KR20100003866U - Vacuum fixer - Google Patents

Abstract

The present invention relates to a vacuum suction port, and more particularly, an annular groove is formed along the lower edge of the suction plate, and the annular groove is integrally injection-molded with a soft and sticky material. The present invention relates to a vacuum suction port that can be adsorbed even if there is some curvature on the adhered surface, and can maintain the same adsorption endurance even when repeatedly used for a long time.

Suction Hole, Vacuum, Adhesive

Description

Vacuum adsorber {Vacuum fixer}

The present invention relates to a vacuum suction port, and more particularly, an annular groove is formed along the lower edge of the suction plate, and the annular groove is integrally injection-molded with a soft and sticky material. The present invention relates to a vacuum suction port that can be adsorbed even if there are some bends or scratches on the adhered surface, and can maintain the same adsorption endurance even when repeatedly used for a long time.

A vacuum suction port is a mechanism used to attach an object to an adherend using the same principle as a sucker attached to an octopus or octopus leg. Such a vacuum suction port is usually a disk-shaped suction plate made of rubber material, a pull rod installed on the center upper surface of the suction plate to pull up the suction plate, a press cap for projecting the pull rod to the top of the center while covering the suction plate, and Installed on the end of the pull rod is made of a tightening hole for tightening the pull rod.

Therefore, if the adsorption plate is brought into close contact with a smooth surface, such as glass or tile, and the suction plate is pulled up using a fastener and a pull rod, the pressure inside the adsorption plate is significantly lower than atmospheric pressure, The adsorption port is attached to the adhered surface.

The adsorption force of the vacuum adsorption port is largely dependent on the material of the adsorption plate. In general, the softer the material of the adsorption plate, the better the airtightness of blocking air between the adsorption plate and the adhered surface, so that the adsorption endurance also increases. However, if a material that is too soft is used, the suction plate itself is stretched when the suction plate is pulled up by the fastener, or the shape of the suction plate is distorted, which may weaken the adsorption force.

Therefore, conventionally, an adsorption port in which an adhesive material is attached to an adsorption plate or a press cap to improve airtightness of the adsorption plate has been introduced. For example, Japanese Utility Model Registration No. 3048441 (registered on June 7, 1995) discloses an adsorption port in which an expandable pressure-sensitive adhesive material is attached to an edge or front surface of an adsorption plate using an adhesive.

In addition, the Korean Utility Model Registration No. 397850 (registered on September 30, 2005) and the corresponding international publication WO2005-35999 (published on April 21, 2005) to which the applicant has been registered, the lower edge of the lower cap A vacuum wall made of a polyurethane of a gel type having adhesiveness to the protrusion protrudes, and this vacuum wall is brought into close contact with the edge and the adhered surface of the suction plate to improve airtightness and adhesion.

The adhesive material used in the vacuum adsorption port of Japanese Utility Model Registration No. 3048441 and the Korean Utility Model Registration No. 397850 has a soft and sticky property to compensate for the airtightness and adsorption power of the adsorption plate. It is excellent, and in particular, there is an advantage that can maintain a strong adsorption force even if there are some bends or scratches on the adhered surface.

However, since the adhesive materials used for the two adsorption holes are very soft and sticky, it is very difficult to mold them into a specific shape, and when used repeatedly for a long time, the shape and physical properties of the adhesive materials may change. In addition, when the adhesive material is structurally protruding, a part of the adhesive material is pushed out of the adsorption plate when attached to the adhered surface, and a part of the adhesive material adheres to the adhered surface when detaching the adsorption port from the adhered surface. There was a problem such as being separated from the pressing cap.

Therefore, the present invention can maintain excellent adhesion endurance even if there is some bending or scratch on the surface to be adhered, and even if used repeatedly for a long time, the shape and physical properties of the adhesive material that reinforces the adsorption power of the adsorption plate do not change and the durability is excellent. In addition, the object of the present invention is to provide a vacuum suction port which is very easy to manufacture.

In order to achieve the above object, the present invention provides a disc-shaped suction plate, a press cap covering a suction plate with a predetermined space in the center, a pull rod installed in the center of the upper surface of the suction plate, and a pull rod penetrating the push cap, and the pull rod. In the vacuum suction port consisting of a fastener that is coupled to the protruding end, the lower surface of the suction plate is formed with an annular groove along the rim, the annular groove having compatibility with the suction plate and softer than the adsorption plate (軟性) And an adsorption frame of a material having adhesiveness is integrally injection molded, and a pressing plate for pressing the adsorption frame from the edge of the pressing cap is formed.

The vacuum suction port according to the present invention is excellent in adhesion endurance by adhering the adsorption frame installed on the lower surface of the adsorption plate to the adhered surface, and in particular, even when there is a slight bend on the adhered surface (S). It can penetrate into the bend and block the penetration of air, thus maintaining excellent adhesion.

In addition, the vacuum suction port according to the present invention is integrally injection-molded inside the annular groove of the suction frame, so that the manufacturing process is simple. In particular, even if the vacuum suction port is repeatedly used for a long time, the suction frame is deformed or deteriorated in physical properties. There is an effect that can maintain the initial adsorption force.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 is a cross-sectional view showing the structure of a vacuum suction port according to the present invention, Figure 2 is a bottom view showing the shape of the suction plate 10 in Figure 1, Figure 3 is an enlarged view illustrating a portion A in FIG.

Vacuum suction port according to the present invention is installed in the disk-shaped suction plate 10, the pressing cap 20 to cover the suction plate 10 with a predetermined space in the center as shown in Figure 1, the center of the upper surface of the suction plate 10 Pulling rod 30 penetrates through the pressing cap 20, and the fastener 40 is coupled to the protruding end of the pulling rod 30.

The adsorption plate 10 is made of rubber or synthetic resin, the lower surface of the annular groove 11 is formed along the rim portion as shown in Figure 2, the annular groove 11 in the annular suction frame 12 ) Is integrally injection molded.

The material of the adsorption frame 12, which is a feature of the present invention, may be used as long as the material is softer and sticky than the adsorption plate 10, but is compatible with the adsorption plate 10. It is desirable to use materials with compatibility. For example, a combination of materials suitable for use as the adsorption plate 10 and the adsorption frame 12 in the present invention is shown in Table 1 below.

<Table 1>

division Material of Suction Plate 10 Material of adsorption frame (12) A Shore hardness 65 ~ 75 PVC Shore hardness 55 ~ 65 PVC elastomer B Thermoplastic polyolefin consisting of EPDM and PP with a Shore hardness of 90 to 100 Thermoplastic polyolefin consisting of EPDM and PP with a Shore hardness of 10 to 55 C Thermoplastic Polyurethane with Shore Hardness 90 ~ 100 Thermoplastic Polyurethane with Shore Hardness 10 ~ 55 D Thermoplastic Elastomers with Shore Hardness 90 to 100 EPDM with Shore Hardness of 10-50

In Table 1, 'EPDM' is an abbreviation of ethylene propylene diene monomer.

Adsorption plate 10 and the adsorption frame 12 made of the material is excellent in mutual chemical affinity, that is, compatibility is not separated from the boundary between the two. In addition, since the adsorption frame 12 has a very soft and sticky property, the adsorption frame 12 compensates for the adsorption force of the adsorption plate 10 to fill the bends or scratches of the adhered surface to increase airtightness, and adheres strongly to the adhered surface. Therefore, when the adsorption plate 10 is separated from the adhered surface, the adhesive frame 12 is cleanly separated without leaving any trace on the adhered surface.

In the present invention, the adsorption frame 12 may be molded to the same height as the surface of the adsorption plate 10 as shown in FIG. 3A, but is 1 to 1 above the surface of the adsorption plate 10 as shown in FIG. 3B. It is preferable to mold to protrude 3 mm. In addition, the annular groove 11 has a latching jaw 13 having a shape as shown in (B) or (D) of FIG. 3 along both walls in order to enhance the coupling force between the suction plate 10 and the suction frame 12. ) May be formed, and the uneven portion 14 may be formed on the ceiling surface as shown in FIG. 3C.

The pressing cap 20 forms a structure covering the adsorption plate 10 from above, but has a predetermined space at the center thereof to lift the adsorption plate 10. In addition, a pressing plate 21 is formed at the edge of the pressing cap 20 to be in close contact with the upper surface of the suction plate 10 to press the suction frame 12 from above. As shown in FIG. 3D, a track-type pressing protrusion 22 may be formed on the lower surface of the pressing plate 21.

The pulling rod 30 is installed at the center of the upper surface of the suction plate 10 and penetrates the center portion of the pressing cap 20, and the fastener 40 is coupled to the protruding end of the pulling rod 30. Therefore, when tightening the fastener 40, the pull rod 30 is raised while forcibly lifting the central portion of the suction plate (10).

In the present invention, any of the fasteners 40 may be used as long as it can raise the pulling rod 30. For example, a tightening screw as shown in FIG. 1 may be used, or a tightening hole (not shown) using the principle of a lanyard may be used. In addition, the upper end of the fastener 40 may be provided with a hook (hook) or handle, or a structure that can be installed on the shelf, as in the conventional suction port.

1 is a cross-sectional view showing the structure of a vacuum suction port according to the present invention,

Figure 2 is a bottom view showing the shape of the suction plate 10 in FIG.

3 is an enlarged view illustrating a portion A of FIG. 1.

Description of the Related Art

10; Adsorption plate 11; Annular groove

12; Adsorption frame 13; Jam

14; Uneven portion 20; Push cap

21; Pressing plate 22; Push button

30; Pulling bar 40; Fastener

Claims (3)

A disc-shaped suction plate 10, a pressing cap 20 covering the suction plate 10 with a predetermined space at the center, and a pull rod installed in the center of the upper surface of the suction plate 10 to penetrate the pressing cap 20. In the vacuum suction port consisting of a 30, and a fastener 40 coupled to the protruding end of the pull rod 30, An annular groove 11 is formed on the lower surface of the adsorption plate 10 along an edge portion, and the annular groove 11 has softer ductility than the adsorption plate 10 while having compatibility with the adsorption plate 10. Adsorption frame 12 of a material having adhesiveness and adhesiveness is integrally injection molded, and a pressing plate 21 for pressing the suction frame 12 on the edge of the pressing cap 20 is formed. A vacuum suction port characterized by the above-mentioned. The vacuum suction port according to claim 1, wherein the material of the adsorption plate (10) and the adsorption frame (12) is any one of A to D shown in the following table. division Material of Suction Plate 10 Material of adsorption frame (12) A Shore hardness 65 ~ 75 PVC Shore hardness 55 ~ 65 PVC elastomer B Thermoplastic polyolefin consisting of EPDM and PP with a Shore hardness of 90 to 100 Thermoplastic polyolefin consisting of EPDM and PP with a Shore hardness of 10 to 55 C Thermoplastic Polyurethane with Shore Hardness 90 ~ 100 Thermoplastic Polyurethane with Shore Hardness 10 ~ 55 D Thermoplastic Elastomers with Shore Hardness 90 to 100 EPDM with Shore Hardness of 10-50 In the above diagram, 'EPDM' means ethylene propylene diene monomer. The vacuum suction port according to claim 1 or 2, wherein the suction frame (12) protrudes 1 to 3 mm from the surface of the suction plate (10).

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