阅读说明：本技术 一种实现箱内病毒消杀的无线充电温调集装箱设备 (Wireless temperature-adjusting container equipment that charges that realizes incasement virus disappears and kills ) 是由 任博 于 2021-07-20 设计创作，主要内容包括：本发明属于无线温调技术领域,涉及一种实现箱内病毒消杀并应用无线充电技术的温调集装箱设备。包括病毒消杀部件、隔热箱体、温调机组、次级线圈、整流电路、滤波电路、充电电池组。病毒消杀部件位于集装箱四侧角柱,工作时,四侧角柱的下角件分别与外接消杀设备连接。次级电源电路结构工作时与外部初级电源电路共同形成完整环形磁路。次级电路与充电电池组及充电电池组的输出端温调机组固定连接。本发明在运输、堆存、转运过程中能够实现在集装箱闭封状态下的内部病毒消杀,且不需通过导体或插接件供电,无需人工配置,有效消除冷链货品与作业人员的直接接触造成的疫情感染问题及生产作业过程中因插拔电源引起的触电风险。(The invention belongs to the technical field of wireless temperature adjustment, and relates to temperature adjustment container equipment for achieving virus killing in a container and applying a wireless charging technology. The device comprises a virus killing part, a heat insulation box body, a temperature adjusting unit, a secondary coil, a rectifying circuit, a filter circuit and a rechargeable battery pack. The virus killing parts are positioned on four side corner columns of the container, and when the virus killing parts work, the lower corner pieces of the four side corner columns are respectively connected with external killing equipment. When the secondary power supply circuit structure works, the secondary power supply circuit structure and an external primary power supply circuit form a complete annular magnetic circuit together. The secondary circuit is fixedly connected with the rechargeable battery pack and the output end temperature adjusting unit of the rechargeable battery pack. The invention can realize the sterilization of internal viruses in a closed container state in the transportation, stockpiling and transferring processes, does not need to be supplied with power through a conductor or a plug connector, does not need manual configuration, and effectively eliminates the epidemic infection problem caused by the direct contact of cold chain goods and operating personnel and the electric shock risk caused by plugging and unplugging a power supply in the production operation process.)

1. The utility model provides a realize wireless temperature modulation container equipment that charges that incasement virus disappears and kills which characterized in that: the temperature-regulating container equipment comprises a power supply component, a charging component and a virus killing component;

wherein the power supply part is a primary power supply circuit (1) and is arranged inside the container yard frame body (11);

the charging component is a secondary power supply circuit (2), is arranged at the rear end of the temperature regulation container (21), is hidden in the box body of the temperature regulation container (21), and is arranged opposite to the power supply component;

the virus killing component is a one-way air-through corner column (3) capable of realizing the flowing of external high-pressure air from bottom to top, and is arranged at four corners of a temperature regulation container (21).

2. The wireless charging temperature-regulating container equipment for killing viruses in the container according to claim 1, wherein: in the power supply part, an input power supply (12), a primary rectifying circuit (13), a primary filter circuit (14) and a primary coil (15) are sequentially connected to form a primary power supply circuit (1) structure; a primary coil (15) is wound on the limb of the first half-ring core magnet (16).

3. The wireless charging temperature-regulating container equipment for killing viruses in the container according to claim 1, wherein: in the charging component, a secondary coil (22) is wound on a core column of a second semi-core magnet (23), and the secondary coil (22), a secondary filter circuit (24), a secondary rectifying circuit (25) and an output power supply (26) are sequentially connected to form a secondary power supply circuit (2) structure; when the secondary power supply circuit (2) works, the secondary power supply circuit and the primary power supply circuit (1) form a complete annular magnetic circuit together; the charging member retains a wired terminal of the temperature control container (21).

4. The wireless charging temperature-regulating container equipment for killing viruses in the container according to claim 1, wherein: the unidirectional air-through corner posts (3) are positioned at four corners of the container and specifically comprise upper corner pieces (31), springs (32), posts (33), fixed outer posts (34), sliding inner posts (35), lower corner pieces (36), fixed outer post ventilation openings (37) and sliding inner post ventilation openings (38); wherein, the upper corner piece (31) and the lower corner piece (36) are respectively arranged at the upper end and the lower end of the column body (33), the sliding inner column (35) is hermetically arranged at the inner side of the fixed outer column (34), a compressible spring (33) is axially arranged between the fixed outer column (34) and the sliding inner column (35), and the fixed outer column ventilation opening (37) of the fixed outer column (34) and the sliding inner column ventilation opening (38) of the sliding inner column (35) are closed in a staggered way.

5. The wireless charging temperature-regulating container equipment for killing viruses in the container according to claim 1, wherein: the temperature adjusting container equipment also comprises a temperature adjusting unit, wherein the temperature adjusting unit consists of a refrigerating module and a heating module, and the refrigerating module consists of a compressor, a condenser, an expansion valve, an evaporator and a control system; the heating module is a resistance heater.

6. The wireless charging temperature-regulating container equipment for killing viruses in the container according to claim 1, wherein: the temperature-adjusting container equipment further comprises a heat insulation box body, and the heat insulation box body comprises a heat insulation end wall, a heat insulation side wall, a box door, a box bottom and a box top.

7. The wireless charging temperature-regulating container equipment for killing viruses in the container according to claim 1, wherein: the temperature-adjusting container equipment also comprises a rechargeable battery pack, wherein the rechargeable battery pack is a battery pack capable of storing induced electric energy, and the secondary power circuit (2) is fixedly connected with the rechargeable battery pack and the temperature-adjusting machine set at the output end of the rechargeable battery pack.

Technical Field

The invention belongs to the technical field of wireless temperature adjustment, and particularly relates to temperature adjustment container equipment for achieving virus killing in a container and applying a wireless charging technology.

Background

In recent years, with the economic development and the continuous improvement of the consumption level of China and the increasing concern on the quality and the safety of products such as food, medicine, fruits and vegetables, beverages and the like, the refrigeration industry of China also steps into a motorway and develops rapidly. Cold chain infrastructure, high-specification cold storage and regional cold chain distribution centers are built in disputes of various places, and meanwhile, as China continuously signs free trade agreements with countries in the world, the cold chain logistics industry obtains unprecedented development opportunities, but the cold chain logistics also faces the following bottleneck problems in the development process:

since the occurrence of new crown epidemic situation, the operation of temperature-regulating containers in various large ports faces huge pressure and difficulty. On one hand, the traditional refrigerated container needs manual plugging and unplugging, so that the risk of contact infection exists; on the other hand, epidemic infection events caused by loading and unloading cold chain goods have occurred at home and abroad because the goods in the container cannot be pre-sterilized before the container is opened; moreover, the operation capacity of the port on the traditional refrigerated container mainly depends on the cold plugging capacity of the storage yard, namely the storage capacity is limited by the number of plugs of the refrigerated container in the storage yard, so that the port cannot fully meet the turnover requirements of the temperature-regulated containers at the inlet and the outlet, part of shipcompanies cannot receive refrigerated goods at the relevant ports, and the development of cold chain logistics is objectively limited.

Firstly, the virus killing process of the refrigerated container at present mainly comprises the steps of performing box surface killing on the container before carrying out box lifting in a port, then carrying out box opening on the refrigerated container to a head station bin, and intensively killing goods in the container. This mode has increased the transportation link of container on the one hand, influences container clearance efficiency, and on the other hand has increased operating personnel and has not killed the direct contact risk of goods at the unpacking in-process. Secondly, regarding the power supply process of the refrigerated container, the traditional refrigerated container is mainly connected with a plug through a power line to realize power supply, and for ports, ship enterprises, storage yards and land transportation enterprises, professional personnel are required to be configured to carry out power plugging and power unplugging work according to operation instructions, on one hand, the labor cost is increased for the enterprises, on the other hand, for staff, the power plugging and unplugging personnel face the risk of electric shock, and on the other hand, potential safety hazards such as collision and falling exist in the operation under the severe environments such as wind, frost, rain, snow and the like; on the other hand, the optimal time efficiency of plugging and unplugging cannot be controlled, so that the operation progress and the quality of goods in the temperature-regulating container are influenced.

To sum up, the problem that the conventional refrigerated container is infected by epidemic situation in the box dismounting and mounting process can not adapt to the defects of extremely dynamic environment circulation, high labor cost, large potential safety hazard, incapability of matching the operation progress, incapability of meeting the sensitivity of goods to plugging and unplugging electrical aging and the like.

Disclosure of Invention

The purpose of the invention is as follows: the invention provides wireless charging temperature-adjusting container equipment for killing viruses in a container, and aims to solve the problems that container disassembly and assembly links are infected by epidemic situation, cannot adapt to turnover circulation of a very dynamic environment, is high in labor cost, large in potential safety hazard, cannot match operation progress and cannot meet the sensitivity of goods to plugging and unplugging electrical aging.

The technical scheme is as follows:

the utility model provides a realize wireless temperature modulation container equipment that charges that incasement virus disappears and kills which characterized in that: the temperature-regulating container equipment comprises a power supply component, a charging component and a virus killing component;

the power supply part is a primary power supply circuit and is arranged inside the container yard frame body;

the charging component is a secondary power supply circuit, is arranged at the rear end of the temperature-regulating container, is hidden in the box body of the temperature-regulating container and is arranged opposite to the power supply component;

the virus killing component is a one-way air through corner column capable of realizing the flowing of external high-pressure gas from bottom to top and is arranged at four corners of the temperature regulating container.

In the power supply part, an input power supply, a primary rectifying circuit, a primary filter circuit and a primary coil are sequentially connected to form a primary power supply circuit structure; the primary coil is wound on the core limb of the first half-ring core magnet.

In the charging component, a secondary coil is wound on a core column of the second semi-core magnet, and the secondary coil, a secondary filter circuit, a secondary rectifying circuit and an output power supply are sequentially connected to form a secondary power supply circuit structure; when the secondary power supply circuit works, the secondary power supply circuit and the primary power supply circuit form a complete annular magnetic circuit together; the wired connector of the temperature-regulating container is reserved in the charging component.

The unidirectional air through corner posts are positioned at four corners of the container and specifically comprise upper corner pieces, springs, columns, fixed outer posts, sliding inner posts, lower corner pieces, fixed outer post ventilation openings and sliding inner post ventilation openings; wherein, the upper corner piece and the lower corner piece are respectively arranged at the upper end and the lower end of the column body, the sliding inner column is hermetically arranged at the inner side of the fixed outer column, a compressible spring is axially arranged between the fixed outer column and the sliding inner column, and a fixed outer column ventilation opening of the fixed outer column and a sliding inner column ventilation opening of the sliding inner column are closed in a staggered way.

The temperature adjusting container equipment also comprises a temperature adjusting unit, wherein the temperature adjusting unit consists of a refrigerating module and a heating module, and the refrigerating module consists of a compressor, a condenser, an expansion valve, an evaporator and a control system; the heating module is a resistance heater.

The temperature-adjusting container equipment further comprises a heat insulation box body, and the heat insulation box body comprises a heat insulation end wall, a heat insulation side wall, a box door, a box bottom and a box top.

The temperature regulation container also comprises a rechargeable battery pack which is a battery pack capable of storing induced electric energy, and the secondary power circuit is fixedly connected with the rechargeable battery pack and the temperature regulation unit at the output end of the rechargeable battery pack.

The invention has the beneficial effects that:

1. the invention can realize the sterilization of internal viruses in a closed container state in the transportation, stockpiling and transferring processes, does not need to be supplied with power through a conductor or a plug connector, does not need the original manual configuration of plugging and unplugging a power supply in the circulation link of the isothermal box-adjusting of ports, shipways and storage yards, reduces the labor cost, and effectively eliminates the epidemic infection problem caused by the direct contact of cold-chain goods and operating personnel and the electric shock risk caused by plugging and unplugging the power supply in the production operation process.

2. The temperature control aging requirement of temperature sensitive goods can be met by killing the viruses of goods in the box from time to time.

3. The stockpiling capability is not limited by the number of plugs of the refrigerated containers in the yard, and the loading, unloading, stockpiling and transferring efficiency of the temperature-regulating containers is improved.

Drawings

FIG. 1 is a schematic view of a wireless charging thermostat container device according to the present invention;

FIG. 2 is a schematic view of a wireless charging temperature-regulating container device for killing viruses in the container according to the present invention;

FIG. 3 is a schematic view of the internal structure of the unidirectional air passage corner post of the present invention;

the labels are: 1. a primary power supply circuit; 11. a container yard frame; 12. inputting a power supply; 13. a primary rectifier circuit; 14. a primary filter circuit; 15. a primary coil; 16. a first half-ring core magnet; 2. a secondary power supply circuit; 21. temperature adjusting container; 22. a secondary coil; 23. a second half-core magnet; 24. a secondary filter circuit; 25. a secondary rectifier circuit; 26. an output power supply; 3. a one-way air through corner post; 31. an upper corner fitting; 32. a spring; 33. a cylinder; 34. fixing the outer column; 35. sliding the inner column; 36. a lower corner fitting; 37. a fixed outer column vent; 38. sliding inner column vent.

The specific implementation mode is as follows:

the invention is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

It should be noted that, in a non-conflicting manner, the embodiments and features of the embodiments in the present application may be combined with each other: the present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

In the present invention and in the embodiments of the present invention, the container is a 20-40 foot size temperature regulated container (model A, B, C).

The charging mode adopts a weak coupling resonance mode, and meets the national charging standard.

Example 1

As shown in fig. 1, an embodiment of the present invention provides a wireless charging temperature-adjusting container device. The temperature control device comprises a heat insulation box body, a temperature control unit, a coil, a rectifying circuit, a filter circuit and a rechargeable battery pack.

The temperature-adjusting container equipment is characterized in that the temperature-adjusting container equipment can do work through electric power, and the temperature inside the container can be adjusted according to the properties of goods. The heat insulation box body comprises a heat insulation end wall, a heat insulation side wall, a box door, a box bottom and a box top, and can prevent heat sources inside and outside the box body from exchanging.

According to the arrangement, the wired connector is reserved, normal operation of temperature adjustment container equipment in a wireless charging area is guaranteed, and meanwhile, the power input end, namely the primary circuit, of the wireless charging temperature adjustment container can be hidden underground; the power output end, secondary circuit can be hidden inside the box body, and electric shock safety hidden danger is avoided.

The temperature adjusting unit consists of a refrigerating module and a heating module, wherein the refrigerating module consists of a compressor, a condenser, an expansion valve, an evaporator and a control system; the heating module is a resistance heater. The compressor sucks the refrigerant vapor in the evaporator, increases the evaporation pressure, creates a condensation condition, and promotes the refrigeration cycle in the system. The condenser converts gas or vapor in the system into liquid, i.e., transfers heat in the system to a cooling medium. The expansion valve throttles and reduces the pressure of the high-pressure refrigerant liquid condensed by the condenser, gasifies the refrigerant and absorbs latent heat of gasification. The evaporator gasifies the low-temperature condensing agent, and exchanges heat energy with the external environment to achieve the aim of refrigeration. The control system consists of a central processing unit, a detector and a cold meter, analyzes system data and controls the operation of the refrigeration equipment. The resistance heater utilizes the current heat effect to generate heat and adjusts the temperature in the box.

By the arrangement, during refrigeration, relatively low-temperature gas flows from the upper part to the lower part in the box, and the refrigeration module does work in cooperation to achieve the cooling and refrigeration effects. When heating, the relatively high-temperature gas flows from the lower part to the upper part in the box, and the heating module works in cooperation to achieve the heating effect.

The coil is wound on the core column of the semi-annular magnetic core body and is connected with the rectifying circuit and the filter circuit, and the secondary power supply circuit structure and an external primary power supply circuit form a complete annular magnetic circuit together when working.

The rectifier circuit is a component of a circuit and comprises a transformer, a rectifier main circuit and a filter, and the rectifier circuit converts alternating current electric energy into direct current electric energy.

The filter circuit is used for filtering ripples in the rectified output voltage and reducing load current and voltage ripples.

The rechargeable battery pack is a battery pack capable of storing induced electric energy, and ensures electric energy supply in the temperature regulation system and stabilizes the temperature condition in the box body during the period that the temperature regulation container is temporarily away from the primary circuit.

According to the arrangement, when the temperature adjustment container is in an induction power supply state, surplus electric quantity is stored in the rechargeable battery pack while the secondary circuit supplies power to loads such as the refrigeration module or the heating module; when the temperature adjusting container is in a non-induction power supply state, the rechargeable battery pack supplies power to loads such as a refrigerating module or a heating module.

The rear end of the temperature adjusting container body 21 is in contactless butt joint with the temperature adjusting container yard frame body 11. The temperature-adjusting container 21 can be stacked on a high level according to actual needs of a storage yard, a ship and the like, and the number of the primary power circuits 1 of the temperature-adjusting container storage yard frame 11 is matched with the number of stacking layers of the temperature-adjusting container 21.

In the above arrangement, the temperature-regulating container yard frame 11 includes the primary power circuit 1, the primary power circuit 1 is composed of the primary rectifying circuit 13, the primary filter circuit 14, the primary coil 15 and the first semi-ring core magnet 16, and the input power 12 is 220V ac power.

Further, the secondary power supply circuit 2 is composed of a secondary rectifying circuit 25, a secondary filter circuit 24, a secondary coil 22, and a second half core magnet 23, and an output power supply 26 is a dc power supply and is connected to a load such as a rechargeable battery pack, a cooling module, and a heating module.

In the embodiment of the present invention, specifically, when the temperature-adjusting container 21 is hoisted to the temperature-adjusting container yard frame 11, manual power plugging and unplugging are not required, the primary power circuit 1 in the temperature-adjusting container yard frame 11 and the secondary power circuit 2 in the temperature-adjusting container automatically interact with each other, induced current maintains normal operation of the temperature-adjusting container, and surplus electric energy is stored in the rechargeable battery pack.

Further, when the temperature-adjusting container 21 is temporarily lifted away from the coverage area of the temperature-adjusting container yard frame 11, the rechargeable battery pack in the temperature-adjusting container 21 releases electric energy by itself, so that the temperature-adjusting container 21 can continuously work for a period of time, and the temperature of the goods in the container is guaranteed to be stable.

Further, when the area where the temperature adjustment container 21 is located does not have available wireless charging equipment, an operator can manually connect the standby connection wire with the power supply, and the availability and the application range of the temperature adjustment container are guaranteed.

Example 2

As shown in fig. 2, a wireless temperature-adjusting container equipment that charges that realizes virus killing in case which characterized in that: the temperature-regulating container equipment comprises a power supply component, a charging component and a virus killing component;

the power supply part is a primary power supply circuit 1 and is arranged inside a container yard frame body 11;

the charging component is a secondary power supply circuit 2, is arranged at the rear end of the temperature regulation container 21, is hidden in the box body of the temperature regulation container 21 and is arranged opposite to the power supply component;

the virus killing component is a one-way air through corner column 3 which can realize the flowing of external high-pressure air from bottom to top and is arranged at four corners of the temperature regulation container 21.

In the power supply part, an input power supply 12, a primary rectifying circuit 13, a primary filter circuit 14 and a primary coil 15 are sequentially connected to form a primary power supply circuit 1 structure; primary coil 15 is wound around the leg of first half-ring core magnet 16.

In the charging component, a secondary coil 22 is wound on a core column of a second semi-core magnet 23, and the secondary coil 22, a secondary filter circuit 24, a secondary rectifying circuit 25 and an output power supply 26 are sequentially connected to form a secondary power supply circuit 2 structure; the secondary power supply circuit 2 and the primary power supply circuit 1 form a complete annular magnetic circuit when in operation.

The unidirectional air through corner columns 3 are positioned at four corners of the container and specifically comprise upper corner pieces 31, springs 32, columns 33, fixed outer columns 34, sliding inner columns 35, lower corner pieces 36, fixed outer column ventilation openings 37 and sliding inner column ventilation openings 38; wherein, the upper corner piece 31 and the lower corner piece 36 are respectively arranged at the upper end and the lower end of the column body 33, the sliding inner column 35 is arranged at the inner side of the fixed outer column 34 in a sealing way, the compressible spring 33 is axially arranged between the fixed outer column 34 and the sliding inner column 35, and the fixed outer column ventilation opening 37 of the fixed outer column 34 and the sliding inner column ventilation opening 38 of the sliding inner column 35 are closed in a staggered way.

The temperature adjusting container equipment also comprises a temperature adjusting unit, wherein the temperature adjusting unit consists of a refrigerating module and a heating module, and the refrigerating module consists of a compressor, a condenser, an expansion valve, an evaporator and a control system; the heating module is a resistance heater.

The temperature-adjusting container equipment further comprises a heat insulation box body, and the heat insulation box body comprises a heat insulation end wall, a heat insulation side wall, a box door, a box bottom and a box top.

The temperature regulation container also comprises a rechargeable battery pack which is a battery pack capable of storing induced electric energy, and the secondary power circuit 2 is fixedly connected with the rechargeable battery pack and the temperature regulation unit at the output end of the rechargeable battery pack.

As shown in fig. 3, the unidirectional air-through corner posts 3 are located at four corner posts of the temperature-adjusting container 21, and specifically include an upper corner piece 31, a spring 32, a post 33, a fixed outer post 34, a sliding inner post 35, a lower corner piece 36, a fixed outer post ventilation opening 37, and a sliding inner post ventilation opening 38.

Further, when the container is located on the external sterilizing device, the high-pressure sterilizing gas flows from the lower corner piece 31 of the one-way air through corner post 3 to the upper corner piece 36, the high-pressure gas pushes the sliding inner post 35 in the post body 33 to move upwards relative to the fixed outer post 34, so that the sliding inner post vent 38 is matched with the fixed outer post vent 37, and further, the sterilizing gas enters the inside of the container. When the external sterilizing equipment is disconnected with the lower corner piece 36, the sliding inner column 35 is reset under the thrust action of the spring 32, so that the sliding inner column ventilation opening 38 and the fixed outer column ventilation opening 37 are closed in a staggered mode.

Furthermore, four one-way air through corner columns 3 are mutually independent, the number of acting devices of external sterilizing equipment is selectively started by sterilizing personnel according to the sterilizing requirement of goods in the box, and water drops condensed in each air through corner column of sterilizing gas are discharged through the corner devices corresponding to the corner columns.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.