CN211827406U

CN211827406U - Intelligent take-out cabinet

Info

Publication number: CN211827406U
Application number: CN201922390466.8U
Authority: CN
Inventors: 孙怡; 沈芳; 何颜宇; 徐盈; 左京山; 李梦诗
Original assignee: University of Shanghai for Science and Technology
Current assignee: University of Shanghai for Science and Technology
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-10-30
Anticipated expiration: 2029-12-27

Abstract

The utility model discloses an intelligence takeaway cabinet. The intelligent take-out cabinet is an intelligent take-out cabinet combined with the Internet of things technology and mainly comprises an upper take-out cabinet and a lower small freezer. The heat energy is conducted between the take-out cabinet and the small freezer, so that the purpose of energy conservation is achieved. The takeaway cabinet is double-door, and the design of six layers of big cabinets can improve space utilization. Meanwhile, a code scanning area, infrared induction, a background intelligent system and big data technical support are provided. Sweep the code area and open the door according to scanning the two-dimensional code, when sweeping on the receipt two-dimensional code and confirm to place the position, the red light can be lighted to the selected position of backstage system intelligence to convenient and accurate placing and takeaway, backstage system sends the information of getting meal to the user in addition, can realize the accurate location and the thing networking of takeaway cabinet. Additionally, the utility model discloses can a plurality of independent assortments, according to local conditions, satisfy different place needs, the cost of manufacture and maintenance cost are saved in environmental protection and energy saving.

Description

Intelligent take-out cabinet

Technical Field

The utility model relates to a commodity transaction device relates to a takeout cabinet otherwise, is applied to electronic commerce, internet and internet of things technical field.

Background

With the accelerated development of the internet and the popularization of payment modes, the online catering take-out market has basically and comprehensively penetrated into the daily life of people, due to the convenience and rapidness, take-out gradually becomes the dietary choice of numerous student groups, and along with the problems of take-out distribution, taking and the like, people try to develop an intelligent take-out cabinet to meet the campus market demand by a team.

At present, China and even the world share economy rapidly develop, and the 'Internet plus' operation mode attracts attention. The sharing economy and surge are attacked along with the development of the internet, and a solid foundation is laid for the campus sharing refrigerator developed by people. How to design, combine and assemble the structural form of the takeout cabinet to form a low-cost commodity transaction device becomes a technical problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

In order to solve the prior art problem, the utility model discloses an it is not enough that prior art exists to overcome aim at, provides an intelligence takeaway cabinet, and the structure is more reasonable, lets the last hundred meters of takeaway can be more flexible, and the takeaway personnel are more high-efficient, and the student is more convenient, can accomplish environmental protection and energy saving simultaneously, saves cost of manufacture and maintenance cost.

In order to achieve the purpose of the invention, the utility model adopts the following technical scheme:

an intelligent takeout cabinet comprises an entity structure and a backstage intelligent big data system, wherein the takeout cabinet is controlled by the backstage intelligent big data system, the entity structure comprises an upper layer takeout cabinet arranged on the upper side and a lower layer small freezer arranged on the lower side, and the upper layer takeout cabinet consists of a box body, an infrared induction intelligent system and a hot air conduction device; the lower layer small refrigerator consists of a refrigerator body, a refrigerating system, a temperature control device, a hot gas conduction device and a code scanning intelligent door opening system; the lower layer small refrigerator is provided with a temperature adjusting module; be equipped with intelligence and sweep a yard device of opening a door, carry out intelligence switch's control to the takeaway cabinet.

As the utility model discloses preferred technical scheme, the total 6 layers of the upper outer sales cabinet part of box, every layer divides 4 regions, and single regional structure is including mesa, heat insulation layer, the central infrared lamp in top that is equipped with the gas pocket, the central infrared lamp in top and ground infrared inductor signal connection.

As the utility model discloses preferred technical scheme, the refrigerator box of the little refrigerator of lower floor is equipped with the insulating layer, fills thermal-insulated material between shell and inside lining, is equipped with the magnetic seal strip at the chamber door and prevents that air conditioning from leaking outward and the invasion of hot-air, and it has high density polystyrene cystosepiment to fill up below the roof of roof, as thermal-insulated roof.

As the preferred technical proposal of the utility model, an infrared lamp is arranged at the center of the top of each layer of the upper-layer takeout cabinet, an infrared inductor is arranged at the bottom surface of each small lattice, and the light of the upper lamp can find each inductor; after a takeaway order is generated, a control system of the takeaway cabinet automatically determines a takeaway storage position for the takeaway order, and when a takeaway person scans a code and opens a door, the takeaway is placed; after the door is closed again, the infrared sensor cannot be received for preliminary activation, the infrared sensor can be completely activated by the next door opening, and an alarm system is formed by utilizing the series circuit; after the user scans the code to open the door, the sensor of the binding lattice is closed; the infrared inductor is arranged to meet the induction range of not less than 140-degree cone angle.

As the preferred technical proposal of the utility model, a middle layer is arranged between the upper takeout cabinet and the lower small freezer, and the hot air of the refrigerator of the lower small freezer is exhausted upwards through the middle layer and then is exhausted through the small hole at the top; the middle layer is provided with a pressure sensor, a semiconductor piezoelectric impedance diffusion pressure sensor is adopted, semiconductor deformation pressure is formed on the surface of the sheet, the sheet is deformed through external force to generate a piezoelectric impedance effect, so that the change of impedance is converted into an electric signal, and when the internal pressure is monitored to be overlarge, the middle valve is automatically opened to deflate, so that the internal and external pressure intensities are stable; the top of the cabinet body is provided with an inductive thermometer, a non-contact temperature measuring instrument is adopted, the temperature in the cabinet is identified according to the detected temperature, and when the temperature is too high, the middle valve is opened through a sensor to dissipate heat.

As the preferred technical scheme of the utility model, in the refrigerating system of the lower-layer small refrigerator, a closed system is formed by four parts, namely a compressor, a condenser, an evaporator and a capillary tube; the condenser is arranged in the middle layer between the refrigerator body and the upper outer selling cabinet, and other parts are arranged on the back of the refrigerator body; the system is filled with a refrigerant called Freon 12; the Freon 12 is vaporized into gas by low-pressure liquid in the evaporator, absorbs the heat in the refrigerator and reduces the temperature in the refrigerator; the Freon 12 changed into the gas state is sucked by a compressor, compressed into high-temperature and high-pressure gas by the compressor and then discharged into a condenser; the gaseous Freon 12 in the condenser continuously releases heat to the surrounding space and is gradually liquefied into liquid; the high-pressure liquid can flow into the evaporator slowly only by flowing through the capillary and throttling and reducing pressure, and is kept in the evaporator to be continuously vaporized, absorb heat and reduce temperature; the refrigerator applies work by using electric energy, and the heat around the evaporator in the refrigerator is conveyed to the refrigerator and then discharged from the refrigerator in the condenser by virtue of the change of the physical state of the refrigerant, so that the refrigeration system is formed by circulating repeatedly.

As the utility model discloses preferred technical scheme, in the condenser department of refrigeration system, a conduction pipe device of installation, it is internal to pass through the conduction pipe with the steam that the condenser produced to the sales counter outside, forms heat energy utilization system.

As the preferable technical proposal of the utility model, the refrigerator is provided with a temperature controller, when the temperature in the refrigerator is overhigh, the compressor is switched on, the refrigeration system works, and the temperature of the refrigerator body is reduced; when the temperature of the box body is reduced to the required temperature, the compressor is powered off.

As the preferred technical scheme of the utility model, the structure of the box body of the lower layer small refrigerator comprises that the left side is composed of 4 small refrigerators from top to bottom, and the right side is composed of 4 larger refrigerators from top to bottom; each single refrigerator structure comprises a shell, an inner liner, a heat insulation layer and a table top; the box body is provided with a heat insulation layer, heat insulation materials are filled between the outer shell and the inner lining, a magnetic sealing strip is arranged on the box door to prevent cold air from leaking and hot air from invading, and a high-density polystyrene foam board is padded under a top plate of the box top to be used as a heat insulation top plate.

As the preferred technical proposal of the utility model, an intelligent code scanning device is arranged on the over-sale cabinet, which comprises a code scanning head, a code scanning circuit module and a main control module; wherein, sweep the pier and sweep a yard circuit module and be connected, host system with sweep a yard circuit module and be connected.

Compared with the prior art, the utility model, have following substantive characteristics and advantage:

1. the utility model discloses two opening door takeaway cabinets on intelligence takeaway cabinet structure includes and little refrigerator-freezer below, and the takeaway cabinet can realize heat energy conduction, energy-concerving and environment-protective with the refrigerator-freezer. The upper layer selling cabinet part has a plurality of layers, and each layer can be used for placing a plurality of takeouts; the lower small freezer is designed into a small grid, and the temperature can be adjusted; meanwhile, the upper takeout cabinet and the lower small freezer are respectively provided with respective code scanning areas, an infrared sensing device and an alarm device are arranged at each position of the takeout cabinet and are connected with a background intelligent system, and accurate positioning and internet of things of takeout in the takeout cabinet can be realized by taking big data as technical support;

2. the utility model discloses intelligence takeaway cabinet simple structure, installation, use, maintenance are convenient, can realize that the low cost beautifies the environment.

Drawings

Fig. 1 is a schematic structural diagram of an upper takeout cabinet of an intelligent takeout cabinet according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the back of the box body and the valve of the lower freezer of the intelligent takeout cabinet of the embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention are detailed as follows:

the first embodiment is as follows:

in this embodiment, referring to fig. 1 and fig. 2, an intelligent takeout cabinet includes an entity structure and a background intelligent big data system, the takeout cabinet is controlled by the background intelligent big data system, the entity structure includes an upper layer takeout cabinet disposed on the upper layer and a lower layer small freezer disposed on the lower layer, the upper layer takeout cabinet is composed of a box body, an infrared induction intelligent system and a hot air conduction device; the lower layer small refrigerator consists of a refrigerator body, a refrigerating system, a temperature control device, a hot gas conduction device and a code scanning intelligent door opening system; the lower layer small refrigerator is provided with a temperature adjusting module; be equipped with intelligence and sweep a yard device of opening a door, carry out intelligence switch's control to the takeaway cabinet.

In this embodiment, referring to fig. 1 and 2, the upper outer sales counter portion of the box has 6 layers, each layer has 4 zones, each zone has a length x width x height of 22.5cm x 30cm x 21cm, and the single zone structure includes a table top provided with air holes, an insulating layer, and a top central infrared lamp in signal connection with the ground infrared sensor. The refrigerator body of the lower small refrigerator is provided with a heat insulation layer, heat insulation materials are filled between the outer shell and the inner lining, the refrigerator door is provided with a magnetic sealing strip to prevent cold air from leaking and hot air from invading, and a high-density polystyrene foam board is padded below the top plate of the refrigerator top and used as a heat insulation top plate to play a heat insulation role. The lower small freezer can adjust the temperature, and various requirements for placing cosmetics, medicines, fruits and the like are met. The basic function of the box body is heat insulation, and the quality of the heat insulation performance is directly related to the heat insulation performance of the box body. The inside 6 layers of upper takeout cabinet part, 4 takeouts can be placed to every layer, improves space utilization, reduction in production cost. The unilateral cabinet door width of the outer selling cabinet of upper strata only supplies alone to take the takeaway, prevents to take the phenomenon in disorder.

In this embodiment, referring to fig. 1 and 2, an infrared lamp is placed at the top center of each floor of the upper-floor takeout cabinet, an infrared sensor is placed at the bottom of each cell, and the light of the upper lamp can find each sensor; after a takeaway order is generated, a control system of the takeaway cabinet automatically determines a takeaway storage position for the takeaway order, and when a takeaway person scans a code and opens a door, the takeaway is placed; after the door is closed again, the infrared sensor cannot be received for preliminary activation, the infrared sensor can be completely activated by the next door opening, and an alarm system is formed by utilizing the series circuit; after the user scans the code to open the door, the sensor of the binding lattice is closed; the infrared inductor is arranged to meet the requirements that the induction range is not less than 140 degrees of cone angle, the load power is as follows: 20w-200 w; working voltage: AC180V-250V- (50/60 hz). The box body is also associated with an intelligent code scanning door opening device to realize the function of an intelligent switch.

In this embodiment, referring to fig. 1 and 2, the structure of the cabinet of the lower small refrigerator includes that the left side is composed of 4 small refrigerators with length × width × height 22.5cm × 30cm × 12cm from top to bottom, and the right side is composed of 4 large refrigerators with length × width × height 22.5cm × 30cm × 24cm from top to bottom; each single refrigerator structure comprises a shell, an inner liner, a heat insulation layer and a table top; the box body is provided with a heat insulation layer, heat insulation materials are filled between the outer shell and the inner lining, the box door is provided with a magnetic sealing strip to prevent cold air from leaking and hot air from invading, and a high-density polystyrene foam board is padded under a top plate of the box top and used as a heat insulation top plate to play a role in heat insulation. The basic function of the box body is heat insulation, and the quality of the heat insulation performance is directly related to the heat insulation performance of the box body. An intelligent code scanning device is arranged on the upper outer selling cabinet and comprises a code scanning head, a code scanning circuit module and a main control module; wherein, sweep the pier and sweep a yard circuit module and be connected, host system with sweep a yard circuit module and be connected.

In this embodiment, referring to fig. 1 and fig. 2, the intelligent takeout cabinet adopts an internet of things structure, and includes a background big data analysis, the internet, and an intelligent terminal; a user uses the smart phone to place an order on the selling platform, uses the service data of the smart cabinet to be transmitted to the cloud end through the internet to perform big data analysis and statistics, and intelligent perception, identification and management of the selling and distribution process are achieved. By collecting data such as purchasing preference, ordering average time point, expected meal taking duration and the like of a customer on food, user behavior analysis is carried out at the C terminal to generate a user portrait, the user portrait is provided for the B terminal, and outsourcing order prediction is carried out; compared with the prior art, the intelligent take-out cabinet has the following obvious prominent substantive features and obvious technical progress: the intelligent cabinet Internet of things technology can apply data to a recommendation system of take-out software, so that the ordering efficiency and satisfaction of customers are improved; extracting effective data to generate a billing early warning subsystem of the takeout software, and reasonably screening the takeout evaluation; providing user purchase preference data and providing a new idea for developing new meals of merchants; the intelligent background system is connected to form the Internet of things, so that the accurate positioning of take-out and a series of other functions can be realized. In addition the design of the double-door and no-single-room layered structure of the takeout cabinet ensures that a single person takes the takeout and improves the space utilization rate. This embodiment provides a platform between takeout person and client, improves takeout efficiency and convenience of taking, and the security of guarantee takeout satisfies the needs of people to sharing little refrigerator-freezer simultaneously. The infrared ray and intelligent background Internet of things system guarantee take-out accurate positioning.

Example two

This embodiment is substantially the same as the first embodiment, and is characterized in that:

in the embodiment, a middle layer is arranged between the upper takeout cabinet and the lower small refrigerator, and hot air in the refrigerator of the lower small refrigerator is exhausted upwards through the middle layer and then exhausted through a small hole at the top; the middle layer is provided with a pressure sensor, a semiconductor piezoelectric impedance diffusion pressure sensor is adopted, semiconductor deformation pressure is formed on the surface of the sheet, the sheet is deformed through external force to generate a piezoelectric impedance effect, so that the change of impedance is converted into an electric signal, and when the internal pressure is monitored to be overlarge, the middle valve is automatically opened to deflate, so that the internal and external pressure intensities are stable; the top of the cabinet body is provided with an inductive thermometer, a non-contact temperature measuring instrument is adopted, the temperature in the cabinet is identified according to the detected temperature, and when the temperature is too high, the middle valve is opened through a sensor to dissipate heat.

In the embodiment, a refrigerating system of the lower-layer small refrigerator comprises a compressor, a condenser, an evaporator and a capillary tube to form a closed system; the condenser is arranged in the middle layer between the refrigerator body and the upper outer selling cabinet, and other parts are arranged on the back of the refrigerator body; the system is filled with a refrigerant called Freon 12 (CF2C12, International symbol R12); the Freon 12 is vaporized into gas by low-pressure liquid in the evaporator, absorbs the heat in the refrigerator and reduces the temperature in the refrigerator; the Freon 12 changed into the gas state is sucked by a compressor, compressed into high-temperature and high-pressure gas by the compressor and then discharged into a condenser; the gaseous Freon 12 in the condenser continuously releases heat to the surrounding space and is gradually liquefied into liquid; the high-pressure liquid can flow into the evaporator slowly only by flowing through the capillary and throttling and reducing pressure, and is kept in the evaporator to be continuously vaporized, absorb heat and reduce temperature; the refrigerator applies work by using electric energy, and the heat around the evaporator in the refrigerator is conveyed to the refrigerator and then discharged from the refrigerator in the condenser by virtue of the change of the physical state of the refrigerant, so that the refrigeration system is formed by circulating repeatedly and continuously to achieve the refrigeration purpose. In the embodiment, the refrigerator is provided with a temperature controller, and when the temperature in the refrigerator is overhigh, the compressor is switched on to enable the refrigerating system to work, so that the temperature of the refrigerator body is reduced; when the temperature of the box body is reduced to the required temperature, the compressor is powered off. This embodiment provides a platform between takeout person and client, improves takeout efficiency and convenience of taking, and the security of guarantee takeout satisfies the needs of people to sharing little refrigerator-freezer simultaneously.

EXAMPLE III

This embodiment is substantially the same as the previous embodiment, and is characterized in that:

in this embodiment, a conduction pipe device is installed at a condenser of the refrigeration system, and hot air generated by the condenser is conducted into the upper sales cabinet body through the conduction pipe, so as to form a heat energy utilization system, and thus, the effective utilization of heat energy is realized. This embodiment makes can be through realizing the heat energy conduction between the little refrigerator-freezer of heat energy conduction, energy saving of upper strata outer selling cabinet and lower floor of takeaway cabinet.

Example four

in this embodiment, the code scanning area opens the door according to the two-dimensional code scanned by the takeaway or user. When a takeout person scans the two-dimensional code on the receipt, the background system intelligently selects the position, and the red light of the infrared ray at the position is simultaneously lighted, so that takeout can be conveniently and accurately placed, and the background system sends the meal taking information to the user. When the user scans the two-dimensional code to open the door, the red light of the infrared ray of the takeout position can be simultaneously lightened, and the taking by mistake is avoided. When the taking-out is sensed to be taken by mistake by taking the taking-out by far infrared rays, the alarm device is triggered. The whole intelligent system formed by connecting the code scanning area, the infrared ray and the background intelligent system can realize accurate positioning and Internet of things for selling in the takeout cabinet.

In summary, the intelligent take-out cabinet is an intelligent take-out cabinet combined with the internet of things technology, and mainly comprises an upper take-out cabinet and a lower small freezer. The heat energy is conducted between the take-out cabinet and the small freezer, so that the purpose of energy conservation is achieved. The takeaway cabinet is double-door, and the design of six layers of big cabinets can improve space utilization. Meanwhile, a code scanning area, infrared induction, a background intelligent system and big data technical support are provided. Sweep the code area and open the door according to scanning the two-dimensional code, when sweeping on the receipt two-dimensional code and confirm to place the position, the red light can be lighted to the selected position of backstage system intelligence to convenient and accurate placing and takeaway, backstage system sends the information of getting meal to the user in addition, can realize the accurate location and the thing networking of takeaway cabinet. Additionally, the utility model discloses can a plurality of independent assortments, according to local conditions, satisfy different place needs.

The above description is combined with the drawings to explain the embodiment of the utility model, but the utility model discloses be not limited to above-mentioned embodiment, can also be according to the utility model discloses a multiple change is made to the purpose of creating, the all foundation the utility model discloses change, modification, substitution, combination or simplification of doing under technical scheme's the spirit essence and the principle all should be equivalent replacement mode, as long as accord with the utility model discloses a utility model aims at, as long as do not deviate from the utility model discloses the technical principle and the utility model concept of intelligence takeaway cabinet all belong to the protection range of the utility model.

Claims

1. The utility model provides an intelligence takeaway cabinet, contains entity structure and backstage intelligence big data system, controls takeaway cabinet through backstage intelligence big data system, its characterized in that: the entity structure comprises an upper layer selling cabinet arranged on the upper surface and a lower layer small freezer arranged on the lower surface, wherein the upper layer selling cabinet consists of a box body, an infrared induction intelligent system and a hot air conduction device; the lower layer small refrigerator consists of a refrigerator body, a refrigerating system, a temperature control device, a hot gas conduction device and a code scanning intelligent door opening system; the lower layer small refrigerator is provided with a temperature adjusting module; be equipped with intelligence on the takeaway cabinet and sweep sign indicating number device of opening a door, carry out intelligence switch's control to the takeaway cabinet.

2. The intelligent takeaway cabinet of claim 1, wherein: the cabinet part is sold to the upper layer of box is 6 total layers, and every layer divides 4 regions, and single regional structure is including the mesa, heat insulation layer, the central infrared lamp in top that are equipped with the gas pocket, and the central infrared lamp in top and ground infrared inductor signal connection.

3. The intelligent takeaway cabinet of claim 1, wherein: the refrigerator body of the lower layer small refrigerator is provided with a heat insulation layer, heat insulation materials are filled between the outer shell and the inner lining, the refrigerator door is provided with a magnetic sealing strip to prevent cold air from leaking and hot air from invading, and a high-density polystyrene foam board is padded under the top plate of the refrigerator top to be used as a heat insulation top plate.

4. The intelligent takeaway cabinet of claim 1, wherein: an infrared lamp is arranged at the center of the top of each layer of the upper-layer takeout cabinet, an infrared sensor is arranged at the bottom of each small cell, and the light of the lamp above can illuminate each sensor; after a takeaway order is generated, a control system of the takeaway cabinet automatically determines a takeaway storage position for the takeaway order, and when a takeaway person scans a code and opens a door, the takeaway is placed; after the door is closed again, the infrared sensor cannot be received to activate the alarm system preliminarily, the alarm system can be activated completely by the next door opening, and the alarm system is formed by utilizing the series circuit; after the user scans the code to open the door, the sensor of the binding lattice is closed; the infrared inductor is arranged to meet the induction range of not less than 140-degree cone angle.

5. The intelligent takeaway cabinet of claim 1, wherein: a middle layer is arranged between the upper takeout cabinet and the lower small freezer, and hot air of the refrigerator of the lower small freezer is exhausted upwards through the middle layer and then exhausted through the small hole at the top; the middle layer is provided with a pressure sensor, a semiconductor piezoelectric impedance diffusion pressure sensor is adopted, semiconductor deformation pressure is formed on the surface of the sheet, the sheet is deformed through external force to generate a piezoelectric impedance effect, so that the change of impedance is converted into an electric signal, and when the internal pressure is monitored to be overlarge, the middle valve is automatically opened to deflate, so that the internal and external pressure intensities are stable; the top of the cabinet body is provided with an inductive thermometer, a non-contact temperature measuring instrument is adopted, the temperature in the cabinet is identified according to the detected temperature, and when the temperature is too high, the middle valve is opened through a sensor to dissipate heat.

6. The intelligent takeaway cabinet of claim 5, wherein: in the refrigerating system of the lower-layer small refrigerator, a closed system is formed by four parts including a compressor, a condenser, an evaporator and a capillary tube; the condenser is arranged in the middle layer between the refrigerator body and the upper outer selling cabinet, and other parts are arranged on the back of the refrigerator body; the system is filled with a refrigerant called Freon 12; the Freon 12 is vaporized into gas by low-pressure liquid in the evaporator, absorbs the heat in the refrigerator and reduces the temperature in the refrigerator; the Freon 12 changed into the gas state is sucked by a compressor, compressed into high-temperature and high-pressure gas by the compressor and then discharged into a condenser; the gaseous Freon 12 in the condenser continuously releases heat to the surrounding space and is gradually liquefied into liquid; the high-pressure liquid can flow into the evaporator slowly only by flowing through the capillary and throttling and reducing pressure, and is kept in the evaporator to be continuously vaporized, absorb heat and reduce temperature; the refrigerator applies work by using electric energy, and the heat around the evaporator in the refrigerator is conveyed to the refrigerator and then discharged from the refrigerator in the condenser by virtue of the change of the physical state of the refrigerant, so that the refrigeration system is formed by circulating repeatedly.

7. The intelligent takeaway cabinet of claim 6, wherein: a conduction pipe device is arranged at a condenser of the refrigeration system, and hot air generated by the condenser is conducted into the outer sales cabinet body through the conduction pipe to form a heat energy utilization system.

8. The intelligent takeaway cabinet of claim 6, wherein: the refrigerator is provided with a temperature controller, and when the temperature in the refrigerator is overhigh, the compressor is switched on to enable the refrigerating system to work, so that the temperature of the refrigerator body is reduced; when the temperature of the box body is reduced to the required temperature, the compressor is powered off.

9. The intelligent takeaway cabinet of claim 1, wherein: the box body of the lower layer small refrigerator consists of a small refrigerator and a larger refrigerator, wherein 4 small refrigerators are arranged on the left side of the intelligent takeout cabinet from top to bottom, and two pairs of larger refrigerators are arranged on the right side of the intelligent takeout cabinet from top to bottom to form the box body structure of the lower layer small refrigerator; each single refrigerator structure comprises a shell, an inner liner, a heat insulation layer and a table top; the box body is provided with a heat insulation layer, heat insulation materials are filled between the outer shell and the inner lining, a magnetic sealing strip is arranged on the box door to prevent cold air from leaking and hot air from invading, and a high-density polystyrene foam board is padded under a top plate of the box top to be used as a heat insulation top plate.

10. The intelligent takeaway cabinet of claim 1, wherein: an intelligent code scanning device is arranged on the upper outer selling cabinet and comprises a code scanning head, a code scanning circuit module and a main control module; wherein, sweep the pier and sweep a yard circuit module and be connected, host system with sweep a yard circuit module and be connected.