CN110960197A

CN110960197A - Intestinal peristalsis detection and rehabilitation auxiliary device and using method thereof

Info

Publication number: CN110960197A
Application number: CN201911397178.3A
Authority: CN
Inventors: 唐冬妮; 钟娜; 梁旭霞; 胡琼燕
Original assignee: Peoples Hospital of Guangxi Zhuang Autonomous Region
Current assignee: Peoples Hospital of Guangxi Zhuang Autonomous Region
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-04-07
Anticipated expiration: 2039-12-30
Also published as: CN110960197B

Abstract

The invention discloses an enterokinesia detection and rehabilitation auxiliary device and a using method thereof, and the device comprises a strap, a signal transmitter, a signal receiver, a signal processing device and a gravity cup; the signal transmitter is connected with the signal receiver; two ends of the signal emitter are connected with the straps; the signal receiver is connected with the signal processing device through a lead; the signal processing device is connected with the gravity cup. The invention can carry out real-time, accurate, quantitative, objective and continuous detection on the intestinal movement of the patient, can conveniently judge the relation between different intestinal signals and the intestinal function condition of the patient, and adopts the gravity cup to realize the rehabilitation training of the intestinal peristalsis of the patient while absorbing water.

Description

Intestinal peristalsis detection and rehabilitation auxiliary device and using method thereof

Technical Field

The invention belongs to the field of medical equipment and relates to an enterokinesia detection and rehabilitation auxiliary device and a using method thereof.

Background

The intestinal peristalsis is a signal of important physical characteristic conditions of the human body like the signals of respiration, heartbeat and the like. Currently, commonly used intestinal peristalsis monitoring methods mainly comprise detection methods such as auscultation of bowel sounds and intestinal endoscope monitoring, the two detection methods are low in detection accuracy and complex in operation, and a patient does not have the function of intestinal repair training while drinking water.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the enterokinesia detection and rehabilitation auxiliary device which can conveniently detect the enterokinesia of a patient and repair the intestines and the use method thereof.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an enterokinesia detection and rehabilitation auxiliary device comprises a strap, a signal emitter, a signal receiver, a signal processing device and a gravity cup; the signal transmitter is connected with the signal receiver; two ends of the signal emitter are connected with the straps; the signal receiver is connected with the signal processing device through a lead; the signal processing device is connected with the gravity cup;

the signal processing device comprises a filter, an ARM processor, a socket, a loudspeaker and a screen; a filter and an ARM processor are arranged in the signal processor; a socket, a loudspeaker and a screen are arranged outside the signal processor;

the gravity cup comprises a suction regulator, a Bluetooth receiver, a display, a suction pipe, a rubber nipple cover and a heater; a suction pipe is arranged in the gravity cup; the top end of the suction pipe is connected with the rubber nipple cover, and the bottom end of the suction pipe is connected with the suction regulator; the gravity cup is provided with a Bluetooth receiver; the gravity cup is provided with a display; the Bluetooth receiver is connected with the display; the signal transmitter is used for transmitting a continuous wave signal to a detected person, the continuous wave signal is reflected by a human body and then the signal receiver receives an echo signal, noise, a low-frequency signal and an interference signal are filtered by a filter, and only a signal wave with an enterokinesia frequency is left after filtering; the intestinal peristalsis signal wave is demodulated into a usable digital signal through the ARM processor.

The suction regulator comprises a connecting disc, a regulating disc, a connecting pipe, a water inlet hole, a positioning arrow, a scale bar II and a water inlet; the connecting disc is connected with the bottom end of the suction pipe; the bottom end of the connecting disc is provided with a connecting pipe; the bottom of the connecting pipe is provided with a water inlet hole; the adjusting disc is provided with a scale bar II and a water inlet; the adjusting disk is tightly sleeved with the connecting pipe. The connecting disc is connected with the suction pipe in a sealing manner; the adjusting disc can rotate around the connecting pipe, the water inlet and the water inlet hole in the connecting pipe can be slowly staggered by clockwise rotation to reduce water inflow, the water inlet and the water inlet hole in the connecting pipe can be slowly overlapped by anticlockwise rotation to increase water inflow, and therefore the effect of adjusting suction is achieved; and the positioning arrow points to the position of the scale bar II to display the suction force at the moment.

As a further technical improvement, the braces are provided with a magic tape I and a magic tape II; the signal transmitter and the signal receiver are arc-shaped; the inner side of the signal emitter is provided with a cotton blanket. The magic tape I and the magic tape II can tighten the straps, so that the straps are not easy to fall off, and the signal transmitters are not staggered; the signal emitter is arc-shaped, so that the signal emitter can be better attached to the abdomen of a human body, and the detection is accurate; the cotton blanket can keep the temperature of the abdomen of a patient and is not easy to catch cold.

As a further technical improvement, the side corner edge of the signal processing device is provided with an arc groove I and an arc groove II; the arc groove II is formed in the arc groove I and is wider than the arc groove I; the lower end of the arc groove II is provided with a guardrail; the arc groove II is formed in the signal processing device so as to better install the gravity cup; the signal processing device is provided with an arc groove I so as to facilitate the taking out of the gravity cup; the signal processing device is provided with a guardrail to protect the gravity cup from falling.

As a further technical improvement, the gravity cup is provided with a scale bar I; the gravity cup is provided with a cup cover; the bottom end of the gravity cup is provided with an electricity inserting groove; the plug-in slot is connected with the socket. The scale bar I is used for facilitating quantitative water adding of medical staff; the cup cover can well protect the rubber nipple;

as a further technical improvement, the middle part of the suction pipe is provided with a bellows. The bellows can be bent by 360 degrees, and a patient can conveniently absorb water at various angles.

The using method of the enterokinesia detection and rehabilitation assisting device comprises the following steps:

1. installation: the signal emitter is tightly attached to the abdominal intestine of the patient, and the braces are tightly bound.

2. Measurement: the signal transmitter transmits signals to a human body, the signal receiver receives the transmitted signals and transmits the reflected signals to the filter, and the ARM processor converts the signals filtered by the filter into digital signals.

3. And (4) prompting: when the measured enterokinesia data of the patient exceeds a normal range preset by the ARM processor, the ARM processor calculates the daily water intake quantity of the patient and the suction force required by the gravity cup to be displayed on a display screen, and simultaneously, a loudspeaker prompts medical staff to add water into the gravity cup; the water quantity information received by the Bluetooth receiver from the ARM processor is displayed in the display.

4. And (3) intestine repairing training: the medical staff takes out the gravity cup, twists out the rubber nipple cover, looks at the size of the suction value displayed on the screen, and then twists the adjusting disc of the suction regulator to the designated suction scale; adding a fixed amount of water, inserting the gravity cup back into the socket, and electrifying the heater to heat the water in the gravity cup to be slightly hot; the display in the water cup can always display the residual water amount until the patient sucks up the water;

5. and (4) ending: and (5) loosening the straps, putting the gravity cup back to the socket, turning off the power supply and finishing the detection.

6. And (3) detection period: the intestinal peristalsis is detected once a day, and a patient needs to complete the water intake required by the intestinal repair training on the same day and detect again on the next day.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention enables the signal emitter and the signal receiver to be close to the peristalsis part, and can accurately collect enterokinesia signals; the signal processing device can accurately provide the water intake amount required by the intestinal peristalsis and the suction force required by the rehabilitation training, and simultaneously has a prompt function.

2. The gravity cup can be used for repairing and training the intestines of a patient while drinking water.

3. The invention has the advantages of convenient detection, simple use and wide application range.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of a suction regulator.

Fig. 3 is a schematic plan view of a suction regulator.

Fig. 4 is a schematic plan view of the adjusting plate.

The attached drawings are as follows:

1-braces, 2-signal transmitters, 3-signal receivers, 4-signal processing devices, 5-gravity cups, 6-suction regulators, 7-Bluetooth receivers, 8-displays, 9-suction pipes, 10-bellows, 11-scale bars I, 12-rubber nipples, 13-heaters, 14-cup covers, 15-sockets, 16-guardrails, 17-arc grooves I, 18-arc grooves II, 19-horns, 20-cotton blankets, 21-magic tapes I, 22-magic tapes II, 23-plug grooves, 24-screens, 61-connecting discs, 62-adjusting discs, 63-connecting pipes, 64-water inlet holes, 65-positioning arrows, 66-scale bars II, 67-water inlets.

Detailed Description

The invention is further illustrated by the following examples.

Example 1:

an enterokinesia detection and rehabilitation auxiliary device comprises a strap 1, a signal emitter 2, a signal receiver 3, a signal processing device 4 and a gravity cup 5; the signal transmitter 2 is connected with the signal receiver 3; two ends of the signal emitter 2 are connected with the braces 1; the signal receiver 3 is connected with the signal processing device 4 through a lead; the signal processing device 4 is connected with a gravity cup 5;

the signal processing device 4 comprises a filter, an ARM processor, a socket 15, a loudspeaker 19 and a screen 24; a filter and an ARM processor are arranged in the signal processor 4; a socket, a loudspeaker 19 and a screen 24 are arranged outside the signal processor 4;

the gravity cup 5 comprises a suction regulator 6, a Bluetooth receiver 7, a display 8, a suction pipe 9, a rubber nipple cover and a heater 13; a suction pipe 9 is arranged in the gravity cup 5; the top end of the suction pipe 9 is connected with a rubber nipple cover 12, and the bottom end is connected with a suction regulator 6; the gravity cup 5 is provided with a Bluetooth receiver 7; the gravity cup 5 is provided with a display 8; the Bluetooth receiver 7 is connected with a display 8; the signal emitter 2 is used for emitting continuous wave signals to a detected person, the continuous wave signals are reflected by a human body and then received by the signal receiver 3, echo signals are filtered by the filter, and only signal waves with intestinal peristalsis frequency are left after the noise, low-frequency signals and interference signals are filtered; the intestinal peristalsis signal wave is demodulated into a usable digital signal by an ARM processor;

the suction regulator 6 comprises a connecting disc 61, a regulating disc 62, a connecting pipe 63, a water inlet hole 64, a positioning arrow 65, a scale bar II 66 and a water inlet 67; the connecting disc 61 is connected with the bottom end of the suction pipe 9; the bottom end of the connecting disc 61 is provided with a connecting pipe 63; the bottom of the connecting pipe 63 is provided with a water inlet 64; the adjusting disc 62 is provided with a scale bar II 66 and a water inlet 67; the adjusting disk 62 is tightly fitted over the connecting tube 63. The connecting disc 61 is connected with the suction pipe 9 in a sealing way; the adjusting disc 62 can rotate around the connecting pipe 63, the water inlet 67 and the water inlet 64 on the connecting pipe can be slowly staggered by clockwise rotation, the water inflow is reduced, the water inlet 67 and the water inlet 64 on the connecting pipe can be slowly overlapped by anticlockwise rotation, the water inflow is increased, and the effect of adjusting the suction force is further achieved; the position of the positioning arrow 65 pointing to the scale bar II 66 shows the suction force at this time.

The using method of the invention comprises the following steps:

installation: the signal emitter 2 is tightly attached to the abdominal intestine of the patient, and the braces 1 are tightly bound; measurement: the signal emitter 2 emits signals to a human body, the signal receiver 3 receives the emitted signals and transmits the reflected signals to the filter, and the ARM processor converts the signals filtered by the filter into digital signals; and (4) prompting: when the measured enterokinesia data of the patient exceeds a normal range preset by the ARM processor, the ARM processor calculates the daily water intake quantity of the patient and the suction quantity required by the gravity cup 5 to be displayed on the display screen 24, and meanwhile, the loudspeaker 19 prompts medical staff to add water into the gravity cup 5; the Bluetooth receiver 7 receives the water quantity information of the ARM processor and displays the water quantity information in the display 8; and (3) intestine repairing training: the medical staff takes out the gravity cup 5, twists out the rubber nipple cover 12, looks at the size of the suction value displayed on the screen 24, and then twists the adjusting disc 6 of the suction regulator to the designated suction scale; adding a fixed amount of water, inserting the gravity cup 5 back into the socket 15, and electrifying the heater 13 to heat the water in the gravity cup 5 to be slightly hot; the display 8 in the cup will show the remaining amount of water until the patient has sucked the water up. And (3) detection period: the intestinal peristalsis is detected once a day, a patient needs to complete the water intake required by the intestinal repair training on the same day, and the detection is carried out again on the next day; and (4) ending: the strap 1 is loosened, the gravity cup 5 is placed back at the socket 15, the power supply is turned off, and the detection is finished.

Example 2:

the difference from the embodiment 1 is that: the braces are provided with a magic tape I21 and a magic tape II 22; the signal emitter 2 and the signal receiver 3 are arc-shaped; the inner side of the signal emitter is provided with a cotton blanket 20. The magic tape I21 and the magic tape II 22 can tighten the braces 1, so that the braces are not easy to fall off, and the signal emitter 2 is dislocated; the signal emitter 2 is arc-shaped, so that the signal emitter can be better attached to the abdomen of a human body, and the detection is accurate; the cotton blanket 20 can keep the abdomen of the patient warm and is not easy to catch a cold.

An arc groove I17 and an arc groove II 18 are formed in the side corner edge of the signal processing device 4; the arc groove II 18 is formed in the arc groove I17 and is wider than the arc groove I17; and a guardrail 16 is arranged at the lower end of the arc groove II 18. The signal processing device 4 is provided with an arc groove II 18 for better installing the gravity cup 5; the signal processing device 4 is provided with an arc groove I17 so as to conveniently take out the gravity cup 5; the signal processing device 4 is provided with a guard rail 16 to protect the gravity cup 5 from falling.

The method of use of this example is the same as example 1.

Example 3:

the difference from the embodiment 2 is that: the gravity cup 5 is provided with a scale bar I11; the gravity cup 5 is provided with a cup cover 14; the bottom end of the gravity cup 5 is provided with an electricity inserting groove 23; the plug-in socket 23 is connected to the socket 15. The scale bar I11 is used for facilitating quantitative water adding of medical staff; the cup cover 14 can well protect the rubber nipple 12;

the middle part of the suction pipe 9 is provided with a bellows 10. The bellows 10 can be bent at 360 degrees, so that a patient can conveniently absorb water at various angles.

The method of use of this example is the same as example 2.

Claims

1. The utility model provides an enterokinesia detects and recovered auxiliary device which characterized in that: comprises a strap (1), a signal emitter (2), a signal receiver (3), a signal processing device (4) and a gravity cup (5); the signal transmitter (2) is connected with the signal receiver (3); two ends of the signal emitter (2) are connected with the straps (1); the signal receiver (3) is connected with the signal processing device (4) through a lead; the signal processing device (4) is connected with the gravity cup (5);

the signal processing device (4) comprises a filter, an ARM processor, a socket (15), a loudspeaker (19) and a screen (24); a filter and an ARM processor are arranged in the signal processor (4); a socket, a loudspeaker (19) and a screen (24) are arranged outside the signal processor (4);

the gravity cup (5) comprises a suction regulator (6), a Bluetooth receiver (7), a display (8), a suction pipe (9), a rubber nipple cover (12) and a heater (13); the upper end of the gravity cup (5) is provided with a rubber nipple cover (12), and the bottom end is provided with a heater (13); a suction pipe (9) is arranged in the gravity cup (5); the top end of the suction pipe (9) is connected with a rubber nipple cover (12), and the bottom end is connected with a suction regulator (6); the gravity cup (5) is provided with a Bluetooth receiver (7); the gravity cup (5) is provided with a display (8); the Bluetooth receiver (7) is connected with a display (8);

the suction regulator (6) comprises a connecting disc (61), a regulating disc (62), a connecting pipe (63), a water inlet hole (64), a positioning arrow (65), a scale bar II (66) and a water inlet (67); a positioning arrow (65) is marked on the surface of the connecting disc (61); the connecting disc (61) is connected with the bottom end of the suction pipe (9); the bottom end of the connecting disc (61) is provided with a connecting pipe (63); the bottom of the connecting pipe (63) is provided with a water inlet hole (64); the adjusting disc (62) is provided with a scale bar II (66) and a water inlet (67); the adjusting disk (62) is tightly sleeved with the connecting pipe (63).

2. The device for detecting peristalsis and assisting rehabilitation according to claim 1, wherein: the braces are provided with a magic tape I (21) and a magic tape II (22); the signal emitter (2) and the signal receiver (3) are arc-shaped; the inner side of the signal emitter (2) is provided with a cotton blanket (20).

3. The device for detecting peristalsis and assisting rehabilitation according to claim 1, wherein: an arc groove I (17) and an arc groove II (18) are formed in the side corner edge of the signal processing device (4); the arc groove II (18) is formed in the arc groove I (17) and is wider than the arc groove I (17); and a guardrail (16) is arranged at the lower end of the arc groove II (18).

4. The device for detecting peristalsis and assisting rehabilitation according to claim 1, wherein: the gravity cup (5) is provided with a scale bar I (11); the gravity cup (5) is provided with a cup cover (14); an electricity inserting groove (23) is formed in the bottom end of the gravity cup (5); the plug-in socket (23) can be connected with a socket (15).

5. The device for detecting peristalsis and assisting rehabilitation according to claim 1, wherein: the middle part of the suction pipe (9) is provided with a bellows (10).

6. A method for using the device for detecting and rehabilitating the intestinal peristalsis according to any one of claims 1 to 5, wherein: the method comprises the following steps:

1) installation: the signal emitter (2) is tightly attached to the abdominal intestine of the patient, and the braces (1) are tightly bound;

2) measurement: the signal emitter (2) emits signals to a human body, the signal receiver (3) receives the emitted signals and transmits the reflected signals to the filter, and the ARM processor converts the signals filtered by the filter into digital signals;

3) and (4) prompting: when the measured enterokinesia data of the patient exceeds a normal range preset by the ARM processor, the ARM processor calculates the daily water intake of the patient and the suction required by the gravity cup (5) and displays the water intake and the suction on the display screen (24), and meanwhile, the loudspeaker (19) prompts medical staff to add water into the gravity cup (5); the Bluetooth receiver (7) receives the water quantity information of the ARM processor and displays the water quantity information in the display (8);

4) and (3) intestine repairing training: the medical staff takes out the gravity cup (5), twists out the rubber nipple cover (12), looks at the size of the suction value displayed on the screen (24), and then twists the adjusting disc (6) of the suction regulator to the designated suction scale; adding a fixed amount of water, inserting the gravity cup (5) back into the socket (15), and electrifying the heater (13) to heat the water in the gravity cup (5) to be slightly hot; the display (8) in the water cup can always display the residual water amount until the patient sucks up the water;

5) and (4) ending: loosening the braces (1), putting the gravity cup (5) back to the socket (15), turning off the power supply, and finishing the detection;

6) and (3) detection period: the intestinal peristalsis is detected once a day, and a patient needs to complete the water intake required by the intestinal repair training on the same day and detect again on the next day.