KR101860643B1 - Vacuum absorber - Google Patents

Abstract

" 형상의 안내홈(360)이 파여져 형성되고, 상기 안내홈(360)에는 "

" 형상으로 형성된 접착성을 갖는 겔(GEL) 상태의 밀착패킹(370)의 상부가 삽입 접착되며,
상기 제1지지턱(320) 제2지지턱(330)이 각각 하부로 돌출되어 제1챔버(340)와 제2챔버(350)가 구획 형성된 진공재(300)의 저면에 관통되어 형성된 공기흡입구(310)는 상기 제1챔버(340)와 제2챔버(350)에 2개 이상 각각 형성되고,
상기 제1챔버(340)와 제2챔버(350)로 공급된 진공압을 나타내는 표시창(120)과, 상기 표시창(120)을 통해 나타나는 진공압이 공급될수 있도록 하는 진공압설정조작스위치(130)와, 상기 진공압설정조작스위치(130)에 의해 설정된 진공압을 발생시키도록 진공펌프(200)를 작동시키는 진공펌프작동스위치(140)가 각각 조작가능하게 케이스(100)의 저면에 설치되며,
상기 진공펌프(200)에서 발생된 진공압을 진공재(300)로 공급하는 진공라인(500)은 일측단부가 진공펌프(200)에 각각 연결된 한쌍의 진공배관(510)과, 상기 진공배관(510)의 타측단부에 일측단부가 연결된 상태에서 제1챔버(340)와 제2챔버(350)의 공기를 각각 흡입하는 한쌍의 진공밸브(520)로 구성되는 것에 의해 달성된다.The present invention relates to a vacuum adsorber, and more particularly, to a vacuum adsorber, and more particularly, to a vacuum adsorber that prevents a vacuum line connected to a vacuum pump and a vacuum pump from being deformed or damaged by an external force, It is possible to visually confirm the degree to which the vacuum material is adsorbed to the conveyed material or the load, which is heavy, and to use the vacuum material stably.
The present invention provides a vacuum pump comprising a vacuum pump 200 for generating a vacuum, a vacuum material 300 for vacuum adsorbing the vacuum pump 200 by vacuum pressure generated by the vacuum pump 200, A vacuum line 500 for supplying a vacuum generated from the pump 200, a vacuum sensor 400 for sensing vacuum pressure supplied to the vacuum material 300 through the vacuum line 500, A vacuum line 300 and a vacuum line 300 are installed in the lower portion of the housing 300. The upper portion of the vacuum line 300 is connected to a hook 110 of a crane or a hoist, And the case 100 having the opening /
The first chamber 340 and the second chamber 350 are formed in a lower portion of the bottom surface of the vacuum chamber 300 where the air intake port 310 is formed. The first supporting jaw 320 and the second supporting jaw 330 protrude downward,
On the lower surfaces of the first supporting jaw 320 and the second supporting jaw 330 dividing the first chamber 340 and the second chamber 350,

Quot; -shaped guide groove 360 is formed, and the guide groove 360 is formed with a "

(GEL) state of the adhesive packing 370 formed in the shape of "
The first and second supporting protrusions 320 and 330 protrude downward so that the first and second chambers 340 and 350 pass through the bottom surface of the divided vacuum chamber 300, (310) are formed in the first chamber (340) and the second chamber (350), respectively,
A display window 120 indicating vacuum pressure supplied to the first chamber 340 and the second chamber 350 and a vacuum pressure setting operation switch 130 for supplying a vacuum pressure generated through the display window 120, And a vacuum pump operation switch 140 for operating the vacuum pump 200 to generate a vacuum pressure set by the vacuum pressure setting operation switch 130 are respectively installed on the bottom surface of the case 100,
A vacuum line 500 for supplying a vacuum pressure generated by the vacuum pump 200 to the vacuum material 300 includes a pair of vacuum pipes 510 each having one end connected to the vacuum pump 200, And a pair of vacuum valves 520 for sucking in air from the first chamber 340 and the second chamber 350, respectively, with one end connected to the other end of the first chamber 340 and the second chamber 350.

Description

Technical Field [0001] The present invention relates to a vacuum adsorber,

The present invention relates to a vacuum adsorber, and more particularly, to a vacuum adsorber, and more particularly, to a vacuum adsorber that prevents a vacuum line connected to a vacuum pump and a vacuum pump from being deformed or damaged by an external force, And more particularly, to a vacuum adsorber capable of visually confirming the extent to which vacuum material is adsorbed on a conveyed object and a load, which are heavy objects, while stably using the vacuum material.

In general, a vacuum adsorber is a device that is mounted on a hook of a crane or hoist to carry heavy loads such as panels or the like, or to supply them to a work site or the like.

Here, the conventional vacuum adsorber includes a frame having a hooking part, a plurality of vacuum pads mounted on one side of the frame, and a vacuum pump mounted on the other side of the frame so as to be hermetically connected to the vacuum pad .

Such a conventional vacuum adsorber applies a vacuum pressure of a vacuum tank to a vacuum pad to apply a vacuum force to an excessive weight such as a panel to transfer the vacuum pad to a vacuum pad, And transporting them to the workplace.

However, in such a conventional vacuum adsorber, the vacuum pump and the vacuum hose for transmitting the vacuum pressure generated from the vacuum pump to the vacuum pad are exposed to the outside, and the vacuum line such as the vacuum pump and the vacuum hose is impacted from the outside So that it is easily deformed and damaged.

Conventionally, when the vacuum pad is adsorbed on a conveyed object or a load and is conveyed and lifted, it is impossible to perform the operation while visually confirming whether the vacuum pad is adsorbed to the conveyed object or load with an appropriate vacuum pressure. There is a problem that various safety accidents such as dropping during transportation are caused by adsorbing the vacuum pad on the conveyed object and the load.

Korean Registered Patent No. 10-0661535 (Registered Date: December 27, 2006) Korean Registered Patent No. 10-1591414 (registered on Jan. 28, 2016)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a vacuum adsorber which prevents a vacuum pump and a vacuum line connected to the vacuum pump from being deformed or damaged by an external force.

It is another object of the present invention to provide a vacuum cleaner in which a vacuum material is applied to an excessive weight such as a panel that is carried and loaded on a vacuum material when the vacuum material is adsorbed on a heavy object such as a panel carried by a hoist or a crane, And the vacuum adsorber can be stably used while visually confirming whether or not the adsorbent is adsorbed to the adsorbent.

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" 형상의 안내홈(360)이 파여져 형성되고, 상기 안내홈(360)에는 "

" 형상으로 형성된 접착성을 갖는 겔(GEL) 상태의 밀착패킹(370)의 상부가 삽입 접착되며,
상기 제1지지턱(320) 제2지지턱(330)이 각각 하부로 돌출되어 제1챔버(340)와 제2챔버(350)가 구획 형성된 진공재(300)의 저면에 관통되어 형성된 공기흡입구(310)는 상기 제1챔버(340)와 제2챔버(350)에 2개 이상 각각 형성되고,
상기 제1챔버(340)와 제2챔버(350)로 공급된 진공압을 나타내는 표시창(120)과, 상기 표시창(120)을 통해 나타나는 진공압이 공급될수 있도록 하는 진공압설정조작스위치(130)와, 상기 진공압설정조작스위치(130)에 의해 설정된 진공압을 발생시키도록 진공펌프(200)를 작동시키는 진공펌프작동스위치(140)가 각각 조작가능하게 케이스(100)의 저면에 설치되며,
상기 진공펌프(200)에서 발생된 진공압을 진공재(300)로 공급하는 진공라인(500)은 일측단부가 진공펌프(200)에 각각 연결된 한쌍의 진공배관(510)과, 상기 진공배관(510)의 타측단부에 일측단부가 연결된 상태에서 제1챔버(340)와 제2챔버(350)의 공기를 각각 흡입하는 한쌍의 진공밸브(520)로 구성되는 것에 의해 달성된다.
한편, 상기 케이스(100)의 전면에는 제1챔버(340)와 제2챔버(350)로 공급된 진공압을 나타내는 표시창(120)과, 상기 표시창(120)을 통해 나타나는 진공압이 공급될수 있도록 하는 진공압설정조작스위치(130)와, 상기 진공압설정조작스위치(130)에 의해 설정된 진공압을 발생시키도록 진공펌프(200)를 작동시키는 진공펌프작동스위치(140)가 각각 조작가능하게 설치되어 있어, 호이스트나 크레인을 이용해 운반 및 적재되는 패널 등과 같은 중량물인 이송물 및 적재물에 진공재를 흡착할 때에 진공재를 적정한 진공압으로 흡착되었는 지를 표시창(120)을 통해 나타나는 수치를 통해 육안으로 확인해 가면서 안정적으로 사용할 수 있도록 함과 동시에 상기 이송물 또는 적재물의 종류에 따라 진공압설정조작스위치(130)를 조작하여 적정한 진공압으로 진공재(300)를 운반물 및 적재물에 흡착시킨 상태에서 안정적으로 운반 및 적재시킬 수 있도록 한다. A vacuum pump 200 for generating a vacuum and a vacuum pump 300 for sucking the vacuum pump 200 by vacuum pressure generated by the vacuum pump 200 and a vacuum pump 300 A vacuum sensor 500 for sensing the vacuum pressure supplied to the vacuum material 300 through the vacuum line 500 and a vacuum sensor 500 for detecting vacuum pressure supplied to the vacuum material 300 through the vacuum line 500. [ A vacuum line 300 and a vacuum line 300 are provided on the lower portion of the vacuum line 300 and a hook 110 is formed on the upper portion of the vacuum line 300 to hook the crane or the hoist. In the case of the case 100,
The first chamber 340 and the second chamber 350 are formed in a lower portion of the bottom surface of the vacuum chamber 300 where the air intake port 310 is formed. The first supporting jaw 320 and the second supporting jaw 330 protrude downward,
On the lower surfaces of the first supporting jaw 320 and the second supporting jaw 330 dividing the first chamber 340 and the second chamber 350,

Quot; -shaped guide groove 360 is formed, and the guide groove 360 is formed with a "

(GEL) state of the adhesive packing 370 formed in the shape of "
The first and second supporting protrusions 320 and 330 protrude downward so that the first and second chambers 340 and 350 pass through the bottom surface of the divided vacuum chamber 300, (310) are formed in the first chamber (340) and the second chamber (350), respectively,
A display window 120 indicating vacuum pressure supplied to the first chamber 340 and the second chamber 350 and a vacuum pressure setting operation switch 130 for supplying a vacuum pressure generated through the display window 120, And a vacuum pump operation switch 140 for operating the vacuum pump 200 to generate a vacuum pressure set by the vacuum pressure setting operation switch 130 are respectively installed on the bottom surface of the case 100,
A vacuum line 500 for supplying a vacuum pressure generated by the vacuum pump 200 to the vacuum material 300 includes a pair of vacuum pipes 510 each having one end connected to the vacuum pump 200, And a pair of vacuum valves 520 for sucking in air from the first chamber 340 and the second chamber 350, respectively, with one end connected to the other end of the first chamber 340 and the second chamber 350.
A display window 120 for displaying the vacuum pressure supplied to the first chamber 340 and the second chamber 350 and a vacuum pump for supplying vacuum pressure generated through the display window 120 to the first chamber 340 and the second chamber 350, And a vacuum pump operation switch 140 for operating the vacuum pump 200 so as to generate a vacuum pressure set by the vacuum pressure setting operation switch 130 are operably installed And when the vacuum material is adsorbed on the conveyed object and the load, such as panels carried by a hoist or a crane, the vacuum material is visually observed through the numerical value displayed through the display window 120 And the vacuum material setting manipulation switch 130 is operated according to the type of the conveyed object or the load to convey the vacuum material 300 to an appropriate vacuum pressure And in adsorbed state on the load to be stably carried and loaded.

The vacuum line 500 for supplying vacuum pressure generated from the vacuum pump 200 to the vacuum material 300 includes a pair of vacuum pipes 510 each having one end connected to the vacuum pump 200, And a pair of vacuum valves 520 for sucking air in the first chamber 340 and the second chamber 350 while one end of each of the first chamber 340 and the second chamber 340 is connected to the vacuum pipe 510, When the failure occurs in one of the vacuum valves 520 for sucking air in one of the first and second chambers 350 and 350, Any one of the chamber 340 and the second chamber 350 can continuously supply the suction force while maintaining the vacuum state and prevent the air pressure from being leaked by the vacuum pipe 510 and the vacuum valve 520 do.

The first and second support protrusions 320 and 330 protrude downward to penetrate the bottom surface of the vacuum chamber 300 defined by the first chamber 340 and the second chamber 350, At least two air inlets 310 are formed in each of the first chamber 340 and the second chamber 350 so that the vacuum is sucked in through the air inlets 310, The air intake port 310 of the first chamber 340 and the air intake port 310 formed in the second chamber 350 can be adsorbed on the article or the load, A vacuum is sucked through another air inlet 310 which is not clogged to allow the vacuum material 300 to be held on the article or the load.

In the vacuum adsorber of the present invention, the vacuum line connected to the vacuum pump and the vacuum pump is installed inside the case, so that the vacuum line and the vacuum pump are prevented from being deformed by external force, thereby extending the service life.

According to another aspect of the present invention, there is provided a display device comprising: a display window provided on a front surface of a case; a vacuum pressure setting operation switch for supplying a vacuum pressure generated through the display window; and a vacuum pump for generating vacuum pressure set by the vacuum pressure setting switch It is possible to suck the vacuum material to the conveyed object or the load to be conveyed and conveyed at an appropriate pressure by operating the operation switch of the vacuum pump to be operated and thereby the vacuum material is adsorbed on the article or the load, It is a very useful invention that has the effect of being able to be transported and loaded stably without falling off the article or the load.

1 is a perspective view of a vacuum adsorber according to the present invention;
2 is an exploded perspective view showing the structure of a vacuum adsorber according to the present invention.
3 is a cross-sectional view showing the structure of a vacuum adsorber of the present invention
4 is a bottom perspective view showing a vacuum material of a vacuum adsorber according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a cross-sectional view showing the structure of a vacuum adsorber according to the present invention, and FIG. 4 is a cross-sectional view illustrating a structure of a vacuum adsorber according to the present invention. Referring to FIG. 1, there is shown a vacuum adsorber according to the present invention, It is a bottom perspective view showing ashes.

" 형상의 안내홈(360)이 파여져 형성되고, 상기 안내홈(360)에는 "

" 형상으로 형성된 접착성을 갖는 겔(GEL) 상태의 밀착패킹(370)의 상부가 삽입 접착된다.As shown in FIGS. 1, 2, 3 and 4, the vacuum adsorber of the present invention includes a vacuum pump 200 for generating a vacuum, a vacuum pump 200 for generating a vacuum by the vacuum pressure generated by the vacuum pump 200, A vacuum line 500 for supplying a vacuum generated from the vacuum pump 200 to the vacuum material 300 and a vacuum line 500 for supplying a vacuum material through the vacuum line 500, A vacuum sensing sensor 400 for sensing the vacuum pressure supplied to the vacuum chamber 300 and a vacuum line 300 and a vacuum line 300 connected to the vacuum line 500 and the vacuum pump 200, And a case (100) provided with a ring (110) which is hooked on a hook of a crane or a hoist; The vacuum member 300 is formed with an air inlet 310 through the bottom of the vacuum chamber 300. A first support protrusion 320 and a second support protrusion 330 are formed on the bottom of the bottom surface of the air inlet 310, The first chamber 340 and the second chamber 350 are formed to be protruded so that the first chamber 340 and the second chamber 350 are divided into a first chamber 320 and a second chamber 340, (Not shown)

Quot; -shaped guide groove 360 is formed, and the guide groove 360 is formed with a "

The upper part of the adhesive packing 370 in the gel (GEL) state having the adhesive property formed in the "shape "

A display window 120 indicating vacuum pressure supplied to the first chamber 340 and the second chamber 350 is provided on the front surface of the case 100 and a vacuum pump And a vacuum pump operation switch 140 for operating the vacuum pump 200 to generate the vacuum pressure set by the vacuum pressure setting operation switch 130 are respectively operable Respectively.

The vacuum line 500 for supplying vacuum pressure generated from the vacuum pump 200 to the vacuum material 300 includes a pair of vacuum pipes 510 connected to the vacuum pump 200 at one end, And a pair of vacuum valves 520 for sucking the air in the first chamber 340 and the second chamber 350, respectively, while one end of the pipe 510 is connected to the other end.

The first and second support protrusions 320 and 330 protrude downward to penetrate the bottom surface of the vacuum chamber 300 defined by the first chamber 340 and the second chamber 350, At least two air inlets 310 are formed in the first chamber 340 and the second chamber 350.

In the present invention configured as described above, the air inlet port 310 is formed to penetrate the bottom surface, and the first support protrusion 320 and the second support protrusion 330 are respectively disposed on the lower portion of the bottom surface where the air inlets 310 are formed, The first chamber 340 and the second chamber 350 are formed to be protruded so that the first chamber 340 and the second chamber 350 are divided into a first chamber 320 and a second chamber 340, A guide member 360 is formed on the lower surface of the guide groove 360 and a vacuum material 300 is attached to the guide groove 360 and a sealing packing 370 in a gel- A vacuum pump 200 installed to protrude from the lower portion of the case 100 formed with the hooks 110 and 110 for hooking the crane or the hoist and generating vacuum pressure inside the case 100, A vacuum line 500 for supplying a vacuum pressure generated in the pump 200 to the vacuum material 300 and a vacuum line 500 for supplying a vacuum supplied to the vacuum material 300 through the vacuum line 500. [ A vacuum detection sensor 400 is provided for sensing the inside.

A vacuum pump 200 for generating vacuum pressure and a vacuum line 500 for transmitting the vacuum pressure generated by the vacuum pump 200 to the vacuum material 300 and a vacuum pump The vacuum sensing sensor 400 sensing the vacuum pressure supplied to the material 300 is prevented from being damaged or deformed by an external force.

The vacuum line 500 includes a pair of vacuum pipes 510 each having one end connected to the vacuum pump 200 and a second chamber 340 connected to the other end of the vacuum pipe 510, And a pair of vacuum valves 520 for sucking air in the first chamber 340 and the second chamber 350, respectively, so that any one of the first chamber 340 and the second chamber 350, Any one of the first chamber 340 and the second chamber 350 is continuously evacuated by the vacuum valve 520 located at the portion where the failure has not occurred even when the vacuum valve 520 of the vacuum chamber 520 fails. So that the suction force can be provided while the air pressure is not leaked by the vacuum pipe 510 and the vacuum valve 520.

A display window 120 for displaying the vacuum pressure supplied to the first chamber 340 and the second chamber 350 and a vacuum pump for supplying vacuum pressure generated through the display window 120 to the first chamber 340 and the second chamber 350, And a vacuum pump operation switch 140 for operating the vacuum pump 200 so as to generate a vacuum pressure set by the vacuum pressure setting operation switch 130 are operably installed And it is determined whether or not the vacuum material 300 is adsorbed at a proper vacuum pressure when adsorbing the vacuum material 300 on a conveyed object such as a panel or the like carried and loaded using a hoist or a crane by a numerical value And the vacuum pressure setting switch 130 is operated in accordance with the type of the conveyed object or the load so that the vacuum material 300 is conveyed to the conveyance object 300 with a proper vacuum pressure, Is able to be stably carried and loaded in a state in which the operator on the load absorption.

At least two air inlets 310 are formed in each of the first chamber 340 and the second chamber 350 so that the vacuum is sucked in through the air inlets 310 in a short time, The air inlet 310 of any one of the air inlet 310 formed in the first chamber 340 and the air inlet 310 formed in the first chamber 340 and the air inlet 310 formed in the second chamber 350 can be separated from the foreign material The vacuum is absorbed through the other air intake port 310 which is not blocked and the vacuum material 300 is maintained in the state of being adsorbed on the article or the load so that the article or the load on which the vacuum article 300 is adsorbed is not dropped do.

100: Case 110: Ring
120: Display window 130: Vacuum pressure setting operation switch
140: Vacuum pump operation switch 200: Vacuum pump
300: vacuum source 310: air inlet
320: first support jaw 330: second support jaw
340: first chamber 350: second chamber
360: Guide groove 370: Adhesive packing
400: Vacuum sensor 500: Vacuum line
510: Vacuum piping 520: Vacuum valve
500: vacuum line 510: vacuum line
520: Vacuum valve

Claims (4)

A vacuum pump 200 for generating a vacuum and a vacuum pump 300 for sucking the vacuum pump 200 by vacuum pressure generated by the vacuum pump 200 and a vacuum pump 300 A vacuum sensor 500 for sensing the vacuum pressure supplied to the vacuum material 300 through the vacuum line 500 and a vacuum sensor 500 for detecting vacuum pressure supplied to the vacuum material 300 through the vacuum line 500. [ A vacuum line 300 and a vacuum line 300 are provided on the lower portion of the vacuum line 300 and a hook 110 is formed on the upper portion of the vacuum line 300 to hook the crane or the hoist. In the case of the case 100,
The first chamber 340 and the second chamber 350 are formed in a lower portion of the bottom surface of the vacuum chamber 300 where the air intake port 310 is formed. The first supporting jaw 320 and the second supporting jaw 330 protrude downward,
On the lower surfaces of the first supporting jaw 320 and the second supporting jaw 330 dividing the first chamber 340 and the second chamber 350,

Quot; -shaped guide groove 360 is formed, and the guide groove 360 is formed with a "

(GEL) state of the adhesive packing 370 formed in the shape of "
The first and second supporting protrusions 320 and 330 protrude downward so that the first and second chambers 340 and 350 pass through the bottom surface of the divided vacuum chamber 300, (310) are formed in the first chamber (340) and the second chamber (350), respectively,
A display window 120 indicating vacuum pressure supplied to the first chamber 340 and the second chamber 350 and a vacuum pressure setting operation switch 130 for supplying a vacuum pressure generated through the display window 120, And a vacuum pump operation switch 140 for operating the vacuum pump 200 to generate a vacuum pressure set by the vacuum pressure setting operation switch 130 are respectively installed on the bottom surface of the case 100,
A vacuum line 500 for supplying a vacuum pressure generated by the vacuum pump 200 to the vacuum material 300 includes a pair of vacuum pipes 510 each having one end connected to the vacuum pump 200, And a pair of vacuum valves (520) for sucking air in the first chamber (340) and the second chamber (350), respectively, with one end connected to the other end of the second chamber (510). delete delete delete

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