CN116584901B

CN116584901B - Leg nerve conduction detection device and application method

Info

Publication number: CN116584901B
Application number: CN202310873199.8A
Authority: CN
Inventors: 朴春丽; 王丽
Original assignee: Guangzhou University Of Traditional Chinese Medicine Shenzhen Hospital (futian)
Current assignee: Guangzhou University Of Traditional Chinese Medicine Shenzhen Hospital (futian)
Priority date: 2023-07-17
Filing date: 2023-07-17
Publication date: 2023-09-26
Anticipated expiration: 2043-07-17
Also published as: CN116584901A

Abstract

The application relates to a leg nerve conduction detection device and an application method thereof, wherein the device comprises a supporting bottom plate, a driving assembly, a visual identification assembly and a control host; the two long sides of the supporting bottom plate are rotatably connected with a left baffle plate and a right baffle plate, and the tail end of the supporting bottom plate is fixedly provided with a rear baffle plate; the left baffle, the right baffle and the rear baffle all comprise mounting frames, each mounting frame comprises an upper frame strip, a lower frame strip and a plurality of arc-shaped connecting strips, and an elastic net is arranged between the upper frame strip and the lower frame strip; the upper frame strip is provided with a sliding rail, a plurality of sliding seats are arranged on the sliding rail in a sliding way, and a driving unit for driving the sliding seats to move on the sliding rail is arranged on the sliding seats; the sliding seat is provided with a mounting seat and a first deflection motor, and the mounting seat is provided with a clamping head and an electric push rod; the driving assembly comprises a second deflection motor and a third deflection motor; the mode of the application has better automatic detection performance, is especially suitable for scenes in which different nerves need to be continuously detected, and has better adaptability to legs.

Description

Leg nerve conduction detection device and application method

Technical Field

The application relates to the technical field of nerve conduction detection, in particular to a leg nerve conduction detection device and an application method.

Background

The nerve conduction velocity measurement is an electrophysiological examination for evaluating the conduction functions of motor nerves and sensory nerves, and is a clinically common noninvasive nerve electrophysiological examination;

when in detection, firstly, an electrode cathode is placed at the far end of a nerve, an anode is placed at the near end of the nerve and separated by 2-3cm, a recording electrode is placed at the abdomen of the muscle, a reference electrode is placed at the tendon, a ground wire is placed between a stimulating electrode and the recording electrode, the far end and the near end of a nerve trunk are stimulated by adopting superstrong, composite muscle action potentials are recorded on the muscle of the nerve innervation, different incubation periods are measured, and the conduction speed of the nerve is calculated by dividing the distance between the far end and the near end by the latency difference between the two points; the calculation formula is that the nerve conduction velocity is equal to the distance between two points multiplied by 10, and divided by the latency difference between the two points, and the measurement of the amplitude usually takes a peak value.

At present, to nerve conduction detection of low limbs, still rely on the adhesive tape to fix each electrode, the speed is slower and can be slower when meetting the condition that has many nerves to detect, because the foot is long to have hair, partial patient's sole still can sweat, adopt the adhesive tape to fix and always can have the infirm condition, influence great to the testing result, the angle of putting of foot is difficult to fix a position simultaneously, the foot rocks also can bring the influence to the adhesive tape is fixed, in addition, when detecting the patient who has the beriberi, very influence medical personnel's mood, need one kind can synthesize the shank nerve conduction detection device of solving above-mentioned defect.

Disclosure of Invention

The application aims to solve the technical problems of the prior art, and provides a leg nerve conduction detection device and an application method thereof.

The technical scheme adopted for solving the technical problems is as follows:

constructing a leg nerve conduction detection device, wherein the leg nerve conduction detection device comprises a strip-shaped supporting bottom plate, a driving assembly, a visual identification assembly and a control host; the two long sides of the supporting bottom plate are respectively and longitudinally connected with a left baffle plate and a right baffle plate in a rotating way, and the tail end of the supporting bottom plate is fixedly provided with a rear baffle plate; the left baffle plate, the right baffle plate and the rear baffle plate all comprise mounting frames, each mounting frame comprises an upper frame strip, a lower frame strip and a plurality of arc-shaped connecting strips which are arranged side by side, the upper ends and the lower ends of the arc-shaped connecting strips are respectively connected with the upper frame strip and the lower frame strip, and an elastic net is arranged between the upper frame strip and the lower frame strip; the upper frame strip is provided with a sliding rail, a plurality of sliding seats are arranged on the sliding rail in a sliding manner, and a driving unit for driving the sliding seats to move on the sliding rail is arranged on the sliding seats; the sliding seat is provided with an installation seat and a first deflection motor for driving the installation seat to longitudinally deflect, and the installation seat is provided with a clamping head for clamping the detection electrode and an electric push rod for driving the clamping head to stretch out and draw back; the driving assembly comprises a second deflection motor for driving the supporting bottom plate to deflect and two third deflection motors which are arranged on the supporting bottom plate and respectively drive the left baffle plate and the right baffle plate to rotate; the visual recognition component is located above the supporting bottom plate and is used for photographing and recognizing legs placed on the supporting bottom plate and sending recognition information to the control host, and the control host controls the driving component, the driving unit, the first deflection motor and the electric push rod to operate according to the recognition information and input detection information.

The leg nerve conduction detection device provided by the application, wherein the driving unit comprises a miniature motor arranged on the sliding seat and a motor control board for controlling the miniature motor; the movable end of the miniature motor is provided with a driving gear; the side of the sliding rail is provided with a rack matched with the driving gear.

The leg nerve conduction detection device disclosed by the application is characterized in that a control unit and a wireless module are arranged on the sliding seat, and the control unit is in communication connection with the control host through the wireless module; the motor control board, the first deflection motor and the electric push rod are all electrically connected with the control unit and controlled by the control unit.

The application relates to a leg nerve conduction detection device, wherein a clamping head comprises a fixed block fixed with the end part of an electric push rod and a tight abutting block clamped with the fixed block; the fixed block is provided with a positioning groove for positioning the detection electrode, the abutting block is provided with a groove matched with the positioning groove, a rubber strip for abutting the detection electrode is arranged in the groove, and the length direction of the rubber strip is consistent with the length direction of the positioning groove.

The application relates to a leg nerve conduction detection device, wherein a bottom bracket is arranged on the upper surface of a supporting bottom plate; the collet include with the fixed strip shaped plate of supporting baseplate, the upper end of strip shaped plate is provided with a plurality of edges the length direction of strip shaped plate is side by side the arc, adjacent the interval of arc is greater than the mesh width of elastic net, the width of arc is at 3-8mm.

The application relates to a leg nerve conduction detection device, wherein a protective silica gel layer is arranged on the surface of an arc-shaped plate.

The leg nerve conduction detection device provided by the application, wherein the upper surface of the upper frame strip is provided with the size scales, and the 0 scales of the size scales on the left baffle plate and the right baffle plate are flush with the front surface of the rear baffle plate; after the visual recognition component acquires the images, the left baffle, the right baffle and the rear baffle are used as references to carry out position recognition.

The application method of the leg nerve conduction detection device is applied to the leg nerve conduction detection device, and comprises the following steps:

in the initial state, the left baffle and the right baffle are respectively rotated and unfolded at the left side and the right side, so that the supporting bottom plate is exposed;

the leg of the patient is placed on the supporting bottom plate, the sole and the rear baffle are attached, the medical staff inputs detection information into the control host, the visual identification component takes a picture for the first time, and the identification information is sent to the control host;

the control host controls the two third deflection motors to operate, so that the left baffle plate and the right baffle plate are folded to preliminarily clamp and position the leg parts, the control host controls the second deflection motors to drive the supporting bottom plate to deflect and adjust the angle according to the detection information, and then controls the two third deflection motors to operate, so that the left baffle plate and the right baffle plate are continuously folded to tightly clamp and position the leg parts;

the visual recognition component performs secondary photographing and sends the recognition information to the control host;

the control host controls the driving units on the left baffle, the right baffle and the rear baffle to drive the sliding seat to transversely move to a required position along the sliding rail according to the detection information, the electric push rod adjusts the telescopic length, the first deflection motor operates to drive the electric push rod to deflect, and the detection electrode on the clamping head passes through the elastic net to be tightly attached to the leg.

The application has the beneficial effects that: in the initial state, the left baffle and the right baffle are respectively rotated and unfolded at the left side and the right side, so that the supporting bottom plate is exposed; the leg of the patient is placed on the supporting bottom plate, the sole and the rear baffle are attached, the medical staff inputs detection information into the control host, the visual identification component takes a picture for the first time, and the identification information is sent to the control host; the control host controls the two third deflection motors to operate, so that the left baffle plate and the right baffle plate are folded to preliminarily clamp and position the leg parts, the control host controls the second deflection motors to drive the supporting bottom plate to deflect and adjust the angle according to the detection information, and then controls the two third deflection motors to operate, so that the left baffle plate and the right baffle plate are continuously folded to tightly clamp and position the leg parts; the visual recognition component performs secondary photographing and sends the recognition information to the control host; the control host controls the driving units on the left baffle, the right baffle and the rear baffle to drive the sliding seat to transversely move to a required position along the sliding rail according to the detection information, the electric push rod adjusts the telescopic length, the first deflection motor operates to drive the electric push rod to deflect, and the detection electrode on the clamping head passes through the elastic net to be tightly attached to the leg;

the method has the advantages of better automatic detection performance, high detection efficiency, and better adaptability to legs with different thicknesses, can perform leg limiting, can accurately and automatically perform electrode fitting detection action by combining visual identification, is not easily affected by hair, can realize the adjustment of the placement angle of the legs and the position limitation after the angle adjustment, avoids interference caused by leg shaking on detection, and does not need medical staff to approach the operation.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the present application will be further described with reference to the accompanying drawings and embodiments, in which the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained by those skilled in the art without inventive effort:

FIG. 1 is a cross-sectional view of a leg nerve conduction detection device according to a preferred embodiment of the present application (tailgate not shown);

FIG. 2 is a cross-sectional view of a clamping head of a leg nerve conduction detection device according to a preferred embodiment of the present application;

FIG. 3 is a top view of the distribution of the left baffle, right baffle, rear baffle and support floor of the leg nerve conduction detection device according to the preferred embodiment of the present application;

fig. 4 is a flowchart showing an application method of the leg nerve conduction detection device according to the preferred embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more apparent, the following description will be made in detail with reference to the technical solutions in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present application, based on the embodiments of the present application.

The leg nerve conduction detection device of the preferred embodiment of the application is shown in fig. 1, and referring to fig. 2-3, and comprises an elongated support base plate 1, a driving component 2 positioned at the bottom of the support base plate 1, a visual identification component and a control host; the two long sides of the supporting bottom plate 1 are respectively and longitudinally connected with a left baffle plate 5 and a right baffle plate 6 in a rotating way, and the tail end of the supporting bottom plate 1 is fixedly provided with a rear baffle plate 7; the left baffle 5, the right baffle 6 and the rear baffle 7 all comprise mounting frames, each mounting frame comprises an upper frame strip 50, a lower frame strip 51 and a plurality of side-by-side arc connecting strips 52, the upper ends and the lower ends of the arc connecting strips 52 are respectively connected with the upper frame strip 50 and the lower frame strip 51, and an elastic net 53 is arranged between the upper frame strip 50 and the lower frame strip 51; the upper frame strip 50 is provided with a sliding rail 8, the sliding rail 8 is provided with a plurality of sliding seats 80 in a sliding way, and the sliding seats 80 are provided with a driving unit 81 for driving the sliding seats to move on the sliding rail; the sliding seat 80 is provided with a mounting seat 82 and a first deflection motor 83 for driving the mounting seat 82 to longitudinally deflect, and the mounting seat 82 is provided with a clamping head 84 for clamping the detection electrode 9 and an electric push rod 85 for driving the clamping head to stretch out and draw back; the driving assembly 2 comprises a second deflection motor 20 for driving the supporting bottom plate 1 to deflect and two third deflection motors 21 which are arranged on the supporting bottom plate 1 and respectively drive the left baffle plate 5 and the right baffle plate 6 to rotate; the visual recognition component is positioned above the supporting bottom plate 1 and is used for photographing and recognizing legs placed on the supporting bottom plate 1 and sending recognition information to the control host, and the control host controls the driving component 2, the driving unit 81, the first deflection motor 83 and the electric push rod 85 to operate according to the recognition information and the input detection information;

in the initial state, the left baffle plate 5 and the right baffle plate 6 are respectively rotated and unfolded at the left side and the right side, so that the supporting bottom plate 1 is exposed; the legs of the patient are placed on the supporting bottom plate 1 and the soles are attached to the rear baffle plate 7, medical staff inputs detection information (including detected nerve items, the system analyzes the nerve items and slides out of corresponding detection attaching positions, and then corresponding detection electrode position adjustment control is performed subsequently) into the control host, the visual recognition component performs first photographing and sends identification information to the control host (the photographing part is used for confirming that the legs are placed on the supporting bottom plate 1 and detection can be started);

the control host controls the two third deflection motors 21 to operate, so that the left baffle plate 5 and the right baffle plate 6 are folded to preliminarily clamp and position the legs (initially limiting, a certain movable space is reserved for the legs to adjust the placement angle at the moment), the control host controls the second deflection motors 20 to drive the supporting bottom plate to deflect and adjust the angle according to detection information (the step is operated according to actual needs, if the requirement of no placement angle is detected), then controls the two third deflection motors 21 to operate, so that the left baffle plate 5 and the right baffle plate 6 are continuously folded to tightly clamp and position the legs (at the moment, the legs are required to be clamped and fixed by virtue of an elastic net on the left baffle plate 5 and an elastic net on the right baffle plate 6, and the movable space of the legs is not reserved);

the visual recognition component performs secondary photographing and sends the recognition information to the control host; the control host controls the driving units 81 on the left baffle 5, the right baffle 6 and the rear baffle 7 to drive the sliding seat 80 to transversely move to a required position along the sliding rail 8 according to the detection information, the electric push rod 85 adjusts the telescopic length, the first deflection motor 83 operates to drive the electric push rod 85 to deflect, and the detection electrode 9 on the clamping head 84 passes through the elastic net 53 to be tightly attached to the leg;

Preferably, the driving unit 81 includes a micro motor 810 provided on the slide base 80 and a motor control board 811 controlling the micro motor; the movable end of the micro motor 810 is provided with a driving gear 812; a rack 813 matched with the driving gear is arranged on the side surface of the sliding rail 8; the sliding position can be controlled more accurately by means of the matching of the micro motor, the driving gear and the rack, and meanwhile, the size is smaller; meanwhile, by adopting the integrated structure, the sliding rail 8 can slide the sliding seats 80, so that a plurality of detection electrodes can be simultaneously configured on one side of the whole device, and the types of the detection electrodes can be more configured to meet different requirements, thereby guaranteeing the feasibility of the whole device.

Preferably, the sliding seat 80 is provided with a control unit and a wireless module, and the control unit is in communication connection with the control host through the wireless module; the motor control board 811, the first deflection motor 83 and the electric push rod 85 are all electrically connected with and controlled by the control unit; by adopting a wireless mode, the interference caused by the arrangement of wires to the sliding of the sliding seat 80 can be effectively avoided, and the integrity of the device is ensured;

preferably, the clamping head 84 comprises a fixed block 840 fixed with the end of the electric push rod 85 and a tight block 841 clamped with the fixed block; the fixing block 840 is provided with a positioning groove 842 for positioning the detection electrode, the abutting block 841 is provided with an open slot 843 matched with the positioning groove, the open slot 843 is internally provided with a rubber strip 844 for abutting the detection electrode, and the length direction of the rubber strip is consistent with the length direction of the positioning groove; the structure is succinct, relies on the elasticity of rubber strip 844 to support tightly the detection electrode during the installation, avoids its removal, and the reliability is good and can not harm the electrode, also has better adaptability to not unidimensional electrode.

Preferably, the upper surface of the supporting base plate 1 is provided with a shoe 10; the bottom support 10 comprises a strip-shaped plate 100 fixed with a supporting bottom plate, a plurality of arc-shaped plates 101 which are arranged side by side along the length direction of the strip-shaped plate are arranged at the upper end of the strip-shaped plate 100, the distance between every two adjacent arc-shaped plates 101 is larger than the mesh width of the elastic net 53, the width of each arc-shaped plate 101 is 3-8mm, and a protective silica gel layer is arranged on the surface of each arc-shaped plate 101; with this design, the shielding area of the leg portion of the support base plate 1 can be further reduced.

Preferably, the upper surface of the upper frame strip 50 is provided with a size scale, and the 0 scale of the size scale on the left baffle plate 5 and the right baffle plate 6 is flush with the front surface of the rear baffle plate 7; after the visual recognition component acquires the images, the position recognition is carried out by taking the size scales on the left baffle plate 5, the right baffle plate 6 and the rear baffle plate 7 as the reference, so that the accurate quantification of the adjustment distance is conveniently carried out by taking the size scales as the reference.

The application method of the leg nerve conduction detection device is applied to the leg nerve conduction detection device, as shown in fig. 4, and comprises the following steps:

s01: in the initial state, the left baffle and the right baffle are respectively rotated and unfolded at the left side and the right side, so that the supporting bottom plate is exposed;

s02: the leg of the patient is placed on the supporting bottom plate, the sole and the rear baffle are attached, the medical staff inputs detection information into the control host, the visual identification component takes a picture for the first time, and the identification information is sent to the control host;

s03: the control host controls the two third deflection motors to operate, so that the left baffle plate and the right baffle plate are folded to preliminarily clamp and position the leg parts, the control host controls the second deflection motors to drive the supporting bottom plate to deflect and adjust the angle according to the detection information, and then controls the two third deflection motors to operate, so that the left baffle plate and the right baffle plate are continuously folded to tightly clamp and position the leg parts;

s04: the visual recognition component performs secondary photographing and sends the recognition information to the control host;

s05: the control host controls the driving units on the left baffle, the right baffle and the rear baffle to drive the sliding seat to transversely move to a required position along the sliding rail according to the detection information, the electric push rod adjusts the telescopic length, the first deflection motor operates to drive the electric push rod to deflect, and the detection electrode on the clamping head passes through the elastic net to be tightly attached to the leg;

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims

1. The leg nerve conduction detection device is characterized by comprising a strip-shaped supporting bottom plate, a driving assembly, a visual identification assembly and a control host, wherein the driving assembly is positioned at the bottom of the supporting bottom plate; the two long sides of the supporting bottom plate are respectively and longitudinally connected with a left baffle plate and a right baffle plate in a rotating way, and the tail end of the supporting bottom plate is fixedly provided with a rear baffle plate; the left baffle plate, the right baffle plate and the rear baffle plate all comprise mounting frames, each mounting frame comprises an upper frame strip, a lower frame strip and a plurality of arc-shaped connecting strips which are arranged side by side, the upper ends and the lower ends of the arc-shaped connecting strips are respectively connected with the upper frame strip and the lower frame strip, and an elastic net is arranged between the upper frame strip and the lower frame strip; the upper frame strip is provided with a sliding rail, a plurality of sliding seats are arranged on the sliding rail in a sliding manner, and a driving unit for driving the sliding seats to move on the sliding rail is arranged on the sliding seats; the sliding seat is provided with an installation seat and a first deflection motor for driving the installation seat to longitudinally deflect, and the installation seat is provided with a clamping head for clamping the detection electrode and an electric push rod for driving the clamping head to stretch out and draw back; the driving assembly comprises a second deflection motor for driving the supporting bottom plate to deflect and two third deflection motors which are arranged on the supporting bottom plate and respectively drive the left baffle plate and the right baffle plate to rotate; the visual recognition component is positioned above the supporting bottom plate and is used for photographing and recognizing legs placed on the supporting bottom plate and sending recognition information to the control host, and the control host controls the driving component, the driving unit, the first deflection motor and the electric push rod to operate according to the recognition information and input detection information; the driving unit comprises a micro motor arranged on the sliding seat and a motor control board for controlling the micro motor; the movable end of the miniature motor is provided with a driving gear; a rack matched with the driving gear is arranged on the side surface of the sliding rail; the sliding seat is provided with a control unit and a wireless module, and the control unit is in communication connection with the control host through the wireless module; the motor control board, the first deflection motor and the electric push rod are electrically connected with the control unit and controlled by the control unit; the clamping head comprises a fixed block fixed with the end part of the electric push rod and a tight abutting block clamped with the fixed block; the fixing block is provided with a positioning groove for positioning the detection electrode, the abutting block is provided with a slot matched with the positioning groove, a rubber strip for abutting the detection electrode is arranged in the slot, and the length direction of the rubber strip is consistent with the length direction of the positioning groove; the upper surface of the supporting bottom plate is provided with a bottom bracket; the bottom support comprises a strip-shaped plate fixed with the supporting bottom plate, a plurality of arc-shaped plates are arranged at the upper end of the strip-shaped plate and are arranged side by side along the length direction of the strip-shaped plate, the distance between adjacent arc-shaped plates is larger than the mesh width of the elastic net, and the width of each arc-shaped plate is 3-8mm; the upper surface of the upper frame strip is provided with a size scale, and 0 scale of the size scale on the left baffle plate and the right baffle plate is flush with the front surface of the rear baffle plate; after the visual recognition component acquires the images, the left baffle, the right baffle and the rear baffle are used as references to carry out position recognition.

2. The leg nerve conduction detection device according to claim 1, wherein the arcuate plate surface is provided with a protective silicone layer.

3. A method for applying a leg nerve conduction detection device according to any one of claims 1 to 2, comprising the steps of: