CN202116195U - Lifting fixture for adhesion-proofing plate - Google Patents

Abstract

The utility model discloses a lifting fixture for an adhesion-proofing plate, so that the adhesion-proofing plate can be placed in a cavity of a sputtering machine for reassembling by using a crown block, the working efficiency is improved, the human resource is saved, and the safety factor is improved. The lifting fixture mainly comprises a lifting ring, a weight adjusting support frame, a lateral support frame and a clamping fixture.

Description

Prevent board and lift by crane anchor clamps

Technical Field

The utility model relates to a liquid crystal manufacturing field especially relates to a prevent lifting by crane anchor clamps of board in to magnetron sputtering machine.

Background

In the production and manufacturing process of Liquid Crystal, especially Thin film transistor-Liquid Crystal Display (TFT-LCD), a magnetron sputtering machine is required for coating. When a magnetron sputtering machine is used for coating, a sputtering source in the magnetron sputtering machine generates accelerated electrons under the action of an electric field, the accelerated electrons collide with inert gas pre-filled in a vacuum cavity of the magnetron sputtering machine to obtain positively charged particles, the positively charged particles are attracted by a cathode (target) to collide with atoms on the surface of the target, the atoms are collided by the positively charged particles to obtain momentum transfer, and then acting force vertical to the surface of the target is generated, so that the atoms on the surface of the target collide out and are deposited on a coated object to complete coating.

In order to prevent atoms from depositing at places except for the plated object, such as two sides and upper and lower inner walls of a cavity of a magnetron sputtering machine, and avoid the inner wall of the cavity from being polluted due to long-term use, anti-sticking plates are arranged around an object placing plate for placing the plated object inside the magnetron sputtering machine. The anti-sticking plate consists of a plane anti-sticking plate and a side anti-sticking plate, is processed into a size and a shape matched with the cavity of the magnetron sputtering machine by adopting metal or alloy, and is installed in the cavity of the magnetron sputtering machine after the surface of the anti-sticking plate is processed. The structure of the plane attachment plate is shown in the attached drawing 1 and is in a square frame shape, the plane attachment plate is composed of 8 blocks, two blocks are arranged at the upper part and the lower part and are symmetrically distributed, two blocks are arranged at the left side and the right side and are symmetrically distributed, seven installation positioning holes are distributed on 4 blocks of the upper left corner, the upper right corner, the lower left corner and the lower right corner, the six installation positioning holes are distributed in the horizontal direction, the two installation positioning holes in the middle of the horizontal direction correspond to the positions of the positioning pins of the cavity back copper plate, the six installation positioning holes are distributed on the four blocks of the left side and the right side, and the two installation positioning holes in the middle correspond to the positions of. And respectively aiming at each plane attachment prevention plate, installing a corresponding side attachment prevention plate on the edge of the plane attachment prevention plate by a screw in the direction vertical to the plane attachment prevention plate, as shown in the attached drawing 2, wherein the side attachment prevention plate is not provided with a positioning hole.

At present, because a crane hook cannot directly enter the cavity of the magnetron sputtering machine from the vertical direction to install a nut at a corresponding position of a back copper plate corresponding to an anti-attachment plate, a manual mode is adopted when the anti-attachment plate is installed or disassembled, when each anti-attachment plate is installed, 2-3 persons must lift the anti-attachment plate weighing forty kilograms to an escalator, and then lift the anti-attachment plate to the top of the head to place the anti-attachment plate at the corresponding position of the back copper plate for installation, and similarly, when the anti-attachment plate is disassembled, the anti-attachment plate plated with thick metal layers (such as molybdenum, aluminum-neodymium and the like) or indium tin oxide needs to be manually disassembled piece by piece and is taken out of the cavity of the magnetron sputtering machine. Therefore, the efficiency is low when the anti-landing plate is installed or disassembled, great manpower is needed, and certain potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

The utility model provides a prevent that board lifts by crane anchor clamps for can will prevent with the help of the overhead traveling crane that the board is placed and install again in the cavity of sputter, improve work efficiency, save manpower resources, also improve factor of safety.

The utility model provides a specific technical scheme as follows:

a fencing clamp comprising:

the lifting ring is fixedly connected to the upper surface of the weight-adjusting support frame;

the weight-adjusting support frame is a horizontally-placed right-angle triangular column, one side surface of the right angle is used as an upper surface, is parallel to the horizontal support frame and is positioned above the horizontal support frame, a hanging ring is fixedly connected onto the weight-adjusting support frame, and the other side surface of the right angle is vertical to the upper surface of the horizontal support frame and is fixedly connected onto one side edge of the horizontal support frame;

the device comprises a horizontal support frame and a horizontal frame-shaped structure, wherein one side edge of the horizontal support frame is fixedly connected with a weight adjusting support frame, the other side edge opposite to the weight adjusting support frame is of a linear guide rail type structure, and a sliding unit is arranged on the linear guide rail, wherein the distance between the side edge fixedly connected with the weight adjusting support frame and the side edge adopting the linear guide rail type structure is greater than or equal to the sum of the horizontal width of the weight adjusting support frame and the depth of a cavity of the magnetron sputtering machine;

the clamping comprises a connecting rod connected with the sliding unit, a vertical rod is fixedly connected with the lower end of the connecting rod, a sliding groove is formed in the horizontal rod perpendicular to the vertical rod, a sliding block is placed in the sliding groove, a positioning column is connected to the sliding block, and the diameter of the positioning column is smaller than or equal to that of an installation positioning hole in the anti-sticking plate.

Based on above-mentioned technical scheme, the overhead traveling crane can be through connecting the rings of lifting by crane anchor clamps and lift by crane the protection board, before lifting by crane the protection board, through the accent heavy support frame and the horizontal stand frame that lift by crane anchor clamps keep lifting by crane the weight balance when protection board, and can further adjust weight balance through the sliding unit on the horizontal stand frame, wherein, through the fixed protection board of clamping in the lifting by crane anchor clamps, through the slider in the control clamping promptly, make the horizontal pole insert the installation locating hole of protection board, in order to lift by crane, and when reacing the copper backing board, will prevent that the board pushes away to accurate locating hole position and install. The anti-adhesion plate can also be disassembled by performing reverse operation according to the method. To sum up, adopt the board of preventing that this embodiment provided to lift by crane anchor clamps for can will prevent with the help of the overhead traveling crane that the board is placed and install again in the cavity of sputter, avoid artifical transport to prevent the board, when improving work efficiency, save manpower resources, and improve factor of safety.

Drawings

FIG. 1 is a schematic structural view of a prior art planar attachment plate;

FIG. 2 is a schematic view of a combination of a planar attachment panel and a side attachment panel of the prior art;

FIG. 3 is a schematic structural view of the hoisting fixture for the anti-landing plate in this embodiment;

FIG. 4 is a schematic structural diagram of a cylindrical linear guide rail in the present embodiment;

FIG. 5 is a schematic structural diagram of the sliding unit in the present embodiment;

FIG. 6 is a schematic view of a clip structure according to the present embodiment;

FIG. 7 is a schematic structural diagram of the active slider in this embodiment;

FIG. 8 is a schematic structural diagram of the follower slider in this embodiment;

FIG. 9 is another structural diagram of the clip of the present embodiment;

FIG. 10 is another schematic structural view of the clip of the present embodiment;

FIG. 11 is a schematic view of a slider structure according to the present embodiment;

fig. 12 is a schematic view of an application of the card holder in the embodiment.

Detailed Description

In order to prevent with the help of the overhead traveling crane that the board is placed and install again in sputter's cavity inside to improve work efficiency, use manpower sparingly the resource, improve factor of safety simultaneously, the utility model provides a prevent board lifting by crane anchor clamps mainly includes rings, accent heavy support frame, horizontal support frame and anchor clamps.

The following describes in detail preferred embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 3, in the present embodiment, the hoisting fixture for a landing prevention plate mainly includes a hoisting ring 30, a weight-adjusting support frame 31, a horizontal support frame 32 and a fixture 33, wherein,

a lifting ring 30 fixedly connected to the upper surface of the weight-adjusting support frame 31;

the weight-adjusting support frame 31 is a right-angle triangular column which is horizontally placed, one side surface where a right angle is located serves as an upper surface, is parallel to the horizontal support frame and is located above the horizontal support frame 32, a hanging ring 30 is fixedly connected to the upper surface, and the other side surface where the right angle is located is perpendicular to the upper surface of the horizontal support frame 32 and is fixedly connected to one side edge of the horizontal support frame 32;

the horizontal support frame 32 is of a horizontal frame-shaped structure, one side edge of the horizontal support frame is fixedly connected with the weight-adjusting support frame 31, the other opposite side edge of the horizontal support frame is of a linear guide rail type structure, and a sliding unit 321 (see fig. 5) is arranged on the linear guide rail 320, wherein the distance between the side edge fixedly connected with the weight-adjusting support frame 31 and the side edge adopting the linear guide rail type structure is larger than or equal to the sum of the horizontal width of the weight-adjusting support frame 31 and the depth of the cavity of the magnetron sputtering machine;

the clamp 33 comprises a connecting rod 602 (see fig. 6) connected with the sliding unit 321, the lower end of the connecting rod 602 is fixedly connected with a vertical rod 603, a sliding groove is arranged on a horizontal rod 604 perpendicular to the vertical rod 603, a sliding block 605 is placed in the sliding groove, an alignment column 606 is connected on the sliding block 605, and the diameter of the alignment column 606 is smaller than or equal to that of the mounting positioning hole on the attachment preventing plate.

When the other side surface where the right angle of the weight-adjusting support frame 31 is located is perpendicular to the upper surface of the horizontal support frame 32 and is fixedly connected to one side edge of the horizontal support frame 32, the weight-adjusting support frame can be fixedly connected in a welding or bolt connection mode.

Preferably, the weight-adjusting support frame 31 has a hollow structure to reduce weight.

Preferably, the horizontal support frame 32 is fixedly connected to the side edge of the weight-adjusting support frame 31 and the side edge adopting the linear guide rail type structure, and is longer than the horizontal width of the weight-adjusting support frame 31 by 60 cm or more.

When the sliding units 321 are placed on the linear guide rails 320 of the horizontal support frame 32, three sliding units 321 can be placed on the linear guide rails 320, and the sliding units 321 at two ends can be fixed on the linear guide rails 320; three sliding units 321 may be disposed on the linear guide 320, and the positions of the three sliding units 321 are not fixed. Preferably, a ring is provided at the lower end of the sliding unit 321, and the connecting rod 602 of the clip 33 is hung on the ring of the sliding unit 321.

In this embodiment, as shown in fig. 4, the linear guide 320 on the horizontal support frame 32 may adopt a cylindrical linear guide structure, and a cylindrical linear support rail 401 is disposed on a side of the horizontal support frame 32. Accordingly, as shown in fig. 5, the sliding unit 321 is provided with a cylindrical through hole 501 having a diameter the same as that of the cylindrical support rail 401, and a ring 502 is provided at the lower end of the sliding unit 321. This embodiment only exemplifies with cylinder linear guide, and in practical application, if there is the guide rail structure of other forms, can be applied to the utility model discloses a, the utility model discloses also include it.

As shown in fig. 6, in the present embodiment, the clip 33 includes a hook 601 hooked to the ring 502 of the sliding unit 321, a connecting rod 602 connected to the hook 601, preferably, the connecting rod 602 is made of L-shaped stainless steel, one end of which is connected to the hook 601, the other end of which is fixedly connected to a vertical rod 603, a sliding slot is formed on a horizontal rod 604 perpendicular to the vertical rod 603, a sliding block 605 is placed in the sliding slot, and an alignment column 606 is connected to the sliding block 605, wherein the diameter of the alignment column 606 is smaller than or equal to the diameter of the positioning hole installed on the attachment-preventing plate.

As shown in fig. 7, when the sliding block 605 is placed in the sliding slot 701 provided on the horizontal rod 604, the driving sliding block 6051 and the driven sliding block 6052 are placed in the sliding slot 701, wherein the driving sliding block 6051 is provided with the locking pin 702, the driving sliding block 6051 and the driven sliding block 6052 are connected through the sliding link, and the driven sliding block 6052 is connected with the alignment column. The structure of the driving slider 6051 is shown in fig. 7, and the structure of the driven slider 6052 is shown in fig. 8.

Preferably, a semicircular hole 607 is formed in the vertical rod 603 above the position where the horizontal rod 604 is connected, and the semicircular hole 607 is sized to allow the link between the driving slider 6051 and the driven slider 6052 to pass through.

Preferably, a baffle group 608 is installed above or below the horizontal rod 604 perpendicular to the vertical rod 603, and the baffle group is composed of an upper baffle and a lower baffle, and is fixedly connected with the vertical rod 603 perpendicular to each other, wherein the distance between the upper baffle and the lower baffle is greater than or equal to the thickness of the side attachment preventing plate. In practical application, the baffle group 608 can be installed above the horizontal rod 604 or the baffle group 608 can be installed below the horizontal rod 604 according to actual needs, and the anti-attachment plates at the four corners of the upper left corner, the upper right corner, the lower left corner and the lower right corner can be installed by replacing the clips during installation; alternatively, a set of baffle groups 608 may be attached above and below the horizontal bar 604, the upper baffle group may be used when attaching the upper left and right fenders, and the lower baffle group may be used when attaching the lower left and right fenders.

Based on the above embodiment, when the attachment prevention plate is installed, if the attachment prevention plate is installed at four corners of the upper left corner, the upper right corner, the lower left corner and the lower right corner, the two clips 33 located at the two sides are respectively used to fix the installation positioning holes located at the two ends of the attachment prevention plate, the clip 33 located in the middle selects the installation positioning hole capable of keeping the weight balance for fixing, and then the side attachment prevention plate corresponding to the upper left and the upper right attachment prevention plate is placed in the baffle group 608 located above the horizontal rod for fixing, or the side attachment prevention plate corresponding to the lower left and the lower right attachment prevention plate is placed in the baffle group 608 located below the horizontal rod 604 for fixing.

In another embodiment, at least one sliding unit 321 with a circular ring, a clip 33 connected to the lower end thereof, and a second horizontal bar 902 parallel to the existing first horizontal bar 901, which are the same structure as those shown in fig. 9, are placed on the linear guide 320 of the horizontal support frame 32, and are perpendicular to the vertical bar 603.

In practical application, when the attachment prevention plates positioned on the left side and the right side are installed, a first horizontal rod 901 and a second horizontal rod 902 are adopted to fix two installation positioning holes respectively; when four attachment prevention plates, namely, an upper left attachment prevention plate, a lower left attachment prevention plate, an upper right attachment prevention plate and a lower right attachment prevention plate are installed, a first horizontal rod 901 can be used for fixing one installation positioning hole, and a second horizontal rod 902 can be used for fixing the other installation positioning hole. In practical applications, a person skilled in the art may simply modify the vertical rod 603, for example, to set a second vertical rod or a third vertical rod on the left side or the right side of the vertical rod 603, and mount a baffle group thereon, where the baffle group is parallel to a plane formed by the first horizontal rod 901 and the second horizontal rod 902, so as to fix the corresponding side attachment preventing plate by using the baffle group when four attachment preventing plates, i.e., an upper left attachment preventing plate, a lower left attachment preventing plate, an upper right attachment preventing plate, and a lower right attachment preventing plate, are mounted, and this embodiment also includes them.

In another embodiment, as shown in fig. 10, in the clip 33, a sliding groove is provided on a horizontal rod 604 perpendicular to the vertical rod 603, and a sliding block 605 is placed in the sliding groove, and is connected with an alignment column 606, the diameter of the alignment column 606 is smaller than or equal to the diameter of the positioning hole on the attachment preventing plate, and a hinge 1001 is provided on the sliding block 605; a spring 1002 is mounted on the vertical rod 603, and the spring 1002 is parallel to the vertical rod 603, and is fixed at one end and connected to the hinge 1001 of the slider 605 at the other end through a link. Wherein, a clamping bolt is arranged at one end of the spring 1002 connected with the slide block 605 or on the slide block 605 to fix the position of the slide block. Preferably, the spring 1002 is disposed in a hollow cylindrical sleeve 1003, two through slots 1004 are disposed on the cylindrical sleeve 1003, the slots 1004 are disposed along a vertical direction, the other end of the link connecting the slider 605 is connected to one end of the spring 1002, the link is made to penetrate the slots 1004 disposed along the vertical direction, the other end of the spring 1002 is fixed on the cylindrical sleeve 1003, and the cylindrical sleeve 1003 is fixed on the vertical link 603. The structure of the slider 605 is shown in fig. 11.

In practical application, as shown in fig. 12, the connecting rod penetrating through the slot 1004 opened in the vertical direction is controlled to compress the spring 1002, so as to push the slider 605 to move, and the slider 605 is pushed from the original position 1201 to the moved position 1202, so that the alignment post 606 connected with the slider 605 is inserted into the installation positioning hole of the attachment preventing plate, so as to fix the attachment preventing plate.

Similarly, in this embodiment, the set of baffles 608 may be mounted above or below the horizontal bar 604, preferably, if the spring 1002 is located below the horizontal bar 604, the set of baffles 608 is mounted above the horizontal bar 604, and if the spring 1002 is located above the horizontal bar 604, the set of baffles 608 is mounted below the horizontal bar 604. In practice, one skilled in the art may simply modify the baffle group 608 and the spring 1002 to be installed on the same side of the horizontal rod 604 (e.g., both located below the horizontal rod 604), and this embodiment also includes the same.

Based on above-mentioned technical scheme, the overhead traveling crane can be through connecting the rings of lifting by crane anchor clamps and lift by crane the protection board, before lifting by crane the protection board, through the accent heavy support frame and the horizontal stand frame that lift by crane anchor clamps keep lifting by crane the weight balance when protection board, and can further adjust weight balance through the sliding unit on the horizontal stand frame, wherein, through the fixed protection board of clamping in the lifting by crane anchor clamps, through the slider in the control clamping promptly, make the horizontal pole insert the installation locating hole of protection board, in order to lift by crane, and when reacing the copper backing board, will prevent that the board pushes away to accurate locating hole position and install. The anti-adhesion plate can also be disassembled by performing reverse operation according to the method.

In addition, the baffle group is arranged to fix the side attachment prevention plate, so that the attachment prevention plate is kept balanced when the attachment prevention plate is mounted or dismounted.

To sum up, adopt the board of preventing that this embodiment provided to lift by crane anchor clamps for can will prevent by the help of the overhead traveling crane that the board is placed and install again in the cavity of sputter, avoid artifical transport to prevent the board, when improving work efficiency, save manpower resources, and improve factor of safety.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (11)

1. A kind of defends the board and hoists the clamp, characterized by comprising:

the hoisting ring (30) is fixedly connected to the upper surface of the weight adjusting support frame (31);

the weight-adjusting support frame (31) is a right-angle triangular column which is horizontally placed, one side surface where a right angle is located serves as an upper surface, is parallel to the horizontal support frame (32) and is located above the horizontal support frame, a hanging ring (30) is fixedly connected onto the side surface, and the other side surface where the right angle is located is perpendicular to the upper surface of the horizontal support frame (32) and is fixedly connected onto one side edge of the horizontal support frame (32);

the device comprises a horizontal support frame (32) and a horizontal frame-shaped structure, wherein one side edge of the horizontal support frame is fixedly connected with a weight adjusting support frame (31), the other side edge opposite to the side edge is of a linear guide rail type structure, and a sliding unit (321) is arranged on the linear guide rail (320), wherein the distance between the side edge fixedly connected with the weight adjusting support frame (31) and the side edge adopting the linear guide rail type structure is greater than or equal to the sum of the horizontal width of the weight adjusting support frame (31) and the depth of a cavity of the magnetron sputtering machine;

the clamp (33) comprises a connecting rod (602) connected with the sliding unit (321), the lower end of the connecting rod (602) is fixedly connected with a vertical rod (603), a sliding groove is formed in a horizontal rod (604) perpendicular to the vertical rod (603), a sliding block (605) is placed in the sliding groove, an alignment column (606) is connected to the sliding block (605), and the diameter of the alignment column (606) is smaller than or equal to that of an installation positioning hole in the attachment prevention plate.

2. The clamp according to claim 1, characterized in that said weight-adjusting support (31) is of hollow structure.

3. The clamp according to claim 1 or 2, wherein the other side surface of the weight-adjusting support frame (31) where the right angle is located is perpendicular to the upper surface of the horizontal support frame (32), and is fixedly connected to one side edge of the horizontal support frame (32), specifically:

the other side surface of the weight-adjusting support frame (31) where the right angle is located is vertical to the upper surface of the horizontal support frame (32), and is fixedly connected to one side of the horizontal support frame (32) in a welding or bolt connection mode.

4. The fixture according to claim 1, wherein the distance between the side of the horizontal support frame (32) fixedly connected with the weight-adjusting support frame (31) and the side adopting the linear guide rail type structure is larger than the sum of the horizontal width of the weight-adjusting support frame (31) and the depth of the cavity of the magnetron sputtering machine, and the fixture comprises:

the horizontal support frame (32) is fixedly connected with the distance between the side edge of the weight adjusting support frame (31) and the side edge adopting the linear guide rail type structure, and the distance is 60 cm or more longer than the horizontal width of the weight adjusting support frame (31).

5. The jig of claim 1 or 4, wherein the placement of the sliding unit (321) on the linear guide of the horizontal support frame (32) comprises:

three sliding units (321) are arranged on the linear guide rail, and the sliding units (321) at two ends can be fixed on the linear guide rail (320);

or,

three sliding units (321) are arranged on the linear guide rail, and the positions of the three sliding units (321) are not fixed.

6. The clamp according to claim 1, characterized in that the clip (33) is provided with a sliding groove perpendicular to the horizontal bar (604) of the vertical bar (603) and in which a sliding block (605) is placed, the sliding block (605) being connected to an alignment post (606), comprising:

a sliding groove is formed in a horizontal rod (604) perpendicular to a vertical rod (603), a driving sliding block (6051) and a driven sliding block (6052) are placed on the sliding groove, a clamping bolt is arranged on the driving sliding block (6051), the driving sliding block (6051) and the driven sliding block (6052) are connected through a sliding connecting rod, and a positioning column (606) is connected to the driven sliding block (6052).

7. The fixture of claim 6, further comprising: a semicircular hole (607) is arranged above the position of the connecting horizontal rod (604) on a vertical rod (603) vertically connected with the horizontal rod (604), and the size of the semicircular hole (607) can allow a connecting rod between a driving slide block (6051) and a driven slide block (6052) to pass through.

8. The clamp according to claim 1, characterized in that a slide groove is provided on a horizontal bar (604) perpendicular to the vertical bar (603) and a slide (605) is placed in the slide groove, the slide (605) being connected to an alignment post (606), comprising:

a spring (1002) is installed on the vertical rod (603), the spring (1002) is parallel to the vertical rod (603), one end of the spring (1002) is fixed, and the other end of the spring is connected to the sliding block (605) through a connecting rod.

9. The clamp according to claim 8, characterized in that a detent pin is provided at the end of the spring (1002) connecting the slide (605) or on the slide (605).

10. The clamp according to any of claims 1, 6, 7, 8 or 9, characterized in that a second horizontal bar (902) parallel to said horizontal bar (604) is arranged perpendicular to the vertical bars (603), the second horizontal bar (902) having the same structure as said horizontal bar (604).

11. The clamp according to claim 1, 6, 7, 8 or 9, characterized in that a set of baffles (608) is mounted above and/or below the horizontal bar (604) where the clip is perpendicular to the vertical bar (603), the set of baffles (608) consisting of an upper and a lower baffle, which are fixedly connected perpendicular to the vertical bar (603), the distance between the upper and the lower baffle being greater than or equal to the thickness of the side attachment plate.

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