CN212526627U - Zinc-nickel redox flow battery laser welding fixture - Google Patents

Abstract

The utility model discloses a zinc-nickel redox flow battery laser welding anchor clamps, which comprises a vertical plate, adjustment mechanism is installed to the top of riser, the pivot is passed through the bearing and is rotated with the riser and link to each other, the left side outer wall rigid coupling of pivot has the bull stick, the right-hand member rigid coupling of pivot has the clamp splice. This zinc-nickel redox flow battery laser welding anchor clamps, it passes through the bearing and rotates on the riser to rotate the bull stick drive pivot, the pivot drives the clamp splice and can the rotation degree, adjust according to welding angle, be convenient for weld, current zinc-nickel redox flow battery laser welding anchor clamps have been solved, can't carry out the angle modulation after fixing zinc-nickel redox flow battery, bring awkward problem for the worker, press down the handle and drive the gear and pass through the round pin axle clockwise rotation in the backup pad, replace the screw thread and rotate the clamping, improve clamping speed, current zinc-nickel redox flow battery laser welding anchor clamps have been solved, can not be quick carry out the clamping according to the specification of battery, and then influence welding speed's problem.

Description

Zinc-nickel redox flow battery laser welding fixture

Technical Field

The utility model relates to a zinc-nickel redox flow battery technical field specifically is a zinc-nickel redox flow battery laser welding anchor clamps.

Background

Zinc-nickel redox flow battery is a novel, the low price, efficient conversion equipment of electric energy high efficiency of excellent efficiency, it is big to have the scale, low cost, the environmental protection is pollution-free, characteristics such as the simple easy operation of device, mainly be applied to the electric wire netting peak shaving, wind energy, extensive electricity generation energy storage and high-efficient conversion equipment such as solar energy, and zinc-nickel redox flow battery need carry out laser welding in the course of working, but current zinc-nickel redox flow battery laser welding anchor clamps, can't carry out angle modulation after fixing zinc-nickel redox flow battery, bring awkward problem for the worker, there is current zinc-nickel redox flow battery laser welding anchor clamps simultaneously, can't be quick carry out the clamping according to the specification of battery, and then influence welding rate's problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a zinc-nickel redox flow battery laser welding anchor clamps to current zinc-nickel redox flow battery laser welding anchor clamps that provide in solving above-mentioned background art can't carry out angle modulation after fixing zinc-nickel redox flow battery, brings the problem of awkward work for the worker.

In order to achieve the above object, the utility model provides a following technical scheme: a zinc-nickel flow battery laser welding fixture comprises a vertical plate, wherein an adjusting mechanism is arranged above the vertical plate;

the adjusting mechanism comprises a rotating shaft, a bearing, a rotating rod, a clamping block, a clamping groove and a vertical rod;

the pivot passes through the bearing and rotates with the riser and links to each other, the left side outer wall rigid coupling of pivot has the bull stick, the right-hand member rigid coupling of pivot has the clamp splice, a plurality of draw-in grooves have been seted up to the right side outer wall of pivot, the top the internal surface of draw-in groove and the below outer wall joint of montant, the outer wall of montant and the right side top inner wall clearance fit of riser.

Preferably, the clamping groove is annularly formed in the rotating shaft.

Preferably, the bottom rigid coupling of riser is on the left side top of bottom plate, the bottom four corners rigid coupling of bottom plate has the base.

Preferably, a fixing mechanism is arranged in the middle of the lower part of the clamping block;

the fixing mechanism comprises a gear, a pin shaft, a supporting plate, a handle, a rubber ring, a rack, a connecting rod, a transverse plate and a first rubber pad;

the gear rotates with the backup pad through the round pin axle and links to each other, the top rigid coupling of backup pad is in the right side bottom of clamp splice, the middle front end rigid coupling of gear has the handle, the left side inner wall rigid coupling of handle has the rubber circle, the inner wall of rubber circle is laminated with the outer wall of round pin axle mutually, the gear links to each other with the rack toothing, the left end rigid coupling of rack is at the below right-hand member of connecting rod, the top outer wall of connecting rod and the middle inner wall clearance fit in the below of clamp splice, the top rigid coupling diaphragm of connecting rod, the rigid coupling has first rubber pad in the middle of the top of diaphragm.

Preferably, the outer wall of the handle is machined with friction grains.

Preferably, a supporting mechanism is arranged on the inner side above the clamping block;

the supporting mechanism comprises a top plate and a second rubber pad;

the top end of the top plate is fixedly connected with the middle inner wall above the clamping block, and the middle of the bottom end of the top plate is fixedly connected with a second rubber pad.

Compared with the prior art, the beneficial effects of the utility model are that: compared with the prior art, the zinc-nickel flow battery laser welding fixture has the following advantages:

through the riser, the apparatus further comprises a rotating shaft, a bearing, the bull stick, the clamp splice, cooperation between draw-in groove and the montant, it rotates on the riser to rotate the bull stick drive pivot through the bearing, the pivot drives the clamp splice can the rotation, adjust according to welding angle, pass the montant the riser and insert the epaxial clamp splice of countershaft in the epaxial draw-in groove of commentaries on classics and fix, the welding of being convenient for, current zinc-nickel redox flow battery laser welding anchor clamps have been solved, can't carry out the angle modulation after fixing zinc-nickel redox flow battery, bring the problem of work inconvenience for the worker.

Through the matching between the clamping block, the gear, the pin shaft, the supporting plate, the handle, the rubber ring, the rack, the connecting rod, the transverse plate, the first rubber pad, the top plate and the second rubber pad, the external zinc-nickel flow battery is placed between the first rubber pad and the second rubber pad in the clamping block, the handle is pressed downwards to drive the gear to rotate clockwise on the supporting plate through the pin shaft, the rubber ring increases the friction force between the handle and the pin shaft, the gear is prevented from rotating without artificial rotation after rotating, the rack is driven to move upwards through the meshing force between the gear and the rack, the rack drives the connecting rod to move upwards in the clamping block, the connecting rod drives the transverse plate to move upwards to fix the battery on the top plate, the first rubber pad and the second rubber pad prevent the surface friction of the battery from being damaged, the clamping is carried out by replacing the thread to rotate, the clamping speed is improved, the problem that the existing laser welding clamp for the zinc-, thereby affecting the welding rate.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the gear, rack and linkage of FIG. 1;

FIG. 3 is a schematic structural view of the gear, the pin and the rubber ring of FIG. 1;

fig. 4 is a schematic structural view of the rotating shaft, the clamping groove and the vertical rod in fig. 1.

In the figure: 1. the base plate, 2, the base, 3, the riser, 4, adjustment mechanism, 401, the pivot, 402, the bearing, 403, the bull stick, 404, the clamp splice, 405, the draw-in groove, 406, the montant, 5, fixed establishment, 501, the gear, 502, the round pin axle, 503, the backup pad, 504, the handle, 505, the rubber circle, 506, the rack, 507, the connecting rod, 508, diaphragm, 509, first rubber pad, 6, supporting mechanism, 601, the roof, 602, the second rubber pad.

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.

Referring to fig. 1-4, the present invention provides a technical solution: a laser welding clamp for a zinc-nickel flow battery comprises a vertical plate 3, an adjusting mechanism 4 is installed above the vertical plate 3, the adjusting mechanism 4 comprises a rotating shaft 401, a bearing 402, a rotating rod 403, a clamping block 404, a clamping groove 405 and a vertical rod 406, the rotating shaft 401 is rotatably connected with the vertical plate 3 through the bearing 402, the rotating shaft 401 rotates on the vertical plate 3 through the bearing 402, the rotating rod 403 is fixedly connected to the outer wall of the left side of the rotating shaft 401, the rotating rod 403 is rotated to drive the rotating shaft 401 to rotate, the clamping block 404 is fixedly connected to the right end of the rotating shaft 401, the rotating shaft 401 drives the clamping block 404 to rotate for 360 degrees and is adjusted according to a welding angle, four clamping grooves 405 are formed in the outer wall of the right side of the rotating shaft 401, the inner surface of the clamping groove 405 above is clamped with the outer wall of the lower side of the vertical rod 406, the outer wall of the vertical rod, the clamping groove 405 is annularly formed in the rotating shaft 401, and the rotating shaft 401 is fixed in the vertical plate 3 according to the clamping grooves 405 at different angles.

The bottom rigid coupling of riser 3 is on bottom plate 1's left side top, and bottom plate 1 supports riser 3, and bottom four corners rigid coupling of bottom plate 1 has base 2, and four bases 2 support bottom plate 1.

The middle of the lower part of the clamping block 404 is provided with a fixing mechanism 5, the fixing mechanism 5 comprises a gear 501, a pin shaft 502, a supporting plate 503, a handle 504, a rubber ring 505, a rack 506, a connecting rod 507, a transverse plate 508 and a first rubber pad 509, the gear 501 is rotatably connected with the supporting plate 503 through the pin shaft 502, the gear 501 rotates on the supporting plate 503 through the pin shaft 502, the top end of the supporting plate 503 is fixedly connected with the bottom end of the right side of the clamping block 404, the clamping block 404 supports the supporting plate 503, the front end of the middle of the gear 501 is fixedly connected with the handle 504, the handle 504 is rotated to drive the gear 501 to rotate, the rubber ring 505 is fixedly connected with the inner wall of the left side of the handle 504, the inner wall of the rubber ring 505 is attached to the outer wall of the pin shaft 502, the rubber ring 505 increases the friction force between the handle 504 and the pin shaft 502, the gear 501 is prevented from rotating in an artificial situation after rotating, the, the left end of rack 506 is fixedly connected at the right end of the lower part of connecting rod 507, the upper outer wall of connecting rod 507 is in clearance fit with the lower middle inner wall of clamping block 404, rack 506 drives connecting rod 507 to move up and down in clamping block 404, the top end of connecting rod 507 is fixedly connected with transverse plate 508, connecting rod 507 drives transverse plate 508 to move up and down quickly to fix and dismantle the battery, the middle of the top end of transverse plate 508 is fixedly connected with first rubber pad 509, first rubber pad 509 prevents the battery from surface friction damage, the outer wall of handle 504 is processed with friction grains, and friction grains between the hand and handle 504 are increased to prevent the hands from falling off.

Supporting mechanism 6 is installed to the inboard of clamp splice 404 top, and supporting mechanism 6 includes roof 601 and second rubber pad 602, and the top rigid coupling of roof 601 is at the middle inner wall in the top of clamp splice 404, and clamp splice 404 supports roof 601, and the rigid coupling has second rubber pad 602 in the middle of the bottom of roof 601, and second rubber pad 602 prevents that battery surface friction from damaging.

When the zinc-nickel flow battery laser welding fixture is used, firstly, an external zinc-nickel flow battery is manually placed between a first rubber pad 509 and a second rubber pad 602 in a clamping block 404, a handle 504 is manually pressed downwards to drive a gear 501 to rotate clockwise on a supporting plate 503 through a pin shaft 502, a rubber ring 505 increases friction between the handle 504 and the pin shaft 502 to prevent the gear 501 from rotating automatically without human action after rotating, a rack 506 is driven to move upwards through meshing force between the gear 501 and the rack 506, the rack 506 drives a connecting rod 507 to move upwards in the clamping block 404, the connecting rod 507 drives a transverse plate 508 to move upwards to fix the battery on a top plate 601, the first rubber pad 509 and the second rubber pad 602 prevent surface friction damage of the battery, a rotating rod 403 is manually rotated to drive a rotating shaft 401 to rotate on a vertical plate 3 through a bearing 402, and the rotating shaft 401 drives the clamping block 404 to rotate 360 degrees, the vertical rod 406 is manually inserted into the clamping groove 405 on the rotating shaft 401 through the vertical plate 3 to fix the clamping block 404 on the rotating shaft 401, so that welding is facilitated.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

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

Claims (6)

1. The utility model provides a zinc-nickel redox flow battery laser welding anchor clamps, includes riser (3), its characterized in that: an adjusting mechanism (4) is arranged above the vertical plate (3);

the adjusting mechanism (4) comprises a rotating shaft (401), a bearing (402), a rotating rod (403), a clamping block (404), a clamping groove (405) and a vertical rod (406);

pivot (401) are rotated with riser (3) through bearing (402) and are linked to each other, the left side outer wall rigid coupling of pivot (401) has bull stick (403), the right-hand member rigid coupling of pivot (401) has clamp splice (404), a plurality of draw-in grooves (405), top have been seted up to the right side outer wall of pivot (401) the internal surface of draw-in groove (405) and the below outer wall joint of montant (406), the outer wall of montant (406) and the right side top inner wall clearance fit of riser (3).

2. The zinc-nickel flow battery laser welding fixture of claim 1, wherein: the clamping groove (405) is annularly formed in the rotating shaft (401).

3. The zinc-nickel flow battery laser welding fixture of claim 1, wherein: the bottom rigid coupling of riser (3) is on the left side top of bottom plate (1), the bottom four corners rigid coupling of bottom plate (1) has base (2).

4. The zinc-nickel flow battery laser welding fixture of claim 1, wherein: a fixing mechanism (5) is arranged in the middle of the lower part of the clamping block (404);

the fixing mechanism (5) comprises a gear (501), a pin shaft (502), a supporting plate (503), a handle (504), a rubber ring (505), a rack (506), a connecting rod (507), a transverse plate (508) and a first rubber pad (509);

gear (501) rotate with backup pad (503) through round pin axle (502) and link to each other, the top rigid coupling of backup pad (503) is in the right side bottom of clamp splice (404), the middle front end rigid coupling of gear (501) has handle (504), the left side inner wall rigid coupling of handle (504) has rubber circle (505), the inner wall of rubber circle (505) is laminated with the outer wall of round pin axle (502) mutually, gear (501) and rack (506) meshing link to each other, the left end rigid coupling of rack (506) is at the below right-hand member of connecting rod (507), the top outer wall of connecting rod (507) and the middle inner wall clearance fit in the below of clamp splice (404), the top rigid coupling diaphragm (508) of connecting rod (507), the rigid coupling has first rubber pad (509) in the middle of the top of diaphragm (508).

5. The zinc-nickel flow battery laser welding fixture of claim 4, wherein: the outer wall of the handle (504) is machined with friction grains.

6. The zinc-nickel flow battery laser welding fixture of claim 1, wherein: a supporting mechanism (6) is arranged on the inner side above the clamping block (404);

the supporting mechanism (6) comprises a top plate (601) and a second rubber pad (602);

the top end of the top plate (601) is fixedly connected to the middle inner wall above the clamping block (404), and the middle of the bottom end of the top plate (601) is fixedly connected with a second rubber pad (602).

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