阅读说明：本技术 一种双制冷系统智能疫苗柜 (Intelligent vaccine cabinet with double refrigeration systems ) 是由 马志君 于 2021-06-29 设计创作，主要内容包括：本发明公开了一种双制冷系统智能疫苗柜,两组制冷系统和一组蒸发风机组件,每组制冷系统分别包括压缩机、冷凝器、干燥过滤器、毛细管和蒸发器,压缩机、冷凝器、干燥过滤器、毛细管和蒸发器通过管路首尾依次连接形成制冷剂流路,两个制冷系统的蒸发器均与蒸发风机组件配合工作。通过上述优化设计的双制冷系统智能疫苗柜,通过设置两组制冷系统,独立运行,同时工作可大大提高制冷效果,实现急速降温的需求,并且交替运行时,保证制冷更加稳定可靠,此外,当一套系统发生故障时,另一套系统仍能正常工作,防止了箱内温度的波动影响疫苗。(The invention discloses an intelligent vaccine cabinet with double refrigerating systems, which comprises two groups of refrigerating systems and one group of evaporation fan assembly, wherein each group of refrigerating system respectively comprises a compressor, a condenser, a drying filter, a capillary tube and an evaporator, the compressor, the condenser, the drying filter, the capillary tube and the evaporator are sequentially connected end to end through pipelines to form a refrigerant flow path, and the evaporators of the two refrigerating systems are matched with the evaporation fan assembly to work. Through the two refrigerating system intelligent vaccine cabinets of above-mentioned optimal design, through setting up two sets of refrigerating system, the independent operation, simultaneous working can improve refrigeration effect greatly, realizes the demand of cooling down rapidly to in the alternative operation, guarantee that the refrigeration is more reliable and more stable, in addition, when one set of system breaks down, another set of system still can normally work, has prevented that the fluctuation of incasement temperature from influencing the bacterin.)

1. A two refrigerating system intelligence bacterin cabinets, its characterized in that includes: the system comprises a first refrigeration system, a second refrigeration system and an evaporation fan assembly;

the first refrigeration system comprises a first compressor (21), a first condenser (22), a first drying filter (23), a first capillary tube (24) and a first evaporator (25), wherein the first compressor (21), the first condenser (22), the first drying filter (23), the first capillary tube (24) and the first evaporator (25) are sequentially connected end to end through pipelines to form a first refrigerant flow path;

the second refrigeration system comprises a second compressor (31), a second condenser (32), a second dry filter (33), a second capillary tube (34) and a second evaporator (35), wherein the second compressor (31), the second condenser (32), the second dry filter (33), the second capillary tube (34) and the second evaporator (35) are sequentially connected end to end through pipelines to form a second refrigerant flow path;

the first evaporator (25) and the second evaporator (35) are both matched with the evaporation fan assembly.

2. The dual-refrigeration-system intelligent vaccine cabinet according to claim 1, further comprising a cabinet body, wherein a refrigeration cavity and an equipment cavity are arranged in the cabinet body from top to bottom, a partition plate (60) is vertically arranged in the refrigeration cavity, the refrigeration cavity is divided into a drawing space and an evaporation space by the partition plate (60), and an air outlet is arranged on the partition plate (60);

first compressor (21), first condenser (22), first drier-filter (23), first capillary (24), second compressor (31), second condenser (32), second drier-filter (33) and second capillary (34) all set up the equipment intracavity, first evaporimeter (25), second evaporimeter (35) and evaporation fan subassembly set up in the evaporation intracavity, the evaporation chamber is kept away from baffle (60) one side and is equipped with the louvre.

3. The dual refrigeration system intelligent vaccine cabinet of claim 2, wherein the first evaporator (25) is located above the second evaporator (35) and the evaporator fan assembly is located above the first evaporator (25).

4. The dual refrigeration system intelligent vaccine cabinet of claim 3, wherein the evaporator fan assembly includes two evaporator fans (70), the two evaporator fans (70) being arranged horizontally side by side above the first evaporator (25).

5. The dual refrigeration system intelligent vaccine cabinet of claim 3 or 4, wherein the heat dissipation holes are located above the first evaporator (25) and arranged corresponding to the evaporation fan assembly.

6. The dual refrigeration system intelligent vaccine cabinet according to claim 2 or 3, characterized by further comprising a drawer unit, wherein the drawer unit comprises a basket (1) and a thermal door panel (7), the basket (1) is installed in the drawing space in a drawing way, and the thermal door panel (7) is installed at one end of the basket (1) far away from the partition plate (60).

7. The dual refrigeration system intelligent vaccine cabinet according to claim 6, wherein the drawer unit further comprises a partition (60), the inner wall of the basket (1) is provided with a plurality of slots, the slots extend from the upper end to the bottom of the basket (1), the partition (60) is located in the basket (1) and the two ends of the partition can be inserted into any two slots.

8. The dual refrigeration system intelligent vaccine cabinet according to claim 7, characterized in that the side wall of the basket (1) is provided with ventilation slots extending from top to bottom, the slots form the slots on the inner wall of the basket (1).

9. The dual refrigeration system intelligent vaccine cabinet of claim 1, wherein the first refrigeration system further includes a first condensing fan (26) cooperating with the first condenser (22), and the second refrigeration system further includes a second condensing fan (36) cooperating with the second condenser (32).

10. The dual refrigeration system intelligent vaccine cabinet of claim 1, further comprising a controller, wherein the controller is connected to the first refrigeration system and the second refrigeration system, the controller controls the second refrigeration system to start when the first refrigeration system fails, and/or the controller controls the first refrigeration system to start when the second refrigeration system fails.

Technical Field

The invention relates to the technical field of intelligent vaccine cabinets, in particular to an intelligent vaccine cabinet with double refrigeration systems.

Background

Current vaccine storage box refrigerating system adopts single cold system usually, triggers malfunction alerting when the problem appears, and the user of being convenient for reports for repair, but the maintenance personal arrives the scene and needs certain time, and the temperature of this period incasement can rise again, has lost suitable save temperature to the bacterin, can damage the bacterin when serious, causes the loss of moral.

Although the existing vaccine boxes realize the networking function, the background can monitor the operation condition of the vaccine boxes in real time and can give an alarm and report for repair when the refrigerating system fails, the problem of a user is fundamentally solved, the user basically does not have temporary equipment for storing vaccines, the problem can be solved after sale, and even the normal operation of the user can be influenced, so that the serious influence is caused.

In addition, even if after-sales personnel arrive at the site when the refrigeration system has a fault, some small problems can be solved on the site, but some big problems cannot be solved, only the fault machine can be pulled to repair or returned to a factory, a spare machine needs to be used for a user in the process, related systems need to be docked again, and the vaccine supervision is not facilitated.

Disclosure of Invention

In order to solve the technical problems in the background art, the invention provides an intelligent vaccine cabinet with double refrigeration systems.

The invention provides an intelligent vaccine cabinet with double refrigeration systems, which comprises: the system comprises a first refrigeration system, a second refrigeration system and an evaporation fan assembly;

the first refrigeration system comprises a first compressor, a first condenser, a first drying filter, a first capillary tube and a first evaporator, wherein the first compressor, the first condenser, the first drying filter, the first capillary tube and the first evaporator are sequentially connected end to end through pipelines to form a first refrigerant flow path;

the second refrigeration system comprises a second compressor, a second condenser, a second drying filter, a second capillary tube and a second evaporator, wherein the second compressor, the second condenser, the second drying filter, the second capillary tube and the second evaporator are sequentially connected end to end through pipelines to form a second refrigerant flow path;

the first evaporator and the second evaporator are matched with the evaporation fan assembly.

Preferably, the refrigerator also comprises a cabinet body, wherein a refrigeration cavity and an equipment cavity which are arranged up and down are arranged in the cabinet body, a vertically arranged partition plate is arranged in the refrigeration cavity, the refrigeration cavity is divided into a drawing space and an evaporation space by the partition plate, and an air outlet is formed in the partition plate;

first compressor, first condenser, first drier-filter, first capillary, second compressor, second condenser, second drier-filter and second capillary all set up the equipment intracavity, first evaporimeter, second evaporimeter and evaporation fan subassembly set up the evaporation intracavity, the evaporation chamber is kept away from baffle one side and is equipped with the louvre.

Preferably, the first evaporator is located above the second evaporator and the evaporation fan assembly is located above the first evaporator.

Preferably, the evaporator fan assembly comprises two evaporator fans arranged horizontally side by side above the first evaporator.

Preferably, the heat dissipation holes are located above the first evaporator and arranged corresponding to the evaporation fan assembly.

Preferably, the drawer unit comprises a basket and a heat preservation door plate, the basket can be installed in the drawing space in a drawing mode, and the heat preservation door plate is installed at one end, far away from the partition plate, of the basket.

Preferably, the drawer unit further comprises a partition board, a plurality of slots are formed in the inner wall of the basket, the slots extend from the upper end of the basket to the bottom, the partition board is located in the basket, and two ends of the partition board can be inserted into any two slots.

Preferably, the side wall of the basket is provided with a ventilation notch extending from top to bottom, and the notch forms the slot on the inner wall of the basket.

Preferably, the first refrigeration system further comprises a first condensing fan matched with the first condenser, and the second refrigeration system further comprises a second condensing fan matched with the second condenser.

Preferably, the refrigeration system further comprises a controller, the controller is connected with the first refrigeration system and the second refrigeration system, the controller controls the second refrigeration system to start when the first refrigeration system fails, and/or the controller controls the first refrigeration system to start when the second refrigeration system fails.

The invention provides an intelligent vaccine cabinet with double refrigerating systems, which comprises two groups of refrigerating systems and one group of evaporation fan assembly, wherein each group of refrigerating systems respectively comprises a compressor, a condenser, a drying filter, a capillary tube and an evaporator, the compressor, the condenser, the drying filter, the capillary tube and the evaporator are sequentially connected end to end through pipelines to form a refrigerant flow path, and the evaporators of the two refrigerating systems are matched with the evaporation fan assembly to work. Through the two refrigerating system intelligent vaccine cabinets of above-mentioned optimal design, through setting up two sets of refrigerating system, the independent operation, simultaneous working can improve refrigeration effect greatly, realizes the demand of cooling down rapidly to in the alternative operation, guarantee that the refrigeration is more reliable and more stable, in addition, when one set of system breaks down, another set of system still can normally work, has prevented that the fluctuation of incasement temperature from influencing the bacterin.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent vaccine cabinet with dual refrigeration systems according to the present invention.

Fig. 2 is a refrigeration schematic diagram of the intelligent vaccine cabinet with double refrigeration systems according to the present invention.

Fig. 3 is a schematic side sectional view of an intelligent vaccine cabinet with dual refrigeration systems according to the present invention.

Fig. 4 is a schematic diagram of an arrangement structure of an evaporator and an evaporation fan of the intelligent vaccine cabinet with double refrigeration systems according to the present invention.

Fig. 5 is a schematic structural diagram of a basket of the intelligent vaccine cabinet with dual refrigeration systems according to the present invention.

Fig. 6 is a schematic view of another basket structure of the intelligent vaccine cabinet with double refrigeration systems according to the present invention.

Fig. 7 is a schematic structural diagram of a drawer unit of an intelligent vaccine cabinet with dual refrigeration systems according to the present invention.

Detailed Description

Fig. 1 to 7 show a schematic structural diagram of a dual-refrigeration system intelligent vaccine cabinet according to the present invention, fig. 2 shows a refrigeration schematic diagram of a dual-refrigeration system intelligent vaccine cabinet according to the present invention, fig. 3 shows a schematic side sectional view of a dual-refrigeration system intelligent vaccine cabinet according to the present invention, fig. 4 shows an arrangement structural diagram of an evaporator and an evaporation fan of a dual-refrigeration system intelligent vaccine cabinet according to the present invention, fig. 5 shows a basket structure of a dual-refrigeration system intelligent vaccine cabinet according to the present invention, fig. 6 shows another basket structure of a dual-refrigeration system intelligent vaccine cabinet according to the present invention, and fig. 7 shows a structural diagram of a drawer unit of a dual-refrigeration system intelligent vaccine cabinet according to the present invention.

Referring to fig. 1 and 2, the invention provides an intelligent vaccine cabinet with dual refrigeration systems, comprising: the system comprises a first refrigeration system, a second refrigeration system and an evaporation fan assembly;

the first refrigeration system comprises a first compressor 21, a first condenser 22, a first drying filter 23, a first capillary tube 24 and a first evaporator 25, wherein the first compressor 21, the first condenser 22, the first drying filter 23, the first capillary tube 24 and the first evaporator 25 are sequentially connected end to end through pipelines to form a first refrigerant flow path;

the second refrigeration system comprises a second compressor 31, a second condenser 32, a second drying filter 33, a second capillary tube 34 and a second evaporator 35, wherein the second compressor 31, the second condenser 32, the second drying filter 33, the second capillary tube 34 and the second evaporator 35 are sequentially connected end to end through pipelines to form a second refrigerant flow path;

the first evaporator 25 and the second evaporator 35 are both fitted with an evaporation fan assembly.

In the specific refrigeration process of two refrigerating system intelligent vaccine cabinets of this embodiment, in a refrigerating system work, the refrigerant passes through inverter compressor, condenser, drier-filter, capillary, evaporimeter in proper order, and the refrigeration action is accomplished to the evaporimeter, and wherein, condensation fan and condenser cooperation work are used for dispelling the heat for the condenser, and evaporation fan subassembly and evaporimeter cooperation work are used for dispelling the heat for the evaporimeter.

In the embodiment of the refrigeration system, the first refrigeration system further includes a first condensing fan 26 cooperating with the first condenser 22, and the second refrigeration system further includes a second condensing fan 36 cooperating with the second condenser 32.

In a specific control mode of the vaccine cabinet, the embodiment further comprises a controller, the controller is connected with the first refrigeration system and the second refrigeration system, the controller controls the second refrigeration system to start when the first refrigeration system fails, and/or the controller controls the first refrigeration system to start when the second refrigeration system fails.

In this embodiment, two refrigerating system intelligence bacterin cabinets that propose, two sets of refrigerating system and a set of evaporation fan subassembly, every refrigerating system of group includes compressor, condenser, drier-filter, capillary and evaporimeter respectively, and compressor, condenser, drier-filter, capillary and evaporimeter connect gradually through the pipeline end to end and form the refrigerant flow path, and two refrigerating system's evaporimeters all work with the cooperation of evaporation fan subassembly. Through the two refrigerating system intelligent vaccine cabinets of above-mentioned optimal design, through setting up two sets of refrigerating system, the independent operation, simultaneous working can improve refrigeration effect greatly, realizes the demand of cooling down rapidly to in the alternative operation, guarantee that the refrigeration is more reliable and more stable, in addition, when one set of system breaks down, another set of system still can normally work, has prevented that the fluctuation of incasement temperature from influencing the bacterin.

Referring to fig. 3, in a specific arrangement mode of the refrigeration systems, the dual-refrigeration-system intelligent vaccine cabinet of this embodiment further includes a cabinet body, a refrigeration cavity and an equipment cavity are arranged in the cabinet body from top to bottom, a partition plate 60 is vertically arranged in the refrigeration cavity, the refrigeration cavity is divided into a drawing space and an evaporation space by the partition plate 60, and an air outlet is formed in the partition plate 60;

first compressor 21, first condenser 22, first drier-filter 23, first capillary 24, second compressor 31, second condenser 32, second drier-filter 33 and second capillary 34 all set up the equipment intracavity, first evaporimeter 25, second evaporimeter 35 and evaporation fan subassembly set up in the evaporation intracavity, the evaporation chamber is kept away from baffle 60 one side and is equipped with the louvre.

During refrigeration, the evaporator is arranged at the rear side of the refrigeration cavity, and generated cold air enters the refrigeration cavity from the air outlet on the partition plate, so that the refrigeration effect of the refrigeration cavity is ensured.

In a further arrangement, the first evaporator 25 is located above the second evaporator 35 and the evaporator fan assembly is located above the first evaporator 25 to facilitate the arrangement of the two evaporators.

In order to ensure the rapid discharge of the heat generated by the evaporator, referring to fig. 4, in a specific arrangement of the evaporation fan assembly, the evaporation fan assembly includes two evaporation fans 70, and the two evaporation fans 70 are horizontally arranged side by side above the first evaporator 25; when the evaporimeter during operation, the heat that the evaporimeter produced rises along with gaseous, discharges fast under the effect of evaporation fan subassembly, and two evaporation fan levels are arranged, the ascending coverage area of increase horizontal direction to realize that a set of evaporation fan subassembly can effectively dispel the heat to two sets of evaporimeters homoenergetic.

In addition, in order to rapidly discharge the heat in the evaporation space, the heat dissipation holes are located above the first evaporator 25 and arranged corresponding to the evaporation fan assembly.

In other specific embodiments, this embodiment still includes the drawer unit, and the drawer unit is including putting basket 1 and heat preservation door plant 7, but puts basket 1 pull and install in the pull space, heat preservation door plant 7 is installed and is being kept away from baffle 60 one end at putting basket 1, and heat preservation door plant and cabinet body edge sealing fit play thermal-insulated heat preservation effect, further guarantee the interior temperature balance of bacterin cabinet.

Referring to fig. 5, in a further specific design manner of the drawer unit, the drawer unit further includes a partition plate 60, a plurality of slots are formed in an inner wall of the basket 1, the slots extend from an upper end to a bottom of the basket 1, the partition plate 60 is located in the basket 1, and two ends of the partition plate 60 can be inserted into any two slots; through baffle and slot cooperation, can will put and divide into a plurality of storage area according to medicine storage needs in the basket, improve the efficiency of accomodating the access.

Specifically, the drawer unit includes transverse partition plate 20 and longitudinal baffle 30, puts basket 1 horizontal relative both sides inner wall and is equipped with the first slot that is used for installing transverse partition plate 20, puts basket 1 longitudinal both sides inner wall and is equipped with the second slot that is used for installing longitudinal baffle 30, through transverse partition plate and longitudinal baffle's design, improves and separates the flexibility, increase space utilization.

In addition, referring to fig. 6, the partition may also adopt a structure of a main partition body 21 and a sub-partition body 22, and the sub-partition body 22 is mounted on the main partition body 21, thereby improving the flexibility of the partition inside the basket.

Furthermore, the side wall of the basket 1 is provided with a ventilation notch extending from top to bottom, and the notch forms the slot on the inner wall of the basket 1; put and form a plurality of ventilation notches on the basket, improve the circulation efficiency of air conditioning, and then guarantee the temperature equilibrium stability of whole refrigeration intracavity.

In addition, referring to fig. 7, in a specific installation manner of the drawer unit, the inner walls of two opposite sides of the drawing space in the drawing direction are respectively provided with a slide rail seat 2, two sides of the drawer unit are respectively provided with a slide rail body 3 matched with the slide rail seat 2, and the drawer unit is slidably installed in the drawing space through the slide rail body 3 and the slide rail seat 2;

the drawer unit further comprises a synchronization assembly and a drive motor 50;

the synchronous assembly comprises two synchronous racks 4, two synchronous gears 5 and a connecting rod 6, the two synchronous gears 5 are coaxially arranged and can be respectively and rotatably installed on the two sliding rail bodies 3, two ends of the connecting rod 6 are respectively connected with the two synchronous gears 5 and are arranged along the axial direction of the synchronous gears 5, the two synchronous racks 4 are respectively positioned on two sides of the basket 1 and are arranged along the extending direction of the sliding rail seat 2, and the two synchronous racks 4 are respectively meshed with the two synchronous gears 5;

the driving motor 50 is used for driving the synchronous gear 5 to rotate so as to drive the sliding rail body 3 to slide.

When a worker needs to take a medicine, the electromagnetic lock assembly of the drawer unit where the medicine is located is unlocked, the driving motor drives the synchronous gear to rotate through the connecting rod, and the synchronous gear moves along the synchronous rack due to the meshing between the synchronous gear and the synchronous rack, so that the sliding rail body is driven to slide along the sliding rail seat, and the drawer unit is automatically pulled open; similarly, after the staff took the medicine, driving motor passed through connecting rod drive synchronous gear and rotated, realized the automatic closure of drawer unit, and the electromagnetic lock subassembly locks, can realize through driving motor that the drawer unit opens and closes, realizes drawer automatic switch, and then avoids the manual hourglass that closes the door probably exists to close or close not tight, causes the bacterin to save improperly.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.