KR101195176B1 - Pad for vacuum suction device - Google Patents

Abstract

PURPOSE: A pad for a vacuum suction device is provided to effectively improve the convenience and stiffness of assembly with a coupling unit because the pad has an inner wall structure and the round and each inner diameter thereof are adroitly designed. CONSTITUTION: A pad(20) for a vacuum suction device(100) comprises a coupling part(22) and a suction part(21). The coupling part supports a coupling unit in a state of closely surrounding the outer surface of the coupling unit upwardly inserted. The suction part is downwardly extended from the coupling part to be contacted on the surface of an object. The coupling part has a support(27) and a sealing protrusion(25). The support is inwardly extended at the bottom of the coupling part and is contacted to the underside of the coupling unit. The sealing protrusion is upwardly extended from the support.

Description

Pad for vacuum suction device

TECHNICAL FIELD The present invention relates to a vacuum adsorption device applied for holding of an article in a vacuum transfer system, and more particularly, to an absorption pad designed to prevent vacuum leakage and provide assembly convenience in a prefabricated structure.

The vacuum transfer system refers to a system for operating a vacuum pump with compressed air to discharge the internal air of the adsorption device, particularly the pad, and to absorb and grip the article by using the negative pressure obtained at this time, and to transfer the article to a predetermined position. In this system, the adsorption device is coupled to the end of a separately provided pipe connector and connected to the vacuum pump via the connector.

Referring to FIG. 1, the vacuum adsorption device 1 is conventionally provided with a ring-shaped fitting 2 with an outward flange 3 formed thereon, and on the side of the fastener 2 while surrounding the flange 3. A pad 4 bonded and extending downward. The fastener 2 is formed of a hard material such as metal or plastic, and the pad 4 is a soft material such as rubber or urethane, and is fixed to the fastener 3 in a manner by adhesive or insert molding. Reference numeral 5 is a pipe-like member that is connected to the fastener 2 separately.

It is true that the adsorption device 1 is still usefully used at present. However, if used to some extent, there is a fatal problem in which external air flows due to a gap in the joint between the fastener 2 and the pad 4, and in particular, if the pad 4 is damaged, the adsorption including the fastener 2 is included. There is a problem that the entire device 1 must be discarded.

Proposed to solve this problem is the vacuum cup disclosed by the applicant in the patents Nos. 932775 and 1068954. Referring to FIG. 2, the disclosed vacuum adsorption device 6 comprises fasteners 2a and pads 4a which are mutually coupled, in this respect structurally different from the adsorption device 1 above. However, here the elements 2a and 4a are detachably assembled, with a separate pressing member 7 providing a bonding force from the outside.

In the disclosed structure, since the external coupling force is released as the pressure member 7 flows, the pad 4a can be freely separated from the fastener 2a and mounted by the softness thereof. Therefore, when the used pad 4a is damaged or damaged, only the pad 4a can be easily removed and replaced with the fastener 2a intact.

Therefore, this adsorption apparatus 6 has the advantage of being economical and excellent in workability compared with the adsorption apparatus 1 mentioned above. On the other hand, however, the adsorption device 6 still does not solve the problem of vacuum loss or leakage occurring at the contact portion between the fastener 2a and the pad 4a, but is more serious in this regard. Can be.

On the other hand, no special measures have been taken in regard to the convenience and robustness of the assembly between the fastener 2a and the pad 4a and the like, based on the pressing member 7 or depending on the pressing member 7.

The present invention is proposed to solve the above problems of the prior art. It is an object of the present invention to provide a pad for a vacuum adsorption device of a novel structure that solves the vacuum leakage problem that may occur in a structure that is detachably coupled to the fastener.

Another object of the present invention is to provide a pad for a vacuum adsorption device having a structure capable of improving ease of assembly and robustness in a structure that is also detachably coupled with a fastener.

The pad for the vacuum adsorption device of the present invention is:

It is based on a pad of flexible material including a coupling portion for tightly wrapping and supporting the outer surface of the fastener inserted from above, and an adsorption portion extending downward from the coupling portion to contact the surface of the object.

In particular, for the purposes of the present invention, the coupling portion is:

A support extending from the lower end to the inner side to contact the bottom surface of the fastener;

An annular sealing protrusion projecting upwardly from the support;

Characterized in having a.

Preferably, the protrusion is in the form of a protruding piece, inclined in the inner or outer direction.

In addition, the support has an extension piece extending inward at the point of the projection to support the end of the central hole of the fastener. Preferably, the thickness of the extension piece is small compared to other parts of the support.

On the other hand, for another object of the present invention, the coupling portion:

An inner wall structure comprising an upper inlet, an inner concave flange, and an inner jaw formed between the inlet and the concave flange;

The inner jaw is processed in the form of an upper round (R) and a lower right angle;

.

Preferably, the inner diameter of the concave flange is formed larger than the inlet inner diameter.

As the pad of the present invention has the above-mentioned sealing protrusion, in the case of the adsorption apparatus to which the pad is applied, the pad has a sealing structure in the same direction as the exhaust direction. Therefore, inflow of external air or leakage of the internal vacuum becomes difficult. Furthermore, there is an effect of providing a more robust sealing ability by the inclined protrusion and further including an extension.

On the other hand, the pad of the present invention has an inner wall structure in which an inlet, an inner jaw, and a concave flange are formed in turn, and the round R and each inner diameter are carefully designed. Therefore, there is an effect of improving the convenience and robustness of the assembly with the fastener close to the inner wall.

1 is a cross-sectional view of a conventional vacuum cup.
Figure 2 is a cross-sectional view of another conventional vacuum cup.
Figure 3 is an exploded view of the adsorption device assembly to which the pad is applied according to the present invention.
4 is an assembled cross-sectional view of FIG. 3.
5 is an enlarged view of a portion 'A' of FIG. 4.
FIG. 6 is a view for explaining the action of 'A' part of FIG.

Features and effects of the present invention 'pad for vacuum adsorption apparatus' described or not described above will become more apparent through the following description of the embodiments described with reference to the accompanying drawings. For reference, the drawings below FIG. 3 illustrate the assembly of the vacuum adsorption device 100 to which the pad 20 of the present invention is applied for convenience of description.

Referring to FIG. 3, the adsorption device 100 has a ring-shaped fastener 10 having a central hole 13 formed therein as an inner core body and a shape that extends downward while closely surrounding an outer surface of the fastener 10. It consists of the pad 20 of the present invention implemented as. Naturally, the fastener 10 is formed of a hard material such as metal or plastic, and the pad 20 is formed of a flexible material such as silicone, urethane, or rubber.

In this case, the fastener 10 and the pad 20 are detachably coupled to each other. At this time, the pressure member 30 providing the reinforced coupling force is provided on the outside to constitute the adsorption device 100.

Specifically, the fastener 10 includes a protruding flange 11 outward from the side and a groove 12 upward from the bottom. On the basis of the groove 12, the central hole 13 side is designed to have a step d that sags downward from the opposite side thereof. This structure is slightly more advantageous in terms of the sealing desired in the present invention. The central hole 13 is an exhaust passage communicating with the internal space S1 of the pad 20.

In addition, the pad 20 includes a coupling part 22 surrounding the outer surface of the fastener 10 and an adsorption part 21 extending downward from the coupling part 22 to contact the surface of the object. . In the present embodiment, the shape of the adsorption part 21 is extended by a skirt type, but the present invention is not limited to any form of the adsorption part 21. As a matter of course, in any case, the adsorption portion 21 and the coupling portion 22 are in communication with each other.

The coupling part 22 has an upper inlet 23 into which the fastener 10 is inserted, an internal concave flange 24 corresponding to the protruding flange 11 of the fastener 10 inserted therein, and a lower end to the inside. A support 27 is formed to contact the bottom of the fastener 10 that is extended and inserted. An annular sealing protrusion 25 is formed to extend upwardly from the support 27 to be inserted into the sealing groove 12.

In this case, since the protrusion 25 elastically supports the bottom surface of the fastener 10 in close contact with each other in accordance with the properties of the material, it is necessary that the sealing groove 12 is necessary in the fastener 10 for sealing. no.

In the present embodiment, the protrusions 25 are in the form of protrusions, and are formed to be inclined or curved in one direction, that is, inward direction. Compared to simply being raised:

While providing reinforcing coupling force between the fastener 10 and the pad 20,

Highly preferred in terms of sealing between both elements 10, 20;

Judging by

In addition, the support 27 has an extension piece 26 extending inwardly at the point of the projection 25 to support the end 13a of the central hole 13 of the fastener 10. The extension piece 26 can prevent the end portion 13a from directly contacting the surface of the object when the object is actually sucked.

Preferably, the thickness of the extension piece 26 (t2 in FIG. 6) is designed to be smaller than the thickness (t1 in FIG. 6) of the other part of the support 27. This structure adds a flexible characteristic to the extension piece 26 to allow fluid contact with the end portion 13a of the central hole 13, thereby making the sealing between both elements 10 and 20 more effective.

On the other hand, the coupling portion 22 has a special form of the inner wall structure. That is, the inner jaw 28 is formed between the inlet 23 and the concave flange 24, the inner jaw 28 is processed in a right angle to the round (R) on the upper side and the opposite lower side. This is a design that facilitates the insertion of the fasteners 10 in close contact with each other and promotes stability after insertion. For stability and robustness after insertion, the inner diameter of the recessed flange 24 is preferably formed larger than the inner diameter of the inlet 23.

On the other hand, the fastener 10 and the pad 20 is coupled by a protruding flange 11 and the concave flange 24, the groove 12 and the projection 25 corresponding to each other. The pressing member 30 may be provided separately to provide a stronger bonding force thereto. The pressing member 30 is a 'b' member consisting of a horizontal portion 31 and the vertical portion 32, it is provided as if fitted to the upper side of the fastener 10 and the pad 20 is coupled.

Although the drawing constitutes the adsorption device 100 assembly including the pressing member 30, for example, the coupling force corresponding to the pressing member 30 may be provided through a design change of the fastener 10.

Referring to FIG. 4, since the pad 20 is made of a flexible material, it is not difficult for the fastener 10 to be inserted into the coupling portion 22 of the pad 20 and to be seated on the support 27. That is, the protruding flange 11 of the fastener 10 passes through the inlet 23 of the pad 20 and slides the round R on the upper side of the inner jaw 28 to be directly seated and fitted to the inlet flange 24. When the protrusions 25 of the pad 20 are inserted into the grooves 12 of the fastener 10, both elements 10 and 20 may be naturally coupled to each other.

At this time, since the lower side of the inner jaw 28 is treated at right angles and the inner diameter of the inlet flange 24 is larger than that of the inlet 23, the fastener 10 inserted into the pad 20 does not arbitrarily flow or escape.

In this state, since the protrusion 25 is inclined in one direction, the bending moment acts when the protrusion 25 is fitted into the groove 12 or when the protrusion 25 contacts the bottom surface of the fastener 10. Therefore, it provides a greater sealing capacity than simply being combined. Of course, when fitted in the groove 12, the coupling force between both elements (10, 20) will be increased at the same time. In addition, the pressing member 30 is provided as if fitted to the upper side of the fastener 10 and the pad 20 is coupled.

The internal space S1 of the pad 20 communicates with the space S2 by the fastener 10, the central hole 13. In the drawing, arrows indicate that the internal air of the pad 20 is exhausted by a vacuum pump. Iii) the direction in which it is directed. As shown here, the sealing projection 25 and the groove 12 have a sealing structure in the same direction as the exhaust direction structurally. Therefore, inflow of external air or leakage of the internal vacuum becomes difficult.

4 and 5, a slight gap is formed between the protrusions 25 and the grooves 12, the end portions 13a of the central hole 13, and the extension piece 26 corresponding to each other. In practice, the pad 20 is made of a soft material and does not intend to have such a gap, but such a gap may occur even if the size is slightly different or the elasticity of the material is insufficient. The figure illustrates this situation.

Referring to FIG. 6, it can be seen that a slight gap between the protrusion 25, the groove 12, and the end 13a of the central hole 13 and the extension piece 26 is removed. Specifically, vacuum and negative pressure are generated in the spaces S1 and S2 during the process of exhausting, and this negative pressure is naturally transmitted to the gap.

By this pressure, the projection 25 is sucked and sticks to the inner wall of the groove 12, and the extension piece 26 flows to be in close contact with the end portion 13a of the central hole 13. As described above, in the fastener 10, the central hole 13 side is designed to have a step d drooping downward from the opposite side relative to the groove 12, and the thickness of the extension piece 26. The t 2 is designed to be smaller than the thickness t 1 of the other part of the support 27 in order to make the extension of the extension piece 26 as easy as possible.

Thus, in the present invention, the sealing structure including the bending structure and the bending structure structurally in the same direction as the exhaust direction has a special effect of not allowing vacuum leakage even if there is a slight standard error.

10. Fasteners 11. Protrusion Flange
12. Home 13. Central Hall
20. Pad 21. Adsorption unit
22. Coupling part 23. Inlet
24. Inlet flange 25. Protrusion
26. Extension 27. Support
28. Inner Jaw 30. Pressing Member
S1. Interior space

Claims (7)

Flexible including coupling part 22 for wrapping and supporting the outer surface of the fastener 10 inserted from the upper side, and the suction part 21 extending downward from the coupling part 22 to contact the surface of the object In the pad of material,
The coupling part 22 is:
A support (27) extending from the lower end to the inner side to contact the bottom surface of the fastener (10);
An annular sealing protrusion 25 extending upwardly from the support 27;
Pad for vacuum adsorption apparatus characterized in that it has a.
The method of claim 1,
The protrusion 25 is in the form of a protruding piece, the pad for a vacuum adsorption device, characterized in that formed inclined in the inward or outward direction.
The method according to claim 1 or 2,
The protrusions 25 are pads for a vacuum adsorption device, characterized in that fitted into the bottom groove (12) of the fastener (10).
The method of claim 1,
The support 27 is a pad for a vacuum adsorption device, characterized in that it has an extension piece (26) extending inward at the point of the projection (25) to support the end of the central hole (13) of the fastener (10).
The method of claim 4, wherein
The thickness t2 of the extension piece 26 is designed to be smaller than the thickness t1 of the other portion of the support 27, pad for a vacuum adsorption device.
Flexible including coupling part 22 for wrapping and supporting the outer surface of the fastener 10 inserted from the upper side, and the suction part 21 extending downward from the coupling part 22 to contact the surface of the object In the pad of material,
The coupling part 22 is:
An inner wall structure including an upper inlet (23), an inner concave flange (24), and an inner jaw (28) formed between the inlet (23) and the concave flange (24);
The inner jaw 28 is processed in the form of an upper round (R) and a lower right angle;
Pad for vacuum adsorption device, characterized in that.
The method of claim 6,
The inner diameter of the inlet flange (24) is a pad for a vacuum adsorption device, characterized in that formed larger than the inner diameter of the inlet (23).

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