KR20050084732A - Glass absorption device - Google Patents

Abstract

The present invention relates to a glass adsorption device having a rapid desorption function, the object of which is to be able to quickly desorb the glass adsorbed on the adsorption pad through the vacuum pressure.

According to the glass adsorption device having a rapid desorption function according to the present invention for this purpose; The air line is mounted on the frame 10 and connects the compressor 41 and the compression tank 42 to suck and temporarily store external air, and connects the outlet side of the compression tank 42 with the middle of the vacuum line 31. Equipped with 43. Therefore, the compressed air filled in the compression tank 42 during the desorption process of the glass (G) is forcibly supplied to the adsorption pad (20) side, there is an effect that the operation of the glass (G) easily detachable. That is, the repetitive work of moving and desorbing the glass through the glass adsorption device is easily and safely performed in a short time, and thus, the workability is greatly improved.

Description

Glass adsorption device with rapid desorption function {GLASS ABSORPTION DEVICE}

The present invention relates to a glass adsorption device, and more particularly, to a glass adsorption device having a rapid desorption function that can be easily detached after moving the plate glass adsorbed by vacuum pressure to a desired place.

In general, the glass adsorption device is to be hooked to the hook of the crane or hoist so that the glass can be supplied to the mobile loading or fixing workshop, etc. For this purpose, a frame provided with a hook hook, a plurality of vacuum pads firmly mounted on the bottom of the frame, It is equipped with a suction motor and a vacuum tank to apply vacuum pressure to these vacuum pads. The vacuum tank is connected to the vacuum pads respectively through a vacuum hose.

Therefore, the vacuum pad is brought into close contact with the surface of the glass to be transferred, and the vacuum pressure of the vacuum tank is applied thereto. As a result, while the air between the suction pad and the glass escapes through the vacuum hose, vacuum pressure is applied between them, and the glass adheres firmly to the suction pad. When the vacuum pressure is released after moving to the desired place, the glass is detached by gradually introducing external air between the suction pad and the glass contact surface.

However, in the conventional glass adsorption device, the desorption of the glass naturally proceeds due to the pressure difference between the atmospheric pressure and the glass contact surface, and thus the desorption time is delayed to 10 seconds or more, which significantly lowers workability and delays desorption. The glass may be broken due to this.

The present invention is to solve this problem; An object of the present invention is to provide a glass adsorption device having a rapid desorption function capable of forcibly desorbing the adsorbed glass by forcibly supplying compressed air between the adsorption pad and the glass contact surface.

The present invention for achieving this object is;

A glass with hook hooks, an adsorption pad mounted to adsorb glass on the frame, and a suction motor and a vacuum tank connected to the adsorption pad through a vacuum line to apply vacuum pressure to the adsorption pad. In the adsorption device,

The frame is characterized in that it is provided with compressed air supply means for forcibly detaching the glass by forcibly supplying compressed air to the suction pad side during the detachment process of the glass.

In addition, the compressed air supply means is mounted to the frame, characterized in that it comprises a compressor and a compression tank for sucking and temporarily storing the outside air, and an air line connecting the outlet side of the compression tank and the middle of the vacuum line .

In addition, the compressed air supply means is disposed in the middle of the vacuum line to communicate the vacuum tank side and the suction pad side vacuum line when adsorbing the glass, and when the glass is removed, the air line and the suction pad side vacuum line are connected. It further comprises a three-way valve.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

The glass adsorption device according to the present invention has a function of generating a vacuum pressure to steadily adsorb the glass and rapidly desorbing the glass by applying compressed air, as shown in FIGS. And, a plurality of adsorption pads 20 arranged on the frame 10, a vacuum pressure generating means 30 for applying a vacuum pressure to the adsorption pad 20 during the adsorption process of the glass, and a adsorption pad during the desorption process of the glass. Compressed air supply means (40) is provided for supplying compressed air to the (20) and quickly detaching it.

The frame 10 includes a main frame 11 on which the suction pad 20 is mounted, and a moving frame 12 rotatably coupled to the main frame 11 and having various components mounted therein. ). In addition, the moving frame 12 is compactly equipped with a mechanical component constituting the vacuum pressure generating means 30 and the compressed air supply means 40, the hook hanger 13 to be hooked to a hook such as a crane or a hoist Is prepared.

And the suction pad 20 is disposed to correspond to both sides of the lower surface of the main frame 11, made of a soft resin to be in close contact with the glass surface.

In addition, the vacuum pressure generating means 30 is mounted on the moving frame 12 and is connected through the suction pad 20 and the vacuum line 31, the suction motor 32 for applying a vacuum pressure to the suction pad 20 and And a vacuum pressure gauge 34 and an inlet filter 35 disposed in the middle of the vacuum line 31 connecting the vacuum tank 33, the vacuum tank 33, and the suction pad 20. The suction motor 32 is controlled by the on / off of the switching means for controlling the suction operation power supply, a check valve 36 is installed between the suction motor 32 and the vacuum tank 33 to prevent the back flow of air. It is. Therefore, when driving the suction motor 32, as well as forcibly sucked air to the suction pad 20 side to be discharged to the outside, a part of the vacuum pressure is stored in the vacuum tank 33. Reference numeral “37” denotes an outlet filter disposed at the outlet side of the vacuum line 31.

On the other hand, the compressed air supply means 40 is for forcibly supplying the compressed air to the suction pad 20 during the glass desorption process, as described above, is mounted on the moving frame 12 and sucked and compressed to temporarily store air The compressor 41 and the compression tank 42, the air line 43 connecting the outlet side of the compression tank 42 and the middle of the vacuum line 31, the vacuum line 31 is disposed in the middle of the vacuum and It includes a three-way valve 44 for controlling the supply of compressed air.

The compressor 41 and the compression tank 42 are for inhaling external air and temporarily storing them at a predetermined pressure or more. The driving of the compressor 41 is performed during the adsorption process of the glass, before the desorption process on the compression tank 42. Compressed air is filled. Compressor 41 in the embodiment of the present invention was applied to the compact 1/8 HP due to the structural characteristics, the maximum air pressure of the compression tank 42 is 3.8 kgf / cm ² , the filling time was configured to about 10 seconds.

In addition, the air line 43 connects the outlet side of the compression tank 42 and the midway of the vacuum line 31 through the three-way valve 44. As a result, the compressed air is removed from the three-way valve 44 during the glass desorption process. ), And is supplied to the suction pad 20 through the vacuum line 31.

In addition, the three-way valve 44 is composed of a kind of three-way solenoid valve to switch the opening and closing direction by receiving power, in the embodiment of the present invention is disposed in the middle of the vacuum line 31 to adsorb the glass vacuum tank The vacuum line 31 is connected to the 33 side and the suction pad 20 side, and the communication with the air line 43 is blocked. On the other hand, in the case of detachment, the three-way valve 44 communicates the air line 43 with the suction pad 20 side vacuum line 31 and blocks the communication with the vacuum tank 33 side.

Next, the operation and effects thereof of the glass adsorption device according to the present invention configured as described above will be described with reference to FIGS. 4 and 5.

First, in the case of adsorbing the glass, the operator closes the suction pad 20 to the loaded glass G, and then operates the switch to drive the suction motor 32. At this time, the three-way valve 44 communicates the vacuum tank 33 and the suction line 20 side vacuum line 31, and the communication with the air line 43 is blocked.

Therefore, as shown in Figure 4, the air between the adsorption pad 20 and the glass contact surface through the vacuum line 31, the inlet filter 35, the three-way valve 44, the outlet filter 37 The vacuum is applied between the adsorption pad 20 side and the glass G contact surface by this to maintain the glass firmly attached to the glass adsorption apparatus (see arrow direction). At this time, the operator can visually check the state in which the vacuum pressure is applied through the vacuum pressure gauge 34.

In addition, during operation of the suction motor 32, the compressor 41 is also started so that the outside air is filled to the compression tank 42 at a predetermined pressure.

Subsequently, the glass is removed after the crane or hoist moves precisely from the initial loading position to another place. In this desorption process, the three-way valve 44 communicates with the air line 43 and the suction line 20 side vacuum line 31, and operates the state in which communication with the vacuum tank 33 side is blocked.

Thus, as shown in Figure 5, the compressed air filled in the compression tank 42 through the air line 43, the three-way valve 44, the suction pad 20 side vacuum line 31 through the suction pad 20 ) And glass G contact surface, it is forcibly supplied and detached from the adsorption pad 20 by this (refer arrow direction).

That is, the compressed air filled in the compression tank 42 during the glass desorption process is forcibly supplied to the adsorption pad 20, so that the glass G is actually desorbed within 1 second. At this time, since the compressed air passes through the inlet filter 35, foreign substances collected therein are also forcedly purged.

Finally, the suction motor 32 is started to adsorb and move the glass G, and then pressurized air is supplied to the suction pad 20 to desorb the glass G. You can do repetitive work in a short time.

As described in detail above; According to the glass adsorption device having a quick desorption function according to the present invention, a compressor and a compression tank mounted on a frame for temporarily inhaling and storing external air, and an air line connecting the outlet side of the compression tank and the middle of the vacuum line Equipped with. Therefore, the compressed air filled in the compression tank during the desorption process of the glass is forcibly supplied to the suction pad side, there is an effect that the desorption operation of the glass is easy. That is, the repetitive work of moving and desorbing the glass through the glass adsorption device is easily and safely performed in a short time, and thus, the workability is greatly improved.

1 is a plan view of a glass adsorption apparatus according to the present invention.

2 is a side view of the glass adsorption apparatus according to the present invention.

Figure 3 is a schematic diagram showing a vacuum and compressed air supply line of the glass adsorption apparatus according to the present invention.

Figure 4 is a system diagram showing the adsorption process of the glass adsorption apparatus in the present invention.

Figure 5 is a system diagram showing the desorption process of the glass adsorption apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

10. Frame 20. Adsorption pad

30..Vacuum generation means 31..Vacuum line

32. Suction motor 33. Vacuum tank

40. Compressed air supply means 41. Compressor

42. Compression tank 43. Air line

44..3-way valve

Claims (3)

Frame 10 having a hook hanger and an adsorption pad 20 mounted on the frame 10 to adsorb glass, the adsorption pad 20 and a vacuum line 31 are connected to each other. In the glass adsorption apparatus provided with the suction motor 32 and the vacuum tank 33 for applying a vacuum pressure to the adsorption pad 20, The frame 10 has a rapid desorption function, characterized in that the compressed air supply means 40 for forcibly detaching the glass by forcibly supplying compressed air to the suction pad 20 during the desorption process of the glass. Glass adsorption system. The method of claim 1, The compressed air supply means 40, A compressor (41) and a compression tank (42) mounted on the frame (10) for sucking and storing external air and temporarily storing the compressed air; And an air line (43) connecting the outlet side of the compression tank (42) to the middle of the vacuum line (31). The method of claim 2, The compressed air supply means 40, In the middle of the vacuum line 31 to adsorb the glass, the vacuum tank 33 side and the suction pad 20 side vacuum line 31 is in communication with each other. 43) and a three-way valve 44 for communicating with the suction line 20 side vacuum line 31 further comprises a glass adsorption device with a quick desorption function.