CN219358370U - Duplex displacement movable die box structure for lead-acid storage battery welding - Google Patents

Abstract

The utility model discloses a duplex displacement movable die box structure for welding a lead-acid storage battery, which comprises a guide seat and two frame bodies which are slidably arranged on the front surface of the guide seat, wherein two strip-shaped sliding rails are symmetrically fixed on the front surface of the guide seat, a sliding sleeve which is slidably sleeved on the sliding rails is fixed on the rear surface of the frame body, and a clamping cylinder is arranged on one side surface of each frame body; according to the utility model, through the guide seat, the horizontal pushing cylinder, the clamping cylinder, the quick-change clamping fixture and the frame body, the pole group can be quickly clamped through the clamping cylinder and the quick-change clamping fixture, then the welding machine is matched for welding, the welded pole group is automatically pushed to the shell-entering position through the horizontal pushing cylinder after welding, the pole group is not required to be manually assembled into the shell, the production efficiency is higher, and meanwhile, through the designed quick-change mechanism, an operator can quickly detach the quick-change clamping fixture according to the pole groups with different specifications.

Description

Duplex displacement movable die box structure for lead-acid storage battery welding

Technical Field

The utility model belongs to the technical field of welding processing of lead-acid storage batteries, and particularly relates to a duplex displacement movable die box structure for welding of a lead-acid storage battery.

Background

The lead-acid battery is a kind of electrode mainly made of lead and its oxide, electrolyte is the battery of sulfuric acid solution, and the mode that sealed lead-acid battery was welded mainly is, manual work is with oxygen, acetylene to weld (short for gas welding) after manual work semi-automatic income shell, this kind of assembly mode needs manual work to pack the utmost point crowd into the diaphragm capsule, the shortcoming is that the welding of the unable multiple model number battery of non-environment-friendly, it is poor to cause production efficiency, and the manual work is gone into the fragile utmost point crowd and is caused the product bad, more unable and subsequent process, automatic go into shell mechanism carries out the automation welding of linkage realization whole flow and go into the shell, for this reason we propose a duplex displacement movable diaphragm capsule structure that is used for lead-acid battery to weld.

Disclosure of Invention

The utility model aims to provide a duplex displacement movable die box structure for welding a lead-acid storage battery, which solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a duplex displacement movable mould box structure for lead acid battery welds, includes guide holder and slidable mounting at two framework of guide holder front surface, the front surface symmetry of guide holder is fixed with two bar slide rails, the rear surface fixed of framework has the sliding sleeve of slip cap to establish on the slide rail, every the clamping cylinder is all installed to one side surface of framework, and the inboard activity of framework is provided with the quick change clamp jig that is connected with the clamping cylinder, two flat push cylinders are installed to the top surface symmetry of guide holder, the top of framework is equipped with the kicking block, and the kicking block is connected with flat push cylinder, the tip of clamping cylinder is equipped with the clamping piston rod that runs through to the framework inboard, one side surface fixed of quick change clamp jig is provided with the adapter sleeve of being connected with the clamping piston rod, be provided with quick change mechanism between clamping piston rod and the adapter sleeve.

Preferably, the quick-change mechanism comprises a rectangular mounting pin and a rectangular pin hole, a slot is formed in the surface of the connecting sleeve, the end parts of the clamping piston rods are inserted into the slot, rectangular pin holes are formed in the upper and lower surfaces of the connecting sleeve in a penetrating mode, through holes are formed in the end parts of the clamping piston rods, the rectangular mounting pin is inserted into the rectangular pin holes and penetrates through the end parts of the clamping piston rods through the through holes, the quick-change mechanism further comprises an inner sliding groove formed in the connecting sleeve, an inner sliding strip is movably mounted in the inner sliding groove through a spring, side sliding grooves are formed in the inner wall of the inner sliding groove, side clamping rods are slidably arranged in the side sliding grooves, two ends of the inner sliding strip are respectively fixed with the two side clamping rods, clamping holes are formed in the surfaces of the two ends of the rectangular mounting pin, the end parts of the side clamping rods penetrate into the clamping holes, connecting slide ways are formed in the upper and lower surfaces of the connecting sleeve, the connecting slide ways are communicated with the side sliding grooves, connecting slide blocks are slidably mounted in the upper and lower surfaces of the connecting sleeve, and the outer sliding blocks are slidably mounted in the inner sliding grooves, and the side sliding blocks are fixedly arranged in the side sliding grooves and are fixedly arranged on one side of the two sides of the circular side clamping grooves.

Preferably, the quick-change mechanism further comprises a positioning structure, the positioning structure comprises a hollow rubber block embedded and installed on the inner wall of one side of the rectangular pin hole, one side of the hollow rubber block is provided with an integrated circular rubber bulge, and the circular rubber bulge is embedded into the clamping hole.

Preferably, four guide rods are installed on one side surface of the quick-change clamping fixture, four guide sleeves are fixed on one side surface of the frame body, and the end parts of the guide rods penetrate through the outer side of the frame body and penetrate through the guide sleeves.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, through the guide seat, the horizontal pushing cylinder, the clamping cylinder, the quick-change clamping fixture and the frame body, the pole group can be quickly clamped through the clamping cylinder and the quick-change clamping fixture, then the welding machine is matched for welding, the welded pole group is automatically pushed to the shell-entering position through the horizontal pushing cylinder after the welding, the manual work of the pole group is not needed, the production efficiency is higher, and meanwhile, through the designed quick-change mechanism, an operator can quickly detach the quick-change clamping fixture according to the pole groups with different specifications better, and the flexibility is high.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of the present utility model as it would be incorporated into a pole group assembly;

FIG. 3 is a top view of the connection of the clamping cylinder and the quick change clamping fixture of the present utility model;

FIG. 4 is a cross-sectional view of the quick change mechanism of the present utility model;

FIG. 5 is an enlarged view of a portion of the positioning structure of FIG. 4 in accordance with the present utility model;

in the figure: 1. a guide seat; 2. a horizontal pushing cylinder; 3. a clamping cylinder; 4. quick-changing a clamping fixture; 5. a frame; 51. a top block; 6. a pole group assembly; 7. clamping the piston rod; 8. connecting sleeves; 9. a quick change mechanism; 901. a rectangular mounting pin; 902. rectangular pin holes; 903. a positioning structure; 9031. a hollow rubber block; 9032. a circular rubber protrusion; 904. an inner chute; 905. an inner slide; 906. a spring; 907. a side chute; 908. a side clamping rod; 909. a clamping hole; 910. the connecting slide block; 911. an outer shifting block.

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.

Example 1

Referring to fig. 1 and fig. 2, a first embodiment of the present utility model provides a technical solution: a duplex displacement movable die box structure for lead-acid storage battery welding comprises a guide seat 1 and two frame bodies 5 which are slidably arranged on the front surface of the guide seat 1, two strip-shaped sliding rails are symmetrically fixed on the front surface of the guide seat 1, sliding sleeves are fixedly arranged on the rear surfaces of the frame bodies 5 in a sliding mode, clamping cylinders 3 are arranged on one side surface of each frame body 5, the type of each clamping cylinder 3 is SDA80X25, quick-change clamping fixtures 4 connected with the clamping cylinders 3 are movably arranged on the inner sides of the frame bodies 5, the clamping cylinders 3 can drive the quick-change clamping fixtures 4 to displace, clamping of a pole group assembly 6 is achieved, two flat pushing cylinders 2 are symmetrically arranged on the top surfaces of the guide seat 1, the type of each flat pushing cylinder 2 is DSTA-SD80/50/32-1500-3S, top ends of the frame bodies 5 are provided with top blocks 51, the top blocks 51 are connected with the flat pushing cylinders 2, the piston rods of the end portions of the flat pushing cylinders are fixedly connected with the top blocks 51, the end portions of the flat pushing cylinders 3 are provided with the frame bodies 5, the end portions of the flat pushing cylinders are provided with quick-change clamping fixtures 4, the end portions of the flat pushing cylinders are provided with the quick-change clamping fixtures 4, and the quick-change clamping fixtures are connected with the piston rods 7, and the quick-change clamping fixtures are fixedly connected with the piston rods 8, and the piston rods are fixedly connected with the piston rods 7, and the piston rods are connected with the quick-change clamping fixtures 7, and the piston rod clamping fixtures are connected with the piston rods 7, and the piston rod 7 are fixedly connected with the piston rod to the piston rod and are connected with the piston rod 7, and with the piston rod and have the piston rod and 7, and are connected with the piston rod and 7, and with the piston rod and 7.

Four guide rods are mounted on one side surface of the quick-change clamping fixture 4, four guide sleeves corresponding to the guide rods are fixed on one side surface of the frame body 5, and the end parts of the guide rods penetrate through the outer side of the frame body 5 and penetrate through the guide sleeves, so that the quick-change clamping fixture 4 can be guided when sliding.

To sum up, this a duplex displacement movable mould box structure for lead acid battery welds is when using, firstly put into the inboard of framework 5 with utmost point crowd subassembly 6, then start clamping cylinder 3, make quick change clamping jig 4 press from both sides utmost point crowd subassembly 6 in the inboard of framework 5, then cooperate the welding machine to weld this moment, after the welding, restart flat push cylinder 2, make kicking block 51 carry framework 5 and welded utmost point crowd subassembly 6 push away to the income shell station can, no longer need the people to frock utmost point crowd to go into the shell, production mode environmental protection, efficiency is higher, change production battery model only need change quick change clamping jig 4 can, the flexibility of quick change has.

Example 2

Referring to fig. 1 to 4, a second embodiment of the present utility model is based on the previous embodiment, except that the quick-change clamping fixture 4 can be quickly removed and replaced by the quick-change mechanism 9, so that the flexibility of use is high.

Specifically, quick change mechanism 9 includes rectangle mounting pin 901 and rectangle pinhole 902, the slot that supplies clamp piston rod 7 to insert is seted up on the surface of adapter sleeve 8, the tip of clamp piston rod 7 inserts to the slot in, rectangle pinhole 902 has been seted up in the upper and lower surface of adapter sleeve 8 runs through, supply rectangle mounting pin 901 to insert, and the tip of clamp piston rod 7 has been seted up the through-hole corresponding with rectangle mounting pin 901, rectangle mounting pin 901 inserts in rectangle pinhole 902, and pass through the tip of clamp piston rod 7 through the through-hole, realize the stable spacing to clamp piston rod 7, quick change mechanism 9 still includes the interior sliding groove 904 of seting up in adapter sleeve 8, interior sliding groove 904 has interior slide bar 905 through spring 906 movable mounting, the both sides inner wall of interior sliding groove 904 has all been seted up the side spout, the interior sliding groove 907 is provided with side clamping bar 908, the both ends of interior sliding bar 905 are fixed with two side clamping bar 908 respectively, the card hole 909 that supplies side clamping bar 908 to insert is all seted up on the both ends surface of rectangle mounting pin 901, the tip of side clamping bar 908 runs through to card hole 909, realize the stable spacing to install connecting sleeve 8 to clamp piston rod's tip, realize, the interior sliding groove 911 is connected with interior sliding block 908 through the inside sliding block 907 through spring 906, the outside sliding block 908 is connected with the outside sliding block 908 is equipped with the outside through the inside sliding block 911, the outside sliding block 908 is connected through the outside sliding block 908, the outside sliding block is connected with the outside sliding block 908 is connected through the inside sliding block 908, and the outside sliding block 908 is connected with outside sliding block 908 is fixed through the inside sliding block's a flat inside.

Wherein, two circular side grooves are symmetrically arranged on one side surface of the inner slide 905, and one end of the spring 906 is embedded in the circular side groove for stable installation of the spring 906.

In summary, when the quick-change clamping fixture 4 needs to be replaced according to the batteries of other specifications, only the outer shifting block 911 needs to be shifted firstly, the connecting sliding block 910 is enabled to carry the side clamping rod 908 and the inner sliding strip 905 to laterally move, the spring 906 is enabled to be gradually compressed, the end portion of the side clamping rod 908 is enabled to move out of the clamping hole 909, the rectangular mounting pin 901 can be pushed out, the clamping piston rod 7 and the connecting sleeve 8 can be directly separated under the limit condition without the rectangular mounting pin 901, quick-change clamping fixture 4 is quickly removed and replaced, during subsequent installation, the end portion of the clamping piston rod 7 is only required to be inserted into the slot on the connecting sleeve 8 firstly, then the outer shifting block 911 is shifted, the rectangular mounting pin 901 is inserted into the rectangular pin hole 902, the rectangular mounting pin 901 can penetrate through the clamping piston rod 7, at the moment, the outer shifting block 911 is loosened, the side clamping rod 908 is enabled to rebound and reset, and finally the rectangular mounting pin 901 is clamped into the clamping hole 909, stable limit of the rectangular mounting pin 901 is achieved, and quick-change clamping fixture 4 is quickly installed.

Example 3

Referring to fig. 1 to 5, a third embodiment of the present utility model is based on the previous embodiment, except that the positioning structure 903 can be used to assist in improving the installation convenience of the quick-change clamp 4 when installing the rectangular mounting pin 901.

Specifically, quick change mechanism 9 still includes location structure 903, location structure 903 is including the hollow rubber block 9031 of embedding installation at rectangular pinhole 902 one side inner wall, one side of hollow rubber block 9031 is equipped with the circular rubber arch 9032 of integral type, circular rubber arch 9032 imbeds to in the card hole 909, when rectangular mounting pin 901 inserts rectangular pinhole 902, can extrude the circular rubber arch 9032 deformation, until rectangular mounting pin 901 is pushed into rectangular pinhole 902 completely, circular rubber arch 9032 can block into card hole 909 and assist spacing with rectangular mounting pin 901 this moment, avoid rectangular mounting pin 901 roll-off, the connection between clamping piston rod 7 and adapter sleeve 8 brings the convenience.

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 (8)

1. A duplex displacement movable mould box structure for lead acid battery welds, its characterized in that: including guide holder (1) and slidable mounting two framework (5) at guide holder (1) front surface, every clamping cylinder (3) are all installed to one side surface of framework (5), and the inboard activity of framework (5) is provided with quick change clamp (4) that are connected with clamping cylinder (3), two flat push cylinder (2) are installed to the top surface symmetry of guide holder (1), the top of framework (5) is equipped with kicking block (51), and kicking block (51) are connected with flat push cylinder (2), the tip of clamping cylinder (3) is equipped with and runs through to the inboard clamping piston rod (7) of framework (5), one side surface of quick change clamp (4) is fixed with adapter sleeve (8) that are connected with clamping piston rod (7), be provided with quick change mechanism (9) between clamping piston rod (7) and adapter sleeve (8).

2. The duplex displacement movable die box structure for welding lead-acid storage batteries according to claim 1, wherein: the front surface of the guide seat (1) is symmetrically fixed with two bar-shaped sliding rails, and the rear surface of the frame body (5) is fixed with a sliding sleeve which is sleeved on the sliding rails in a sliding manner.

3. The duplex displacement movable die box structure for welding lead-acid storage batteries according to claim 1, wherein: quick change mechanism (9) are including rectangle mounting pin (901) and rectangle pinhole (902), the slot has been seted up on the surface of adapter sleeve (8), insert in the slot clamping the tip of piston rod (7), rectangle pinhole (902) have been seted up in the upper and lower surface of adapter sleeve (8) run through, and the through-hole has been seted up to clamping the tip of piston rod (7), rectangle mounting pin (901) inserts in rectangle pinhole (902) to run through clamping the tip of piston rod (7) through the through-hole.

4. A duplex displacement movable die box structure for lead acid battery welding according to claim 3, wherein: quick change mechanism (9) still including seting up in inside interior draw runner (904) of adapter sleeve (8), interior draw runner (905) have been installed through spring (906) movable in interior draw runner (904), side spout (907) have all been seted up to the both sides inner wall in interior draw runner (904), it is provided with side clamping rod (908) to slide in groove (907), the both ends of interior draw runner (905) are fixed with two side clamping rods (908) respectively, draw-in hole (909) have all been seted up on the both ends surface of rectangle mounting pin (901), the tip of side clamping rod (908) runs through in draw-in hole (909).

5. The duplex displacement movable die box structure for welding lead-acid storage batteries according to claim 4, wherein: the connecting sleeve (8) is characterized in that connecting slide ways are formed in the upper surface and the lower surface of the connecting sleeve (8), the connecting slide ways are communicated with the side slide grooves (907), connecting sliding blocks (910) are slidably arranged in the connecting slide ways, outer shifting blocks (911) are slidably arranged on the upper surface and the lower surface of the connecting sleeve (8), and the outer shifting blocks (911) are fixed with the side clamping rods (908) through the connecting sliding blocks (910).

6. The duplex displacement movable die box structure for welding lead-acid storage batteries according to claim 4, wherein: the quick-change mechanism (9) further comprises a positioning structure (903), the positioning structure (903) comprises a hollow rubber block (9031) which is embedded and installed on the inner wall of one side of the rectangular pin hole (902), one side of the hollow rubber block (9031) is provided with an integrated circular rubber bulge (9032), and the circular rubber bulge (9032) is embedded into the clamping hole (909).

7. The duplex displacement movable die box structure for welding lead-acid storage batteries according to claim 4, wherein: two circular side grooves are symmetrically formed in one side surface of the inner sliding strip (905), and one end of the spring (906) is embedded into the circular side grooves.

8. The duplex displacement movable die box structure for welding lead-acid storage batteries according to claim 1, wherein: four guide rods are arranged on one side surface of the quick-change clamping fixture (4), four guide sleeves are fixed on one side surface of the frame body (5), and the end parts of the guide rods penetrate to the outer side of the frame body (5) and penetrate through the guide sleeves.