KR102107489B1 - Film coating device sticker type adhesive pad - Google Patents

Abstract

Disclosed is a grip device for an adhesive pad. In the grip device for an adhesive pad according to an embodiment of the present invention, in the grip device for an adhesive pad for separating the adhesive pad from the release paper and attaching it to the coated surface of the product, a handle is formed at the top, and a space for accommodating parts is provided inside. The formed grip body, which is installed at the lower portion of the grip body, is formed at regular intervals on the lower surface of the cooling plate, the cooling plate on which an air flow path and a plurality of air injection holes are formed to inject high-pressure cooling air against the adhesive pad. And, a plurality of cooling fins having a spherical cooling holder integrally formed at the front end, and installed in the inlet portion of the air flow path in the space of the grip body to supply and control cooling air to the air flow path on the cooling plate Includes an on-off valve.

Description

Grip device for adhesive pads {FILM COATING DEVICE STICKER TYPE ADHESIVE PAD}

The present invention relates to a grip device for an adhesive pad, and more specifically, to separate the adhesive pad with a plurality of cooling pins by using the viscosity of the adhesive pad attached to the release paper, so that the adhesive can be attached to the coated surface of the product with high pressure air. It relates to a grip device for a pad.

In general, as a method of joining two plate materials such as a body panel product, a method of applying a sealer, which is a liquid adhesive, is exemplified.

Such a liquid sealer application method requires an expensive sealer application equipment, and the material cost by over-coating the sealer and the process cost due to the use of the application equipment increase, and the flow of liquid adhesive and restriction of the application area, etc. There is a problem.

In recent years, while solving the problems of the sealer application method, a hot melt adhesive pad has been developed for joining a structure in a local and narrow area where a sealer application facility or a welding facility cannot enter.

The hot-melt adhesive pad can be bonded to the structure integrally while being cured to a certain strength when high temperature heat is applied in the oven of the painting process while the two structures are temporarily bonded.

1 is a perspective view of a typical hot melt adhesive pad.

Referring to FIG. 1, such a hot-melt adhesive pad is made of an adhesive pad 200 having one side exposed and a release paper 100 attached to the other side, to remove the release paper 100 and to any one plate material. In the state where the adhesive pad 200 is attached, another plate is adhered to the other surface of the adhesive pad 200.

However, since the operation for attaching the adhesive pad 200 to the application surface of the product is performed manually by an operator, the adhesive material on one side exposed in the process of separating the adhesive pad 200 from the release paper 100 is It is difficult to separate, such as smearing on the operator's hands and surrounding parts, and there are disadvantages such as deformation of the shape in the process of attaching to the application surface of the product.

Particularly, in a high-temperature work environment, the viscosity of the adhesive pad 200 is further increased, and thus there is a greater difficulty in separating the adhesive pad 200 from the release paper 100, so the work speed is slow and it is attached in an accurate shape to the coated surface. There is a disadvantage that workability is remarkably deteriorated, such as this is difficult.

According to an embodiment of the present invention, after separating the adhesive pad with a plurality of cooling fins by using the viscosity of the adhesive pad attached to the release paper, the adhesive pad is viscous and shaped even in a high temperature working environment by attaching it with high pressure air to the coated surface on the product. It is intended to provide a grip device for an adhesive pad that can maintain the.

In one or more embodiments of the present invention, in a grip device for an adhesive pad for separating an adhesive pad from a release paper and attaching it to a coated surface of a product, a grip is formed on the upper portion, and a grip portion is formed inside for receiving parts. The body, which is installed on the lower portion of the grip body, is formed at regular intervals on the lower surface of the cooling plate, the cooling plate is formed with an air flow path and a plurality of air jets to inject high-pressure cooling air against the adhesive pad, the tip A plurality of cooling fins having a spherical cooling holder integrally formed thereon, and an on-off valve installed in an inlet portion of the air flow path in a space portion of the grip body to control supply of cooling air to the air flow path on the cooling plate It can provide a grip device for an adhesive pad comprising a.

In addition, the grip body may be characterized by being made of a lightweight plastic injection agent having low thermal conductivity.

In addition, the cooling plate is connected to an external air hose through the on-off valve, the air flow path receiving the high-pressure cooling air from the air hose according to the on-off operation of the on-off valve, and the air flow path It may include a plurality of air injection ports are integrally connected to and formed to spray the high-pressure cooling air facing the adhesive pad.

In addition, the cooling plate may be made of a cast aluminum material.

In addition, the cooling fin may be integrally molded at regular intervals on the lower surface of the cooling plate corresponding to the area of the adhesive pad.

In addition, the on-off valve may be configured to be turned on and off by being connected to a switch installed in front of the handle of the grip body.

In addition, the on-off valve may include a solenoid valve.

According to an embodiment of the present invention, the adhesive pad is easily separated from the release paper without deformation by a plurality of cooling fins and cooling holders by using the viscosity of the adhesive pad attached to the release paper, and then attached to the coated surface of the product with pressurized and high-pressure air. Even in the working environment, there is an effect of maintaining the viscosity and shape of the adhesive pad.

1 is a perspective view of a general adhesive pad.
2 is a block diagram of a grip device for an adhesive pad according to an embodiment of the present invention.
3 to 6 is a step-by-step use state diagram of the grip device for an adhesive pad according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

However, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to that shown in the drawings, and the thickness is enlarged to clearly express various parts and regions. Did.

However, in order to clearly describe an embodiment of the present invention, parts irrelevant to the description are omitted, and the same reference numerals are given to the same or similar elements throughout the specification.

2 is a block diagram of a grip device for an adhesive pad according to an embodiment of the present invention.

Referring to FIG. 2, the grip device 1 for an adhesive pad according to an embodiment of the present invention includes a grip body 3, a cooling plate 5, a plurality of cooling fins 7, and an on-off valve 9 By separating the adhesive pad 10 from the release paper 20, it can be easily attached to the application surface of the product (P).

Here, the adhesive pad 10 is made of a hot-melt adhesive pad, is made of an epoxy-based hot-melt material that can be cured at high temperatures, has adhesive properties that can be deposited on the operator's hands and surrounding parts, and release paper on one side (20) is made in the form of a sheet attached.

Since the adhesive material of the hot-melt adhesive pad 10 is made of a hot-melt material of a known technique well known in the art, a more detailed description will be omitted herein.

The grip body 3 is formed with a handle 3a at the top so that an operator can hold it for manual work, and forms a space S for receiving parts therein.

At this time, the grip body 3 is preferably made of a light material so that the operator does not feel fatigue even during long hours of work, and may be made of a lightweight plastic injection agent that is light and has low thermal conductivity.

The cooling plate 5 is supplied with high pressure air therein so that an air flow path L and an air jet opening H are formed so as to be sprayed against the adhesive pad 10, at the bottom of the grip body 3 Is installed.

At this time, the cooling plate 5 is preferably made of a light material so that the operator does not feel fatigue even during long-time work, light but high thermal conductivity, cast aluminum with good processability of the air passage L and air jet port H It can be made of material.

A plurality of cooling fins 7 are formed at regular intervals on the lower surface of the cooling plate 5, and a cooling holder 7a is formed at a tip of the cooling fin 7.

In the embodiment of the present invention, the cooling fin 7 has been provided with an example formed by being integrally formed with a predetermined interval in the lower surface area of the cooling plate 5 corresponding to the area of the adhesive pad 10, but separately produced It can be fastened to the lower surface of the cooling plate 5 and installed.

In addition, the cooling holder (7a) is formed integrally with a spherical shape at the tip of the cooling fin (7), is configured to hold the adhesive pad 10 in direct contact with the adhesive pad (10).

The on-off valve 9 is made of a solenoid valve and is installed in the inlet portion of the air passage L on the cooling plate 5 in the space portion S of the grip body 3.

The air passage (L) is connected to the air hose (11) through the on-off valve (9) to receive high-pressure cooling air, and on (ON), off (OFF) of the on-off valve (9) Depending on the operation, the air hose 11 is connected or blocked.

At this time, the on / off valve 9 is turned on and off by the switch 13, and the switch 13 is installed in front of the handle 3a of the grip body 3 It is installed in a position that can be easily operated while the operator holds the grip body 3 through the handle 3a.

Meanwhile, the cooling plate 5 may be supplied with high-pressure cooling air through the air hose 11 and cooled together with the cooling fins 7 and the cooling holder 7a.

3 to 6 is a step-by-step use state diagram of the grip device for an adhesive pad according to an embodiment of the present invention.

Hereinafter, a step-by-step use process of the grip device for an adhesive pad according to an embodiment of the present invention will be described with reference to FIGS. 3 to 6.

First, before the operation, the on / off valve 9 is turned on several times through the operation of the switch 13 to turn the high-pressure cooling air through the air hose 11 into the air passage L of the cooling plate 5 It is supplied to and injected into the air injection port (H).

With such an operation, the cooling pin 7 and the cooling holder 7a are sufficiently cooled, and as shown in FIG. 3, only the release pad 20 is fixed through the fixing clip 30 on the table T ( With respect to 10), the operator presses the cooling holder 7a so that the cooling holder 7a digs into the top surface of the adhesive pad 10.

Then, while the cooling holder 7a is inserted into the adhesive pad 10 having increased viscosity in a high-temperature working environment, the adhesive pad 10 is cooled by the surface tension of the spherical cooling holder 7a and the adhesive pad 10 As the shape of the holder 7a changes, the viscosity of the adhesive pad 10 decreases due to the low temperature of the cooling holder 7a, and a fixing force is generated between the cooling holder 7a and the adhesive pad 10.

In this state, as shown in FIG. 4, when the operator lifts the grip body 3 through the handle 3a, the adhesive pad 10 is released from the fixing force of the plurality of cooling fins 7 and the cooling holder 7a. (20).

Thereafter, as shown in FIG. 5, the operator operates the switch 13 while pressing the adhesive pad 10 against the application surface of the product P regulated on the other table T to turn the on / off valve 9 Drive it ON.

Then, the adhesive pad 10 is self-viscously adhered to the application surface of the product P, and at the same time, the high pressure injected through the internal air passage L of the cooling plate 5 to the air injection port H It becomes the state to inject air.

At this time, as shown in Figure 6, when the operator lifts the grip body 3, each cooling holder (7a) comes out from the adhesive pad 10, the adhesive pad 10 is on the coated surface of the product (P) Will remain attached to the.

As described above, the grip device 1 for an adhesive pad according to an embodiment of the present invention uses a viscosity of the adhesive pad 10 attached to the release paper 20 to a plurality of cooling fins 7 and cooling holders 7a. After easily detaching the adhesive pad 10 from the release paper 20 without deformation, it is attached to the coated surface on the product P with pressurized and high pressure air to maintain the viscosity and shape of the adhesive pad 10 even in a high temperature working environment. Giving effect.

Accordingly, the operation of attaching the adhesive pad 10 can be easily performed to shorten the working time and prevent contamination of the operator's hands or peripheral parts.

Although one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and is easily changed and equalized by one of ordinary skill in the art to which the present invention pertains from the embodiment of the present invention. Includes all changes to the extent deemed acceptable.

1: Grip device for adhesive pad 3: Grip body
3a: Handle 5: Cooling plate
7: Cooling fin 7a: Cooling holder
9: On-off valve 10: Adhesive pad
11: Air hose 13: Switch
20: release paper 30: retaining clip
S: Space L: Air flow
H: Air nozzle T: Table

Claims (7)

In the adhesive pad grip device for separating the adhesive pad from the release paper and attaching it to the coated surface of the product,
A grip body formed with a handle on the upper portion and a space portion for receiving parts therein;
A cooling plate installed at a lower portion of the grip body and having an air flow path and a plurality of air jet openings to jet high-pressure cooling air against the adhesive pad;
A plurality of cooling fins formed at regular intervals on the lower surface of the cooling plate and having a spherical cooling holder integrally formed at a tip; And
An on-off valve installed in an inlet portion of the air flow path in a space portion of the grip body to supply and control cooling air to the air flow path on the cooling plate;
Grip device for an adhesive pad comprising a. According to claim 1,
The grip body
Grip device for an adhesive pad, characterized in that it is made of a lightweight plastic injection agent with low thermal conductivity. According to claim 1,
The cooling plate
An air passage connected to an external air hose through the on / off valve and receiving high-pressure cooling air from the air hose according to on / off operation of the on / off valve; And
A plurality of air injection ports which are integrally connected to the air flow path and are formed to spray the high-pressure cooling air against the adhesive pad;
Grip device for an adhesive pad comprising a. According to claim 1,
The cooling plate
Grip device for an adhesive pad, characterized in that it is made of cast aluminum. According to claim 1,
The cooling fin
A grip device for an adhesive pad that is integrally molded at regular intervals on a lower surface of the cooling plate corresponding to the area of the adhesive pad. According to claim 1,
The on-off valve
A grip device for an adhesive pad configured to be turned on and off in connection with a switch installed in front of the handle of the grip body. According to claim 1,
The on-off valve
Grip device for an adhesive pad comprising a solenoid valve.

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