CN202933275U - Multi-cavity drainage device - Google Patents

Abstract

The utility model relates to a multi-cavity drainage device. The multi-cavity drainage device comprises a three-way joint, a drainage tube, an infusion tube and a sleeve, wherein the three-way joint is provided with a cavity and a central tube; the cavity is provided with a drainage end, an air replenishment end, a medicine adding end, a medicine guide tube and an output end; the central tube is fixedly assembled at the cavity, one end of the central tube is communicated with the drainage tube, and the other end of the central tube is assembled and communicated with the drainage tube; the medicine adding end is communicated with one end of the medicine guide tube, and the other end of the medicine guide tube is assembled and communicated with the infusion tube; the air replenishment end is communicated with the cavity; the infusion tube and the drainage tube are assembled in the sleeve, and the sleeve is assembled at the output end; and the infusion tube extends to the tail end part of the sleeve, the sleeve is provided with an infusion hole, liquid in the infusion tube can flow out of the sleeve through the infusion tube, the sleeve is further provided with a first drainage hole, and the drainage tube is provided with a second drainage hole. The multi-cavity drainage device can simultaneously perform infusion and waste liquid drainage, prevents the vacuum pressure phenomenon emerged during the drainage process and ensures that the drainage is more smooth.

Description

A kind of multi-cavity drainage system

Technical field

This utility model relates to technical field of medical instruments, particularly relates to a kind of multi-cavity drainage system.

Background technology

Drainage is a kind of measure for the treatment of timely and effectively in the open surgery clinical treatment, is usually used in surgical operation and critical patient.The drainage of beginning to speak, need carry out the medicinal liquid antiinflammatory to the position of beginning to speak on one side usually, on one side to the blood and slime that constantly oozes out in operation, organize the hydrops such as bleeding to clear up in time.

If while carrying out the medicinal liquid antiinflammatory, carrying out the hydrops cleaning, need the more medical personnel of configuration with manual type, not only cost of labor is high but also the nosocomial infection that easily causes drainage-fluid to backflow and cause.Therefore, in the operation of beginning to speak, usually use drainage tube, by antiinflammatory and the waste liquid cleaning of being infused respectively of tube for transfusion and drainage tube is set.But drainage tube of the prior art inevitably can produce the vacuum pressure phenomenon in the drain process, cause drain smooth and easy not.

Therefore, for the prior art weak point, a kind of drain is provided, and the multi-cavity drainage system is very necessary smoothly.

Summary of the invention

The purpose of this utility model is to avoid weak point of the prior art and a kind of can carry out medicinal liquid conveying and waste liquid absorption and drain multi-cavity drainage system smoothly is provided simultaneously.

The purpose of this utility model realizes by following technical measures.

A kind of multi-cavity drainage system is provided, is provided with three way cock, drainage tube, tube for transfusion and sleeve pipe;

Described three way cock is provided with cavity and central canal;

Described cavity is provided with drain end, air supply end, dosing end, medicine-introducing pipe and outfan;

Described central canal fixedly is assemblied in described cavity, and described central canal one end is communicated with described drain end, and the described central canal other end is communicated with described drainage tube assembling;

Described dosing end is communicated with described medicine-introducing pipe one end, and the described medicine-introducing pipe other end is communicated with described tube for transfusion assembling;

Described air supply end is communicated with described cavity;

Described tube for transfusion, described drainage tube all are assemblied in described inside pipe casing, and described sleeve pipe is assemblied in described outfan;

Described tube for transfusion extends to the terminal part of described sleeve pipe, and described sleeve pipe is provided with infusion hole, and the liquid in described tube for transfusion flows out described sleeve pipe by described infusion hole, and described sleeve pipe also is provided with the first conduction hole, and described drainage tube is provided with the second conduction hole.

Above-mentioned multi-cavity drainage system also is provided with filter membrane, and described filter membrane is assemblied in described air supply end.

Above-mentioned multi-cavity drainage system also is provided with the air supply plug, and described air supply plug is assemblied in described air supply end.

Above-mentioned multi-cavity drainage system also is provided with drainage catheter and drain plug, and described drainage catheter one end is communicated with described drain end, the described drainage catheter other end and the assembling of described drain plug.

Above-mentioned multi-cavity drainage system also is provided with dosing conduit and dosing plug, and described dosing conduit one end is communicated with described dosing end, and described dosing plug is assemblied in the described dosing conduit other end.

Above-mentioned tube for transfusion and described sleeve pipe are set to integrative-structure, and described tube for transfusion is fixedly installed on the inner wall position of described sleeve pipe.

Above-mentioned sleeve pipe is provided with a plurality of the first conduction holes, and described the first conduction hole is uniformly distributed in described sleeve pipe.

State drainage tube and be provided with a plurality of the second conduction holes, described the second conduction hole is uniformly distributed in described drainage tube.

The beneficial effects of the utility model:

Multi-cavity drainage system of the present utility model, be provided with three way cock, drainage tube, tube for transfusion and sleeve pipe; Described three way cock is provided with cavity and central canal; Described cavity is provided with drain end, air supply end, dosing end, medicine-introducing pipe and outfan; Described central canal fixedly is assemblied in described cavity, and described central canal one end is communicated with described drain end, and the described central canal other end is communicated with described drainage tube assembling; Described dosing end is communicated with described medicine-introducing pipe one end, and the described medicine-introducing pipe other end is communicated with described tube for transfusion assembling; Described air supply end is communicated with described cavity; Described tube for transfusion, described drainage tube all are assemblied in described inside pipe casing, and described sleeve pipe is assemblied in described outfan; Described tube for transfusion extends to the terminal part of described sleeve pipe, and described sleeve pipe is provided with infusion hole, and the liquid in described tube for transfusion flows out described sleeve pipe by described infusion hole, and described sleeve pipe also is provided with the first conduction hole, and described drainage tube is provided with the second conduction hole.This multi-cavity drainage system carries out dosing by the dosing end, and carry out the medicinal liquid conveying by tube for transfusion, by drainage tube, the timely drain of the hydrops of lesions position is discharged simultaneously, owing to being provided with the air supply end, can supplement at any time air, can avoid the vacuum pressure phenomenon caused in the drain process, drain is more smooth and easy.

The accompanying drawing explanation

Utilize accompanying drawing to be described further this utility model, but the content in accompanying drawing does not form any restriction of the present utility model.

Fig. 1 is the structural representation of a kind of multi-cavity drainage system of the present utility model.

Fig. 2 is the blast structural representation of Fig. 1.

Fig. 3 is Fig. 1 " A-A " cutaway view.

Fig. 4 is the part schematic diagram of Fig. 3.

Fig. 5 is Fig. 1 " B-B " cutaway view.

In Fig. 1 to 5, include:

Three way cock 100,

Cavity 110,

Drain end 111, air supply end 112,

Filter membrane 113, air supply plug 114,

Dosing end 115, medicine-introducing pipe 116, outfan 117,

Central canal 120,

Drainage tube 200,

The second conduction hole 210,

Tube for transfusion 300,

Sleeve pipe 400,

Infusion hole 410, the first conduction hole 420,

Drainage catheter 500, drain plug 510,

Dosing conduit 600, dosing plug 610.

The specific embodiment

With the following Examples this utility model is further described.

Embodiment 1.

A kind of multi-cavity drainage system of the present utility model, as shown in Figures 1 to 5, be provided with three way cock 100, drainage tube 200, tube for transfusion 300 and sleeve pipe 400.Drainage tube 200 is for hydrops is carried out to drain, and tube for transfusion 300 is for medicinal liquid is transported to lesions position, and three way cock 100 is for being connected with drainage tube 200, tube for transfusion 300 and sleeve pipe 400 and the confined liquid flow direction.

Three way cock 100 is provided with cavity 110 and central canal 120.Cavity 110 is provided with drain end 111, air supply end 112, dosing end 115, medicine-introducing pipe 116 and outfan 117.

Central canal 120 fixedly is assemblied in cavity 110, and central canal 120 1 ends are communicated with drain end 111, and central canal 120 other ends are communicated with drainage tube 200 assemblings.Dosing end 115 is communicated with medicine-introducing pipe 116 1 ends, and medicine-introducing pipe 116 other ends are communicated with tube for transfusion 300 assemblings, and air supply end 112 is communicated with cavity 110.

Tube for transfusion 300, drainage tube 200 all are assemblied in sleeve pipe 400 inside, and sleeve pipe 400 is assemblied in outfan 117.

Concrete, tube for transfusion 300 is set to integrative-structure with sleeve pipe 400, and tube for transfusion 300 is fixedly installed on the inner wall position of sleeve pipe 400.Tube for transfusion 300 extends to the terminal part of sleeve pipe 400, and sleeve pipe 400 is provided with infusion hole 410, and the liquid in tube for transfusion 300 flows out sleeve pipe 400 by infusion hole 410.

Sleeve pipe 400 also is provided with the first conduction hole 420, and sleeve pipe 400 is provided with a plurality of the first conduction holes 420 usually, and preferably the first conduction hole 420 is uniformly distributed in sleeve pipe 400.

Drainage tube 200 is provided with the second conduction hole 210, and drainage tube 200 is provided with a plurality of the second conduction holes 210 usually, and preferably the second conduction hole 210 is uniformly distributed in drainage tube 200.

This multi-cavity drainage system 200 also is provided with filter membrane 113, and filter membrane 113 is assemblied in air supply end 112.By filter membrane 113, can the air entered in cavity 110 be filtered, guarantee air quality.Also be provided with air supply plug 114, air supply plug 114 is assemblied in air supply end 112.

This multi-cavity drainage system 200 also is provided with drainage catheter 500 and drain plug 510, and drainage catheter 500 1 ends are communicated with drain end 111, drainage catheter 500 other ends and 510 assemblings of drain plug.

This multi-cavity drainage system 200 also is provided with dosing conduit 600 and dosing plug 610, and dosing conduit 600 1 ends are communicated with dosing end 115, and dosing plug 610 is assemblied in dosing conduit 600 other ends.When the needs dosing, unplug dosing plug 610 and can carry out dosing, when dosing is complete or do not need dosing, dosing plug 610 is filled in to dosing conduit 600 and get final product, easy to operate, and health.

This multi-cavity drainage system, its operation principle is: in the situation that begun to speak operation or needs, open dosing plug 610 and carry out dosing, medicinal liquid successively through dosing conduit 600, dosing end 115, lead medicine 116, then arrive the terminal part of sleeve pipe 400 through tube for transfusion 300, transport to lesions position through infusion hole 410, can directly carry out antiinflammatory to lesions position.Because infusion hole 410 is arranged at the terminal part of sleeve pipe 400, therefore medicinal liquid directly can be delivered to lesions position.After antiinflammatory, waste liquid needs to discharge, perhaps in the time blood and useless medicinal liquid need to being extracted, open drain plug 510, waste liquid inputs to drainage tube 200 from the first conduction hole 420 through the second conduction hole 210, then through drainage catheter 500, discharges, in carrying out waste liquid drain extraction, the air supply end 112 of tee T can carry out air supply, can not form negative pressure state, guarantees the discharge of waste liquid effective and safe.

This multi-cavity drainage system, not only can carry out medicinal liquid simultaneously and carry and the waste liquid drain, and can carry out air supply simultaneously, works more smooth and easy, uses safer.

This multi-cavity drainage system can limit carries out the antiinflammatory limit and carries out discharging of waste liquid.When carrying out antiinflammatory, when needs dump waste liquid, open at any time drain plug 510 and can carry out waste liquid drain discharge.This multi-cavity drainage system also can carry out separately medicinal liquid and carries antiinflammatory or carry out separately waste liquid drain discharge.Can be used for gastric lavage and the operation process of beginning to speak, the scope of application is wide, of many uses, simple to operate.

Embodiment 2.

A kind of multi-cavity drainage system of the present utility model, other structure is identical with embodiment 1, and difference is: tube for transfusion 300 arranges separately with sleeve pipe 400, but not integrative-structure, the tube for transfusion 300 of independent is assemblied in sleeve pipe 400 inside.

Finally should be noted that; above embodiment is only for the technical solution of the utility model is described but not to the restriction of this utility model protection domain; although with reference to preferred embodiment, this utility model is explained in detail; those of ordinary skill in the art is to be understood that; can modify or be equal to replacement the technical solution of the utility model, and not break away from essence and the scope of technical solutions of the utility model.

Claims (8)

1. a multi-cavity drainage system, is characterized in that: be provided with three way cock, drainage tube, tube for transfusion and sleeve pipe;

Described three way cock is provided with cavity and central canal;

Described cavity is provided with drain end, air supply end, dosing end, medicine-introducing pipe and outfan;

Described central canal fixedly is assemblied in described cavity, and described central canal one end is communicated with described drain end, and the described central canal other end is communicated with described drainage tube assembling;

Described dosing end is communicated with described medicine-introducing pipe one end, and the described medicine-introducing pipe other end is communicated with described tube for transfusion assembling;

Described air supply end is communicated with described cavity;

Described tube for transfusion, described drainage tube all are assemblied in described inside pipe casing, and described sleeve pipe is assemblied in described outfan;

Described tube for transfusion extends to the terminal part of described sleeve pipe, and described sleeve pipe is provided with infusion hole, and the liquid in described tube for transfusion flows out described sleeve pipe by described infusion hole, and described sleeve pipe also is provided with the first conduction hole, and described drainage tube is provided with the second conduction hole.

2. multi-cavity drainage system according to claim 1, it is characterized in that: also be provided with filter membrane, described filter membrane is assemblied in described air supply end.

3. multi-cavity drainage system according to claim 1, it is characterized in that: also be provided with the air supply plug, described air supply plug is assemblied in described air supply end.

4. multi-cavity drainage system according to claim 1, it is characterized in that: also be provided with drainage catheter and drain plug, described drainage catheter one end is communicated with described drain end, the described drainage catheter other end and the assembling of described drain plug.

5. multi-cavity drainage system according to claim 1, it is characterized in that: also be provided with dosing conduit and dosing plug, described dosing conduit one end is communicated with described dosing end, and described dosing plug is assemblied in the described dosing conduit other end.

6. multi-cavity drainage system according to claim 1, it is characterized in that: described tube for transfusion and described sleeve pipe are set to integrative-structure, and described tube for transfusion is fixedly installed on the inner wall position of described sleeve pipe.

7. multi-cavity drainage system according to claim 1, it is characterized in that: described sleeve pipe is provided with a plurality of the first conduction holes, and described the first conduction hole is uniformly distributed in described sleeve pipe.

8. multi-cavity drainage system according to claim 1, it is characterized in that: described drainage tube is provided with a plurality of the second conduction holes, and described the second conduction hole is uniformly distributed in described drainage tube.

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