CN211751796U - Intelligent intestinal peristalsis adjusting system - Google Patents

Abstract

The utility model discloses an intestinal wriggling intelligent regulation system, it is including implanting functional unit and external functional unit. The implantation function part comprises an intestinal peristalsis detection module, a neural connector, an implantation function control module and a built-in power supply module. The external function part comprises a heart rate detection module, a display module, an external function control module and an external power supply module; the utility model provides an intestinal wriggling intelligent regulation system's structural design is ingenious, reasonable, can real-time supervision and control intestinal wriggling rhythm, arouse functional dyspepsia and irritable bowel syndrome to gastrointestinal motility dysfunction and play good treatment, improve clinical treatment to gastrointestinal motility dysfunction greatly, alleviate patient's misery, avoid the toxic and side effect and the harm of liver and kidney function that long-term drug therapy leads to, reduce the medical expenses of this type of patient and society simultaneously, in addition, the utility model has the advantages of simple and compact overall structure, easily realize, the cost is lower, does benefit to extensive popularization and application.

Description

Intelligent intestinal peristalsis adjusting system

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to intestinal wriggling intelligent regulation system.

Background

Gastrointestinal motility dysfunction is the main cause and pathophysiology basis of functional gastrointestinal diseases, can cause functional dyspepsia, irritable bowel syndrome and the like, and has clinical manifestations of abdominal pain, diarrhea, constipation, abdominal distension, incomplete defecation, defecation embarrassment and the like, and many patients are accompanied by insomnia, anxiety, depression, headache and inattention, the life quality and the work and study efficiency of the patients are seriously affected, and the pain that the patients are difficult to speak is brought.

At present, the clinical treatment of gastrointestinal motility dysfunction lacks effective medicines and means, mainly takes symptomatic medicine treatment as main treatment, but the curative effect is not exact. Some patients have poor drug control effect, and some patients can relieve symptoms to a certain extent, but symptoms relapse quickly after the drug is stopped, so that repeated treatment constitutes quite high medical cost, and the drug control effect becomes an important medical care problem in modern society gradually.

Therefore, the development of an intelligent intestinal peristalsis regulating system which can monitor and control the rhythm of intestinal peristalsis and has good therapeutic effect on functional dyspepsia and irritable bowel syndrome caused by gastrointestinal motility dysfunction is needed.

SUMMERY OF THE UTILITY MODEL

To the above, the utility model aims to provide a structural design is ingenious, reasonable, can monitor and adjust the wriggling rhythm of intestinal, and adjusts effectual intestinal wriggling intelligent regulation system.

The utility model discloses a realize above-mentioned purpose, the technical scheme that provides is:

an intelligent regulation system for intestinal peristalsis comprises an implanted functional part and an external functional part connected with the implanted functional part through a wireless network.

The implantation function part comprises an intestinal peristalsis detection module, a neural connector, an implantation function control module and a built-in power supply module. Wherein the peristalsis detection module is used for detecting the peristalsis of the implanted person; the nerve connector is used for connecting nerve fibers needing stimulation of an implanted person; the implantation function control module is used for receiving the intestinal peristalsis signals fed back by the intestinal peristalsis detection module and feeding back the signals to the external function part through a wireless network; the heart rate signal is combined to carry out comprehensive operation processing so as to generate a corresponding analog electric signal to be conducted to the nerve connector, so that nerve electric stimulation is generated; the built-in power supply module is used for providing a working power supply for the intestinal peristalsis detection module and the function control module.

The external function part comprises a heart rate detection module, a display module, an external function control module and an external power supply module; the heart rate detection module is used for detecting the heart rate of the implanted person; the display module is used for displaying the intestinal peristalsis, the heart rate and related information; the external function control module is used for receiving the peristalsis data fed back by the implanted function control module and the heart rate data fed back by the heart rate detection module, displaying the peristalsis data and the heart rate data through the display module, and feeding the heart rate data back to the implanted function control module of the implanted function part through a wireless network; the external power supply module is used for providing a working power supply for the heart rate detection module, the display module and the external function control module.

As a preferred scheme of the utility model, the implantation function part further comprises a casing, a fixing part is arranged on the casing, the implantation function control module, the built-in power supply module and the built-in power supply module are arranged in the casing, and the peristalsis detection module is positioned outside the casing and connected with the implantation function control module through a connecting wire; one end of the nerve connector extends into the shell and is connected with the implantation function control module, and the other end of the nerve connector is connected with nerve fibers to be stimulated by an implanted person.

As a preferred scheme of the utility model, implant function control module group including implant control circuit and respectively with should implant digital analog conversion circuit, analog-to-digital conversion circuit and the built-in wireless transmitting and receiving circuit that control circuit is connected. The analog-to-digital conversion circuit converts the intestinal peristalsis signals obtained by the intestinal peristalsis detection module into digital information and sends the digital information to the implantation control circuit; the implanted control circuit is communicated with the external functional part through the built-in wireless transmitting and receiving circuit to obtain heart rate data, and meanwhile, comprehensive comparison operation is carried out according to the heart rate data, the intestinal peristalsis data and preset data to obtain corresponding stimulation signals and send the stimulation signals to the digital-to-analog conversion circuit; the digital-to-analog conversion circuit transmits a control signal sent by the implantation control circuit to the neural connector as an analog electric signal so as to generate neural electric stimulation;

as a preferred scheme of the utility model, the fixed part is located on the lateral wall of casing, the middle part position of this fixed part is equipped with the fluting and makes the corresponding two stationary vanes that form in its both sides, is equipped with a fixed orifices on this stationary vane at least.

As an optimal scheme of the utility model, the enterokinesia detects the module and includes gasbag circle and sets up the baroceptor in this gasbag circle, and a plurality of gasbag circles are arranged the cover in proper order and are established on the intestinal that needs were listened. The air bag ring is composed of a flexible cavity body with good tightness, a certain amount of gas is contained in the air bag ring, the intestinal tract causes the air pressure change of the air bag ring at different positions in the peristalsis process, and the air pressure sensor in the air bag ring sends the pressure value to the analog-digital conversion circuit.

As an optimized scheme of the utility model, the neural connector includes flexible electrically conductive core and the flexible overcoat of cladding on this flexible electrically conductive core. The flexible conductive core is made of flexible conductive material, is a carrier for stimulating current and has two end parts; one end of the analog-to-digital conversion circuit is connected with the analog-to-digital conversion circuit, and the other end of the analog-to-digital conversion circuit is connected with the nerve fiber to be stimulated.

As an optimized scheme of the utility model, built-in power module includes power control circuit and the battery that is connected with this power control circuit.

As a preferred scheme of the utility model, built-in power module still include with the wireless receiving coil that charges that power control circuit is connected.

As a preferred scheme of the utility model, external functional unit still includes cyclic annular body, heart rate detection module, display module assembly, external function control module group and external power module set up on this cyclic annular body. The annular body can be a ring or a bracelet and the like.

As an optimized scheme of the utility model, wireless network is WIFI network, bluetooth network or infrared network.

The utility model has the advantages that: the utility model provides an intestinal wriggling intelligent regulation system's structural design is ingenious, reasonable, can real-time supervision and control intestinal wriggling rhythm, arouse functional dyspepsia and irritable bowel syndrome to gastrointestinal motility dysfunction and play good treatment, improve clinical treatment to gastrointestinal motility dysfunction greatly, alleviate patient's misery, avoid the toxic and side effect and the harm of liver and kidney function that long-term drug therapy leads to, reduce the medical expenses of this type of patient and society simultaneously, in addition, the utility model has the advantages of simple and compact overall structure, easily realize, the cost is lower, does benefit to extensive popularization and application.

Drawings

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

Fig. 2 is a schematic structural view of the functional part implanted in the present invention.

Fig. 3 is a schematic structural diagram of the middle housing of the present invention.

Fig. 4 is a schematic structural diagram of the middle external functional part of the present invention.

Fig. 5 is a block diagram illustrating the modules of the present invention.

Detailed Description

Example (b): referring to fig. 1 to 5, an embodiment of the present invention provides an intelligent regulation system for intestinal peristalsis, which includes an implantation function portion 1 and an external function portion 2 connected to the implantation function portion 1 through a wireless network.

Specifically, the implantation function part 1 comprises an intestinal peristalsis detection module 11, a neural connector 12, an implantation function control module and a built-in power supply module. Wherein the peristalsis detection module 11 is used for detecting the peristalsis of the implanted person; the nerve connecting body 12 is used for connecting nerve fibers needing stimulation of an implanted person; the implantation function control module is used for receiving the intestinal peristalsis signals fed back by the intestinal peristalsis detection module 11 and feeding back the signals to the external function part 2 through a wireless network; and the heart rate signal is combined to carry out comprehensive operation processing so as to generate a corresponding analog electric signal to be conducted to the neural connector 12 so as to generate neural electric stimulation; the built-in power supply module is used for providing a working power supply for the intestinal peristalsis detection module 11 and the function control module.

Preferably, the implantation function part 1 further comprises a housing 13, the housing 13 is provided with a fixing portion 14, referring to fig. 3, the fixing portion 14 is located on a side wall of the housing 13, a slot 141 is formed in a middle position of the fixing portion 14 so that two fixing wings 142 are correspondingly formed on two sides of the fixing portion, and the fixing wings 142 are provided with at least one fixing hole 143, which facilitates positioning and installation. The implantation function control module, the built-in power supply module and the built-in power supply module are arranged in the shell 13, and the intestinal peristalsis detection module 11 is positioned outside the shell 13 and is connected with the implantation function control module through a connecting line; one end of the nerve connector 12 extends into the shell 13 to be connected with the implantation function control module, and the other end is connected with nerve fibers to be stimulated by the implanted person.

Referring to fig. 5, the implantation function control module includes an implantation control circuit, and a digital-to-analog conversion circuit, an analog-to-digital conversion circuit, and a built-in wireless transmitting and receiving circuit respectively connected to the implantation control circuit. The analog-to-digital conversion circuit converts the intestinal peristalsis signals obtained by the intestinal peristalsis detection module 11 into digital information and sends the digital information to the implantation control circuit; the implantation control circuit is communicated with the external functional part 2 through the built-in wireless transmitting and receiving circuit to obtain heart rate data, and meanwhile, comprehensive comparison operation is carried out according to the heart rate data, the intestinal peristalsis data and preset data to obtain corresponding stimulation signals and send the stimulation signals to the digital-to-analog conversion circuit; the digital-to-analog conversion circuit transmits a control signal sent by the implantation control circuit to the neural connector 12 as an analog electric signal so as to generate neural electric stimulation;

referring to fig. 2, the intestinal peristalsis detection module 11 includes an air bag ring and an air pressure sensor disposed in the air bag ring, and a plurality of air bag rings are sequentially arranged and sleeved on an intestinal tract to be detected. The air bag ring is composed of a flexible cavity body with good tightness, a certain amount of gas is contained in the air bag ring, the intestinal tract causes the air pressure change of the air bag ring at different positions in the peristalsis process, and the air pressure sensor in the air bag ring sends the pressure value to the analog-digital conversion circuit.

The neural connector 12 includes a flexible conductive core and a flexible protective sheath covering the flexible conductive core. The flexible conductive core is made of flexible conductive material, is a carrier for stimulating current and has two end parts; one end of the analog-to-digital conversion circuit is connected with the analog-to-digital conversion circuit, and the other end of the analog-to-digital conversion circuit is connected with the nerve fiber to be stimulated.

The built-in power supply module comprises a power supply control circuit and a battery connected with the power supply control circuit. In this embodiment, for convenient use, the built-in power supply module further includes a wireless charging receiving coil connected to the power supply control circuit, so as to realize wireless charging. The wireless charging receiving coil is coupled with the wireless charging module 3, and can receive the energy of the wireless charging coil of the wireless charging module 3; the power control circuit is used for controlling the charging and discharging condition of the battery and realizing the electric quantity of the battery, feeding the electric quantity information back to the implantation control circuit, feeding back to the external functional part 2 through the built-in wireless transmitting and receiving circuit, and displaying the electric quantity information by the display module to bring convenience to the use.

Referring to fig. 4, the external functional part 2 includes a heart rate detection module, a display module 21, an external functional control module and an external power supply module; the heart rate detection module is used for detecting the heart rate of the implanted person; the display module 21 is used for displaying the intestinal peristalsis, the heart rate and related information; the external function control module is used for receiving the peristalsis data fed back by the implanted function control module and the heart rate data fed back by the heart rate detection module, displaying the peristalsis data and the heart rate data through the display module 21, and feeding the heart rate data back to the implanted function control module of the implanted function part 1 through a wireless network; the external power supply module is used for providing a working power supply for the heart rate detection module, the display module 21 and the external function control module. The external function control module is connected and communicated with the internal wireless transmitting and receiving circuit through the external wireless transmitting and receiving circuit.

For convenient use, external functional unit 2 still includes annular body 22, heart rate detection module, display module 21, external function control module group and external power module set up on this annular body 22. The annular body 22 can be a ring or a bracelet, and the like, namely, the wrist or the finger can be directly worn, and at the moment, the heart rate of a wearer can be detected through the heart rate detection module, so that convenience is brought to use.

In addition, the external functional part 2 further comprises an alarm 23, which is arranged on the annular body 22 and sends out an alarm signal when the detected data such as the intestinal peristalsis value, the heart rate value, the battery power and the like exceed a preset threshold value.

In this embodiment, the wireless network is a bluetooth network, that is, the implanted functional part 1 and the external functional part 2 are connected and communicate with each other through the bluetooth network. In other embodiments, the wireless network may also be a WIFI network or an infrared network.

When in use, the method comprises the following specific steps:

1. carrying out general anesthesia operation on the implanted person, establishing an artificial instrument access, and ensuring that the implanted functional part 1 can enter the body of the implanted person from the artificial access;

2. the housing 13 is fixed to the vertebral lateral side by the fixing portion 14;

3. placing the intestinal peristalsis detection module 11 around the small intestine, and inflating to realize fixation;

4. connecting the flexible conductive core of the nerve connector 12 with a ganglion for controlling the peristalsis of the intestinal tract, stimulating the intestinal tract, checking the peristalsis of the intestinal tract, and if the enterokinesia is normal, finishing the debugging of the main function;

5. testing Bluetooth connection, checking the transmission effect of test data of the implanted functional part 1 and the external functional part 2, and debugging to a normal connection state;

6. suturing the skin to complete the operation;

7. the intestinal peristalsis detection module 11 is used for detecting intestinal peristalsis data, and if the intestinal peristalsis reaches more than 3 times/minute (including 3 times), the implantation function control module does not need stimulation;

if the intestinal peristalsis does not reach 3 times/minute, combining the heart rate data, and if the heart rate data is normal 60-80 times/minute, stimulating and controlling the vagus nerve node of the intestinal peristalsis to enable the intestinal peristalsis to reach 3 times/minute;

if the intestinal peristalsis does not reach 3 times/minute, the adjustment is stopped or no action is taken by combining the heart rate data, and if the heart rate is too fast, the heart rate data exceeds 80 times/minute. The utility model discloses intestinal peristalsis intelligent regulation system can cause functional dyspepsia and irritable bowel syndrome to play good treatment to gastrointestinal motility dysfunction through real-time supervision and the peristaltic rhythm of control intestinal, improves clinical treatment to gastrointestinal motility dysfunction greatly, alleviates patient's misery, avoids the toxic and side effect and the damage of liver and kidney function that long-term drug therapy leads to, reduces the medical expenses of this type of patient and society simultaneously.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation. As described in the above embodiments of the present invention, other systems obtained by using the same or similar structure are all within the protection scope of the present invention.

Claims (10)

1. An intelligent regulation system for intestinal peristalsis is characterized by comprising an implantation function part and an external function part connected with the implantation function part through a wireless network;

the implantation function part comprises

The intestinal peristalsis detection module is used for detecting the intestinal peristalsis of the implanted person;

a nerve connector for connecting nerve fibers to be stimulated by an implanted subject;

the implantation function control module is used for receiving the intestinal peristalsis signals fed back by the intestinal peristalsis detection module and feeding back the signals to the external function part through a wireless network; the heart rate signal is combined to carry out comprehensive operation processing so as to generate a corresponding analog electric signal to be conducted to the nerve connector, so that nerve electric stimulation is generated;

the built-in power supply module is used for providing a working power supply for the intestinal peristalsis detection module and the function control module;

the external functional part comprises

The heart rate detection module is used for detecting the heart rate of the implanted person;

the display module is used for displaying the intestinal peristalsis, the heart rate and related information;

the external function control module is used for receiving the peristalsis data fed back by the implanted function control module and the heart rate data fed back by the heart rate detection module, displaying the peristalsis data and the heart rate data through the display module, and feeding the heart rate data back to the implanted function control module of the implanted function part through a wireless network;

and the external power supply module is used for providing a working power supply for the heart rate detection module, the display module and the external function control module.

2. The intelligent intestinal peristalsis adjusting system according to claim 1, wherein the implantation function part further comprises a housing, a fixing part is arranged on the housing, the implantation function control module, the built-in power supply module and the built-in power supply module are arranged in the housing, and the intestinal peristalsis detection module is located outside the housing and connected with the implantation function control module through a connecting line; one end of the nerve connector extends into the shell and is connected with the implantation function control module, and the other end of the nerve connector is connected with nerve fibers to be stimulated by an implanted person.

3. The intelligent intestinal peristalsis adjusting system according to claim 1, wherein the implantation function control module comprises an implantation control circuit, and a digital-to-analog conversion circuit, an analog-to-digital conversion circuit and a built-in wireless transmitting and receiving circuit which are respectively connected with the implantation control circuit.

4. The intelligent intestinal peristalsis adjusting system according to claim 2, wherein the fixing portion is located on a side wall of the housing, a slot is formed in a middle position of the fixing portion, two fixing wings are correspondingly formed on two sides of the fixing portion, and at least one fixing hole is formed in each fixing wing.

5. The intelligent intestinal peristalsis adjusting system according to claim 1, wherein the intestinal peristalsis detection module comprises an air bag ring and an air pressure sensor arranged in the air bag ring, and the air bag rings are sequentially arranged.

6. The intelligent intestinal peristalsis regulation system of claim 1, wherein the neural connector comprises a flexible conductive core and a flexible protective sheath covering the flexible conductive core.

7. The intelligent regulation system of intestinal peristalsis according to claim 1, wherein the built-in power supply module comprises a power supply control circuit and a battery connected with the power supply control circuit.

8. The intelligent regulation system of intestinal peristalsis of claim 7, wherein the built-in power supply module further comprises a wireless charging receiving coil connected with the power supply control circuit.

9. The intelligent intestinal peristalsis adjusting system according to claim 1, wherein the external functional portion further comprises an annular body, and the heart rate detecting module, the display module, the external functional control module and the external power supply module are disposed on the annular body.

10. The intelligent regulation system of intestinal peristalsis according to any one of claims 1-9, wherein the wireless network is a WIFI network, a bluetooth network or an infrared network.

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