CN114271959A - Medical multizone belly press device based on automatically controlled gasbag - Google Patents

Abstract

The invention discloses a medical multi-area abdomen pressing device based on an electric control air bag, which comprises a binding band, a pneumatic shunt valve assembly, an air pump device and a control module, wherein the pneumatic shunt valve assembly is positioned on the binding band and connected with the air pump device through an air pipe, an electromagnetic valve is arranged between the air pump device and the air pipe, a plurality of air bags corresponding to the abdomen pressing area are radially radiated along the pneumatic shunt valve assembly, the control module issues an instruction, the electromagnetic valve is closed, the pneumatic shunt valve assembly rotates to conduct the air pump device, the corresponding air bag and the air bag to inflate, the electromagnetic valve is opened, the pneumatic shunt valve assembly rotates to conduct the air pump device and the corresponding air bag, and the air bag exhausts air. The invention can automatically charge and discharge air according to instructions, realizes the pressing of different parts of the abdomen of a patient, and does not need manual operation.

Description

Medical multizone belly press device based on automatically controlled gasbag

Technical Field

The invention relates to the technical field of medical equipment, in particular to a medical multi-region abdomen pressing device based on an electric control air bag.

Background

In recent years, the incidence of intestinal diseases increases year by year, and the disease condition should be diagnosed as early as possible to avoid delaying the optimal treatment time. The enteroscopy is the enteroscopy which is a commonly used method for examining the intestinal diseases in clinic, the enteroscopy is to insert an enteroscopy circulation cavity into the ileocecal part through the anus, the internal conditions of the large intestine and the colon are observed from the side of the mucous membrane, and then the necessary diagnosis method for diagnosing the intestinal diseases by biopsy is matched, so that the early diagnosis rate of the intestinal diseases can be effectively improved, and the leakage diagnosis and misdiagnosis are prevented.

Currently, the enteroscopy in hospitals is more common, and an enteroscope is easy to be produced into a loop in the insertion process, so that the insertion of the enteroscope is difficult, and great pain is brought to patients. In order to enable the enteroscope to be smoothly inserted and reach the position to be finally checked, extra medical personnel are often needed to press different positions of the abdomen of a patient when the enteroscope is operated, and the position of the intestinal tract is fixed to a certain degree, so that the enteroscope can be more smoothly pushed forwards. Since the enteroscopy generally takes a long time, the manual pressing of the medical staff will seriously increase the workload of the medical staff, and the gathering of a plurality of staff will also bring inconvenience to the enteroscopy operation of the doctor.

At present, corresponding abdomen pressing devices exist for the above situations, but all have certain defects: 1. the pressing part is single, and the pressing can not be carried out on different parts of the abdomen of the patient; 2. part adopts an air bag pressurization device, and the air is inflated manually, so that the efficiency is low, the labor is not saved, and the air cannot be exhausted automatically; 3. a mechanical boosting and pressurizing device is partially adopted, so that the problems of low efficiency and labor waste exist; 4. the automatic exhaust cannot be realized, the manual operation is needed for exhaust, and the efficiency is low.

Disclosure of Invention

The invention aims to provide a medical multi-region abdomen pressing device based on an electric control air bag, which can automatically charge and discharge air according to instructions, realizes pressing of different parts of the abdomen of a patient and does not need manual operation.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a medical multizone belly press device based on automatically controlled gasbag, including the bandage, still including being located the pneumatic shunt valve subassembly on the bandage, air pump device and control module, pneumatic shunt valve subassembly passes through the trachea with the air pump device and is connected, establish the solenoid valve between air pump device and the trachea, press regional gasbag that corresponds along a plurality of and belly of pneumatic shunt valve subassembly radial radiation, control module issues the instruction, the solenoid valve is closed, pneumatic shunt valve subassembly is rotatory to be switched on air pump device and corresponding gasbag, the gasbag is aerifyd, the solenoid valve is opened, pneumatic shunt valve subassembly is rotatory to be switched on air pump device and corresponding gasbag, the gasbag exhausts.

Preferably, the bandage through-hole is established to the bandage, pneumatic flow divider subassembly includes the valve body, case and step motor, the valve body is located the bandage through-hole, the valve body is the cylinder, the business turn over gas port of being connected with the trachea is opened at the top, open the cylinder through-hole along the axis direction, the perpendicular to axis direction is opened a plurality of business turn over gas channels and is link up with the cylinder through-hole, the gas charging and discharging port and the business turn over gas channel one-to-one of gasbag are aimed at, the case is arranged in the cylinder through-hole, open the valve core top below to one side has the guide slot that is used for switching on business turn over gas port and business turn over gas channel, the case bottom links to each other with step motor.

Preferably, the bandage is made of elastic materials, and the tail end of the bandage is provided with a magic tape.

Preferably, the air bags are positioned on the inner side of the bandage and distributed around the navel position, and respectively correspond to the left lower abdomen, the left upper abdomen, the right lower abdomen, the right upper abdomen, the upper navel, the lower navel, the left middle abdomen and the right middle abdomen.

Preferably, the fixing plate is fixed in at the gasbag top, and the fixed plate outward flange is fixed with bandage through-hole inner wall, and the inward flange is fixed with the valve body outer wall, and the gasbag outer lane is made by elastic rubber.

Preferably, a hard steel plate is arranged at the bottom in the air bag, and a pressure sensor is arranged between the hard steel plate and the air bag.

Preferably, the air bag is internally tied with a tension spring, and two ends of the tension spring are respectively fixed with the top and the bottom of the air bag.

Preferably, the electromagnetic valve comprises an inlet, an outlet and an exhaust port, the inlet is connected with the air pump device, the outlet is connected with the air pipe, and the exhaust port is directly communicated with the outside.

Preferably, the control module comprises a box body, a single chip microcomputer, an air pump device, an electromagnetic valve and a storage battery are arranged in the box body, a liquid crystal screen is arranged outside the box body, one end of the air pipe is connected with the air inlet and the air outlet, the other end of the air pipe is connected with an inflation inlet arranged at the front end of the box body, the control module is connected with the pneumatic shunt valve component through a control and power supply wire, one end of the control and power supply wire is connected with a circuit connector arranged at the front end of the box body, the other end of the control and power supply wire is connected with a circuit interface arranged at the top of the valve body, and an indicator lamp is arranged at the top of the valve body.

The invention has the beneficial effects that:

1. the air bag can be automatically inflated and exhausted under the electric control, so that different areas of the abdomen of a patient can be automatically pressed, the pressing position is a position which is frequently involved in the enteroscopy process, and the pressing pressure can be adjusted along with the feeling of the patient and the enteroscopy propulsion condition.

2. The flow dividing valve, the electromagnetic valve and the air pump of the whole device are controlled by the single chip microcomputer, and the liquid crystal display is used for assisting in realizing the automatic control of the device and the visual interaction mode of touch screen operation.

3. The pneumatic flow dividing valve assembly realizes that one air pipe inflates different areas, and has the characteristics of simple function realization and small occupied space.

4. The device is used for massaging and nursing the abdomen of a patient after operation by adjusting the inflation mode of the device, namely inflating and deflating each area according to clockwise circulation so as to promote digestion and defecation.

Drawings

FIG. 1 is a schematic view of the structure of the back of the airbag of the present invention.

FIG. 2 is a schematic front view of the airbag of the present invention.

Fig. 3 is a schematic view of the structure of the inflated airbag.

FIG. 4 is a schematic structural view of a pneumatic diverter valve assembly.

FIG. 5 is a cross-sectional view of a pneumatic diverter valve assembly.

Fig. 6 is a schematic structural view of the solenoid valve in a non-energized state.

Fig. 7 is a schematic structural view of the solenoid valve in the energized state.

The labels in the figure are: the air bag type air bag comprises a binding belt 1, a magic tape 11, a pneumatic flow divider valve component 2, a valve body 21, a valve core 22, a stepping motor 23, an air inlet and outlet 24, an air inlet and outlet channel 26, a circuit interface 28, a control module 3, an air pipe 31, a control and power supply wire 32, a liquid crystal screen 33, a box body 34, an inflation inlet 341, a circuit connector 342, an air bag 4, a fixing plate 41, a tension spring 42, an electromagnetic valve 5, an inlet 51, an outlet 52, an exhaust port 53 and an indicator lamp 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The utility model provides a medical multizone belly press device based on automatically controlled gasbag, as shown in fig. 1-7, including bandage 1, be located the pneumatic flow divider subassembly 2 on bandage 1, air pump device and control module 3, pneumatic flow divider subassembly 2 connects the air pump device through trachea 31, establish the solenoid valve between air pump device and the trachea 31, press regional gasbag 4 that corresponds with the belly along a plurality of pneumatic flow divider subassembly 2 radial radiation, control module 3 issue the instruction, the solenoid valve is closed, pneumatic flow divider subassembly 3 is rotatory to be switched on the air pump device and to correspond gasbag 4, gasbag 4 aerifys, the solenoid valve is opened, pneumatic flow divider subassembly 2 is rotatory to be switched on the air pump device and to correspond gasbag 4, 4 airs exhaust of gasbag.

As a specific implementation mode, the bandage 1 is provided with a bandage through hole, the pneumatic diverter valve assembly 2 comprises a valve body 21, a valve core 22 and a stepping motor 23, the valve body 21 is arranged in the bandage through hole, the valve body 21 is a cylinder, the top of the valve body 21 is provided with an air inlet/outlet 24 connected with an air pipe 31, a cylindrical through hole is formed along the axis direction, a plurality of air inlet/outlet channels 26 are formed in the direction perpendicular to the axis direction and communicated with the cylindrical through hole, the air charging/discharging ports of the air bag 4 are aligned with the air inlet/outlet channels 26 one by one, the valve core 22 is arranged in the cylindrical through hole, a guide groove for communicating the air inlet/outlet 24 with the air inlet/outlet channel 26 is formed in the top of the valve core 22 in the oblique lower part, and the bottom of the valve core 22 is connected with the stepping motor 23.

The pneumatic flow divider valve component 2 realizes the arrangement of a single air inlet and outlet and a plurality of air inlet and outlet channels in a smaller volume, and the number of the air inlet and outlet channels can be increased or decreased according to specific conditions; and the precise angle control of the stepping motor 23 is matched to realize the high-speed switching and opening size control of the air bags in different areas (so as to control the expansion speed of the air bags).

As a specific embodiment, the strap 1 is made of a deformable and low elastic material, and the end is provided with a magic tape 11. The bandage 1 wraps the abdomen of the patient integrally, and the low-elasticity material is adopted, so that the subsequent air bag 4 is ensured to expand only in the direction of the abdomen of the patient, and the pressing effect is achieved.

In a specific embodiment, the air bag 4 is located inside the bandage 1 and distributed around the navel, corresponding to the left lower abdomen, the left upper abdomen, the right lower abdomen, the right upper abdomen, the upper navel, the lower navel, the left middle abdomen and the right middle abdomen. The "medial" side refers to the side that contacts the abdomen of the patient. The balloon 4 covers a plurality of compression areas of the abdomen, which are the more commonly involved parts during the enteroscopy.

In a specific embodiment, a fixing plate 41 is arranged on the top of the air bag 4, the outer edge of the fixing plate 41 is fixed with the inner wall of the through hole of the binding band, and the inner edge is fixed with the outer wall of the valve body 21. The air bag 4 is fixed to the inner wall of the through hole of the strap by the fixing plate 41. The outer ring of the air bag is made of elastic rubber, so that the air bag can freely stretch and retract towards the abdomen of a patient while ensuring good air tightness.

In a specific embodiment, a hard steel plate is provided at the bottom of the airbag 4, and a pressure sensor is provided between the hard steel plate and the airbag 4. So, pressure sensor and patient's belly contact, real-time supervision and transmission press the pressure degree, can calculate and compensate because the difference of pressing that the patient size difference brought, supplementary doctor promotes patient's comfort level to controlling of device. Specifically, the hard steel plate can be bonded to the airbag 4 by glue.

In a specific embodiment, a tension spring 42 is tied inside the airbag 4, and two ends of the tension spring 42 are respectively fixed with the top and the bottom of the airbag 4. When the airbag 4 is not inflated, the tension spring 42 does not provide tension; after the air bag 4 is inflated along with the inflation of the air, the tension spring 42 is stretched to provide a backward tension to the rigid steel plate, so that the air bag 4 can automatically rebound after the electromagnetic valve is opened to complete the air exhaust.

The electromagnetic valve 5 comprises an inlet 51, an outlet 52 and an exhaust port 53, wherein the inlet 51 is connected with the air pump device, the outlet 52 is connected with the air pipe 31, and the exhaust port 53 is directly communicated with the outside. The air pump means is opened and the solenoid valve 5 is closed (non-energized state), and air is supplied to the air bag 4 through the air tube 31 via the inlet 51 and the outlet 52 of the solenoid valve. The air pump device is closed, the electromagnetic valve 5 is opened (energized state), and the air in the airbag 4 is exhausted to the atmosphere through the air pipe 31, the outlet 52 of the electromagnetic valve and the exhaust port 53. The electromagnetic valve is mature prior art, and the principle and structure thereof are not described in detail.

As a specific implementation manner, the control module 3 includes a box 34, a single chip microcomputer, an air pump device, an electromagnetic valve 5 and a storage battery are disposed in the box 34, a liquid crystal display 33 is disposed outside the box 34, one end of the air tube 31 is connected to the air inlet/outlet 24, the other end is connected to an air charging port 341 disposed at the front end of the box 34, the control module 3 is connected to the pneumatic shunt valve assembly 2 through a control and power wire 32, one end of the control and power wire 32 is connected to a circuit connector 342 disposed at the front end of the box 34, and the other end is connected to a circuit interface 28 disposed at the top of the valve body 21. The liquid crystal screen 33 can display the real-time pressing force of the corresponding area of the human body; the interaction mode is carried out in a touch mode, and an operator can click the corresponding pressing area according to the requirement of the pressing part and drag the pressure bar when the device is used, so that the device is controlled to realize accurate abdomen pressing. Simultaneously, can also select different modes of pressing, for example short distance circulation is pressed, makes the gasbag fill the gassing in proper order according to around the navel clockwise to play the efficiency of massage. The air pump device is positioned in the control module 3 and is electrically connected with the singlechip. The air pump device and the control module 3 are integrated, operation is convenient, the occupied space of the control module 3 is reduced, and the control module can be connected with an external power supply to supply power to the control module 3 and the pneumatic shunt valve component 2.

As a specific embodiment, the top of the valve body 21 is provided with an indicator lamp 6. When the pressing device works, the indicator lamp 6 is on, the work is finished, and the indicator lamp 6 is off.

The working process of the invention is as follows: and determining a pressing area, the control module 3 issues an instruction, the air pump device is opened, the electromagnetic valve is closed, the stepping motor 23 drives the valve core 22 to rotate to the air bag corresponding to the pressing area, at the moment, the guide groove on the valve core 22 conducts the air inlet and outlet 24 and the air inlet and outlet channel 26, and the air pump device starts to inflate the air bag 4. When the inflation is completed, the air pump device is closed, and the valve core 22 rotates to close the channel between the two air inlet and outlet channels 26. When exhausting, the control module 3 issues an instruction, the stepping motor 23 drives the valve core 22 to rotate to the corresponding air bag 4, at the moment, the guide groove on the valve core 22 conducts the air inlet and outlet port 24 and the air inlet and outlet channel 26, the electromagnetic valve is opened, and the air bag 4 automatically rebounds under the action of the tension spring to complete the exhaust. The angle of the valve core 22 can also be finely adjusted by controlling the stepping motor 23, so that the size of the air inlet and outlet channel is controlled, and the speed of air charging and discharging is controlled.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a medical multizone belly press device based on automatically controlled gasbag, includes the bandage, its characterized in that: still including being located the pneumatic shunt valve subassembly on the bandage, air pump device and control module, pneumatic shunt valve subassembly passes through the trachea with the air pump device and is connected, establish the solenoid valve between air pump device and the trachea, along a plurality of gasbags that correspond with the belly press down the region of pneumatic shunt valve subassembly radial radiation, control module issues the instruction, the solenoid valve is closed, pneumatic shunt valve subassembly is rotatory to be switched on air pump device and corresponding gasbag, the gasbag is aerifyd, the solenoid valve is opened, pneumatic shunt valve subassembly is rotatory to be switched on air pump device and corresponding gasbag, the gasbag exhausts.

2. A medical multi-zone abdominal compression device based on an electrically controlled balloon as claimed in claim 1, wherein: bandage through-hole is established to the bandage, pneumatic flow divider subassembly includes the valve body, case and step motor, the valve body is located the bandage through-hole, the valve body is the cylinder, the business turn over gas port of being connected with the trachea is opened at the top, open the cylinder through-hole along the axis direction, the perpendicular to axis direction is opened a plurality of business turn over gas channels and is link up with the cylinder through-hole, the gas charging and discharging port and the business turn over gas channel one-to-one of gasbag are aimed at, the case is arranged in the cylinder through-hole, it has the guide slot that is used for switching on business turn over gas port and business turn over gas channel to open below the case top syncline, the case bottom links to each other with step motor.

3. A medical multi-zone abdominal compression device based on an electrically controlled balloon as claimed in claim 1, wherein: the bandage is made of elastic material, and the end is provided with a magic tape.

4. A medical multi-zone abdominal compression device based on an electrically controlled balloon as claimed in claim 1, wherein: the air bags are positioned on the inner side of the binding band and distributed around the navel and respectively correspond to the left lower abdomen, the left upper abdomen, the right lower abdomen, the right upper abdomen, the upper navel, the lower navel, the left middle abdomen and the right middle abdomen.

5. The electrically controlled balloon-based medical multi-zone abdominal compression device of claim 4, wherein: the fixed plate is fixed in at the gasbag top, and the fixed plate outward flange is fixed with bandage through-hole inner wall, and the inward flange is fixed with the valve body outer wall, and the gasbag outer lane is made by elastic rubber.

6. The electrically controlled balloon-based medical multi-zone abdominal compression device of claim 5, wherein: the bottom in the air bag is provided with a hard steel plate, and a pressure sensor is arranged between the hard steel plate and the air bag.

7. The electrically controlled balloon-based medical multi-zone abdominal compression device of claim 6, wherein: the air bag is internally tied with a tension spring, and two ends of the tension spring are respectively fixed with the top and the bottom of the air bag.

8. A medical multi-zone abdominal compression device based on an electrically controlled balloon as claimed in claim 1, wherein: the solenoid valve includes entry, export and gas vent, and the entry connects the air pump unit, and the export connects the trachea, and the gas vent communicates with the external world.

9. A medical multi-zone abdominal compression device based on an electrically controlled balloon as claimed in claim 2, wherein: the control module comprises a box body, a single chip microcomputer, an air pump device, an electromagnetic valve and a storage battery are arranged in the box body, a liquid crystal screen is arranged outside the box body, one end of an air pipe is connected with an air inlet and an air outlet, the other end of the air pipe is connected with an inflation inlet arranged at the front end of the box body, the control module is connected with a pneumatic shunt valve component through a control and power supply wire, one end of the control and power supply wire is connected with a circuit connector arranged at the front end of the box body, the other end of the control and power supply wire is connected with a circuit interface arranged at the top of the valve body, and an indicator lamp is arranged at the top of the valve body.

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