CN212914056U

CN212914056U - Sustainable bladder irrigation device

Info

Publication number: CN212914056U
Application number: CN202020512634.6U
Authority: CN
Inventors: 赵建琴; 刘雅慧; 韩晓彤; 王彩萍; 李聚霞
Original assignee: NANJING BENQ MEDICAL CENTER CO Ltd
Current assignee: NANJING BENQ MEDICAL CENTER CO Ltd
Priority date: 2020-04-09
Filing date: 2020-04-09
Publication date: 2021-04-09
Anticipated expiration: 2030-04-09

Abstract

The utility model provides a sustainable bladder washing unit, include: a puncture instrument for introducing a flushing liquid; the flushing pipeline comprises a first water inlet pipeline and a first water outlet pipeline which are communicated with each other, the first water inlet pipeline is connected with the puncture outfit to be connected with flushing liquid, and the first water outlet pipeline extends into the body of the patient to drain the flushing liquid into the body of the patient; the drainage pipeline comprises a second water inlet pipeline and a second water outlet pipeline which are communicated with each other, and the second water inlet pipeline extends into the patient body so as to drain the flushing liquid in the patient body to the second water outlet pipeline for discharge; the three-way piece is arranged on the drainage pipeline; wherein, when drainage pipeline blockked up, through carrying out the negative pressure suction to the tee bend spare in order to switch on drainage pipeline. The sustainable bladder flushing device of the utility model can continuously flush the bladder, prevent infection and ensure the curative effect of bladder flushing; and the operation is simple, and the working efficiency of nursing staff is effectively improved.

Description

Sustainable bladder irrigation device

Technical Field

The utility model belongs to the technical field of medical treatment and specifically relates to a sustainable bladder washing unit is related to.

Background

The bladder irrigation is one of the clinical common nursing technical operations in the urology surgery, and the method comprises the steps of continuously filling an irrigation solution into the bladder by using a catheter, and then draining the filled liquid out, so as to remove blood clots in the bladder, prostate tissues or residual tumor tissues in the bladder, keep the urine drainage smooth and prevent the occurrence of infection.

At present, the bladder irrigation device which is clinically used more consists of a blood transfusion device (an infusion apparatus) and the head end of a drainage bag. The operator needs to trim the head end of the drainage bag, then connect the head end of the drainage bag with the tail end of the blood transfusion apparatus, and then insert the head end of the drainage bag into the catheter. The modified bladder irrigator has the disadvantages of troublesome operation, insecure connection and easy falling off, and also destroys the tightness of the pipeline and is not beneficial to the requirement of aseptic operation.

In order to solve the problem, a transfusion pipeline is connected with a Y-shaped three-way pipe, a main pipe joint of the Y-shaped three-way pipe is connected with a bladder flushing fluid plug through a flushing pipe, one of two branch pipe joints is connected with a catheter plug through a catheter connecting pipe, and the other branch pipe joint is connected with a urine collecting bag joint through a urine collecting bag connecting pipe. Although the leakproofness of pipeline has been guaranteed in this type of design, the bladder washes the in-process and need carry out the clamp many times, open the pipeline and maintain washing, and the patient that needs the bladder to wash often has the infection or the condition of bleeding, needs to wash 1 ~ 2 days of bladder, and the volume of washing is more, and above design not only is unfavorable for the persistence that the bladder washed, has also increased nursing staff's work load simultaneously.

SUMMERY OF THE UTILITY MODEL

In view of the problems in the prior art, the purpose of the present invention is to provide a sustainable bladder irrigation device, which can continuously irrigate the bladder, prevent infection and ensure the bladder irrigation efficacy; and the operation is simple, and the working efficiency of nursing staff is effectively improved.

In order to achieve the above object, the utility model provides a sustainable bladder irrigation device, include: a puncture instrument for introducing a flushing liquid; the flushing pipeline comprises a first water inlet pipeline and a first water outlet pipeline which are communicated with each other, the first water inlet pipeline is connected with the puncture outfit to be connected with the flushing liquid, and the first water outlet pipeline extends into the patient body to drain the flushing liquid into the patient body; the drainage pipeline comprises a second water inlet pipeline and a second water outlet pipeline which are communicated with each other, and the second water inlet pipeline extends into the patient body so as to drain the flushing liquid in the patient body to the second water outlet pipeline for discharge; the three-way piece is arranged on the drainage pipeline; wherein, when this drainage tube blocked up, through carrying out the negative pressure suction to this tee bend spare in order to switch on this drainage tube.

Optionally, the sustainable bladder irrigation apparatus further comprises a drainage bag, and the tee connects the drainage bag with the second water outlet pipe.

Optionally, the three-way element includes a first port, a second port and a third port that are communicated with each other, wherein the first port is connected to the water outlet of the second water outlet pipe, and the second port is connected to the water inlet of the drainage bag.

Optionally, the sustainable bladder irrigation device further comprises a drainage bag, the second water outlet pipe comprises a first water outlet sub-pipe and a second water outlet sub-pipe, and the second water inlet pipe, the first water outlet sub-pipe, the three-way member, the second water outlet sub-pipe and the drainage bag are sequentially connected.

Optionally, the three-way element includes a first interface, a second interface and a third interface that are communicated with each other, where the first interface is connected to the water outlet of the first sub water outlet pipe, and the second interface is connected to the water inlet of the second sub water outlet pipe.

Optionally, when the drainage pipeline is in a conducting state, the third interface is closed; when the drainage pipeline is in a blocked state, the third interface is opened to conduct the drainage pipeline through negative pressure suction of the third interface.

Optionally, an anti-backflow drip cup is disposed on the first water inlet pipe, and a medicine feeding pipe is disposed at one end of the anti-backflow drip cup, which is close to the puncture outfit.

Optionally, the first water inlet pipe, the anti-backflow drip cup, the dosing tube and the first water outlet pipe are integrally formed.

Optionally, a flow regulator is further disposed on the first water inlet pipe, and the anti-backflow drip cup and the flow regulator are sequentially disposed along a flow direction of the flushing liquid.

Optionally, the sustainable bladder irrigation apparatus further comprises a first pipe clamp and a second pipe clamp, wherein the first pipe clamp simultaneously clamps the first water outlet pipe and the second water inlet pipe; the second pipe clamp clamps the second water inlet pipeline, and the second pipe clamp is positioned between the first pipe clamp and the water inlet of the second water inlet pipeline.

Compared with the prior art, the first water outlet pipeline and the second water inlet pipeline in the sustainable bladder flushing device of the utility model extend into the patient body in parallel and are independent from each other, so that the flushing liquid in the bladder of the patient can be continuously discharged by the second water inlet pipeline while the flushing liquid is injected into the bladder of the patient by the first water outlet pipeline, thereby realizing continuous flushing of the bladder, preventing infection and ensuring the flushing curative effect of the bladder; and the operation is simple, and the working efficiency of nursing staff is effectively improved.

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the sustainable bladder irrigation apparatus of the present invention.

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

As shown in fig. 1, fig. 1 is a schematic structural diagram of an embodiment of the sustainable bladder irrigation apparatus 100 of the present invention, the sustainable bladder irrigation apparatus 100 includes a puncture device 1, an irrigation pipeline 2, a drainage pipeline 3 and a tee 4, wherein the puncture device 1 is used for introducing irrigation liquid; the flushing pipeline 2 comprises a first water inlet pipeline 21 and a first water outlet pipeline 22 which are communicated with each other, the first water inlet pipeline 21 is connected with the puncture outfit 1 to be connected with flushing liquid, and the first water outlet pipeline 22 extends into the body of a patient to drain the flushing liquid into the body of the patient; the drainage pipeline 3 comprises a second water inlet pipeline 31 and a second water outlet pipeline 32 which are communicated with each other, the second water inlet pipeline 31 extends into the patient body to drain the flushing liquid in the patient body to the second water outlet pipeline 32 for discharging; the tee fitting 4 sets up on drainage tube 3, when drainage tube 3 blocks up, through carrying out the negative pressure suction to tee fitting 4 in order to switch on drainage tube 3.

When in use, the puncture outfit 1 can be provided with at least one puncture opening, each puncture opening can be punctured into an infusion bottle or an infusion bag filled with flushing liquid, the flushing liquid in the infusion bottle or the infusion bag enters the flushing pipeline 2 through the puncture outfit 1, the flushing pipeline 2 sends the flushing liquid into the bladder of a patient, and the drainage pipeline 3 discharges the flushing liquid polluted in the bladder of the patient, thereby realizing the continuous flushing of the bladder. Because the first water outlet pipeline 22 and the second water inlet pipeline 31 extend into the patient body in parallel and are independent from each other, the second water inlet pipeline 31 can continuously discharge the flushing liquid in the bladder of the patient while the first water outlet pipeline 22 injects the flushing liquid into the bladder of the patient, thereby realizing continuous flushing of the bladder, preventing infection and ensuring the curative effect of flushing the bladder; and the operation is simple, and the working efficiency of nursing staff is effectively improved.

The utility model discloses in, sustainable bladder washing unit still includes drainage bag 5, and drainage bag 5 is used for collecting the washing liquid of second outlet conduit 32 discharge. The three-way component 4 comprises a first interface, a second interface and a third interface which are communicated with each other.

In an embodiment of the present invention, the three-way member 4 connects the drainage bag 5 and the second water outlet pipe 32. Wherein, the first interface of the three-way component 4 is connected with the water outlet of the second water outlet pipeline 32, and the second interface is connected with the water inlet of the drainage bag 5.

In another embodiment of the present invention, the sustainable bladder irrigation apparatus further comprises a drainage bag 5, the second water outlet pipe 32 comprises a first water outlet pipe and a second water outlet pipe, and the second water inlet pipe 31, the first water outlet pipe, the three-way member 4, the second water outlet pipe and the drainage bag 5 are connected in sequence. The first interface of the three-way part 4 is connected with the water outlet of the first sub water outlet pipeline, and the second interface is connected with the water inlet of the second sub water outlet pipeline.

When the drainage tube 3 is in a conducting state, the third interface is closed, and the flushing liquid in the drainage tube 3 can be directly discharged to the drainage bag 5. When the drainage tube 3 is in the blocked state, the third port is opened to conduct the drainage tube 3 by negative pressure suction to the third port. For example, when a blockage is in the first sub water outlet pipe, negative pressure is sucked to the third interface through the injector, and the blockage in the first sub water outlet pipe can be sucked out along the first sub water outlet pipe and the first interface of the three-way element 4 to the third interface of the three-way element 4, so that the first sub water outlet pipe is conducted; for another example, when a blockage is in the second sub outlet pipe, negative pressure is sucked to the third interface through the syringe, and the blockage in the second sub outlet pipe can reach the third interface of the three-way element 4 along the second sub outlet pipe and the second interface of the three-way element 4 and be sucked out, so that the second sub outlet pipe is conducted.

In addition, the first water inlet pipe 21 is provided with an anti-backflow drip cup 6, and one end of the anti-backflow drip cup 6 close to the puncture outfit 1 is provided with a medicine feeding pipe 7. The anti-backflow drip cup 6 is designed so that when bladder spasm or blood clots block the bladder, the contaminated flushing liquid in the bladder cannot flow back to the infusion bottle or the infusion bag from the flushing pipeline 2, and therefore the cleanliness of the flushing liquid in the infusion bottle or the infusion bag can be guaranteed. The medicine feeding pipe 7 can facilitate medical staff to feed medicine into the anti-backflow drip cup 6 in the flushing process, and partial flushing liquid can be stored in the anti-backflow drip cup 6, so that the medicine can be mixed with the flushing liquid and then fed into a patient.

Further, the first water inlet pipeline 21, the anti-backflow drip cup 6, the dosing pipe 7 and the first water outlet pipeline 22 are of an integrated structure, so that the airtightness of the whole flushing pipeline can be guaranteed, aseptic operation is facilitated, and infection is avoided. The first water inlet pipeline 21 is further provided with a flow regulator 8, the anti-backflow drip cup 6 and the flow regulator 8 are sequentially arranged along the flow direction of the flushing liquid, and the flow regulator 8 can regulate the flushing speed of the flushing liquid on the bladder of the patient.

The sustainable bladder irrigation device also comprises a first pipe clamp 9 and a second pipe clamp 10, wherein the first pipe clamp 9 simultaneously clamps the first water outlet pipe 22 and the second water inlet pipe 31; the second pipe clamp 10 clamps the second water inlet pipe 31, and the second pipe clamp 10 is located between the first pipe clamp 9 and the water inlet of the second water inlet pipe. Neither the first tube clamp 9 nor the second tube clamp 10 blocks the flow of irrigation liquid when the bladder of the patient is being cleaned normally. When it is desired to stop the flushing of the patient's bladder, the first tube clamp 9 can be used to clamp the first outlet tube 22 and the second inlet tube 31 simultaneously, so that no flushing fluid can be introduced into the patient's bladder and discharged. When the drainage pipeline 3 is blocked, the first pipe clamp 9 and the second pipe clamp 10 can be only used for clamping the second water inlet pipeline 31 at the same time, so that the bladder of the patient is prevented from being damaged during negative pressure suction.

In practical application, the

joints

11 and 12 may be respectively disposed at the water outlet of the first water outlet pipe 22 and the water inlet of the second water inlet pipe 31, wherein the joint 11 is screwed with the water outlet of the first water outlet pipe 22, the joint 12 is screwed with the water inlet of the second water inlet pipe 31, and both the

joints

11 and 12 are tapered to facilitate the first water outlet pipe 22 and the second water inlet pipe 31 to extend into the patient.

To sum up, the first water outlet pipe 22 and the second water inlet pipe 31 in the sustainable bladder irrigation device of the present invention extend into the patient body in parallel and are independent from each other, so that when the first water outlet pipe 22 injects the irrigation liquid into the bladder of the patient, the second water inlet pipe 31 can continuously discharge the irrigation liquid in the bladder of the patient, thereby realizing continuous irrigation of the bladder, preventing infection and ensuring the curative effect of bladder irrigation; and the operation is simple, and the working efficiency of nursing staff is effectively improved.

The above detailed description of the preferred embodiments is intended to more clearly describe the features and spirit of the present invention, and is not intended to limit the scope of the present invention. On the contrary, it is intended to cover various modifications and equivalent arrangements included within the scope of the claims appended hereto. The scope of the claims of the present invention should therefore be accorded the broadest interpretation so as to encompass all such modifications and equivalent arrangements as is appropriate to the context of the description set forth above.

Claims

1. A sustainable bladder irrigation apparatus comprising:

a puncture instrument for introducing a flushing liquid;

the flushing pipeline comprises a first water inlet pipeline and a first water outlet pipeline which are communicated with each other, the first water inlet pipeline is connected with the puncture outfit to be connected with the flushing liquid, and the first water outlet pipeline extends into the patient body to drain the flushing liquid into the patient body;

the drainage pipeline comprises a second water inlet pipeline and a second water outlet pipeline which are communicated with each other, and the second water inlet pipeline extends into the patient body so as to drain the flushing liquid in the patient body to the second water outlet pipeline for discharge; and

the three-way piece is arranged on the drainage pipeline;

wherein, when this drainage tube blocked up, through carrying out the negative pressure suction to this tee bend spare in order to switch on this drainage tube.

2. The sustainable bladder irrigation apparatus of claim 1, further comprising a drainage bag, wherein the tee connects the drainage bag to the second outlet conduit.

3. The sustainable bladder irrigation apparatus of claim 2, wherein the tee comprises a first port, a second port and a third port in communication with each other, wherein the first port is connected to the outlet of the second outlet conduit and the second port is connected to the inlet of the drainage bag.

4. The sustainable bladder irrigation apparatus of claim 1, further comprising a drainage bag, wherein the second water outlet conduit comprises a first water outlet sub-conduit and a second water outlet sub-conduit, and wherein the second water inlet conduit, the first water outlet sub-conduit, the tee member, the second water outlet sub-conduit and the drainage bag are connected in series.

5. The sustainable bladder irrigation apparatus of claim 4, wherein the tee comprises a first port, a second port and a third port that are in communication with each other, wherein the first port is connected to the water outlet of the first sub-outlet conduit, and the second port is connected to the water inlet of the second sub-outlet conduit.

6. The sustainable bladder irrigation apparatus of claim 3 or 5, wherein the third port is a closed port when the drainage conduit is in a conducting state; when the drainage pipeline is in a blocked state, the third interface is an opened interface.

7. The sustainable bladder irrigation apparatus of claim 1, wherein the first water inlet conduit is provided with an anti-reflux drip cup, and the anti-reflux drip cup is provided with a dosing tube at an end adjacent to the puncture device.

8. The sustainable bladder irrigation apparatus of claim 7, wherein the first water inlet conduit, the anti-reflux drip cup, the dosing tube, and the first water outlet conduit are integrally formed as a unitary structure.

9. The sustainable bladder irrigation apparatus of claim 7, wherein the first water inlet conduit is further provided with a flow regulator, and the anti-reflux drip cup and the flow regulator are arranged in series along a flow direction of the irrigation fluid.

10. The sustainable bladder irrigation apparatus of claim 1, further comprising a first tube clamp and a second tube clamp, the first tube clamp clamping the first outlet conduit and the second inlet conduit simultaneously; the second pipe clamp clamps the second water inlet pipeline, and the second pipe clamp is positioned between the first pipe clamp and the water inlet of the second water inlet pipeline.