CN219279753U - Glass clamping device for ITO glass coating film loading - Google Patents

Abstract

A glass clamping device for ITO glass coating mounting is provided, the top of a piston cylinder is provided with a first limiting block, the bottom of the piston cylinder is provided with a guide rod, a piston is arranged in the piston cylinder, the lower side of the piston cylinder is provided with a vacuum chuck, the upper side of the piston is provided with a push rod, the upper end of the push rod is provided with a supporting block, one end of the guide rod, which is far away from the piston cylinder, is provided with a second limiting block, the periphery of the piston cylinder is provided with a first sliding sleeve in a sliding manner, the periphery of the guide rod is provided with a second sliding sleeve in a sliding manner, a support rod is vertically arranged between the first sliding sleeve and the supporting block, an operating rod is arranged between the first sliding sleeve and the second sliding sleeve, and the periphery of the guide rod is provided with a compression spring; the vacuum chuck can be controlled to adsorb and release the glass by controlling the piston to slide up and down in the piston cylinder through the operating rod and the guide rod, the whole process does not need to be contacted with the glass by hands, and the problem that the glass is polluted by printing things such as sweat and grease secreted by fingers and dust on the glass when the fingers contact the glass by hands of workers is effectively solved.

Description

Glass clamping device for ITO glass coating film loading

Technical Field

The utility model relates to the technical field of ITO glass coating, in particular to a glass clamping device for loading an ITO glass coating.

Background

Before ITO glass coating is carried out, glass to be coated is required to be placed on a clamp, at present, when the glass is placed on the clamp, the glass is generally manually operated by workers, because when the glass is coated, crystallization of the glass is required to be kept, a plurality of sweat glands are arranged on the hands, sweat is not discharged at any time, when fingers contact the glass, things such as sweat secreted by the fingers, oil and dust are added, the glass is polluted by printing, and coating work is inconvenient, so that the problem that the glass is polluted by printing the sweat secreted by the fingers and the things such as the oil and the dust when the fingers contact the glass is solved by manually taking and placing the glass by workers is solved.

For the above reasons, a glass clamping device for coating an ITO glass film is developed.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a glass clamping device for ITO glass coating mounting, which is characterized in that an operating rod is held by a hand and is pinched downwards, so that a piston moves to the lower end of a piston cylinder, gas in the piston cylinder is discharged, when the operating rod is loosened, a second sliding block is pushed by a compression spring to slide along the guide rod towards the piston cylinder, the second sliding block drives a first sliding sleeve to move upwards through the operating rod, the first sliding sleeve drives the piston to move towards the upper end of the piston cylinder through a support rod and a push rod, negative pressure is generated between a vacuum chuck and glass to adsorb the glass, the adsorbed glass is placed on a clamp through the hand-held guide rod, the operating rod is pinched, the vacuum chuck releases the adsorbed glass, and the whole process does not need to be contacted with the glass by hands, so that the problem that sweat, grease and other things secreted by fingers are externally added with dust can be printed on the glass when the glass is contacted with the glass by a worker is effectively solved.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a glass clamping device for ITO glass coating film dress piece is by: the device comprises a piston cylinder, a first limiting block, a guide rod, a piston, a vacuum chuck, a push rod, a supporting block, a second limiting block, a first sliding sleeve, a second sliding sleeve, a supporting rod, an operating rod and a compression spring; the top of piston cylinder sets up first stopper, and the bottom of piston cylinder transversely sets up the guide arm, and the piston is set up in the piston cylinder slip, and the downside of piston cylinder sets up vacuum chuck, the ventilation end of vacuum chuck and the ventilation end intercommunication of piston cylinder, the upside vertical setting of piston extend to the ejector pin of piston cylinder top, the lower extreme and the piston fastening connection of ejector pin, the upper end of ejector pin set up the supporting shoe, the guide arm be close to the one end and the piston cylinder fixed connection of piston cylinder, the one end that the piston cylinder was kept away from to the guide arm sets up the second stopper, the periphery slip of the corresponding piston cylinder between guide arm and the first stopper sets up first sliding sleeve, the periphery slip of guide arm sets up the second sliding sleeve, first sliding sleeve and the supporting shoe between set up the action bars, the periphery of the guide arm that corresponds between second sliding sleeve and the second stopper set up compression spring, the action bars be close to the one end of first sliding sleeve and the outside face of first sliding sleeve articulated, the one end that the action bars are close to the second sliding sleeve and the outside face of second sliding sleeve articulated.

The periphery of the operating rod is sleeved with an anti-skid rubber sleeve.

The piston is made of rubber.

When the glass adsorbing device is used, the guide rod is held by hand, the operating rod is pinched downwards, the second sliding sleeve moves towards the second limiting block along the guide rod, the compression spring is compressed between the second sliding sleeve and the second limiting block, the first sliding sleeve moves towards the lower end of the piston cylinder along the piston cylinder, the first sliding sleeve drives the piston to move towards the lower end of the piston cylinder through the support rod and the ejector rod in the process of moving towards the lower end of the piston cylinder, so that gas in the piston cylinder is discharged, the vacuum chuck is aligned to the outer surface of glass, the adsorption surface of the vacuum chuck is mutually attached to the outer surface of the glass, the operating rod is loosened, the second sliding block is pushed by the compression spring to slide towards the piston cylinder along the guide rod, the second sliding sleeve drives the first sliding sleeve to move upwards through the support rod and the ejector rod, negative pressure is generated between the vacuum chuck and the glass to adsorb the glass, the operating rod is pinched behind the clamp, the vacuum chuck releases the adsorbed glass, and the glass is repeatedly adsorbed.

The beneficial effects of the utility model are as follows: the glass cleaning device is simple in structure and convenient to use, the operating rod is held by the hand, the piston is moved to the lower end of the piston cylinder by pinching the operating rod downwards, so that gas in the piston cylinder is discharged, when the operating rod is loosened, the second sliding block can be pushed by the compression spring to slide along the guide rod towards the piston cylinder, the second sliding sleeve drives the first sliding sleeve to move upwards through the operating rod, the first sliding sleeve drives the piston to move towards the upper end of the piston cylinder through the supporting rod and the ejector rod, so that negative pressure is generated between the vacuum chuck and glass to adsorb the glass, the operating rod is pinched after the adsorbed glass is placed on the clamp through the hand-held guide rod, the vacuum chuck is released to the adsorbed glass, the whole process does not need to contact the glass by hands, and the problem that sweat, grease secreted by the fingers and dust and the like can be printed on the glass to pollute the glass when the glass is manually fetched by a worker.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is a schematic cross-sectional view of the structure of FIG. 2 in the direction A-A:

in the figure: the device comprises a piston cylinder 1, a first limiting block 2, a guide rod 3, a piston 4, a vacuum chuck 5, a push rod 6, a supporting block 7, a second limiting block 8, a first sliding sleeve 9, a second sliding sleeve 10, a supporting rod 11, an operating rod 12 and a compression spring 13.

Detailed Description

The utility model is described in further detail below with reference to the attached drawings and detailed description:

the top of piston cylinder 1 sets up first stopper 2, and the bottom of piston cylinder 1 transversely sets up guide arm 3, and the interior slip of piston cylinder 1 sets up piston 4, and the downside of piston cylinder 1 sets up vacuum chuck 5, the ventilation end of vacuum chuck 5 and the ventilation end intercommunication of piston cylinder 1, the vertical ejector pin 6 that extends to piston cylinder 1 top that sets up in upside of piston 4, the lower extreme and the piston 4 fastening connection of ejector pin 6, the upper end of ejector pin 6 sets up supporting shoe 7, the one end that guide arm 3 is close to piston cylinder 1 and piston cylinder 1 fixed connection, the one end that guide arm 3 kept away from piston cylinder 1 sets up second stopper 8, the periphery slip of piston cylinder 1 that corresponds between guide arm 3 and the first stopper 2 sets up first sliding sleeve 9, the periphery slip of guide arm 3 sets up second sliding sleeve 10, first sliding sleeve 9 and supporting shoe 7 between vertical setting bracing piece 11, first sliding sleeve 9 and second sliding sleeve 10 between set up action bars 12, the periphery that corresponds between second sliding sleeve 10 and the second stopper 8 sets up compression spring 13, the one end that guide arm 3 is close to piston cylinder 1 and piston cylinder 1's one end, the outer side that guide arm 3 is close to first sliding sleeve 9 and second sliding sleeve 10 are close to the outside of first sliding sleeve 10.

An anti-slip rubber sleeve is sleeved on the periphery of the operating rod 12.

The piston 4 is made of rubber.

Claims (3)

1. A glass clamping device for ITO glass coating film dress piece is by: the device comprises a piston cylinder (1), a first limiting block (2), a guide rod (3), a piston (4), a vacuum chuck (5), a push rod (6), a supporting block (7), a second limiting block (8), a first sliding sleeve (9), a second sliding sleeve (10), a supporting rod (11), an operating rod (12) and a compression spring (13); the method is characterized in that: the top of piston cylinder (1) sets up first stopper (2), and the bottom of piston cylinder (1) transversely sets up guide arm (3), and the interior of piston cylinder (1) sets up piston (4), and the downside of piston cylinder (1) sets up vacuum chuck (5), the ventilation end of vacuum chuck (5) and the ventilation end intercommunication of piston cylinder (1), the vertical ejector pin (6) that extends to piston cylinder (1) top that sets up in upside of piston (4), the lower extreme and the piston (4) fastening connection of ejector pin (6) the upper end setting supporting shoe (7), one end that is close to piston cylinder (1) of guide arm (3) and piston cylinder (1) fixed connection, one end that piston cylinder (1) was kept away from to guide arm (3) sets up second stopper (8), the periphery slip of piston cylinder (1) that corresponds between guide arm (3) and first stopper (2) sets up first sliding sleeve (9), the periphery slip of guide arm (3) set up second sliding sleeve (10), first sliding sleeve (9) and supporting shoe (7) between setting up between second sliding sleeve (10), the periphery of the guide rod (3) corresponding to the second sliding sleeve (10) and the second limiting block (8) is provided with a compression spring (13), one end of the operating rod (12) close to the first sliding sleeve (9) is hinged with the outer side surface of the first sliding sleeve (9), and one end of the operating rod (12) close to the second sliding sleeve (10) is hinged with the outer side surface of the second sliding sleeve (10).

2. The glass clamping device for mounting an ITO glass coating film according to claim 1, wherein: an anti-slip rubber sleeve is sleeved on the periphery of the operating rod (12).

3. The glass clamping device for mounting an ITO glass coating film according to claim 1, wherein: the piston (4) is made of rubber.

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