CN108379737B - Pulse therapy flat cable and manufacturing method thereof - Google Patents

Abstract

The invention discloses a pulse treatment flat cable and a manufacturing method thereof, comprising the following steps: PET film as a bus bar substrate; a plurality of ultrathin ferrite sheets attached to the PET film; coils which are all arranged on the PET film through a wiring method, wherein ferrite and the coils jointly form a planar oscillator; the electrode lead ends and the probe part lead ends are arranged on the PET film through a wiring method, and a circuit is printed on the PET film through an addition method; the covering film is attached to the PET film, an opening is formed in the covering film, and the electrode lead end and the probe part lead end protrude out of the covering film through the opening; the Dome sheet is arranged on the upper surface of the covering film and is attached to the lead end of the probe part, and a metal elastic sheet in the Dome sheet is used as a convex probe. The technical scheme is that the three-in-one assembly of the electrode, the probe and the oscillator is formed in the treatment flat cable, so that complicated probe replacement actions are omitted, simultaneous or independent treatment with several functions is realized, and the operation of pulse treatment can be conveniently finished by a user in a self-service manner.

Description

Pulse therapy flat cable and manufacturing method thereof

Technical Field

The invention relates to the technical field of pulse treatment equipment, in particular to a pulse treatment flat cable and a manufacturing method thereof.

Background

The common meridian pulse therapeutic instrument has a plurality of therapeutic functions: fixed electrode plate therapy, electric acupoint pressing therapy, electric rolling governor vessel acupoint healing and simultaneous rolling stimulation therapy, etc.; wherein, the probes of the fixed electrode plate therapy and the electric acupoint therapy are relatively simple, and the acupoint direct-pressing points of the main disease acupoint, so that the pulse voltage signal forms a loop in the human body; the important parts of the probe for the electric rolling governor vessel acupoint healing and rolling stimulation therapy are an intermittent oscillator, in particular to a transformer, a triode and a resistance-capacitance part which are wound on ferrite magnetic materials by enamelled wires, the intermittent oscillator is powered by direct current 3V voltage, and 0-50V adjustable pulse voltage is generated after oscillation. Professional pulse therapy has other therapies: neuromuscular electrical stimulation therapy (NMES), functional electrical stimulation therapy (FES), induction therapy, indirect electrical therapy, hyperstimulation electrical therapy, neural Therapy (TENS), high voltage low frequency pulse electrical therapy (HVPC), spinal cord electrical stimulation therapy (SCS),

the above components are mainly dependent on import and are complicated to operate, for example, the detection and conversion part needs to be monitored by using a thin rubber spherical cap at the upper end of the balloon card and the pulse therapy operation cannot be completed by the user.

Disclosure of Invention

In view of the above-mentioned problems in the prior art, a pulse therapy flat cable is provided that is capable of conveniently performing a pulse therapy by a user by self-help, so as to overcome the above-mentioned technical drawbacks.

The specific technical scheme is as follows:

a pulse therapy ribbon wire comprising:

the upper surface of the PET film is coated with glue as the PET film of the flat cable matrix;

a plurality of ferrites with ultrathin sheet structures are attached to the PET film through glue;

coils with the same number as ferrite are arranged on the PET film through a wiring method, a coil is arranged on the upper surface of each ferrite, and each ferrite and the corresponding coil form a planar oscillator together;

the electrode lead ends, the probe lead ends and the coils are all electrically connected in the circuit;

the covering film is attached to the PET film through glue, ferrite and coils are positioned between the covering film and the PET film, a plurality of openings corresponding to the positions of the electrode lead ends and the lead ends of the probe parts are formed in the covering film, and each electrode lead end and each probe part lead end protrude out of the upper surface of the covering film through one opening; the method comprises the steps of,

the Dome sheet is arranged on the upper surface of the covering film and is attached to the lead end of the probe part, and a metal elastic sheet in the Dome sheet is used as a convex probe; the pulse therapy flat cable is entirely flexible and bendable.

Preferably, a flat cable lead terminal is further arranged on the PET film, the flat cable lead terminal is electrically connected with the circuit, the flat cable lead terminal also protrudes out of the cover film through an opening formed in the cover film, and the flat cable lead terminal is electrically connected with an external pulse therapeutic apparatus through a wire.

Preferably, the electrode lead end and the probe portion lead end are both gold-plated.

Preferably, the glue is a hot melt glue.

Preferably, the ferrite is made flexible by rolling and crushing.

Preferably, the circuit is formed on the PET film by additive printing from silver paste.

Preferably, the electrode lead end, the probe portion lead end, the coil, and the flat wire lead terminal are all directly formed by silver paste when being printed on the PET film by an additive method.

The invention also provides a method for manufacturing the pulse therapy flat cable, which comprises the following steps:

step a, selecting a PET film coated with hot melt adhesive as a flat cable matrix;

b, attaching the ferrite with the ultrathin sheet structure to the PET film;

step c, coils are continuously distributed on the PET film by a wiring method, and a planar oscillator is formed together with ferrite;

step d, arranging an electrode lead end and a probe position lead end on the PET film by a wiring method;

step e, printing silver paste on the electrode lead end and the lead end of the probe part on the PET film by an addition method process, and forming a flat cable lead terminal;

f, attaching a covering film on the PET film, and opening a window on the covering film to expose the electrode lead end, the lead end at the probe part and the lead terminal part of the flat cable;

step g, gold plating treatment is carried out on the electrode lead end, the lead end of the probe part and the lead terminal of the flat cable;

and h, attaching a Dome sheet to the lead end of the probe part, and taking a metal elastic sheet of the Dome sheet as a protruding probe.

The beneficial effects of the technical scheme are that:

(1) The electrode, the probe and the oscillator are integrated in one treatment flat cable, the treatment flat cable is provided with the oscillator, the electrode plates (the plurality of electrodes are formed together) and the probe, the pulse treatment flat cable is connected to the pulse treatment instrument, the whole treatment flat cable is flexible and bendable, so that the treatment flat cable can be worn by an arm or a waistband, fixed electrode plate therapy, electric acupoint pressing therapy, electric rolling acupoint pressing and simultaneous rolling stimulation therapy and the like can be realized only by correspondingly selecting a functional button on the pulse treatment instrument, complicated probe replacement actions are omitted, the operation is really simple and convenient, the functional buttons can be conveniently operated on the pulse treatment instrument, a plurality of functions can be simultaneously or independently treated, and the pulse treatment operation can be conveniently finished by a user in a self-service mode.

(2) The manufacturing method of the invention has the lowest cost of realizing the treatment flat cable with the combination of the oscillator, the electrode plate and the electrode probe, and the ultra-thin oscillator, the electrode and the probe are covered, so that the product can be directly soaked in the disinfectant for convenient use, the repeated use (nearly ten thousand times) of the oscillator and the electrode probe of the treatment instrument is realized, the use cost is about 1/20 of that of the independent component, and the invention has popularization advantage.

Drawings

FIG. 1 is a schematic diagram of a pulse therapy ribbon cable according to an embodiment of the present invention with ferrite bonded to a PET film;

FIG. 2 is a schematic diagram of a structure of a PET film after coils are continuously arranged on the PET film by a wiring method in an embodiment of the pulse therapy flat cable of the present invention;

FIG. 3 is a schematic diagram of the structure of the pulse therapy ribbon cable according to the embodiment of the present invention after the circuit lines are printed on the PET film by the additive method;

FIG. 4 is a schematic diagram of a pulse therapy ribbon cable according to an embodiment of the present invention after a cover film is attached to PET;

FIG. 5 is a schematic diagram of a structure of a pulse therapy ribbon according to an embodiment of the present invention, in which a Dome sheet is attached to a lead end of a probe to form a protruding probe;

FIG. 6 is an enlarged view of a portion of section I of FIG. 3;

FIG. 7 is a flow chart of a method for manufacturing a pulse therapy ribbon cable according to the present invention.

Description of the embodiments

In order to make the technical means, the creation characteristics, the achievement of the purposes and the effects of the present invention easy to understand, the following embodiments are specifically described with reference to fig. 1 to 7 for a pulse therapy flat cable and a manufacturing method thereof.

Examples

Referring to fig. 1 to 5, schematic structural views of each stage in the manufacturing process of the pulse therapy flat cable are shown, and fig. 6 is a partially enlarged view of the I portion in fig. 3. And defines the outward direction of the paper surface as shown in fig. 1 as the upward direction of the present embodiment, the inward direction of the paper surface is the downward direction of the present embodiment, i.e., fig. 1 to 6 are all seen from the top.

As shown in fig. 1 to 6, the pulse therapy flat cable provided by the present invention includes: a PET film 1 serving as a winding displacement matrix, wherein the upper surface of the PET film 1 is coated with glue; a plurality of ferrites 2 with ultrathin sheet structures are attached to the PET film 1 through glue; the coils 3 are equal in number to the ferrite 2, the coils 3 are all arranged on the PET film 1 through a wiring method, one coil 3 is arranged on the upper surface of each ferrite 2, and each ferrite 2 and the corresponding coil 3 form a planar oscillator together; a plurality of electrode lead terminals 4 and a plurality of probe position lead terminals 5 are all arranged on the PET film 1 through a wiring method, a circuit 8 is printed on the PET film 1 through an addition method, and the electrode lead terminals 4, the probe position lead terminals 5 and the coils 3 are all electrically connected in the circuit 8; the covering film 7 is attached to the PET film 1 through glue, the ferrite 2 and the coil 3 are positioned between the covering film 7 and the PET film 1, a plurality of openings (not shown in the figure) corresponding to the positions of the electrode lead terminal 4 and the probe position lead terminal 5 are formed in the covering film 7, and each electrode lead terminal 4 and each probe position lead terminal 5 respectively protrude out of the upper surface of the covering film 7 through one opening; and a Dome sheet 9 disposed on the upper surface of the cover film 7 and attached to the probe position lead terminal 5, wherein a metal spring sheet (not shown) in the Dome sheet 9 is used as a protruding probe; the pulse therapy flat cable is entirely flexible and bendable.

Based on the technical scheme, the three-in-one set of the electrode, the probe and the oscillator is formed in one treatment flat cable, the treatment flat cable is provided with the oscillator, the electrode plates (the plurality of electrodes are jointly formed) and the probe, the pulse treatment flat cable is connected to the pulse treatment instrument, the whole treatment flat cable is flexible and bendable, so that the treatment flat cable can be worn by an arm or a waistband, fixed electrode plate therapy, electric acupoint therapy, electric rolling acupoint healing and simultaneous rolling stimulation therapy and the like can be realized only by correspondingly selecting a 'functional button' on the pulse treatment instrument, complicated probe replacement actions are omitted, the operation is really simple and convenient, the functional buttons can be conveniently operated on the pulse treatment instrument, and simultaneous or independent treatment of a plurality of functions is realized. The Dome sheet 9 is attached to the upper surface of the cover film 7 and attached to the portion of the probe site lead terminal 5 where the cover film 7 is exposed.

In a preferred embodiment, as shown in fig. 2, 3 and 4, a flat cable lead terminal 6 is further disposed on the PET film 1, the flat cable lead terminal 6 is electrically connected to the circuit 8, and the flat cable lead terminal 6 also protrudes out of the cover film 7 through an opening provided on the cover film 7, and the flat cable lead terminal 6 is electrically connected to an external pulse therapeutic apparatus through a wire. Further, the ferrite 2, the coil 3, the electrode lead terminal 4 and the probe portion lead terminal 5 are all arranged in a uniform array, and the flat cable lead terminal 6 is disposed on one side of the PET film 1.

As a further preferred embodiment, both the electrode lead terminal 4 and the probe site lead terminal 5 are gold-plated. In this embodiment, the glue is a hot melt glue, the ferrite 2 is made flexible by rolling and crushing, and the circuit 8 is formed on the PET film 1 by printing silver paste by an additive method. And the electrode lead terminal 4, the probe portion lead terminal 5, the coil 3 and the flat wire lead terminal 6 are all directly formed when silver paste is printed on the PET film 1 by an additive method.

It should be noted that the Dome sheet 9, i.e. the metal Dome conductive film, also called as the Dome conductive film, is a piece of PET tape-coated sheet containing metal domes (Dome), and the positions of each metal Dome/Dome and other components are generally arranged according to the positions of corresponding PADs on the circuit board, and corresponding avoidance spaces, positioning holes, etc.

Examples

The present invention also provides a method for manufacturing the pulse therapy flat cable, and in particular, referring to fig. 7, which is a schematic flow chart of a method for manufacturing the pulse therapy flat cable, and in combination with fig. 1 to 6, the method for manufacturing the pulse therapy flat cable provided by the present invention comprises:

step a, selecting a PET film 1 coated with hot melt adhesive as a flat cable matrix;

step b, attaching the ferrite 2 with the ultrathin sheet structure to the PET film 1;

step c, a coil 3 is continuously distributed on the PET film 1 by a wiring method, and a plane oscillator is formed together with the ferrite 2;

step d, arranging an electrode lead end 4 and a probe position lead end 5 on the PET film 1 by a wiring method;

step e, printing silver paste on the electrode lead end 4 and the lead end 5 of the probe part on the PET film 1 by an additive process, and forming a flat cable lead terminal 6;

step f, attaching a cover film 7 on the PET film 1, and opening a window on the cover film 7 to expose the electrode lead terminal 4, the lead terminal 5 at the probe position and the wire-arranging lead terminal 6;

step g, gold plating treatment is carried out on the electrode lead end 4, the lead end 5 of the probe part and the flat cable lead terminal 6;

and h, attaching a Dome sheet 9 to the lead end 5 of the probe part, and taking a metal spring sheet of the Dome sheet 9 as a protruding probe.

Based on the technical scheme, the treatment flat cable with the combination of the oscillator, the electrode plate and the electrode probe is realized at the lowest cost, and the ultra-thin oscillator, the electrode and the probe are covered, so that the product can be directly soaked in the disinfectant, the use is convenient, the repeated use (nearly ten thousand times) of the oscillator and the electrode probe of the treatment instrument is realized, the use cost is about 1/20 of that of an independent part, and the treatment flat cable has popularization advantage. And as in the above embodiment, the ultra thin sheet ferrite 2 is soft by rolling and magnetizing, and the PET film 1 is coated with a hot melt adhesive.

The foregoing description of the preferred embodiment of the invention is merely illustrative of the invention and is not intended to be limiting. It will be appreciated by persons skilled in the art that many variations, modifications, and even equivalents may be made thereto without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (7)

1. A pulse therapy ribbon cable comprising:

a PET film (1) serving as a winding displacement matrix, wherein the upper surface of the PET film (1) is coated with glue;

a plurality of ferrites (2) with sheet structures are attached to the PET film (1) through the glue;

the coils (3) are equal in number to the ferrites (2), the coils (3) are all arranged on the PET film (1) through a wiring method, one coil (3) is arranged on the upper surface of each ferrite (2), and each ferrite (2) and the corresponding coil (3) form a planar oscillator together;

a plurality of electrode lead terminals (4) and a plurality of probe position lead terminals (5) are all arranged on the PET film (1) through a wiring method, a circuit (8) is printed on the PET film (1) through an addition method, and the electrode lead terminals (4), the probe position lead terminals (5) and the coils (3) are all electrically connected in the circuit (8);

the covering film (7) is attached to the PET film (1) through the glue, the ferrite (2) and the coil (3) are both positioned between the covering film (7) and the PET film (1), a plurality of openings corresponding to the positions of the electrode lead ends (4) and the probe position lead ends (5) are formed in the covering film (7), and each electrode lead end (4) and each probe position lead end (5) protrude out of the upper surface of the covering film (7) through one opening;

the Dome sheet (9) is arranged on the upper surface of the covering film (7) and is attached to the lead end (5) of the probe part, and a metal spring sheet in the Dome sheet (9) is used as a convex probe;

the whole pulse treatment flat cable is flexible and bendable;

the PET film (1) is further provided with a flat cable lead terminal (6), the flat cable lead terminal (6) is electrically connected with the circuit (8), the flat cable lead terminal (6) also protrudes out of the cover film (7) through an opening formed in the cover film (7), and the flat cable lead terminal (6) is electrically connected with an external pulse therapeutic apparatus through a wire.

2. The pulse therapy ribbon cable according to claim 1 wherein the electrode lead (4) and the probe site lead (5) are gold plated.

3. The pulse therapy ribbon of claim 2, wherein the glue is a hot melt glue.

4. A pulse therapy ribbon as claimed in claim 3, characterized in that the ferrite (2) is made flexible by rolling magnetic crushing.

5. Impulse therapy busbar according to claim 4 wherein the circuit (8) is formed on the PET film (1) by additive printing from silver paste.

6. The pulse therapy ribbon cable according to claim 5 wherein the electrical connection of the electrode lead (4), probe site lead (5), coil (3) and ribbon lead terminal (6) to the circuit (8) is made directly from silver paste when printed onto the PET film (1) by additive processes.

7. A method for manufacturing a pulse therapy ribbon wire as defined in any one of claims 1 to 6, comprising:

step a, selecting the PET film (1) coated with the hot melt adhesive as a flat cable matrix;

step b, attaching the ferrite (2) with the sheet structure to the PET film (1);

step c, the coil (3) is continuously distributed on the PET film (1) by a wiring method, and a plane oscillator is formed together with the ferrite (2);

step d, the electrode lead ends (4) and the probe part lead ends (5) are distributed on the PET film (1) by a wiring method;

step e, printing silver paste on the electrode lead end (4) and the probe part lead end (5) of the PET film (1) by an additive process, and forming a flat cable lead terminal (6);

f, attaching the cover film (7) on the PET film (1), and opening a window on the cover film (7) to expose the electrode lead end (4), the probe part lead end (5) and the flat cable lead terminal (6);

step g, gold plating treatment is carried out on the electrode lead end (4), the probe part lead end (5) and the flat cable lead terminal (6);

and h, attaching the Dome sheet (9) to the lead end (5) of the probe part, and taking the metal spring sheet of the Dome sheet (9) as a protruding probe.

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