CN220533553U - Quick clamping and positioning device for electrode materials - Google Patents

Abstract

The utility model relates to the technical field of clamping and positioning, and discloses a rapid clamping and positioning device for electrode materials. Comprising the following steps: base, first location slider, the center pin gear, second location slider, first location slide rail, second location slide rail and standing groove, be provided with first location slide rail on the base, second location slide rail, center pin gear and standing groove, center pin gear is rotationally connected with the base, first location slider and second location slider sliding connection are equipped with first rack on first location slider respectively in first location slide rail and second location slide rail, be equipped with the second rack on the second location slider, first rack and second rack are parallel, and all be equipped with the grip block on first location slider and the second location slider through center pin gear engagement connection between first rack and the second rack. The clamping and positioning jig realizes balanced stress, is not easy to deform an electrode holder object, ensures the accuracy of the EROWA clamp, saves time and labor, is stable in operation, saves materials and reduces cost.

Description

Quick clamping and positioning device for electrode materials

Technical Field

The utility model relates to the technical field of clamping and positioning, in particular to a rapid clamping and positioning device for electrode materials.

Background

Under the intense market competition worldwide, the traditional machining industry faces a great challenge. In the machining industry, the low machining efficiency is frequently met, the mass production scale is small, and the market demand is not met. Improvements in how to perform processing, such as: improving machining efficiency, improving machining quality, shortening delivery time and the like are improving factors of mechanical machining; however, these improvements cannot be integrated by a rapid processing process alone, because increasing the processing speed causes processing quality problems, and a proper processing speed needs to be selected to achieve high quality processing quality for the processing process; however, there is some consumption of non-machining time in the whole production, and shortening the non-machining time of the machine tool is also an effective means for improving the machining efficiency. Therefore, the jig plays an important role in the manufacturing system, and an innovative good jig can greatly improve the working efficiency, reduce the labor intensity and the error rate of workers, reduce the downtime and remarkably shorten the manufacturing period.

In the field of precision die manufacturing, an EROWA fixture system is used for electrode machining to improve equipment machining precision and output, and to fully play the role of an EROWA electrode fixture, materials on the fixture need to be clamped and positioned quickly, and meanwhile, the precision of the EROWA fixture is protected. However, the conventional method is that the materials on the EROWA fixture are clamped by using a common wrench through manual measurement before machining, so that the positioning fixture is not provided, the machining efficiency and the machining quality are affected, and the precision of the EROWA fixture is not protected. It has mainly the following problems:

the original loading positioning mode is to measure data through a vernier caliper and manually read the data to position a workpiece, and the device has the characteristics of low efficiency and large error, and the precision of the vernier caliper, namely the detection precision, is continuously reduced along with the use time; the clamping efficiency of the material is low, the action is complex, and the labor intensity of workers is high; in the production and manufacturing process, the defects that the product size is not processed in place or redundant scraps and the like can occur due to the eccentric material; when a batch of workpieces are processed, the manual control force is unstable, so that the workpieces or products are easy to be unclamped, or excessively extruded and deformed by force, and the workpieces are time-consuming to assemble and disassemble; the electrode seat is extruded and deformed due to uneven stress in the process of disassembling and assembling the workpiece, and the accuracy of the EROWA clamp is affected.

Therefore, aiming at the problems, the existing clamping and positioning jig needs to be improved.

Disclosure of Invention

The utility model aims to solve the problems that the existing clamping and positioning jig is unbalanced in stress, easy to deform an electrode seat and other objects, time-consuming, labor-consuming, unstable in operation, serious in material waste, high in cost and the like, and the accuracy of an EROWA fixture is affected; through rationalizing the design to clamping positioning jig, adopt base, first location slider, center pin gear, second location slider, first location slide rail, second location slide rail and standing groove, can realize that clamping positioning jig's atress is balanced, be difficult for making objects such as electrode holder take place to warp, guarantee EROWA anchor clamps precision, labour saving and time saving, the operation is stable, save material and reduce cost etc..

The technical scheme of the utility model is as follows:

a quick clamping and positioning device for electrode materials, the quick clamping and positioning jig comprising: the device comprises a base, a first positioning slide block, a central shaft gear, a second positioning slide block, a first positioning slide rail, a second positioning slide rail and a placing groove, wherein the base is provided with the first positioning slide rail, the second positioning slide rail, the central shaft gear and the placing groove, the central shaft gear is connected with the base in a rotating mode, the first positioning slide block and the second positioning slide block are respectively connected with the first positioning slide rail and the second positioning slide rail in a sliding mode, a first rack is arranged on the first positioning slide block, a second rack is arranged on the second positioning slide block, the first rack and the second rack are parallel to each other, the first rack and the second rack are connected through the meshing of the central shaft gear, and clamping blocks are arranged on the first positioning slide block and the second positioning slide block and are close to each other or far away from each other under the rotation of the central shaft gear.

Further, the first positioning slide block and the corresponding clamping block form a first L-shaped positioning slide block, and the second positioning slide block and the corresponding clamping block form a second L-shaped positioning slide block.

Further, the clamping blocks of the first L-shaped positioning sliding block and the second L-shaped positioning sliding block are respectively provided with a fixing block, and the fixing blocks are used for reinforcing objects clamped by each other.

Further, the first L-shaped positioning slide block and the fixed block thereon form a first U-shaped positioning slide block.

Further, the second L-shaped positioning slide block and the fixed block thereon form a second U-shaped positioning slide block.

Further, the clamping end faces of the fixing blocks are provided with anti-slip concave-convex structures.

Further, the base is a square base.

Further, the central shaft gear is arranged on the central line of the base.

Further, the placing groove is arranged on the central line of the base, and the central line of the placing groove coincides with the central line of the central shaft gear.

Further, the length of the first rack is the same as the length of the second rack.

Further, the first positioning slide rail and the second positioning slide rail are in a chute shape, and the first positioning slide block and the second positioning slide block are movably clamped on the first positioning slide rail and the second positioning slide rail through the screw and the fixing plate.

Further, the first positioning slide rail and the second positioning slide rail are slide rails parallel to each other.

Further, the base is a stepped base, the central shaft gear, the first positioning slide rail and the second positioning slide rail are all arranged on an upper step of the base, and the placing groove is arranged on a lower step of the base.

Further, the square placing groove is selected as the placing groove, and a pressing projection is arranged at the vertex angle of the placing groove and used for pressing a placed object (such as an electrode and the like).

Further, the pressing lug is made of rubber.

Further, the first rack and the second rack are selected from the same racks.

Advantageous effects

According to the clamping and positioning jig, due to the reasonable design of the clamping and positioning jig, the base, the first positioning slide block, the central shaft gear, the second positioning slide block, the first positioning slide rail, the second positioning slide rail and the placing groove are adopted, so that the clamping and positioning jig can be stressed uniformly, objects such as an electrode seat are not easy to deform, the accuracy of the EROWA jig is guaranteed, time and labor are saved, the operation is stable, materials are saved, the cost is reduced, and the like. Synchronous driving of a bidirectional rack motion pair is formed by adopting a central shaft gear, a first positioning slide block, a second positioning slide block and racks on the two positioning slide blocks, so that the two slide blocks are driven to move at symmetrical distances, and balanced stress and synchronous motion are realized; the precision of the fixed electrode seat and the protection clamp can be realized by adopting a placing groove on the base; the fixing blocks are added on the positioning slide blocks, so that the clamp and the clamping object can be stabilized, the clamping length of the material can be adjusted, and the like; the fixing plate, the bolts and the base, the first positioning sliding block, the second positioning sliding block, the first positioning sliding rail (in a chute shape) and the second positioning sliding rail (in a chute shape) are adopted to be matched with each other, so that the positioning sliding blocks can be limited to stably slide on the corresponding sliding rails to ensure the clamping safety of materials (such as electrodes).

Drawings

Fig. 1 is a schematic structural view of a rapid clamping and positioning device for electrode materials.

Fig. 2 is a schematic plan view of a quick clamping and positioning device for electrode materials according to the present utility model.

FIG. 3 is a schematic view of a rapid clamping and positioning device for electrode materials.

Fig. 4 is a schematic view of an electrode material of a rapid clamping and positioning device for electrode materials according to the present utility model.

Reference numerals: 01. a base; 02. a second fixed block; 03. a placement groove; 04. a first fixed block; 05. positioning a sliding rail; 06. a fixing plate; 07. a second positioning slide block; 08. a central shaft gear; 09. a first positioning slider; 11. an electrode material; 12. an electrode base.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, the utility model provides a quick clamping and positioning device for electrode materials, the quick clamping and positioning device comprises: the base 01, the first positioning slide block 09, the central shaft gear 08, the second positioning slide block 07, the positioning slide rail 05 and the placing groove 03 are arranged in the base 01, wherein the base 01 is a square base, and the base 01 is a stepped base; the placing groove 03 is a square placing groove; the positioning slide rail 05 comprises a first positioning slide rail and a second positioning slide rail, and the first positioning slide rail and the second positioning slide rail are both slide groove-shaped positioning slide rails;

the base 01 is provided with a first positioning slide rail, a second positioning slide rail, a central shaft gear 08 and a placing groove 03, the central shaft gear 08, the first positioning slide rail and the second positioning slide rail are all arranged on an upper step of the base 01, the placing groove 03 is arranged on a lower step of the base 01, the placing groove 03 is arranged on a central line of the base 01, a pressing lug is arranged at the vertex angle of the placing groove 03 and is used for pressing a placed object (such as an electrode, etc.), and the pressing lug is made of rubber;

the central shaft gear 08 is rotationally connected with the base 01, the central shaft gear 08 is arranged on the central line of the base 01, and the central line of the central shaft gear 08 is mutually overlapped with the central line of the placing groove 03; the first positioning slide block 09 and the second positioning slide block 07 are respectively connected to a first positioning slide rail and a second positioning slide rail in a sliding manner, and the first positioning slide rail and the second positioning slide rail are parallel to each other; a first rack is arranged on the first positioning slide block 09, a second rack is arranged on the second positioning slide block 07, the first rack and the second rack are parallel to each other, the first rack and the second rack are connected in a meshed manner through a central shaft gear 08, and the length of the first rack is the same as that of the second rack; clamping blocks are arranged on the first positioning sliding block 09 and the second positioning sliding block 07 and are mutually close to or far away from each other under the rotation of the central shaft gear 08;

wherein, the first positioning slide block 09 and the corresponding clamping block form a first L-shaped positioning slide block, and the second positioning slide block 07 and the corresponding clamping block form a second L-shaped positioning slide block; the clamping blocks of the first L-shaped positioning sliding block and the second L-shaped positioning sliding block are respectively provided with a fixed block, the fixed blocks are used for reinforcing objects clamped by each other, the clamping end faces of the fixed blocks are respectively provided with an anti-skid concave-convex structure, and the fixed blocks comprise a first fixed block 04 and a second fixed block 02; the first L-shaped positioning slide block and a first fixing block 04 on the first L-shaped positioning slide block form a first U-shaped positioning slide block, and the second L-shaped positioning slide block and a second fixing block 02 on the second L-shaped positioning slide block form a second U-shaped positioning slide block;

wherein, this first location slider 09 and second location slider 07 pass through screw rod and fixed plate 06 movable joint on first location slide rail and second location slide rail.

Referring to fig. 3 and 4, the rapid clamping and positioning jig can slide synchronously and in opposite directions to clamp the electrode material 11 placed on the placing groove through the electrode base 12.

The specific implementation principle of the utility model patent: after the fixture is assembled, an electrode seat is arranged in the placing groove, a fixing block with the size is selected and installed according to the size and the dimension of the clamping electrode seat, after the fixture is installed, two hands (or a mechanical cylinder) are used for pushing the clamping blocks of the first L-shaped positioning sliding block and the second L-shaped positioning sliding block, the fixing block can be close to the electrode seat and clamped, and the electrode seat is subjected to additional processing; after the machining is finished, both hands (or a mechanical cylinder) simultaneously pull and push the clamping blocks of the first L-shaped positioning slide block and the second L-shaped positioning slide block to release the electrode seat.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A quick clamping and positioning device for electrode materials, characterized in that the quick clamping and positioning device comprises: the device comprises a base, a first positioning slide block, a central shaft gear, a second positioning slide block, a first positioning slide rail, a second positioning slide rail and a placing groove, wherein the base is provided with the first positioning slide rail, the second positioning slide rail, the central shaft gear and the placing groove, the central shaft gear is connected with the base in a rotating mode, the first positioning slide block and the second positioning slide block are respectively connected with the first positioning slide rail and the second positioning slide rail in a sliding mode, a first rack is arranged on the first positioning slide block, a second rack is arranged on the second positioning slide block, the first rack and the second rack are parallel to each other, the first rack and the second rack are connected through the meshing of the central shaft gear, and clamping blocks are arranged on the first positioning slide block and the second positioning slide block and are close to each other or far away from each other under the rotation of the central shaft gear.

2. The rapid clamping and positioning device for electrode materials according to claim 1, wherein the first positioning slide block and the corresponding clamping block form a first L-shaped positioning slide block, and the second positioning slide block and the corresponding clamping block form a second L-shaped positioning slide block.

3. The rapid clamping and positioning device for electrode materials according to claim 2, wherein the clamping blocks of the first L-shaped positioning slide block and the second L-shaped positioning slide block are respectively provided with a fixing block, and the fixing blocks are used for reinforcing mutually clamping objects.

4. A rapid clamping and positioning device for electrode materials according to claim 3, wherein the clamping end surfaces of the fixing blocks are provided with anti-slip concave-convex structures.

5. A rapid clamping and positioning device for electrode materials according to claim 1, wherein the base is a square base.

6. A quick clamping and positioning device for electrode material as recited in claim 5, wherein said central shaft gear is disposed on a centerline of said base.

7. The device of claim 6, wherein the placement groove is disposed on a center line of the base, and the center line of the placement groove coincides with the center line of the center shaft gear.

8. The rapid clamping and positioning device for electrode materials according to claim 1, wherein the first positioning slide rail and the second positioning slide rail are respectively in a chute shape, and the first positioning slide block and the second positioning slide block are movably clamped on the first positioning slide rail and the second positioning slide rail through a screw rod and a fixing plate.

9. The rapid clamping and positioning device for electrode materials according to claim 1, wherein the first positioning slide rail and the second positioning slide rail are parallel slide rails.

10. The rapid clamping and positioning device for electrode materials according to claim 5, wherein the base is a stepped base, the central shaft gear, the first positioning slide rail and the second positioning slide rail are all arranged on an upper step of the base, and the placing groove is arranged on a lower step of the base.