CN218852729U - Decontamination pipeline - Google Patents

Abstract

The utility model discloses a wash pipeline that disappears, including scope body and joint design, the joint design includes that the water pocket pore connects, attracts piston cap, port cap and perfusion mouth cap, and the water pocket pore connects and communicates each other with external water pocket pore, attracts piston cap, port cap and perfusion mouth cap to communicate each other with the pore that scope body top set up respectively. The utility model discloses a set up water pocket pore and connect and perfusion mouth cap, the water pocket pore connects and communicates each other with the water pocket pore, perfusion mouth cap is the connector of extra increase, the perfusion mouth that perfusion mouth cap and scope body top set up communicates each other, make the three pore that scope body top set up all communicate each other, connect through the water pocket pore and inject washing liquid and disinfection into whole pipeline inside, the problem that the manual operation compliance of having effectively solved and having utilized the syringe is low, the manpower is saved, the effect of decontaminating has been guaranteed.

Description

Decontamination pipeline

Technical Field

The utility model relates to the field of medical supplies, in particular to decontamination pipeline.

Background

When the olympus ultrasonic bronchoscope is cleaned and disinfected, in the traditional decontamination process, a syringe is required to be used for communicating a corresponding pipeline and is communicated with a connector arranged on the ultrasonic bronchoscope, cleaning liquid and disinfectant are injected into the ultrasonic bronchoscope by the syringe, the operation of the syringe is finished manually, the compliance of manual operation is poor, the decontamination effect cannot be guaranteed, and manpower is wasted.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wash and disappear pipeline to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a decontamination line, comprising:

an endoscope body and a joint structure;

the joint structure comprises a water bag pore channel joint, a suction piston cap, a port cap and a perfusion port cap, the water bag pore channel joint is communicated with an external water bag pore channel, and the suction piston cap, the port cap and the perfusion port cap are communicated with a pore channel arranged at the top end of the endoscope body respectively.

Preferably, the top end of the endoscope body is provided with a suction port, a port and a perfusion port, the port is arranged between the suction port and the perfusion port, and the end part of the endoscope body is provided with a liquid outlet pipe.

Preferably, the suction piston cap and the suction port formed in the top end of the endoscope body are arranged correspondingly, the port cap and the port formed in the top end of the endoscope body are communicated with each other, and the perfusion port cap and the perfusion port formed in the top end of the endoscope body are communicated correspondingly with each other.

Preferably, the water bag pore passage joint is communicated with a first three-way joint through a first connecting hose, and the other two joints of the first three-way joint are respectively communicated with a second connecting hose and a third connecting hose.

Preferably, the other end of the second connecting hose is communicated with the suction piston cap, and the other end of the third connecting hose is communicated with a second three-way joint.

Preferably, the other two joints of the second three-way joint are respectively communicated with a fourth connecting hose and a pressure reducing valve (15), the other end of the pressure reducing valve (15) is communicated with a fifth connecting hose, the other end of the fifth connecting hose is communicated with the port cap, and the other end of the fourth connecting hose is communicated with the perfusion port cap.

The utility model discloses a technological effect and advantage:

(1) The utility model discloses a set up water bag pore and connect and the perfusion mouth cap, water bag pore connects and communicates each other with the water bag pore, the perfusion mouth cap is the connector that additionally increases, the perfusion mouth cap communicates each other with the perfusion mouth that sets up above the scope body, make three pore that sets up above the scope body all communicate each other, through water bag pore connect whole pipeline inside inject washing liquid and sterile work, effectively solve the problem that the manual operation compliance that utilizes the syringe is low, save the manpower, guaranteed the effect of washing and disappearing;

(2) The utility model discloses a set up second three way connection, through setting up first coupling hose, second coupling hose, third coupling hose, fourth coupling hose and fifth coupling hose, can effectively communicate water pocket pore joint, attraction piston cap, port cap and perfusion mouth cap each other, conveniently wash the work that disappears, through setting up first three way connection and second three way connection, be convenient for shunt and communicate a plurality of pipelines, improved the effect of using.

Drawings

Fig. 1 is a schematic view of the main structure of the present invention.

Figure 2 is the structure diagram of the endoscope body of the present invention.

In the figure: a water bag pore passage joint 1; a first three-way joint 2; a suction piston cap 3; a second three-way joint 4; a port cap 5; a perfusion port cap 6; a first connecting hose 7; a second connecting hose 8; a third connecting hose 9; a fourth connecting hose 10; a fifth connecting hose 11; an endoscope body 12; a perfusion port 13; a liquid outlet pipe 14; a pressure reducing valve 15.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a decontamination pipeline as shown in figures 1-2, which comprises an endoscope body 12 and a joint structure;

the joint structure comprises a water bag pore passage joint 1, an attraction piston cap 3, a port cap 5 and a perfusion port cap 6, wherein the water bag pore passage joint 1 is communicated with an external water bag pore passage, the attraction piston cap 3, the port cap 5 and the perfusion port cap 6 are respectively communicated with a pore passage arranged at the top end of an endoscope body 12, the water bag pore passage joint 1 and the perfusion port cap 6 are arranged, the water bag pore passage joint 1 is communicated with the water bag pore passage, the perfusion port cap 6 is an additionally-added connector, the perfusion port cap 6 is communicated with a perfusion port 13 arranged above the endoscope body 12, so that three pore passages arranged above the endoscope body 12 are communicated with each other, a power pump is arranged inside the water bag pore passage joint 1, the pressure of the power pump is adjusted to be 0.1 MPa, the damage of a pipeline caused by the overlarge pressure of the power pump can be avoided, the work of injecting cleaning liquid and disinfecting the inside the whole pipeline is carried out through the water bag pore passage joint 1, the problem of low compliance of manual operation of the injector is effectively solved, the manpower is saved, and the effect of washing is guaranteed;

the top end of the endoscope body 12 is provided with a suction port, a port and a perfusion port 13, the port is arranged between the suction port and the perfusion port 13, the end part of the endoscope body 12 is provided with a liquid outlet pipe 14, the suction port, the port and the perfusion port 13 are all communicated to the inner side of the endoscope body 12 and are all communicated with the liquid outlet pipe 14, when the inside of the endoscope body 12 is injected and decontaminated, a disinfectant and a cleaning liquid can flow out along the liquid outlet pipe 14, and the inside of the endoscope body 12 is effectively decontaminated;

the suction piston cap 3 and a suction port arranged at the top end of the endoscope body 12 are correspondingly arranged, the port cap 5 and a port arranged at the top end of the endoscope body 12 are mutually communicated, the perfusion port cap 6 and a perfusion port 13 arranged at the top end of the endoscope body 12 are mutually correspondingly communicated, the suction piston cap 3 and the suction port arranged at the top end of the endoscope body 12 are mutually correspondingly arranged, the suction piston cap 3 can be directly sleeved at the outer side of the suction port, the port cap 5 and the port arranged at the top end of the endoscope body 12 are mutually communicated, the port cap 5 can be directly sleeved at the outer side of the port, the perfusion port cap 6 is a perfusion joint and is mutually correspondingly arranged with the perfusion port 13, the perfusion port cap 6 can be directly sleeved at the outer side of the perfusion port 13, and the interior of the endoscope body 12 can be effectively washed and disinfected;

the water bag pore passage joint 1 is communicated with a first three-way joint 2 through a first connecting hose 7, the other two joints of the first three-way joint 2 are respectively communicated with a second connecting hose 8 and a third connecting hose 9, the other end of the second connecting hose 8 is communicated with a suction piston cap 3, the other end of the third connecting hose 9 is communicated with a second three-way joint 4, the other two joints of the second three-way joint 4 are respectively communicated with a fourth connecting hose 10 and a pressure reducing valve 15, the other end of the pressure reducing valve 15 is communicated with a fifth connecting hose 11, the other end of the fifth connecting hose 11 is communicated with a port cap 5, the other end of the fourth connecting hose 10 is communicated with a perfusion port cap 6, and through the arrangement of the pressure reducing valve 15, the outside of relief pressure valve 15 still is provided with the display screen that is used for showing pressure, relief pressure valve 15 is used for the restriction to flow into the fluid pressure in the fifth connecting pipe 11, the voltage limiting is 0.1MP, avoid flowing into fluid pressure too big, avoid causing the damage to scope body 12 flushing process, through setting up second three way connection 4, through setting up first coupling hose 7, second coupling hose 8, third coupling hose 9, fourth coupling hose 10 and fifth coupling hose 11, can effectively with water pocket pore joint 1, attract piston cap 3, port cap 5 and perfusion mouth cap 6 communicate each other, conveniently wash the work of disappearing, through setting up first three way connection 2 and second three way connection 4, be convenient for shunt and communicate a plurality of pipelines, the effect of using is improved.

The utility model discloses theory of operation: when the endoscope is used, the water bag pore channel joint 1 is communicated with a water bag pore channel through the arrangement of the water bag pore channel joint 1 and the perfusion port cap 6, the perfusion port cap 6 is an additionally added connector, the perfusion port cap 6 is communicated with the perfusion port 13 arranged above the endoscope body 12, so that three pore channels arranged above the endoscope body 12 are all communicated with each other, the power pump is arranged in the water bag pore channel joint 1, the pressure of the power pump is adjusted to 0.1 MPa, the damage of a pipeline caused by the overlarge pressure of the power pump can be avoided, the cleaning liquid is injected into the whole pipeline and disinfected through the water bag pore channel joint 1, the problem of low compliance of manual operation by using an injector is effectively solved, the manpower is saved, the decontamination effect is ensured, the suction port, the port and the perfusion port 13 are all communicated to the inner side of the endoscope body 12 and are all communicated with the liquid outlet pipe 14, when the inner part of the endoscope body 12 is subjected to injection decontamination, disinfectant and cleaning fluid can flow out along the liquid outlet pipe 14 to effectively wash and disinfect the inside of the endoscope body 12, the suction ports at the top ends of the suction piston cap 3 and the endoscope body 12 are arranged correspondingly, the suction piston cap 3 can be directly sleeved outside the suction ports, the port cap 5 is communicated with the port arranged at the top end of the endoscope body 12, the port cap 5 can be directly sleeved outside the port, the perfusion port cap 6 is a new joint and is arranged corresponding to the perfusion port 13, the perfusion port cap 6 can be directly sleeved outside the perfusion port 13, and washing and disinfecting work can be effectively carried out on the inside of the endoscope body 12, and by arranging the second three-way joint 4, the first connecting hose 7, the second connecting hose 8, the third connecting hose 9, the fourth connecting hose 10 and the fifth connecting hose 11, the water sac pore joint 1 can be effectively carried out, the suction piston cap 3, the port cap 5 and the perfusion port cap 6 are communicated with one another, decontamination work is conveniently carried out, a plurality of pipelines are conveniently shunted and communicated by arranging the first three-way connector 2 and the second three-way connector 4, and the using effect is improved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions on some technical features, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (6)

1. A decontamination line, comprising:

an endoscope body (12) and a joint structure;

the method is characterized in that: the joint structure comprises a water bag pore channel joint (1), a suction piston cap (3), a port cap (5) and a perfusion port cap (6), wherein the water bag pore channel joint (1) is communicated with an external water bag pore channel, and the suction piston cap (3), the port cap (5) and the perfusion port cap (6) are communicated with a pore channel arranged at the top end of the endoscope body (12) respectively.

2. An decontamination pipeline according to claim 1, characterized in that the top end of the endoscope body (12) is provided with a suction port, a port and a perfusion port, the port is arranged between the suction port and the perfusion port, and the end of the endoscope body (12) is provided with a liquid outlet pipe (14).

3. The decontamination pipeline according to claim 1, wherein the suction piston cap (3) is disposed corresponding to a suction port disposed at the top end of the endoscope body (12), the port cap (5) is communicated with a port disposed at the top end of the endoscope body (12), and the perfusion port cap (6) is communicated with a perfusion port (13) disposed at the top end of the endoscope body (12).

4. The decontamination pipeline according to claim 1, characterized in that the water sac aperture joint (1) is connected to a first three-way joint (2) through a first connection hose (7), and the other two joints of the first three-way joint (2) are connected to a second connection hose (8) and a third connection hose (9), respectively.

5. A decontamination pipeline according to claim 4, characterized in that the other end of the second connection hose (8) is interconnected with the suction piston cap (3) and the other end of the third connection hose (9) is interconnected with a second three-way connection (4).

6. The decontamination pipeline according to claim 5, characterized in that the other two joints of the second three-way joint (4) are respectively communicated with a fourth connection hose (10) and a pressure reducing valve (15), the other end of the pressure reducing valve (15) is communicated with a fifth connection hose (11), the other end of the fifth connection hose (11) is communicated with the port cap (5), and the other end of the fourth connection hose (10) is communicated with the flow filling port cap (6).

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