CN213911887U - Disposable oxygen uptake humidifying tube for tracheotomy - Google Patents

Abstract

The utility model discloses a tracheotomy is with disposable oxygen uptake humidifying pipe, this oxygen uptake humidifying pipe including being oxygen uptake pipe, humidifying pipe that Y type or T type communicate mutually and converging the pipe, wherein, oxygen uptake pipe has the oxygen source link, and the humidifying pipe has humidifying liquid link, joins the pipe and has the oxygen suppliment humidifying end of putting into tracheal cannula. In the utility model, the oxygen inhalation duct and the humidifying duct are directly communicated with the converging duct in a Y shape or a T shape, wherein the oxygen source connecting end of the oxygen inhalation duct is directly connected with an oxygen source and is used for conveying oxygen to the converging duct; the humidifying liquid connecting end of the humidifying conduit is directly connected with a humidifying liquid source and is used for conveying humidifying liquid to the converging conduit; the oxygen supply humidifying end of the converging conduit is directly arranged in the tracheal cannula, so that the synchronous transmission of the oxygen and the humidifying liquid can be realized; not only is convenient to use, but also can be matched with a disposable tracheal cannula or a metal tracheal cannula for use, and has wide application range.

Description

Disposable oxygen uptake humidifying tube for tracheotomy

Technical Field

The utility model belongs to the technical field of the medical treatment, in particular to a disposable oxygen uptake humidifying pipe for tracheotomy.

Background

Tracheotomy is a common operation in which the neck trachea is cut open and a tracheotomy tube is placed at the incision to relieve dyspnea caused by laryngeal dyspnea, respiratory dysfunction or retention of lower respiratory secretions. After the neck trachea is cut open, dry oxygen entering directly into the trachea can increase tracheal sputum, resulting in patient dyspnea.

In order to humidify the trachea of a patient after tracheotomy, in the prior art, on one hand, a tracheotomy tube is improved, and on the other hand, a disposable jet oxygen uptake and humidifying tube is provided.

In the improvement of going on to trachea incision pipe, chinese utility model patent that publication number is CN202044616U discloses a trachea incision device, and this trachea incision device includes trachea incision pipe, trachea incision pipe's exit end be equipped with the trachea and open stifled cap, set up oxygen tube and humidifying pipe on trachea incision pipe's the outer circumference respectively, this oxygen tube's opening part is equipped with oxygen tube stifled cap, and the end connection of humidifying pipe has the humidifying gasbag.

The tracheotomy device has the following defects: the long-time inpatient needs to use the metal tracheotomy tube, and the tracheotomy device directly sets the oxygen uptake tube and the humidifying tube on the tracheotomy tube, so the tracheotomy device can only be applied to the disposable tracheotomy tube and is not suitable for the long-time inpatient.

The disposable jet oxygen-absorbing and humidifying tube disclosed in the Chinese utility model with publication number CN203915695U comprises an oxygen-absorbing tube, one end of the oxygen-absorbing tube is an oxygen source connecting end, the other end is an oxygen-supplying end arranged in the tracheal tube, and a rubber ring is arranged on the oxygen-absorbing tube close to the oxygen-supplying end; the disposable jet oxygen-absorbing and humidifying pipe also comprises a humidifying pipe, one end of the humidifying pipe is a humidifying liquid connecting end, the other end of the humidifying pipe is a humidifying end arranged in the tracheal pipe, and a section from the middle part of the oxygen-absorbing pipe to the position where the rubber ring is arranged is parallelly bonded with the humidifying pipe.

The defects of the disposable jet oxygen uptake and humidification tube are as follows: the oxygen inhalation catheter and the humidifying catheter are separately arranged, and when in use, the oxygen supply end of the oxygen inhalation catheter and the humidifying end of the humidifying catheter need to be respectively arranged in the tracheal cannula, and the oxygen supply end and the humidifying end of the humidifying catheter are fixed by a rubber ring, so that the use is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The invention aims to provide a disposable oxygen uptake humidifying tube for tracheotomy, which has wide application range and convenient use.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a disposable oxygen inhalation humidification tube for tracheotomy comprises an oxygen inhalation catheter, a humidification catheter and a converging catheter which are communicated in a Y shape or a T shape, wherein the oxygen inhalation catheter is provided with an oxygen source connecting end, the humidification catheter is provided with a humidification liquid connecting end, and the converging catheter is provided with an oxygen supply humidification end which is arranged in a tracheal tube.

In the utility model, the oxygen inhalation duct and the humidifying duct are directly communicated with the converging duct in a Y shape or a T shape, wherein the oxygen source connecting end of the oxygen inhalation duct is directly connected with an oxygen source and is used for conveying oxygen to the converging duct; the humidifying liquid connecting end of the humidifying conduit is directly connected with a humidifying liquid source and is used for conveying humidifying liquid to the converging conduit; the oxygen supply humidifying end of the converging conduit is directly arranged in the tracheal cannula, so that the synchronous transmission of the oxygen and the humidifying liquid can be realized. Therefore, the disposable oxygen inhalation humidifying tube for tracheotomy has convenient use, can be matched with a disposable tracheal cannula or a metal tracheal cannula, and has wide application range.

In the disposable oxygen-inhaling humidifying tube for tracheotomy, the oxygen source connecting end of the oxygen-inhaling conduit is provided with an oxygen-supplying joint which is convenient to be connected with the oxygen-supplying tube.

Preferably, in the disposable oxygen inhalation humidification tube for tracheotomy, the oxygen supply joint comprises a joint body connected with the oxygen inhalation catheter, and the periphery of the joint body is provided with a limit boss; the oxygen supply pipe is mutually nested with the joint body, and the end face of the oxygen supply pipe is propped against the limiting boss.

In the disposable oxygen-inhaling humidifying tube for tracheotomy, the joint body and the oxygen-inhaling pipe are integrally formed; or the joint body and the oxygen uptake pipe are mutually nested, and the end surface of the oxygen uptake pipe is propped against the limit lug boss.

In the disposable oxygen inhalation humidification tube for tracheotomy, the inner diameter of the oxygen inhalation conduit is equivalent to that of the oxygen supply tube, and the length of the oxygen inhalation conduit is between 70 and 100 cm.

In the disposable oxygen inhalation humidifying tube for tracheotomy, the humidifying liquid connecting end of the humidifying tube is provided with a rubber joint convenient for connecting an injector. The injector can convey the humidifying liquid into the humidifying conduit, and the rubber joint enables the injector to be inserted conveniently; meanwhile, when the syringe is not connected, the rubber joint can keep good sealing performance.

In the disposable oxygen-absorbing humidifying tube for tracheotomy, the humidifying liquid connecting end of the humidifying tube is provided with the flaring section, a limiting step is formed between the flaring section and the humidifying tube, and the rubber joint is embedded in the flaring section and abuts against the limiting step.

In the disposable oxygen inhalation humidification tube for tracheotomy, the inner diameter of the humidification tube is between 1 and 2mm, and the length of the humidification tube is between 50 and 60 cm.

In the disposable oxygen inhalation humidifying tube for tracheotomy, the inner diameter of the converging tube is between 1 and 2mm, and the length of the converging tube is between 50 and 60 cm.

In the disposable oxygen-inhaling humidifying tube for tracheotomy, the oxygen-inhaling tube, the humidifying tube and the converging tube are integrally formed.

Compared with the prior art, the beneficial effects of the utility model are embodied in:

(1) in the utility model, the oxygen inhalation duct and the humidifying duct are directly communicated with the converging duct in a Y shape or a T shape, wherein the oxygen source connecting end of the oxygen inhalation duct is directly connected with an oxygen source and is used for conveying oxygen to the converging duct; the humidifying liquid connecting end of the humidifying conduit is directly connected with a humidifying liquid source and is used for conveying humidifying liquid to the converging conduit; the oxygen supply humidifying end of the converging conduit is directly arranged in the tracheal cannula, so that the synchronous transmission of the oxygen and the humidifying liquid can be realized. Therefore, the disposable oxygen inhalation humidifying tube for tracheotomy has convenient use, can be matched with a disposable tracheal cannula or a metal tracheal cannula, and has wide application range.

(2) The utility model discloses in, oxygen uptake pipe's oxygen source link has the oxygen suppliment joint of being convenient for and supplying oxygen pipe to link to each other for oxygen uptake pipe can be linked together with the oxygen source fast conveniently.

(3) In the utility model, the humidifying liquid connecting end of the humidifying conduit is provided with a rubber joint which is convenient for connecting an injector; the injector can convey humidifying liquid into the humidifying conduit, the rubber joint enables the injector to be inserted conveniently, and meanwhile, when the injector is not connected, the rubber joint can keep good sealing performance.

Drawings

FIG. 1 is a schematic structural view of a disposable oxygen-inhaling humidifying tube for tracheotomy according to the present invention;

FIG. 2 is a schematic diagram of the oxygen source connection end of the oxygen catheter of FIG. 1;

FIG. 3 is another schematic diagram of the oxygen source connection end of the oxygen catheter of FIG. 1;

fig. 4 is a schematic structural view of the wetting fluid connection end of the wetting catheter in fig. 1.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings and the detailed description.

Example 1

As shown in fig. 1, the disposable oxygen-inhaling humidifying tube for tracheotomy of the embodiment comprises an oxygen-inhaling tube 1, a humidifying tube 2 and a converging tube 3 which are communicated in a Y shape; wherein the oxygen inhalation catheter 1 is provided with an oxygen source connecting end 11, the humidifying catheter 2 is provided with a humidifying liquid connecting end 21, and the converging catheter 3 is provided with an oxygen supply humidifying end 31 which is inserted into the tracheal cannula.

In this embodiment, the oxygen inhalation tube 1, the humidification tube 2 and the confluence tube 3 may be integrally formed (as shown in fig. 1), or may be connected by using a tee pipe combination. In addition, the oxygen inhalation tube 1, the humidifying tube 2 and the converging tube 3 can be communicated in a Y shape and also can be communicated in a T shape, and the function of each tube is not influenced by the specific arrangement form.

As shown in fig. 1, 2 and 3, in this embodiment, the oxygen source connection end 11 of the oxygen inhalation conduit 1 is provided with an oxygen supply connector 12 for connecting with an oxygen supply tube 100, and the oxygen supply tube 100 is connected with an oxygen source.

As shown in fig. 2 and 3 and seen in fig. 1, the oxygen supply connector 12 of the present embodiment includes a connector body 12a connected to the oxygen inhalation tube 1, and a limiting boss 12b is provided on the outer periphery of the connector body 12 a; the oxygen supply pipe 100 is nested with the joint body 12a, and the end face of the oxygen supply pipe 100 abuts against the limit boss 12 b.

The oxygen inhalation duct 1 and the joint body 12a can be connected in a manner that the two are nested with each other as shown in fig. 2, and the end surface of the oxygen inhalation duct 1 is also abutted against the limit boss 12 b; as shown in fig. 3, the connector body 12a is integrally formed with the oxygen inhalation tube 1, and when in use, the oxygen supply tube 100 and the connector body 12a are fixedly nested.

In order to facilitate the oxygen transportation, in the present embodiment, the oxygen inhaling tube 1 and the oxygen supplying tube 100 have a comparable inner diameter; the length L1 of the oxygen inhalation tube 1 can be set between 70 cm and 100cm, and the length L1 of the oxygen inhalation tube 1 is 80cm in the embodiment.

As shown in figure 4, and as can be seen from figure 1, in this embodiment, the wetting fluid connection end 21 of the wetting catheter 2 is provided with a rubber joint 22 for facilitating the connection of a syringe. The rubber joint 22 has good sealing performance, when the humidifying catheter 2 is not connected with instruments such as an injector and the like to convey humidifying liquid, the humidifying catheter 2 can keep a sterile state, and at the moment, the oxygen inhalation catheter 1 can be independently used for conveying oxygen; the rubber joint 22 also facilitates the connection of the syringe when the humidification fluid needs to be delivered.

As shown in fig. 4, in this embodiment, the connection between the rubber joint 22 and the humidification catheter 2 is as follows: the humidifying liquid connecting end 21 of the humidifying conduit 2 is provided with a flaring section 23, a limiting step 24 is formed between the flaring section 23 and the humidifying conduit 2, and the rubber joint 22 is embedded in the flaring section 23 and abuts against the limiting step 24.

As shown in figure 1, in this embodiment, the inner diameter of the humidifying conduit 2 can be set between 1-2mm, and the length L2 of the humidifying conduit 2 can be set between 50-60 cm.

As shown in FIG. 1, in this embodiment, the converging duct 3 may be provided with an inner diameter and a length comparable to those of the humidifying duct 2, i.e. the inner diameter may be set between 1-2mm and the length L3 may be set between 50-60 cm.

The working principle of the disposable oxygen uptake humidifying tube for tracheotomy in the embodiment is as follows:

after the trachea is cut, firstly, a tracheal catheter is put into the cut;

then, firstly, the oxygen-inhaling catheter 1 of the disposable oxygen-inhaling humidifying tube for tracheotomy of the embodiment is connected with the oxygen-supplying tube 100 of the oxygen source through the oxygen-supplying joint 12, then the oxygen-supplying humidifying end 31 of the converging catheter 3 is arranged in the tracheal tube, finally, the injector is inserted into the rubber joint 22 of the humidifying catheter 2, and the humidifying liquid is dripped or pumped into the humidifying catheter 2, or the humidifying liquid aerial fog can be directly conveyed into the humidifying catheter 2.

Claims (10)

1. The utility model provides a tracheotomy is with disposable oxygen uptake humidifying pipe, its characterized in that, including oxygen uptake pipe (1), humidifying pipe (2) and the pipe (3) of converging that are Y type or T type intercommunication, oxygen uptake pipe (1) have oxygen source link (11), humidifying pipe (2) have humidifying liquid link (21), the pipe (3) of converging have oxygen suppliment humidifying end (31) of putting into tracheal cannula.

2. The disposable humidifying tube for oxygen inhalation of claim 1, wherein the oxygen source connection end (11) of the oxygen inhalation catheter (1) is provided with an oxygen supply joint (12) which is convenient to connect with the oxygen supply tube (100).

3. The disposable oxygen inhalation humidifying tube for tracheotomy as claimed in claim 2, wherein the oxygen supply joint (12) comprises a joint body (12a) connected with the oxygen inhalation catheter (1), and the periphery of the joint body (12a) is provided with a limit boss (12 b); the oxygen supply pipe (100) and the joint body (12a) are mutually nested, and the end surface of the oxygen supply pipe (100) is propped against the limiting boss (12 b).

4. The disposable humidifying tube for oxygen inhalation of claim 3, wherein the connector body (12a) is formed integrally with the oxygen inhalation tube (1); or the joint body (12a) and the oxygen inhalation pipe (1) are nested with each other, and the end face of the oxygen inhalation pipe (1) is abutted against the limit boss (12 b).

5. The disposable humidified oxygen inhalation tube for tracheotomy according to any one of claims 1 to 4, wherein the inner diameter of the oxygen inhalation tube (1) is equivalent to the inner diameter of the oxygen supply tube (100), and the length of the oxygen inhalation tube (1) is between 70 cm and 100 cm.

6. The disposable oxygen-inhaling humidifying tube for tracheotomy as recited in claim 1, wherein the humidifying liquid connecting end (21) of the humidifying conduit (2) is provided with a rubber joint (22) for connecting a syringe conveniently.

7. The disposable oxygen-inhaling humidifying tube for tracheotomy as recited in claim 6, wherein the humidifying liquid connecting end (21) of the humidifying tube (2) is provided with a flaring section (23), a limit step (24) is formed between the flaring section (23) and the humidifying tube (2), and the rubber joint (22) is embedded in the flaring section (23) and is abutted against the limit step (24).

8. The disposable humidified oxygen tube for tracheotomy as claimed in any one of claims 1 and 6 to 7, wherein the inner diameter of said humidified tube (2) is between 1 and 2mm, and the length of said humidified tube (2) is between 50 and 60 cm.

9. The disposable humidifying tube for oxygen inhalation of claim 1, wherein the inner diameter of the confluent conduit (3) is between 1 mm and 2mm, and the length of the confluent conduit (3) is between 50 cm and 60 cm.

10. The disposable humidifying tube for oxygen inhalation of claim 1, wherein the oxygen inhalation tube (1), the humidifying tube (2) and the confluent tube (3) are formed integrally.

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