CN114272464B

CN114272464B - Y-type bladder irrigation pipeline intelligent control device

Info

Publication number: CN114272464B
Application number: CN202210121258.1A
Authority: CN
Inventors: 莫宏; 赖力; 税宇萍; 李蓉
Original assignee: West China Hospital of Sichuan University
Current assignee: West China Hospital of Sichuan University
Priority date: 2022-02-09
Filing date: 2022-02-09
Publication date: 2023-11-14
Anticipated expiration: 2042-02-09
Also published as: CN114272464A

Abstract

The application discloses an intelligent control device for a Y-shaped bladder irrigation pipeline, which belongs to the technical field of medical equipment and solves the problems that a Y-shaped irrigation pipeline cannot be matched in the prior art and automatic switching of flushing liquid at two ends cannot be realized.

Description

Y-type bladder irrigation pipeline intelligent control device

Technical Field

The application belongs to the technical field of medical appliances, and particularly relates to an intelligent control device for a Y-type bladder irrigation pipeline.

Background

Bladder irrigation is an important treatment for certain bladder diseases, such as cystitis, bladder tumor, bladder stone, prostatic hyperplasia and other lower urinary tract diseases before and after operation. Through continuous flushing of the bladder, blood exuded in the bladder can be effectively diluted, the blood is prevented from coagulating and blocking the urethra, the smooth urinary tract is maintained, pain and irritation are relieved, infection is prevented, and the recovery of bladder function is facilitated; at the same time, the flushing with antibiotic solution can be used to treat bacterial cystitis and also to clear blood clots, bacteria, etc. from the bladder.

In the prior art, under the scene of using Y type bladder to wash the pipeline, the pipe diameter size of present infusion draw-in groove unable matching pipeline just only as alarm device, can't realize the automatic switch-over of the flushing fluid that Y type washes pipeline both ends and connect.

Disclosure of Invention

Aiming at the problems that a Y-shaped flushing pipeline cannot be matched in the prior art and automatic switching of flushing liquid at two ends cannot be realized, the application provides an intelligent control device for a Y-shaped bladder flushing pipeline, which aims at: the Y-shaped flushing pipeline is monitored and automatically controlled.

The technical scheme adopted by the application is as follows:

the utility model provides a Y type bladder washes pipeline intelligent control device, includes the body, be provided with two pipeline centre gripping passageway on the body, the inside of body is fixedly provided with liquid level monitoring system, pipeline closed system and pressure detection system, liquid level monitoring system, pipeline closed system and pressure detection system all are connected with the main control board.

By adopting the scheme, when the liquid level monitoring system is used, the Y-shaped flushing pipelines are respectively installed in the pipeline clamping channels and fixed, the liquid level monitoring system in the body can detect the liquid level of the Y-shaped flushing pipelines in real time, the pipeline closing system is installed at the corresponding position of the Y-shaped flushing pipelines, the pressure detection system is used for detecting the pressure of the U-shaped flushing pipelines, the three systems are all connected with the main control board, the control of the Y-shaped pipelines can be self-defined by the main control board, the three systems are divided into simultaneous opening and single opening, when the two Y-shaped flushing pipelines are simultaneously opened, when the single opening is carried out, only one side of the flushing pipelines is opened, and when the liquid level monitoring system monitors that the liquid level of the side flushing pipelines is insufficient, the flushing pipelines on the side are closed, and the flushing pipelines on the other side are opened.

The liquid level monitoring system comprises a laser emitter, one side, far away from the laser emitter, of the pipeline clamping channel is fixedly provided with a laser receiver, the laser receiver corresponds to the position of the laser emitter, the laser emitter and the laser receiver are both connected with a second control board, and the second control board is connected with the main control board.

By adopting the scheme, when the liquid level is reduced below the laser height of the laser transmitter, the laser receiver can sense the change and send a blocking signal to the main control board, the main control board can control the pipeline closing system to close the flushing pipeline at the side, so that air is prevented from entering the body of a patient, and through the structure, the liquid level monitoring can be carried out on the flushing pipelines at the two sides in real time, and medical accidents caused by careless negligence are prevented.

The pipeline closing system comprises a servo motor, and an output shaft of the servo motor is fixedly connected with a clamping piece.

By adopting the scheme, the clamping piece can rotate by taking the motor output shaft as the center of a circle under the driving of the servo motor, the flushing pipeline can be clamped in the rotating process, and particularly the flushing pipeline is blocked by the pressure of the pipeline clamping channel and the clamping piece.

The clamping piece comprises a c-shaped frame, two ends of the c-shaped frame are rotatably connected with a roll shaft, an opening is formed in the pipeline clamping channel, and the opening is matched with the rotating path of the roll shaft.

By adopting the scheme, the two ends of the c-shaped frame can be rotationally connected with the roll shafts, the roll shafts can slide when the flushing pipeline is clamped and closed, and larger friction force is avoided when the flushing pipeline is closed, so that the condition that the pipeline is lifted upwards occurs.

The pressure detection system comprises a third control board, the third control board is fixedly connected with a pressure detector, the third control board is connected with a main control board, and the main control board is connected with a display screen.

By adopting the scheme, the pressure detection system can send the pressure of the flushing pipeline to the display screen in real time through the third control panel and the main control panel, and medical staff can adjust the height of the infusion bag through the pressure value displayed on the display screen, so that the medical staff can conveniently adjust the infusion bag.

The main control board is connected with a signal transmitting module, the signal transmitting module is connected with a cloud server, a two-dimensional code is arranged outside the main body, and information of the two-dimensional code points to the cloud server.

By adopting the scheme, when transfusion starts, family members or medical staff of patients can scan the two-dimension code to carry out flushing monitoring on the intelligent terminal, in the flushing process, if the medical staff or family members take care of the condition of the transfusion bag for a long time, fatigue of staff can occur and careless condition is generated, the two-dimension code can monitor the flushing condition of the transfusion bag in real time through the intelligent terminal, and after flushing is finished, the trapezoidal caretaker can realize reducing the working intensity of the caretaker and simultaneously improve the real-time performance of nursing.

The inside of pipeline clamping channel is fixedly provided with the grip block.

By adopting the scheme, the flushing pipeline can be fixed in the pipeline clamping channel through the clamping block, the device does not need to be hung on the infusion support, and the applicability of the device is optimized.

The lateral part of pipeline centre gripping passageway is fixed and is provided with the zone of heating, the inside of zone of heating is fixed and is provided with the heating wire, the heating wire is connected the main control board.

By adopting the scheme, the heating layer can be used for carrying out heat preservation and heating on the flushing liquid, so that the pain of patients during flushing caused by the temperature of the flushing liquid is avoided.

In summary, due to the adoption of the technical scheme, the beneficial effects of the application are as follows:

1. when the automatic control device is used, the Y-shaped flushing pipelines are respectively installed in the pipeline clamping channels and fixed, the liquid level monitoring system in the body can detect the liquid level of the Y-shaped flushing pipelines in real time, the pipeline closing system is installed at the corresponding position of the Y-shaped flushing pipelines, the pressure detection system is used for detecting the pressure of the U-shaped flushing pipelines, the three systems are all connected with the main control board, the control of the Y-shaped pipelines can be customized by a user through the main control board, the three systems are divided into simultaneous opening and single opening, when the two Y-shaped flushing pipelines are simultaneously opened, when the single opening is carried out, only one side of flushing pipelines is opened, and when the liquid level monitoring system detects that the liquid level of the side of the flushing pipeline is insufficient, the flushing pipelines on the side of the flushing pipelines are closed, and the flushing pipelines on the other side of the flushing pipelines are opened.

2. When the liquid level reduces below the laser height of the laser transmitter, the laser receiver can sense the change and send a blocking signal to the main control board, the main control board can control the pipeline closing system to close the flushing pipeline at the side, so that air is prevented from entering a patient body, and through the structure, the flushing pipelines at the two sides can be monitored in real time, and medical accidents caused by careless negligence are prevented.

3. The clamping piece can rotate by taking the output shaft of the motor as the center of a circle under the driving of the servo motor, the flushing pipeline can be clamped in the rotating process, and particularly the flushing pipeline is blocked by the pressure of the pipeline clamping channel and the clamping piece.

4. The two ends of the c-shaped frame can be rotationally connected with the roll shafts, the roll shafts can slide when the flushing pipeline is clamped and closed, and large friction force is avoided when the flushing pipeline is closed, so that the condition that the pipeline is lifted upwards occurs.

5. The pressure detection system can send the pressure of the flushing pipeline to the display screen in real time through the third control board and the main control board, and medical staff can adjust the height of the infusion bag through the pressure value displayed on the display screen, so that the medical staff can conveniently adjust the infusion bag.

6. At the infusion beginning time, patient's family members or medical personnel accessible scanning two-dimensional code carry out the washing control on intelligent terminal, and in the washing in-process, medical personnel or family members if the condition of infusion bag is attended for a long time, the tiredness of personnel probably takes place to produce the condition of carelessly, this two-dimensional code can come the washing condition of real-time supervision infusion bag through intelligent terminal to after washing, trapezoidal nurse personnel, through this kind of scheme, realized reducing nurse personnel's working strength, and improve the real-time of nurse simultaneously.

7. The flushing pipeline can be fixed in the pipeline clamping channel through the clamping block, the device does not need to be hung on the infusion support, and the applicability of the device is optimized.

8. The heating layer can be used for carrying out heat preservation and heating on the flushing liquid, so that the pain of patients during flushing caused by the temperature of the flushing liquid is avoided.

Drawings

The application will now be described by way of example and with reference to the accompanying drawings in which:

FIG. 1 is a schematic view of the main view internal structure of the present application;

FIG. 2 is a schematic view of the main view structure of the present application;

fig. 3 is a schematic view of the structure of the clamping member of the present application.

Reference numerals: 1-a body; 2-a laser emitter; 3-a pipeline clamping channel; 4-clamping blocks; a 5-signal receiver; 6-a second control board; 7-flushing the pipeline; 8-heating layer; 9-a servo motor; 10-clamping piece; 11-a pressure detector; 12-a third control board; 13-c frame; 14-roll shafts; 15-a main control board; 16-a signal transmitting module; 17-two-dimensional codes; 18-display screen.

Detailed Description

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

The present application will be described in detail with reference to fig. 1 and 3.

Embodiment one:

the utility model provides a Y type bladder washes pipeline intelligent control device, includes body 1, be provided with two pipeline centre gripping passageway 3 on the body 1, the inside of body 1 is fixedly provided with liquid level monitoring system, pipeline closed system and pressure detection system, liquid level monitoring system, pipeline closed system and pressure detection system all are connected with main control board 15.

The liquid level monitoring system comprises a laser emitter 2, a laser receiver 5 is fixedly arranged on one side, far away from the laser emitter 2, of the pipeline clamping channel 3, the laser receiver 5 corresponds to the position of the laser emitter 2, the laser emitter 2 and the laser receiver 5 are both connected with a second control board 6, and the second control board 6 is connected with a main control board 15.

The pipeline closing system comprises a servo motor 9, and an output shaft of the servo motor 9 is fixedly connected with a clamping piece 10.

The clamping piece 10 comprises a c-shaped frame 13, two ends of the c-shaped frame 13 are rotatably connected with a roll shaft 14, an opening is formed in the pipeline clamping channel 3, and the opening is matched with a rotation path of the roll shaft 14.

The pressure detection system comprises a third control board 12, the third control board 12 is fixedly connected with a pressure detector 11, the third control board is connected with a main control board 15, and the main control board 15 is connected with a display screen 16.

The main control board 15 is connected with a signal transmitting module 16, the signal transmitting module 16 is connected with a cloud server, a two-dimensional code 17 is arranged outside the body 1, and information of the two-dimensional code 17 points to the cloud server.

The inside of the pipeline clamping channel 3 is fixedly provided with a clamping block 4.

The lateral part of pipeline centre gripping passageway 3 is fixed and is provided with zone of heating 8, the inside of zone of heating 8 is fixed and is provided with the heating wire, the heating wire is connected main control board 15.

In the above embodiment, when in use, two pipelines in the Y-shaped flushing pipeline are respectively installed in the pipeline clamping channel 3, the clamping block 4 and the pressure detector 11 in the pipeline clamping channel 3 can fix the flushing pipeline 7 in the pipeline clamping channel 3, and before flushing, the device can be preset by the control board 15, and the device is divided into simultaneously opened or singly opened, when simultaneously opened: in this embodiment, the liquid level monitoring system includes a laser emitter 2 and a laser receiver 5, where the laser emitter 2 and the laser receiver 5 are respectively provided with two through holes corresponding to the positions of the pipeline clamping channel 3, the pipeline clamping channel 3 is provided with a through hole matched with the laser emitter 2 and the laser receiver 5, the through hole is used for allowing laser to pass through, when the liquid flows into the flushing pipeline 7, the laser receiver 5 can sense the position deviation of the laser due to the refraction principle of the light in the liquid, and uses the position deviation as a sign for starting flushing, when the laser receiver 5 senses the deviation of the laser for the second time, it is indicated that the liquid in the flushing pipeline 7 has fallen below the laser emitter 2 and the laser receiver 5, at this time, since the set mode is simultaneously started, the master control board controls the two servo motors 9 to rotate and clamps the clamping component 10 to clamp the flushing pipeline 7, in this embodiment, an opening is formed on the side wall of the pipeline clamping channel 3, and the opening is in a bar shape, and the size and the position are matched with the movement path of the clamping component 10.

The clamping piece 10 comprises a c-shaped frame 13, a pair of through holes corresponding to the positions are formed in the c-shaped frame 13, an output shaft of the servo motor 9 is fixedly connected with the c-shaped frame 13 through the through holes, the specific structure of the clamping piece is shown in fig. 3, two ends of the c-shaped frame 13 are rotatably connected with a roll shaft 14, the roll shaft 14 is arranged at a contact position of the clamping piece 10 and the flushing pipeline 7 in the process of rotating the servo motor 9 and pressing the flushing pipeline 7 by the clamping piece 10, and the roll shaft 14 can maximally reduce displacement of the flushing pipeline 7 in a pipeline clamping channel 3 in the clamping process.

In the single open mode, the main control board 15 controls the clamping piece 10 on one side to clamp the flushing pipeline, the flushing pipeline is opened on the other side, when the liquid level of the opened flushing pipeline is reduced below the laser emitted by the laser emitter 2, the flushing pipeline 7 with insufficient liquid medicine is clamped, and the flushing pipeline 7 on the other side is opened to continue flushing operation, so that uninterrupted flushing of the flushing liquid medicine is ensured by the scheme.

The pressure detector 11 is arranged in the body 1, a second opening is formed in the pipeline clamping channel 3, the pressure detector 11 is in contact with the flushing pipeline 7 through the second opening, the pressure of the flushing pipeline 7 is detected in real time, detection data of the pressure detector is transmitted to the display screen 18 through the third control board 12 and the main control board 15, and medical staff can adjust the transfusion height of the medicine bag through the display screen 18.

The main control board 15 is connected with a signal transmitting module 16, and the signal transmitting module 16 can send pressure detection data and liquid level data of the flushing pipeline 7 to the cloud server, so that after a user scans a two-dimensional code on the surface of the body 1, the user can directly connect into the cloud server to monitor ears in a flushing process.

The above examples merely illustrate specific embodiments of the application, which are described in more detail and are not to be construed as limiting the scope of the application. It should be noted that it is possible for a person skilled in the art to make several variants and modifications without departing from the technical idea of the application, which fall within the scope of protection of the application.

Claims

1. The Y-type bladder irrigation pipeline intelligent control device is characterized by comprising a body (1), wherein two pipeline clamping channels (3) are arranged on the body (1), a liquid level monitoring system, a pipeline closing system and a pressure detection system are fixedly arranged in the body (1), and the liquid level monitoring system, the pipeline closing system and the pressure detection system are all connected with a main control board (15); the pipeline closing system comprises a servo motor (9), and an output shaft of the servo motor (9) is fixedly connected with a clamping piece (10); the clamping piece (10) comprises a c-shaped frame (13), two ends of the c-shaped frame (13) are rotatably connected with a roll shaft (14), an opening is formed in the pipeline clamping channel (3), and the opening is matched with a rotating path of the roll shaft (14); the inside of pipeline centre gripping passageway (3) is fixed and is provided with grip block (4).

2. The intelligent control device for the Y-shaped bladder irrigation pipeline according to claim 1, wherein the liquid level monitoring system comprises a laser emitter (2), a laser receiver (5) is fixedly arranged on one side, far away from the laser emitter (2), of the pipeline clamping channel (3), the laser receiver (5) corresponds to the position of the laser emitter (2), the laser emitter (2) and the laser receiver (5) are both connected with a second control board (6), and the second control board (6) is connected with the main control board (15).

3. The intelligent control device for the Y-type bladder irrigation pipeline according to claim 1, wherein the pressure detection system comprises a third control board (12), the third control board (12) is fixedly connected with a pressure detector (11), the third control board (12) is connected with a main control board (15), and the main control board (15) is connected with a display screen (18).

4. The intelligent control device for the Y-type bladder irrigation pipeline according to claim 1, wherein the main control board (15) is connected with a signal transmitting module (16), the signal transmitting module (16) is connected with a cloud server, a two-dimensional code (17) is arranged outside the body (1), and information of the two-dimensional code (17) points to the cloud server.

5. The intelligent control device for the Y-type bladder irrigation pipeline according to claim 1, wherein a heating layer (8) is fixedly arranged on the side part of the pipeline clamping channel (3), an electric heating wire is fixedly arranged in the heating layer (8), and the electric heating wire is connected with the main control board (15).