阅读说明：本技术 一种预先静置冷却的智能温控箱装置 (Intelligent temperature control box device capable of standing and cooling in advance ) 是由 李永 于 2020-12-24 设计创作，主要内容包括：本发明公开了一种预先静置冷却的智能温控箱装置,包括箱体,所述箱体内设置有静置腔,所述静置腔前侧设置有能够根据高度控制存取的存取机构,所述静置腔内上下均匀设置有六块电动底板,所述电动底板左侧设置有保持导温杆传导初始温度的初始温度保持机构,所述电动底板后端固定设置有开口向后的底板导轨槽,所述底板导轨槽能够与后端与所述静置腔后端壁固定连接的存电动导轨动力滑动连接,所述电动底板上侧设置有导温杆,所述导温杆外环固定设置有外管,本发明装能够自动将一定温度的物体在放置入智能温控箱前静置一段时间,达到适宜温度后才放入智能温控箱内,而且能够利用简单机械结构实现高层物体的存取。(The invention discloses an intelligent temperature control box device with pre-standing cooling, which comprises a box body, wherein a standing cavity is arranged in the box body, a storing and taking mechanism capable of controlling storing and taking according to height is arranged at the front side of the standing cavity, six electric bottom plates are uniformly arranged in the standing cavity from top to bottom, an initial temperature maintaining mechanism for maintaining the initial temperature of a temperature guide rod is arranged at the left side of the electric bottom plate, a bottom plate guide rail groove with a backward opening is fixedly arranged at the rear end of the electric bottom plate, the bottom plate guide rail groove can be in power sliding connection with a stored electric guide rail with the rear end fixedly connected with the rear end wall of the standing cavity, the temperature guide rod is arranged at the upper side of the electric bottom plate, an outer pipe is fixedly arranged at the outer ring of the temperature guide rod, an object with a certain temperature can be placed in the intelligent temperature control box automatically and placed in the intelligent temperature control, and the high-rise object can be accessed by using a simple mechanical structure.)

1. The utility model provides a refrigerated intelligent temperature control box device stews in advance, includes the box, its characterized in that: the box body is internally provided with a standing cavity, the front side of the standing cavity is provided with a storing and taking mechanism capable of storing and taking according to height control, six electric bottom plates are uniformly arranged in the standing cavity from top to bottom, the left side of the electric bottom plate is provided with an initial temperature maintaining mechanism for maintaining the initial temperature of the heat conducting rod in a conducting manner, the rear end of the electric bottom plate is fixedly provided with a bottom plate guide rail groove with a backward opening, the bottom plate guide rail groove can be in dynamic sliding connection with a storage electric guide rail with the rear end fixedly connected with the rear end wall of the standing cavity, the upper side of the electric bottom plate is provided with a heat conducting rod, the outer ring of the heat conducting rod is fixedly provided with an outer tube, the rear end of the heat conducting rod is arranged in an expansion and contraction cavity, the expansion and contraction cavity is provided with a standing control mechanism for standing to proper temperature and then carrying, the utility model discloses a portable temperature-sensing device, including electro-magnet, deposit air pressure chamber rear end wall, it has metal piston to expand with heat and contract with cold intracavity sliding connection, metal piston can connect the circuit between electro-magnet and the power when suitable temperature, the fixed air pressure chamber front end wall of being provided with of electro-magnet, the fixed metal strip of depositing that is provided with about the air pressure chamber front end, it has the air piston of depositing to deposit air pressure intracavity sliding connection, it is fixed with the exhaust tube of depositing of rear end and external intercommunication to deposit air pressure chamber rear end wall, it is fixed with rear end and external intercommunication and be located to deposit air pressure chamber rear end wall deposit the blast pipe of depositing of blast pipe upside, it compares to deposit the air flow in the blast pipe it is big to deposit the air flow in the blast pipe.

2. The pre-standing cooled intelligent temperature controlled box device according to claim 1, wherein: the intelligent temperature control cavity comprises an intelligent temperature control cavity, and is characterized in that a temperature control cavity stop door is arranged at the front end of the intelligent temperature control cavity, a sliding ring is fixedly arranged on the outer annular wall of the outer tube, the sliding ring is arranged in a sliding ring sliding groove and is in sliding connection with the sliding ring sliding groove, the front end face of the sliding ring is connected with the sliding ring sliding groove through a sliding ring spring, the rear end face of a metal piston is connected with a heat expansion and cold contraction cavity through a gas storage pipe, the rear end face of the gas storage piston is connected with a gas storage pressure cavity through a gas storage piston spring, a one-way valve is arranged in the gas storage pipe, an intelligent temperature control cavity is arranged on the right side of a standing cavity in the box body, an intelligent temperature control cavity side wall is fixedly provided with an intelligent temperature control device, six airtight partition mechanisms are uniformly arranged on the right side of the stored The draw-in groove, intelligence temperature control chamber rear end wall is evenly fixed from top to bottom be provided with six can with electronic bottom plate power sliding connection's the electronic guide rail of getting, it is provided with and takes control mechanism to get electronic guide rail rear side.

3. The pre-standing cooled intelligent temperature controlled box device according to claim 1, wherein: access mechanism is including fixed being provided with the lift groove of chamber front end wall stews, the fixed lift electric guide rail that is provided with of end wall symmetry about the lift groove, lift electric guide rail and lift piece left and right sides end power sliding connection, the lift groove front end evenly is provided with six from top to bottom and is located deposit the vacuum adsorption device of electric guide rail front side, vacuum adsorption device front end and electric telescopic handle fixed connection, the fixed access groove that is provided with the opening forward of lift electric guide rail bottom front end wall, access groove front end is provided with the baffle.

4. The pre-standing cooled intelligent temperature controlled box device according to claim 1, wherein: the initial temperature maintaining mechanism comprises a supporting block arranged on the upper side of the electric bottom plate, a thermostatic bath with a backward opening is fixedly arranged at the rear end of the supporting block, a thermostatic device in contact with the front end of the temperature guide rod is fixedly arranged on the side wall of the thermostatic bath, a folding telescopic air bag is fixedly connected between the left end surface of the supporting block and the standing cavity, an air storage pipe is fixedly arranged at the left end of the folding telescopic air bag, an air storage cavity is fixedly arranged at the left end of the air storage pipe, an air storage piston is slidably connected in the air storage cavity, and the left end surface of the air storage piston is connected with the air storage cavity through an air storage piston spring.

5. The pre-standing cooled intelligent temperature controlled box device according to claim 2, wherein: airtight partition mechanism includes evenly fixed being provided with from top to bottom chamber right end wall and opening spread groove to the left of stewing, the spread groove can with electric bottom plate sliding connection, the fixed baffle spout that is provided with the opening right of spread groove right end wall, it is provided with the baffle to slide in the baffle spout, the fixed ascending baffle guide rail groove of opening that is provided with in baffle top, baffle guide rail groove and the electronic guide rail power sliding connection of baffle, the fixed baffle spout roof that is provided with of baffle spout electric guide rail, the fixed baffle right-hand member face be provided with intelligent temperature control device left end sliding connection's slip temperature control device, the fixed movable clamping groove that is provided with the opening right of slip temperature control device right-hand member.

6. The pre-standing cooled intelligent temperature controlled box device according to claim 2, wherein: the taking control mechanism comprises six air taking pressure cavities which are uniformly arranged at the rear side of the electric taking guide rail from top to bottom, a piston is connected in the air-taking pressure cavity in a sliding way, the front end surface of the piston is connected with the air-taking pressure cavity through a piston-taking spring, two metal taking strips are symmetrically and fixedly arranged at the front end of the air taking pressure cavity from top to bottom, the taking piston and the metal taking strips at the upper side and the lower side can be jointly connected with a circuit between the electric taking guide rail and a power supply thereof, an air extracting pipe with the rear end communicated with the outside is fixedly arranged on the rear end wall of the air extracting pressure cavity, the air extracting pipe is in power connection with a control air pump, the rear end wall of the air-taking pressure cavity is fixedly provided with an air-taking and exhausting pipe, the rear end of the air-taking and exhausting pipe is communicated with the outside and is positioned at the upper side of the air-taking and exhausting pipe, the exhaust pipe is internally provided with a one-way valve, and the air flow in the exhaust pipe is larger than that in the exhaust pipe.

Technical Field

The invention relates to the related technical field of intelligent temperature control boxes, in particular to an intelligent temperature control box device capable of standing and cooling in advance.

Background

The temperature control box can control the temperature, a temperature control device is arranged in the temperature control box, and the tap of the autotransformer is changed to change the output voltage, so that the purpose that the temperature is changed even when the running speed of the fan is high or low is achieved.

The object with uniform temperature need stew a period of time before placing into intelligent temperature control box and just can put into, and the intelligent temperature control box in present stage needs the suitable temperature and the time that manual control put into, forgets easily, and directly puts into and can lead to the object quality to descend, and is very inconvenient, and the access of higher floor is too hard moreover.

Disclosure of Invention

Aiming at the technical defects, the invention provides an intelligent temperature control box device with pre-standing cooling, which can overcome the defects.

The invention relates to an intelligent temperature control box device with pre-standing cooling, which comprises a box body, wherein a standing cavity is arranged in the box body, a storing and taking mechanism capable of controlling storing and taking according to height is arranged at the front side of the standing cavity, six electric bottom plates are uniformly arranged at the upper part and the lower part in the standing cavity, an initial temperature maintaining mechanism for maintaining the initial temperature of the temperature guide rod in conduction is arranged at the left side of the electric bottom plate, a bottom plate guide rail groove with a backward opening is fixedly arranged at the rear end of the electric bottom plate, the bottom plate guide rail groove can be in power sliding connection with a storage electric guide rail with the rear end fixedly connected with the rear end wall of the standing cavity, the temperature guide rod is arranged at the upper side of the electric bottom plate, an outer pipe is fixedly arranged at the outer ring of the temperature guide rod, the rear end of the temperature guide rod is arranged in an expansion, the standing control mechanism comprises expansion and contraction gas arranged in the expansion and contraction cavity, a metal piston is connected in the expansion and contraction cavity in a sliding way, the metal piston can be connected with a circuit between the electromagnet and a power supply thereof at a proper temperature, the electromagnet is fixedly provided with a front end wall of the air storage cavity, the front end of the air storage pressure cavity is symmetrically and fixedly provided with an air storage metal strip up and down, the air storage pressure cavity is connected with an air storage piston in a sliding way, the rear end wall of the air storage pressure cavity is fixedly provided with an air storage and exhaust pipe with the rear end communicated with the outside, the rear end wall of the air storage pressure cavity is fixedly provided with an air storage and exhaust pipe with the rear end communicated with the outside and positioned at the upper side of the air storage and exhaust pipe, the air flow in the air storage and extraction pipe is larger than that in the air storage and extraction pipe, and the air storage piston and the metal storage strip on the upper side and the lower side can be connected with a circuit between the electric guide rail and a power supply of the electric guide rail.

Preferably, the front end of the intelligent temperature control cavity is provided with a temperature control cavity stop door, the outer annular wall of the outer tube is fixedly provided with a sliding ring, the sliding ring is arranged in a sliding ring sliding groove and is in sliding connection with the sliding ring sliding groove, the front end face of the sliding ring is connected with the sliding ring sliding groove through a sliding ring spring, the rear end face of the metal piston is connected with the expansion and contraction cavity through a gas storage and exhaust pipe, the rear end face of the gas storage piston is connected with the gas storage pressure cavity through a gas storage piston spring, a one-way valve is arranged in the gas storage and exhaust pipe, an intelligent temperature control cavity is arranged on the right side of the standing cavity in the box body, the side wall of the intelligent temperature control cavity is fixedly provided with an intelligent temperature control device, six airtight partition mechanisms are uniformly arranged on the left side of the intelligent temperature control cavity, six openings are uniformly arranged on the upper The fixed slot that connects, intelligence temperature control chamber rear end wall is evenly fixed from top to bottom be provided with six can with electronic bottom plate power sliding connection get electric guide, it is provided with and takes control mechanism to get electric guide rear side.

Preferably, access mechanism is including fixed being provided with the lift groove of chamber front end wall stews, the fixed lift electric guide rail that is provided with of lift groove left and right sides end wall symmetry, lift electric guide rail and lift piece left and right sides end power sliding connection, the lift groove front end evenly is provided with six from top to bottom and is located the vacuum adsorption device of deposit electric guide rail front side, vacuum adsorption device front end and electric telescopic handle fixed connection, the fixed access groove that is provided with the opening forward of lift electric guide rail bottom front end wall, the access groove front end is provided with the baffle.

Preferably, the initial temperature maintaining mechanism comprises a supporting block arranged on the upper side of the electric bottom plate, a thermostatic bath with a backward opening is fixedly arranged at the rear end of the supporting block, a thermostatic device in contact with the front end of the temperature guide rod is fixedly arranged on the side wall of the thermostatic bath, a folding telescopic air bag is fixedly connected between the left end surface of the supporting block and the standing cavity, an air storage pipe is fixedly arranged at the left end of the folding telescopic air bag, an air storage cavity is fixedly arranged at the left end of the air storage pipe, an air storage piston is slidably connected in the air storage cavity, and the left end surface of the air storage piston is connected with the air storage cavity through an air storage piston spring.

Preferably, airtight partition mechanism includes that the upper and lower even fixed is provided with the chamber right-hand member wall and the opening spread groove left stew, the spread groove can with electric bottom plate sliding connection, the fixed baffle spout that is provided with the opening right side of spread groove right-hand member wall, it is provided with the baffle to slide in the baffle spout, the fixed ascending baffle guide rail groove of opening that is provided with in baffle top, baffle guide rail groove and the electronic guide rail power sliding connection of baffle, the fixed baffle spout roof that is provided with of baffle spout electric guide rail, the fixed baffle right-hand member face be provided with intelligence temperature control device left end sliding connection's slip temperature control device, the fixed movable clamping groove that is provided with the opening right side of slip temperature control device right-hand.

Preferably, the taking control mechanism comprises six air taking pressure cavities which are uniformly arranged at the rear side of the electric taking guide rail from top to bottom, a piston is connected in the air-taking pressure cavity in a sliding way, the front end surface of the piston is connected with the air-taking pressure cavity through a piston-taking spring, two metal taking strips are symmetrically and fixedly arranged at the front end of the air taking pressure cavity from top to bottom, the taking piston and the metal taking strips at the upper side and the lower side can be jointly connected with a circuit between the electric taking guide rail and a power supply thereof, an air extracting pipe with the rear end communicated with the outside is fixedly arranged on the rear end wall of the air extracting pressure cavity, the air extracting pipe is in power connection with a control air pump, the rear end wall of the air-taking pressure cavity is fixedly provided with an air-taking and exhausting pipe, the rear end of the air-taking and exhausting pipe is communicated with the outside and is positioned at the upper side of the air-taking and exhausting pipe, the exhaust pipe is internally provided with a one-way valve, and the air flow in the exhaust pipe is larger than that in the exhaust pipe.

The beneficial effects are that: the device can automatically place an object with a certain temperature in the intelligent temperature control box for a period of time before the object is placed in the intelligent temperature control box, the object is placed in the intelligent temperature control box after the object reaches the proper temperature, the proper temperature and time for placing the object are not required to be manually controlled, forgetting is avoided, the quality reduction of the object caused by direct placing is avoided, the quality of the stored object is improved, the operation is simple, the automation degree is high, the object at a high layer can be stored and taken by using a simple mechanical structure, and the device is more convenient and labor-saving.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an intelligent temperature controlled box device with pre-standing cooling according to the present invention;

FIG. 2 is a schematic view of A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a partial schematic view of B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1 according to an embodiment of the present invention;

fig. 5 is an enlarged schematic view of the structure at D in fig. 2 according to the embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a pre-standing cooled intelligent temperature control box device, which comprises a box body 10, wherein a standing cavity 21 is arranged in the box body 10, a storing and taking mechanism capable of being stored and taken according to height control is arranged at the front side of the standing cavity 21, six electric bottom plates 16 are uniformly arranged in the standing cavity 21 from top to bottom, an initial temperature maintaining mechanism for maintaining the initial conduction temperature of a temperature guide rod is arranged at the left side of the electric bottom plate 16, a bottom plate guide rail groove 58 with a backward opening is fixedly arranged at the rear end of the electric bottom plate 16, the bottom plate guide rail groove 58 can be in power sliding connection with a storage electric guide rail 54 with the rear end fixedly connected with the rear end wall of the standing cavity 21, a temperature guide rod 47 is arranged at the upper side of the electric bottom plate 16, an outer pipe 51 is fixedly arranged at the outer ring of the temperature guide rod 47, the rear end of the temperature guide rod 47 is arranged in a heat expansion and cold contraction cavity 46, a standing control mechanism, the standing control mechanism comprises expansion and contraction gas arranged in the expansion and contraction cavity 46, the expansion and contraction cavity 46 is connected with a metal piston 45 in a sliding way, the metal piston 45 can be connected with a circuit between the electromagnet 55 and a power supply thereof at a proper temperature, the electromagnet 55 is fixedly provided with the front end wall of an air storage pressure cavity 57, the front end of the air storage pressure cavity 57 is vertically and symmetrically and fixedly provided with metal storage strips 56, an air storage piston 59 is connected in the air storage pressure cavity 57 in a sliding way, an air storage and extraction pipe 61 with the rear end communicated with the outside is fixedly arranged on the rear end wall of the air storage pressure cavity 57, the rear end wall of the air storage pressure cavity 57 is fixedly provided with an air storage and exhaust pipe 62 the rear end of which is communicated with the outside and is positioned at the upper side of the air storage and exhaust pipe 61, the air flow rate in the air storage and exhaust pipe 61 is larger than that in the air storage and exhaust pipe 62, and the air storage piston 59 can be connected with the upper and lower metal storage bars 56 to connect a circuit between the electric storage guide rail 54 and a power supply thereof.

Beneficially, a temperature control cavity shutter 29 is arranged at the front end of the intelligent temperature control cavity 18, a sliding ring 49 is fixedly arranged on the outer annular wall of the outer tube 51, the sliding ring 49 is arranged in a sliding ring sliding groove 48 and is in sliding connection with the sliding ring sliding groove 48, the front end surface of the sliding ring 49 is connected with the sliding ring sliding groove 48 through a sliding ring spring 50, the rear end surface of the metal piston 45 is connected with the thermal expansion and cold contraction cavity 46 through a gas storage and exhaust pipe 62, the rear end surface of the gas storage piston 59 is connected with the gas storage pressure cavity 57 through a gas storage piston spring 60, a one-way valve is arranged in the gas storage and exhaust pipe 61, a one-way valve is arranged in the gas storage and exhaust pipe 62, the intelligent temperature control cavity 18 located on the right side of the standing cavity 21 is arranged in the box 10, an intelligent temperature control device 20 is fixedly arranged on the side wall of the intelligent temperature control cavity 18, the intelligent temperature control device 20 right-hand member is evenly fixed from top to bottom be provided with six openings leftwards and can with fixed slot 19 that 16 right-hand members of electronic bottom plate chucking are connected, the intelligent temperature control chamber 18 rear end wall is evenly fixed from top to bottom be provided with six can with 16 power sliding connection's of electronic bottom plate get electronic guide rail 30, it is provided with and takes control mechanism to get electronic guide rail 30 rear side.

Beneficially, access mechanism is including the fixed lift groove 24 that is provided with the chamber 21 front end wall that stews, lift groove 24 left and right sides end wall symmetry is fixed and is provided with lift electronic guide rail 25, lift electronic guide rail 25 and elevator 28 left and right ends power sliding connection, lift groove 24 front end is evenly provided with six from top to bottom and is located the vacuum adsorption device 22 of depositing electronic guide rail 54 front side, vacuum adsorption device 22 front end and electric telescopic handle 23 fixed connection, lift electronic guide rail 25 bottom front end wall is fixed and is provided with the forward access groove 26 of opening, access groove 26 front end is provided with baffle 27.

Beneficially, the initial temperature maintaining mechanism comprises a supporting block 17 arranged on the upper side of the electric base plate 16, a thermostatic bath 53 with a backward opening is fixedly arranged at the rear end of the supporting block 17, a thermostatic device 52 in contact with the front end of the temperature conducting rod 47 is fixedly arranged on the side wall of the thermostatic bath 53, a folding telescopic air bag 15 is fixedly connected between the left end surface of the supporting block 17 and the standing cavity 21, an air storage pipe 14 is fixedly arranged at the left end of the folding telescopic air bag 15, an air storage cavity 11 is fixedly arranged at the left end of the air storage pipe 14, an air storage piston 13 is slidably connected in the air storage cavity 11, and the left end surface of the air storage piston 13 is connected with the air storage cavity 11 through an air storage piston spring 12.

Beneficially, airtight partition mechanism includes from top to bottom evenly fixed being provided with the chamber 21 right-hand member wall of stewing and opening left spread groove 42, spread groove 42 can with electronic bottom plate 16 sliding connection, spread groove 42 right-hand member wall is fixed to be provided with opening right baffle spout 41, it is provided with baffle 38 to slide in the baffle spout 41, the fixed ascending baffle guide rail groove 43 that is provided with the opening in baffle 38 top, baffle guide rail groove 43 and baffle electronic guide rail 44 power sliding connection, baffle spout 41 roof is fixed to be provided with baffle electronic guide rail 44, baffle 38 right-hand member face be fixed be provided with intelligent temperature control device 20 left end sliding connection's slip temperature control device 39, the fixed movable clamping groove 40 that is provided with the opening right-hand member of slip temperature control device 39.

Beneficially, the fetching control mechanism comprises six fetching air pressure cavities 31 uniformly arranged at the rear side of the fetching electric guide rail 30 from top to bottom, a fetching piston 33 is connected in the fetching air pressure cavity 31 in a sliding manner, the front end face of the fetching piston 33 is connected with the fetching air pressure cavity 31 through a fetching piston spring 36, two fetching metal strips 37 are symmetrically and fixedly arranged at the front end of the fetching air pressure cavity 31 from top to bottom, the fetching piston 33 can be connected with the fetching metal strips 37 at the upper side and the lower side together to form a circuit between the fetching electric guide rail 30 and a power supply thereof, an fetching air pipe 34 with the rear end communicated with the outside is fixedly arranged at the rear end wall of the fetching air pressure cavity 31, the fetching air pipe 34 is in power connection with the control air pump 32, an fetching air pipe 35 with the rear end communicated with the outside and positioned at the upper side of the fetching air pipe 34 is fixedly arranged at the rear end wall of the fetching air pressure cavity 31, the flow rate of the gas in the extraction pipe 34 is larger than that in the extraction/exhaust pipe 35.

In the initial state, the gas storage piston spring 60, the folding expansion airbag 15, the gas storage piston spring 12 and the piston taking spring 36 are in the normal state, the slip ring spring 50 is in the stretching state, and the metal piston spring 63 is in the compressing state;

sequence of mechanical actions of the whole device:

1. opening the baffle 27, placing the object to be stored on the upper side of the lifting block 28, closing the baffle 27, starting the lifting electric guide rail 25, controlling the lifting block 28 to move upwards to the position of the front side of the electric bottom plate 16 to be stored, starting the vacuum adsorption device 22 and the electric telescopic rod 23 at the corresponding position, so that the vacuum adsorption device 22 adsorbs and fixes the object to be stored, the electric telescopic rod 23 extends backwards to push the object to the upper side of the corresponding electric bottom plate 16, closing the vacuum adsorption device 22, the electric telescopic rod 23 contracts forwards to the initial state, so that the supporting block 17 is pushed to move leftwards, the front end of the temperature guide rod 47 is separated from the contact with the constant temperature device 52, so that the gas in the folding telescopic airbag 15 is squeezed into the gas storage cavity 11 through the gas storage pipe 14, so that the gas storage piston 13 at the corresponding position moves leftwards, so that the slip ring 49, the outer pipe 51 and the temperature guide rod 47 contact with the object, the temperature of the object to be stored is conducted into the thermal expansion and cold contraction cavity 46 through the front end of the temperature conducting rod 47, and the object to be stored is kept still;

2. when the object to be stored is placed to a proper temperature, the temperature of the temperature guide rod 47 conducts, so that the gas in the thermal expansion and contraction cavity 46 expands with heat and contracts with cold to a corresponding volume, the corresponding metal piston 45 moves forwards under the reset action of the metal piston spring 63 to a circuit connected between the electromagnet 55 and a power supply thereof, the electromagnet 55 is switched on, the air storage piston 59 is attracted to move forwards, the outside air is sucked into the air storage pressure cavity 57 through the air storage and exhaust pipe 61, the air storage piston 59 and the upper and lower side metal storage strips 56 are jointly connected with the circuit between the electric storage guide rail 54 and the power supply thereof, the electric storage guide rail 54 is started, the electric storage guide rail 54 controls the electric bottom plate 16 to move rightwards, the electric partition plate electric guide rail 44 controls the partition plate 38 and the sliding temperature control device 39 to move backwards, and the electric bottom plate 16 moves rightwards to the intelligent temperature control cavity 18, the air storage piston 13 moves rightwards under the reset action of the air storage piston spring 12, so that the folding telescopic air bag 15 extends, the supporting block 17 moves rightwards, the front end of the temperature guide rod 47 is in contact with the constant temperature device 52, the air in the expansion and contraction cavity 46 expands with heat and contracts with cold to an initial state, a circuit between the electromagnet 55 and a power supply is disconnected, the air storage piston 59 slowly moves backwards under the reset action of the air storage piston spring 60, the air in the air storage pressure cavity 57 is slowly exhausted through the air storage and exhaust pipe 62, the electric storage guide rail 54 is disconnected after being connected for a period of time, the electric bottom plate 16 stops moving after the electric bottom plate 16 with an object moves rightwards to the position where the right end of the electric bottom plate 16 in the intelligent temperature control cavity 18 is clamped into the fixed clamping groove 19, the electric partition plate guide rail 44 is started, the partition plate 38 and the sliding temperature control device 39 move forwards to the foremost position, so that the left end of the electric bottom plate 16 is clamped into the movable clamping groove 40, and objects begin to be stored in the intelligent temperature control box;

3. when an object needs to be taken, starting the control air pump 32 at the rear side of the object for a certain time, so that a certain amount of air is sucked into the air taking pressure cavity 31 from the outside through the air taking and pumping pipe 34, the taking piston 33 moves forwards and is connected with a metal taking strip 37 to form a circuit between the taking electric guide rail 30 and a power supply thereof, the electric guide rail 30 is started, the partition plate electric guide rail 44 controls the partition plate 38 and the sliding temperature control device 39 to move backwards, the taking electric guide rail 30 controls the electric bottom plate 16 to drive the object to move leftwards to the standing cavity 21, the air pump 32 is controlled to be closed after a certain time, the taking piston 33 slowly moves backwards under the resetting action of the taking piston spring 36, the air in the air taking pressure cavity 31 is slowly discharged through the taking and exhausting pipe 35, the taking electric guide rail 30 is switched on for a certain time and then is switched off, the electric bottom plate 16 drives the object to move leftwards to the leftmost position in the standing cavity, start the electronic guide rail 44 of baffle, control baffle 38 and slip temperature control device 39 move forward to foremost position, the electro-magnet 55 switch-on can not be triggered to the low temperature of gas in expend with heat and contract with cold 46, start vacuum adsorption device 22 and the electric telescopic handle 23 of corresponding position department, electric telescopic handle 23 extends backward, thereby make vacuum adsorption device 22 adsorb fixedly and wait to deposit the object, electric telescopic handle 23 contracts forward to initial condition, close vacuum adsorption device 22, thereby make and wait to take the object and place in elevator 28 upside, open the electronic guide rail 25 of lift and control elevator 28 downstream to bottommost position, close the electronic guide rail 25 of lift, open baffle 27 and take out the object, close baffle 27.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.