CN214912260U - Breathing pipeline condensed water collector - Google Patents

Abstract

The utility model discloses a breathing pipe condensate collector relates to oxygen uptake articles for use field, provides a breathing pipe condensate collector that reliability is higher. The breathing pipeline condensed water collector comprises a collector main body, two connecting sleeves and two connecting pipes, wherein the collector main body is circular, a liquid discharge hole and a sealing cover covering the liquid discharge hole are arranged on the edge of the collector main body, the two connecting sleeves are respectively connected to the centers of two ends of the collector main body, the connecting pipes are in one-to-one correspondence with the connecting sleeves and are matched with the connecting sleeves, the connecting sleeves limit the axial movement of the connecting pipes, and a sealing ring is arranged between the connecting pipes and the connecting sleeves. The utility model discloses during the use, two connecting pipes are connected with breathing pipe, and at breathing pipe level or basic level, no matter how the homoenergetic of collector main part direction is effectively collected the comdenstion water on the breathing pipe week, avoid the comdenstion water to persist in a large number and is inhaled by patient in breathing pipe. Therefore, the utility model discloses it is good to have adaptability, the high beneficial effect of reliability.

Description

Breathing pipeline condensed water collector

Technical Field

The utility model relates to an oxygen uptake articles for use field especially relates to a respiratory tract comdenstion water collector.

Background

The pipeline used by the breathing machine or the high-flow oxygen inhalation is provided with a water collecting cup which is used for collecting water condensed in the humidified oxygen. Patent ZL201520142089.5, ZL201922403313.2 and the like all disclose such breathing conduits and water collection cups carried thereon.

The ideal state of the conventional water collecting cup is as shown in figure 1, the water collecting cup is vertically arranged and is positioned below the breathing pipeline, water in the breathing pipeline can flow into the water collecting cup for collection, and the water collecting cup is detached and the collected water can be poured. However, in clinical practice, the breathing tube and the water collecting cup are often placed on a hospital bed, and the water collecting cup is not easy to keep upright and is often in a flat state shown in fig. 2, or in an inclined state or even in an inverted state, so that the water collecting cup can only contain little water actually and can not collect water. In addition, the water collecting cup is detached to pour the collected water, and when the water collecting cup is detached, the water reserved in the breathing pipeline flows out to wet a sickbed or the ground.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the respiratory tract condensed water collector has higher reliability.

The technical scheme adopted for solving the problems is as follows: the breathing pipeline condensed water collector comprises a collector main body, two connecting sleeves and two connecting pipes, wherein the collector main body is circular, a liquid discharge hole and a sealing cover covering the liquid discharge hole are arranged on the edge of the collector main body, the two connecting sleeves are respectively connected to the centers of two ends of the collector main body, the connecting pipes are in one-to-one correspondence with the connecting sleeves and are matched with the connecting sleeves, the connecting sleeves limit the axial movement of the connecting pipes, and a sealing ring is arranged between the connecting pipes and the connecting sleeves.

Further, the method comprises the following steps: the collector body has a dumbbell-shaped cross-sectional shape.

Further, the method comprises the following steps: the breathing pipeline condensate water collector comprises a positioning column, a positioning groove is formed in the connecting pipe, and the positioning column is connected with the connecting sleeve and inserted into the positioning groove.

The utility model has the advantages that: 1. as shown in fig. 5, the utility model discloses during the use, two connecting pipes are connected with breathing pipe, and at breathing pipe level or basic level, breathing pipe week is upwards, no matter how the homoenergetic of collector main part direction is effectively collected the comdenstion water, avoids the comdenstion water to persist in a large number in breathing pipe and is inhaled by patient. Therefore, the utility model discloses it is good to have adaptability, the high beneficial effect of reliability.

2. The collector main body can rotate due to the matching arrangement of the connecting pipe and the connecting sleeve. When water needs to be drained, the collector main body is rotated to enable the liquid discharge hole to be downward, the water cup is placed in the liquid discharge hole, and the sealing cover is opened. The drain hole is small, and water cannot spill out; the water in the breathing conduit can also be drained together by lowering the collector body.

Drawings

FIG. 1 is an ideal state diagram of a water collecting cup;

FIG. 2 is a diagram showing a state of the existing water collecting cup;

FIG. 3 is a view of the configuration of a respiratory tract condensation collector;

FIG. 4 is an enlarged partial view of the breathing conduit condensate collector;

FIG. 5 is a diagram illustrating the usage of the respiratory tract condensation water collector;

labeled as: collector main part 1, outage 11, closing cap 12, adapter sleeve 2, connecting pipe 3, constant head tank 31, sealing washer 4, reference column 5, breathing pipe 6.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

As shown in fig. 3 and 4, the respiratory tract condensed water collector comprises a collector body 1, two connecting sleeves 2 and two connecting pipes 3, wherein the collector body 1 is circular, the edge of the collector body 1 is provided with a liquid discharge hole 11 and a closed cover 12 covering the liquid discharge hole 11, the two connecting sleeves 2 are respectively connected with the centers of the two ends of the collector body 1, the connecting pipes 3 are in one-to-one correspondence with the connecting sleeves 2 and are matched with the connecting sleeves 2, the connecting sleeves 2 limit the connecting pipes 3 to move axially, and a sealing ring 4 is arranged between the connecting pipes 3 and the connecting sleeves 2.

As shown in fig. 5, the utility model discloses during the use, two connecting pipes 3 are connected with breathing pipe 6, and when 6 levels of breathing pipe or basic level, breathing pipe 6 week upwards, no matter how the 1 direction of collector main part all can effectively collect the comdenstion water, avoid the comdenstion water to persist in a large number in breathing pipe 6 and inhaled by patient.

The collector body 1 can rotate because the connecting pipe 3 is matched with the connecting sleeve 2. When water needs to be drained, the collector body 1 is rotated to enable the liquid drainage hole 11 to be downward, a cup is placed in the liquid drainage hole 11, and the sealing cover 12 is opened. The liquid discharge hole 11 is small, so that water cannot spill out; the water in the breathing conduit 6 can also be drained together by lowering the collector body 1.

In order to further improve the adaptability and reliability of the present invention, it is preferable that the cross-sectional shape of the collector body 1 is dumbbell-shaped, i.e., the middle part is smaller and the two ends are larger. Therefore, even if the breathing pipeline condensed water collector is inclined, the breathing pipeline condensed water collector has larger water capacity.

The connecting sleeve 2 limits the axial movement of the connecting pipe 3, so that the connecting pipe 3 can be prevented from being pulled out, and the specific implementation mode can be various. The utility model discloses preferred mode is as shown in fig. 4, and breathing pipe comdenstion water collector includes reference column 5, has constant head tank 31 on the connecting pipe 3, and reference column 5 is connected with adapter sleeve 2 and inserts constant head tank 31. So then connecting pipe 3 inserts adapter sleeve 2 to suitable position, and installation reference column 5 makes it get into constant head tank 31 and can realize connecting pipe 3 axial positioning, and the assembly of connecting pipe 3 is easier.

The positioning groove 31 should be around the connecting tube 3 otherwise the collector body 1 will be influenced to rotate. The positioning posts 5 can be two symmetrically arranged, and the positioning posts 5 are preferably located on the outer side of the sealing ring 4 to prevent water from leaking from the positioning posts 5. The positioning column 5 can be connected with the connecting sleeve 2 in a threaded manner or in an interference fit manner.

Claims (3)

1. Breathing pipeline comdenstion water collector, its characterized in that: including collector main part (1), two adapter sleeves (2) and two connecting pipes (3), collector main part (1) shape is circular, collector main part (1) edge is gone up has outage (11) and is covered closing cap (12) on outage (11), the center department at collector main part (1) both ends is connected respectively in two adapter sleeves (2), connecting pipe (3) and adapter sleeve (2) one-to-one and cooperate the setting, adapter sleeve (2) restriction connecting pipe (3) axial motion, be provided with sealing washer (4) between connecting pipe (3) and adapter sleeve (2).

2. The breathing tube condensation collector of claim 1, wherein: the cross-sectional shape of the collector body (1) is dumbbell-shaped.

3. The breathing tube condensation collector of claim 2, wherein: the connecting device comprises a positioning column (5), wherein a positioning groove (31) is formed in the connecting pipe (3), and the positioning column (5) is connected with the connecting sleeve (2) and inserted into the positioning groove (31).

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