CN206543297U - Anti- drift peritoneal dialysis dedicated conduits - Google Patents

Abstract

The utility model discloses a special catheter for anti-drifting peritoneal dialysis, which comprises a dialysis rubber tube. One end of the dialysis rubber tube is provided with a sleeve, and the other end is provided with an annular fold layer. Hollow cavity, the hollow cavity is connected to the gas transmission interface at the casing through the gas transmission pipe arranged in the wall of the dialysis rubber tube. The dialysis rubber tube is provided with at least two through holes through the annular fold layer, and the through holes are connected with the dialysis rubber tube and the annular folds. The layer is integrally formed structure; the utility model realizes the volume change of the folded layer by inflating the folded layer, prevents the drift of the dialysis hose, and is also provided with a plurality of through holes, which can effectively prevent the blockage of the dialysis hose.

Description

Anti-drift special catheter for peritoneal dialysis

Technical field:

The utility model relates to the field of peritoneal dialysis, in particular to a special catheter for anti-drifting peritoneal dialysis.

Background technique:

Peritoneal dialysis is a form of dialysis that uses the body's own peritoneum as the dialysis membrane. The dialysate infused into the peritoneal cavity exchanges solutes and water with the plasma components in the capillaries on the other side of the peritoneum, removes metabolites and excess water retained in the body, and at the same time replenishes the body's necessary substances through the dialysate. Through continuous replacement of peritoneal dialysis fluid to achieve the purpose of renal replacement or supportive therapy, it is a commonly used and effective renal replacement therapy for patients with end-stage renal failure or acute renal failure.

The peritoneal dialysis tube used in existing peritoneal dialysis is a straight tube with multiple side holes on the end of the tube. This kind of peritoneal dialysis tube is prone to dialysis tube drift in the early stage of patient dialysis. Obstruction of the side hole of the catheter leads to obstruction of dialysate drainage, resulting in failure of dialysis treatment. Whenever the above situation occurs, it is necessary to reintubate or replace the dialysis tube, and some patients need to undergo a second operation, which not only increases the suffering of the patient, but also increases the financial burden of the patient, and even affects the normal treatment of the disease. There are multiple protruding side holes or arranged in a dendritic shape, which causes inconvenience in operation or the omentum is wrapped around the top during operation, making it difficult to take out the dialysis tube.

Utility model content:

The technical problem to be solved by the utility model is to overcome the deficiencies of the prior art and provide a special anti-drift catheter for peritoneal dialysis that is simple in structure, easy to carry, can effectively prevent drift and is not easy to be blocked.

The technical scheme of the utility model is: a special catheter for anti-drifting peritoneal dialysis, including a dialysis hose, one end of the dialysis hose is provided with a sleeve, and the other end is provided with an annular fold layer, and the ring fold layer is integrated with the dialysis hose Forming structure with a hollow cavity between them, the hollow cavity is connected with the gas transmission interface at the casing through the gas transmission pipeline arranged in the wall of the dialysis rubber tube.

The dialysis rubber tube is provided with at least two through holes passing through the annular folded layer, and the through holes are integrally formed with the dialysis rubber tube and the annular folded layer.

The beneficial effects of the utility model are:

1. The utility model realizes the volume change of the folded layer by inflating the folded layer, prevents the dialysis hose from drifting, and is also provided with a plurality of through holes, which can effectively prevent the blockage of the dialysis hose.

2. The utility model is provided with a wrinkled layer, which can be inflated and deflated to realize the change of the wrinkled layer, prevent the drift of the dialysis hose, and facilitate the operation of personnel to place and take out the dialysis hose.

3. The dialysis rubber hose of the utility model is provided with a through hole through the annular folded layer, and the through hole is integrated with the dialysis rubber hose and the folded layer. When the annular folded layer is inflated, the through hole is connected with the dialysis rubber hose to form a The through hole is lower than the wrinkled layer, that is, the wrinkled layer surrounds the through hole, which effectively prevents the problem of through hole clogging.

4. The through hole of the utility model is integrated with the dialysis hose and the folded layer, which increases the strength of the folded layer inflated, prevents the rupture of the annular folded layer, and at the same time, after deflation, the volume of the folded layer becomes smaller, which is convenient for personnel to place And taking operation, due to the overall structure, effectively reduce the winding of the omentum.

5. The ventilation hole of the utility model is set in the wall of the dialysis hose, and the integrated structure is convenient for operation, and at the same time, it also reduces the occupation of the dialysis hose channel when the ventilation tube is arranged in the dialysis hose channel.

Description of drawings:

Fig. 1 is a schematic diagram of the structure of a special catheter for anti-drifting peritoneal dialysis.

Fig. 2 is a schematic diagram of the structure of the anti-drift peritoneal dialysis catheter when deflated.

Fig. 3 is a schematic diagram of the structure of the anti-drift catheter for peritoneal dialysis when it is inflated.

detailed description:

Embodiment: See Figure 1, Figure 2 and Figure 3, in the figure, 1-dialysis hose, 2-sleeve, 3-annular folded layer, 4-hollow cavity, 5-gas pipeline, 6-gas connection, 7 -Through hole.

Anti-drift peritoneal dialysis catheter, including dialysis hose 1, one end of the dialysis hose 1 is provided with a sleeve 2, and the other end is provided with an annular folded layer 3, the annular folded layer 3 is integrally formed with the dialysis hose 1, and the space between them is hollow The cavity 4 and the hollow cavity 4 are connected with the gas delivery interface 6 at the casing 2 through the gas delivery pipeline 5 arranged in the wall of the dialysis rubber tube 1 .

The dialysis rubber tube 1 is provided with at least two through holes 7 passing through the annular folded layer 3 , and the through holes 7 are integrally formed with the dialysis rubber tube 1 and the annular folded layer 3 .

When in use, personnel set the dialysis hose 1 in the patient's body, and realize the enlarging of the annular folded layer 3 by inflating it, which plays a role in limiting the dialysis hose 1, because the through hole 7 is connected with the dialysis hose 1 and the annular folded layer 3 , has a pulling effect on the annular folded layer 3, and realizes that the annular folded layer 3 surrounds the through hole 7, and the dialysate enters and exits in the through hole 7, and the annular folded layer 3 is deflated through the gas pipeline 5, and the annular folded layer 3 Under the pulling action of the through hole 7 and the action of the air pressure, it is close to the dialysis rubber tube 1 , which is convenient for people to operate the dialysis rubber tube 1 .

The above is only a preferred embodiment of the utility model, and does not limit the utility model in any form. Any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the utility model, All still belong to within the scope of the technical solution of the utility model.

Claims (2)

1. a kind of anti-drift peritoneal dialysis dedicated conduits, including dialysis sebific duct, it is characterized in that：One end of the dialysis sebific duct is carried Sleeve pipe, the other end carries annular plicated layer, and the annular plicated layer and dialysis sebific duct are formed in one structure, and are therebetween Middle cavity, the middle cavity is connected by the gas pipeline being arranged in dialysis sebific duct wall with the gas transmission interface at sleeve pipe.

2. anti-drift peritoneal dialysis dedicated conduits according to claim 1, it is characterized in that：It is provided with the dialysis sebific duct At least two through annular plicated layer through hole, the through hole and dialysis sebific duct and annular plicated layer are formed in one structure.