CN116035890A - A divide accuse formula physiotherapy device for department of neurology - Google Patents

Abstract

The invention discloses a separate control type physiotherapy device for neurology, which comprises a needle assembly, wherein the needle assembly comprises: the composite shell comprises a first conductive shell, a second conductive shell and an insulating shell, wherein the first conductive shell and the second conductive shell are arranged at two ends of the composite shell, and the insulating shell is connected between the first conductive shell and the second conductive shell; the needle body is arranged on the first conductive shell; and the positive and negative trigger points of the electromagnetic vibration assembly are respectively connected with the first conductive shell and the second conductive shell, and the composite shell is driven to vibrate by receiving pulse current. According to the invention, the composite shell is arranged, and when the two needle bodies are respectively and independently clamped by the two clamp bodies, a loop is formed between the two needle bodies and the inserted human tissue, so that electrotherapy acupuncture can be realized; when the two clamp bodies are clamped on the same composite shell, and a loop is formed among the first conductive shell, the second conductive shell and the electromagnetic vibration component, the electromagnetic vibration component can be controlled to vibrate, and vibration acupuncture is realized.

Description

A divide accuse formula physiotherapy device for department of neurology

Technical Field

The invention relates to the technical field of physiotherapy instruments, in particular to a split control type physiotherapy device for neurology.

Background

The physiotherapy equipment is a device for acting physical factors on human body to make them improved. It can be classified into electrotherapy, magnetotherapy, thermotherapy, microwave therapy, etc. according to the difference of acting physical factors. Among them, electrotherapy is a method of treatment using different electric currents and electromagnetic fields. For nerve and muscle diseases, direct current therapy, low frequency pulse therapy, medium frequency pulse therapy, high frequency pulse therapy, etc. are generally classified. Pulsed electrical therapy is generally used here with pulsed direct current, i.e. direct current which occurs singly or periodically.

The patent document CN109224300a discloses a separately controlled physiotherapy apparatus for neurology in publication date 2019, month 01 and 18, and the technical scheme comprises: the electric acupuncture device comprises an electric acupuncture needle body, an insulating layer, needle handle wire winding and an indicator lamp, wherein a heating body is arranged at the lower end of the electric acupuncture needle body, the heating body can heat local acupuncture points, blood circulation at the acupuncture points is facilitated, the indicator lamp can detect whether a connecting line has a problem or not, pulse current is released from the acupuncture point positions, electric stimulation is carried out on nerves at the acupuncture points and is used for waking up nerve cells at the acupuncture points, the frequency modulator adopts split regulation and control, and voltage frequency and current frequency loaded by each electric acupuncture needle can be regulated.

In the prior art comprising the above patent, the mode of combining electrotherapy with acupuncture is adopted to realize the stimulation to human tissues and acupuncture points, obviously, the pulse current can stimulate neuromuscular contraction, reduce the threshold of pain, relieve adhesion, and is suitable for various nerve and muscle diseases such as injury, inflammation and the like. Short-term application of electrotherapy usually has no great harm and side effects, but if the electrotherapy is not applied for a long time under the guidance of a professional doctor, side effects such as muscle nerve sensitivity reduction, endocrine dyscrasia, abnormal change of ganglionic rhythm and the like can occur due to certain radiation harm of the electrotherapy.

In the traditional acupuncture means, the vibration method is adopted to force the needle body to generate proper stimulation to the acupuncture points, and the method does not have radiation hazard caused by electrotherapy. Electrotherapy acupuncture and vibration acupuncture obviously depend on different power sources and have different output modes, and cannot be combined, so that a separate control type physiotherapy device for neurology is needed to solve the above problems.

Disclosure of Invention

The invention aims to provide a separate control type physiotherapy device for neurology, which aims to solve the defects in the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

a divide accuse formula physiotherapy device for department of neurology, including control main part, two clamp bodies and the centre gripping needle subassembly on the clamp body of passing through branch polar line and control main part electric connection, the needle subassembly includes: the composite shell comprises a first conductive shell, a second conductive shell and an insulating shell, wherein the first conductive shell and the second conductive shell are arranged at two ends of the composite shell, and the insulating shell is connected between the first conductive shell and the second conductive shell; the needle body is arranged on the first conductive shell; and the positive and negative trigger points of the electromagnetic vibration assembly are respectively connected with the first conductive shell and the second conductive shell, and the composite shell is driven to vibrate by receiving pulse current.

Preferably, the outer side of the insulating shell protrudes out of the composite shell.

Preferably, the electromagnetic vibration assembly comprises a permanent magnet arranged in the first conductive shell and a sliding contact piece movably arranged in the first conductive shell, and one side, far away from the permanent magnet, of the sliding contact piece is connected with the second conductive shell through a spiral coil.

Preferably, the outer side of the permanent magnet is wrapped with an insulating sleeve.

Preferably, the needle body is configured as a push needle.

Preferably, the end part of the first conductive shell is provided with a conductive sheet, and the pressing needle is adsorbed on the conductive sheet under the influence of the permanent magnet.

Preferably, the conductive sheet is provided with a groove matched with the pressing needle.

Preferably, the permanent magnet is movably arranged in the first conductive shell, and the side wall is provided with a poking piece which movably penetrates through the first conductive shell.

Preferably, a protection pad is arranged on the conductive sheet, and an adhesive sheet is adhered on the protection pad.

Preferably, the two sides of the adhesive sheet are glued, one side of the adhesive sheet is adhered with the protection pad, the other side of the adhesive sheet is adhered with the protection film, and the needle head of the pressing needle penetrates through the adhesive sheet.

In the technical scheme, the invention has the beneficial effects that:

according to the split control type physiotherapy device for the neurology, the composite shell is arranged, when two needle bodies are arranged and inserted into tissue of an affected part of a patient, and when the corresponding first conductive shell on the two needle bodies is clamped by the two clamp bodies respectively and independently, a loop is formed between the two needle bodies and the tissue of the human body, and the main body is controlled to output pulse current to the clamp bodies through the split electrode wire so as to realize electrotherapy acupuncture through the tissue of the human body; when two clamp bodies are respectively clamped on the first conductive shell and the second conductive shell on the same composite shell, a loop is formed among the first conductive shell, the second conductive shell and the electromagnetic vibration component, and then the pulse signal output by the control main body controls the electromagnetic vibration component to vibrate, so that the needle body is driven to vibrate, vibration acupuncture is realized, and the needle body is not electrified, namely, the physiotherapy device has two treatment functions of electrotherapy acupuncture and vibration acupuncture.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all of the features of the disclosed technology.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of the whole structure of a first embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure shown in FIG. 1A according to the present invention;

FIG. 3 is a schematic view showing the internal structure of a needle assembly according to a first embodiment of the present invention;

FIG. 4 is a schematic cross-sectional elevation view of a first circuit state of a needle assembly according to a first embodiment of the present invention;

FIG. 5 is a schematic cross-sectional elevation view of a second circuit configuration of the needle assembly provided by the first embodiment of the present invention;

fig. 6 is a schematic cross-sectional front view of a second embodiment of the present invention.

Reference numerals illustrate:

1. a control main body; 2. a dividing line; 3. a clamp body; 4. a composite housing; 41. a first conductive housing; 42. a second conductive housing; 43. an insulating housing; 5. a needle body; 6. a permanent magnet; 7. a sliding contact; 8. a spiral coil; 9. an insulating sleeve; 10. a conductive sheet; 11. a groove; 12. a shifting piece; 13. a protective pad; 14. sticking a piece; 15. and a protective film.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Referring to fig. 1 to 5, a split control type physiotherapy device for neurology provided by an embodiment of the present invention includes a control main body 1, two clamp bodies 3 electrically connected with the control main body 1 through a split polar line 2, and a needle assembly clamped on the clamp bodies 3, wherein the needle assembly includes: a composite housing 4 including a first conductive housing 41 and a second conductive housing 42 provided at both ends, and an insulating housing 43 connected between the first conductive housing 41 and the second conductive housing 42; a needle body 5 provided on the first conductive housing 41; the positive and negative trigger points of the electromagnetic vibration component are respectively connected with the first conductive shell 41 and the second conductive shell 42, and the composite shell 4 is driven to vibrate by receiving pulse current.

Specifically, the control main body 1 is provided with a plurality of electric signal output ports for connecting the branch lines 2, and each electric signal output port is mutually independent, and can synchronously output currents in different states, thereby realizing a branch control function. The branch line 2 comprises a positive line and a negative line, is respectively connected with the positive electrode and the negative electrode of the control power supply of the control main body 1, is respectively connected with a clamp body 3 and is mutually conductive with the clamp body 3; the positive electrode wire and the negative electrode wire are divided into two independent wires at one end of the connecting clamp body 3, and the other parts are integrated with one wire, so that the separation arrangement of the needle body 5 is not affected, and the scattering of the branch wires 2 is reduced. An insulating sheath is sleeved outside the clamp body 3, and a structure for controlling the opening and closing of the clamp body 3 is arranged in the insulating sheath; the clip body 3 is provided with a seaming matched with the needle body 5, and can be firmly snapped when the needle body 5 is clamped. The first conductive housing 41 is connected to the needle 5 in contact and can conduct electricity. The electromagnetic vibration assembly is disposed inside the composite housing 4. In actual use, when two clamps 3 connected to the same split line 2 are respectively and independently clamped on corresponding first conductive shells 41 on two needle bodies 5, the two needle bodies 5 are inserted into the tissue of the affected part of a patient, and a certain interval is arranged, at the moment, a positive electrode of a control main body 1 for controlling a power supply, a positive line of the split line 2, the clamps 3 connected with the positive line, the needle bodies 5 clamped by the clamps 3 connected with the positive line in a conductive manner, human tissues, the needle bodies 5 clamped by the clamps 3 connected with the negative line in a conductive manner, the clamps 3 connected with the negative line, the negative line of the split line 2 and the negative electrode of the control main body 1 for controlling the power supply form a first loop, so that pulse current emitted by the control main body 1 smoothly passes through the human tissues, and electrotherapy is realized; when two clamps 3 are respectively clamped on the first conductive shell 41 and the second conductive shell 42 on the same composite shell 4, the single needle 5 is inserted into the affected part acupoint of the patient, at this time, the positive electrode of the control main body 1 control power supply, the positive electrode wire of the split electrode wire 2, the clamp 3 connected with the positive electrode wire, the first conductive shell 41, the electromagnetic vibration component, the second conductive shell 42, the clamp 3 connected with the negative electrode wire, the negative electrode wire of the split electrode wire 2 and the negative electrode of the control main body 1 control power supply form a second loop in sequence, so that the pulse current sent by the control main body 1 smoothly passes through the electromagnetic vibration component to trigger the vibration of the electromagnetic vibration component, thereby driving the needle 5 to vibrate, vibration acupuncture is realized, and the needle 5 is not electrified at this time.

Compared with the prior art, the split control type physiotherapy device for neurology provided by the embodiment of the invention has the advantages that the composite shell 4 is arranged, when two needle bodies 5 are arranged and inserted into the tissue of an affected part of a patient, and the two clamp bodies 3 are used for respectively and independently clamping the corresponding first conductive shells 41 on the two needle bodies 5, a loop is formed between the two needle bodies 5 and the tissue of the human body, and the main body 1 is controlled to output pulse current to the clamp bodies 3 through the split wires 2 so as to realize electrotherapy acupuncture through the tissue of the human body; when two clamp bodies 3 are respectively clamped on the first conductive shell 41 and the second conductive shell 42 on the same composite shell 4, a loop is formed among the first conductive shell 41, the second conductive shell 42 and the electromagnetic vibration component, and then the pulse signal output by the control main body 1 controls the electromagnetic vibration component to vibrate, so that the needle body 5 is driven to vibrate, vibration acupuncture is realized, the needle body 5 is not electrified, and the physiotherapy device has two treatment functions of electrotherapy acupuncture and vibration acupuncture.

As a preferred technical solution of this embodiment, the outer side of the insulating housing 43 protrudes out of the composite housing 4, specifically, the protruding of the insulating housing 43 forms a barrier between the first conductive housing 41 and the second conductive housing 42, so that, on one hand, the first conductive housing 41 and the second conductive housing 42 are prevented from being connected and conducting, and on the other hand, the clip 3 in a state of being connected with the second conductive housing 42 is limited to slide down along the composite housing 4.

As a preferred technical solution of the present embodiment, the electromagnetic vibration assembly includes a permanent magnet 6 disposed in a first conductive housing 41 and a movable sliding contact 7, where one side of the sliding contact 7 away from the permanent magnet 6 is connected to a second conductive housing 42 through a spiral coil 8, specifically, the permanent magnet 6 is disposed at a fixed position in the first conductive housing 41, one end of the spiral coil 8 is in sliding contact with the first conductive housing 41 by means of the sliding contact 7, and the other end is directly connected to the second conductive housing 42; when the two clamp bodies 3 are connected with the same composite shell 4 to form a second loop, namely the spiral coil 8 is electrified, so that a magnetic field is generated around the spiral coil 8 according to the magnetic effect of current, the two ends of the spiral coil 8 correspond to the two ends of the magnetic pole, the polarity direction of the magnetic pole can be judged according to ampere rules, the magnetic pole at one end, close to the permanent magnet 6 and the sliding contact piece 7, of the magnetic pole is set to be the same as the magnetic pole generated after the spiral coil 8 is electrified, and therefore the same-level repulsive action is generated between the magnetic pole and the permanent magnet 6 after the spiral coil 8 is electrified, and the sliding contact piece 7 is driven to be far away from the permanent magnet 6; the current passing through the spiral coil 8 is pulse current, namely single or periodically occurring direct current, so that magnetism generated by electrifying the spiral coil 8 intermittently occurs, and then repulsive interaction with the permanent magnet 6 occurs intermittently, meanwhile, the needle body 5 is normally vertically inserted into human tissue due to the fact that the sliding contact 7 is movable in the first conductive shell 41, and therefore when the magnetism on the spiral coil 8 disappears under the action of gravity, the sliding contact 7 slides towards the permanent magnet 6 again; in summary, the sliding contact 7 can continuously jump in the composite housing 4 under the intermittent magnetic repulsion and the action of gravity, thereby driving the composite housing 4 to vibrate. Further, the spiral coil 8 is set as a spring, when the permanent magnet 6 and the sliding contact 7 repel each other, the spring compresses and stores elastic potential energy, when the spring stops energizing, so that when magnetism on the spring disappears, the repulsive interaction between the permanent magnet 6 and the sliding contact 7 disappears, the elastic potential energy of the spring is released, the sliding contact 7 is pushed to be close to the permanent magnet 6 again, and the sliding contact 7 is circulated in this way, so that the sliding contact 7 moves back and forth in the first conductive shell 41 to drive the vibration of the composite shell 4, and then drives the needle 5 to vibrate, thereby realizing vibration acupuncture, and the spring is set, so that the sliding contact 7 is not reset by gravity, namely, the insertion posture of the needle 5 is irrelevant.

As a further preferable technical scheme of the embodiment, the outer side of the permanent magnet 6 is wrapped with an insulating sleeve 9, specifically, the insulating sleeve 9 prevents the permanent magnet 6 from directly contacting the first conductive shell 41 to conduct electricity, but does not affect the outward radiation of the magnetism of the permanent magnet 6.

In the above embodiment, the needle body 5 is usually an acupuncture needle, which is mainly used for penetrating into human tissue for treatment, and thus can also be supported by human tissue, and is prevented from being skewed due to the gravity of the composite housing 4 and its internal parts; when the needle body 5 is required to stimulate the surface of the human tissue, the needle body 5 does not penetrate into the human tissue any more, and the composite shell 4 cannot be supported, so that the problem is solved:

referring to fig. 1-6, in another embodiment of the present invention, the needle body 5 is configured as a thumb-tack needle, specifically, the thumb-tack needle is a needle shaped like a thumbtack, the needle handle is flat, the needle head is about one to two centimeters long, and is generally used for intradermal needles or ear needles, which are buried in acupoints to perform acupoints massage, reduce pain, and promote blood circulation of organs. The knock pin is typically a disposable item.

As a preferable technical scheme of the embodiment, a conductive sheet 10 is arranged at the end part of a first conductive shell 41, a pressing needle is adsorbed on the conductive sheet 10 under the influence of a permanent magnet 6, and the conductive sheet 10 is fixedly connected with the first conductive shell 41; the pressing needle is fixed on the conducting strip 10 under the action of magnetic attraction, so that the pressing needle is convenient to mount and dismount.

As a further preferable technical scheme of the embodiment, the conductive sheet 10 is provided with a groove 11 matched with the pressing needle, and specifically, the groove 11 is arranged corresponding to the composite shell 4; after the snap pin is embedded in the recess 11, it is prevented from sliding along the surface of the conductive sheet 10, and is positioned in a fixed position with respect to the conductive sheet 10, i.e. fixed with respect to the composite housing 4, whereby the maximum magnetic attraction of the permanent magnet 6 is obtained.

As a preferred technical solution of this embodiment, the permanent magnet 6 is movably disposed in the first conductive housing 41, and the side wall is provided with a pulling member 12 that movably penetrates through the first conductive housing 41, specifically, one end of the permanent magnet 6 abuts against the sliding contact member 7, at this time, the spiral coil 8 is set as a spring, and by means of the elastic force of the spring, the position of the permanent magnet 6 in the first conductive housing 41 can be limited; the setting of plectrum 12 can be at external operation permanent magnet 6 activity, and when permanent magnet 6 moved to keeping away from conducting strip 10 direction, it promoted sliding contact 7 and removed and extrudeed the spring, and the magnetic field on it also kept away from conducting strip 10, and then the magnetic field weakens the absorption effect of pressing needle, and pressing needle alright break away from in the recess 11 voluntarily, makes things convenient for pressing needle dismantlement change.

As a preferred technical scheme of the embodiment, a protection pad 13 is arranged on the conductive sheet 10, an adhesive sheet 14 is stuck on the protection pad 13, and the protection pad 13 is specifically fixedly connected with the conductive sheet 10 and is made of soft material; referring to fig. 6, the adhesive sheet 14 is disposed on the lower surface of the pad 13 and is shielded on the lower side of the recess 11, thereby further limiting the snapper needle, which is also disposed downward; the adhesive sheet 14 is adhered to the skin of the focus of the patient, so that the pressing needle is driven to be stably nailed at the focus of the body surface of the patient; after the treatment is completed, the adhesive sheet 14 is directly torn off to remove the pressing needle from the patient.

As a further preferable technical scheme of the embodiment, two sides of the adhesive sheet 14 are glued, one side is adhered with the protection pad 13, the other side is adhered with the protection film 15, the needle of the pressing needle penetrates through the adhesive sheet 14, and the adhesive sheet 14 is a disposable article, and is usually an independent component with two sides adhered with the protection film 15; the adhesive sheet 14 can be provided with a hole matched with the needle of the pressing needle at the position penetrated by the needle body 5 or can be penetrated by the needle of the pressing needle in a violent way later. When the technical scheme is used, one surface of the protective film 15 on the adhesive sheet 14 is torn off, then the surface is stuck with the protective pad 13, and the pressing needle head penetrates through the adhesive sheet 14, so that the preparation work before needle embedding is finished; then, when the needle is needed to be buried, the protective film 15 on the other surface of the adhesive sheet 14 is torn, and then the surface is stuck to the skin of the focus of the patient, so that the pressing needle is stably nailed at the focus of the body surface of the patient. After the treatment is finished, the adhesive sheet 14 can be directly torn off to take down the pressing needle from the patient, then the adhesive sheet 14 is privately taken down from the protection pad 13, and then the pressing needle can be detached, so that the disposable articles can be removed, the left device can be reused, and the medical treatment and the sanitation are ensured.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (10)

1. A divide accuse formula physiotherapy device for department of neurology, includes control main part (1), through two clamp bodies (3) of dividing polar line (2) and control main part (1) electric connection and the centre gripping needle subassembly on clamp body (3), its characterized in that, the needle subassembly includes:

a composite housing (4) including a first conductive housing (41) and a second conductive housing (42) provided at both ends, and an insulating housing (43) connected between the first conductive housing (41) and the second conductive housing (42);

a needle body (5) provided on the first conductive housing (41);

and the positive and negative trigger points of the electromagnetic vibration assembly are respectively connected with the first conductive shell (41) and the second conductive shell (42), and the composite shell (4) is driven to vibrate by receiving pulse current.

2. The separate control type physiotherapy device for neurology according to claim 1, wherein the outer side of the insulating shell (43) is arranged to protrude out of the composite shell (4).

3. The separate control type physiotherapy device for neurology according to claim 1, wherein the electromagnetic vibration assembly comprises a permanent magnet (6) arranged in a first conductive shell (41) and a sliding contact piece (7) movably arranged, and one side of the sliding contact piece (7) away from the permanent magnet (6) is connected with a second conductive shell (42) through a spiral coil (8).

4. The separate control type physiotherapy device for neurology according to claim 3, wherein the outer side of the permanent magnet (6) is wrapped with an insulating sleeve (9).

5. The sub-control physiotherapy device for neurology according to claim 1, characterized in that the needle body (5) is provided as a push needle.

6. The sub-control physiotherapy device for neurology according to claim 5, wherein the end of the first conductive housing (41) is provided with a conductive sheet (10), and the pressing needle is attracted to the conductive sheet (10) under the influence of the permanent magnet (6).

7. The sub-control physiotherapy device for neurology according to claim 5, wherein the conductive sheet (10) is provided with a groove (11) matching with a press needle.

8. A sub-control physiotherapy device for neurology according to claim 3 characterised in that the permanent magnet (6) is movably arranged in the first conductive housing (41) and the side wall is provided with a dial (12) which is movably penetrating the first conductive housing (41).

9. The separate control type physiotherapy device for neurology according to claim 6, wherein a protection pad (13) is arranged on the conductive sheet (10), and an adhesive sheet (14) is adhered on the protection pad (13).

10. The separate control type physiotherapy device for neurology according to claim 9, wherein the adhesive sheet (14) is glued on two sides, one side is adhered to the protection pad (13), the other side is adhered to the protection film (15), and the pressing needle head penetrates through the adhesive sheet (14).

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