JPH048781A - Adhesion by transfer painting - Google Patents

Abstract

PURPOSE:To uniformly adhere in a short time by a simple and ready method by transferring an adhesive layer previously applied on a supporting base material face onto a complex-shaped cut face and joining the face with another face to be adhered. CONSTITUTION:For instance, an adhesive (e.g. alpha-cyanoacrylate monomer) is applied on a supporting base material face 3 composed of a resin inactive to adhesive to form an adhesive layer 4. A complexshaped cut face of a weather strip 1 is attached to said adhesive layer 4 to transfer the adhesive. Then, said weather strip 1 is joined with a cut face (face to be adhered) of another weather strip 1', thus adhered. Thereby, continuation and automation of adhesion are realized.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a method for applying an adhesive to a surface to be bonded having a complexly shaped cut surface.

<Prior Art> Adhesives, especially instant adhesives, are widely used in various fields such as electronic, mechanical, and chemical industries. For example, so-called weather strings are used in automobiles, trains, airplanes, etc. for the purpose of waterproofing and airtightness.The weather strings are cut to an appropriate length and then glued together with adhesive to form a circular shape. It is used for installation work in this state.

Conventionally, adhesive has been applied to the cut surfaces of these weather strips directly from a container, or by using a brush, spray, or the like. However, the cut surface of weather strips has an irregular elliptical shape and a complex internal shape, and it is technically difficult to uniformly apply adhesive to the cut surface using conventional methods. .

As mentioned above, it is important to uniformly apply instant adhesives in a short time, but conventional methods have not been sufficient for continuous and automated work processes.

<Problems to be Solved by the Invention> The present invention provides a method for uniformly applying adhesive in a short time even to a cut surface of a WI having an irregular shape, such as a cut surface of a weather strip. .

Means for Solving the Problems> The present invention provides a bonding method in which an adhesive is applied to a cut surface of a complex shape and joined to another surface to be bonded.
This is a transfer coating adhesion method characterized in that it is performed by transfer from an adhesive layer applied in advance to the surface of a supporting base material.

The method of the present invention will be explained in detail below.

In the present invention, transfer refers to transferring the adhesive from the supporting substrate surface by bringing the surface to be bonded into contact with an adhesive layer that has been applied to the surface of the supporting substrate in advance, using the adhesive force between the surface to be bonded and the adhesive. It means to transfer it to the surface to be adhered. In this sense, the so-called transfer adhesion method (for example, Japanese Patent Laid-Open No. 57-514
87 Publication).

The method of the present invention is realized by adopting the following mechanism (step).

(1) A mechanism for forming an adhesive layer by applying an adhesive to the support base material surface.

(2) A mechanism for applying an adhesive by transfer by bringing a surface to be adhered having a complex-shaped cut surface into contact with an adhesive layer formed on the supporting base material surface.

(3) Mechanism for cleaning or renewing the supporting base material surface; (4) Mechanism for joining the surface to be adhered to another surface to be adhered. Continuity or automation is possible by incorporating these mechanisms by sequencer control. Note that when cutting both ends of the adhesive, a cutting mechanism is required as a previous step.

The complex-shaped cut surface as used in the present invention refers to a cut surface formed by a circle, a semicircle, a corner, a square, or a modified shape thereof, a combination of one or more thereof, or a cut surface formed by repeating them. An example is shown in FIG.

FIG. 1 is a partial perspective view of the weather strip, and the shaded area is the complex-shaped cut surface (2).

The weather strip (1) is entirely made of rubber and has a steel cord (2') embedded therein.

Taking this as an example, the method of joining according to the present invention will be sequentially explained based on the drawings. The weather strip shown in Fig. 1 is cut along A-A' to form the result shown in Fig. 2. In order to rejoin the weather strip, first apply adhesive to the supporting base material surface (3) shown in Fig. 3. Form the agent layer (4). Next, glue the cut surface of the weather strip 1 with the adhesive J! 4 (FIG. 4) and then pulled apart, the adhesive is transferred to the cut surface (adhered surface) of the weather strip 1. Next, the weatherstrip to which this adhesive has been transferred is joined to the cut surface (adhered surface) of the other weatherstrip 1' shown in FIG. In this way, the transfer coating adhesion according to the method of the present invention is completed as shown in FIG. The type of adhesive, amount of application, amount of transfer, bonding force, etc. are determined as appropriate depending on the desired adhesive strength.

As the adhesive used in the present invention, an appropriate adhesive is selected depending on the intended use, and instant adhesives are particularly preferably used. There are two types of instant adhesives: one-component type and wave type, and the method of the present invention can be applied to either type of adhesive.

As the one-component adhesive, an α-cyanoacrylate monomer is preferably used. Two-component adhesives include types that use a premix of monomer and hardener (urethane type, epoxy type), and types that use a mixture of monomer and hardener separately to the material to be bonded (for example, acrylic adhesives). and chlorosulfonated polyethylene, and a curing agent).

Specifically, the α-cyanoacrylate monomers preferably used in the present invention include methyl α-cyanoacrylate, ethyl α-cyanoacrylate, and propyl-α-cyanoacrylate.
α-cyanoacrylate, allyl-α-cyanoacrylate, butyl-α-cyanoacrylate, heptyl-α-
Cyanoacrylate, hexyl-cyanoacrylate, octyl-α-cyanoacrylate, decyl-α-cyanoacrylate, dodecyl-α-cyanoacrylate, (2-chloroethyl)-α-cyanoacrylate, (
2-methoxyethyl)-α cyanoacrylate, (2-
ethoxyethyl) α-cyanoacrylate, (2-butoxyethyl)-α-cyanoacrylate, benzyl-α
-cyanoacrylate, phenyl-α-cyanoacrylate, trifluoroisopropyl-α-cyanoacrylate, and the like.

Further, a commonly used radical polymerization inhibitor may be added to the adhesive of the present invention. Effective radical polymerization inhibitors include hydroquinone, hydroquinone monomethyl ether, catechol, and pyrogallol.

Furthermore, in the case of a thickened adhesive, polymethyl methacrylate (PMMA), polyvinyl acetate, cellulose acetate isobutyrate, acrylic rubber, polyurethane, etc. can be used.

Other additives include fast-curing additives to shorten the seven-knot time, additives to increase adhesive strength, plasticizers to impart flexibility to the cured adhesive layer, and saturation to impart impact resistance and peel strength. It is also possible to add polyester, a modifier for imparting heat resistance, and dyes and pigments for coating identification. Also, in this case, S(h, S03, HF,
Bh, HBF4, BP3 ether complex,
Anionic polymerization inhibitors such as para-toluenesulfonic acid and propane sultone can also be used together.

As explained with reference to the drawings, the support base material surface 3 is usually a flat surface, and an adhesive layer 4 is formed by applying an adhesive thereto, and by bringing the surface to be adhered into contact with this adhesive layer 4. , it can be instantly and uniformly transferred to the surface to be adhered (cut surface). What is important here is to make the adhesive layer on the support substrate surface uniform in thickness. FIG. 3 shows an example in which an adhesive layer with a uniform thickness is formed by natural falling by standing the supporting base material vertically and utilizing the fluidity of the adhesive.

In the present invention, the adhesive may be applied to the support substrate surface by spraying, shotgun, brushing, etc., and any method may be used as long as a uniform adhesive layer is formed.

The shape of the supporting base material includes columnar, square, and sheet shapes.
The material is not particularly limited as long as it is inert to the adhesive.

However, in order to facilitate transfer, it is preferable to use a synthetic resin such as fluororesin or silicone resin, or one treated with a mold release agent such as silicone, Wax, or fluororesin. The support substrate surface is prepared for the formation of the next adhesive layer by washing with an organic solvent that dissolves adhesives such as ketones to remove residual adhesive after transfer.

Alternatively, if such a cleaning operation is difficult, use of a disposable tape made of the same material makes it possible to continue the work and simplify the operation. Specifically, Teflon tape is preferably used.

<Effects of the Invention> According to the method of the present invention, it is possible to uniformly apply an adhesive in a short time to a bonded surface having a complexly shaped cut surface by a simple and easy means, thereby making it possible to apply the adhesive uniformly in a short time. It enables continuous and automated processes, and has great industrial utility value.

<Example> The method of the present invention will be explained in more detail with reference to Examples below.

Example: The weather strip shown in Figure 1 was cut with a cutter (Figure 2), and as shown in Figure 3, an adhesive (cyanobond) was applied to the surface of the Teflon support base in advance using TechnoShont (manufactured by Taoka Kagaku ■). Dispense and apply using an adhesive applicator (adhesive applicator) and transfer (
4), Adhesion (5), Strength etc. were measured according to the prescriptions listed in Table 1, and the results listed in the table were obtained.

Weatherstorinotori FIG. 2 is an explanatory diagram [perspective view].

1. When weatherstrip 2, complex-shaped cut surface 3, supporting base material surface 4, and adhesive layer 7 are bonded (hereinafter referred to as margin) °゛ Material destruction Partial material destruction Adhesive Weatherstrip (material, EPT Rubber) Measurement temperature: 25℃

[Brief explanation of drawings]

The drawings are for explaining the transfer coating adhesion method of the present invention. Figure 1

Claims (9)

[Claims] (1) In an adhesion method in which an adhesive is applied to a cut surface of a complex shape and bonded to another surface to be adhered, the application of the adhesive is performed by transfer from an adhesive layer previously applied to the support base material surface. A transfer coating adhesion method characterized by: (2) Claim (1) wherein the complex-shaped cut surface is an elliptical irregular shape.
). (3) The method according to claim (1), wherein the complex-shaped cut surface is a cut surface of a weather strip. (4) Claims (1) to (3) in which the adhesive is an instant adhesive.
The method described in any of the above. (5) The method according to claim (4), wherein the instant adhesive is an α-cyanoacrylate monomer. (6) The method according to any one of claims (1) to (5), wherein the supporting base material surface is formed of a synthetic resin that is inactive to adhesives. (7) The method according to any one of claims (1) to (6), wherein the supporting base material is a tape. (8) Claims (1) to (7) in which the transfer is performed on both surfaces to be adhered.
). (9) The method according to any one of claims (1) to (7), wherein the adhesive is a two-component adhesive, and each component is transferred to the surface to be adhered.