CN114796786A - Novel humidifying tank structure - Google Patents

Abstract

The invention relates to a novel humidification tank structure, which comprises a shell, a liquid storage cavity, a liquid inlet cavity, an air inlet cavity and an air outlet cavity, an air inlet pipeline and an air outlet pipeline, wherein the liquid storage cavity, the liquid inlet cavity, the air inlet cavity and the air outlet cavity are formed in the shell; the liquid storage cavity is communicated with the liquid inlet cavity through a water inlet hole A at the lower end part, and is isolated from the outside atmosphere after the water inlet hole A is filled with liquid; the air inlet cavity and the air outlet cavity are both communicated with the liquid inlet cavity; the invention adopts the combination of the liquid storage cavity with high liquid level and the liquid inlet cavity with low liquid level, only a small amount of liquid enters the liquid inlet cavity, and even if the shell is randomly overturned, inverted and vibrated at high amplitude, a large amount of liquid cannot be immediately caused to flow out from the air inlet and the air outlet; simultaneously the air inlet cavity and the air outlet cavity are only communicated with the liquid inlet cavity with low liquid level, and gas is not communicated with the liquid storage cavity, so that liquid cannot splash due to turbulent and rapid airflow, and the liquid is prevented from flowing out from the air inlet and the air outlet to the greatest extent.

Description

Novel humidifying tank structure

Technical Field

The invention relates to the technical field of medical equipment, in particular to a novel humidification tank structure.

Background

A humidifying tank for producing a respirator, a humidifying instrument and an oxygen generator is structurally provided with an air inlet pipeline, an air outlet pipeline, a metal chassis, a water storage cavity and a sealing structure (silica gel sealing, glue sealing and ultrasonic welding); the working principle is as follows: the metal chassis is contacted with a machine heating plate to transfer heat to the purified water or the liquid medicine in the water storage cavity for heating; high-flow gas enters the water storage cavity through the air inlet pipe, is mixed with the heated and gasified water and then flows out of the air outlet pipeline.

At present, common humidifying jar only has a water storage chamber, goes out the terminal all arranges directly over the liquid level of air pipe way and air inlet pipe way, and its defect that exists lies in: (1) when large fluctuating airflow or turbulent airflow rushes into the cavity, liquid in the water storage cavity may be splashed and sprayed out; (2) a large amount of liquid can also make abnormal sound due to air flow; (3) the humidification tank is required to be horizontally placed, and if the humidification tank is inverted, laterally turned and vibrated, liquid can flow out from the two air ports; therefore, the invention develops a novel humidification tank structure to solve the problems in the prior art, and a technical scheme which is the same as or similar to the humidification tank structure is not found through retrieval.

Disclosure of Invention

The invention aims to: the utility model provides a novel humidifying tank structure to solve the problem that the noise is big, the fluctuation of internal liquid is big, the structure is placed and is had the limitation among the prior art because structural design's drawback arouses.

The technical scheme of the invention is as follows: a novel humidification tank structure comprises a shell, a liquid storage cavity, a liquid inlet cavity, an air inlet cavity and an air outlet cavity which are formed in the shell, an air inlet pipeline communicated with the air inlet cavity, and an air outlet pipeline communicated with the air outlet cavity; a metal chassis for transferring heat is arranged below the liquid storage cavity, the liquid storage cavity is communicated with the liquid inlet cavity through a water inlet hole A at the lower end part, and the liquid storage cavity is isolated from the outside atmosphere after the water inlet hole A is filled with liquid; the air inlet cavity and the air outlet cavity are communicated with the liquid inlet cavity.

Preferably, the casing includes left shell and right shell along the horizontal direction distribution, be provided with sealing silica gel between left shell and the right shell, the stock solution chamber sets up in the left shell, feed liquor chamber, air inlet chamber and air outlet chamber set up in the right shell, inlet opening A runs through sealing silica gel and sets up.

Preferably, the air inlet cavity and the air outlet cavity are separated by a partition plate, a guide plate is connected below the partition plate, the liquid inlet cavity is formed below the guide plate and is communicated with the air inlet cavity through a first airflow hole arranged on the guide plate, and the liquid inlet cavity is communicated with the air outlet cavity through a second airflow hole arranged on the guide plate; the first air flow hole and the second air flow hole are both far away from the partition plate.

Preferably, the air inlet pipeline sequentially flows through the left shell, the sealing silica gel and the right shell, and comprises an air inlet formed on the left shell, a first pipe body, an air inlet sealing hole formed on the sealing silica gel and a second pipe body formed on the right shell; the first pipe body and the second pipe body are inserted into the air inlet sealing hole, and the second pipe body is provided with a first notch communicated with the air inlet cavity;

the air outlet pipeline sequentially flows through the right shell, the sealing silica gel and the left shell and comprises a third pipe body formed on the right shell, an air outlet sealing hole formed on the sealing silica gel, a fourth pipe body formed on the left shell and an air outlet; the third pipe body and the fourth pipe body are inserted into the air outlet sealing hole, and a second notch communicated with the air outlet cavity is formed in the third pipe body.

Preferably, an independent liquid level cavity is further arranged in the right shell, the liquid level cavity is communicated with the liquid storage cavity through a water inlet hole B and an air vent, and the water inlet hole B and the air vent are both arranged on the sealing silica gel; and the outer wall of the right shell opposite to the liquid level cavity is transparent and is provided with scales for displaying the liquid level.

Preferably, the casing includes along the epitheca and the inferior valve of vertical direction distribution, and inside constitutes back font cavity, including inner ring chamber and outer ring chamber, the below of inner ring chamber is the feed liquor chamber, and the top is air inlet chamber and goes out the air cavity, outer ring chamber is the stock solution chamber.

Preferably, the upper shell comprises an outer cover and an inner cover, the lower ends of the outer cover and the inner cover are both in an open shape, and the upper end of the lower shell is in an open shape; the outer cover is buckled with the lower shell and sealed by sealant, and the lower end of the inner cover is in sealing fit with the bottom surface inside the lower shell; the inner ring cavity is formed inside the inner cover, the outer ring cavity is formed outside the inner cover, and the water inlet hole A is formed in the side wall of the lower end of the inner cover.

Preferably, a partition plate is further arranged in the inner cover, and the air inlet cavity and the air outlet cavity are respectively arranged on two sides of the partition plate.

Compared with the prior art, the invention has the advantages that:

(1) the invention adopts the combination of the liquid storage cavity with high liquid level and the liquid inlet cavity with low liquid level, only a small amount of liquid enters the liquid inlet cavity, and even if the shell is randomly overturned, inverted and vibrated at high amplitude, a large amount of liquid cannot be immediately caused to flow out from the air inlet and the air outlet.

(2) The air inlet cavity and the air outlet cavity are only communicated with the liquid inlet cavity with low liquid level, gas is not communicated with the liquid storage cavity, liquid cannot splash due to turbulent and rapid airflow, and meanwhile, the liquid is prevented from flowing out of the air inlet and the air outlet to the greatest extent.

Drawings

The invention is further described with reference to the following figures and examples:

FIG. 1 is a schematic diagram of a novel humidification tank structure according to example 1 of the present invention;

FIG. 2 is a schematic diagram of a novel humidification tank structure according to example 1 of the present invention;

FIG. 3 is an exploded view of a novel humidification tank structure in accordance with example 1 of the present invention;

FIG. 4 is an exploded view of a novel humidification tank structure in accordance with example 1 of the present invention;

fig. 5 is a schematic structural view of the right housing according to embodiment 1 of the present invention;

FIG. 6 is a cross-sectional view of a novel humidification tank structure in accordance with example 1 of the present invention;

FIG. 7 is a schematic diagram of a novel humidification tank structure according to example 2 of the present invention;

FIG. 8 is a schematic diagram showing the distribution of the inner ring cavity and the outer ring cavity in the novel humidification tank structure according to embodiment 2 of the present invention;

FIG. 9 is a top view of the novel humidification tank structure of example 2 of the present invention;

FIG. 10 is a view A-A of the structure of a novel humidification tank in accordance with example 2 of the present invention;

FIG. 11 is a B-B view of the structure of a novel humidification tank in accordance with example 2 of the present invention;

fig. 12 is a C-C view of a novel humidification tank structure according to embodiment 2 of the present invention.

Wherein: 1. a housing;

11. the air conditioner comprises a left shell, a 111, a metal chassis, a 12, a right shell, a 121, a partition plate, a 122, a guide plate, a 123, a first airflow hole, a 124, a second airflow hole, a13, sealing silica gel, 131, a water inlet hole A, a 132, a water inlet hole B, a 133, a vent hole, a 14, an upper shell, a 141, an outer cover, a 142, an inner cover, a 143, a baffle plate, a 15, a lower shell, a 16, sealing glue, a 17, an inner annular cavity, an 18 and an outer annular cavity;

2. a liquid storage cavity;

3. a liquid inlet cavity;

4. an air inlet cavity;

5. an air outlet cavity;

6. an air intake line;

61. the air inlet 62, the first pipe body 63, the air inlet sealing hole 64, the second pipe body 65 and the first notch;

7. an air outlet pipeline;

71. a third pipe body 72, an air outlet sealing hole 73, a fourth pipe body 74, an air outlet 75 and a second gap;

8. a liquid level chamber.

Detailed Description

The present invention will be further described in detail with reference to the following specific examples:

example 1

As shown in fig. 1-4, a novel humidification tank structure comprises a shell 1, a liquid storage cavity 2, a liquid inlet cavity 3, an air inlet cavity 4 and an air outlet cavity 5 which are formed in the shell 1, an air inlet pipeline 6 communicated with the air inlet cavity 4, and an air outlet pipeline 7 communicated with the air outlet cavity 5.

As shown in fig. 3 and 4, the housing 1 includes a left shell 11 and a right shell 12 distributed along the horizontal direction, the left shell 11 and the right shell 12 are connected by a buckle, a sealing silica gel 13 is arranged between the left shell and the right shell, the liquid storage cavity 2 is arranged in the left shell 11, and the liquid inlet cavity 3, the air inlet cavity 4 and the air outlet cavity 5 are arranged in the right shell 12.

As shown in fig. 5, the air inlet cavity 4 and the air outlet cavity 5 are separated by a partition plate 121, a baffle plate 122 is connected below the partition plate 121, the liquid inlet cavity 3 is formed below the baffle plate 122, the liquid inlet cavity 3 is communicated with the air inlet cavity 4 through a first airflow hole 123 arranged on the baffle plate 122, and is communicated with the air outlet cavity 5 through a second airflow hole 124 arranged on the baffle plate 122; the first airflow hole 123 and the second airflow hole 124 are both far away from the partition plate 121, and are used for increasing the stroke of the airflow in the liquid inlet chamber 3, so that the gas and the liquid heated and gasified in the liquid inlet chamber 3 are fully mixed.

As shown in fig. 3 and 4, the air inlet pipeline 6 sequentially passes through the left shell 11, the sealing silica gel 13 and the right shell 12, i.e. a path indicated by a dotted line along the air inlet direction in fig. 3, and includes an air inlet 61 formed on the left shell 11, a first pipe 62, an air inlet sealing hole 63 formed on the sealing silica gel 13, and a second pipe 64 formed on the right shell 12; the first pipe 62 and the second pipe 64 are inserted into the air inlet sealing hole 63, and the second pipe 64 has a first notch 65 communicating with the air inlet chamber 4.

As shown in fig. 3 and 4, the air outlet pipeline 7 sequentially passes through the right shell 12, the sealing silica gel 13 and the left shell 11, i.e. a path indicated by a dotted line along the air outlet direction in fig. 3, and includes a third pipe 71 formed on the right shell 12, an air outlet sealing hole 72 formed on the sealing silica gel 13, a fourth pipe 73 formed on the left shell 11, and an air outlet 74; the third pipe 71 and the fourth pipe 73 are inserted into the air outlet sealing hole 72, and the third pipe 71 has a second gap 75 communicating with the air outlet cavity 5.

Further, the gas flows in from the gas inlet line 6, flows in the direction of the broken line arrow shown in fig. 5, and flows out from the gas outlet line 7, and the flow path is: the air inlet 61, the first pipe body 62, the air inlet sealing hole 63, the second pipe body 64, the first notch 65, the air inlet cavity 4, the first air flow hole 123, the air inlet cavity 3, the second air flow hole 124, the air outlet cavity 5, the second notch 75, the third pipe body 71, the air outlet sealing hole 72, the fourth pipe body 73 and the air outlet 74.

As shown in fig. 3, 4 and 6, a metal chassis 111 for transferring heat is disposed below the liquid storage cavity 2, the liquid storage cavity 2 is communicated with the liquid inlet cavity 3 through a water inlet a131 at a lower end portion, the water inlet a131 is disposed through the sealing silica gel 13, and the liquid storage cavity 2 is isolated from the outside atmosphere after the water inlet a131 is filled with liquid; under the normality, the liquid that has the high liquid level in the stock solution chamber 2, the liquid that has the low liquid level in the feed liquor chamber 3, the principle of both intercommunications is as follows:

firstly, liquid is filled into the liquid storage cavity 2, the structure is placed in a state shown in fig. 5 after the liquid is filled, at the moment, the liquid in the liquid storage cavity 2 is in a high liquid level state, and the potential energy causes the liquid to flow into the liquid inlet cavity 3 from the water inlet hole A131; when the water level in the liquid inlet cavity 3 rises and is over the water inlet hole A131, the liquid filled in the water inlet hole A131 plays a role of isolation, so that the liquid storage cavity 2 is isolated from the outside atmosphere, the upper part of the liquid level of the liquid storage cavity 2 can generate negative pressure and gradually balance the potential energy of water, and finally the water level in the liquid inlet cavity 3 does not rise any more; after the water in the liquid inlet cavity 3 is gradually gasified and taken away by the airflow, the liquid level is lowered, and the water in the liquid storage cavity 2 can be supplemented to the liquid inlet cavity 3 through the water inlet hole A131.

In the embodiment, the humidifying tank is used in cooperation with the machine main body, so a left-right distribution mode is adopted, wherein the left shell 11 is arranged in the machine main body, and the right shell 12 is a direct appearance surface, so that the appearance integrity is kept to the greatest extent; as the liquid level of the liquid storage cavity 2 cannot be intuitively known due to the installation manner, as shown in fig. 5, as a further optimization, an independent liquid level cavity 8 is further arranged in the right shell 12, the liquid level cavity 8 is communicated with the liquid storage cavity 2 through a water inlet hole B132 and a vent hole 133, the water inlet hole B132 and the vent hole 133 are both arranged on the sealing silica gel 13, the liquid in the liquid storage cavity 2 can directly enter the liquid level cavity 8 from the water inlet hole B132, and the vent hole 133 is used for balancing air pressure, so that the liquid levels in the liquid storage cavity 2 and the liquid level cavity 8 are consistent; the outer wall of the right shell 12 opposite to the liquid level cavity 8 is transparent and is provided with a scale for displaying the liquid level.

The working steps in this embodiment are specifically as follows:

(1) disassembling the buckled left shell 11 and right shell 12, filling purified water or liquid medicine into the liquid storage cavity 2, and buckling the sealing silica gel 13 and the right shell 12 on the left shell 11 after filling;

(2) the structure is assembled with the machine body, the metal chassis 111 is contacted with a heating plate in the machine body, and heat is transferred to pure water or liquid medicine in the water storage cavity;

(3) high-flow gas is led in through the air inlet pipeline 6, enters the liquid inlet cavity 3 after rotating in the air inlet cavity 4, is fully mixed with liquid heated and gasified in the liquid inlet cavity 3, then enters the air outlet cavity 5, and finally is led out along the air outlet pipeline 7.

In the description of the present embodiment, it is to be understood that the terms "left", "right", "upper", "lower", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the invention and simplifying the description, but do not indicate that the structure must have a specific orientation, be constructed and operated in a specific orientation, and thus, are not to be construed as limiting the invention.

Example 2

As shown in fig. 7-12, a novel humidification tank structure comprises a housing 1, a liquid storage cavity 2, a liquid inlet cavity 3, an air inlet cavity 4 and an air outlet cavity 5 formed in the housing 1, an air inlet pipeline 6 communicated with the air inlet cavity 4, and an air outlet pipeline 7 communicated with the air outlet cavity 5.

As shown in fig. 8 and 12, the casing 1 includes an upper casing 14 and a lower casing 15 distributed along the vertical direction, and a cavity shaped like a Chinese character 'hui' is formed inside the casing, and includes an inner annular cavity 17 and an outer annular cavity 18, wherein a liquid inlet cavity 3 is arranged below the inner annular cavity 17, a gas inlet cavity 4 and a gas outlet cavity 5 are arranged above the inner annular cavity 17, and the outer annular cavity 18 is a liquid storage cavity 2; in this embodiment, a metal chassis may be disposed only below the outer ring cavity 18, or may be disposed below both the outer ring cavity 18 and the inner ring cavity 17.

Specifically, the upper shell 14 includes an outer cover 141 and an inner cover 142 both having open lower ends, and the upper end of the lower shell 15 is open; the outer cover 141 is buckled with the lower shell 15 and sealed by sealant 16, the lower end of the inner cover 142 is in sealing fit with the bottom surface of the interior of the lower shell 15, and a flow baffle 143 is also arranged in the interior along the vertical direction; the inner ring cavity 17 is formed inside the inner cover 142, the air inlet cavity 4 and the air outlet cavity 5 are respectively arranged on two sides of the baffle plate 143, the outer ring cavity 18 is formed outside the inner cover 142, the water inlet hole a131 is formed on the side wall of the lower end of the inner cover 142, after the water inlet hole a131 is filled with liquid, the outer ring cavity 18/the liquid storage cavity 2 is isolated from the outside atmosphere, and the communication principle of the liquid storage cavity 2 and the liquid inlet cavity 3 is the same as that of the embodiment 1.

When the gas inlet cavity is in work, high-flow gas is guided into the gas inlet cavity 4 through the gas inlet pipeline 6, enters the liquid inlet cavity 3 from the inside of the gas inlet cavity 4 in a descending mode, is fully mixed with liquid heated and gasified in the liquid inlet cavity 3, then enters the gas outlet cavity 5, and is finally guided out along the gas outlet pipeline 7.

In the description of the present embodiment, it is to be understood that the terms "upper", "lower", "vertical", "inside", "outside", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the invention and simplifying the description, but do not indicate that a structure must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the invention.

By combining the embodiment 1 and the embodiment 2, the liquid storage cavity 2 with high liquid level and the liquid inlet cavity 3 with low liquid level are combined, only a small amount of liquid enters the liquid inlet cavity 3, and even if the shell 1 is randomly overturned, inverted and vibrated at high amplitude, a large amount of liquid cannot be immediately caused to flow out from the air inlet 61 and the air outlet 74; meanwhile, the air inlet cavity 4 and the air outlet cavity 5 are only communicated with the liquid inlet cavity 3 with low liquid level, air is not communicated with the liquid storage cavity 2, so that splashing of liquid due to turbulent airflow is avoided, and liquid is prevented from accidentally flowing out of the air inlet 61 and the air outlet 74 to the maximum extent.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose of the embodiments is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it is therefore intended that the present embodiments be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (8)

1. A novel humidification jar structure which characterized in that: the device comprises a shell, a liquid storage cavity, a liquid inlet cavity, an air outlet cavity, an air inlet pipeline and an air outlet pipeline, wherein the liquid storage cavity, the liquid inlet cavity, the air inlet cavity and the air outlet cavity are formed in the shell; a metal chassis for transferring heat is arranged below the liquid storage cavity, the liquid storage cavity is communicated with the liquid inlet cavity through a water inlet hole A at the lower end part, and the liquid storage cavity is isolated from the outside atmosphere after the water inlet hole A is filled with liquid; the air inlet cavity and the air outlet cavity are communicated with the liquid inlet cavity.

2. A novel humidification tank structure as claimed in claim 1, wherein: the casing includes left shell and right shell along the horizontal direction distribution, be provided with sealing silica gel between left shell and the right shell, the stock solution chamber sets up in the left shell, feed liquor chamber, air inlet chamber and air outlet chamber set up in the right shell, inlet opening A runs through sealing silica gel setting.

3. A novel humidification tank structure as claimed in claim 2, wherein: the air inlet cavity and the air outlet cavity are separated by a partition plate, a guide plate is connected below the partition plate, the liquid inlet cavity is formed below the guide plate and is communicated with the air inlet cavity through a first airflow hole arranged on the guide plate, and the liquid inlet cavity is communicated with the air outlet cavity through a second airflow hole arranged on the guide plate; the first air flow hole and the second air flow hole are both far away from the partition plate.

4. A novel humidification tank structure as claimed in claim 2, wherein: the air inlet pipeline sequentially flows through the left shell, the sealing silica gel and the right shell and comprises an air inlet formed on the left shell, a first pipe body, an air inlet sealing hole formed on the sealing silica gel and a second pipe body formed on the right shell; the first pipe body and the second pipe body are inserted into the air inlet sealing hole, and the second pipe body is provided with a first notch communicated with the air inlet cavity;

the air outlet pipeline sequentially flows through the right shell, the sealing silica gel and the left shell and comprises a third pipe body formed on the right shell, an air outlet sealing hole formed on the sealing silica gel, a fourth pipe body formed on the left shell and an air outlet; the third pipe body and the fourth pipe body are inserted into the air outlet sealing hole, and a second notch communicated with the air outlet cavity is formed in the third pipe body.

5. A novel humidification tank structure as claimed in claim 2, wherein: an independent liquid level cavity is further arranged in the right shell, the liquid level cavity is communicated with the liquid storage cavity through a water inlet hole B and an air vent, and the water inlet hole B and the air vent are both arranged on the sealing silica gel; and the outer wall of the right shell opposite to the liquid level cavity is transparent and is provided with scales for displaying the liquid level.

6. A novel humidification tank structure as claimed in claim 1, wherein: the casing includes along the epitheca and the inferior valve of vertical direction distribution, and inside constitutes back font cavity, including inner ring chamber and outer ring chamber, the below in inner ring chamber is the feed liquor chamber, and the top is for admitting air the chamber and go out the gas chamber, the outer ring chamber is the stock solution chamber.

7. A novel humidification tank structure as claimed in claim 6, wherein: the upper shell comprises an outer cover and an inner cover, the lower end of the outer cover is open, and the upper end of the lower shell is open; the outer cover is buckled with the lower shell and sealed by sealant, and the lower end of the inner cover is in sealing fit with the bottom surface inside the lower shell; the inner ring cavity is formed inside the inner cover, the outer ring cavity is formed outside the inner cover, and the water inlet hole A is formed in the side wall of the lower end of the inner cover.

8. The novel humidification canister structure of claim 7, wherein: the inner cover is also provided with a baffle plate, and the air inlet cavity and the air outlet cavity are respectively arranged at two sides of the baffle plate.

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