KR200252068Y1 - A conductive plate for an ion therapy apparatus - Google Patents

Abstract

The present invention relates to a current carrying plate for a potential therapy machine manufactured by Silk Screen Printing method, the current carrying plate for a potential therapy machine according to the present invention, a) a support member; b) a conductive member made of a conductive material and formed on the support member to have a predetermined pattern; And c) a heat-adhesive member on the conductive member to protect the conductive member, wherein the predetermined pattern of the conductive member is formed by silk screen printing of a conductive paste. The electrical conduction plate for the potential therapy device according to the present invention is capable of low resistance by using silver having excellent conductivity, and does not require a conventional high frequency sealing treatment process by high temperature adhesion or PET film tape adhesion, and can be manufactured without variation in resistance value.

Description

Electric Plate for Dislocation Therapy {A CONDUCTIVE PLATE FOR AN ION THERAPY APPARATUS}

The present invention relates to a conducting plate for a potential therapy device, and more particularly, to a conduction plate for a potential therapy device manufactured by a silk screen printing method.

In general, about 100km above the earth has a layer of inert molecules called 'ionic permeate carriers', and the electric field of enormous size is filled with ion permeate carriers filled with positive ions and negative ions. Formed between the earth's surface, the natural electric field around the earth affects all living things in the ion permeation carrier.

Potential therapy device is a high-performance electrotherapy machine using this principle, and it is to artificially form a vivid electric field to maintain the state of the human body optimally, and to indirectly act on the human body by generating a high-voltage potential difference electrically.

That is, a thick anion layer is generated around the conductors in the human body by electrically load-loading the anions necessary for the human body by ion electrostatic therapy, and the minerals in the blood are effectively used and acidified by the action of the anion layer. Prevents and maintains a positive alkaline blood state to increase disease prevention and resistance.

In other words, the potential therapy device generates dozens of stimulation vibrations as the high-voltage potential difference passes through the human body, activating cell tissue function, promoting metabolism function to increase the amount of waste products while ionizing the human body, and acidified blood It converts into an ideal weak alkaline to help improve the constitution as a strong constitution to resist various diseases, and to remove the cholesterol in the arterial vessel walls to expand the peripheral blood vessels to facilitate blood circulation to prevent symptoms of hypertension and chronic diseases, autonomous By adjusting the nerves will work to improve the regulation of endocrine.

Typically, the potential therapy device has an energizing plate having a therapeutic lead that outputs a high potential of 9 kV or less as an effective value, and exhibits a therapeutic effect such as blood circulation and constitution improvement for a patient lying or sitting on the energizing plate. . The therapeutic lead is a carbon-based plate or a fiber woven plate made of carbon fiber, and a positive and negative conductive line is fixed. In addition, the energizing plate is formed in the shape which covered the said cover with the insulation lead, such as vinyl, on the cotton cloth. Then, the potential therapy device is to output a high potential from the therapeutic lead by applying a high potential current to the treatment lead.

In addition, the potential treatment device in Patent Publication No. 1996-0014100, in contact with a portion of the human body insulated by an insulator on a conductive element coated with an insulator, and generates a high electric field between the conductive element and the human body within the high field It is known that various kinds of configurations are provided such that a potential is supplied so as to have a potential difference between each conductive element by placing a conductive element connected to an output terminal in the secondary coil of the boost transformer near the head, the foot, and the middle of the human body. ought.

1 is a schematic configuration diagram of a current carrying plate for a potential therapy device manufactured according to the prior art, and a conventional current carrying device for a potential therapy device includes a current carrying member 12 and an insulating member 11 supporting the current carrying member. The conduction plate 12, that is, the conductive plate for forming the potential difference, has been used by applying a carbon-based plate or a knitted plate 12 made of carbon fiber to a nonwoven fabric or a cloth 11. The resistance value of the conductive plate 12 coated on the nonwoven fabric 11 is high resistance (a few kW), and has a disadvantage in that low resistance (generally required resistance value of the conductive plate is about 15 kW) cannot be made. . In addition, when the carbon fiber is applied to the nonwoven fabric or cloth, there is a problem that the application of a certain thickness can not be applied, the resistance variation of the finished product is severe, and subsequently a high frequency sealing process is required.

An object of the present invention for solving the above problems is to provide a current-carrying plate for a potential therapy device that is manufactured by silk-screen printing to always make a desired resistance value using a paste having excellent conductivity and coating property.

1 is a schematic plan view of a current carrying plate for a potential therapy device manufactured according to the prior art.

Figure 2 is a longitudinal cross-sectional view of the energizing plate for the potential therapy device produced by the silkscreen printing method according to the present invention.

Figure 3 is a view for explaining the processing of the PET (polyester) film of the current carrying plate for a potential therapy device according to the present invention.

Figure 4 is a view showing a silk screen forming a printing pattern of the current carrying plate for dislocation therapy device according to the present invention.

Figure 5 is a view for explaining the printing of the silver paste of the current-carrying plate for potential therapy apparatus according to the present invention.

Figure 6 is a view showing the heat treatment of the PET film of the current-carrying plate for potential therapy apparatus according to the present invention in a conveyor type heat treatment furnace.

Figure 7 is a view showing the heat treatment of the PET film of the current-carrying plate for potential therapy apparatus according to the present invention in a hot air dryer.

Figure 8a is a view showing a current carrying plate for a potential therapy device coupled to the connector according to the present invention.

Figure 8b is a longitudinal cross-sectional view of the current carrying plate for potential therapy device coupled to the connector according to the present invention.

9 is a view showing the bonding using a heat-adhesive tape or PET film tape for the protection of the current carrying plate for the potential therapy device according to the present invention.

As a means for achieving the above object, the energizing plate for the potential therapy device according to the present invention is a) support member; b) a conductive member made of a conductive material and formed on the support member to have a predetermined pattern; And c) a heating member which is heat-bonded on the conductive member to protect the conductive member, wherein the predetermined pattern of the conductive member is characterized in that the conductive paste is silk screen printed. .

Here, the conductive paste applied on the conductive member may be a silver paste or a carbon paste, and the silver paste and the carbon paste are preferably mixed in a ratio of 10 to 1 to 3.

Moreover, it is preferable that the said support member is a PET (polyester) film or a silicone film.

In addition, the protection member is characterized in that the hot metal tape or PET film tape is heated and bonded on a roller in which a heater is built in to protect the energizing member.

Therefore, according to the present invention, by using a silver paste having a high conductivity using silk screen printing technology, that is, by using the uniform coating properties, precision and high conductivity of silver of the silk screen printing method From low resistance (15 Ohm) to high resistance (1 Ω or more) the desired resistance value can be always made.

Hereinafter, with reference to the accompanying drawings, it will be described an embodiment of the current carrying plate for potential therapy device according to the present invention.

Figure 2 is a longitudinal cross-sectional view of the energizing plate for the potential therapy device produced by the silk screen printing method according to the present invention. The current-carrying plate for the potential therapy device manufactured by the silkscreen printing method according to the present invention includes a) a PET film for supporting 21; b) a conductive plate 22 made of a conductive material and formed on the supporting PET film 21 to have a predetermined pattern; And c) a protective film 23 which is heat-bonded on the conductive plate 22 to protect the conductive plate 22, wherein the predetermined pattern of the conductive plate 22 has a conductive paste silk. By screen printing, the desired resistance value can be obtained because the screen remains constant without resistance variation over its entire area. In addition, a connector (not shown) having a terminal connected to the conductive plate 22 to supply a predetermined power by subsequent work is coupled to the conductive plate 22.

Here, the conductive paste of the conductive plate 22 is preferably a silver paste or a carbon paste, and the silver paste and the carbon paste are in a range of 10 to 1, preferably 10 to 2 It may be mixed at a ratio.

Here, a conductive material forming the conductive paste is printed on the upper surface of the supporting PET film 21 serving as the supporting member. That is, by using a conductive material, the conductor pattern is formed by a printing method such as a silk screen. Here, the conductive material refers to a composition having electrical conductivity for energization, for example, silver paste, gold paste, copper paste, carbon paste It means that it contains a conductive material such as. Usually, the conductive material contains a resin that can be cured by a certain external environment.) Please make sure that the description of the paste is correct.

For example, in the case of silver paste, although it differs according to a bonding object, UV curable resin, a thermosetting resin, etc. are contained. Therefore, the conductive material includes a material having electrical conductivity and a curable resin, and may implement a desired conductive circuit pattern on the upper surface of the non-conductive pattern layer described above.

On the other hand, a silicone film may be used in place of the PET film 21 for support used as the support member.

Hereinafter, with reference to Figures 3 to 9, the dislocation therapy device according to the present invention and a process for manufacturing it by a silk screen printing method will be described.

The manufacturing process of the energizing plate of the dislocation therapy device according to the present invention comprises the steps of: a) forming a support member; b) forming a conductive member made of a conductive material on the support member to have a predetermined pattern by using a silkscreen printing method; And c) adhering a protective member to protect the energizing member. According to a specific embodiment of the present invention, the manufacturing process of the energizing plate of the positioner is a) PET film processing process, b) Silkscreen manufacturing process with a printed pattern, c) silver paste printing process, d) PET film heat treatment process, e) connector It is made of a connecting process, and f) a protective tape bonding process, it will be described in detail with reference to the accompanying drawings.

First, Figure 3 is a view for explaining the heat treatment of the PET (polyester) film of the current-carrying plate for potential therapy device according to the present invention, PET (polyester) film 32 according to the present invention for improving heat resistance Heated at 130 ± 5 ° C. for about 2 minutes 30 seconds for heat treatment and then cut into appropriate sizes.

4 is a view showing a silk screen having a printing pattern of the current-carrying plate for the electric potential treatment device according to the present invention, in the present invention, the pattern 42 of the conductive plate shape on the silk screen 41 according to a conventional silk screen manufacturing technique. ).

FIG. 5 is a view showing the formation of a silver paste in a printing pattern on a PET film using the silkscreen 41 shown in FIG. 4 as a mask, wherein the PET film 51 prepared on the printing machine 50 is prepared. The silver paste 53 is placed on the silk screen 52 positioned on the PET film 51, and is pressed and printed with a squeeze 54 or the like.

6 is a view showing the heat treatment in a conveyor type heat treatment furnace to improve the heat resistance of the PET film of the current-carrying plate for the electropotential treatment device according to the present invention, a conveyor heat treatment furnace for heat treatment of the printed PET film 62 In FIG. 63, the PET film 62 is transferred through the first and second rollers 61a and 61b while being heated at 130 ° C. for about 2 minutes.

7 is a view showing a heat treatment in a hot air dryer to improve the heat resistance of the PET film of the current-carrying plate for the electropotential treatment device according to the present invention, as in FIG. 73) shows the heat treatment of the printed PET film 72 mounted on top.

6 and 7, the heat treatment of the PET films 62 and 72 is preferably performed for about 1 minute or more.

On the other hand, Figure 8a is a view showing a current carrying plate for a potential therapy device to which the connector is coupled according to the present invention, the connector 83 is coupled to the conductive plate 82 coated with silver paste on the upper support member 81 It is shown. At this time, a predetermined potential difference is generated in the connector 83 by supplying predetermined power through a terminal from an external controller (not shown). 8B is a longitudinal cross-sectional view of a current carrying plate for a potential therapy device in which a connector is coupled according to the present invention, and the current carrying plate for a potential therapy device according to the present invention includes terminals 83a and 83b of the connector 83 and a PET film 81. And a conductive plate 82 coated with silver paste is coupled through a rivet 84.

9 is a view showing the bonding using a heat-adhesive tape or PET film tape for the protection of the current-carrying plate for the electric potential treatment device according to the present invention, a heat-adhesive tape or The PET film tape is shown to be bonded. As shown, the second and third rollers 92 and 93 having a heater built therein are hot melt tapes or PET film tapes transferred through the first rollers 91 and the fourth rollers 94. Heating in the phase. At this time, the heating temperature of the second and third rollers 92 and 93 in which the heater is embedded is preferably about 150 ° C.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those who have

The current carrying plate for the potential therapy device according to the present invention is manufactured by silk screen printing, and has low resistance by using silver having excellent conductivity, and conventional high frequency sealing treatment process is unnecessary by bonding a heat adhesive tape or PET film tape. . In addition, in the case of the existing current-carrying board products, the controller and the resistance value does not match (especially when low resistance is desired). Since coating property is excellently manufactured by the printing method, it can manufacture without a variation of resistance value.

Claims (6)

a) support member; b) a conductive member made of a conductive material and formed on the support member to have a predetermined pattern; And c) a protective member heat-bonded on the energizing member to protect the energizing member Including; The predetermined pattern of the conductive member is formed by silk screen printing a conductive paste. Current board for potential therapy device. The method of claim 1, And a conductive paste applied on the conductive member is a silver paste and / or a carbon paste. The method of claim 1, Electrical support plate for the potential therapy device, characterized in that the support member is a PET (polyester) film. The method of claim 1, The current carrying plate for the potential therapy device, characterized in that the support member is a silicon film. The method of claim 1, The protective member is a current-carrying plate for a potential therapy device, characterized in that the hot melt tape (hot melt tape) is heated on a roller with a built-in heater attached to the conductive member. The method of claim 1, The protective member is a current-carrying plate for a potential therapy device, characterized in that the PET film tape is heated on a roller with a heater built-in adhered to the conductive member.