The heat dissipation fan 280 may be supported by the case bottom 115 and disposed above the external air inflow portion 252. For example, the heat dissipation fan 280 may include a centrifugal fan that sucks in cold air in an axial direction and discharges the cold air in a radial direction.

A heat dissipation flow path pipe 260 may be provided inside the case 110, the heat dissipation flow path pipe 260 extending from the hot-side heat sink 220 and guiding the flow of external air, and a heat dissipation flow path 261 formed inside the heat dissipation flow path pipe 260. The heat dissipation flow channel duct 260 extends laterally from both sides of the hot-side heat sink 220, and is connected to the heat dissipation discharge part 255.

When the heat dissipation fan 278 is driven, the external air flows in the axial direction of the heat dissipation fan 280 through the external air inflow portion 252, exchanges heat with the hot-side heat dissipation member 220, and is heated. Thereafter, the heated cold air may flow in a radial direction of the heat dissipation fan 270 and be discharged from the heat dissipation discharge part 255 to the outside of the refrigerator through the heat dissipation flow path duct 260.

On the other hand, as the electric power required for the entrance refrigerator 100, electric power supplied to an intercom, a doorbell, or an indoor lighting source provided around the door D may be used.

Fig. 10 is a diagram showing a state in which the refrigerator for the entrance according to the embodiment of the present invention is installed on the wall surface of the entrance.

Referring to fig. 10, the refrigerator 100a for an entrance according to an embodiment of the present invention may be installed on an entrance wall W. For example, the hallway refrigerator 100a may be attached to the wall W. That is, the back surface of the vestibule refrigerator 100a is attached to the wall W, and the indoor side door 170 may be omitted as compared to the refrigerator provided with a door as illustrated in fig. 1. The back of the vestibule refrigerator 100a may form an attachment surface a.

Therefore, both the sender and the user can access the storage room of the box using the outdoor side door 180.

Since the cabinet provided in the entrance refrigerator 100a has a similar configuration to the cabinet 110 of the entrance refrigerator 100 described in fig. 1, the description of fig. 1 to 3 is referred to.

A code reader 184a may be provided at a lower portion of the front surface of the refrigerator 100 a. The position of the code reader 184a is different from the position of the code reader 184 illustrated in fig. 1. However, the description of the function and operation of the code reader 184a refers to the description of the code reader 184 described in fig. 1.

Fig. 11 is a view showing a state in which the refrigerator for an entrance according to the embodiment of the present invention is hung in front of the entrance door by a cord.

Referring to fig. 11, a refrigerator 100b for an entrance may be attached to a front surface of a door D and supported by a string R according to an embodiment of the present invention. The rear surface of the refrigerator 100b may form an attachment surface a'.

The string R may be attached to an upper portion of the door D to extend downward, and connected to an upper end portion of the refrigerator 100 b. The structure of the refrigerator 100b is the same as that of the refrigerator 100a described with reference to fig. 10, and therefore, the description with reference to fig. 10 will be referred to.

Fig. 12 is a diagram showing a state in which a refrigerator for an entrance according to an embodiment of the present invention is placed on a stand.

Referring to fig. 12, a refrigerator 100c for an entrance of an embodiment of the present invention may be supported on a bracket S. The stand S may have a substantially quadrangular frame shape and be capable of standing upright. For example, the bracket S may be disposed around the entrance door D or the entrance wall W.

Also, a doorbell B may be provided in the rack S, and a part of the power supplied to the doorbell B may be transmitted to the entrance refrigerator 100c for use. The description of the configuration of the entrance refrigerator 100c itself will be referred to the description of the refrigerator described in fig. 10 and 11.

Fig. 13 is an exploded perspective view showing a structure in which a refrigerator for a hallway according to an embodiment of the present invention is fitted into a wall surface, and fig. 14 is a cross-sectional view taken along line 14-14 of fig. 13.

Referring to fig. 13 and 14, as shown in fig. 10, the vestibule refrigerator 100 according to the embodiment of the present invention may be installed to penetrate a wall.

However, unlike the embodiment shown in fig. 10, the front surface of the entrance refrigerator 100 of the present embodiment protrudes more toward the indoor side than the outdoor side.

In other words, the present embodiment is characterized in that the front support 119 of the casing 110 is not exposed to the outdoor side O but is in close contact with the indoor side wall surface. In this way, inconvenience to pedestrians caused by the hallway refrigerator 100 is avoided by minimizing the length of the outdoor side door 180 protruding from the outdoor side of the wall W.

Therefore, according to the present embodiment, a sensor device, a barcode scanner, or the like provided on the front support 119 needs to be provided on the front side of the outdoor side door 180.

In addition, the hallway refrigerator 100 according to the embodiment of the present invention may include a cabinet 110 and a bracket 120, and the bracket 120 surrounds upper, lower, left, and right sides of the cabinet 110 embedded in the wall W.

An opening h is formed in the wall W, and the case 110 is inserted into the opening h. The bracket 120 is closely attached to and fixed to the edge of the opening h, and a part of the outer circumferential surface of the case 110 is fixed to the bracket 120.

In detail, a fastening protrusion may be formed on one of an outer circumferential surface of the case 110 and an inner circumferential surface of the bracket 120, and a fastening groove into which the fastening protrusion is inserted may be formed on the other.

In the present embodiment, a case is shown in which a fastening projection 110b is projected on an outer circumferential surface of the case 110, and a fastening groove 120a is formed on an inner circumferential surface of the bracket 120.

The refrigerator 100 for the hallway is installed in the following order.

First, the bracket 120 is inserted into and fixed to the opening h of the wall W. Thereafter, the housing 110 is horizontally moved from the indoor side I to the outdoor side O, and is inserted into the bracket 120. The fastening projection 110b is inserted into the fastening groove 120 a. At this time, the fastening projection 110b may be formed of an elastically deformable material, thereby preventing damage during sliding along the inner circumferential surface of the bracket 120 until the case is inserted into the fastening groove 120 a.

Fig. 15 is a block diagram showing a control configuration of the refrigerator for the entrance according to the embodiment of the present invention.

Referring to fig. 15, the hallway refrigerator 100 according to the embodiment of the present invention may include a control unit 500, a power supply unit 510, an input unit 520, an output unit 580, a temperature sensor 560, a door lock 570, and an interface unit 550.

In detail, the input part 520 includes a unit for a sender including a user or a courier driver to input various information to the control part 500.

For example, the input unit 520 may include at least one of an input key 521, an article information identifier 522, a communication module 523, a touch input unit 524, an image capturing unit 525, a microphone 526, a motion signal detecting unit 527, a proximity signal detecting unit 528, a vibration signal detecting unit 529, and a body information detecting unit 530.

The input keys 521 may include a mechanical key provided around the display portion 180 of the hallway refrigerator 100, and a case operated by a user or a sender by applying a predetermined pressure with a finger. The input key 521 may include a pressure sensor using an input switch or a piezoelectric sensor.

The input button 521 may be disposed not only on the outdoor side door 180 but also on one side of the case 110.

The article information identifier 522 may include any one of or both of a barcode scanner 522a identifying a barcode printed or attached to a packing box of a product and a QR code scanner 522b identifying a QR code.

The Communication module 523 may include one or both of a Near Field Communication signal detection unit 523a that recognizes a signal transmitted from a Near Field Communication module (NFC) built in a mobile phone of a user and a remote controller signal detection unit 523b that recognizes a signal transmitted from a remote controller.

The touch input unit 524 may include a touch screen displayed on the screen of the display unit 150. The touch input part 524 may include a capacitive touch key for detecting an input signal by detecting a change in capacitance generated when a finger of a user approaches or contacts a screen.

The image capturing unit 525 may include not only the camera 118 installed inside the storage chamber 110a but also an image analyzing camera or a fingerprint recognizing camera for recognizing a user, which is provided on the front side of the outdoor side door 180 and captures the face of the user or the dispatcher.

The proximity signal detecting section 528 may include an infrared sensor (IR sensor) composed of an infrared emitting section and an infrared receiving section.

The vibration signal detecting part 529 may include a tap signal detecting part 529a, and the tap signal detecting part 529a detects vibration or sound waves generated when the user taps the display part 150 with a hand.

The body information detecting unit 530 may include at least one of a vein information detecting unit 531 for detecting a vein pattern of the user, an iris information detecting unit 532 for recognizing an iris of the user, and a DNA information detecting unit 533 for recognizing genetic information of the user.

The output unit 580 may include a display unit 581 that outputs image information or video information. The display portion 581 is a display portion 150 (see fig. 1) provided in the outdoor side door 180.

The output unit 580 may further include a speaker 582 for outputting various notification sounds, multimedia broadcast sounds, or guidance sounds. The speaker may be an example of a sound output section.

On the other hand, the door lock 570 may include a door lock unit having the latch 158. The door lock 570 is provided to prevent the indoor side door 170 or the outdoor side door 180 from being arbitrarily opened or an unauthenticated person from opening the outdoor side door 180.

The temperature sensor 534 is disposed in the storage chamber 110a and configured to detect a temperature of the storage chamber 110 a.

The vestibule refrigerator 100 may further include an interface unit 550, and the interface unit 550 may function as a passage for connecting various external devices. For example, the interface unit 550 may include a wired/wireless data port for connecting a data storage device including a USB (Universal Serial Bus) or SD Card (Secure Digital Memory Card).

Fig. 16 is a network system connecting a refrigerator for an entrance and a user terminal according to an embodiment of the present invention.

Referring to fig. 16, a refrigerator 100 for a hallway according to an embodiment of the present invention is communicably connected to a user terminal and a dispatcher terminal via the internet.

In detail, the user terminal may include the computer 10 or the mobile device 20. The sender terminal 30 may comprise a mobile device or a PDA (personal digital assistant) terminal or the like.

When a user connects to the internet using the computer 10 or the mobile device 20 and purchases an article in a store connected to the internet, information on the purchased article and/or authentication-related information may be transmitted to the control unit 500 of the entrance refrigerator 100 and stored in a memory or a separate server connected to the control unit.

At the same time, the information on the purchased article and/or the authentication-related information may be caused to be transmitted to the server of the delivery company and to the sender terminal 30. The information about the purchased item may be transmitted to the courier company server in the form of an encrypted code, such as a barcode or QR code, which the courier company may attach to the package in which the item was purchased.

In addition, the authentication-related information may be transmitted to the server of the courier company together with the information on the purchased article and then finally transmitted to the terminal 30 of the dispatcher, and may be transmitted to the user who purchased the article.

Alternatively, it may be configured such that the user can directly generate at least one of the encryption code and the authentication-related information. In the case where the user can directly generate the encryption code and/or the authentication-related information, the user can also directly transmit the encryption code and the authentication-related information and/or the authentication-related information to the dispatcher's terminal 30 after receiving the dispatcher's terminal 30 number from the express company.

Next, a method of using the refrigerator 100 for a hallway according to the embodiment of the present invention will be described in detail with reference to a flowchart.

Fig. 17 is a flowchart schematically illustrating a process in which a user orders goods through the internet and goods information is stored in a refrigerator for an entrance.

Referring to fig. 17, the user may connect to the internet through the computer 10 or the mobile device 20 and connect to or log in a shopping mall website or a supermarket website where goods are sold.

In the case where the user connects to the internet using the mobile device 20, the user may connect to or log in to a shopping mall or supermarket website using a specific application provided to the mobile device.

The specific application as a unit to which the control part 500 of the refrigerator 100 for a hallway, the mobile device 20 of the user, and the terminal 30 of the dispatcher of the embodiment of the present invention are connected can share information about purchased goods, authentication information, and the like with each other.

Here, since the terminal 30 of the sender is managed by the server of the corresponding delivery company or post office, it can be interpreted that the terminal 30 of the sender is the same as the server of the corresponding delivery company or post office.

On the other hand, the user connects to the internet through an application provided in a computer or a terminal, connects or logs in to an online mall or an online supermarket where a desired commodity is sold, and then orders a desired commodity (or article) (S110).

If the user selects any one of the cash transfer and the card payment method to end the payment process, it is regarded as the order end (S120), it is regarded as the order end, and the encryption code generation process is performed (S130).

Here, the authentication information may be generated together with the generation of the encrypted code. The authentication information may be regarded as an auxiliary method used in a case where the dispatcher cannot normally perform the job of identifying the encrypted code through the scanner 595.

In detail, if the sticker printed with the encryption code is damaged or the packing box is damaged during the distribution of the goods, the barcode 595 may not normally recognize the encryption code. In this case, the dispatcher can directly input the authentication information through the input unit 520, specifically, the input key 591 or the touch input unit 594, provided in the entrance refrigerator 100. The authentication information may be a combination of a plurality of numbers or a combination of a plurality of numbers and letters.

On the other hand, an encrypted code (e.g., a barcode or a QR code) including information about the commodity may be automatically generated at a server of an online mall that sells the commodity after the order is ended.

If the encryption code and the authentication information are generated, a process of transmitting the generated encryption code and the authentication information (S140) and a process of receiving and storing the transmitted encryption code and the authentication information (S150) are performed.

In detail, in the case that the online shopping mall or the online supermarket is a company that directly produces, packages, and sells the item, the generation and storage processes of the encryption code and the authentication information may be performed at a server of the online shopping mall or the online supermarket.

In this case, the cyber mall or the cyber supermarket may be caused to transmit the encryption code and the authentication information to a server of a delivery subject (for example, a courier company or a post office). The delivery body having received the authentication information can transmit the authentication information to the terminal 30 of the dispatcher who delivers the item.

However, in the case where the cyber mall or the cyber supermarket is an intermediary, i.e., an agent, connecting the goods of the manufacturer producing the purchased goods and the consumers, the encryption code and the authentication information automatically generated at the server of the agent may be transmitted to the packaging body, i.e., the manufacturer or the packaging company.

Here, the generated encryption code may be printed on the surface of the package by the package main body, or may be attached to the surface of the package in the form of a sticker. The authentication information may be transmitted by the packaging body to a server of a delivery body.

The authentication information automatically generated by the server of the agent may be transmitted to the server of the packaging body together with the encrypted code, or may be directly transmitted to the delivery body who has previously agreed to deliver the item.

As another example, the encryption code and the authentication information may be directly generated by a user, i.e., a consumer who orders goods. In detail, if the user finishes payment for purchasing goods, the server of the online mall or online supermarket may display a screen for generating the encryption code and the authentication information on the computer or terminal screen of the user, so that the user directly generates the encryption code and the authentication information.

More specifically, when the operation of directly generating the encryption code and the authentication information by the user is finished, the generated encryption code and the authentication information may be transmitted to the control part 500 of the entrance refrigerator 100 and the computer 10 or the mobile device 20 of the user and stored therein.

In addition, if the dispatcher who dispatches the purchase goods is finalized and the information of the dispatcher, i.e., the name and the number of the terminal 30 of the dispatcher, is transmitted to the mobile device 20 of the user, the user can directly transmit the generated encryption code and authentication information to the terminal 30 of the dispatcher.

Here, it may be more convenient to print or attach the encryption code to a packing box of the goods in a sticker form. Therefore, in the case where the body of the packaged product and the body of the delivery product are different, the encrypted code can be directly transmitted to the packaging body of the packaged product, i.e., the vendor or the manufacturer, and only the authentication information can be transmitted to the delivery body, i.e., the portable terminal 30 of the dispatcher.

As another method, when the order of the goods is finished, the encryption code may be automatically generated at the server of the cyber mall or the cyber supermarket and transmitted to the refrigerator 100 for the entrance and the packing body, and the user may directly generate the authentication information. The generated authentication information may be transmitted to and stored in the control part of the refrigerator 100 for the entrance and the portable terminal of the user. In this state, if the information of the dispatcher is transmitted to the terminal of the user, the user can transmit the authentication information to the terminal of the dispatcher.

In summary, the present invention is characterized in that when a user orders a product and finishes payment, an encryption code and/or authentication information is automatically generated or directly generated by the user, and the generated encryption code and/or authentication information is transmitted to a control part of the refrigerator 100 for a gateway, a packing box of the ordered product, and a terminal 30 of a dispatcher by a preset method and route.

It should be understood that the method of transmitting the encryption code and/or the authentication information to the vestibule refrigerator 100, the packing case of the ordered goods, and the terminal 30 of the dispatcher of the present invention is not limited to one.

Fig. 18 is a flowchart illustrating a method of storing an order article in a refrigerator for an entrance according to an embodiment of the present invention.

The control method mentioned in fig. 18 is premised on a case where an encryption code and authentication information including information on a product ordered by a user are transmitted to the control section 500 of the refrigerator 100 for an entrance and stored in a memory or a server.

Referring to fig. 18, first, a dispatcher needs to open an outdoor side door 180 of the refrigerator 100 for an entrance to store an ordered commodity in the storage chamber 110a of the refrigerator 100 for an entrance.

In order to open the outdoor side door 180, the display unit 150 provided on the front surface of the outdoor side door 180 needs to be activated (S210), and the encryption code or the authentication information needs to be input.

In detail, the method of activating the display part 150 may include any one of a method in which a user taps the screen of the display part 150 at least once with a hand, and a method in which a user touches the screen of the display part 150 with a hand.

Alternatively, the display unit 150 may be automatically activated when the proximity sensor 531 provided on either side of the outdoor side door 180, including the display unit 150, detects the approach of the sender.

Alternatively, when the proximity sensor 531 detects the approach of the dispatcher, a camera provided on the front surface of the outdoor side door 180 may capture the dispatcher and transmit the captured image information to the control unit 500. The display part 150 may be activated when the control part 500 analyzes the photographed image and determines that it is a dispatcher.

For example, the display unit 150 may be activated when it is determined by the image analysis operation that the marker pattern or mark printed on the clothing or hat of the delivery person matches the delivery subject information stored in the memory or the server.

When the display unit 150 is activated, the dispatcher selects the "storage mode" by touching a touch input unit, specifically, a "storage mode" icon, which is viewed on the screen (S220). When a predetermined time has elapsed from the time point when the display unit 150 is activated and there is no operation of touching the screen of the display unit 150 for inputting a command including the "storage mode", it is possible to control the display unit 150 to return to the deactivated state again.

When the storage mode is selected, the control unit executes a process (S240) of determining whether the order information matches by scanning the encrypted code (S230).

Specifically, the encrypted code printed or attached to the package may be displayed in the form of text or video on the screen of the display unit 150 in proximity to the command of the scanner 595.

Alternatively, the command may be output as a voice signal through a speaker 582 attached to one side of the outdoor side door 180 or one side of a portion of the case that protrudes to the outside.

When the encrypted code in the form of the barcode or QR code read by the scanner 595 is transmitted to the control unit 500, the control unit uploads the encrypted code information stored in the memory or the server and compares the encrypted code information with the encrypted code information received from the scanner 595.

If it is determined that the order information stored in the memory or the server matches the information hidden in the scanned encryption code, the control unit 500 unlocks the locked state of the door lock 570 of the outdoor side door 180 (S250). At this time, the outdoor side door 180 may be opened by slightly pivoting the outdoor side door 180 forward, and a signal for notifying the opening of the outdoor side door 180 may be output in the form of any one of a character, a video, and a voice signal.

Here, a scanning error may occur in which the encryption code printed or attached to the packing box is damaged during the transportation, so that the scanner 595 cannot scan the encryption code. In this case, the control unit 500 may output the command in the form of text or video on the display unit 581 or in the form of a voice signal through the speaker 582 to request re-execution of the operation for scanning the encrypted code.

If the dispatcher recognizes the re-execution command of the seedling scanning action, the dispatcher re-executes the action of bringing the encrypted code printed or attached to the packing box close to the scanner 595.

Nevertheless, an error may occur in which the scanner 595 cannot recognize the encrypted code. When the number of scanning errors reaches the predetermined number n1(S241), the control unit 500 may interrupt the scanning operation and perform another type of authentication process.

Specifically, when the number of scanning errors reaches the predetermined number n1, the control unit 500 may display a command requesting input of an authentication code generated together with an encryption code and transmitted to the storage or server of the entrance refrigerator 100 and the terminal 30 of the dispatcher on the display unit.

The command requesting the input of the authentication code may be output to the dispatcher in any form of text, video, or voice, and a number key icon into which the authentication code may be input may be displayed on the screen of the display portion 581.

In this case, the dispatcher inputs the authentication code of the product stored in the terminal 30 (S242), and opens the outdoor side door when the input authentication code matches the authentication code stored in the memory or server of the entrance refrigerator 100 (S243).

On the other hand, if an error for the reason of the inconsistency of the authentication code occurs during the authentication code input process and the number of errors reaches the predetermined number n2(S244), the authentication code input process may be terminated forcibly and a notification signal may be transmitted to the computer 10 or the mobile device 20 of the user (S245).

When the authentication code input process is forcibly terminated, guidance information notifying that the outdoor side door has failed to open due to, for example, inconsistency in the authentication codes and guidance information providing direct contact with the user may be output on the display portion 581 in the form of text or video, or may be output in the form of a voice message through the speaker 582.

The steps S230 to S250 are authentication steps performed to open the door before the delivery person puts the ordered goods into the storage room 110a, and may be defined as so-called "in-box authentication steps". The encryption code and the authentication code may be defined as "in-box authentication information".

On the other hand, if the encrypted code scanning or authentication code confirmation process is successful and the outdoor side door 180 of the hallway refrigerator 100 is opened, the delivery person puts the delivery goods into the storage room 110a and closes the outdoor side door 180.

Here, in a state where the outdoor side door 180 is opened, the opening of the indoor side door 170 may be restricted.

Specifically, if the user can open the indoor side door 170 indoors with the outdoor side door 180 open, the user may not only be able to check the indoor space from outdoors, but also be more likely to be involved in a crime.

Furthermore, in the case of delivering goods in the morning hours or at night, it is advantageous for the user and the deliverer not to face each other to protect the privacy of the user. Therefore, in a state where the outdoor side door 180 is opened, the control unit 500 may control the door lock of the indoor side door 170 to be locked so as to prevent the indoor side door 170 from being opened. This also makes it possible to restrict the opening of the outdoor side door 180 in a state where the indoor side door 170 is open.

On the other hand, when the delivery person puts the delivered goods into the storage room 110a and closes the outdoor side door 180(S260), the image capturing unit 592 installed in the storage room 110a, that is, the camera 118, may be controlled to capture the image of the inside of the storage room 110a and transfer the captured image to the computer 10 or the mobile device 20 of the user (S270).

Alternatively, only a text message notifying that the delivery item has been stored in the storage room 110a is transmitted to the mobile device 20 of the user, but it is not excluded that the text message is transmitted together with the image information.

The user can confirm the storage room internal image information received from the control unit 500 and grasp the state of the inside of the storage room 110 a. For example, the user can easily grasp how much remaining space is available for storage, which is the current storage of several shipping articles, through the image information.

Here, the control unit 500 may transmit a notification signal to the computer 10 or the mobile device 20 of the user when the storage room 110a is filled with the delivered article and sufficient space for additionally storing the delivered article cannot be secured in the storage room 110 a.

In this state, when the dispatcher activates the display unit for storing the article, only the take-out button may be displayed on the display unit without displaying the storage button.

Further, when the movement of a person is detected by the proximity sensor 531 provided on the front side of the indoor side door 170 or the case 110, the notification signal may be transmitted to the user's computer 10 or the mobile device 20.

When the outdoor side door is closed (S260), any one of deletion, initialization, and reset of the encrypted code information and the authentication information used when the outdoor side door is opened may be performed from the memory or the server, thereby preventing reuse (S280).

If the encrypted code can be used again, it is impossible to exclude the possibility that an unauthenticated person copies the encrypted code to open the outdoor side door 180 and cut out the articles stored in the storage room 110 a. Therefore, it is preferable to restrict the encryption code and the authentication information to be disposable.

As another embodiment, the scanning process of the encrypted code may be omitted, and the authentication code input step (step S242 and following steps) may be directly executed when the storage mode is entered. In this case, it is possible to omit the additional encryption code generation in the goods ordering process and generate only the authentication code.

On the other hand, if opening of the indoor side door 170 is detected while the storage mode is selected by the dispatcher and the step of box entering authentication is being executed, the control unit 500 may control to interrupt or terminate the step of box entering authentication and prevent opening of the outdoor side door 180.

In addition, the control unit 500 may control to reopen the box entering authentication procedure if closing of the indoor side door 170 is detected after the box entering authentication procedure is interrupted or terminated.

It is understood that the re-opening of the in-box authentication step includes a method of starting a re-start from the custody mode selection step (S220) and a method of continuing to perform a step after a point of time at which the in-box authentication step is interrupted.

Fig. 19 is a flowchart showing a storage room temperature control method performed when a delivered article is stored in the hallway refrigerator according to the embodiment of the present invention.

Referring to fig. 19, when it is detected that the outdoor side door 180 is closed after being opened (S310), the control unit 500 controls the camera 118 to photograph the inside of the storage room 110a (S320). The control unit 500 analyzes the captured image to determine whether or not an article is present in the storage room 110a (S330).

If it is determined that the article is present in the storage compartment, power is applied to the thermoelectric element module 200 to turn on the module (S340). Thereby, the cold-side heat sink 230 of the thermoelectric element module 200 is cooled to cool the storage chamber 110a to a set temperature.

Further, the temperature sensor 534 provided in the storage chamber 110a detects the internal temperature of the storage chamber 110a, and determines whether or not the storage chamber temperature is cooled to a set temperature T1 or less (S350).

If the storage compartment temperature is cooled to the set temperature T1, that is, the temperature is satisfied, the power supply to the thermoelectric element module 200 is controlled to be cut off (S360). However, the temperature sensor 534 is controlled to detect the temperature of the storage chamber 110a at predetermined time intervals and transmit the detected temperature to the control unit 500.

The controller 500 determines whether the temperature of the storage room is increased to the set temperature T2 or more, and if it is determined that the temperature of the storage room is increased to the set temperature T2, that is, not higher than the set temperature, controls to turn on the thermoelectric element module again (S380).

On the other hand, if it is determined from the image analysis result that there is no article in the storage compartment, the control unit 500 determines whether or not the thermoelectric element module 200 is currently in the on state (S331), and if the thermoelectric element module 200 is in the on state, the power supply to the thermoelectric element module 200 is cut off and the thermoelectric element module 200 is turned off (S332).

As described above, as long as the power supply of the hallway refrigerator 100 is not turned off, the control of turning on/off the thermoelectric element module 200 according to the temperature of the storage chamber 110a may be repeated (S333).

Fig. 20 is a flowchart showing a method of taking out the order goods shipped from the refrigerator for the entrance of the hall according to the embodiment of the present invention.

Referring to fig. 20, the process of taking out the ordered product is a process performed by the user who is the orderer of the ordered product, and means a process performed when the user wants to open the outdoor side door, rather than opening the indoor side door 170 indoors.

The articles stored in the storage room 110a are usually taken out by opening the indoor side door 170 indoors, but in some cases, the articles may be taken out by opening the outdoor side door 180.

For example, it may be the case that, in the case where a mother orders fresh food including milk or snack for a child and stores it in the storage room 110a, the child does not enter the home after going out of class and moves directly to a school or other place after taking out the ordered food outdoors.

Specifically, the user touches the display portion 58 of the outdoor side door 180 to activate the display portion (S410).

As illustrated in step S210 of fig. 18, the activation of the display portion may be realized by an action of touching or tapping the display portion 581 or a face recognition method based on the image capturing portion 592.

When the display portion 581 is activated, a key icon for selecting the "extraction mode" is displayed on the display portion screen, and the user can proceed to the next step by touching the "extraction mode" key icon (S420).

When the extraction mode is selected, guidance characters requesting input of authentication information can be output on the screen of the display portion 581, and guidance voice can be output together through the speaker (S430).

Here, the authentication information includes a password set by the user. Therefore, a number plate image for inputting a password is displayed on the screen, which is the same as that described in step S242 of fig. 18.

The authentication information may include at least one of a face photograph, fingerprint information, iris information, and vein map information of the user in addition to the password. The authentication information may be defined as "out-of-box authentication information" and may be understood as information having a different form from the in-box authentication information defined in fig. 18.

In order to use the authentication information as a method for identifying the user, it is necessary to provide a face recognition camera or a body recognition sensor in the outdoor side door 180.

If it is determined that the password, which is the authentication information input by the user, matches the authentication information stored in the memory or the server (S440), the outdoor side door 180 is controlled to be opened (S450).

On the other hand, if an error occurs in which the authentication information does not match, the authentication information input process may be repeatedly executed until the number of errors reaches the predetermined number n3 (S441), as described with reference to fig. 18. If the number of errors is equal to or greater than the predetermined number n3, the control unit 500 may end the opening process of the outdoor side door.

Before the opening of the outdoor side door is completed, a guidance message indicating that the authentication information is inconsistent and a guidance message indicating that the indoor side door is opened to take out an article can be output through the display unit or the speaker. Further, the guidance message in which the authentication code is reset may be output together.

The steps S430 to S450 are authentication steps performed by the user to open the door before taking out the articles stored in the storage room 110a, and may be defined as a so-called "out-of-box authentication step".

On the other hand, after the outdoor side door is opened, the control unit determines whether or not the outdoor side door is closed (S460).

Whether the outdoor side door is closed or not can be determined by a signal transmitted from a door opening/closing detection sensor of the refrigerator, and a door opening/closing detection sensor that is widely used may be provided in the outdoor side door 180 of the refrigerator. Therefore, the detection part 530 shown in fig. 16 may further include an outdoor side door opening/closing detection sensor and an indoor side door opening/closing detection sensor.

As described above, the opening of the indoor side door can be restricted in a state where the outdoor side door is opened, and the opening of the outdoor side door can be restricted in a state where the indoor side door is opened.

If it is determined that the outdoor side door is closed, the camera 118 in the storage room 110a is controlled to photograph the internal space of the storage room (S470), and the photographed information is transmitted to the control unit 500.

The control unit 500 analyzes the received storage room internal image and determines whether or not an article is present inside the storage room (S480).

If it is determined that an article is present in the storage room, the thermoelectric element module 200 is kept in the on state and the previous storage state is maintained (S481).

On the other hand, if it is determined that the storage chamber is empty, the thermoelectric element module 200 may be turned off (S482).

Fig. 21 is a diagram showing a state before activation of a display unit provided in the outdoor side door.

Referring to fig. 21, the display unit 150 provided in the outdoor side door 180 may be configured not to display any information until activated, or may be configured to display only a guide text "please touch the screen" in order to activate the screen, as shown in the figure.

Fig. 22 is a diagram showing a state in which the display portion of the outdoor side door is activated.

Referring to fig. 22, if the dispatcher activates the display part 150 by touching or tapping the screen of the display part 150, the screen may be caused to display various information.

Specifically, an image or a video including a meaning of welcoming the visit of the dispatcher may be displayed in the center of the screen.

In addition, text information indicating a house number of a user who ordered a commodity may be displayed at the lower end of the image or video.

Further, text or icon information indicating the open/close state of the outdoor side door 180 can be displayed on one edge of the display screen. A LOCK icon and LOCK characters can be displayed on the upper edge of the left side of the display unit, and the current locked state of the outdoor side door 180 can be known from this information.

In addition, text or icon information indicating the current temperature inside the storage chamber 110a and/or the operating state of the thermoelectric module element provided for cooling the storage chamber 110a may be displayed on the other side edge of the display screen.

A light color thermometer and an OFF character are displayed on the upper edge of the right side of the display unit, and it is known from this information that the storage chamber is empty and the thermoelectric element module is in an OFF state.

Further, a key icon for selecting "storage mode" may be displayed at the lower end of the screen of the display unit 150.

Fig. 23 is a diagram showing a display screen output in the encrypted code scanning step.

Referring to fig. 23, a guidance letter for requesting the encrypted code printed or attached to the packing box to be scanned by being placed on the scanner may be displayed on the display screen together with a guidance icon or video.

In this state, the guidance voice can be output together through the speaker 582.

Fig. 24 is a diagram showing a display screen output in the step of inputting the authentication code executed due to the occurrence of the encryption code scanning error.

Referring to fig. 24, a keyboard icon for inputting a number and a number display field for displaying a touched number may be displayed on the display unit screen.

The same screen may be displayed in the step of inputting the authentication code or password executed in the takeout mode by the user in order to take out the article.

Fig. 25 is a display screen showing an output when the encryption code scan succeeds.

Referring to fig. 25, if the encryption code scan or the authentication code input is successful, an icon or a video notifying that the locked state of the outdoor side door 180 is unlocked may be displayed at the center of the screen as shown in the drawing.

Further, a guidance message for notifying that the door is returned to the locked state when the door is closed may be displayed on the lower side of the screen.

In addition, in this step, a voice message notifying that the outdoor side door is opened may be output through the speaker.

Fig. 26 is a screen of the display unit displayed when the user or the dispatcher activates the display unit in a state where the articles are stored in the storage compartment of the refrigerator for the entrance.

Referring to fig. 26, when the shipped items (or commodities) are stored in the storage room 110a, a thermometer icon on the screen side may be activated as a method for notifying that the thermoelectric element module 200 is in the on state.

In addition, the storage compartment interior temperature may be displayed numerically below the thermometer icon.

Further, a locked icon may be displayed on the other side of the display screen to notify that the outdoor side door 180 is locked.

In addition, an icon or a video showing that the article is currently being stored may be displayed in the center of the screen.

Further, a key icon for selecting either the "storage mode" or the "retrieval mode" may be displayed at the lower end of the screen. Although only the key icon for entering the "takeout mode" may be displayed in the state of storing the article, since a situation may occur in which another delivery person additionally stores another article in the state of storing the article, both the key icon for entering the takeout mode and the key icon for entering the storage mode may be displayed.

Fig. 27 is a screen of a display unit which is viewed in an authentication procedure performed by a user to take out a stored article.

Referring to fig. 27, in order for the user to take out the articles stored in the storage room 110a, the user needs to perform a user authentication procedure by inputting a password or an authentication code, or by using other physical information or the user's mobile device 20.

As an example, the user authentication may be achieved by aligning the user mobile device 20 provided with the near field communication module with the center of the screen.

As shown in the drawing, a guide character and an icon requesting that the user mobile device with the close range communication module opened be brought close to the display screen to perform user authentication may be displayed on the display.

In addition to this, various body information recognition methods such as fingerprint recognition, iris recognition, or vein recognition may be used.

Fig. 28 is a diagram showing a display screen of the outdoor side door when the user is taking out articles indoors.

Referring to fig. 28, as described above, the user can restrict the opening of the outdoor side door 180 while the user opens the indoor side door 170 to take out the articles stored in the storage room 110 a.

In this case, a guidance message that the opening of the outdoor side door is temporarily restricted because the indoor side door is currently open may be displayed on the display unit 150.

Here, if it is determined that it is not safe to notify the sender that the indoor side door is open, only a guidance message such as a request for a short time may be simply displayed.