KR101691348B1 - Electrode Handle - Google Patents

Abstract

Disclosed is an electric/electronic controlling technology. According to an embodiment of the present invention, the electrode handle coupled to a hyperthermia therapy device can reduce discharge, by setting an output electrode in a conduction mode when touched with body and also in a non-contact mode when released from the body in advance, thereby solving an issue associated with burn by improving internal structures of the electrode handle and achieving relations between a conductive panel and an electro-conductive bridge terminal.

Description

Electrode Handle

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric and electronic control technique, and more particularly, to an electrode handle connected to a deep-drawer which performs a switching on / off operation between an electrically conductive bridge terminal and a conductive panel using an elastic force of a compression spring.

Electric therapy is used for medical purposes, such as flat electricity, reactive electricity, and alternating current electricity. Electric therapy varies greatly depending on the frequency waveform, current, intensity of current, and application site. Do.

Especially, in the high-frequency electric therapy, when the high-frequency current passes through the body, the muscle does not shrink, but feels a sense of thermal sensation (heat sensation), and the heat is generated inside the human body.

The high-frequency treatment device converts high-frequency power into bio-energy by applying a high-frequency power source to the human body, and promotes fat metabolism and muscle movement through the deep heat generated by the bioenergy, thereby promoting obesity treatment, muscle strengthening, skin care, Or pain relief.

High-frequency electric therapy device stimulates metabolism, vasodilator expands vital blood circulation, eliminates waste products, and has sufficient action to supply oxygen. It has effects on analgesia and relaxation of smooth muscle, and is effective in the treatment of sciatica, arthralgia, Has been applied to treatment.

The high frequency treatment device is a device for treating the affected part by the deep heat generated by applying the high frequency power source to the human body and it is necessary to change the strength of the high frequency power source to be applied according to the user's personal taste or body composition or the condition of the affected part.

In addition, it is necessary to control the high frequency power supplied to the human body even when there is a risk of electric shock or an image.

Due to the characteristics of the discharge, when the discharge electrode of the device is in contact with the human body due to the conventional technical feature that the gas insulation breakdown becomes easier as the frequency becomes higher, plasma caused by the discharge is generated between the electrode and the human body, Frequent wearing.

In addition, due to the characteristics of the high-voltage high frequency, it is difficult to control the voltage within a voltage range in which there is a slight difference depending on the implementation, but it is a problem in the prior art. Especially, In the case of high-frequency deep-seated discharge, burns are caused by discharge-induced plasma, and the risk posed by the discharge is seriously negative for the consumer,

Korea Patent Registration No: 10-0734901-0000 Korea Patent Registration No: 10-1150372-0000 Korean Patent Application Number: 10-2008-0016786 Korea patent registration number: 10-1006738-0000

A first object of the present invention is to provide an electrode handle connected to deep-drawn-out electrodes of the present invention, which is capable of regulating an output pulse through a complicated circuit configuration by applying a conventional electric / It is easy to solve the problem of the image easily by improving the structure of the handle of the electrode by reducing the risk of discharging by pre-treating the output electrode in the conduction state when the body contact is loosened, To be able to.

The second object of the present invention is to provide a method for preventing the damage of the human body due to the excessive electric power flowing through deep penetration when the high frequency energy generated by the deep penetration and the low frequency energy are directly applied, For the purpose of prevention in advance, only the high frequency energy and the low frequency energy are transmitted to the human body by using the electrode connected with the deep part heating.

It is also a third object of the present invention to provide an electric conductive bridge terminal using a compression spring in consideration of a possibility that electric power applied to the deep-drawn-out heat is likely to be discharged to the outside due to malfunction and deterioration of deep- Off operation between the conductive panel and the conductive panel in order to prevent human injury due to leakage power.

The fourth object of the present invention is to promote the health promotion of the public and the expectation of the profit of the related companies by applying the electrode handle with high value added which can reduce the damage rate to the electric shock and the discharge rapidly. And to contribute to the development of the industry.

In order to achieve the above object, the present invention includes the following configuration.

That is, the electrode handle according to the embodiment of the present invention is an electrode handle connected to the deep portion of the electrode, and when the electrode contacts the skin, the electrode handle is changed from the initial relaxed state to the contracted state by the elastic force, A compression spring for lifting and supporting the supporting portion by a predetermined elastic section; And the lower end of the fastening rod is connected to the lower portion of the body so that the body exposed to the center of the fastening hole and the conductive bridge terminal come into contact with each other to be electrically connected to the lower end of the fastening rod, And the lower end of the compression spring is inserted into the upper end of the coupling rod, and the lower end of the compression spring is inserted into the upper end of the coupling rod, Wherein when the electrode is not in contact with the skin, the compression spring recovers the relaxed state from the contracted state by using a restoring force contrary to the elastic force so as to lower the support part by the elastic section , And the electrically conductive bridge terminal To be in contact with the composition within the conductive panel of the lower housing wherein the cake switch to change to a non-contact state from the energized state to the open state.

The electrode handle connected to the deep penetration of the present invention is configured such that when the electrode is in contact with the skin, the support of the electrode is elevated by a predetermined elastic section so as to change from the initial relaxed state to the contracted state by using the elastic force, The output electrode is restored to the conduction state when the body is in contact with the body and the noncontact state when the body is in contact with the body by using the restoring force so that the support portion of the electrode is lowered by the elastic portion so as to be relaxed from the contraction state to the relaxed state. Improving the inner structure of the handle of the electrode by lowering the risk to the first gives a first effect that can easily solve the image problem.

In addition, the present invention can prevent the human body from being harmed, the skin tissue being destroyed, or the electric shocked by the excessive power flowing through the deep penetration when the high frequency energy generated by deep penetration and the low frequency energy are directly applied, The second effect is that only the high-frequency energy and the low-frequency energy are transmitted to the human body by using the electrode connected to the deep-seated heater for the purpose of prevention.

It is also possible to predict that a power source applied to deep-drawn-out heat is likely to be discharged to the outside due to malfunction and deterioration of deep-drawn-out heat. Therefore, A third effect is obtained in which human injury due to leakage power can be prevented in advance through the switching on / off operation.

In addition, the present invention applies a high-value-added high-value-added electrode handle to deep-drawn-out air which can drastically reduce the damage rate to electric shock and discharge, thereby promoting the expectation of the public health promotion and profit increase of related companies, The fourth effect is obtained.

FIG. 1 is a view showing an appearance of an electrode handle connected to a deep-drawn-away portion according to an embodiment of the present invention.
FIG. 2 is a perspective view (switching-on state) showing a detailed view of an electrode handle connected to deep-drawn-away parts according to an embodiment of the present invention.
3 is a side view (switch-on state) showing the internal structure of the electrode handle connected to the deep-drawn-away portion according to the embodiment of the present invention.
4 is a perspective view (switching-off state) showing a detailed view of an electrode handle connected to a deep-drawn-away portion according to an embodiment of the present invention.
FIG. 5 is a side view (switching off state) showing an internal structure of an electrode handle connected to deep-drawn-out heat according to an embodiment of the present invention.

[Example]

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A high-frequency deep-portion transmitter connected to the electrode handle 1000 has a mechanism for causing a human body to generate heat by applying a high voltage of several tens of volts at a low level, a high voltage of about 1 kV at a high level and a pulse or a symmetric wave at a high frequency and a low frequency of several hundred kHz to several MHz. Respectively.

High-frequency energy or low-frequency energy converted into deep-seated heat (that is, bio-thermal energy) promotes the circulation of blood and lymph fluid by raising the temperature of the body tissue to increase the function of the cells and increasing blood flow through arterial and capillary dilation It promotes metabolism.

Referring to FIG. 1, an electrode handle 1000 according to an embodiment of the present invention includes an electrode connector coupled with a body-contact electrode (ceramic) 200 configured in the airplane, and an electrically conductive bridge terminal 500, To turn on or off the conductive panel 600 using the electrode cable 700 to transmit or block the high frequency energy or the low frequency energy applied to the electrode.

First, since the electrode handle 1000 has a compact structure that is compact and lightweight for portable use, and the components are easily assembled and coupled, the productivity is high compared with the labor cost, and the assembly is assembled with a structure having high bonding force between the components. It is a useful product that can be used but can contribute to industrial development.

A more specific description according to an embodiment of the present invention is as follows.

As shown in FIG. 2, the electrode handle 1000 connected to the deep-end heater includes the housings 100 and 110, the electrode connector 300, the compression spring 400, the electrically conductive bridge terminal 500, A panel 600, an electrode cable 700 and an electrode (ceramic) 200 in contact with the human body (skin).

3, when the electrode 200 is in contact with the skin, the compression spring 400 changes from an initial relaxed state to a contracted state due to the elasticity of the contact, 200 by a preset elastic section.

When the elastic force generated by the contraction of the compression spring 400 is transmitted to the pressing member 105 mounted in the lower housing 100, the electrically conductive bridge terminal 500 is elastically deformed by the elastic force applied to the pressing member 105 The terminal end of the tip portion 500 is lowered by the pressing operation so that the contact with the conductive panel 600 is switched on.

Accordingly, the electrically conductive bridge terminal 500 transfers the high frequency energy or the low frequency energy applied from the conductive cable 600 and the electrode cable 700 connected to the conductive panel 600 to the electrode connector 300 when the switch is turned on.

In the opposite operation, the electrically conductive bridge terminal 500 according to the embodiment of the present invention is configured such that the restoring force generated by the relief of the compression spring 400 is transmitted to the pressing member 105 mounted in the lower housing 100 The leading end portion is raised by the releasing action by the restoring force applied to the pressing member 105, so that the contact with the conductive panel 600 is switched off.

Accordingly, the electrically conductive bridge terminal 500 blocks high frequency energy or low frequency energy applied from the conductive cable 600 and the electrode cable 700 connected to the conductive panel 600 at the time of switch-off.

The conductive panel 600 is a conductive means connected to the electrode cable 300. When the compression spring 600 is retracted, the high frequency energy or the low frequency energy applied through the electrode cable 300 is electrically connected to the electrically conductive bridge terminal (500).

The electrode 200 is made of one selected from stainless steel, aluminum, platinum, gold, silver, titanium, iron, nickel plated, grommets, teflon, nylon and polyamide, And applies the applied high-frequency energy or low-frequency energy to the skin.

When the compression spring 400 is contracted or relaxed, the lower portion of the body of the electrode connector 300 is screwed to the upper portion of the support portion 310 which is lifted or lowered by the elastic portion, Conductive intermediate bridge connecting the upper portion of the main body of the main body 300 and the compression spring 400. The non-conductive intermediate connection body contacts the lower end surface of the electrically conductive bridge terminal 500 through threaded engagement with the upper hole of the body, ).

Herein, the screwing is only one embodiment of the present invention, and the present invention is not limited thereto, and the present invention is not limited thereto. , Chain linkage, rope linkage linkage, and so on.

4 and 5, when the electrode 200 is not in contact with the skin, the compression spring 400 recovers from the contracted state to the relaxed state using the restoring force contrary to the elastic force so that the support portion 310 is lowered by the elastic section .

Accordingly, the electrically conductive bridge terminal 500 changes the state of contact with the conductive panel 600 formed in the lower housing 100 to a non-contact state due to the restoring force, thereby switching the conductive state to the open state.

In addition to the coil spring, the compression spring 400 can be replaced by a selected one of a plate spring, a torsion spring, a disc spring, a ring spring, a ball groove spring, and a rubber spring. The compression spring 400 is contracted or relaxed within an elastic range of 0.1 mm to 30 mm.

The upper end of the compression spring 600 is attached and fixed to a set point in the upper housing 220 which is extended in a straight line with the lower end of the compression spring 600 fitted to the upper end of the coupling rod 320, (Not shown).

That is, the upper end of the compression spring 600 is inserted and fixedly attached to the stator 115 provided at the set point.

The electrode connector 300 is formed by inserting the support portion 310 into the fastening hole provided in the lower housing 100 to couple with the lower portion of the body to fix the electrode 200 and the body exposed at the center of the fastening hole and the electrically conductive bridge terminal 500 are inserted into the terminal holes of the electrically conductive bridge terminal 500 so that the lower ends of the connecting rods 320 are first inserted into the terminal holes of the electrically conductive bridge terminal 500 and then inserted into the upper holes of the body.

The electrode connector 300 is connected to the compression spring 400 by inserting the lower end of the compression spring 400 into the upper end of the coupling rod 320 and fixing the electrically conductive bridge terminal 500 to the upper portion of the body.

The housing 100 including the lower housing 100 and the upper housing 110 includes an electrode connector 300, a compression spring 400, an electrically conductive bridge terminal 500, a conductive panel 600, (700), and further includes a stator (115) provided at an upper portion of the compression spring (400), that is, at a set point.

In the drawings, the components are expressed by exaggeratingly larger (or thicker) or smaller (or thinner) in size or thickness considering simplicity of understanding, etc. However, the scope of protection of the present invention is limited .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims. It can be understood that it is possible.

1000: electrode handle 100, 110: housing
200: electrode 300: electrode connector
400: Compression spring 500: Electrically conductive bridge terminal
600: conductive panel 700: electrode cable

Claims (7)

An electrode handle connected to the deep-
A compression spring which is moved from an initial relaxed state to a contracted state by an elastic force according to the contact when the electrode is in contact with the skin, and lifts the support portion supporting the electrode by a predetermined elastic section; And
The lower end of the fastening rod is connected to the lower end of the body so that the body exposed to the center of the fastening hole and the electric conductive bridge terminal come into contact with each other to be energized, The electric conductive bridge terminal is fixed to the upper portion of the body by inserting the lower end portion of the compression spring into the upper hole of the body, And an electrode connector connected to the spring,
When the electrode is not in contact with the skin, the compression spring recovers the relaxed state from the contracted state using the restoring force contrary to the elastic force to lower the supporting portion by the elastic section, and the electrically conductive bridge terminal Contact state with the conductive panel formed in the lower housing so as to switch from the energized state to the open state.
2. The connector of claim 1, wherein the electrically conductive bridge terminal comprises:
When the elastic force generated by the compression spring contraction is transmitted to the pressing member mounted in the lower housing, the tip portion is lowered by the pressing operation of the elastic force applied to the pressing member, so that the contact with the conductive panel is switched on And
Wherein when the switch is turned on, high frequency energy or low frequency energy applied from an electrode cable connected to the conductive panel is transmitted to the electrode connector.
2. The connector of claim 1, wherein the electrically conductive bridge terminal comprises:
When the restoring force generated by the compression spring relaxation is transmitted to the pressing member mounted in the lower housing, the tip portion is raised by the releasing action by the restoring force applied to the pressing member, so that the contact with the conductive panel is switched off In addition,
Wherein when the switch is turned off, high frequency energy or low frequency energy applied from the electrode cable connected to the conductive panel is cut off.
The method according to claim 1,
The lower portion of the body is screwed to an upper portion of the support portion which is lifted or lowered by the elastic portion when the compression spring is contracted or relaxed,
Wherein the fastening rod is a non-conductive intermediate mediator between the upper portion of the body and the compression spring and fastens the electrically conductive bridge terminal to the upper portion of the body through threaded engagement with the upper hole of the body. .
2. The compression spring of claim 1,
Wherein the fixing member is fixedly attached to a set point in an upper housing, which is extended in a straight line with a lower end of a compression spring fitted to an upper end of the fastening rod, and is fastened to a stator provided at the setting point.
The plasma display apparatus according to claim 1,
Wherein the electrode assembly is made of one selected from the group consisting of stainless steel, aluminum, platinum, gold, silver, titanium, iron, nickel plated, grommets, teflon, nylon and polyamide, And applying the delivered high-frequency energy or low-frequency energy to the skin.
2. The compressor according to claim 1,
In addition to the coil spring, a plate spring, a torsion spring, a plate spring, a ring spring, a ball spring spring,
Wherein the elastic member is contracted or relaxed within an elastic range of 0.1 mm to 30 mm.

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