CN104353185A - Multi-joint high frequency therapeutic device using insulation flexible sheet-shaped electrode and therapeutic method - Google Patents

Abstract

The utility model relates to a multi-joint high frequency therapeutic device using an insulation flexible sheet-shaped electrode and a therapeutic method based on human load feedback control. The multi-joint high frequency therapeutic device comprises a flexible contact human layer (111), a cloth conductive layer (112), a non-contact human layer (113), and a high voltage cable (114). The contact human layer (111), the cloth conductive layer (112), the non-contact human layer (113) are sequentially overlapped together to form a flexible sheet-shaped electrode part (110). By adopting the therapeutic device, the damages caused by the therapeutic device on the human body can be greatly reduced, the boundaries for the human being can be overcome, and the damages on the human body under any bending conditions cannot be caused. The mutual action of the plate of the human load can be determined, and the device can be used to sense whether the device is contacted with the human body, and the automatic control of the multi-joint high frequency therapy capable of generating the high frequency signals can be realized.

Description

Utilize multi-joint high-frequency treatment equipment and the Therapeutic Method of insulation flexible flap-type electrode

Technical field

The present invention relates to a kind of multi-joint high-frequency treatment device utilizing insulation flexible flap-type electrode, and based on this according to the high-frequency treatment method of body burden feedback control, more specifically be, possesses the electrode section of flexible board form, according to the interaction determining whether the plate that body burden is suitable for, whether real-time perception touches human body, thus automatically control to send high-frequency signal and carry out multi-joint high-frequency treatment, utilize the multi-joint high-frequency treatment device of insulation flexible flap-type electrode, in addition, comprise based on this according to the high-frequency treatment method of body burden feedback control.

Background technology

Utilize the technology of high frequency electric (being high-frequency signal below) not only for the purposes of radio wave communication, according to the electrophysics characteristic of the deep heat that can utilize for human body, its application is very outstanding.

Now, high-frequency signal does not exist with the Ionized energy, and exist with the non-ionic energy, except particular case, bio-tissue can not be destroyed, hot owing to occurring in the deep of health, therefore may be used for promoting hair growth, treatment pain disease (scapulohumeral periarthritis, arthralgia, myalgia etc.), blood circulation promoting, treatment hemorrhoid, alleviation pain disease, control cancer cell multiplication, treatment fat (decomposer is fatty), remove comedo, removal chloasma, improve hyperemia, xerophthalmia etc.

The high frequency treatment instrument of high-frequency signal is utilized generally to touch human body by producing the main body of high frequency, main body connect with cable, to carry out with cable being connected, carry out being energized to human body by high-frequency signal and the therapeutic electrode portion that forms is formed in order to the therapeutic electrode rod of the high frequency electric of main body supply being connected human body and the main body that possesses opposite potential excellent with therapeutic electrode like this.

Like this, on existing high frequency treatment instrument, between therapeutic electrode portion and therapeutic electrode rod, be put into meet subject patient therapentic part on, when main body exports high-frequency signal, it is hot to there is deep in the high-frequency signal of output and human body while carrying out being energized.

But, when this type of electrode section directly connects human body, because contacting the rejection of initiation to such an extent as to because of the spark caused that discharges, there is the problem of the human injury can cause burn etc. and so on.

Relate art literature

1, high frequency treatment instrument (Korean Patent Application No. code: No. 10-2007-0098292)

2, for body burden, there is compensatory electric needle therapeutic instrument (Korean Patent Application No. code: No. 10-2009-0130337).

Summary of the invention

Therefore, for effectively solving described problem, main purpose of the present invention is for providing a kind of multi-joint high-frequency treatment equipment utilizing insulation flexible flap-type electrode.

The present invention is in order to solve described problem points, constructed by the electrode section of the plate form by flexibility, improve with the degree of being adjacent to of its human body and wear sense, use medical PVC and avirulence non-conductive rubber-like heat insulating lamella, the both sides of electrode section can be made to insulate, utilize the multi-joint high-frequency treatment device in order to prevent the insulation flexible flap-type electrode because carrying out contacting the human injury that the rejection caused and the spark caused because discharging cause with human body, in addition, provide a kind of based on this according to the high-frequency treatment method of body burden feedback control.

In addition, in the present invention, flexible intralaminar part electrode section is formed with cloth electrode section, manufacture with type variable according to the shape and structure that plate is shaped, or after manufacturing, can be out of shape, therefore can overcome human body and be suitable for boundary line, utilizing in order to so bending multi-joint high-frequency treatment device that also can not cause the insulation flexible flap-type electrode of damage, in addition, is to provide based on this according to the high-frequency treatment method of body burden feedback control.

But, object of the present invention be not limited to described mentioned by the object that arrives, not mentioned other objects arrived are by following record, and those skilled in the art are also appreciated that.

In order to reach described object, the multi-joint high-frequency treatment device of the insulation flexible flap-type electrode utilized according to the invention process example is in flexible, being divided into contact human body layer (111), cloth conducting shell (112), non-contact human layer (113) and high tension cable (114), possessing the flexible flap-type electrode section (110) according to contacting human body layer (111), cloth conducting shell (112) and non-contact human layer (113) order laminated construction; And formed between cloth conducting shell (112) and high tension cable (114), comprise the control part (120) of conductivity cloth (112a) drived control high tension cable (114) being carried out cloth conducting shell (112), on control part (120), carry and determine whether according to cloth conducting shell (112) the body burden feedback control line module (121) being suitable for body burden, flexible flap-type electrode section (110) more than at least one, whether real-time perception touches human body respectively, and automatically controls.

Now; body burden feedback control line module (121) carries out determining whether applicable body burden; automatic control has no-output high-frequency signal; comprise the flexible flap-type electrode section (100) that the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b) are formed; play the function of multifunctional treating boundary belt, in order to be applicable to the multiarticulate high-frequency treatment of human body.

In addition, contact human body layer (111), use in the material of medical PVC (PolyVinyl Chloride) and avirulence non-conductive rubber-like and formed to comprise more than at least one, thickness is 0.5mm, and cloth conducting shell (112) effect is to be adjacent to human body skin.。

In addition, for contacting the medical PVC of human body layer (111) for salinization plastics coefficient 100 weight portion, containing plasticizer 30 to 80 weight portion, stibene oxide 1 to 3 weight portion, the avirulence non-conductive rubber-like of contact human body layer (111) adopts gum elastic, hardness uses Durometer A hardness less than 60, resistance uses 1012 more than Ω, utilizes any one in synthetic rubber, natural rubber or silicone rubber.

In addition, non-contact human layer (113), comprise in the material of medical PVC (PolyVinyl Chloride) and avirulence non-conductive rubber-like and more than at least one being formed, thickness with contact human body layer (111) and contrast, limit without thickness.

In addition, cloth conducting shell (112), comprise conductivity cloth (112a) and copper foil tape (112b), between multiple copper foil tape (112b), conductivity cloth (112a) possesses the structure carrying out keeping under the pressure preset, the comparator block circuit (121a) that body burden feedback control line module (121) is inner, possesses and is connected with multiple copper foil tape (112b) electricity consumption.

In addition, the stress strengthened in conductivity cloth (112a) is suitable for according to the external force (F) for the property led cloth (112a) tensile load, stress in conductivity cloth (112a) strengthens the resistance of the conductivity cloth (112a) according to change polymer smearing structure, and it is correct that the resistance variations of comparator block circuit (121a) utilizes voltage source to carry out measuring.

In order to reach described object, the high-frequency treatment method of the body burden feedback control based on the multi-joint high-frequency treatment device of the insulation flexible flap-type electrode utilized according to the invention process example comprises, control part (120) is for cloth conducting shell (112), according to determining whether the body burden feedback control line module (121) being suitable for body burden, comprise the 1st the stage whether flexible flap-type electrode section of real-time perception the 1st (110a) and the 2nd flexible flap-type electrode section (110b) touch human body respectively; Feedback control line module (121) determines whether the 2nd stage of the body burden being suitable for corresponding human Systemic Burden; And body burden is applicable or inapplicable according to judgement, the cloth conducting shell (112) that feedback control line module (121) is consisted of respectively the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b) inside, controls the 3rd stage having no-output high-frequency signal automatically.

In addition, in described 1st stage, body burden feedback control line module (121) is for the cloth conducting shell (112) comprising conductivity cloth (112a) and multiple copper foil tape (112b), between multiple copper foil tape (112b), conductivity cloth (112a) by carrying out in the structure that keeps under the pressure preset, stress in conductivity cloth (112a) strengthens the resistance variations of the conductivity cloth (112a) of the polymer smearing structure of change, carries out perception and whether touches human body.

In addition, the resistance variations perception in described 1st stage, carry out according to the comparator block circuit (121a) in body burden feedback control line module (121), resistance variations is that the resistance variations that the stress occurred according to external force (F) connects occurs, the resistance variations of comparator block circuit (121a) utilizes voltage source to measure.

In addition, in described 2nd stage, when the resistance variations of feedback control line module (121) is more than the marginal value preset, be judged as being applicable to body burden, when resistance variations is less than the marginal value preset, be judged as inapplicable body burden.

Invention effect

According to the multi-joint high-frequency treatment device of the insulation flexible flap-type electrode that the invention process example utilizes, and based on this according to the high-frequency treatment method of body burden feedback control, electrode section according to the plate form with flexibility is formed, improve with the degree of being adjacent to of human body and wear sense, use medical PVC and avirulence non-conductive rubber-like heat insulating lamella, can insulate in the both sides of electrode section, provide the effect can preventing the human injury caused because of the rejection caused with human contact and the spark caused because discharging.

In addition, utilize the multi-joint high-frequency treatment device of the insulation flexible flap-type electrode according to other enforcement examples of the present invention, and based on this according to the high-frequency treatment method of body burden feedback control, the electrode section of flexible intralaminar part is provided to be formed with cloth electrode section, manufacture with type variable according to the shape and structure that plate is shaped, or after manufacturing, can be out of shape, human body can be overcome and be suitable for boundary line, on bending at this kind, also can not cause the effect of damage.

Moreover, utilize the insulation flexible flap-type electrode multi-joint high-frequency treatment device according to other enforcement examples of the present invention, and based on this according to the high-frequency treatment method of body burden feedback control, basis and the interaction determining whether the plate being suitable for body burden are provided, whether real-time perception touches human body, can carry out the effect automatically controlled for the multi-joint high-frequency treatment occurred according to high-frequency signal.

Accompanying drawing explanation

Figure 1 shows that the schematic diagram of the multi-joint high-frequency treatment device (1) of the insulation flexible flap-type electrode of the invention process example.

Figure 2 shows that key diagram 1 utilizes in the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode, be divided into the exploded perspective view of the structure of the flexible flap-type electrode section (110) of the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b).

Figure 3 shows that key diagram 1 utilizes in the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode, according to the shape and structure of insulation flexible flap-type electrode forming, and the schematic diagram of type variable structure after manufacturing.

Figure 4 shows that on the multi-joint high-frequency treatment device (1) of the insulation flexible flap-type electrode that explanation utilizes according to the invention process example, determine whether the concept map being suitable for body burden process.

Figure 5 shows that the schematic diagram of various distortion enforcement examples Fig. 1 being utilized to the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode.

Figure 6 shows that the flow chart according to the high-frequency treatment method of body burden feedback control based on the multi-joint high-frequency treatment device (1) according to the insulation flexible flap-type electrode of the invention process example utilization.

Symbol description

1: the multi-joint high-frequency treatment device utilizing insulation flexible flap-type electrode

100: flexible flap-type electrode section

110a: the 1 flexible flap-type electrode section

110b: the 2 flexible flap-type electrode section

111: contact human body layer

112: cloth conducting shell

112a: conductivity cloth

112b: copper foil tape

113: non-contact human layer

114: high tension cable

120: control part

121: body burden feedback control line module

121a: comparator block circuit

Detailed description of the invention

Below with reference to drawing, detailed annotation embodiments of the invention:

Characteristic on described object of the present invention and structure and fuction thereof, is explained the preferred embodiment according to institute's accompanying drawing.When explanation main points of the present invention are judged as unnecessary, by detailed.

Figure 1 shows that the schematic diagram of the multi-joint high-frequency treatment device (1) of the insulation flexible flap-type electrode utilized according to the invention process example.Figure 2 shows that key diagram 1 utilizes in the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode, be divided into the exploded perspective view of the structure of the flexible flap-type electrode section (110) of the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b).Fig. 3 is depicted as key diagram 1 to utilize in the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode, according to the shape and structure of insulation flexible flap-type electrode forming, and manufactures the schematic diagram of rear type variable structure.

With reference to figure 1, the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode is utilized to comprise flexible flap-type electrode section (110) and control part (120).

Flexible flap-type electrode section (110) is overall to be formed with flexibility, as the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b), and can two or more multiple formation.

On the other hand, the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b) that realize flexible flap-type electrode section (110) are divided into contact human body layer (111), cloth conducting shell (112), non-contact human layer (113) and high tension cable (114) respectively, possess according to contact human body layer (111), cloth conducting shell (112) and non-contact human layer (113) laminated construction sequentially.

Contact human body layer (111) comprises in the material of medical PVC (PolyVinyl Chloride) and avirulence non-conductive rubber-like and at least being formed with more than one; thickness is that 0.5mm is formed, and cloth conducting shell (112) is formed to carry out the function of the multifunctional treating boundary belt be adjacent to human body skin.In the present invention, medical PVC is for salinization plastics system resin 100 weight portion, and it is correct for using containing plasticizer 30 to 80 weight portion, stibene oxide 1 to 3 weight portion.In addition, avirulence non-conductive rubber-like adopts gum elastic, and hardness uses Durometer A hardness less than 60, and resistance uses 1012 more than Ω, can utilize any one in synthetic rubber, natural rubber or silicone rubber.

Be in particular, contact human body layer (111) is radiated according to the high-frequency signal of the cloth conducting shell (112) being collected high-frequency signal from control part (120) by high tension cable (114), be that object is when carrying out with human body skin, while being carried out passing through by high-frequency signal, carry out the function of electric insulation according to the material of PVC and avirulence non-conductive rubber-like.

Cloth conducting shell (112) is formed between contact human body layer (110) and non-contact human layer (113), in order to not cause because of external force bending on damage, easily carry out flap-type electrode fabrication, possess and utilize the cloth electrode of conductivity cloth (112a, Fig. 4 reference) and formed.Collect high-frequency signal from control part (120) by high tension cable (114), in order to by contact human body layer (111), emit to human body skin and formed.Cloth conducting shell (112) utilizes conductivity cloth (112a), and the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b) that realize flexible flap-type electrode section (110) are carried out can form soft flap-type electrode respectively.

Non-contact human layer (113) is with to contact human body layer (111) identical, comprise in the material of medical PVC (PolyVinyl Chloride) and avirulence non-conductive rubber-like and more than at least one being formed, thickness can contrast with contacting human body layer (111), is formed without thickness restriction.

As mentioned above, according to according to contact human body layer (111), the laminated construction of cloth conducting shell (112) and non-contact human layer (113) order, realize possessing the 1st flexible flap-type electrode section (110a) of the flexible flap-type electrode section (110) of flexibility plate form and the 2nd flexible flap-type electrode section (110b) is formed respectively, improve with the degree of being adjacent to of human body and wear sense, can insulate in the both sides of cloth conducting shell (112) by medical PVC and avirulence non-conductive rubber-like heat insulating lamella, the effect rejection that reduces because causing with human contact being provided and damaging because of spark.

High tension cable (114) is formed between cloth conducting shell (112) and control part (120), carries out the function signal of telecommunication that cloth conducting shell (112) sends being communicated to control part (120).

Control part (120) is formed between cloth conducting shell (112) and high tension cable (114), and high tension cable (114) carries out the drived control of the conductivity cloth (112a) for corresponding cloth conducting shell (112) cloth electrode.

Be in particular, control part (120) carries and determines whether according to cloth conducting shell (112) the body burden feedback control line module (121) being suitable for body burden, and whether the flexible flap-type electrode section of real-time perception the 1st (110a) and the 2nd flexible flap-type electrode section (110b) touch human body respectively controls automatically.

In addition; the body burden feedback control line module (121) of control part (120) carries out determining whether applicable body burden; automatic control has no-output high-frequency signal; the flexible flap-type electrode section (100) comprising the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b) plays the function of multifunctional treating boundary belt, provides and is applicable to the multiarticulate high-frequency treatment device of human body.

Fig. 4 is depicted as in the multi-joint high-frequency treatment device (1) of the insulation flexible flap-type electrode utilized according to the invention process example, determines whether the concept map of the process being suitable for body burden.With reference to figure 4, cloth conducting shell (112) comprises conductivity cloth (112a), copper foil tape (112b).In addition, between multiple copper foil tape (112b), conductivity cloth (112a) possesses the structure carrying out keeping under the pressure preset.

The comparator block circuit (121a) of body burden feedback control line module (121) inside possesses the structure carrying out with multiple copper foil tape (112b) electricity consumption being connected.

The tensile load of external force (F) according to to(for) conductivity cloth (112a) is suitable for the stress strengthened in conductivity cloth (112a).

Stress in conductivity cloth (112a) strengthens the resistance of the conductivity cloth (112a) of change polymer smearing structure.The resistance variations that this resistance variations carries out connecting with the stress occurred according to external force (F) occurs, the resistance variations of comparator block circuit (121a) utilizes voltage source to measure.

Fig. 5 is that display utilizes the various distortion of the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode to implement the schematic diagram of example for Fig. 1.First, Fig. 5 a be display to utilize the both sides insulated high frequency probe on the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode, realize the example that the 1st flexible flap-type electrode section (110a) of flexible flap-type electrode section (110) and the 2nd flexible flap-type electrode section (110b) are formed respectively.With reference to figure 5a, contact human body layer (111) and non-contact human layer (113) are insulation mode (CET:Capacitive Electric Transfer) and being formed, contact human body layer (111) is formed with the electro-insulating rubber (or urethane) of corresponding avirulence non-conductive rubber-like material, and non-contact human layer (113) is formed with the rubber that finishes up (or urethane).

Fig. 5 b is depicted as the nonisulated high frequency probe in both sides utilized on the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode, realizes the example that the 1st flexible flap-type electrode section (110a) of flexible flap-type electrode section (110) and the 2nd flexible flap-type electrode section (110b) are formed respectively.With reference to figure 5b, contact human body layer (111) and non-contact human layer (113) are formed in order to nonisulated mode (RET:Resistive Electric Transfer), contact human body layer (111) is formed with the hesive conductive gel layer of tool, and non-contact human layer (113) is formed with the ending rubber (or urethane) of corresponding avirulence non-conductive rubber-like material.

Fig. 5 c is depicted as the oscillating mode insulating electrode high frequency probe utilized on the multi-joint high-frequency treatment device (1) of insulation flexible flap-type electrode, realizes the example that the 1st flexible flap-type electrode section (110a) of flexible flap-type electrode section (110) and the 2nd flexible flap-type electrode section (110b) are formed respectively.

With reference to figure 5c, contact human body layer (111) and non-contact human layer (113) are formed in order to insulation mode (CET:CCapacitive Electric Transfer), contact human body layer (111) is formed with the electro-insulating rubber (or urethane) of corresponding avirulence non-conductive rubber-like material, and non-contact human layer (113) is formed with the rubber that finishes up (or urethane).

In addition, inner at non-contact human layer (113), formed with printed circuit substrate (114), electronic unit portion (115) and motor type ticker (116).

Here, electronic unit portion (115) divide into two with motor type ticker (116) by length direction, and the 1st electronic unit portion (115a) and the 2nd electronic unit portion (115b) carry out sectionalization and formed.Here, example is implemented as one of the present invention, 1st electronic unit portion (115a) and the 2nd electronic unit portion (115b) utilize motor type ticker (116), for generating the module of various ripple signal and mode of vibration.

Figure 6 shows that the flow chart of the high-frequency treatment method according to body burden feedback control based on according to the multi-joint high-frequency treatment device (1) of the insulation flexible flap-type electrode of the invention process example utilization.Referring to figs. 1 to Fig. 6, control part (120) is for cloth conducting shell (112), according to determining whether the body burden feedback control line module (121) being suitable for body burden, whether the flexible flap-type electrode section of real-time perception the 1st (110a) and the 2nd flexible flap-type electrode section (110b) touch human body (S11) respectively.

Be in particular, body burden feedback control line module (121) is for the cloth conducting shell (112) comprising conductivity cloth (112a) and multiple copper foil tape (112b), between multiple copper foil tape (112b), under conductivity cloth (112a) carries out the structure kept under the pressure preset, perception strengthens the resistance variations of the conductivity cloth (112a) of the polymer smearing structure of change according to the stress in conductivity cloth (112a).Here, the change perception of resistance is carried out according to the comparator block circuit (121a) in body burden feedback control line module (121), and the change that described resistance variations carries out connecting with the stress occurred according to external force (F) occurs.As a result, the resistance variations of comparator block circuit (121a) utilizes voltage source to measure.

After stage (S11), feedback control line module (121) determines whether the body burden (S12) being suitable for corresponding body burden.When the resistance variations of feedback control line module (121) is more than the marginal value preset, be judged as applicable body burden, when resistance variations is less than the marginal value preset, be judged as inapplicable body burden.

After stage (S12), when being judged as applicable body burden, feedback control line module (121), by cloth conducting shell (112), controls there is no-output high-frequency signal (S13) automatically.

Although embodiment of the present invention are open as above, but it is not restricted to listed in description and embodiment utilization, it can be applied to various applicable the field of the invention completely, for those skilled in the art, can easily realize other amendment, therefore do not deviating under the general concept that claim and equivalency range limit, this and invention are not limited to specific details and illustrate here and the legend described.

Claims (10)

1. one kind utilizes the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode, it is characterized in that, comprise: have flexible contact human body layer (111), cloth conducting shell (112), non-contact human layer (113) and high tension cable (114), described contact human body layer (111), cloth conducting shell (112) and non-contact human layer (113) superpose successively and form flexible flap-type electrode section (110); And

Control part (120), it is arranged between cloth conducting shell (112) and high tension cable (114), it is by the drived control instruction of high tension cable (114) conduction to the conductivity cloth (112a) on cloth conducting shell (112)

Control part (120), comprise body burden feedback control line module (121), it can determine whether applicable body burden according to cloth conducting shell (112), also comprise the flexible flap-type electrode section (110) of more than at least one, real-time perception whether can touch human body and automatically control.

2. utilize the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode as claimed in claim 1, it is characterized in that, described body burden feedback control line module (121),

Carry out determining whether applicable body burden; automatic control has no-output high-frequency signal; coordinate the flexible flap-type electrode section (100) comprising the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b) and form; play the function of multifunctional treating boundary belt, provide applicable human body multiarticulate high-frequency treatment.

3. utilize the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode as claimed in claim 1, it is characterized in that, described contact human body layer (111),

Comprise in the material of medical PVC and avirulence non-conductive rubber-like more than at least one, thickness is 0.5mm, and cloth conducting shell (112) is adjacent to mutually with human body skin, plays multifunctional treating boundary belt function.

4. utilize the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode as claimed in claim 3, it is characterized in that, in the medical PVC of contact human body layer (111), containing the weight of plasticizer 30 to 80, the weight of stibene oxide 1 to 3 in its salinization plastics coefficient 100 weight

Contact human body layer (111) adopts avirulence non-conductive gum elastic, and hardness is Durometer A hardness less than 60, and resistance adopts 1012 more than Ω, adopts any one in synthetic rubber, natural rubber or silicone rubber.

5. utilize the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode as claimed in claim 3, it is characterized in that, non-contact human layer (113),

More than at least one form by the material of medical PVC and avirulence non-conductive rubber-like, thickness is with to contact human body layer (111) corresponding, and thickness is without particular restriction.

6. utilize the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode as claimed in claim 3, it is characterized in that, cloth conducting shell (112),

Comprise conductivity cloth (112a) and copper foil tape (112b), described in the property led cloth (112a) be arranged between multiple copper foil tape (112b), there is the structure carrying out under stress protecting,

The comparator block circuit (121a) that body burden feedback control line module (121) is inner,

Described cloth conducting shell (112) is electrically connected with multiple copper foil tape (112b).

7. utilize the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode as claimed in claim 6, it is characterized in that, the counteracting force in conductivity cloth (112a) is strengthened according to the external force (F) of the tensile load acting on conductivity cloth (112a), active force in conductivity cloth (112a) changes according to the resistance of the conductivity cloth (112a) of polymer smearing structure

The resistance variations of described comparator block circuit (121a) utilizes voltage source to measure.

8. one kind utilizes the Therapeutic Method of the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode, it is characterized in that, comprise: the 1st stage, by control part (120) by cloth conducting shell (112), determine whether the body burden feedback control line module (121) being suitable for body burden, the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b) are carried out real-time perception and whether are touched human body respectively;

In 2nd stage, feedback control line module (121) determines whether the load being suitable for human body according to body burden value;

3rd stage, according to being suitable for or inapplicable body burden of judging, the cloth conducting shell (112) that feedback control line module (121) is consisted of respectively the 1st flexible flap-type electrode section (110a) and the 2nd flexible flap-type electrode section (110b) inside, the output of automatic control high frequency signal.

9. utilize the Therapeutic Method of the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode as claimed in claim 8, it is characterized in that, described 1st stage,

Body burden feedback control line module (121) is comprised to the cloth conducting shell (112) of conductivity cloth (112a) and multiple copper foil tape (112b); between multiple copper foil tape (112b); conductivity cloth (112a) has the structure carrying out protecting under the pressure preset; by strengthening change according to the counteracting force in conductivity cloth (112a); the resistance of the conductivity cloth (112a) of change polymer smearing structure, carries out perception to whether touching human body.

10. utilize the Therapeutic Method of the multi-joint high-frequency treatment equipment of insulation flexible flap-type electrode as claimed in claim 9, it is characterized in that, the resistance variations perception in described 1st stage,

Undertaken by the comparator block circuit (121a) in body burden feedback control line module (121), resistance variations occurs with the resistance variations be connected with the stress occurred according to external force (F), and comparator block circuit (121a) utilizes voltage source to carry out being determined as based on the multi-joint high-frequency treatment device utilizing insulation flexible flap-type electrode of feature by resistance variations.

In addition, in described 2nd stage, when the resistance variations of feedback control line module (121) is more than the marginal value preset, be judged as applicable body burden, when resistance variations is less than the marginal value preset, be judged as inapplicable body burden.