JP3178779U - Conductive coating set for gloves - Google Patents

Abstract

Provided is a conductive coating set for gloves which can easily form a conductive portion on a desired portion of a ready-made glove.
An electroconductive coating material for gloves, a container 11 filled with the electroconductive coating material for gloves, and an application means 12 for applying the electroconductive coating material for gloves to the surface of the glove are provided.
[Selection] Figure 1

Description

  The present invention relates to a conductive coating set for gloves that can form a conductive portion on the surface of the glove.

2. Description of the Related Art In recent years, a touch panel device in which a touch panel is mounted on a display surface of a liquid crystal display panel has been widely used as an information input method for liquid crystal display devices. Such touch panel type devices are used, for example, as bank ATMs and ticket machines, but in recent years, the penetration rate of touch panel type tablet terminals such as smartphones equipped with touch panels has rapidly increased. ing.
As a touch panel mounted on such a touch panel type device, various types of touch panels have been put into practical use, and among them, a capacitive touch panel is often used. An electrostatic capacitance type touch panel forms an electric field on the entire surface of the touch panel, and detects a position by detecting a change in electrostatic capacitance of a contacted portion. Therefore, when operating a capacitive touch panel, it is necessary to touch the panel surface with a finger or a finger having the same electrostatic conductivity as that of the finger, and a non-conductive substance is placed between the finger and the panel surface. If there is an intervening operation is not possible.
Therefore, when operating the capacitive touch panel, there is a problem in that the touch panel operation cannot be performed while wearing gloves formed of a non-conductive material such as wool or cloth.

  Therefore, in recent years, in order to enable the operation of the capacitive touch panel even while wearing gloves, conductive threads are embroidered, conductive resin compositions are printed, or conductive fabrics are bonded. For example, it has been attempted to form a conductive portion on the fingertip portion of the glove (Patent Document 1). Especially, the practical use of the glove which woven the conductive fiber in the fingertip part is progressing (patent documents 2 and 3).

Utility Model Registration No. 3167579 Utility Model Registration No. 3168219 Utility Model Registration No. 3174052

However, conventional touch panel operation gloves are industrially produced, and individual users have not been able to form conductive parts on their favorite gloves at home to make touch panel operation gloves. .
The present invention has been accomplished in view of the above circumstances, and an object thereof is to provide a conductive coating set for gloves which can easily form a conductive portion on a desired portion of a ready-made glove.

  A conductive coating set for gloves according to the present invention includes a conductive coating material for gloves, a container filled with the conductive coating material for gloves, and an application unit that applies the conductive coating material for gloves to the surface of the glove. It is characterized by that.

  In the conductive coating set for gloves according to the present invention, the container is a sealed flexible extrudable container, and the application means is integrated with the container and has a discharge hole. It constitutes a content takeout part, and the discharge hole can be opened by cutting or perforating at least a part of the content takeout part.

  Further, in the conductive coating set for gloves according to the present invention, the container has a main body part and a detachable lid part, and the application means is integrated with the main body part and opened in advance. It constitutes a content take-out part having a discharge hole, and when the lid is attached to the content take-out part, the discharge hole is sealed and removed from the content take-out part, The discharge hole may be opened.

  Further, in the conductive coating set for gloves according to the present invention, the container has a main body having an outlet and a removable lid, and the lid is attached to the outlet. When the outlet is sealed and removed from the outlet, the outlet is opened, and the lid portion includes the application means inside thereof, and the application means is provided at the shaft portion and the tip of the shaft portion. It has a coating material holding portion provided, and can be sized to be stored in the main body when the lid is attached to the outlet.

  In the conductive coating set for gloves according to the present invention, the conductive coating material for gloves preferably contains conductive particles and a matrix material containing at least one selected from resin and rubber, and further foamed. It is preferable to contain an agent.

The conductive coating set for a glove according to the present invention can easily form a conductive part on a desired part of a ready-made glove, and as a result, the capacitive touch panel while the glove is worn. Operation can be possible.
Moreover, in the preferable form of the electroconductive coating set for gloves which concerns on this invention, the electroconductive part of a fine pattern can be formed in the surface of a glove.

1A and 1B are perspective views schematically showing an example of a first embodiment of a conductive coating set for gloves according to the present invention, and FIG. 1A shows a mode before opening a discharge hole. 1B shows a mode after the discharge holes are opened. 2A and 2B are front views schematically showing another example of the first embodiment of the conductive coating set for gloves according to the present invention. 3A and 3B are perspective views schematically showing an example of the second embodiment of the conductive coating set for gloves according to the present invention, and FIG. 3A is a mode in which the lid portion is attached to the content takeout portion. FIG. 3B shows a mode in which the lid portion is removed from the content takeout portion. 4A and 4B are perspective views schematically showing an example of the third embodiment of the conductive coating set for gloves according to the present invention, and FIG. 4A shows a state in which the lid is attached to the outlet. FIG. 4B shows a state in which the lid is removed from the outlet.

The conductive coating set for gloves according to the present invention includes a conductive coating material for gloves (hereinafter, simply referred to as “coating material”), a container filled with the conductive coating material for gloves, and the gloves. An application means for applying the conductive coating material to the surface of the glove is provided.
The conductive coating set for gloves according to the present invention can easily form a conductive portion having a desired pattern on a desired portion of a glove desired by an individual user at home. A glove in which a conductive part is formed on a fingertip part or the like using the conductive coating set for gloves according to the present invention is a capacitive touch panel (simply referred to as “touch panel” in the present invention) while worn. Operation may be possible.
In the present invention, the “applying means” means a component necessary for applying the coating material to the surface of the glove in the conductive coating set for gloves.

  Moreover, although it does not specifically limit as a conductive coating set for gloves which concerns on this invention, For example, three embodiment mentioned later is mentioned. Hereinafter, each embodiment of the conductive coating set for gloves according to the present invention, the conductive coating material for gloves used in the conductive coating set for gloves according to the present invention, and the conductive coating set for gloves according to the present invention are used. A method for forming the conductive portion on the surface of the glove will be described in detail.

I. Embodiment of conductive coating set for gloves (first embodiment)
In a first embodiment of the present invention, a container filled with a conductive coating material for gloves is a sealed flexible extrudable container, and the conductive coating material for gloves is applied to the surface of the glove. The application means is integrated with the container and constitutes a content takeout part having a discharge hole, and at least a part of the content takeout part is cut or perforated, It is an electroconductive coating set for gloves characterized by being opened.
In the first embodiment, “the application means is integrated with the container and constitutes the content take-out portion having the discharge hole” means that the application means is integrated with the container and the contents are It means that both the function of taking out and the function of applying the contents can be exhibited, and it does not mean that the application means and the container are physically separable or impossible. That is, it means that the glove conductive coating material can be discharged from the discharge hole of the content takeout portion and the discharged glove conductive coating material can be applied in a state where the application means is integrated with the container. Further, in the present invention, the “discharge hole” is initially sealed as in the first embodiment, but is opened by cutting or perforating at least a part of the content takeout portion, And it is the meaning including what was opened beforehand like 2nd embodiment mentioned later. The “content taking-out part” is a part including a discharge hole and an outer edge for forming the discharge hole.
The first embodiment is preferable in that it can be manufactured at a low cost because it is not necessary to separately prepare the main body portion and the lid portion as in the second embodiment and the third embodiment described later. For example, it can be used as a disposable one.

  1A and 1B are perspective views schematically showing an example of a first embodiment of a conductive coating set for gloves according to the present invention, and FIG. 1A shows a mode before opening a discharge hole. 1B shows a mode after the discharge holes are opened. A conductive coating set 10 for gloves shown in FIG. 1A includes a sealed flexible tubular container 11 and application means 12 integrated with the container 11, and the conductive coating material for gloves is provided in the container 11. Fill. The application means 12 constitutes a content takeout portion 13, and a part of the content takeout portion 13 is cut or perforated, thereby opening a discharge hole 13 a as shown in FIG. 1B. The conductive coating set 10 ′ for gloves having the discharge hole 13a opened can discharge the conductive coating material for gloves filled in the container 11 ′ from the discharge hole 13a, and discharge the discharged coating material. By spreading using the edge portion 13b or the like of the hole 13a, it can be applied while forming a desired pattern.

  Other examples of the first embodiment include those shown in FIGS. 2A and 2B, for example. 2A and 2B are front views schematically showing another example of the conductive coating set for gloves according to the first embodiment. A conductive coating set 20 for gloves shown in FIG. 2A includes an application means 22 that constitutes a content takeout portion 23 at a corner end sealing portion of a sealed flexible rectangular sachet container 21. A discharge hole is opened by cutting along the dotted line shown in FIG. The conductive coating set 20 ′ for gloves shown in FIG. 2B is a coating means 22 that constitutes a content takeout portion 23 ′ at the center end sealing portion of one side of a sealed flexible rectangular sachet container 21 ′. And a discharge hole is opened by cutting along the dotted line shown in FIG. 2B.

The container used in the first embodiment is a sealed flexible extrudable container, and examples of the container include a flexible tube and a flexible bag. Among them, a flexible tube is preferable because it is easy to handle and it is easy to form a conductive portion having a fine pattern.
Further, the shape of the container is not particularly limited, and other than the pen shape as shown in FIGS. 1A and 1B and the rectangle shown in FIGS. 2A and 2B, for example, basic shapes such as a polygon and a spheroid The shape etc. which gave design nature to these shapes, these shapes, etc. are mentioned.

In the first embodiment, the application means is integrated with the container and constitutes a content takeout portion having a discharge hole, and at least a part of the content takeout portion is cut or perforated. As a result, the discharge hole is opened.
The application means has a function of discharging the coating material filled in the container from the discharge hole, and a function of applying the coating material discharged from the discharge hole by spreading using the edge portion of the discharge hole. It can be demonstrated.
Examples of the method for discharging the coating material filled in the container from the discharge hole include a method of pressing the container, a method using osmotic pressure in the container, and the like.

  Although the application means is not particularly limited, it is preferable that the application means 12 shown in FIG. 1 has a long and narrow tip portion 12a in the shape of a nozzle and has the content takeout portion at the end of the tip portion. . This makes it easy to reduce the diameter of the discharge hole and reduce the area of the edge of the discharge hole when opening the discharge hole, not only when the content takeout portion is perforated but also when cutting. Therefore, when applying the coating material, it is easy to form a fine pattern, and consequently, it is easy to form a conductive portion having a fine pattern.

Moreover, in said 1st embodiment, the vicinity part of the said content taking-out part can be made high in rigidity, and cannot change easily. Thereby, when applying the coating material using the conductive coating set for gloves according to the present invention, it is possible to prevent deformation of the applying means, and thus it is easy to accurately determine the discharge direction and the adhesion position of the coating material. It becomes.
There is no particular limitation on the method for making the portion in the vicinity of the content take-out portion large in rigidity. For example, a method for forming the portion using a material having high rigidity, or forming the portion with a large thickness. Methods and the like.

In the first embodiment, when opening the discharge hole, the method for cutting or perforating at least a part of the content takeout part is not particularly limited, and for example, a household scissor or a cutter is used. Or can be perforated using a spire-like protrusion such as a needle shape or a nib shape.
In the conductive coating set 10 for gloves shown in FIG. 1A, as shown in FIG. 1B, for example, by cutting into a circle at the position of the AA line or by drilling in the direction of arrow B (substantially normal direction). The discharge hole 13a can be opened.

In the first embodiment, the diameter of the circumscribed circle of the discharge hole is not particularly limited, but is preferably 0.5 mm to 10.0 mm. Thereby, the coating material can be easily discharged from the discharge hole, and it becomes easy to form a conductive portion with a fine pattern.
Moreover, the shape of the said discharge hole is not specifically limited, For example, shapes with design property, such as circular, an ellipse, a polygon, a star shape, etc. are mentioned.
In the first embodiment, the number of the ejection holes may be only one as shown in FIGS. 1B, 2A, and 2B, or may be two or more.

(Second embodiment)
The second embodiment of the present invention is a coating means in which a container filled with a conductive coating material for gloves has a main body portion and a detachable lid portion, and the conductive coating material for gloves is applied to the surface of the glove. Constitutes a content take-out part that is integrated with the main body part and has a discharge hole that is opened in advance, and the discharge part is attached to the content take-out part. The conductive coating set for gloves, wherein the hole is sealed and the discharge hole is opened by being removed from the content take-out portion.
The second embodiment is preferable in that it can be used repeatedly because it has a detachable lid for sealing and unsealing a previously opened discharge hole. Further, in the second embodiment, since the discharge holes are opened in advance, an application mechanism described later can be provided in the application means, and this makes it easier to apply the coating material to the surface of the glove. .

  3A and 3B are perspective views showing an example of a conductive coating set for gloves according to the second embodiment. The container of the conductive coating set for gloves 30 shown in FIGS. 3A and 3B has a main body 31a and a detachable lid 31b, and the main body 31a is filled with a conductive coating material for gloves. FIG. 3A shows a mode in which the lid 31b is attached to the content take-out portion 33 of the main body 31a, and FIG. 3B shows a mode in which the lid 31b is removed from the content take-out portion 33 of the main body 31a. In the conductive coating set 30 for gloves, the discharge hole 33a is sealed by attaching the lid portion 31b to the content takeout portion 33, and the discharge hole 33a is removed by removing the lid portion 31b from the content takeout portion 33. Is opened. The application means 32 is integrated with the main body 31a and constitutes a content takeout portion 33 having a discharge hole 33a opened in advance. A coating mechanism 34 is provided inside the coating means 32, and the tip of the coating mechanism 34 projects from the discharge hole 33a. The conductive coating set 30 for gloves can discharge the conductive coating material for gloves filled in the main body 31a from the discharge hole 33a, and spreads the discharged coating material using the application mechanism 34. Thus, it can be applied while forming a desired pattern.

In said 2nd embodiment, the said main-body part will not be specifically limited if it can be filled with the said electroconductive coating material for gloves, The material may be any of flexibility, rigidity, and semi-rigidity. good. Moreover, the shape of the main body is not particularly limited, and examples thereof include a tube shape and a bottle shape. Further, as the main body portion, one provided with a pressurizing mechanism as described in JP-A-2007-313733 can be used.
The lid portion is not particularly limited as long as it is detachable from the content takeout portion and can seal and open the discharge hole.

In the second embodiment, the application means has a function of discharging the coating material filled in the main body from the discharge hole and a function of applying the coating material discharged from the discharge hole by spreading. can do.
As a method of discharging the coating material filled in the main body from the discharge hole, for example, a method of pressing the main body, a method by osmotic pressure in the main body, and a case where the main body includes a pressurizing mechanism For example, a method using pressure using the mechanism may be used.
As a method for applying the coating material by the applying means, for example, as in the first embodiment, there is a method of applying while forming a desired pattern by spreading using the edge portion of the discharge hole or the like. Can be mentioned. Moreover, as shown in FIG. 3, when the said application | coating means is provided with an application | coating mechanism, a coating material can be apply | coated using the said application | coating mechanism. Examples of the coating mechanism include a writing correction liquid container such as a discharge core member described in JP-A-2007-313733 and a mechanism provided with a rotatable ball described in JP-A-8-52984. Other examples include a mechanism having a member capable of spreading a coating material such as a brush and a structure capable of adjusting a discharge amount of contents such as a valve.
Moreover, the application means is not particularly limited, but it is preferable that the application means has a long and slender tip portion in the form of a nozzle, and a content takeout portion having a discharge hole at the end of the tip portion. Thereby, when applying a coating material, it becomes easy to form a fine pattern, and it becomes easy to form the conductive part of a fine pattern by extension.
Further, from the same viewpoint as the first embodiment, also in the second embodiment, the vicinity of the content takeout portion can be made larger in rigidity than other portions.

  In the second embodiment, the diameter of the circumscribed circle of the discharge hole is not particularly limited, but is preferably 0.5 to 10.0 mm from the same viewpoint as in the first embodiment. Moreover, the shape of the said discharge hole is not specifically limited, For example, the shape similar to the shape of the discharge hole of said 1st embodiment etc. are mentioned.

(Third embodiment)
In a third embodiment of the present invention, a container filled with a conductive coating material for gloves has a main body having an outlet and a removable lid, and the lid is attached to the outlet. The outlet is hermetically sealed and removed from the outlet, whereby the outlet is opened, the lid portion includes the application means inside thereof, and the application means includes the shaft portion and the shaft. A conductive material for gloves having a coating material holding part provided at the tip of the part, and having a size stored in the main body part when the lid part is attached to the outlet. It is a coating set.
The third embodiment is preferable in that it can be used repeatedly because it has a detachable lid for sealing and opening the outlet. In the third embodiment, it is possible to form conductive portions of various designs on the surface of the glove by changing the shape and material of the coating material holding portion.

  4A and 4B are perspective views schematically showing an example of a conductive coating set for gloves according to the third embodiment. The container of the conductive coating set 40 for gloves shown in FIGS. 4A and 4B has a main body portion 41a having an outlet 43 and a detachable lid portion 41b, and the conductive coating material for gloves is placed in the main body portion 41a. Filled. 4A shows a mode in which the lid 41b is attached to the outlet 43 of the main body 41a, and FIG. 4B shows a mode in which the lid 41b is removed from the outlet 43 of the main body 41a. In FIG. 4A, the application means 42 accommodated in the main body 41a is indicated by a dotted line. In the conductive coating set 40 for gloves, when the lid portion 41 b is attached to the outlet 43, the outlet 43 is sealed, and when the lid 41 b is removed from the outlet 43, the outlet 43 is opened. Is done. The lid part 41b includes an application unit 42 on the inner side thereof, and the application unit 42 includes a shaft part 42a and a coating material holding part 42b provided at the tip of the shaft part 42a. The application means 42 is sized to be accommodated in the main body 41 a when the lid 41 b is attached to the outlet 43. The conductive coating set 40 for gloves removes the coating material filled in the main body portion 41a by holding it in the application material holding portion 42b and spreads the taken out coating material using the application material holding portion 42b. It can apply | coat, forming a desired pattern.

In the third embodiment, the main body is not particularly limited as long as it can be filled with the conductive coating material for gloves. The material may be flexible, rigid, or semi-rigid. good. Moreover, the shape of the main body is not particularly limited, and examples thereof include a bottle shape. Especially, it is preferable that the said main-body part is a rigid or semi-rigid bottle shape from the point which is excellent in handleability.
The lid portion is not particularly limited as long as it is detachable from the outlet and can seal and open the outlet.

  In the third embodiment, the application means has a function of taking out the coating material filled in the main body portion from the outlet of the main body portion by carrying the coating material while holding it in the application material holding portion of the application means; A function of applying the removed coating material by spreading it using the application material holding portion can be exhibited.

Although it does not specifically limit as said coating material holding | maintenance part, For example, a brush (refer FIG. 4A and FIG. 4B), a hook-shaped thing, a stamp-like thing etc. are mentioned.
The size of the coating material holding portion is not particularly limited. For example, by setting the diameter of a circumscribed circle in a cross-sectional view in which the thickest position of the coating material holding portion is rounded to 0.5 to 10.0 mm, When the coating material is applied, it is easy to hold the coating material, and it is easy to form a fine pattern, and thus it is easy to form a conductive portion having a fine pattern. When the coating material holding part is a brush, the “thickest position” means the thickest position when the entire brush is tightly bound.

  The shaft portion is not particularly limited, but preferably has a high rigidity and is difficult to deform. Thereby, when the coating material is applied to the surface of the glove, the position of the application material holding portion is stabilized, so that it is easy to apply the coating material in a desired pattern with excellent workability.

(Capacity of container)
In the first embodiment, the second embodiment, and the third embodiment, the volume of the container is not particularly limited, but is preferably 5 to 50 mL. As a result, the conductive coating set for gloves according to the present invention is easy for an individual user to use at home and can be filled with a sufficient amount. In the second embodiment and the third embodiment, the capacity of the container means the capacity of the main body.

II. Conductive coating material for gloves The conductive coating material for gloves used in the conductive coating set for gloves of the present invention is a liquid or pasty fluid, and can be applied to the surface of the glove by the application means described above. Although it will not specifically limit if a conductive part can be formed in the surface of a glove, For example, what contains a conductive material and a matrix material can be used.

(Conductive material)
The conductive material is not particularly limited as long as it is a conductive material, and examples thereof include metals such as gold, silver, copper, and aluminum, alloys, metal oxides, conductive ceramics, conductive carbon, and conductive diamond. In particular, silver and aluminum are preferable from the viewpoint of excellent aesthetics and conductivity, and aluminum is particularly preferable from the viewpoint of low cost.
In addition, examples of the shape of the conductive material include a particulate shape and a fibrous shape, and the conductive material is preferably a particulate conductive particle. In the present invention, the term “particulate” means a spherical shape, a substantially spherical shape, a crushed shape found in other pulverized products, and the like, and the aspect ratio of major axis / minor axis is less than 10. The “fibrous” means a shape having a major axis / minor axis ratio, which is an aspect ratio, of 10 or more and extending in one direction, and may be, for example, a square bar shape, a round bar shape, or an oval shape.
As said electroconductive material, 1 type may be used independently among the above, and 2 or more types may be mixed and used for it.
The content of the conductive material in the coating material is not particularly limited, and the conductive portion formed on the surface of the glove using the coating material has sufficient conductivity to be detected in touch panel operation. Can be adjusted.

(Matrix material)
Although it does not specifically limit as said matrix material, It is preferable that it contains at least 1 sort (s) chosen from resin and rubber | gum.
The resin is not particularly limited. For example, a thermoplastic resin such as polyethylene or polyolefin, a thermosetting resin such as an epoxy resin, a phenol resin, a polyester resin, or an acrylic resin, or a rubber polymer is reacted with the thermosetting resin. And a modified product of a thermosetting resin obtained by heating. Among these resins, a thermosetting resin and a modified product of a thermosetting resin obtained by reacting a rubber polymer with a thermosetting resin are preferable from the viewpoint of excellent fluidity at room temperature.
The rubber is not particularly limited, and examples thereof include ethylene-propylene rubber (EPDM), nitrile rubber (NBR), and silicone rubber. As the rubber, silicone rubber is preferable from the viewpoint of excellent heat resistance.

It is preferable that the matrix material further contains a foaming agent. When the matrix material contains a foaming agent, the foaming agent can be decomposed when the conductive material is formed by applying the coating material to the surface of the glove, so that the coating material can be used as the fiber of the glove. Since the anchor effect is produced by entering the gap, the formed conductive portion is excellent in adhesion and conductivity.
The foaming agent is not particularly limited, and known ones can be used. For example, azo compounds such as azodicarbonamide (ADCA), nitroso compounds such as dinitrosopentamethylenetetramine (DPT), 4,4- Examples thereof include hydrazides such as oxybisbenzenesulfonyl hydrazide (OBSH), and sodium bicarbonate. The foaming agent can be appropriately selected and used depending on the type of other components contained in the matrix material.
As the foaming agent, those having a decomposition temperature of 140 ° C. or lower are preferable, and those having a decomposition temperature of 125 ° C. or lower are particularly preferable. Thereby, a foaming agent can be decomposed | disassembled by the heating with heating tools in households, such as a dryer and an oven. Examples of commercially available foaming agents having a decomposition temperature of 140 ° C. or lower include ADCA foaming agents such as Cellmic CAP (manufactured by Sankyo Kasei Co., Ltd.), Cellmic AN (manufactured by Sankyo Kasei Co., Ltd.), and Cellular GX (Eiwa Chemical Industries, Ltd.). DPT / foaming agent such as Excellor Q # 25 (manufactured by Eiwa Kasei Kogyo), OBSH foaming such as Neoselbon N # 1000M / cell paste 101 (made by Eiwa Kasei Kogyo) Agents and the like.

  When the matrix material contains at least one selected from a resin and a rubber and a foaming agent, a combination of at least one selected from a resin and a rubber having a curing temperature higher than the decomposition temperature of the foaming agent to be used is used. Is preferred. As a result, when the coating material applied to the surface of the glove is heated, the entire coating material is cured after the foaming agent is decomposed, so that a higher anchor effect is produced.

  The matrix material may contain various additives such as a foaming aid, a curing agent, a catalyst, and a vulcanizing agent, as necessary.

(Other ingredients)
In addition to the conductive material and matrix material described above, the conductive coating material for gloves includes a solvent, a viscosity modifier, a pigment, a dye, a flame retardant, an ultraviolet absorber, a stabilizer, and a stabilizing aid as necessary. Such additives may be contained.
Moreover, the color of the electroconductive coating material for gloves used for this invention can be adjusted with a containing component, and designability can be provided by coloring.

(Manufacturing method of conductive coating material for gloves)
Although the manufacturing method of the electroconductive coating material for gloves used for this invention will not be specifically limited if it is a method which can obtain the electroconductive coating material for gloves mentioned above, For example, it contains in the electroconductive coating material for gloves. Each component can be produced by kneading by a general kneading method using a mixing roll or the like.

III. Method for forming conductive portion According to the conductive coating set for gloves according to the present invention, the conductive coating material for gloves is applied to the surface of the glove in a desired pattern, and the conductive material is adhered by fixing the applied coating material. A part can be formed.
Application | coating of the coating material to the glove surface can be performed with the application | coating method of the coating material according to each embodiment of the electroconductive coating set for gloves mentioned above, for example.
The method of fixing the coating material applied to the surface of the glove can be appropriately selected depending on the components contained in the coating material. For example, the method of fixing the coating material by simply drying the coating material or the coating material is thermosetting. In the case of containing a functional resin or silicone rubber, and a foaming agent, a method of fixing the coating material by foaming and curing the coating material by applying the coating material to the surface of the glove and then heating is exemplified. .

  The glove which can form an electroconductive part using the electroconductive coating set for gloves which concerns on this invention is not specifically limited, For example, cotton, wool, a chemical fiber, leather etc. which are generally used as a glove material And gloves manufactured using

10, 10 'conductive coating set for gloves 11, 11' container 12, 12 'coating means 13, 13' content takeout part 13a discharge hole 20, 20 'conductive coating set for gloves 21, 21' containers 22, 22 'Coating means 23, 23' Content takeout part 30 Glove conductive coating set 31a Main body part 31b Lid 32 Application means 33 Content takeout part 33a Discharge hole 34 Application mechanism 40 Glove conductive coating set 41a Main body part 41b Lid Part 42 coating means 42a shaft part 42b coating material holding part 43 outlet

Claims (10)

  A conductive coating set for gloves, comprising a conductive coating material for gloves, a container filled with the conductive coating material for gloves, and an application means for applying the conductive coating material for gloves to the surface of the glove. .   The conductive coating set for gloves according to claim 1, wherein the application means is integrated with the container and constitutes a content takeout portion having a discharge hole. The container is a sealed flexible extrudable container;
The conductive coating set for gloves according to claim 2, wherein the discharge hole is opened by cutting or perforating at least a part of the content takeout part. The container has a main body and a detachable lid,
The application means is integrated with the main body portion, and constitutes a content takeout portion having a pre-opened discharge hole,
The discharge hole is sealed when the lid is attached to the content take-out portion, and the discharge hole is opened by being removed from the content take-out portion. The conductive coating set for gloves according to 2.   The conductive coating set for gloves according to any one of claims 2 to 4, wherein the application means has an elongated tip portion in a nozzle shape, and has the content takeout portion at the end of the tip portion. .   The conductive coating set for gloves as described in any one of Claims 2 thru | or 5 whose diameter of the circumcircle of the said discharge hole is 0.5-10.0 mm. The container has a main body having an outlet and a detachable lid.
When the lid is attached to the outlet, the outlet is sealed, and when the lid is removed from the outlet, the outlet is opened,
The lid portion includes the coating means inside thereof, and the coating means has a shaft portion and a coating material holding portion provided at the tip of the shaft portion, and the lid portion is attached to the outlet. The conductive coating set for gloves according to claim 1, wherein the conductive coating set is a size accommodated in the main body.   The electroconductive coating set for gloves as described in any one of Claims 1 thru | or 7 whose capacity | capacitance of the said container is 5-50 mL.   The conductive material for gloves according to any one of claims 1 to 8, wherein the conductive coating material for gloves contains conductive particles and a matrix material containing at least one selected from resin and rubber. Coating set.   The conductive coating set for gloves according to claim 9, wherein the matrix material further contains a foaming agent.

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