CN215323938U - Self-cooling medicine bottle - Google Patents

Abstract

The utility model provides a self-cooling medicine bottle, which comprises a medicine bottle and a heat-insulating sleeve; the medicine bottle is provided with a bottle opening and a bottle body, the bottle body is coated in the heat insulation sleeve, the bottle opening is exposed outside the heat insulation sleeve, the sleeve opening of the heat insulation sleeve is in liquid-tight connection with the contact surface of the medicine bottle, a closed cavity is formed between the heat insulation sleeve and the bottle body, and a refrigerant is contained in the cavity. The self-cooling medicine bottle provided by the utility model can bring a refrigeration effect to the medicine in the bottle body and maintain the refrigeration effect for a long time.

Description

Self-cooling medicine bottle

Technical Field

The utility model relates to a medicine bottle with a refrigeration effect, in particular to a self-cooling medicine bottle.

Background

At present, the recommended storage temperature of some medicines is 2-8 ℃ which is lower than the room temperature. People can store the medicines in the refrigerator, and a better refrigeration effect can be obtained. However, some medicines do not have such a refrigeration condition in some cases.

Taking eye drop as an example, the frequency of application is 3-6 times/day. Particularly, for some users, it is necessary to take medicine in time when the user perceives the discomfort of the eyes. Therefore, such drugs are often required to be carried around. However, when the user is on a trip, on duty, out of home, or the like, there is no refrigeration condition for a long time, which may affect the quality of the eye drops. The existing eye drops packing bottle has no refrigeration effect.

Accordingly, there is a need in the art to provide a vial with a refrigeration effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a self-cooling medicine bottle which is convenient to carry and use and has a good refrigeration effect. Can maintain the liquid medicine in the medicine bottle at the refrigeration condition of 2-8 ℃ so as to ensure the quality of the eye drops.

In order to solve the technical problems, the utility model provides the following technical scheme:

a self-cooling medicine bottle comprises a medicine bottle and a heat preservation sleeve;

the medicine bottle is provided with a bottle opening and a bottle body, the bottle body is covered in the heat-insulating sleeve, and the bottle opening is exposed out of the heat-insulating sleeve;

the sleeve opening of the heat-insulating sleeve is in liquid-tight connection with the contact surface of the medicine bottle;

a closed cavity is formed between the heat insulation sleeve and the bottle body, and a refrigerant is contained in the cavity.

Specifically, the medicine bottle is a dropping bottle.

Specifically, the sleeve opening of the heat insulation sleeve is sleeved at the bottle neck of the medicine bottle.

Specifically, the bottom of the heat insulation sleeve is flat.

Specifically, the medicine bottle is vertically sleeved in the heat insulation sleeve, and the bottom of the medicine bottle is parallel to the bottom of the heat insulation sleeve.

Specifically, the heat-insulating sleeve is provided with a water filling port, and the water filling port is provided with an openable sealing plug.

Specifically, the water injection port is positioned at the bottom of the heat insulation sleeve.

Specifically, the number of the water injection ports is one. The water injection port is the only channel for communicating the chamber with the outside.

Preferably, the contact surface between the sleeve opening of the heat-insulating sleeve and the medicine bottle is clamped and fixed by utilizing the elastic deformation performance of the sleeve opening.

Specifically, the thermal insulation sleeve is made of silica gel.

Specifically, the thermal insulation sleeve has a telescopic tubular structure. The collapsible tubular structure has foldable wave-shaped folds.

The self-cooling medicine bottle provided by the utility model has the advantages that the refrigeration effect is brought to the medicine in the bottle body through the refrigerant contained in the cavity between the heat insulation sleeve and the bottle body, and the long-term preservation is realized.

In the self-cooling medicine bottle provided by the utility model, the contact surface between the sleeve opening and the medicine bottle is in liquid-tight connection. Liquid tight connections refer to locations where liquid cannot leak through the connection.

The refrigerant in the utility model can adopt the refrigerant of the existing common self-cooling ice bag. The refrigerant is sealed in the chamber. The self-cooling medicine bottle is put in a refrigerator to be frozen for a period of time and then taken out for use, so that the cold storage condition of the medicine can be maintained when a user has no cold storage condition for a long time such as travel, work, go out and the like.

The refrigerant of the present invention may be polyacrylate and polyacrylamide copolymer as the water absorbing polymer material. The material is an existing material and is characterized in that the material can be expanded into gel when meeting water. Can be stored at normal temperature when water is not added, and can be frozen in a refrigerator after water is added, and can be used after being taken out. In order to facilitate water adding, a water filling port is arranged on the heat-insulating sleeve, and a sealing plug for sealing the water filling port is arranged.

The area between the sleeve opening and the bottom of the heat-insulating sleeve can be provided with a foldable telescopic tubular structure, the volume of the self-cooling medicine bottle can be adjusted through stretching, on one hand, the self-cooling medicine bottle is convenient to carry, and on the other hand, the size of the cavity can be adjusted in a matching manner by matching the characteristic that the copolymer of polyacrylate and polyacrylamide which are high molecular water-absorbing materials can expand when meeting water.

Drawings

Fig. 1 is a schematic view showing the basic structure of the self-cooling medicine bottle of the present invention.

Fig. 2 is a structural schematic diagram of a modified self-cooling medicine bottle of the utility model.

Fig. 3 is a stretched state of the self-cooling medicine bottle of fig. 2.

Description of the symbols in the drawings:

1 is a medicine bottle;

1a is a bottle mouth;

1b is a bottle body;

1c is a bottleneck;

1d is a bottle bottom;

2 is a heat preservation sleeve;

2a is a sleeve opening;

2b is the bottom;

2c is a water filling port;

2d is a sealing plug;

3 is a chamber;

4 is a telescopic tubular structure.

Detailed Description

The technical solutions of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Example one

A self-cooling medicine bottle comprises a medicine bottle 1 and a heat preservation sleeve 2, as shown in figure 1. The medicine bottle 1 is provided with a bottle opening 1a and a bottle body 1b, the bottle body 1b is covered in the heat-insulating sleeve 2, and the bottle opening 1a is exposed out of the heat-insulating sleeve 2; the contact surface of the sleeve opening 2a of the heat preservation sleeve 2 and the medicine bottle 1 is in liquid-tight connection; a closed cavity 3 is formed between the thermal insulation sleeve 2 and the bottle body 1, and a refrigerant is contained in the cavity 3.

The self-cooling medicine bottle of the present embodiment provides a refrigerating effect to the medicine in the bottle body 1b by the refrigerant contained in the chamber 3 between the thermal insulation sleeve 2 and the bottle body 1 b. When the self-cooling medicine bottle is used, the self-cooling medicine bottle is placed in a refrigerator to be frozen for a period of time and then taken out for use, and the frozen refrigerant can meet the requirement of maintaining the refrigeration condition of the medicine for a long time.

In the self-cooling medicine bottle of the present embodiment, the contact surface between the collar 2a and the medicine bottle 1 is liquid-tight to prevent leakage of the refrigerant. The contact surface of the sleeve opening 2a and the medicine bottle 1 can be clamped and sealed by utilizing the elastic deformation capacity of the sleeve opening 2a, and can also be closely connected in a sealing way through a buckle structure or threads.

In the self-cooling medicine bottle of the present embodiment, the medicine bottle 1 is particularly suitable for a dropping bottle. The liquid drops bottle usually needs to be carried around for use, such as eye drops. The self-cooling medicine bottle of the embodiment can well meet the refrigeration condition when the dropping bottle is carried about.

Fig. 1 is a schematic diagram of a self-cooling medicine bottle, showing a cross-sectional view of the self-cooling medicine bottle. In fig. 1, the insulating jacket 2 is formed in a pocket shape, and the bottle body 1b is completely covered in the insulating jacket 2. A closed chamber 3 is formed between the outer wall of the body 1b and the inner wall of the insulating sleeve 2. A refrigerant is placed in the chamber 3. The refrigerant can be the refrigerant of the existing common self-cooling ice bag. When the self-cooling medicine bottle is frozen in a refrigerator for a period of time in advance and then taken out, the refrigerant in the chamber 3 can still exert the cooling effect when the self-cooling medicine bottle is used at the normal temperature, and the cold storage effect of 6-24 h can be usually maintained.

In fig. 1, the cap 2a of the thermal cover 2 is covered on the neck 1c of the medicine bottle 1, so as to cover the whole bottle body and the medicine in the bottle body with a refrigeration effect. The bottom 2b of the insulating sleeve 2 is flat, so that the insulating sleeve can be conveniently and vertically placed. The medicine bottle 1 is vertically sleeved in the heat-insulating sleeve 2, the bottom 1d of the medicine bottle 1 is basically parallel to the bottom 2b of the heat-insulating sleeve 2, and when the heat-insulating sleeve 2 is vertically placed, the medicine bottle 1 also keeps a vertical state.

The material of the thermal insulation sleeve 2 is preferably a silica gel material. The silica gel material has better elastic deformation capability, and the liquid-tight connection of the contact surface of the sleeve opening 2a and the medicine bottle 1 can be realized by utilizing the characteristic.

Example two

Based on the self-cooling medicine bottle of the first embodiment, the present embodiment is further improved in that the thermal insulation sleeve 2 has a telescopic tubular structure 4. The telescopic tubular structure 4 can stretch or contract the insulating sleeve 2 in the area between the sleeve opening 2a and the bottom 2b, and the volume of the chamber 3 is adjusted.

The volume of the self-cooling medicine bottle of the embodiment can be flexibly adjusted. The size of the chamber 3 is reduced, so that the portable use is convenient; the size of the chamber 3 is enlarged, so that more refrigerant can be filled around the bottle body 1b, the refrigeration effect is better, and the maintenance time is longer.

As shown in fig. 2 and 3, the self-cooling medicine bottle in fig. 2 has a collapsible tubular structure 4, and the collapsible tubular structure 4 is in a collapsed state. The telescopic tubular structure 4 of the self-cooling vial is shown in fig. 3 in a stretched state. The collapsible tubular structure 4 has foldable wave-shaped folds. It can be seen that the inner space of the chamber 3 in fig. 2 is smaller, and after stretching the collapsible tubular structure 4, the stretched state shown in fig. 3 is obtained, and the inner space of the conditioning chamber 3 is significantly increased. The telescopic tubular structure 4 can thus be used for the purpose of regulating the inner space of the chamber 3.

The refrigerant of this embodiment can be a copolymer of polyacrylate and polyacrylamide, which are high molecular water-absorbing materials. The material is an existing material and is characterized by swelling when meeting water. When water is not added, the product can be stored at normal temperature; adding water, freezing in refrigerator, and taking out. The material is frozen after being injected with water, and can bring more lasting refrigeration effect.

In a preferred embodiment, the thermal jacket 2 is provided with a water injection port 2 c. Water can be injected into the chamber 3 through the water injection port 2 c. The water filling port 2c is the only passage through which the chamber 3 communicates with the outside. A sealing plug 2d is disposed at the water filling port 2 c. The water injection port 2c is preferably provided at the bottom 2b of the jacket 2.

In summary, the above embodiments are merely preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A self-cooling medicine bottle is characterized by comprising a medicine bottle and a heat preservation sleeve;

the medicine bottle is provided with a bottle opening and a bottle body, the bottle body is covered in the heat-insulating sleeve, and the bottle opening is exposed out of the heat-insulating sleeve;

the sleeve opening of the heat-insulating sleeve is in liquid-tight connection with the contact surface of the medicine bottle;

a closed cavity is formed between the heat insulation sleeve and the bottle body, and a refrigerant is contained in the cavity.

2. The self-cooling medicine bottle as claimed in claim 1, wherein the medicine bottle is a dropping bottle.

3. The self-cooling medicine bottle as claimed in claim 1, wherein the sleeve mouth of the thermal sleeve is sleeved on the bottle neck of the medicine bottle.

4. A self-cooling vial as recited in claim 1, wherein said bottom of said jacket is flat-bottomed.

5. A self-cooling medicine bottle as defined in claim 1, wherein said medicine bottle is vertically fitted into said thermal cover, and the bottom of said medicine bottle is parallel to the bottom of said thermal cover.

6. A self-cooling vial as recited in claim 1, wherein said thermal sleeve has a fill port with an openable sealing plug.

7. The self-cooling vial as recited in claim 6, wherein the fill port is located at the bottom of the jacket.

8. The self-cooling medicine bottle as claimed in claim 6, wherein the number of the water filling ports is one.

9. A self-cooling vial as recited in claim 1, wherein said jacket material is silicone.

10. A self-cooling vial as set forth in claim 1, wherein said insulating sleeve has a telescoping tubular configuration.

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