CN208254043U - Vaccine refrigerating box with the anti-freezing function of vaccine - Google Patents

Abstract

The utility model discloses a kind of vaccine refrigerating boxes with the anti-freezing function of vaccine.Wherein, with the anti-freezing function of vaccine vaccine refrigerating box, including refrigerating box ontology and be located at the intrinsic vaccine locker room of the refrigerating box；The vaccine refrigerating box further includes for absorbing cooling capacity and/or delaying the separation layer of cooling capacity conduction of velocity；Separation layer is located at the outside in refrigerating box ontology and being located at vaccine locker room；Cold source rest area is additionally provided between separation layer and the inner sidewall of refrigerating box ontology.Vaccine refrigerating box in the utility model can be absorbed part cooling capacity and/or delay the conduction of velocity of cooling capacity, convenient for maintaining vaccine to store indoor temperature at 0 degree Celsius or more, the function of anti-frost protection is played to vaccine by the way that separation layer is arranged.

Description

Vaccine refrigerating box with the anti-freezing function of vaccine

Technical field

The utility model relates to vaccine refrigerating technical field more particularly to a kind of vaccine with the anti-freezing function of vaccine are cold Hide case.

Background technique

Currently, the vaccine refrigerating box used in vaccine cold chain transportation industry, generally freezes safeguard function without vaccine, makes Used time needs to be prepared work in advance.

Under the prior art, after the cold source freezed is put into vaccine refrigerating box, excessive cooling capacity can make the temperature inside the box that can drop To 0 ° hereinafter, vaccine can be frozen and fail if being put into vaccine at this time.

Therefore, user needs to begin to use until the temperature inside the box goes back up to 0 ° or more and can just be put into vaccine.

Since the temperature recovery time is longer, a large amount of cooling capacity can be lost in refrigerating box during temperature recovery, are reduced its refrigeration and are protected Warm nature energy.Simultaneously the longer waiting time, inconvenience also is brought to user's use.

Therefore, it is necessary to be improved to currently available vaccines, existing vaccines refrigerating box, to solve the defect of the above technical aspect.

Utility model content

The purpose of this utility model is that a kind of vaccine refrigerating box with the anti-freezing function of vaccine is proposed, in vaccine refrigerating Case is in use, the temperature inside the box will not drop to 0 ° hereinafter, to realize the anti-frost protection function to vaccine.

The utility model to achieve the goals above, adopts the following technical scheme that

Vaccine refrigerating box with the anti-freezing function of vaccine, including refrigerating box ontology and be located at the intrinsic vaccine of refrigerating box Locker room；

Vaccine refrigerating box further includes for absorbing cooling capacity and/or delaying the separation layer of cooling capacity conduction of velocity；

Separation layer is located at the outside in refrigerating box ontology and being located at vaccine locker room；

Cold source rest area is additionally provided between separation layer and the inner sidewall of refrigerating box ontology.

Above-mentioned technical proposal can be absorbed part cooling capacity and/or delay the conduction of velocity of cooling capacity, just by setting separation layer In maintaining vaccine to store indoor temperature at 0 degree Celsius or more, the function of anti-frost protection is played to vaccine.

Preferably, separation layer is the separating phase transformation layer for absorbing cooling capacity.

Above-mentioned technical proposal limits separation layer by way of absorbing cooling capacity, keeps 0 degree Celsius of vaccine locker room or more Temperature.

Preferably, separation layer be for cooling capacity separation layer.Above-mentioned technical proposal limits separation layer by delaying cooling capacity to pass The mode of speed is led, the temperature of 0 degree Celsius of vaccine locker room or more is kept.

Preferably, separation layer includes the separating phase transformation layer for absorbing cooling capacity and the cooling capacity for delaying cooling capacity conduction of velocity Separation layer.

Above-mentioned technical proposal, while separation layer is limited by way of absorbing cooling capacity and delaying cooling capacity conduction of velocity, it keeps The temperature of 0 degree Celsius of vaccine locker room or more, the vaccine antifreezing effect which is played are best.

Preferably, the inside of separating phase transformation layer is made of phase-change material.

Preferably, cooling capacity separation layer is made of vacuum heat-insulation plate material or thermal insulation board material.

Preferably, cooling capacity separation layer is located at the outside of vaccine locker room, and separating phase transformation layer is located at the outside of cooling capacity separation layer.

Preferably, the inside of refrigerating box ontology is made of expanded material.

The utility model has the advantages that

The utility model guarantees that vaccine storage is indoor by way of absorbing cooling capacity and/or delaying cooling capacity conduction of velocity Temperature is at 0 degree Celsius or more, while realizing to vaccine refrigerating, guarantees that vaccine will not be frozen because absorbing excessive cooling capacity.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the vaccine refrigerating box in the utility model embodiment 1 with the anti-freezing function of vaccine；

Fig. 2 is the top view of the vaccine refrigerating box in the utility model embodiment 1 with the anti-freezing function of vaccine；

Fig. 3 is the structural schematic diagram of the vaccine refrigerating box in the utility model embodiment 2 with the anti-freezing function of vaccine；

Fig. 4 is the top view of the vaccine refrigerating box in the utility model embodiment 2 with the anti-freezing function of vaccine；

Fig. 5 is the structural schematic diagram of the vaccine refrigerating box in the utility model embodiment 3 with the anti-freezing function of vaccine；

Fig. 6 is the top view of the vaccine refrigerating box in the utility model embodiment 3 with the anti-freezing function of vaccine；

Fig. 7 is the flow diagram of the cryoprotective method of vaccine in the utility model embodiment 4；

Wherein, 1- refrigerating box ontology, 2- cold source, 3- separating phase transformation layer, 4- cooling capacity separation layer, 5- vaccine locker room.

Specific embodiment

With reference to the accompanying drawing and specific embodiment is described in further detail the utility model:

Embodiment 1

The present embodiment 1 has addressed a kind of vaccine refrigerating box with the anti-freezing function of vaccine.

As depicted in figs. 1 and 2, which includes refrigerating box ontology 1, vaccine locker room 5 and separation layer.

Wherein, vaccine locker room 5 and separation layer are respectively positioned in refrigerating box ontology 1.

Separation layer is the separating phase transformation layer 3 for absorbing cooling capacity.

Preferably, the inside of separating phase transformation layer 3 is made of phase-change material.

Separating phase transformation layer 3 is located at the outside in refrigerating box ontology 1 and being located at vaccine locker room 5.

Cold source rest area is additionally provided between separating phase transformation layer 3 and the inner sidewall of refrigerating box ontology, for placing cold source 2.

The working principle of vaccine refrigerating box in the present embodiment are as follows:

A part of cooling capacity is absorbed using separating phase transformation layer 3, the cooling capacity reached in vaccine locker room 5 is reduced, to keep Temperature in vaccine locker room 5 is at 0 degree Celsius or more, to play vaccine antifreeze function.

Embodiment 2

The present embodiment 2 has addressed a kind of vaccine refrigerating box with the anti-freezing function of vaccine.

As shown in Figure 3 and Figure 4, which includes refrigerating box ontology 1, vaccine locker room 5 and separation layer.

Wherein, vaccine locker room 5 and separation layer are respectively positioned in refrigerating box ontology 1.

Separation layer is the cooling capacity separation layer 4 for delaying cooling capacity conduction of velocity.

Preferably, cooling capacity separation layer 4 is made of vacuum heat-insulation plate material or thermal insulation board material.

Cooling capacity separation layer 4 is located at the outside in refrigerating box ontology 1 and being located at vaccine locker room 5.

Cold source rest area is additionally provided between cooling capacity separation layer 4 and the inner sidewall of refrigerating box ontology, for placing cold source 2.

The working principle of vaccine refrigerating box in the present embodiment are as follows:

It can delay the conduction of velocity of cooling capacity using cooling capacity separation layer 4, so that the cooling capacity of cold source 2 is with slower speed Vaccine locker room 5 is reached, conducive to the temperature kept in vaccine locker room 5 at 0 degree Celsius or more, plays vaccine antifreeze function.

Embodiment 3

The present embodiment 3 has addressed a kind of vaccine refrigerating box with the anti-freezing function of vaccine.

As shown in Figure 5 and Figure 6, which includes refrigerating box ontology 1, vaccine locker room 5 and separation layer.

Wherein, vaccine locker room 5 and separation layer are respectively positioned in refrigerating box ontology 1.

Separation layer includes the separating phase transformation layer 3 for absorbing cooling capacity and the cooling capacity separation layer for delaying cooling capacity conduction of velocity 4。

Wherein, separating phase transformation layer 3 can be using separating phase transformation layer as in example 1 above.

And cooling capacity separation layer 4 can be using such as the cooling capacity separation layer in above-described embodiment 2.

Preferably, cooling capacity separation layer 4 is located at 5 outside of vaccine locker room, and separating phase transformation layer 3 is located at 4 outside of cooling capacity separation layer.

Cold source rest area is additionally provided between separating phase transformation layer 3 and the inner sidewall of refrigerating box ontology, for placing cold source 2.

The working principle of vaccine refrigerating box in the present embodiment are as follows:

A part of cooling capacity is absorbed using separating phase transformation layer 3, delays the conduction speed of remainder cooling capacity using cooling capacity separation layer 4 Degree.It is combined, and then absorbed and excessive cooling capacity that buffering cold source 2 discharges by separating phase transformation layer 3 and cooling capacity separation layer 4, it can be with It keeps the temperature in vaccine locker room 5 at 0 degree Celsius or more, plays vaccine antifreeze function.

Vaccine antifreezing effect in the present embodiment 3 is obviously due to above-described embodiment 1 and embodiment 2.

In addition, the position of separating phase transformation layer 3 and cooling capacity separation layer 4 is also interchangeable, vaccine antifreezing effect is more slightly worse.

The inside of refrigerating box ontology 1 in above-described embodiment 1,2 and 3 is made of expanded material.

Embodiment 4

As shown in fig. 7, the present embodiment 4 has addressed a kind of cryoprotective method of vaccine, this method 3 is stated based on the above embodiment And the vaccine refrigerating box with the anti-freezing function of vaccine, this method comprises the following steps:

S1. the cold source 2 after freezing is put into cold source rest area, vaccine is put into vaccine locker room, closes refrigerating box sheet Body 1；

S2. cold source 2 absorbs a part of cooling capacity to 5 released cold quantity of vaccine locker room, separating phase transformation layer 3；

S3. cooling capacity separation layer 4 delays the conduction of velocity of remainder cooling capacity, the temperature of vaccine locker room zero degrees celsius with On.

The cryoprotective method of vaccine in the present embodiment 4, can realize the refrigeration of vaccine very well.

Certainly, the preferred embodiment of only the utility model described above, the utility model is not limited to enumerate above-mentioned Embodiment, it should be noted that for anyone skilled in the art under the introduction of this specification, that is made is all etc. With substitution, obvious variant, all fall within the essential scope of this specification, it ought to be by the protection of the utility model.

Claims (8)

1. with the anti-freezing function of vaccine vaccine refrigerating box, including refrigerating box ontology and be located at the refrigerating box it is intrinsic Vaccine locker room；It is characterized in that,

The vaccine refrigerating box further includes for absorbing cooling capacity and/or delaying the separation layer of cooling capacity conduction of velocity；

Separation layer is located at the outside in refrigerating box ontology and being located at vaccine locker room；

Cold source rest area is additionally provided between separation layer and the inner sidewall of refrigerating box ontology.

2. the vaccine refrigerating box according to claim 1 with the anti-freezing function of vaccine, which is characterized in that the separation layer For the separating phase transformation layer for absorbing cooling capacity.

3. the vaccine refrigerating box according to claim 1 with the anti-freezing function of vaccine, which is characterized in that the separation layer For for delaying the cooling capacity separation layer of cooling capacity conduction of velocity.

4. the vaccine refrigerating box according to claim 1 with the anti-freezing function of vaccine, which is characterized in that the separation layer Including the separating phase transformation layer for absorbing cooling capacity and the cooling capacity separation layer for delaying cooling capacity conduction of velocity.

5. the vaccine refrigerating box according to claim 2 or 4 with the anti-freezing function of vaccine, which is characterized in that it is described every Inside from phase change layer is made of phase-change material.

6. the vaccine refrigerating box according to claim 3 or 4 with the anti-freezing function of vaccine, which is characterized in that described cold Measuring separation layer is made of vacuum heat-insulation plate material or thermal insulation board material.

7. the vaccine refrigerating box according to claim 4 with the anti-freezing function of vaccine, which is characterized in that the cooling capacity every Absciss layer is located at the outside of vaccine locker room, and separating phase transformation layer is located at the outside of cooling capacity separation layer.

8. the vaccine refrigerating box according to claim 1 with the anti-freezing function of vaccine, which is characterized in that the refrigerating box The inside of ontology is made of expanded material.