CN219189170U - Fixed frock is used in electrode plate production - Google Patents

Abstract

The fixed tooling for the production of the electrode plates comprises a working round table and at least three propping components, wherein the propping components are arranged along the circumferential array of the upper surface of the working round table, and each propping component comprises a support shaft which is arranged oppositely, a push rod which is connected with the support shaft in a rotating way, and a protrusion which is arranged at the end part of the push rod and used for propping against the edge of an electrode; the telescopic component is arranged corresponding to the supporting component and used for pushing the push rod to rotate along the supporting shaft, and the opposite push rod rotates in opposite directions; and the synchronous driving mechanism is used for synchronously driving the telescopic assembly to act, so that the push rod rotates along the support shaft and drives the opposite protrusions to approach or depart. According to the utility model, the synchronous driving mechanism and the telescopic component are arranged, so that the push rod rotates along the support shaft and drives the opposite protrusions to approach or separate, the electrode plate is quickly fixed, and the working efficiency is improved.

Description

Fixed frock is used in electrode plate production

Technical Field

The utility model relates to the technical field of electrode production equipment, in particular to a fixing tool for electrode plate production.

Background

In the disclosed and a water electrolytic tank polar plate welding device of disclosure CN205702792U, it is composed of a supporting chassis, a welding platform, a driving mechanism, a mounting frame, a pressing disk, a manual rotating wheel and a welding gun, wherein the upper part of the supporting chassis is provided with the welding platform, the welding platform is driven by the driving mechanism arranged at the lower part of the supporting chassis, mounting tables fixedly mounted on the supporting chassis are symmetrically arranged at the left end and the right end of the welding platform, the mounting frame is arranged on the mounting table transversely across the welding platform, the pressing disk driven by the manual rotating wheel screw thread is arranged below the middle part of the mounting frame, and the welding gun is arranged on the mounting table at one side of the welding platform through a bracket. The utility model has the advantages of scientific and reasonable structural design, good welding quality, high efficiency, small influence by human factors, convenient operation and easy realization, and is a water electrolytic tank polar plate welding device with higher innovation. The device is fixed to the electrode plate and is realized through positioning bolts, so that the working efficiency is low, and when in actual operation, the center of the electrode plate and the center of a welding platform cannot be aligned rapidly, and the processing effect of the electrode plate is affected.

Disclosure of Invention

The utility model aims to provide a fixing tool for electrode plate production, which aims to solve the problems in the background technology.

The technical scheme of the utility model is as follows: the utility model provides a fixed frock is used in electrode plate production, includes the work round platform, still includes

The supporting assemblies are at least three and are arranged along the circumferential array of the upper surface of the working round table, and each supporting assembly comprises a supporting shaft which is arranged oppositely, a push rod which is connected with the supporting shaft in a rotating way, and a bulge which is arranged at the end part of the push rod and used for supporting the edge of the electrode;

the telescopic component is arranged corresponding to the supporting component and used for pushing the push rod to rotate along the supporting shaft, and the opposite push rod rotates in opposite directions;

and the synchronous driving mechanism is used for synchronously driving the telescopic assembly to act, so that the push rod rotates along the support shaft and drives the opposite protrusions to approach or depart.

Further, the telescopic component comprises a fixed seat, a sliding rod penetrating through the fixed seat and connected with the fixed seat in a sliding mode, a connecting rod connected with the end portion of the sliding rod in a rotating mode through a first rotating shaft, and a second rotating shaft connected with the connecting rod and the push rod.

Further, the through groove is offered at the working round platform center, be equipped with waste liquid direction subassembly in the through groove, wherein, waste liquid direction subassembly includes along the slope annular plate that the through groove inner wall circumference set up, establish the closing plate at slope annular plate top, establish the slope annular plate with the liquid collecting channel of through groove inner wall, transversely run through the working round platform and with the liquid outlet hole of liquid collecting channel intercommunication.

Further, the synchronous driving mechanism comprises a first rotating rod in threaded connection with the sliding rod, a linkage part used for driving the first rotating rod to rotate so as to drive the sliding rod to move, and a lifting part arranged below the inclined annular plate and matched with the linkage part to drive the linkage part to act.

Further, the linkage part comprises a second rotating rod which transversely penetrates through the working round table and is positioned below the inclined annular plate, a first gear arranged on the first rotating rod, a second gear arranged on the second rotating rod and meshed with the first gear, a reinforcing rod connected with the first rotating rod and the end part of the second rotating rod, and a longitudinal extension plate arranged at the bottom of the working round table and connected with the reinforcing rod.

Further, the lifting part comprises a support plate connected with the bottom of the longitudinal extension plate, an air cylinder arranged on the support plate, a lifting block arranged at the output end of the air cylinder, a third gear arranged at one end of the second rotating rod far away from the reinforcing rod, and a rack arranged on the lifting block and meshed with the third gear.

Furthermore, gaps are formed in the periphery of the lifting block, and the racks are longitudinally distributed along the gaps.

Further, the reinforcing rod is L-shaped.

The utility model has the beneficial effects that:

compared with the prior art, the utility model has the advantages that the synchronous driving mechanism and the telescopic component are arranged, so that the push rod rotates along the fulcrum shaft and drives the opposite bulges to approach or separate, the electrode plate is quickly fixed, and the working efficiency is improved; in the process that the bulges prop against the edges of the electrode plates, the plurality of propping components can adjust the positions of the electrode plates, so that the centers of the electrode plates and the centers of the working circular truncated cones are aligned quickly, the acting force of the propping components acting on the edges of the electrode plates is relatively stable, and the processing effect of the electrode plates is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a view showing the state of use of the present utility model;

fig. 3 is a schematic view of a lifting portion:

FIG. 4 is an enlarged schematic view of FIG. 3 at A;

Detailed Description

The utility model is further illustrated by way of example with reference to the accompanying drawings.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

1-4, a fixing tool for producing electrode plates comprises a working round table 1 and also comprises

The supporting components 2 are at least three and are arranged along the circumference of the upper surface of the working round table 1 in an array manner, wherein the supporting components 2 comprise supporting shafts 201 which are arranged oppositely, push rods 202 which are connected with the supporting shafts 201 in a rotating manner, and protrusions 203 which are arranged at the end parts of the push rods 202 and used for supporting the edges of the electrode plates 5;

the telescopic assembly 4 is arranged corresponding to the abutting assembly 2 and is used for pushing the push rod 202 to rotate along the supporting shaft 201, wherein the opposite push rod 202 rotates in the opposite direction;

the synchronous driving mechanism 3, the synchronous driving mechanism 3 is used for synchronously driving the telescopic assembly 4 to act, so that the push rod 202 rotates along the supporting shaft 201 and drives the opposite protrusions 203 to approach or separate, and the synchronous driving mechanism 3 and the telescopic assembly 4 are arranged, so that the push rod 202 rotates along the supporting shaft 201 and drives the opposite protrusions 203 to approach or separate, thereby realizing the rapid fixation of the electrode plate 5 and improving the working efficiency; in the process that the protrusions 203 prop against the edge of the electrode plate 5, the plurality of propping components 2 can adjust the position of the electrode plate 5, so that the center of the electrode plate 5 and the center of the working round table 1 are aligned quickly, the acting force of the propping components 2 acting on the edge of the electrode plate 5 is relatively stable, and the processing effect of the electrode plate 5 is improved.

In an alternative embodiment of the utility model, the telescopic assembly 4 comprises a fixed seat 401, a sliding rod 402 penetrating the fixed seat 401 and slidingly connected with the fixed seat 401, a connecting rod 404 rotatably connected with the end of the sliding rod 402 through a first rotating shaft 403, and a second rotating shaft 405 connecting the connecting rod 404 and the push rod 202, wherein the sliding rod 402 moves to push the connecting rod 404 to rotate, so that the push rod 202 rotates along the fulcrum 201.

In an alternative embodiment of the utility model, a through groove 101 is formed in the center of the working round table 1, and a waste liquid guiding component 6 is arranged in the through groove 101, wherein the waste liquid guiding component 6 comprises an inclined annular plate 601 arranged along the circumference of the inner wall of the through groove 101, a sealing plate 602 arranged at the top of the inclined annular plate 601, a liquid collecting channel 603 arranged on the inner wall of the inclined annular plate 601 and the through groove 101, and a liquid outlet hole 604 transversely penetrating the working round table 1 and communicating with the liquid collecting channel 603, and preferably, the inclined annular plate 601 in the embodiment extends towards the top of the working round table 1; the waste liquid falls to the sealing plate 602 and flows out to the liquid outlet 604 along the inclined annular plate 601.

In an alternative embodiment of the present utility model, the synchronous driving mechanism 3 includes a first rotating rod 301 screwed with the sliding rod 402, a linkage part 302 for driving the first rotating rod 301 to rotate so as to drive the sliding rod 402 to move, and a lifting part 303 disposed below the inclined annular plate 601 and cooperating with the linkage part 302 to drive the linkage part 302 to act, wherein the lifting part 303 drives the linkage part 302 to drive the first rotating rod 301 to rotate, and because the first rotating rod 301 is screwed with the sliding rod 402, the sliding rod 402 can be driven to move and the push rod 202 can rotate along the supporting shaft 201, so that the opposite protrusions 203 are close to or far away from each other, thereby realizing rapid fixation of the electrode plate 5 and improving the working efficiency; in the process that the protrusions 203 prop against the edge of the electrode plate 5, the plurality of propping components 2 can adjust the position of the electrode plate 5, so that the center of the electrode plate 5 and the center of the working round table 1 are aligned quickly, the acting force of the propping components 2 acting on the edge of the electrode plate 5 is relatively stable, and the processing effect of the electrode plate 5 is improved.

In an alternative embodiment of the present utility model, the linkage part 302 includes a second rotating rod 30201 passing through the working round table 1 transversely and located below the inclined ring plate 601, a first gear 30202 provided on the first rotating rod 301, a second gear 30203 provided on the second rotating rod 30201 and meshed with the first gear 30202, a reinforcing rod 30204 connecting the first rotating rod 301 and the end of the second rotating rod 30201, and a longitudinally extending plate 30205 provided at the bottom of the working round table 1 and connected to the reinforcing rod 30204, wherein the reinforcing rod 30204 is L-shaped, and preferably, the second rotating rod 30201 in this embodiment is connected to the inside of the working round table 1 in a rotating manner; after the second rotating rod 30201 rotates, the second gear 30203 is driven to rotate, so that the first gear 30202 rotates and drives the first rotating rod 301 to rotate, thereby realizing the movement of the sliding rod 402.

In an alternative embodiment of the present utility model, the lifting portion 303 includes a support plate 30301 connected to the bottom of the longitudinally extending plate 30205, an air cylinder 30302 provided on the support plate 30301, a lifting block 30303 provided at an output end of the air cylinder 30302, a third gear 30304 provided on an end of the second rotating rod 30201 far away from the reinforcing rod 30204, and a rack 30305 provided on the lifting block 30303 and meshed with the third gear 30304, notches 30306 are provided around the lifting block 30303, the rack 30305 is longitudinally distributed along the notches 30306, and after the air cylinder 30302 drives the lifting block 30303 to lift, the rack 30305 also follows the lifting block 30303 to lift, so as to drive the third gear 30304 to rotate, thereby driving the second rotating rod 30201 to rotate.

Claims (8)

1. The utility model provides a fixed frock is used in electrode plate production, includes work round platform (1), its characterized in that: and also comprises

The supporting assemblies (2) are at least three and are arranged along the circumferential array of the upper surface of the working round table (1), wherein the supporting assemblies (2) comprise supporting shafts (201) which are arranged oppositely, push rods (202) which are connected with the supporting shafts (201) in a rotating mode, and protrusions (203) which are arranged at the end portions of the push rods (202) and used for supporting the edges of the electrodes (5);

the telescopic assembly (4) is arranged corresponding to the supporting assembly (2) and used for pushing the push rod (202) to rotate along the supporting shaft (201), and the opposite push rods (202) are opposite in rotation direction;

and the synchronous driving mechanism (3) is used for synchronously driving the telescopic assembly (4) to act, so that the push rod (202) rotates along the support shaft (201) and drives the opposite protrusions (203) to approach or separate.

2. The fixture for producing electrode plates according to claim 1, wherein: the telescopic assembly (4) comprises a fixed seat (401), a sliding rod (402) penetrating through the fixed seat (401) and connected with the fixed seat (401) in a sliding mode, a connecting rod (404) connected with the end portion of the sliding rod (402) in a rotating mode through a first rotating shaft (403), and a second rotating shaft (405) connected with the connecting rod (404) and the push rod (202).

3. The fixture for producing electrode plates according to claim 2, wherein: the utility model discloses a waste liquid guide device, including work round platform (1), through groove (101) have been seted up at work round platform (1) center, be equipped with waste liquid guide component (6) in through groove (101), wherein, waste liquid guide component (6) are including following slope annular plate (601) that through groove (101) inner wall circumference set up, establish closing plate (602) at slope annular plate (601) top, establish slope annular plate (601) with liquid collecting channel (603) of through groove (101) inner wall, transversely run through work round platform (1) and liquid outlet (604) of liquid collecting channel (603) intercommunication.

4. A fixed tooling for producing electrode plates according to claim 3, wherein: the synchronous driving mechanism (3) comprises a first rotating rod (301) in threaded connection with the sliding rod (402), a linkage part (302) used for driving the first rotating rod (301) to rotate so as to drive the sliding rod (402) to move, and a lifting part (303) arranged below the inclined annular plate (601) and matched with the linkage part (302) so as to drive the linkage part (302) to act.

5. The fixture for producing electrode plates according to claim 4, wherein: the linkage part (302) comprises a second rotating rod (30201) which transversely penetrates through the working round table (1) and is positioned below the inclined annular plate (601), a first gear (30202) arranged on the first rotating rod (301), a second gear (30203) arranged on the second rotating rod (30201) and meshed with the first gear (30202), a reinforcing rod (30204) connected with the ends of the first rotating rod (301) and the second rotating rod (30201), and a longitudinally extending plate (30205) arranged at the bottom of the working round table (1) and connected with the reinforcing rod (30204).

6. The fixture for producing electrode plates according to claim 5, wherein: lifting part (303) including connect extension board (30301) of longitudinal extension board (30205) bottom, establish cylinder (30302) on extension board (30301), establish lifting block (30303) of cylinder (30302) output, with second bull stick (30201) keep away from third gear (30304) of stiffening rod (30204) one end, establish lifting block (30303) are last and with rack (30305) of meshing of third gear (30304).

7. The fixture for producing electrode plates according to claim 6, wherein: gaps (30306) are formed in the periphery of the lifting block (30303), and racks (30305) are longitudinally distributed along the gaps (30306).

8. The fixture for producing electrode plates according to claim 5, wherein: the reinforcing rod (30204) is L-shaped.

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