CN212863838U - Tool for hoisting electrode - Google Patents

Abstract

The utility model discloses a tool for hoisting an electrode, which is used for assisting the tool to be rapidly and stably assembled with the electrode and preventing the electrode from deforming because of insufficient rigidity in the hoisting process, and relates to the technical field of clamps; the utility model discloses a fixed block and oblique wedge, the fixed block is installed with whole electrode parallel, and is fixed through oblique wedge, the fixed block is "E" font fixed block, and both ends are provided with the end of gripping, and the centre is provided with supports thick end and supports the thin end, support thick end one end and support the one end of thin end and be connected, the other end is fixed on the fixed block, support the thin end and be the free end; frock make the relative position on the electrode not change to guarantee the rigidity of electrode, guarantee the electrode at last and can not take place to warp at hoist and mount in-process, solved current electrode because the electrode warp, the electrode size is unstable, leads to the problem that the electric ion can not correctly distribute on the glass display screen.

Description

Tool for hoisting electrode

Technical Field

The utility model provides a frock is used in electrode hoist and mount for auxiliary fixtures assembles with the electrode fast and stable, prevents that the electrode from producing because rigidity is not enough and warping at hoist and mount in-process, the utility model relates to an anchor clamps technical field.

Background

The mechanical processing needs machining equipment, but only equipment and raw materials cannot be used for processing mechanical parts, and necessary equipment is also needed, so the mechanical processing is called a tool; the tool has a wide range, comprises a cutter, a clamp, a measuring tool, a die and the like, and is provided with a universal tool and a special tool, a few special equipment tools are provided, a plurality of tools are required by the universal equipment, and the special tool needs to be specially designed and manufactured, thereby playing an important role in the quality and the production efficiency of products.

At present, the length of the whole electrode is more than two meters, the weight is more than one hundred kilograms, the electrode is not provided with an auxiliary structure for increasing rigidity, and the disadvantage of insufficient rigidity in the process of hoisting and loading can be obviously reflected; in the hoisting process, when the electrode rises to a certain height, the whole electrode can be obviously seen to have certain bending deformation, although the deformation is seemingly reversible, the deformation is not completely reversible theoretically, and certain small deformation amount is inevitably existed after the electrode is changed from a horizontal position to a vertical position; after the electrode is cleaned regularly, the electrode is hoisted and then is re-installed on the machine, and the electrode is repeatedly hoisted for use, so that the deformation is accumulated, the electrode can be seriously deformed, and the use performance of the whole electrode can be influenced finally.

Disclosure of Invention

The utility model aims to provide a: the fixture for hoisting the electrode can realize the rapid and stable assembly of the fixture and the electrode, the fixing block is clamped on the electrode through the inclined wedges, the fixture can randomly determine the specific installation position according to the use condition and is usually installed in the place which is most likely to deform, so that the rigidity of the whole electrode is increased, the electrode is prevented from deforming due to insufficient rigidity in the hoisting process, and the problem that ions cannot be normally uniformly distributed on a glass display screen due to the size problem of electrode deformation is avoided.

The utility model adopts the technical scheme as follows: the utility model provides a frock is used in electrode hoist and mount, includes fixed block and wedge to one side, the fixed block is fixed through wedge to one side with whole electrode parallel mount, the fixed block is "E" font fixed block, and both ends are provided with the end of holding tightly, and the centre is provided with supports the butt and supports thin end, it is the free end to support thin end.

The utility model discloses a theory of operation does: the utility model discloses in, put the electrode at the horizontal plane earlier when using, confirm that electrode spare part has all been assembled and has been accomplished correctly, then according to the most yielding place with the fixed block assembly get into the electrode, confirm the fixed block assembly and target in place, then push the wedge to one side by the one end of fixed block, can not make the electrode restrain the electrode riser and warp in the pushing-in process, the wedge to one side has some length to be outside the fixed block after accomplishing this process, then pack into the other end of fixed block equally with another wedge to one side with the same mode, two wedges to one side are the mirror image mounting mode; the relative positions of the fixed block and the electrode are kept fixed under the combined action of the two inclined wedges, the position of the fixed block cannot be changed in the electrode hoisting process, and the rigidity of the electrode cannot be damaged, so that the electrode cannot be deformed; after the electrode is converted from the horizontal position to the vertical position, namely after the electrode is vertically hoisted, the inclined wedge block is taken out from the other end of the fixing block, the fixing block can be naturally taken out from the electrode after the inclined wedge block is taken out, and finally the inclined wedge block and the fixing block are stored at the fixed position for further hoisting and using.

The utility model discloses can realize relying on manpower assembly completely, do not need other appurtenance frocks, simple operation stably improves the rigidity of electrode and can realize repetitious utilization, the inclined plane cooperation through fixed block, wedge to one side reaches the purpose of locking frock, hoist and mount process electrode rigidity also reaches the requirement, any deformation can not take place for the electrode to dismantle the frock also simple and easy after accomplishing the electrode vertical position, finally through this utility model frock, solved current because of electrode size deformation lead to the uneven problem of glass display screen electric ion distribution.

The electrode comprises two groups of electrode grounding electrode plates, an electrode inhibition electrode fixing plate and an electrode inhibition electrode vertical plate which are symmetrically arranged, a ground plate gap between the two electrode grounding electrode plates corresponds to the thickness of the thin supporting end, an inhibition plate gap between the two electrode inhibition electrode vertical plates corresponds to the thickness of the thick supporting end, and the outer sides of the two electrode inhibition electrode vertical plates are clamped and fixed with the holding end through inclined wedge blocks.

The gap of the grounding plate is 0.4-0.6mm larger than the thickness of the support thin end; mainly in view of the ease of assembly and the already partial deformation of the existing electrodes.

The gap of the inhibiting plate is 0.4-0.6mm larger than the thickness of the thick end of the support; mainly in view of the ease of assembly and the already partial deformation of the existing electrodes.

The fixed block can be slidably arranged on an electrode inhibition electrode vertical plate of the electrode and is locked and fixed through an inclined wedge block; the mounting position of the fixing block can be freely set.

The fixed block and the inclined wedge block are correspondingly provided with inclined planes, and the angle of each inclined plane is 3-5 degrees; the inclined wedge block and the fixed block are matched by adopting a small-angle inclined plane, when the inclined wedge block is pushed into the fixed block, the inclined wedge block is slowly pushed in through the inclined plane matching relation until the inclined wedge block cannot be pushed in, and meanwhile, the inclined wedge block and the fixed block are in a self-locking state through the small-angle inclined plane matching relation; and after the hoisting of the electrode is completed, the electrode is converted from the horizontal position to the vertical position, and the inclined wedge block is reversely taken out of the fixed block.

The distance and the shape between the electrode inhibition polar plate and the gripping end correspond to the shape of the inclined wedge block; the mosaic effect is better.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

(1) the utility model discloses can realize that rigidity is unchangeable and can not produce the purpose of warping among the electrode hoist and mount process, through the oblique wedge of a fixed block of installation and a set of component mirror image relation on the electrode, guarantee the relative position of frock on the electrode does not change to guarantee the rigidity of electrode, guarantee at last that the electrode can not take place to warp at hoist and mount in-process, solved current electrode because the electrode warp, the electrode size is unstable, leads to the problem that the electric ion can not correctly distribute on the glass display screen.

(2) The utility model discloses well fixed block and wedge are with low-angle inclined plane cooperation to one side, through inclined plane cooperation easily assembly, only with manpower can accomplish the assembly, do not need other appurtenance, can accomplish the fixed block and wedge's frictional force is enough big to one side through the inclined plane cooperation, has also accomplished the auto-lock state between the two, thereby makes the relative position of frock in the electrode can not change, has guaranteed the rigidity demand of electrode.

(3) The utility model discloses well wedge and electrode restrain electrode riser cooperation face appearance profile coincide to one side, can guarantee that wedge and another wedge's assembly relation to one side is correct, can not have two wedge circumstances that adorn to one side and turn over.

Drawings

The invention will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic view of the assembly of the present invention in an electrode;

FIG. 2 is a schematic sectional view A-A of the present invention;

FIG. 3 is a schematic view of the fried state structure of FIG. 2;

FIG. 4 is a schematic view of the fixing block structure of the present invention;

labeled as: 1-fixed block, 2-inclined wedge block, 3-electrode suppressor fixed plate, 4-electrode grounding electrode plate, 5-grounding plate gap, 6-suppressor plate gap, 7-electrode suppressor vertical plate, 8-electrode, 11-gripping end, 12-supporting thin end and 13-supporting thick end.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

As shown in fig. 1-4, a tool for hoisting an electrode 8 comprises a fixing block 1 and an inclined wedge block 2, wherein the fixing block 1 is installed in parallel with the whole electrode 8 and fixed through the inclined wedge block 2, the fixing block 1 is an E-shaped fixing block 1, the two ends of the fixing block are provided with a holding end 11, the middle of the fixing block is provided with a supporting thick end 13 and a supporting thin end 12, one end of the supporting thick end 13 is connected with one end of the supporting thin end 12, the other end of the supporting thick end is fixed on the fixing block 1, and the other end of the supporting thin end 12 is a free end.

When the tool is used, the fixing block 1 is firstly arranged in the electrode 8, the fixing block 1 is embedded among the two-electrode grounding electrode plate 4, the two-electrode suppressor fixing plate 4 and the two-electrode suppressor vertical plate 7, the assembling relation of the fixing block 1 in the whole electrode 8 is completed, then the inclined wedge block 2 is pushed into the fixing block 1 from one end until manpower cannot be pushed in, and then the fixing assembly of the tool can be completed; three sets of the tools are generally used on the electrode, so that the rigidity of the electrode is sufficiently increased, and in the process of hoisting the electrode, the electrode cannot deform as long as the tool is damaged due to brute force assembly, so that the assembly size of the electrode in the horizontal position is consistent with that in the vertical position, and the electrode can be correctly loaded into the whole production line system after being installed on the machine; the tool is disassembled after the vertical position of the electrode 8 is hoisted, the inclined wedge block 2 is pushed out of the fixing block 1 according to the reverse direction during assembly, the fixing block 1 is in small-gap fit with the electrode 8, after the inclined wedge block 2 is taken out of the fixing block 1, the fixing block 1 can be easily taken out of the electrode 8, and finally the fixing block 1 and the inclined wedge block 2 are unified to be stored and managed.

Example 2

On the basis of embodiment 1, the electrode 8 includes two sets of electrode ground electrode plates 4, electrode suppressor electrode fixing plates 3, and electrode suppressor electrode vertical plates 7, which are symmetrically arranged, a ground plate gap 5 between the two electrode ground electrode plates 4 corresponds to the thickness of the supporting thin end 12, a suppressor plate gap 6 between the two electrode suppressor electrode vertical plates 7 corresponds to the thickness of the supporting thick end 13, and the outer sides of the two electrode suppressor electrode vertical plates 7 are clamped and fixed with the gripping end 11 through the inclined wedge blocks 2.

Example 3

On the basis of the embodiment 2, the gap 5 of the grounding plate is 0.4-0.6mm larger than the thickness of the support thin end 12; mainly in view of the ease of assembly and the already partial deformation of the existing electrode 8.

Example 4

On the basis of the embodiment 2, the gap 6 of the inhibiting plate is 0.4-0.6mm larger than the thickness of the thick end 13 of the support; mainly in view of the ease of assembly and the already partial deformation of the existing electrode 8.

Example 5

On the basis of the embodiment 1, the fixing block 1 is slidably mounted on an electrode inhibition electrode vertical plate 7 of an electrode 8 and is locked and fixed through an inclined wedge block 2; the installation position of the fixing block 1 can be freely set.

Example 6

On the basis of the embodiment 1, the fixed block 1 and the inclined wedge block 2 are correspondingly provided with inclined planes, and the angle of each inclined plane is 3-5 degrees; the inclined wedge block 2 is matched with the fixed block 1 by adopting a small-angle inclined plane, when the inclined wedge block 2 is pushed into the fixed block 1, the inclined wedge block is slowly pushed in through the inclined plane matching relation until the inclined wedge block cannot be pushed in, and meanwhile, the inclined wedge block 2 and the fixed block 1 are in a self-locking state through the small-angle inclined plane matching relation; and after the hoisting of the electrode 8 is completed, the inclined wedge block 2 is reversely taken out from the fixed block 1.

Example 7

On the basis of the embodiment 2, the distance and the shape between the electrode inhibition pole-standing plate 7 and the gripping end 11 correspond to the shape of the inclined wedge block 2; the mosaic effect is better.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited thereto, the protection scope of the present invention is defined by the claims, and all structural changes equivalent to the contents of the description and drawings of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a frock is used in electrode hoist and mount, includes fixed block (1) and wedge (2) to one side, fixed block (1) and whole electrode (8) parallel mount, fixed through wedge (2) to one side, its characterized in that, fixed block (1) is "E" font fixed block, and both ends are provided with hold end (11), and the centre is provided with supports butt (13) and supports thin end (12), support butt (13) one end and the one end of supporting thin end (12) and be connected, the other end is fixed on fixed block (1), the other end of supporting thin end (12) is the free end.

2. The tool for hoisting the electrode according to claim 1, wherein the electrode (8) comprises two groups of electrode grounding electrode plates (4), electrode suppression electrode fixing plates (3) and electrode suppression electrode vertical plates (7) which are symmetrically arranged, a grounding plate gap (5) between the two electrode grounding electrode plates (4) corresponds to the thickness of the supporting thin end (12), a suppression plate gap (6) between the two electrode suppression electrode vertical plates (7) corresponds to the thickness of the supporting thick end (13), and the outer sides of the two electrode suppression electrode vertical plates (7) are clamped and fixed with the gripping end (11) through inclined wedge blocks (2).

3. The tool for hoisting the electrode according to claim 2, wherein the gap (5) of the grounding plate is 0.4-0.6mm larger than the thickness of the thin supporting end (12).

4. The tool for hoisting the electrode according to claim 2, wherein the gap (6) between the suppression plates is 0.4-0.6mm larger than the thickness of the support thick end (13).

5. The tool for hoisting the electrode according to claim 1, wherein the fixing block (1) is slidably mounted on an electrode restraining pole vertical plate (7) of the electrode (8) and is locked and fixed by an inclined wedge block (2).

6. The tool for hoisting the electrode according to claim 1, wherein the fixed block (1) and the inclined wedge block (2) are provided with inclined planes corresponding to each other, and the angle of each inclined plane is 3-5 degrees.

7. The tool for hoisting the electrode according to claim 2, wherein the distance and the shape between the electrode restraining pole plate (7) and the gripping end (11) correspond to the shape of the inclined wedge block (2).

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