CN209992244U - Novel collection of breathing metabolism water device - Google Patents

Abstract

The utility model relates to a novel collecting device for respiratory metabolic water, which comprises a water tank and a hard air outlet conduit, wherein the air outlet conduit comprises an air inlet end and an air outlet end, and the inner diameter of the air inlet end is smaller than that of the air outlet end; the outer wall of the air outlet end is provided with an air inlet guide pipe, the inner diameter of the air inlet guide pipe is larger than the outer diameter of the air outlet guide pipe, the air inlet guide pipe is sleeved outside the air outlet guide pipe and is hermetically connected with the air outlet guide pipe at one end close to the air outlet end of the air outlet guide pipe, and one end far away from the air outlet end of the air outlet guide pipe is detachably and hermetically connected with the opening end of the water tank; the air inlet end is positioned in the water tank after the air inlet guide pipe is connected with the water tank and is not contacted with the bottom of the water tank, and the air inlet guide pipe is also provided with an air inlet nozzle communicated with the air inlet guide pipe by penetrating through the side wall of the air inlet guide pipe. The utility model discloses a simple structure, convenient to use has increased gaseous circulation route, and the moisture wherein of being more convenient for condenses into water at the pipe wall, shortens the collection time, does benefit to the collection of metabolic water.

Description

Novel collection of breathing metabolism water device

Technical Field

The utility model relates to medical equipment, in particular to a novel portable respiratory metabolic water collecting device with simple structure and convenient use.

Background

Respiration is a mode of human body metabolism, various compounds can be oxidized due to the respiration metabolism, respiration matrixes can be different according to the types of organs and tissues or different environments in which the respiration matrixes are located, substances generated by the human body metabolism can be taken out of a body by the aid of the breathed gas, a large amount of water can be contained in the breathed gas, molecules of corresponding metabolites can be carried in the water, the physical condition can be correspondingly analyzed by analyzing the respiration metabolism water, the conventional collection of the respiration metabolism water basically needs to be carried out in a hospital for detection and analysis, the collection of the respiration metabolism water cannot be simply carried out anytime and anywhere, and the time for forming the metabolism water in use is long and the amount of the metabolism water is small.

SUMMERY OF THE UTILITY MODEL

To the current not enough, the utility model provides a simple structure, facilitate the use, portable novel breathe collection device of metabolism water.

The utility model provides a technical scheme that its technical problem adopted is:

a novel respiratory metabolic water collecting device comprises a water tank for storing respiratory metabolic water and a hard air outlet guide pipe for guiding air out, wherein the air outlet guide pipe comprises an air inlet end and an air outlet end, and the inner diameter of the air inlet end is smaller than that of the air outlet end; an air inlet guide pipe for blowing air is arranged on the outer wall of the air outlet end, the inner diameter of the air inlet guide pipe is larger than the outer diameter of the air outlet guide pipe, the air inlet guide pipe is sleeved outside the air outlet guide pipe and is hermetically connected with the air outlet guide pipe at one end close to the air outlet end of the air outlet guide pipe, and one end far away from the air outlet end of the air outlet guide pipe is detachably and hermetically connected with the opening end of the water tank; the air inlet end is positioned in the water tank after the air inlet guide pipe is connected with the water tank and is not contacted with the bottom of the water tank, and the air inlet guide pipe is also provided with an air inlet nozzle communicated with the air inlet guide pipe by penetrating through the side wall of the air inlet guide pipe.

Preferably, the water tank comprises a collecting bottle positioned at the lower part and used for storing the respiratory metabolic water and a cylindrical connecting cylinder positioned at the upper part and connected with the air inlet conduit, and the collecting bottle and the connecting cylinder are detachably and hermetically connected at the opening of the collecting bottle.

Preferably, the collecting bottle is provided with a plurality of collecting bottles, and each collecting bottle is matched with a cover which covers and seals the opening of the collecting bottle.

Preferably, the outer wall of the water tank is sleeved with an ice box in a matching manner, and the ice box comprises a cylindrical shell and a refrigerant layer positioned in the shell.

Preferably, the water tank, the air outlet conduit and the air inlet conduit are all transparent.

Preferably, the water tank, the air outlet guide pipe and the air inlet guide pipe are all made of glass, and the air inlet guide pipe is embedded into the open end of the water tank in a matching mode and is sealed through a frosting layer arranged at the contact part of the air inlet guide pipe and the water tank.

Preferably, the air inlet duct and the air outlet duct are integrally formed, and the air inlet duct is a cylindrical duct which radially extends outwards from the outer wall of the air outlet duct and is bent towards the air inlet end.

Preferably, the water tank is a cylinder which is hollow inside and is opened at the top, the air outlet conduit is an elongated cylindrical structure, and the air inlet end is a truncated cone-shaped end part formed by radially shrinking the air outlet conduit.

Preferably, the outer wall of the water tank is provided with scale marks.

Preferably, the air inlet nozzle is arranged perpendicular to the side wall of the air inlet duct.

The beneficial effects of the utility model reside in that: the utility model discloses a simple structure, high durability and convenient use, the sealed setting of the end of giving vent to anger of the adjacent pipe of giving vent to anger of air inlet duct, blow in gas from the pipe of giving vent to anger, gas is at first along the inlet end of the pipe outer wall flow direction pipe of giving vent to anger, then get into the pipe inner wall of giving vent to anger from the inlet end, follow the pipe inner wall of giving vent to anger again at last and flow, the circulation route of gas has been increased, the moisture wherein of being more convenient for condenses into water at the pipe wall, shorten the collection time, moisture easily condenses the.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of an air inlet duct and an air outlet duct in an embodiment of the present invention;

FIG. 3 is a schematic structural view of a collection bottle and a cover in an embodiment of the present invention;

FIG. 4 is a schematic structural view of a connector according to an embodiment of the present invention;

FIG. 5 is a schematic view of the ice bin according to an embodiment of the present invention;

part names and serial numbers in the figure: 1-water tank 10-collection bottle 11-connecting cylinder 100-cover 2-air outlet conduit 20-air inlet end 21-air outlet end 3-air inlet conduit 30-air inlet nozzle 4-ice box 40-shell 41-refrigerant layer 5-frosting layer 6-scale mark.

Detailed Description

To clearly illustrate the objects, technical solutions and advantages of the embodiments of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and embodiments, which are for clarity and complete description. 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, belong to the scope of protection of the present invention. Furthermore, directional phrases used in the present invention, such as "upper", "lower", "front", "rear", "left", "right", "inner", "outer", etc., refer only to the directions of the attached drawings, and are used for better and clearer illustration and understanding of the present invention, and do not indicate or imply orientations which the present invention must have, and therefore, should not be construed as limiting the present invention.

The embodiment of the utility model is shown in fig. 1 to 5, a novel collecting device for respiratory metabolic water, which comprises a water tank 1 for storing respiratory metabolic water, a rigid air outlet conduit 2 for leading out air, wherein the rigid air outlet conduit 2 facilitates the air to flow out from the conduit, thereby preventing the air from being led out inefficiently along with the air swing when the soft conduit is blown by air, and for the water tank 1, because the rigid air outlet conduit is used for collecting respiratory metabolic water, the water tank 1 can preferably select a narrow-mouth water tank, the narrow-mouth facilitates the condensation of the water in the air in the water tank, and also facilitates the sealed transportation of the water tank 1 after collecting the metabolic water, the air outlet conduit 2 comprises an air inlet end 20 and an air outlet end 21, the inner diameter of the air inlet end 20 is smaller than that of the air outlet end 21, thus forming a conduit with a narrow inlet and a wide outlet, and can slow down the flowing speed of the air from the air outlet conduit 2, so that the retention time of the gas in the water tank 1 is prolonged, and the condensation of the moisture in the gas is more facilitated; an air inlet guide pipe 3 for blowing air is arranged on the outer wall of the air outlet end 21, the inner diameter of the air inlet guide pipe 3 is larger than the outer diameter of the air outlet guide pipe 2, the air inlet guide pipe 3 is sleeved outside the air outlet guide pipe 2 and is hermetically connected with the air outlet guide pipe 2 at one end close to the air outlet end 21 of the air outlet guide pipe 2, one end far away from the air outlet end 21 of the air outlet guide pipe 2 is detachably and hermetically connected with the opening end of the water tank 1, the inner diameter of the air inlet guide pipe 3 is larger than the outer diameter of the air outlet guide pipe 2, so that after the air inlet guide pipe 3 is sleeved outside the air outlet guide pipe 2, a gap exists between the air inlet guide pipe 3 and the air outlet guide pipe 2, a gas flowing channel is formed by the gap, the air inlet guide pipe 3 is arranged on the outer wall of the air outlet end 21 and is hermetically connected with the air outlet guide pipe 2 at one end adjacent, simultaneously inlet duct 3 is keeping away from the one end dismantled and assembled sealing connection of giving vent to anger end 21 at the open end of basin 1, dismantled and assembled then has made things convenient for the change to basin 1, can also directly send basin 1 to corresponding mechanism with the breathing metabolic water of collection and detect, avoid the pollution that causes to breathing multiple transfer of metabolic water, thereby lead to the inaccuracy of testing result, still conveniently maintain the clearance of each part, sealing connection then forms an inclosed cavity between inlet duct 3 and basin 1, gas just can flow in this cavity, and moisture in the gas just can condense into water and be collected in basin 1 at basin 1 inner wall. The whole gas circulation process is that after the gas is blown into a cavity formed by the gas inlet duct 3 and the water tank 1 from the gas inlet duct 3, the gas firstly flows to the gas inlet end 20 of the gas outlet duct 2 along the outer wall of the gas outlet duct 2, then enters the gas outlet duct 2 from the gas inlet end 20, and finally flows out along the inner wall of the gas outlet duct 2, the whole process increases the gas flow path, so that the moisture in the gas is more conveniently condensed into water on the wall of the water tank 1 or the duct wall, the collection time of the respiratory metabolic water is shortened, the collection amount of the respiratory metabolic water is increased due to the fact that the moisture is easy to condense, and the collection of the metabolic water is facilitated; the air inlet end 20 is located in the water tank 1 after the air inlet guide pipe 3 is connected with the water tank 1 and is not contacted with the bottom of the water tank 1, so that a distance is reserved between the air inlet end 20 and the bottom of the water tank 1, the air can flow conveniently, the air inlet guide pipe 3 is further provided with an air inlet nozzle 30 communicated with the air inlet guide pipe 3 and penetrating through the side wall of the air inlet guide pipe 3, and the air inlet nozzle 30 is convenient for people to blow air through the air inlet nozzle 30 to enter the air inlet guide pipe 3 to collect the respiratory metabolic water. The product has simple structure, convenient use and convenient carrying, and can collect the respiratory metabolic water in the specified time period at any time and any place.

A further improvement, as shown in fig. 1, 3 and 4, the water tank 1 includes a collecting bottle 10 located at the lower part for storing respiratory metabolic water, and a cylindrical connecting cylinder 11 located at the upper part and connected with the air inlet conduit 3, the collecting bottle 10 and the connecting cylinder 11 are detachably and hermetically connected at the opening of the collecting bottle 10, the collecting bottle 10 can be any bottle with a wide mouth and a narrow mouth and capable of containing water, the two ends of the connecting cylinder 11 are correspondingly connected with the air inlet conduit 3 and the collecting bottle 10, and the entered gas is circulated from the connecting cylinder 11, so that the water tank 1 can be replaced and installed more conveniently without frequently disassembling and assembling the water tank 1 and the air inlet conduit 3, thereby avoiding damaging the air outlet conduit 11 in the disassembling and assembling process, and simultaneously, the collecting bottle 10 can be designed into bottles with different volumes and different shapes according to different needs, thereby satisfying the diversified requirements, the collecting bottle 10 is provided with a plurality of collecting bottles 10, each collecting bottle 10 is matched with a cover 100 which is covered and sealed at the opening of the collecting bottle 10, so that after the collection of the metabolic water is completed for one time, the cover 100 is covered and sealed on the collecting bottle 10, the collecting bottle 10 is sealed, the collecting bottle 10 can be sent to a corresponding detection mechanism for detection and analysis, when the collection is needed again, the other collecting bottle 10 is used for corresponding operation, and the repeated use of the product and the safe transportation of the metabolic water to the detection mechanism for detection are ensured.

In a further improvement, as shown in fig. 5, an ice box 4 is fittingly sleeved on the outer wall of the water tank 1, the ice box 4 comprises a cylindrical shell 40 and a refrigerant layer 41 positioned in the shell 40, so that the water tank 1 is cooled by the ice box 4, the gas blown into the water tank 1 is cooled, the moisture in the gas can be more rapidly condensed under cooling, and the collection process of the metabolic water is accelerated. When the ice box 4 is needed to be used, the ice box 4 is refrigerated in a refrigerator, the refrigerant layer 41 is frozen, then the ice box 4 is sleeved on the outer wall of the water tank 1, and the refrigerant layer 41 is used for refrigerating the inner space of the water tank 1, so that moisture in respiratory gas is condensed to form respiratory metabolic water.

Further improvement, as shown in fig. 1 to 4, the water tank 1, the air outlet conduit 2 and the air inlet conduit 3 are all transparent, and the process of collecting the respiratory metabolic water can be visually seen in the transparent state, and whether impurities exist in the collected metabolic water or not and the amount of the collected metabolic water can be known to determine whether the amount required by detection is reached or not. The water tank 1, the air outlet guide pipe 2 and the air inlet guide pipe 3 can be made of glass, the glass is low in cost and convenient to produce, meanwhile, the water tank is easy to clean and cannot pollute collected metabolic water, the water tank can be made of transparent acrylic under the same principle, the air inlet guide pipe 3 is embedded into the open end of the water tank 1 in a matching mode, namely, the caliber of the air inlet guide pipe 3 at the joint of the water tank and the air inlet guide pipe is slightly smaller than that of the opening of the water tank 1, obstruction cannot be generated when air flows into the water tank 1, the problem of metabolic water accumulation cannot be caused at the joint, the water tank 1 and the air inlet guide pipe are sealed through the frosting layers 5 arranged at the contact parts of the air inlet guide pipe 3 and the water tank 1, the glass can be well sealed through the frosting layers 5 in a contact mode, auxiliary parts are not needed for sealing, the structure of a product is, The assembly and the use are convenient for the sealed transportation of the water tank 1 after the metabolic water is collected.

In a further improvement, as shown in fig. 1 and 2, the air inlet conduit 3 is integrally formed with the air outlet conduit 2, and the air inlet conduit 3 is a cylindrical conduit extending radially outward from the outer wall of the air outlet conduit 2 and bending toward the air inlet end 20. The integrated into one piece does not have the connection between the part, does not need the required part of sealing connection, has reduced the connection between the part, and is sealed better, and the structure is simpler, more convenient production is carried, and the circulation route of blowing in gas has then been ensured to the structure of inlet duct 3, makes things convenient for condensing of water. In order to facilitate blowing air into the air inlet duct 3 without being affected by the air outlet end 21 of the air outlet duct 2, the air inlet nozzle 30 is arranged perpendicular to the side wall of the air inlet duct 3.

In a further improvement, as shown in fig. 1 and 3, the water tank 1 is a hollow cylinder with an opening at the top, the cylinder may be a cylinder or a square cylinder, but for the convenience of connecting the water tank 1 and the air inlet conduit 3, it is preferable that the water tank 1 and the air inlet conduit 3 are both circular in cross section, the air outlet conduit 2 is a long cylindrical structure, the cylindrical structure determines that the middle is hollow, the long bar indicates that the whole shape is slender, the path of the gas flow is long, the cross section may be circular or square, the air inlet end 20 is a truncated cone-shaped end part formed by radially contracting the air outlet conduit 2, the gas flow is facilitated, and the water drops into the water tank 1 from the outer wall of the air outlet conduit when water is condensed on the outer wall of the air outlet conduit.

In a further improvement, as shown in fig. 1 and 3, the outer wall of the water tank 1 is provided with a scale 6, so that the volume of the collected respiratory metabolism water can be clearly known, and the time for blowing can be taken according to the required amount.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

Claims (10)

1. The utility model provides a novel collection of respiratory metabolism water device which characterized in that: the breathing water purifier comprises a water tank for storing breathing metabolic water and a hard air outlet guide pipe for guiding air out, wherein the air outlet guide pipe comprises an air inlet end and an air outlet end, and the inner diameter of the air inlet end is smaller than that of the air outlet end; an air inlet guide pipe for blowing air is arranged on the outer wall of the air outlet end, the inner diameter of the air inlet guide pipe is larger than the outer diameter of the air outlet guide pipe, the air inlet guide pipe is sleeved outside the air outlet guide pipe and is hermetically connected with the air outlet guide pipe at one end close to the air outlet end of the air outlet guide pipe, and one end far away from the air outlet end of the air outlet guide pipe is detachably and hermetically connected with the opening end of the water tank; the air inlet end is positioned in the water tank after the air inlet guide pipe is connected with the water tank and is not contacted with the bottom of the water tank, and the air inlet guide pipe is also provided with an air inlet nozzle communicated with the air inlet guide pipe by penetrating through the side wall of the air inlet guide pipe.

2. The novel respiratory metabolism water collection device of claim 1, wherein: the water tank comprises a collecting bottle positioned at the lower part and used for storing the respiratory metabolic water and a cylindrical connecting cylinder positioned at the upper part and connected with the air inlet conduit, and the collecting bottle and the connecting cylinder are detachably and hermetically connected at the opening of the collecting bottle.

3. The novel respiratory metabolism water collection device of claim 2, wherein: the collecting bottle is equipped with a plurality ofly, every the collecting bottle all matches and has covered the lid that closes sealed at the collecting bottle opening part.

4. The novel respiratory metabolism water collection device of claim 1, wherein: the outer wall of the water tank is sleeved with an ice box in a matching mode, and the ice box comprises a cylindrical shell and a refrigerant layer located in the shell.

5. The novel respiratory metabolism water collection device of claim 1, wherein: the water tank, the air outlet guide pipe and the air inlet guide pipe are all transparent.

6. The novel respiratory metabolism water collection device of claim 1, wherein: the water tank, the air outlet guide pipe and the air inlet guide pipe are all made of glass, the air inlet guide pipe is embedded into the open end of the water tank in a matching mode, and the water tank is sealed through frosting layers arranged at the contact positions of the air inlet guide pipe and the water tank.

7. The novel respiratory metabolism water collection device of claim 1, wherein: the air inlet guide pipe and the air outlet guide pipe are integrally formed, and the air inlet guide pipe is a cylindrical guide pipe which radially extends outwards from the outer wall of the air outlet guide pipe and is bent towards the air inlet end.

8. The novel respiratory metabolism water collection device of claim 1, wherein: the water tank is a cylinder which is hollow inside and is opened at the top, the air outlet guide pipe is of a long strip-shaped cylindrical structure, and the air inlet end is a circular truncated cone-shaped end part formed by radial contraction of the air outlet guide pipe.

9. The novel respiratory metabolism water collection device of claim 1, wherein: and the outer wall of the water tank is provided with scale marks.

10. The novel respiratory metabolism water collection device of claim 1, wherein: the air inlet nozzle is arranged perpendicular to the side wall of the air inlet guide pipe.

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