CN213594965U

CN213594965U - Anti-vibration damp-proof bottle

Info

Publication number: CN213594965U
Application number: CN202022245542.9U
Authority: CN
Inventors: 王锦君; 赵宏苹; 岳常芳
Original assignee: Shijiazhuang Xinfuda Pharmaceutical Packing Co ltd
Current assignee: Shijiazhuang Xinfuda Pharmaceutical Packing Co ltd
Priority date: 2020-10-10
Filing date: 2020-10-10
Publication date: 2021-07-02
Anticipated expiration: 2030-10-10

Abstract

The utility model relates to an anti-vibration dampproof bottle, including the bottle, be arranged in the bottle lid of sealed bottle, establish through-hole, the detachable desiccant storehouse of fixing on the bottle lid, establish many elastic strips in the bottle lid and with many elastic strip fixed connection and can stretch into the clamping ring in the bottle, the one end in desiccant storehouse is passed and is stretched into in the bottle lid behind the through-hole for absorb the moisture in the airtight space that bottle and bottle lid formed. The application is used for storing the medicines, can provide a stable storage environment for the medicines, and avoids the medicines from being affected with damp.

Description

Anti-vibration damp-proof bottle

Technical Field

The application relates to the technical field of medicine storage, especially, relate to a dampproofing bottle of anti-vibration.

Background

Some special medicines need to be protected from moisture in the process of storage or transportation, the existing mode is mostly guaranteed by adopting a special storage cabinet and a storage chamber or using multilayer sealed packages, but the medicines need to be used and still have the phenomenon of being affected with moisture in the process of frequent opening and closing.

Disclosure of Invention

The application provides a dampproofing bottle of antivibration can provide a stable storage environment for the article through the absorbent mode of initiative, avoids the medicine to wet.

The above object of the present application is achieved by the following technical solutions:

a shock resistant moisture resistant bottle comprising:

a bottle body;

the bottle cap is used for sealing the bottle body and is provided with a through hole;

the drying agent bin is detachably fixed on the bottle cap, and one end of the drying agent bin penetrates through the through hole and then extends into the bottle cap;

a plurality of elastic strips arranged in the bottle cap; and

the clamping ring is fixedly connected with the elastic strips and can stretch into the bottle body.

In one possible implementation of the present application, the desiccant cartridge includes:

a bin body;

the air hole is formed in the bin body;

the drying agent is filled in the bin body; and

the air permeable sheet is arranged in the bin body and used for isolating the air holes from the drying agent;

wherein, the storehouse body is detachably fixed on the bottle cap.

In one possible implementation manner of the application, a counter bore is formed in the bottle cap, and a fixed wing matched with the counter bore is arranged on the bin body;

the fixed wing can block in the counter bore, fixes the storehouse body on the bottle lid.

In one possible implementation manner of the application, a snap ring is arranged on the bottle cap, and a fixed wing matched with the counter bore is arranged on the bin body;

the fixed wing can block in the snap ring, fixes the storehouse body on the bottle lid.

In one possible implementation manner of the application, the drying device further comprises a drying chamber detachably connected with the bottle body, a drying tube arranged on the drying chamber, a second drying agent filled in the drying chamber, and a shielding object arranged in the drying chamber and located between the drying tube and the second drying agent;

the drying tube can extend into the bottle body.

In one possible implementation of the present application, the drying tube extends into the bottle body from the bottom of the bottle body.

In one possible implementation of the present application, the drying chamber comprises a first portion and a second portion detachably connected to the first portion;

the drying duct is located on and in communication with the first portion or the second portion.

Drawings

Fig. 1 is a schematic view of an internal structure of a moisture absorption bottle according to an embodiment of the present disclosure.

Fig. 2 is a schematic view of an internal structure of a desiccant cartridge according to an embodiment of the present disclosure.

Fig. 3 is a schematic structural diagram of a bottle cap according to an embodiment of the present disclosure.

Fig. 4 is a schematic structural diagram of another bottle cap according to an embodiment of the present disclosure.

Fig. 5 is a schematic view illustrating connection between a bottle and a drying chamber according to an embodiment of the present disclosure.

Fig. 6 is a schematic view of another bottle body and a drying chamber according to the embodiment of the present disclosure.

Fig. 7 is a schematic split view of a drying chamber according to an embodiment of the present disclosure.

Fig. 8 is a schematic structural view of a drying chamber provided in an embodiment of the present application after a through window is added.

In the figure, 11, a bottle body, 12, a bottle cap, 123, a through hole, 13, a drying agent bin, 14, an elastic strip, 15, a pressing ring, 131, a bin body, 132, an air hole, 133, a drying agent, 134, a ventilating sheet, 135, a fixing wing, 121, a counter bore, 122, a clamping ring, 21, a drying chamber, 22, a drying pipe, 23, a second drying agent, 24, a shielding object, 25, a through window, 211, a first part, 212 and a second part are shown.

Detailed Description

The technical solution of the present application will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, an anti-vibration and moisture-proof bottle disclosed in the embodiment of the present application is mainly composed of a bottle body 11, a bottle cap 12 and a desiccant container 13, wherein the bottle cap 12 can cover the bottle body 11 to form a relatively closed space with the bottle body 11 for storing samples. The bottle cap 12 is further provided with a through hole 123, and the through hole 123 is used for enabling the desiccant bin 13 to extend into a space formed by the bottle cap 12 and the bottle body 11 and used for adsorbing moisture in the air.

Besides, still set up many elastic strips 14 in the bottle lid 12, fixed a clamping ring 15 on the other end of elastic strip 14, clamping ring 15 is connected with whole elastic strips, and clamping ring 15's effect is to exerting a pressure to the medicine of storage in bottle 11, avoids the medicine to take place to rock.

Referring to fig. 2, the desiccant container 13 is mainly composed of a container 131, a desiccant 133 and a ventilation sheet 134, the container 131 is provided with an air hole 132, and the air hole 132 is used for communicating the inside and the outside of the container 131.

A desiccant 133 is stored in the cartridge body 131 and functions to absorb moisture in the air outside the cartridge body 131 through the air holes 132. The chamber body 131 is further provided with a vent 134, and the vent 134 serves to isolate the pores 132 from the desiccant 133 and prevent the desiccant 133 from flowing out of the pores 132.

The cartridge 131 is removably secured to the bottle cap 12 so that the desiccant 133 in the cartridge 131 can be replaced directly after it has failed.

In some possible implementations, the air holes 132 are located on the bottom surface of the cartridge body 131, and the air-permeable sheet 134 is also placed on the bottom surface of the cartridge body 131 and can cover the air holes 132.

In other possible implementations, the air holes 132 are located on the side of the cartridge body 131, and the air-permeable sheet 134 is also placed on the side of the cartridge body 131 and can cover the air holes 132.

Of course, the air holes 132 may be formed on both the bottom and the side of the bin body 131, and the air permeable sheet 134 may be formed on both the bottom and the side of the bin body 131.

The connection mode of the bin body 131 and the bottle cap 12 includes the following steps:

first, referring to fig. 3, a counter bore 121 is formed in the bottle cap 12, a fixing wing 135 is disposed on the cartridge body 131, the fixing wing 135 and the cartridge body 131 are integrally formed, and the fixing wing 135 can be clamped in the counter bore 121 to connect the cartridge body 131 and the bottle cap 12 together.

Secondly, referring to fig. 4, a snap ring 122 is disposed on the bottle cap 12, a fixing wing 135 is disposed on the bin body 131, the fixing wing 135 and the bin body 131 are integrally formed, and the fixing wing 135 can be clamped in the snap ring 122 to connect the bin body 131 and the bottle cap 12 together.

Referring to fig. 5 and 6, a drying chamber 21 is additionally added, the drying chamber 21 is filled with a second desiccant 23, and a drying tube 22 is connected to the drying chamber 21, wherein the drying tube 22 is communicated with the space in the drying chamber 21.

A shield 24 is also placed in the drying chamber 21, the shield 24 serving to isolate the drying tube 22 from the second desiccant 23 and to prevent the second desiccant 23 from flowing out of the drying chamber 21 through the drying tube 22.

The drying chamber 21 and the bottle body 11 are detachably connected together in various ways such as threaded connection or insertion connection, and when the drying chamber 21 is fixed on the bottle body 11, the drying tube 22 has the following two existing ways:

first, the drying tube 22 extends into the drying chamber 21 through the hole of the bottle 11, and at this time, the bottle 11 is communicated with the drying chamber 21, and the second drying agent 23 in the drying chamber 21 can absorb moisture in the air in the bottle 11.

Secondly, the bottle 11 is opened with fine air holes, the space inside the bottle 11 is communicated with the drying pipe 22 through the air holes, and the second desiccant 23 inside the drying chamber 21 can absorb moisture in the air inside the bottle 11.

Referring to fig. 7, the drying chamber 21 is composed of a first portion 211 and a second portion 212 detachably connected to the first portion 211, and the drying tube 22 is disposed on and communicated with the first portion 211 or the second portion 212.

Therefore, when the first part 211 and the second part 212 are disassembled, the second drying agent 23 in the first part can be replaced, and the use is more convenient.

Referring to fig. 8, it should be understood that the second drying agent 23 is easier to observe and replace than the first drying agent 15, for example, the second drying agent 23 uses silica gel type drying agent, changes color after absorbing water, and can be judged by the amount of color change, and of course, a transparent window 25 may be added on the drying chamber 21 for convenience of judgment.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A shock-resistant moisture-resistant bottle, comprising:

a bottle body (11);

the bottle cap (12) is used for sealing the bottle body (11) and is provided with a through hole (123);

the drying agent bin (13) is detachably fixed on the bottle cap (12), and one end of the drying agent bin penetrates through the through hole (123) and then extends into the bottle cap (12);

a plurality of elastic strips (14) arranged in the bottle cap (12); and

and the pressing ring (15) is fixedly connected with the elastic strips (14) and can extend into the bottle body (11).

2. A shock-resistant moisture-proof bottle as claimed in claim 1, characterized in that the desiccant cartridge (13) comprises:

a cartridge body (131);

an air hole (132) formed in the bin body (131);

a desiccant (133) filled in the cartridge body (131); and

a ventilation sheet (134) which is arranged in the bin body (131) and is used for isolating the air holes (132) from the drying agent (133);

wherein, the bin body (131) is detachably fixed on the bottle cap (12).

3. The anti-vibration damp-proof bottle as claimed in claim 2, wherein the bottle cap (12) is provided with a counter bore (121), and the bin body (131) is provided with a fixed wing (135) matched with the counter bore (121);

the fixed wing (135) can be clamped in the counter bore (121) to fix the bin body (131) on the bottle cap (12).

4. The anti-vibration damp-proof bottle as claimed in claim 2, wherein the bottle cap (12) is provided with a snap ring (122), and the bin body (131) is provided with a fixed wing (135) matched with the counter bore (121);

the fixed wing (135) can be clamped in the snap ring (122) to fix the bin body (131) on the bottle cap (12).

5. The anti-vibration and moisture-proof bottle as claimed in any one of claims 1 to 4, further comprising a drying chamber (21) detachably connected to the bottle body (11), a drying tube (22) provided on the drying chamber (21), a second desiccant (23) filled in the drying chamber (21), and a shield (24) provided in the drying chamber (21) and located between the drying tube (22) and the second desiccant (23);

the drying tube (22) can extend into the bottle body (11).

6. The anti-vibration and moisture-proof bottle as claimed in claim 5, wherein the drying tube (22) is extended from the bottom of the bottle body (11) into the bottle body (11).

7. A shock and moisture resistant bottle as claimed in claim 5, wherein said drying chamber (21) comprises a first portion (211) and a second portion (212) detachably connected to the first portion (211);

the drying duct (22) is located on and in communication with either the first section (211) or the second section (212).