CN219707866U - Vaccine transportation heat preservation device - Google Patents

Abstract

The utility model relates to vaccine transportation heat preservation equipment, which relates to the technical field of heat preservation equipment and aims to solve the problem that the heat preservation duration of a heat preservation box is too short. The utility model has the effects of increasing the heat preservation time of the heat preservation box and prolonging the transportation time limit of the vaccine.

Description

Vaccine transportation heat preservation device

Technical Field

The utility model relates to the technical field of heat preservation equipment, in particular to vaccine transportation heat preservation equipment.

Background

The vaccine needs to be stored in a temperature range of 2-8 ℃, and when the temperature is lower than 2 ℃, the vaccine can fail due to the too low temperature, and the activity of the vaccine can be destroyed and the vaccine can be also caused to fail when the temperature exceeds 8 ℃.

The current incubator can only keep the vaccine at the temperature of 2-8 ℃ for 36 hours, and the temperature in the incubator exceeds 8 ℃ when the temperature exceeds 36 hours, so that the vaccine is invalid. And some remote areas have longer transportation time, and the transportation time exceeds the heat preservation time of the existing heat preservation box, so that vaccine cannot be delivered.

Disclosure of Invention

In order to increase the heat preservation time of the heat preservation box and prolong the transportation time limit of the vaccine, the utility model provides vaccine transportation heat preservation equipment.

The vaccine transportation heat preservation device provided by the utility model adopts the following technical scheme:

the utility model provides a bacterin transportation heat preservation facility, includes the insulation can, the insulation can overcoat is equipped with the insulation can, the insulation can includes the cover body and the cover lid of activity lid on the cover body, the insulation can includes outer intermediate layer and interior intermediate layer, be provided with the heat preservation between outer intermediate layer and the interior intermediate layer.

Through adopting above-mentioned technical scheme, establish the heat preservation effect that the insulation can be strengthened to the insulation can overcoat at the insulation can to promote the heat preservation duration of insulation can, and the insulation is synthesized by outer intermediate layer, heat preservation and inlayer, further will have strengthened the heat preservation effect of insulation, thereby has increased the heat preservation duration of insulation can, and then can prolong the transportation time limit of bacterin.

Optionally, the insulation can includes the box and is used for closing the case lid of box, the one side that box inner wall and case lid face the box all covers the inner bag.

Through adopting above-mentioned technical scheme, the setting of inner bag can prevent to reduce revealing of insulation can internal cooling air to keep the constant of insulation can internal temperature, thereby strengthen the heat preservation effect.

Optionally, a plurality of holding grooves for holding vaccine are arranged in the box body.

Through adopting above-mentioned technical scheme, a plurality of holding tanks are convenient for place different grade type bacterins, and the classification of bacterin is placed, all provides the convenience to placing and taking of bacterin.

Optionally, a freezing piece for cooling the interior of the insulation box is arranged in the box body.

Through adopting above-mentioned technical scheme, the incubator can leak gradually at long-time transportation in-process, and the freezing piece can be continuous provide the air conditioning for the incubator in to keep the temperature in the incubator invariable.

Optionally, the freezing piece is cold-storage ice bank, the recess that supplies cold-storage ice bank is seted up to the case lid and box opposite one side.

Through adopting above-mentioned technical scheme, cold-storage ice row can reduce the temperature in the insulation can through the heat absorption, and place cold-storage ice row in the case lid, can guarantee that cold-storage ice row and the vaccine equidistance in the box, reduce because of the cold-storage ice row is close to the vaccine too near or the difference that causes cold-storage temperature too far.

Optionally, a temperature measuring component for measuring the internal temperature of the box body is arranged in the heat insulation box.

Through adopting above-mentioned technical scheme, the temperature measurement subassembly can monitor the temperature in the insulation can at any time to can let the staff know at any time whether the bacterin in the insulation is in suitable temperature interval.

Optionally, the temperature measurement subassembly includes the thermoscope that is located the recess inside wall and the control panel who is connected with the thermoscope electricity, be provided with temperature display on the control panel, control panel inlays at the case lid surface.

By adopting the technical scheme, the temperature display on the control panel can display the temperature in the incubator, so that the observation of staff is facilitated.

Optionally, an alarm is installed on the outer surface of the box cover, and the alarm is electrically connected with the control panel and can give an alarm when the temperature inside the box body exceeds a limit value.

By adopting the technical scheme, the control panel can adjust the temperature limit value, and when the temperature in the insulation can exceeds the limit value, the alarm can give out an alarm to remind staff.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the insulation sleeve is sleeved outside the insulation box, so that the insulation effect of the insulation box can be enhanced, the insulation time of the insulation box is prolonged, the insulation sleeve is composed of the outer interlayer, the insulation layer and the inner interlayer, the insulation effect of the insulation sleeve is further enhanced, the insulation time of the insulation box is prolonged, and the transportation time limit of vaccines can be prolonged;

2. the cold accumulation ice row can continuously provide cold air for the heat preservation box, and the cold accumulation ice row is placed in the box cover, so that the cold accumulation ice row is equidistant from vaccine in the box body, and the difference of cold storage temperature caused by too close or too far of the cold accumulation ice row to the vaccine is reduced;

3. the control panel can adjust the temperature limit value, and when the temperature in the incubator exceeds the limit value, the alarm can send out an alarm to remind staff.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of an insulating sleeve according to an embodiment of the present utility model;

FIG. 3 is an internal schematic view of an incubator according to an embodiment of the present utility model;

fig. 4 is a schematic view showing the outer surface of the case cover according to the embodiment of the present utility model.

Reference numerals illustrate: 1. a thermal insulation sleeve; 11. a sleeve body; 12. a cover; 13. a harness; 14. an inner interlayer; 15. a heat preservation layer; 16. an outer interlayer; 2. an insulation box; 21. a case; 211. a receiving groove; 212. a fastener; 22. a case cover; 221. a groove; 222. a fixed rod; 223. a fixing plate; 224. a seal ring; 225. a locking buckle; 23. an inner container; 24. a freezing member; 3. a temperature measuring assembly; 31. a temperature measuring instrument; 32. a control panel; 33. an alarm.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses vaccine transportation heat preservation equipment. Referring to fig. 1 and 2, the box comprises an insulation box 2, the insulation box 2 is square box body shaped, an insulation sleeve 1 is sleeved outside the insulation box 2, the insulation sleeve 1 comprises a sleeve body 11 and a sleeve cover 12 movably covered on the sleeve body 11, and the sleeve cover 12 is opened and closed with the sleeve body 11 through a zipper. The heat preservation sleeve 1 comprises three layers, namely an inner interlayer 14, a heat preservation layer 15 and an outer interlayer 16 from inside to outside, wherein the inner interlayer 14 and the outer interlayer 16 are made of soft leather materials, and the heat preservation layer 15 is made of high-performance heat preservation materials with heat conduction number of 0.015W/mK.

Referring to fig. 1, a telescopic brace 13 is installed on a thermal insulation sleeve 1, two ends of the brace 13 are respectively connected with two side walls of the thermal insulation sleeve 1, and the arrangement of the brace 13 is convenient for a worker to carry the thermal insulation sleeve 1.

Referring to fig. 1 and 3, the incubator 2 includes a case 21 and a case cover 22 having one end rotatably connected to the case 21, a groove 221 is formed in the inner side of the case cover 22, a ring of sealing ring 224 is provided on the surface of the case cover 22 facing the case 21, a locking buckle 225 is connected to the outer side wall of the case 21, and a fastener 212 cooperatively connected to the locking buckle 225 is provided on the outer side wall of the case cover 22. When the case lid 22 is closed with the case body 21, the locking buckle 225 is clamped into the fastener 212, so that the case body 21 and the case lid 22 are fixed, and the sealing ring 224 is attached to the circumferential wall of the top of the case body 21, so that the case body 21 and the case lid 22 are closed more tightly, and the heat preservation effect is enhanced.

The inner wall of the box 21 and the inner wall of the groove 221 are respectively attached with an inner container 23, the inner container 23 is made of acrylonitrile, the inner container 23 isolates vaccine placed in the box 21 from the inner wall of the box 21, and the inner container 23 plays a role in heat preservation of the heat preservation box 2.

Referring to fig. 3, a plurality of partitions are installed in the case 21, the case 21 is divided into a plurality of accommodating grooves 211 by the plurality of partitions, different accommodating grooves 211 are convenient for accommodating different types of vaccines, so that the vaccines are classified and placed, and convenience is provided for the placement and the taking of the vaccines.

The freezing piece 24 is placed in the insulation box 2, the freezing piece 24 is a cold accumulation ice bank, the inner wall of the groove 221, which is far away from the box body 21, is fixedly connected with a fixing rod 222, and the fixing rod 222 is a threaded rod. The cold accumulation ice bank is provided with a positioning hole, the cold accumulation ice bank is placed in the groove 221, the fixing rod 222 penetrates through the positioning hole, and one end of the fixing rod 222 penetrating through the positioning hole is connected with the fixing plate 223 in a threaded mode.

The fixing plate 223 is screwed on the fixing rod 222 to be abutted with the freezing piece 24, so that the freezing piece 24 is fixed in the groove 221, and the freezing piece 24 can continuously emit cold air, so that the temperature in the heat preservation box 2 is kept constant, the problem that the vaccine is invalid due to the fact that the cold air in the heat preservation box 2 gradually leaks out when the heat preservation box 2 is excessively long in transportation time, and the temperature in the heat preservation box 2 is increased can be solved.

Referring to fig. 3 and 4, the incubator 2 is further provided with a temperature measuring component 3, the temperature measuring component 3 comprises a temperature measuring instrument 31 placed on the side wall of the groove 221, an output line is connected to the temperature measuring instrument 31, one end of the output line penetrates through the case cover 22 to be connected with a control panel 32, the outer surface of the case cover 22 is provided with a clamping groove for placing the control panel 32, and the control panel 32 is located in the clamping groove and is flush with the outer surface of the case cover 22. The control panel 32 is provided with a temperature display screen, so that a worker can observe the temperature in the incubator 2 conveniently.

The standing groove has still been seted up to the surface of case lid 22, and standing groove internal fixation has alarm 33, and alarm 33 and control panel 32 point connection set up the temperature interval on control panel 32 after, after the inside temperature of insulation can 2 surpassed the temperature interval, alarm 33 can send out the alarm sound and remind staff to control the inside temperature of insulation can 2.

The implementation principle of the vaccine transportation heat preservation device provided by the embodiment of the utility model is as follows: the locking buckle 225 and the fastener 212 are separated, the case cover 22 is opened and the vaccine is placed in the accommodating groove 211, the freezing piece 24 prepared in advance is installed in the groove 221 of the case cover 22, and the fixing plate 223 is sleeved on the fixing rod 222 and screwed to be abutted with the freezing piece 24, so that the cool storage ice bank is fixed on the inner side of the case cover 22.

Closing the box cover 22, clamping the locking buckle 225 and the fastener 212, fixing the box cover 22 and the box body 21, placing the heat preservation box 2 into the heat preservation sleeve 1, and pulling the zipper of the heat preservation sleeve 1 to close the heat preservation box 2 in the heat preservation sleeve 1. In the process of transporting the heat preservation box 2, the freezing piece 24 can continuously provide cool air for the heat preservation box 2, so that the influence of vaccine failure caused by the fact that the temperature in the heat preservation box 2 rises to more than 8 ℃ due to overlong transportation time is reduced. At the same time, when the temperature in the incubator 2 exceeds 8 degrees celsius, the alarm 33 will sound an alarm to alert the transportation personnel. The double heat preservation effect of the heat preservation sleeve 1 and the heat preservation box 2 can further prolong the heat preservation duration in the heat preservation box 2.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. Vaccine transportation heat preservation equipment, its characterized in that: including insulation can (2), insulation can (2) overcoat is equipped with insulation can (1), insulation can (1) are including cover body (11) and movable cover (12) on cover body (11), insulation can (1) include outer intermediate layer (16) and inlayer (14), be provided with heat preservation (15) between outer intermediate layer (16) and inlayer (14).

2. Vaccine transportation thermal insulation equipment according to claim 1, characterized in that the thermal insulation box (2) comprises a box body (21) and a box cover (22) for closing the box body (21), wherein the inner wall of the box body (21) and the surface of the box cover (22) facing the box body (21) are both covered with an inner container (23).

3. A vaccine delivery and insulation apparatus according to claim 2, wherein a plurality of receiving slots (211) for receiving the vaccine are provided in the housing (21).

4. A vaccine delivery incubator according to claim 3, characterized in that a freezing member (24) for cooling the interior of the incubator (2) is provided in the incubator (2).

5. The vaccine delivery and insulation device according to claim 4, wherein the freezing member (24) is a cold accumulation ice bank, and a groove (221) for placing the freezing member (24) is formed in a surface of the case cover (22) opposite to the case body (21).

6. Vaccine transportation thermal insulation equipment according to claim 1, characterized in that a temperature measuring component (3) for measuring the internal temperature of the box body (21) is arranged in the thermal insulation box (2).

7. The vaccine transportation heat preservation device according to claim 6, wherein the temperature measuring assembly (3) comprises a temperature measuring instrument (31) positioned on the inner side wall of the groove (221) and a control panel (32) electrically connected with the temperature measuring instrument (31), a temperature display is arranged on the control panel (32), and the control panel (32) is inlaid on the outer surface of the box cover (22).

8. A vaccine delivery and insulation apparatus as claimed in claim 7, characterised in that the cover (22) has an alarm (33) mounted on its outer surface, the alarm (33) being electrically connected to the control panel (32) and being adapted to alarm when the temperature inside the housing (21) exceeds a defined value.