CN220193270U - Triangular calculus removal anti-reflux convenient-to-take-out ureteral stent - Google Patents

Abstract

The utility model provides a triangular calculus removal anti-reflux convenient-to-take-out ureteral stent, and belongs to the technical field of ureteral stents. The ureteral stent comprises a ureteral stent body and a taking-out mechanism, wherein the taking-out mechanism is arranged on the outer wall of the ureteral stent body and comprises an inflation tube, an air inlet, a sealing piston, an air bag ring and a through hole; the air inlet is formed in the air charging pipe; the sealing piston is arranged at the air inlet; the air bag ring is fixedly connected between the air charging pipe and the ureteral stent body; the through hole is formed in the air bag ring, the sealing piston is opened, gas in the gas tube and the air bag ring is discharged from the gas inlet and the through hole respectively, the gas tube and the air bag ring are contracted, the ureteral stent body is convenient to take out, and the damage to patients in different degrees is avoided.

Description

Triangular calculus removal anti-reflux convenient-to-take-out ureteral stent

Technical Field

The utility model relates to the technical field of ureteral stents, in particular to a triangular calculus removal anti-reflux convenient-to-take-out ureteral stent.

Background

The ureteral stent has very wide application in urological surgery, is suitable for the above-mentioned operation of urinary tract such as kidney stone, ureteral stone, hydronephrosis, kidney transplantation, kidney and ureteral benign tumor and the like and in the treatment processes such as rubble by stone crusher, ureteral stenosis, etc., it can play the effect of drainage urine after implanting the ureter, prevent ureteral stenosis and adhesion jam etc., its both ends crooked appears the english letter J of ring-like and name double J pipe, during the use, ureteral stent one end is placed in the renal pelvis, and the stent body is placed in the ureter, and the other end is placed in the bladder, and according to different conditions of illness, double J pipe is kept for different time, from 2-4 weeks to 1-3 months inequality, except that special diseases such as tumour, ureteral stenosis, etc., mostly keep for about 2-4 weeks, keep for a period of time need take out from the body after keeping.

The traditional tube taking is required to take a lithotomy position on an operation table, and the lithotomy position enters the urinary bladder through the rigid cystoscope and is pulled out from the tail end of the double J-shaped clamp tube under direct vision, because the retention time is long, the ureteral stent is in contact with the inner wall of the ureter for a long time, the pain of a patient (especially a male patient) can be increased when the ureteral stent is pulled out, the symptom of urinary tract stimulation is easy to occur after the tube is pulled out, and part of the patient is damaged by the urinary tract to cause hematuria and can generate damage of different degrees to the patient, so that the three-edged type calculus removing anti-reflux convenient ureteral stent is provided for solving the problems.

Disclosure of Invention

In order to overcome the defects, the utility model provides the triangular calculus removal anti-reflux convenient ureteral stent which solves the technical problems or at least partially solves the problems.

The utility model provides a triangular calculus removal anti-reflux convenient-to-take-out ureteral stent, which comprises

A ureteral stent body;

the taking-out mechanism is arranged on the outer wall of the ureteral stent body and comprises

The inflation tube is fixedly connected to the outer wall of the ureteral stent body;

the air inlet is formed in the air charging pipe;

the sealing piston is arranged at the air inlet;

the air bag ring is fixedly connected between the air charging tube and the ureteral stent body;

the through hole is formed in the air bag ring.

In a preferred scheme, a plurality of air bag rings are arranged, and the air bag rings are equidistantly arranged on the ureteral stent body.

In a preferred scheme, a plurality of through holes are formed, and the through holes are arranged in an annular equidistant mode.

In a preferred scheme, the ureteral stent body comprises a catheter, a first bending tube and a second bending tube, wherein the first bending tube and the second bending tube are respectively fixedly connected at two ends of the catheter, and the taking-out mechanism is arranged at the catheter.

In a preferred embodiment, the conduit is provided with a bend.

In a preferred scheme, a guide wire placing cavity is formed in the central position inside the catheter, and a guide wire body is arranged in the guide wire placing cavity and penetrates through the catheter.

In a preferred scheme, the catheter is further provided with an anti-reflux mechanism, the anti-reflux mechanism comprises a liquid inlet cavity and a negative pressure suction cavity, the liquid inlet cavity is arranged below the guide wire placing cavity, and the negative pressure suction cavity is arranged above the guide wire placing cavity.

In a preferred scheme, a liquid outlet is formed in the guide pipe, and the liquid outlet is communicated with the inside of the liquid inlet cavity.

In a preferred scheme, a negative pressure suction port is formed in the catheter, and the negative pressure suction port is communicated with the interior of the negative pressure suction cavity.

In a preferred scheme, a liquid inlet pipe and a negative pressure suction pipe are fixedly connected to the catheter, the liquid inlet pipe is communicated with the liquid inlet cavity, and the negative pressure suction pipe is communicated with the inside of the negative pressure suction cavity.

The utility model provides a triangular calculus removal anti-reflux ureteral stent convenient to take out, which has the beneficial effects that:

1. through opening sealed piston, with the gas in gas tube and the gasbag circle from air inlet and through-hole discharge respectively for gas tube and gasbag circle shrink, be convenient for take out ureter support body, avoided producing the damage of different degree to the patient.

2. Through setting up anti-reflux mechanism, medical personnel is connected negative pressure suction tube and outside negative pressure suction equipment to pour the flushing fluid into through the feed liquor pipeline, the flushing fluid flows into in the ureter from the liquid outlet along the feed liquor chamber through the feed liquor pipeline, can be convenient for wash the affected part, and attracts the internal hydrops of patient (including but not limited to flushing fluid and urine) through outside negative pressure suction equipment, make flushing fluid and urine get into the negative pressure suction chamber through the negative pressure suction mouth, finally be discharged by the negative pressure suction tube, effectually prevented the backward flow of flushing fluid and urine.

Drawings

For a clearer description of the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present utility model and should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art;

FIG. 1 is a perspective view of an overall structure provided by an embodiment of the present utility model;

FIG. 2 is a schematic view of an inflation tube according to an embodiment of the present utility model;

fig. 3 is a perspective view of a ureteral stent body structure according to an embodiment of the present utility model;

FIG. 4 is a schematic view of an airbag cushion according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a second curved tube and a portion of a conduit according to an embodiment of the present utility model;

FIG. 6 is a schematic cross-sectional view of a second curved tube and conduit portion provided in accordance with an embodiment of the present utility model;

in the figure: 1. a ureteral stent body; 101. a conduit; 102. a first curved tube; 103. a second curved tube; 2. a take-out mechanism; 201. an inflation tube; 202. an air inlet; 203. a sealing piston; 204. an air bag ring; 205. a through hole; 3. a bending part; 4. a guidewire placement lumen; 5. a guidewire body; 6. an anti-reflux mechanism; 601. a liquid inlet cavity; 602. a negative pressure suction chamber; 603. a liquid outlet; 604. a negative pressure suction port; 605. a liquid inlet pipe; 606. negative pressure suction tube.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides a technical solution: the utility model provides a three-edged type calculus removal prevent conveniently taking out formula ureteral stent that flows backward, includes ureteral stent body 1 and take out mechanism 2, takes out mechanism 2 setting at the outer wall of ureteral stent body 1, takes out mechanism 2 including gas tube 201, air inlet 202, sealing piston 203, gasbag circle 204 and through-hole 205, and gas tube 201 fixed connection is at the outer wall of ureteral stent body 1; the air inlet 202 is arranged on the air charging pipe 201; a sealing piston 203 is provided at the air intake 202; the air bag ring 204 is fixedly connected between the air charging tube 201 and the ureteral stent body 1; the through holes 205 are formed in the air bag rings 204, the air bag rings 204 are provided with a plurality of air bag rings 204, and the air bag rings 204 are equidistantly arranged on the ureter bracket body 1, and the ureter bracket is characterized in that the air bag rings 204 are provided with a plurality of air bag rings, the through holes 205 are annularly equidistantly arranged, the air bag rings 201 are inflated through the air inlet 202 by opening the sealing piston 203, the air bag rings 204 are filled with air through the through holes 205, the air bag rings 201 are further in contact with the inner wall of a ureter, the ureter is expanded, then the sealing piston 203 is plugged, when the ureter is taken out, the sealing piston 203 is opened, the air in the air bag rings 204 and the air bag rings 204 are respectively discharged from the air inlet 202 and the through holes 205, so that the air bag rings 201 are contracted, the ureter bracket body 1 is conveniently taken out, and the ureter bracket body 1 is prevented from being damaged to different degrees;

the ureteral stent body 1 comprises a catheter 101, a first bending tube 102 and a second bending tube 103, wherein the first bending tube 102 and the second bending tube 103 are respectively and fixedly connected to two ends of the catheter 101, a taking-out mechanism 2 is arranged at the catheter 101, a bending part 3 is arranged on the catheter 101, a guide wire placing cavity 4 is formed in the central position inside the catheter 101, a guide wire body 5 is arranged in the guide wire placing cavity 4, the guide wire body 5 penetrates through the catheter 101, medical staff firstly smears paraffin oil on the surface of the catheter 101 to be better inserted into the urethra of a patient, the ureteral stent body 101 is pushed into the ureter by the guide wire body 5, the catheter 101 is left in the ureter, the first bending tube 102 is left in the bladder, the second bending tube 103 is placed in a renal pelvis, and the head of the catheter 1 can be bent by arranging the bending part 3, so that the operation of a doctor is convenient;

the catheter 101 is further provided with an anti-backflow mechanism 6, the anti-backflow mechanism 6 comprises a liquid inlet cavity 601 and a negative pressure suction cavity 602, the liquid inlet cavity 601 is arranged below the guide wire placement cavity 4, the negative pressure suction cavity 602 is arranged above the guide wire placement cavity 4, the catheter 101 is provided with a liquid outlet 603, the liquid outlet 603 is communicated with the inside of the liquid inlet cavity 601, the catheter 101 is provided with a negative pressure suction port 604, the negative pressure suction port 604 is communicated with the inside of the negative pressure suction cavity 602, the catheter 101 is fixedly connected with a liquid inlet pipe 605 and a negative pressure suction pipe 606, the liquid inlet pipe 605 is communicated with the liquid inlet cavity 601, the negative pressure suction pipe 606 is communicated with the inside of the negative pressure suction cavity 602, by arranging the anti-backflow mechanism 6, medical staff is connected the negative pressure suction pipe 606 with an external negative pressure suction device, and pouring flushing liquid into the ureter through the liquid inlet pipe 605, flushing liquid can conveniently flow into the ureter from the liquid outlet 603 through the liquid inlet pipe 605, and negative pressure suction devices outside the liquid suction device can conveniently suck liquid in a patient body (including but not limited to liquid and urine) and the liquid suction pipe 606, and the negative pressure liquid suction liquid and urine can be prevented from flowing into the negative pressure suction cavity 602 and finally from flowing out of the negative pressure suction pipe 602.

Specifically, this three-edged calculus removal prevents working process or theory of operation of conveniently taking out formula ureteral stent against current does: medical staff firstly smears paraffin oil on the surface of a catheter 101 to be better inserted into the urethra of a patient, pushes a ureteral stent body 1 into the patient ureter by utilizing a guide wire body 5, enables the catheter 101 to be remained in the ureter, enables a first bending tube 102 to be remained in the bladder, enables a second bending tube 103 to be placed in a renal pelvis, enables the head of the catheter 101 to be bent by arranging a bending part 3, is convenient for a doctor to operate, enables the inflation tube 201 to be inflated by opening a sealing piston 203 and restarting the inflation tube 201 through an air inlet 202, and fills a plurality of air sac rings 204 with gas through a through hole 205, further enables the inflation tube 201 to be in contact with the inner wall of the ureter, enables the ureter to be expanded, then plugs a sealing piston 203, opens the sealing piston 203 when the ureter is to be taken, and discharges the gas in the inflation tube 201 and the air sac rings 204 from the air inlet 202 and the through hole 205 respectively, so that the inflation tube 201 is convenient to take out the ureteral stent body 1, and the damage to the patient is avoided to different degrees.

Through setting up anti-reflux mechanism 6, medical personnel are connected negative pressure suction tube 606 and outside negative pressure suction equipment to pour the flushing fluid into through feed liquor pipeline 605, the flushing fluid flows into in the ureter along feed liquor chamber 601 from liquid outlet 603 through feed liquor pipeline 605, can be convenient for wash the affected part, and attracts patient's internal hydrops (including but not limited to flushing fluid and urine) through outside negative pressure suction equipment, make flushing fluid and urine get into negative pressure suction chamber 602 through negative pressure suction port 604, finally by negative pressure suction tube 606 discharge, effectually prevented the backward flow of flushing fluid and urine.

Claims (10)

1. The triangular calculus removal anti-reflux convenient-to-take-out ureteral stent is characterized by comprising a ureteral stent body (1);

the taking-out mechanism (2), the taking-out mechanism (2) is arranged on the outer wall of the ureteral stent body (1), and the taking-out mechanism (2) comprises

The air charging tube (201) is fixedly connected to the outer wall of the ureteral stent body (1);

the air inlet (202) is formed in the air charging pipe (201);

-a sealing piston (203), the sealing piston (203) being arranged at the air inlet (202);

the air bag ring (204), the air bag ring (204) is fixedly connected between the air inflation tube (201) and the ureteral stent body (1);

and the through hole (205) is formed in the air bag ring (204).

2. The ureteral stent with the three-edged stone removal and backflow prevention functions and convenient removal according to claim 1, wherein a plurality of air bag rings (204) are arranged on the ureteral stent body (1) at equal intervals.

3. The triangular calculus removal anti-reflux convenient ureteral stent according to claim 2, wherein a plurality of through holes (205) are formed, and the plurality of through holes (205) are arranged in an annular equidistant manner.

4. A three-edged calculus removal anti-reflux convenient extraction ureteral stent according to claim 3, characterized in that the ureteral stent body (1) comprises a catheter (101), a first bending tube (102) and a second bending tube (103), the first bending tube (102) and the second bending tube (103) are respectively and fixedly connected at two ends of the catheter (101), and the extraction mechanism (2) is arranged at the catheter (101).

5. The triangular calculus removal anti-reflux convenient extraction ureteral stent according to claim 4, wherein the catheter (101) is provided with a bending part (3).

6. The three-edged calculus removal anti-reflux convenient-to-take-out ureteral stent according to claim 5, wherein a guide wire placement cavity (4) is formed in the central position inside the catheter (101), a guide wire body (5) is arranged in the guide wire placement cavity (4), and the guide wire body (5) penetrates through the catheter (101).

7. The three-edged calculus removal anti-reflux convenient-taking-out ureteral stent according to claim 6, characterized in that an anti-reflux mechanism (6) is further arranged on the catheter (101), the anti-reflux mechanism (6) comprises a liquid inlet cavity (601) and a negative pressure suction cavity (602), the liquid inlet cavity (601) is arranged below the guide wire placement cavity (4), and the negative pressure suction cavity (602) is arranged above the guide wire placement cavity (4).

8. The three-edged calculus removal anti-reflux convenient-to-take-out ureteral stent according to claim 7, wherein a liquid outlet (603) is formed in the catheter (101), and the liquid outlet (603) is communicated with the inside of the liquid inlet cavity (601).

9. The three-edged calculus removal anti-reflux convenient-to-take-out ureteral stent according to claim 8, wherein a negative pressure suction port (604) is formed in the catheter (101), and the negative pressure suction port (604) is communicated with the inside of the negative pressure suction cavity (602).

10. The three-edged calculus removal anti-reflux convenient-to-take-out ureteral stent according to claim 9, wherein a liquid inlet pipe (605) and a negative pressure suction pipe (606) are fixedly connected to the catheter (101), the liquid inlet pipe (605) is communicated with the liquid inlet cavity (601), and the negative pressure suction pipe (606) is communicated with the interior of the negative pressure suction cavity (602).