KR20180097015A - Coating device for wire electrode manufacturing - Google Patents

Abstract

Disclosed is a silver/silver chloride coating apparatus for a reference electrode of a subcutaneous sensor. The silver/silver chloride coating apparatus for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention comprises: a coating module including a first coating roller and a second coating roller coating arranged by interposing a wire type base material therebetween for coating the wire type base material; a silver resin supply module supplying a silver resin to the coating module; a power transfer unit transferring power to move the wire type base material; a base material supply roll supplying the wire type base material; and a coated material winding roll collecting the coated wire type base material.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coating apparatus for a subcutaneous sensor,

The present invention relates to a method for manufacturing a silver-based thin-film sensor, comprising the steps of: preparing a silver resin on a substrate continuously supplied with a reference electrode used as a subcutaneous sensor such as a wire-type or tube- To a silver resin coating apparatus for a reference electrode.

Generally, a silver / silver chloride electrode is often used as a reference electrode for a subcutaneous sensor, for example, an electrocardiogram, a PH meter, a dissolved oxygen electrode, and a glucose sensor. This is because the biological fluid contains 0.15 mol of salt and a very small amount of potassium chloride in a considerable amount of chloride ion, for example, human blood, so that the analyte of the biological system can be electrically measured by using the potential difference between the chloride ion and the silver / Because.

In the case of a tubular sensor, such a reference electrode is formed by forming a conductive layer on a base layer, coating an insulating film thereon, and etching an insulating film at a predetermined position to expose a part of the conductive layer to the outside so that the exposed conductive layer can be used as an electrode . In the case of a wire type sensor, since the wire itself is a conductor, it is manufactured so that the exposed wire can be used as a working electrode by etching the insulating layer and the silver coated wire at a predetermined interval after coating the insulating layer on the substrate layer.

As a method of etching the insulating film, various methods such as a method of exposing and removing by using a photosensitive resin, a method of etching using a laser, and other dry or wet methods have been proposed. However, Shape, size, and position, it is difficult to mass-produce continuously, and there is a problem that remnants remain.

In addition, due to the residues, the thickness and the area of the reference electrode are not uniform and the reference electrode and the working electrode are insulated, but there is a possibility that the electrical connection is made.

Korean Patent Registration No. 0135367 (registered on Jan. 13, 1998) Japanese Patent Publication No. 1985-201245

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a reference electrode for use in a wire type or tube type sensor used as a subcutaneous sensor, And a method of coating a silver resin for a reference electrode capable of coating a silver resin continuously supplied on a surface of a substrate in consideration of a predetermined electrode shape, size, and position.

In order to accomplish the object of the present invention as described above, the silver / silver chloride coating device for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention includes a wire- A first coating roller and a second coating roller, a silver resin supplying module for supplying silver resin to the coating module, a power transmitting portion for transmitting power capable of moving the wire-shaped substrate, and a wire- And a coater applicator for recovering the coated wire-shaped substrate.

The first coating roller may include at least one first printing portion and at least one first spacing portion and the second coating roller may include at least one second printing portion and at least one second spacing portion, The first printing unit and the second printing unit may be symmetrically disposed, and the first and second spacing units may be disposed symmetrically.

In addition, the silver resin supply module may include a first supply module for supplying silver resin to the first coating roller, and a second supply module for supplying silver resin to the second coating roller.

The first supply module includes a first transfer roller, a first mating roller, and a first silver resin supply portion. The second silver resin supply module includes a second transfer roller, a second mating roller, Resin supply portion.

In addition, the silver / silver chloride coating device for the reference electrode of the subcutaneous sensor may include a drying part positioned between the coating module and the coating applicator mounting part and through which the coated wire-shaped substrate passes.

The power transmission portion may include a first power transmission portion disposed between the substrate supply portion and the coating module and provided as a pair of rollers for transmitting power capable of moving the wire-like base material, And a second power transmitting portion disposed between the attaching portions and provided as a pair of rollers for transmitting power that allows the wire-like base material to move.

Further, the silver / silver chloride coating device for the reference electrode of the subcutaneous sensor may include a speed adjusting sensor, the speed adjusting sensor may include a first speed adjusting sensor provided between the substrate supplying roll and the first power transmitting portion, And a second speed regulation sensor provided between the coating material winding roll and the second power transmission portion.

According to an embodiment of the present invention, a silver resin that is continuously supplied on a substrate so that reference electrodes used in a wire-type or tube-type sensor used as a subcutaneous sensor or the like may be discontinuously formed at a predetermined interval, Size, and position of the reference electrode, and a coating method for the reference electrode.

It is possible to provide a silver resin coating apparatus and a coating method for a reference electrode which can remove a process of etching a predetermined gap of an insulating film and a silver coated wire.

Further, it is possible to provide a silver resin coating apparatus for a reference electrode suitable for a roll-to-roll (R2R) continuous process pursued in the development of a next-generation flexible electrode, / Silver chloride can be continuously coated, and the continuous coating process can be automatically performed without any special additional adjustment in one setting by automatic control.

In addition, there is a technical effect that the silver resin is uniformly distributed along a pair of the coating rollers so that the silver resin does not aggregate when the wire-like substrate is coated, and the coating section is neatly dropped.

In addition, since the coating process and the drying process are continuously performed, excellent adhesion of silver resin can be secured.

Further, in the coating process, a constant force is transmitted to the wire-shaped substrate, and the force applied by the velocity-adjusting sensor is double-adjusted so that a uniform coating surface can be provided on the wire-shaped substrate.

1 is a schematic view of a coating module of a silver / silver chloride coating apparatus for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention.
2 is a view for explaining an operation principle in which a wire-shaped substrate is coated with silver / silver chloride by a coating module according to an embodiment of the present invention.
3 is a schematic view of a silver resin supply module of an embodiment of the present invention.
4 is a view for explaining the operation principle of coating the wire-like base material of the embodiment of the present invention.
FIG. 5 is a view for explaining a process of completing the pre-coating wire-like base material of the embodiment of the present invention from the coated wire-like base material.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention in the drawings, parts not related to the description are omitted, and like parts are denoted by similar reference numerals as the serial numbers throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise. Also, the terms "part," "module," and the like, which are described in the specification, refer to a unit for processing at least one function or operation, and may be implemented by hardware or software or a combination of hardware and software.

Hereinafter, a silver / silver chloride coating apparatus for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. As used herein, the term " face-to-face " refers to the case of direct contact between two components and the case of facing each other while maintaining a close distance between two components. In the case of maintaining the distance between two components, The silver resin may be moved from one component to another.

The silver / silver chloride coating device for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention includes a coating module 100 and a silver resin supply module 200.

1 is a schematic view of a coating module of a silver / silver chloride coating apparatus for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention.

The coating module 100 includes a pair of a first coating roller 110 and a second coating roller 130. The first coating roller 110 and the second coating roller 130 may be disposed symmetrically with respect to each other about the wire-shaped substrate, preferably the first coating roller 110 is disposed on the top of the wire- And a second coating roller 130 may be disposed below the wire-shaped substrate.

The first coating roller 110 is provided with a first printing unit 112 that is in contact with the wire-shaped substrate and can coat the wire-shaped substrate with silver resin, and a second printing unit 112 that has at least one unit that does not contact the wire- The first spacing portion 114 may be formed and the number of the first printing portions 112 and the number of the first spacing portions 114 formed in one first coating roller 110 coincide with each other.

The second coating roller 130 is provided with a first printing unit 132 which is in contact with the wire-shaped substrate and can coat silver resin on the wire-shaped substrate, and a second spacing unit 132 which is not in contact with the wire- The number of the second printing portions 132 formed on one second coating roller 130 and the number of the second spacing portions 134 coincide with each other.

Since the first coating roller 110 and the second coating roller 130 are formed in the same shape as described above, the first printing portion 112, the first spacing portion 114, the second printing portion 132, And the second spacing portion 134 are all equal in number.

The first coating roller 110 and the second coating roller 130 are desirably provided with a material which is high in elasticity and can not absorb the organic solvent so that the wire-shaped base material can be uniformly coated with the silver resin upon contact, May be provided with a silicon-based material. If the first coating roller 110 and the second coating roller 130 are highly stretchable, a uniform coating of the wire-like base material can be achieved anywhere on the roller surface. It is preferable that the silicone series is made of a soft material which is relatively hard.

2 is a view for explaining the operation principle in which silver chloride is coated on the wire-shaped substrate by the coating module.

The first coating roller 110 and the second coating roller 130 of the coating module 100 are symmetrically disposed about the wire-shaped base material and rotate at the same speed in the opposite direction to each other. Accordingly, when the first printing portion 112 of the first coating roller 110 faces the wire-shaped substrate, the second printing portion 132 of the second coating roller 130 faces the wire-shaped substrate (Fig. 2 The second spacing portion 134 of the second coating roller 130 faces the wire shaped substrate when the first spacing portion 114 of the first coating roller 110 faces the wire shaped substrate A, C in Fig. 2).

It is preferable that the first coating roller 110 and the second coating roller 130 of the coating module 100 rotate in the direction in which the opposite semicircle is directed to the wire-like base material with reference to the moving direction of the wire-like base material City with long curved arrows). Thus, at a point where the first coating roller 110 and the second coating roller 130 face the wire-shaped substrate, the tangential direction of movement is parallel to the moving direction of the wire-shaped substrate.

The first coating roller 110 and the second coating roller 130 are rotated at a fixed position, and the wire-like base material moves at a constant speed in one direction (indicated by the arrow on the left coating roller in FIG. 2) The wire-shaped substrate alternately shows a coating region, which is a portion to be coated, and an uncoated region, which is a portion that is not coated. Specifically, when the printing portions 112 and 132 and the spacing portions 132 and 134 face the wire-shaped substrate alternately, and when the printing portions 112 and 132 face the wire-shaped substrate, a coating region is formed 2 B), and when the spacing portions 132 and 134 face the wire-shaped substrate, an uncoated region is formed (A, C in FIG. 2).

The interval between the first coating roller 110 and the second coating roller 130 can be set, and the interval setting can be provided by a separate control unit (not shown). The interval setting can be adjusted in an appropriate range in consideration of the amount of silver / silver chloride coated on the wire-shaped substrate, and the property of coating silver / silver chloride on the wire-shaped substrate by the interval setting can be adjusted.

3 is a schematic view of a silver resin supply module of a silver / silver chloride coating apparatus for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention.

The silver resin supply module 200 may include a first supply module 210 or a second supply module 230. The silver resin supply module 200 may include a first supply module 210 and a second supply module 230.

The first supply module 210 includes a first transfer roller 212, a first mating roller 214 and a first silver resin receiving portion 216, and supplies silver resin to the first coating roller 110 do.

The first silver resin receiving portion 216 is a portion to which silver resin is supplied to the first supply module 210.

The first transfer roller 212 rotates to face the first coating roller 110 and supplies the silver resin to the first coating roller 110.

The first pair roller 214 is in contact with the first transfer roller 212 and rotates in a direction opposite to the first transfer roller 212. When the first pair roller 214 rotates in contact with the first transfer roller 212, the silver resin supplied to the first silver resin receiving portion 216 is uniformly distributed along the surface of the first transfer roller 212 .

The silver resin supply module 200 may be composed of only the first supply module 210. [ When the silver resin supply module 200 is constituted by only the first supply module 210, the silver resin distributed to the first coating roller 110 and the second coating roller 130 may be uniformly coated on the wire- A process of idling the first coating roller 110 and the second coating roller 130 may be included.

The second supply module 230 includes a second transfer roller 232, a second pair of rollers 234 and a second silver resin supply portion 236 and supplies silver resin to the second coating roller 130 do.

The second silver resin supply portion 236 is a portion to which silver resin is supplied to the second supply module 230.

The second transfer roller 232 rotates to face the second coating roller 130 and supplies the silver resin to the second coating roller 130.

The second pair roller 234 is in contact with the second transfer roller 232 and rotates in a direction opposite to the second transfer roller 232. When the second pair roller 234 rotates in contact with the second transfer roller 232, the silver resin supplied to the second silver resin supply portion 236 is uniformly distributed along the surface of the second transfer roller 212 .

In the case where the silver resin supply module 200 includes the second supply module 230, the silver resin may be evenly distributed on the first coating roller 110 and the second coating roller 130 from the beginning of operation, The idling process can be omitted.

The silver / silver chloride coating device for the reference electrode of the hypodermic sensor may include a silver resin supply 250 for supplying silver resin to the first supply module 210 and / or the second supply module 230.

4 is a view for explaining the operation principle of coating a wire-shaped substrate with a silver / silver chloride coating apparatus for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention.

The silver / silver chloride coating device for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention includes a power transmitting portion 300.

The power transmission portion 300 may be a device that transmits power to the wire-like base material so that the wire-like base material can move in one direction and applies a constant force to move the wire-like base material at a constant speed. The power transmission portion 300 may include a structure that transmits power to the wire-like base material by using two rollers.

Silver resin is supplied to the first silver resin receiving portion 216 and the second silver resin receiving portion 236. When the first transfer roller 212 and the first mating roller 214 are rotated, the silver resin supplied to the first silver resin receiving portion 216 is uniformly distributed along the surface of the first transfer roller 212, When the second transfer roller 232 and the second mating roller 234 are rotated, the silver resin supplied to the second silver resin supply portion 236 is evenly distributed along the surface of the second transfer roller 212.

The silver resin distributed along the face of the first transfer roller 212 moves to the first coating roller 110 as the first transfer roller 212 faces the first coating roller 110, Are uniformly distributed along the surface of the first coating roller 110 in accordance with the rotation of the first coating roller 110.

The silver resin distributed along the surface of the second transfer roller 212 moves to the second coating roller 110 as the second transfer roller 212 faces the second coating roller 110, Are uniformly distributed along the surface of the second coating roller 110 in accordance with the rotation of the first coating roller 110.

When the wire-shaped base material moves in the arrow direction by the power transmission unit 300 and the first coating roller 110 and the second coating roller 130 are rotated, the first coating roller 110 and the second coating roller 110 Silver / silver chloride uniformly distributed on the coating roller 130 is coated on the wire-shaped substrate.

FIG. 5 is a view illustrating a process of completing a wire-shaped base material from a wire-shaped base material before coating by a silver / silver chloride coating device for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention.

The silver / silver chloride coating apparatus for a reference electrode of the subcutaneous sensor according to an embodiment of the present invention may include a substrate supply unit 400 and a coating applicator 500. The substrate supplying unit 400 is configured such that the wire-like base materials before coating are gathered, and the coating device recharging unit 500 is a structure in which the wire-like base materials are collected after coating. The wire-like base material moves from the base material supplying portion 400 to the coating applicator mounting portion 500. The substrate supply part 400 and the coater applicator 500 may be provided in the form of a roll in which the wire-like substrate is wound and stored.

The silver / silver chloride coating apparatus for a reference electrode of the subcutaneous sensor according to an embodiment of the present invention may include a drying unit 600. The drying part 600 is provided between the coating module 100 and the coater applicator 500. The drying unit 600 performs a function of drying the coated silver chloride / silver chloride through the coating module 100 and fixing the coated silver / silver chloride to the wire-shaped substrate. The drying unit 600 may be a heating device such as a heater.

The power transmitting portion 300 may be provided in a separate unit structure. The power transmission portion 300 includes a first power transmission portion 310 disposed between the substrate supply portion 400 and the coating module 100 and a second power transmission portion 310 disposed between the drying portion 600 and the coater re- And may include a power transmission portion 330. The first power transmitting portion 310 can transmit the pushing force of the wire-like base material. And the second power transmission portion 330 can transmit the pulling force of the wire-shaped base material. The first power transmission portion 310 and the second power transmission portion 330 may be formed of two rollers, respectively, and a motor for driving the rollers may be provided.

The silver / silver chloride coating device for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention may include a velocity adjustment sensor 700.

The speed adjustment sensor 700 may include a first adjustment sensor 710. The first adjustment sensor 710 is disposed between the substrate supply unit 400 and the first power transmission unit 310 so that the force received by the wire-shaped substrate between the substrate supply unit 400 and the first power transmission unit 310 It is possible to carry out a function of keeping it constant.

The speed adjustment sensor 700 may include a second adjustment sensor 730. The second adjustment sensor 730 is disposed between the coater recharging unit 500 and the second power transmission unit 330 so that the wire type substrate between the coater recharging unit 500 and the second power transmission unit 330 is received It is possible to perform a function of keeping the force constant.

The silver / silver chloride coating device for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention may include a guide hole 800.

The guide hole 800 may include a wire hole 810 through which the wire-shaped substrate is passed and a fixing portion 830 for fixing the guide hole 800 at a predetermined position. The guide holes 800 may be arranged in plural in the silver / silver chloride coating apparatus for reference electrodes of the subcutaneous sensor according to an embodiment of the present invention as needed, and may be arranged from the substrate supply unit 400 to the coating applicator mounting unit 500 Shaped base material is held until it is stretched.

According to an embodiment of the present invention, a silver / silver chloride coating apparatus for a reference electrode of a subcutaneous sensor according to an embodiment of the present invention collects a large amount of wire-shaped substrates in a substrate supply unit 400 to continuously coat silver / can do.

This continuous coating process can be performed automatically by automatic control in one setting without the need for any special additional adjustment.

The silver resin is evenly distributed on the first transfer roller 212 and the second transfer roller 232 of the silver resin supply module 200 so that the first coating roller 110 and the second coating roller 130 ), The silver resin is evenly distributed. Therefore, the technical effect that the silver resin does not aggregate when the wire-shaped substrate is coated and the coating section is neatly dropped can be given.

In addition, since the coating process by the coating module 100 and the coating fixing process by the drying unit 600 are continuously performed, excellent adhesion of the silver resin can be secured.

In addition, the power transmission unit 300 includes a structure in which a constant force is transmitted by two rollers. The force applied to the wire-shaped substrate is adjusted to be constant by the velocity adjustment sensor 700, So that a uniform and neat coating surface can be secured on the wire-like substrate.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that the invention belongs to the scope of the invention.

100: coating module 110: first coating roller
112: first printing unit 114: first spacing unit
130: second coating roller 132: second printing portion
134: second spacing part 210: first supply module
212: first transfer roller 214: first pair roller
216: first silver resin supply part 230: second supply module
232: second transfer roller 234: second pair roller
236: second silver resin supply portion 250: silver resin supply portion
300: Power transmission unit 310: First power transmission unit
330: second power transmission unit 400: substrate supply unit
500: Coater applicator attachment 600: Dryer
710: first speed adjusting sensor 730: second speed adjusting sensor
800: Guide hole 810: Wire hole
830:

Claims (7)

A coating module comprising a first coating roller and a second coating roller disposed across the wire-like base material and capable of coating the wire-like base material,
A silver resin supply module for supplying silver resin to the coating module,
A power transmitting portion for transmitting a power capable of moving the wire-
A base material supply part for supplying a wire-shaped base material, and
And a coater jacket attachment for withdrawing the coated wire-like substrate
Silver / silver chloride coating device for reference electrode of subcutaneous sensor. The method according to claim 1,
The first coating roller
At least one first printing portion and at least one first spacing portion,
The second coating roller
At least one second printing portion and at least one second spacing portion,
Wherein the first printing unit and the second printing unit are disposed symmetrically,
The first spacing portion and the second spacing portion are symmetrically disposed
Silver / silver chloride coating device for reference electrode of subcutaneous sensor. The method according to claim 1,
The silver resin supply module
A first supply module for supplying silver resin to the first coating roller, and
And a second supply module for supplying silver resin to the second coating roller
Silver / silver chloride coating device for reference electrode of subcutaneous sensor. The method of claim 3,
The first supply module
A first pair of rollers, and a first silver-resin supply portion,
The second silver resin supply module
A second transfer roller, a second mating roller, and a second silver resin supply portion
Silver / silver chloride coating device for reference electrode of subcutaneous sensor. The method according to claim 1,
And a drying unit positioned between the coating module and the coating applicator mounting and through which the coated wire-like substrate passes
Silver / silver chloride coating device for reference electrode of subcutaneous sensor. The method according to claim 1,
The power transmission portion
A first power transmitting portion disposed between the base material supplying portion and the coating module and provided as a pair of rollers for transmitting power capable of moving the wire-like base material, and
And a second power transmission portion disposed between the coating module and the coater recharging portion and provided as a pair of rollers for transferring power capable of moving the wire-
Silver / silver chloride coating device for reference electrode of subcutaneous sensor. The method according to claim 6,
A speed control sensor,
The speed-
A first speed regulation sensor provided between the substrate supply roll and the first power transmission unit,
And a second speed regulation sensor provided between the coating base winding roll and the second power transmission portion
Silver / silver chloride coating device for reference electrode of subcutaneous sensor.

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