阅读说明：本技术 一种具有识别装置的饮料机和所述饮料机的工作方法 (Beverage machine with identification device and working method of beverage machine ) 是由 雷威恒 俞长海 翁马可 黄国伟 于 2020-08-13 设计创作，主要内容包括：本发明提供一种具有识别装置的饮料机和所述饮料机的工作方法,所述具有识别装置的饮料机包括本体,设置在所述本体上的所述识别装置,和设置在所述本体上且与所述识别装置电性连接的所述发热装置,可以实现所述识别装置识别所述壶的类型后,所述识别装置开启所述发热装置后,所述发热装置对所述壶内的饮料加热,或者所述识别装置断开所述发热装置。具有识别装置的饮料机可以根据识别的所述壶的类型,实现对不具有保温作用的壶中的所述饮料进行加热,对具有保温作用的壶不加热,利用所述壶自身进行保温,如此可以同一种饮料机可以匹配多种类型的壶,并且都可以实现保温效果,使具有识别装置的饮料机可以多功能,使用范围更加广。(The invention provides a beverage machine with an identification device and a working method of the beverage machine, the beverage machine with the identification device comprises a body, the identification device arranged on the body and a heating device arranged on the body and electrically connected with the identification device, and after the identification device identifies the type of a kettle, the heating device heats beverage in the kettle or the identification device cuts off the heating device after the identification device turns on the heating device. The beverage machine with the identification device can realize that the beverage in the kettle without the heat preservation effect is heated according to the type of the kettle which is identified, the kettle with the heat preservation effect is not heated, the kettle is utilized to preserve heat, so that the beverage machine with the identification device can be matched with various types of kettles by the same beverage machine, the heat preservation effect can be realized, the beverage machine with the identification device can be multifunctional, and the application range is wider.)

1. A beverage machine with identification means, the beverage machine of identification means comprising a body, characterized in that it further comprises:

the heating device is arranged on the body, so that after the heating device is started, the heating device heats the beverage in the kettle;

the recognition device is arranged on the body and is electrically connected with the heating device, so that the heating device is turned on or off after the recognition device recognizes the type of the kettle.

2. Beverage machine with identification means according to claim 1, characterized in that the identification means comprise:

the sensing device is used for sensing the type of the kettle and transmitting a corresponding signal of the type of the kettle;

and the control device is electrically connected with the sensing device and the heating device respectively, is used for receiving the signal emitted by the sensing device and turns on or off the heating device according to the signal.

3. Beverage machine with identification means according to claim 2, characterized in that the control means comprise:

the micro-control chip is used for receiving and processing the signal and is connected with an electric terminal and a first ground terminal;

and the isolation unit is electrically connected with the micro-control chip and is used for turning on or turning off the heating device.

4. Beverage machine with identification means according to claim 3, characterized in that it is a coffee machine.

5. Beverage machine with identification means according to claim 4, characterized in that the sensing means are arranged in the lower part of the body near the jug.

6. Beverage machine with identification means according to claim 5,

the sensing device comprises a photosensitive sensing device;

the isolation unit comprises a first isolation unit;

the micro control chip comprises a first micro control chip;

first isolation unit includes optoelectronic coupler, first resistance and second resistance, first resistance one end is connected first micro control chip, the first resistance other end is connected optoelectronic coupler's the 1 st foot, optoelectronic coupler's the 2 nd foot connection electricity, optoelectronic coupler's the 3 rd foot is connected the second resistance, optoelectronic coupler's the 4 th foot is connected the second ground, in order to realize photosensitive induction system senses light transmission the kettle, first isolation unit is closed, opens the device that generates heat, otherwise first isolation unit disconnection, closes the device that generates heat.

7. Beverage machine with identification means according to claim 5,

the induction device comprises a magnetic induction device;

the isolation unit comprises a second isolation unit;

the micro control chip comprises a second micro control chip;

the second isolation unit comprises a magnetic sensing switch and a third resistor, wherein the 1 st pin of the magnetic sensing switch is connected with the third ground end, the 2 nd pin of the magnetic sensing switch is connected with the third resistor and the second micro-control chip so as to realize that the magnetic sensing device senses the magnetic attraction of the kettle, the first isolation unit is disconnected and closes the heating device, and otherwise, the first isolation unit is closed and opens the heating device.

8. Method of operating a beverage machine with identification means according to claim 6, characterized in that it comprises:

step 11: the photosensitive sensing device senses light transmission through the kettle and transmits a first signal to the first micro-control chip, and otherwise, the photosensitive sensing device transmits a second signal to the first micro-control chip;

step 12: the micro control chip receives the first signal and transmits the first isolation unit after processing the first signal, or the first micro control chip receives the second signal and transmits the first isolation unit after processing the second signal;

step 13: the first isolation unit receives the first signal and closes the first isolation unit, or the first isolation unit receives the second signal and opens the first isolation unit;

step 14: and closing the first isolation unit, and opening the heating device, or opening the first isolation unit and closing the heating device.

9. Method for using a beverage machine with identification means according to claim 7, characterized in that the method:

step 21: the magnetic sensing switch senses magnetic attraction of the kettle and transmits a third signal to the second micro-control chip, otherwise, a fourth signal is transmitted to the second micro-control chip;

step 22: the second micro control chip receives the third signal and transmits the second isolation unit after processing the third signal, or the second micro control chip receives the fourth signal and transmits the second isolation unit after processing the fourth signal;

step 23: the second isolation unit receives the third signal and opens the second isolation unit, or the second isolation unit receives the fourth signal and closes the second isolation unit;

step 24: and opening the second isolation unit, closing the heating device, or closing the second isolation unit and opening the heating device.

10. The beverage machine with identification device as claimed in claim 3, wherein said micro control chip is a single chip microcomputer with model number HT66F 018.

Technical Field

The invention relates to the field of beverage devices, in particular to a beverage machine with an identification device and a working method of the beverage machine.

Background

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, it is an object of the present invention to provide a beverage maker with identification means and a method of operating the beverage maker. The kettle aims to solve the problem that the types of the kettles cannot be selected randomly when the beverage machine and the kettle realize the heat preservation function in the prior art.

The technical scheme of the invention is as follows:

beverage machine with identification means, comprising a body, wherein it further comprises:

the heating device is arranged on the body, so that after the heating device is started, the heating device heats the beverage in the kettle;

the recognition device is arranged on the body and is electrically connected with the heating device, so that the heating device is turned on or off after the recognition device recognizes the type of the kettle.

The beverage machine with identification means, wherein the identification means comprises:

the sensing device is used for sensing the type of the kettle and transmitting a corresponding signal of the type of the kettle;

and the control device is electrically connected with the sensing device and the heating device respectively, is used for receiving the signal emitted by the sensing device and turns on or off the heating device according to the signal.

The beverage machine with identification means of stated, wherein, the stated controlling device includes:

the micro-control chip is used for receiving and processing the signal and is connected with an electric terminal and a first ground terminal;

and the isolation unit is electrically connected with the micro-control chip and is used for turning on or turning off the heating device.

The beverage machine with the identification device is a coffee machine.

The beverage machine with the identification device is characterized in that the sensing device is arranged at the middle lower part of the body and close to the pot.

The beverage maker with identification means is described, wherein,

the sensing device comprises a photosensitive sensing device;

the isolation unit comprises a first isolation unit;

the micro control chip comprises a first micro control chip;

first isolation unit includes optoelectronic coupler, first resistance and second resistance, first resistance one end is connected first micro control chip, the first resistance other end is connected optoelectronic coupler's the 1 st foot, optoelectronic coupler's the 2 nd foot connection electricity, optoelectronic coupler's the 3 rd foot is connected the second resistance, optoelectronic coupler's the 4 th foot is connected the second ground, in order to realize photosensitive induction system senses light transmission the kettle, first isolation unit is closed, opens the device that generates heat, otherwise first isolation unit disconnection, closes the device that generates heat.

The beverage maker with identification means is described, wherein,

the induction device comprises a magnetic induction device;

the isolation unit comprises a second isolation unit;

the micro control chip comprises a second micro control chip;

the second isolation unit comprises a magnetic sensing switch and a third resistor, wherein the 1 st pin of the magnetic sensing switch is connected with the third ground end, the 2 nd pin of the magnetic sensing switch is connected with the third resistor and the second micro-control chip so as to realize that the magnetic sensing device senses the magnetic attraction of the kettle, the first isolation unit is disconnected and closes the heating device, and otherwise, the first isolation unit is closed and opens the heating device.

Method of operating a beverage machine with identification means, wherein the method:

step 11: the photosensitive sensing device senses light transmission through the kettle and transmits a first signal to the first micro-control chip, and otherwise, the photosensitive sensing device transmits a second signal to the first micro-control chip;

step 12: the micro control chip receives the first signal and transmits the first isolation unit after processing the first signal, or the first micro control chip receives the second signal and transmits the first isolation unit after processing the second signal;

step 13: the first isolation unit receives the first signal and closes the first isolation unit, or the first isolation unit receives the second signal and opens the first isolation unit;

step 14: and closing the first isolation unit, and opening the heating device, or opening the first isolation unit and closing the heating device.

Method of the beverage machine with identification means, wherein the method:

step 21: the magnetic sensing switch senses magnetic attraction of the kettle and transmits a third signal to the second micro-control chip, otherwise, a fourth signal is transmitted to the second micro-control chip;

step 22: the second micro control chip receives the third signal and transmits the second isolation unit after processing the third signal, or the second micro control chip receives the fourth signal and transmits the second isolation unit after processing the fourth signal;

step 23: the second isolation unit receives the third signal and opens the second isolation unit, or the second isolation unit receives the fourth signal and closes the second isolation unit;

step 24: and opening the second isolation unit, closing the heating device, or closing the second isolation unit and opening the heating device.

The beverage machine with the identification device is characterized in that the micro control chip is a single chip microcomputer with the model number of HT66F 018.

Has the advantages that: the invention provides a beverage machine with an identification device, which comprises a body, the identification device arranged on the body and a heating device arranged on the body and electrically connected with the identification device, wherein after the identification device identifies the type of a kettle, the heating device heats beverage in the kettle after the identification device turns on the heating device, or the identification device turns off the heating device. The beverage machine with the identification device can realize that the beverage in the kettle without the heat preservation effect is heated according to the type of the kettle which is identified, the kettle with the heat preservation effect is not heated, the kettle is utilized to preserve heat, so that the beverage machine with the identification device can be matched with various types of kettles by the same beverage machine, the heat preservation effect can be realized, the beverage machine with the identification device can be multifunctional, and the application range is wider.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of a beverage machine with an identification device according to the present invention.

Fig. 2 is a cross-sectional view of a preferred embodiment of the beverage machine with an identification device of the present invention.

Figure 3 is a perspective view of a preferred embodiment of a beverage maker with an identification device of the present invention, after the carafe is assembled.

FIG. 4 is a cross-sectional view of a preferred embodiment of a carafe for a beverage maker having an identification device in accordance with the present invention.

Fig. 5 is a circuit diagram of a photosensitive sensing device of a preferred embodiment of the beverage maker with an identification device according to the present invention.

Figure 6 is a cross-sectional view of a preferred embodiment of a beverage machine with an identification device equipped with a thermo jug according to the present invention.

Fig. 7 is a circuit diagram of a magnetic induction device of a preferred embodiment of the beverage machine with an identification device of the present invention.

Fig. 8 is a flow chart of a preferred embodiment of the method of operation of a beverage maker with an identification device according to the present invention.

Fig. 9 is a flow chart of another preferred embodiment of the working method of the beverage machine with the identification device in the present invention.

Detailed Description

The invention provides a beverage machine with an identification device and a working method of the beverage machine, and the invention is further described in detail below in order to make the purpose, technical scheme and effect of the invention clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The present invention provides a beverage machine with an identification device, as shown in fig. 1 and fig. 3, the beverage machine includes a body 100, a heat generating device 400 and an identification device 200, the heat generating device 400 is assembled on the body 100, and the heat generating device 400 is electrically connected to the body 100, and the heat generating device 400 may be a heat generating device such as a heat generating plate. The beverage maker with identification means may be a coffee maker, as shown in fig. 2, for example, the body 100 includes a water tank, a shower head, a funnel 110, etc. As shown in fig. 1 and 3, the heat generating device 400 is located under the funnel 110 of the coffee maker. As shown in FIG. 3, the pot 300 can be placed under the funnel 110 and above the heating device 400, so that the beverage in the pot can be conveniently heated from the bottom, and the effect of keeping warm can be achieved.

As shown in fig. 1, the identification means 200 is mounted on the body 100, and for the coffee maker as an example, the identification means may be disposed at a position where the sensing means is disposed at a lower middle portion of the body and near the pot, for example, at a position intermediate the funnel 110 and the heat generating means 400 as shown in fig. 1, in order to facilitate identification of the type of the pot. Wherein the identification device 200 and the heat generating device 400 can be electrically connected. As shown in fig. 2, 5 and 7, the identification device 200 comprises a sensing device 210 and a control device (the control device can be divided into a first control device 220 and a second control device 230), and as shown in fig. 4-7, the sensing device 210 is used for sensing the type of the kettle and transmitting a corresponding signal of the type of the kettle to the control device. The control device is electrically connected to the sensing device 210 and the heating device 400, respectively, and as shown in fig. 5 and 7, the control device is configured to receive the signal emitted by the sensing device 210 and turn on or off the heating device 400 according to the signal. The control device comprises a micro-control chip and an isolation unit, the micro-control chip is used for receiving and processing the signal so as to identify the type of the kettle, as shown in fig. 5 and 7, the micro-control chip (the micro-control chip can be divided into a first micro-control chip 500 and a second micro-control chip 501) is connected with an electric connector 530 and a first ground terminal 510, and receives the signal 520. For example, the micro control chip is a single chip microcomputer with the model number of HT66F018, and it should be noted that the micro control chip capable of achieving this function is within the scope of the present invention, and the model number of the micro control chip is not limited herein. The isolation unit is electrically connected to the micro-control chip, the isolation unit (the isolation unit may be divided into a first isolation unit 600 and a second isolation unit 700) is used to turn on or turn off the heating device 400, for example, the sensing device 210 senses the type of the kettle and sends the corresponding type to the micro-control chip, and the micro-control chip receives the signal and turns on the heating device 400 or turns off the heating device 400. Therefore, the multifunctional coffee maker can realize the function of one machine with multiple purposes, and can be matched with pots made of multiple materials.

The sensing device of the identification device 200 may be a photosensitive sensing device or a magnetic sensing device. Taking a photosensitive sensing device as an example, when the sensing device 210 is a photosensitive sensing device, as shown in fig. 5, the control device is a first control device 220, the micro-control chip is a first micro-control chip 500, and the isolation unit is a first isolation unit 600. The first isolation unit 600 includes a photo coupler 610, a first resistor 541 and a second resistor 542, wherein one end of the first resistor 541 is connected to the first micro-control chip, the other end of the first resistor 541 is connected to the 1 st pin of the photo coupler 610, the 2 nd pin of the photo coupler 610 is connected to an electrical terminal 531, the 3 rd pin of the photo coupler 610 is connected to the second resistor 542, the 4 th pin of the photo coupler 610 is connected to a second ground 511, and the first resistor 541 is connected to the first micro-control chip 500. When the light-sensitive sensing device senses that light is transmitted through the kettle, the first isolation unit 600 is closed, the heating device 400 is turned on, otherwise, the first isolation unit 600 is opened, and the heating device 400 is turned off. For example, as shown in fig. 4 and 5, a glass pot 310 is placed on the heating device 400, the photosensitive sensing device emits light, the light transmits through the glass pot 310, no reflected light or low reflected light is generated, and then the photosensitive sensing device emits a first signal to the first control device 220, wherein a first micro-control chip 500 is connected to the first resistor 541, the first resistor 541 is connected to the 1 st pin of the photoelectric coupler 610, the first signal is transmitted to the photoelectric coupler 610, and the photoelectric coupler 610 is closed, so that the heating device 400 starts to operate to generate heat, and thus the heat preservation effect on the beverage inside the glass pot 310 can be achieved. As shown in fig. 6 and 7, when the thermo jug 320 is placed on the heating device 400, the photosensitive sensing device emits light, the light cannot transmit through the thermo jug 320, and there is reflected light or reflected light is high, so that the photosensitive sensing device 210 emits a second signal to the control device, the second signal is transmitted to the photoelectric coupler 610, the photoelectric coupler 610 is disconnected, the heating device 400 does not operate, and the beverage in the jug is kept warm by the self-warming function of the jug.

When the sensing device 210 is a magnetic sensing device, as shown in fig. 7, the control device is a second control device 230, the micro-control chip is a second micro-control chip 501, the isolation unit is a second isolation unit 700, the second isolation unit 700 includes a magnetic sensing switch 710 and a third resistor 543, the 1 st pin of the magnetic sensing switch 710 is connected to the third ground 512, the 2 nd pin of the magnetic sensing switch 710 is connected to the third resistor 543 and the second micro-control chip 501, when the magnetic sensing device senses the magnetic attraction of the kettle, the second isolation unit 700 is disconnected, the heating device 400 is turned off, otherwise, the second isolation unit 700 is closed, and the heating device 400 is turned on. For example, as shown in fig. 6 and 7, when the thermos bottle 320 made of metal is placed on the heating device 400, the magnetic force sensing device 210 senses the magnetic attraction force to the thermos bottle 320, transmits the third signal to the second control device 230, and then transmits the third signal to the magnetic sensing switch 710, and the magnetic sensing switch 710 is turned off, so that the heating device 400 does not operate, and the beverage is kept warm by the heat preservation function of the thermos bottle 320 itself, and here, a magnet may be added to the thermos bottle that does not need to be heated, so that the body may be controlled not to be heated.

The present invention further provides an operating method of the beverage machine with an identification device, which is directed to the operating method of the photosensitive sensing device 210, as shown in fig. 8, the method includes:

step 11: the photosensitive sensing device 210 senses light transmission through the kettle, and transmits a first signal to the first micro-control chip 500, otherwise, transmits a second signal to the first micro-control chip 500;

step 12: the first micro control chip 500 receives the first signal and transmits the first isolation unit 600 after processing the first signal, or the first micro control chip 500 receives the second signal and transmits the first isolation unit 600 after processing the second signal;

step 13: the first isolation unit 600 receives the first signal to close the first isolation unit 600, or the first isolation unit 600 receives the second signal to open the first isolation unit 600;

step 14: the first isolation unit 600 is closed, the heat generating device 400 starts to operate, or the first isolation unit 600 is opened, and the heat generating device 400 stops operating.

Taking a coffee maker with a photosensitive sensing device as an example, the glass pot 310 filled with coffee is placed on the heating device 400, the photosensitive sensing device is located at the middle upper position of the pot, when the photosensitive sensing device senses that light can penetrate the pot, or reflected light is less, or reflected light is lower than a threshold value, a first signal is transmitted to the first control device 600, the photoelectric coupler 610 connected with the first control device 600 is closed, and the heating device 400 starts to generate heat, so as to heat coffee in the glass pot 310. When the thermo jug 320 containing coffee is placed on the heating device 400, and when the photosensitive sensing device senses that light cannot penetrate the jug, or reflected light is more, or reflected light is higher than a threshold value, a second signal is transmitted to the first control device 600, the photoelectric coupler 610 connected with the first control device 600 is disconnected, the heating device 400 does not work, and therefore the coffee in the thermo jug 320 is insulated by the thermo jug 320. It should be noted that the provided method corresponds to the beverage machine with an identification device, and the functions and technical effects correspond to each other, which are not described herein again.

The present invention also provides another working method of the beverage machine with the identification device, which is directed to the working method of the magnetic force sensing device, as shown in fig. 9, the method includes:

step 21: the magnetic sensing switch 710 senses that magnetic attraction exists on the kettle, transmits a third signal to the second micro-control chip 501, and otherwise transmits a fourth signal to the second micro-control chip 501;

step 22: the second micro-control chip 501 receives the third signal and transmits the second isolation unit 700 after processing the third signal, or the second micro-control chip 501 receives the fourth signal and transmits the second isolation unit 700 after processing the fourth signal;

step 23: the second isolation unit 700 receives the third signal to open the second isolation unit 700, or the second isolation unit 700 receives the fourth signal to close the second isolation unit 700;

step 24: the second isolation unit 700 is closed, the heat generating device 400 starts to operate, or the second isolation unit 700 is opened, and the heat generating device 400 stops operating.

Taking a coffee maker with a magnetic force sensing device as an example, a glass pot 310 filled with coffee is placed on the heating device 400, and the magnetic force sensing device is located at the middle position of the pot, so as to test the magnetic attraction force of the pot. When the magnetic force sensing device senses that there is no magnetic force attraction to the pot, or the magnetic force attraction is lower than a threshold value, a fourth signal is transmitted to the second micro-control chip 501, the magnetic sensing switch 710 in the second isolation unit 700 connected to the second micro-control chip 501 is closed, and the heating device 400 starts to heat, so as to heat the coffee in the glass pot 310. When the thermos bottle 320 made of metal material and filled with coffee is placed on the heating device 400, and the magnetic force induction device induces that magnetic attraction is generated on the thermos bottle 320, or the magnetic force is higher than a threshold value, a third signal is transmitted to the second micro-control chip 501, the magnetic sensing switch 710 in the second isolation unit 700 connected with the second micro-control chip 501 is turned off, the heating device 400 does not work, and therefore the coffee in the thermos bottle 320 is insulated by the thermos bottle 320. It should be noted that the provided method corresponds to the beverage machine with an identification device, and the functions and technical effects correspond to each other, which are not described herein again.

In summary, the present invention provides a beverage machine with an identification device and an operating method of the beverage machine with the identification device. The beverage maker having the recognition means can sense the type of the pot through the sensing means 210, turn on the heating means 400 if the pot is the carafe 310, and turn off the heating means 400 if the pot is the thermo jug 320. Therefore, the beverage machine can be matched with various types of kettles to realize the effect of heat preservation of the beverage, and a consumer can select the kettle more freely without the limitation of the beverage machine. Is beneficial to enlarging the service area of the beverage machine, has more functions and wider application range.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.