KR20130099399A - A vacuum pad - Google Patents

Abstract

PURPOSE: A vacuum adsorption pad is provided to maximize an adsorbing force to the supporting surface of the vacuum adsorption pad and to easily maintain the adsorbing force. CONSTITUTION: A vacuum adsorption pad is formed into a structure in which a body unit (110) and an adsorption pad (150) are assembled. The plate-shaped body unit includes an internal space and a mounting groove on the center. The adsorption pad is arranged on the bottom surface of the body unit and includes supporting protrusions (151) penetrating through the mounting groove. The adsorption pad is connected to the center of the body unit via an adhering force regulating device (180) rotated on the body unit so that the supporting protrusions are elevated.

Description

Vacuum suction pad {a Vacuum pad}

The present invention comprises a dish-shaped body portion having a space therein and a suction pad which is located on the bottom of the body portion and has a suction pad connected to the body portion through the adhesion control means to increase the suction force, as well as the vacuum to be made easily It relates to a suction pad.

In general, adsorption mechanisms are commonly used to attach objects to tiles or glass surfaces to fix objects on walls, etc., and these adsorption mechanisms are also recently used for fixing a cradle such as a navigation system or a monitor to a vehicle. The use is expanding.

In connection with such a technique, the technique of the adsorption mechanism is proposed in the conventional patent No. 852164. The configuration of the pad 21 having the lower surface to be adsorbed on the skin adhered surface, as shown in FIG. The outer peripheral part of the upper surface of the pad 21 is attached to the outer peripheral surface of the housing 22 and the housing 22 which are provided on the upper surface of the pad and have a hole through which the central material 23 is fixed upright. An annular leaf spring 27 for pressurizing and an upper end portion of the upper portion of the central portion 23 includes a crimp adjustment portion 24 connected to the shaft 24c, and the crimp adjustment portion 24 includes a lever 24a. And the pressing portion 24b and the lever 24a rotates about the shaft 24c, the pressing portion 24b presses the upper surface of the housing 22 while the pad 21 connected to the center member 23 is upward. The space between the pad 21 and the surface of the skin is enlarged to form a closed space of pressure lower than atmospheric pressure. Stand is achieved with the configuration to be attached on the skin attachment surface.

In addition, in Patent No. 891964, a manufacturing method for producing an adsorption pad has been proposed in which the adhesive soft soft resin is fused and cured to the lower surface of the adsorption pad of the adsorption mechanism.

However, the adsorption mechanism and the adsorption pad manufacturing method as described above have a disadvantage in that the deformation of the adsorption pad due to high heat is caused by molding the resin of the adsorption pad, and a facility for fusion and curing is required.

In addition, there is a disadvantage that can not be supported at the center of the pressing portion (24b) during the operation of the compression control unit 24 can not maximize the adsorption force.

An object of the present invention for improving the conventional problems as described above, to maximize the adsorption force, to facilitate the maintenance of the adsorption force, to facilitate the adsorption and separation of the pads, and to facilitate the manufacture of the adsorption pad To simplify the process, reduce the cost, make the production easier regardless of skill level, and maintain the quality to increase the reliability of the product.

The present invention provides a plate-shaped body portion having a mounting groove in the center while having a space therein to achieve the above object; And

Vacuum adsorption consisting of a suction pad which is located on the bottom of the body portion integrally provided with a support protrusion penetrating through the mounting groove, the support protrusion is connected to the body portion through the adhesion control means to be installed up and down Provide pads.

In addition, the adhesion control means of the present invention, the positioning block is inserted into the support projection, the rotation block having a sloping surface symmetrical so as to rotate relative to the support projection while the positioning shaft is in close contact with the support projection in the vertical direction, It provides a vacuum adsorption pad made of a handle connected to the rotary block.

In addition, the body portion of the present invention provides a vacuum adsorption pad in which the sliding recess in which the handle is moved is formed in the side.

In addition, the adsorption pad of the present invention provides a vacuum adsorption pad comprising a bonding layer formed by laminating a gel pad prepared in advance after forming a bonding layer on the pad body.

As described above, according to the present invention, the adsorption force on the support surface of the adsorption pad is maximized, the adsorption force is easily maintained, the adsorption and separation of the pad is easy, the preparation of the adsorption pad is made easily, and the process is simplified. Reducing the cost is easy to manufacture regardless of skill, it is effective to increase the reliability of the product by maintaining a constant quality.

1 is a side view showing a conventional adsorption mechanism.
Figure 2 is a perspective view of a vacuum adsorption pad according to the present invention.
Figure 3 is a cross-sectional view of the main portion showing a vacuum adsorption pad according to the present invention.
Figure 4 is a flow chart illustrating a manufacturing process of the pad according to the present invention.

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

Figure 2 is a perspective view showing a vacuum adsorption pad according to the present invention, Figure 3 is a sectional view of the main portion showing a vacuum adsorption pad according to the present invention, Figure 4 is a flow chart showing a manufacturing process of the pad according to the present invention.

Vacuum adsorption pad 100 of the present invention, the body portion 110 and the body portion is made of an assembly structure of the suction pad 150 is connected via a spring 186.

The body portion 110 is formed in a plate shape having a space S therein and having a mounting groove 111 at the center thereof.

Then, a plurality of close contact jaw 115 is provided along the most magnetic circumference of the body portion 110.

The adsorption pad 150 has a support protrusion 151 positioned on the bottom surface of the body portion 110 and penetrates through the mounting groove 111, and the support protrusion 151 supports the adhesion force adjusting means 180. It is supported so as to be raised and lowered around the body portion 110 and installed to position.

In addition, the adhesion force adjusting means 180 is rotated about the positioning shaft 181 inserted into the support protrusion 151 and the support protrusion 151 while the positioning shaft 181 is in close contact with the support protrusion when moving. Rotation block 183 having an inclined surface (183a) to be symmetrical to rise and fall in, it is made as a handle 185 connected to the rotation block (183).

At this time, the mounting portion 183b is provided at the upper end of the inclined surface (183a) downward in the traveling direction.

In addition, a mounting portion 183c on which one side of the rotation block 183 is mounted is provided.

In addition, the body portion 110, the sliding recess 115, the handle 185 is moved is formed recessed on the side.

In addition, the adsorption pad 150 has a configuration in which a bonding layer 154 is formed on the pad body 152 by lamination, and then a gel pad 156 prepared in advance is laminated and bonded to one side of the pad body 152.

The gel pad 156 is a polyol mixed with 60 to 80% by weight with a molecular weight of 3,000 to 7,000, a yellowing-free curing agent mixed with 15 to 35% by weight, a non-toxic catalyst mixed with 1 to 2% by weight, 4 to 7% by weight Consisting of% mixed additives,

Bonding layer 154 provides a vacuum adsorption pad consisting of a mixture of 90-95 weight percent polyurethane prepolymer, 5-10 weight percent penny isocyanate.

The operation of the present invention constructed as described above will be described.

As shown in Figures 2 to 4, the vacuum suction pad 100 of the present invention, the body 110 is made of an assembly structure of the suction pad 150 is connected through the adhesion control means 180 and the body The suction pad 150 is moved around the unit 110 to increase the suction force.

Then, a plurality of close contact jaw 115 is provided along the most magnetic circumference of the body portion 110 to be pressed tightly of the suction pad 150 is possible.

The adsorption pad 150, the support protrusion 151 is in close contact force adjusting means 180 when connected via the support protrusion 151 penetrated through the mounting groove 111 in a state located on the bottom surface of the body portion 110. It is installed to raise and lower the center around the body portion 110) to increase the suction force transmitted to the suction pad 150 during the operation of the adhesion control means 180.

In addition, the adhesion force adjusting means 180 is rotated about the positioning shaft 181 inserted into the support protrusion 151 and the support protrusion 151 while the positioning shaft 181 is in close contact with the support protrusion when moving. Rotation block 183 having an inclined surface (183a) symmetrical to rise and fall in, and the handle 185 is connected to the rotation block 183, the positioning axis 181 when the handle is rotated downward or upward from the inclined surface In this configuration, the adsorption force can be controlled.

At this time, the mounting portion 183b is provided on the upper side of the inclined surface (183a) is provided so that the positioning shaft 181 is supported without movement to maintain the support state of the suction pad.

In addition, the body 110, the sliding recess 115 is moved to the handle 185 is formed recessed on the side while increasing the size of the handle 185, the overall size is not increased, the operability is improved.

In addition, the adsorption pad 150 is easy to manufacture regardless of the skill of bonding and bonding the gel pad 156 prepared in advance after the bonding layer 154 is formed on the pad body 152.

In addition, the gel pad 156 is a polyol having a molecular weight of 3,000 to 7,000 60 to 80% by weight, a non-yellowing curing agent mixed with 15 to 35% by weight, a non-toxic catalyst mixed with 1 to 2% by weight, 4 ~ It is preferable that the additive is mixed with 7% by weight, and the polyol and the curing agent are minimized in poor adhesion when the ratio is the same as above, and when the ratio of the curing agent is large or small, the pot life is fluctuated so that accurate working process cannot be brought. .

In addition, the pad 156 of the present invention, through the non-toxic catalyst and additives it is possible to ensure heat resistance and ultraviolet light.

In addition, the bonding layer 154 is made of a mixture of 90 to 95% by weight of polyurethane prepolymer, 5 to 10% by weight of penny isocyanate, and is optimal when the ratio of the polyurethane prepolymer and penny isocyanate is about 9: 1. If the phenic isocyanate is infrared under the condition of, the coating film becomes soft, and if excessive, the coating film hardens, as well as a certain portion of the residual hardening material is generated, causing impurities.

Adsorption pads manufactured in the above-described configuration were found to be harmless to the environment as a result of their own experiments, and to realize the desired adhesive strength.

100 Vacuum suction pad 110
111 ... Mounting groove 115 ... Close contact
150 ... Adsorption Pad 151 ... Supporting Projection
152 Pad body 154 Bonding layer
183 ... rotating block

Claims (4)

It is made of an assembly structure of the body portion 110 and the suction pad 150,
The body portion 110 is formed in a dish shape having a space S therein and having a mounting groove 111 in the center thereof.
The adsorption pad 150 has a support protrusion 151 which is located on the bottom surface of the body portion 110 and penetrates through the mounting groove 111, while the support protrusion 151 rotates in the body portion. Vacuum adsorption pad consisting of a configuration that is connected to raise and lower the center around the body portion 110 through the means (180) According to claim 1, A plurality of close contact jaw 115 is provided along the circumference of the body portion 110,
The adhesion force adjusting unit 180 is rotated about the positioning shaft 181 inserted into the support protrusion 151 and the support protrusion 151 while the positioning shaft 181 is brought into close contact with the support protrusion in the vertical direction. , A rotating block 183 having an inclined surface 183a symmetrically descending, a handle 185 connected to the rotating block 183,
The body portion 110, the sliding recess 115 to which the handle 185 is moved is formed recessed in the side,
The upper end of the inclined surface (183a) is provided with a mounting portion (183b) downwards in the traveling direction,
Vacuum adsorption pad, characterized in that the mounting portion (183c) for mounting the positioning shaft on one side of the rotation block 183 is provided The method of claim 1, wherein the adsorption pad 150, after forming the bonding layer 154 on the body portion 110, the gel pad 156 prepared in advance is characterized in that the configuration consisting of a bonding bond. Suction cups According to claim 1, wherein the gel pad 156 has a molecular weight of 3,000 ~ 7,000 60 to 80% by weight of a polyol, 15 to 35% by weight of a yellowing-free curing agent, 1 to 2% by weight non-toxic Catalyst, consisting of 4-7% by weight of additives mixed,
The bonding layer 154 is a vacuum adsorption pad, characterized in that made of a mixture of 90 to 95% by weight of polyurethane prepolymer, 5 to 10% by weight of penny isocyanate

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