CN113755775B

CN113755775B - Hanging fixture for gasket galvanization

Info

Publication number: CN113755775B
Application number: CN202111033616.5A
Authority: CN
Inventors: 孙大海; 纪弢; 吴赛; 江涛
Original assignee: ANHUI HONGYUAN IRON TOWER CO LTD
Current assignee: ANHUI HONGYUAN IRON TOWER CO LTD
Priority date: 2021-09-03
Filing date: 2021-09-03
Publication date: 2023-06-23
Anticipated expiration: 2041-09-03
Also published as: CN113755775A

Abstract

The invention relates to the technical field of galvanization, in particular to a hanging fixture for gasket galvanization, which comprises the following components: the device comprises a bottom plate, wherein four threads of the bottom plate penetrate through fixing screws, the bottom plate can fix the device body through the fixing screws, side plates are fixedly arranged on two sides of the bottom plate, a top plate is fixedly arranged on one side, away from the bottom plate, of the side plates, and the bottom plate, the side plates and the top plate form a device body supporting framework; a galvanization pool fixedly installed on the bottom plate; and the two ends of the sedimentation mechanism are rotatably arranged on the side plates, the power input end of the sedimentation mechanism is arranged outside the side plates, the power output end of the sedimentation mechanism is fixedly provided with a moving mechanism, the moving mechanism is fixedly provided with a clamp, the sedimentation mechanism can drive the clamp to enter the galvanizing bath to galvanize through the moving mechanism, and the moving mechanism is used for moving the clamp to perform gasket feeding and discharging. The hanging fixture for the gasket galvanization provided by the invention can greatly simplify the feeding and discharging processes, is not easy to unweld, and has the advantages of long service life, simplicity in operation and strong practicability.

Description

Hanging fixture for gasket galvanization

Technical Field

The invention relates to the technical field of galvanization, in particular to a hanging fixture for gasket galvanization.

Background

Galvanization refers to a surface treatment technique of plating a layer of zinc on the surface of metal, alloy or other materials to play roles of beauty, rust prevention and the like. The main method is hot galvanizing.

When the conventional gasket is galvanized, the feeding and discharging processes are complicated, and the welding joint in the clamp is of a T-shaped welding type, so that the welding joint is small in size and easy to weld, and therefore, the hanging clamp for gasket galvanization is needed to solve the problems.

Disclosure of Invention

The embodiment of the invention aims to provide a hanging fixture for gasket galvanization, which aims to solve the following problems: the existing gasket galvanization feeding and discharging process is complicated, and the clamp is easy to weld.

The embodiment of the invention is realized in such a way that a hanging fixture for gasket galvanization comprises: the device comprises a bottom plate, wherein four threads of the bottom plate penetrate through fixing screws, the bottom plate can fix the device body through the fixing screws, side plates are fixedly arranged on two sides of the bottom plate, a top plate is fixedly arranged on one side, away from the bottom plate, of the side plates, and the bottom plate, the side plates and the top plate form a device body supporting framework; the galvanization pool is fixedly arranged on the bottom plate and is used for carrying out electrolytic galvanization on the gasket; and the two ends of the sedimentation mechanism are rotatably arranged on the side plates, the power input end of the sedimentation mechanism is arranged outside the side plates, the power output end of the sedimentation mechanism is fixedly provided with a moving mechanism, the moving mechanism is fixedly provided with a clamp for placing the gasket, the sedimentation mechanism can drive the clamp to enter the galvanization pool for galvanization through the moving mechanism, and the moving mechanism is used for moving the clamp to perform gasket feeding and discharging.

Preferably, the sedimentation mechanism comprises: one end of the connecting piece is rotatably arranged on the side plate and distributed on two sides, one end of the connecting piece is connected with a power piece for driving the sedimentation mechanism to ascend or descend, and the power piece is arranged on the outer side of the side plate and fixedly connected with the side plate; the threaded rod is fixedly connected with a connecting piece connected with the power piece, and a threaded block capable of moving under the rotation of the threaded rod is sleeved on the threaded rod in a threaded manner; the sliding rod is fixedly connected with a connecting piece far away from the power piece, a sliding block capable of sliding along the sliding rod is sleeved on the sliding rod, and a first elastic piece used for buffering the movement of the sliding block is fixedly arranged between the sliding block and the connecting piece; the two ends of the linkage assembly are respectively hinged with the threaded block and the sliding block, and the linkage assembly is fixedly connected with the top plate at the same time and is used for pulling the threaded block and the sliding block to synchronously move; the push rod is distributed on two sides, one end of the push rod is fixedly connected with the threaded block and the sliding block, the other end of the push rod is provided with an arc groove in a matched mode, the other end of the push rod can slide in the direction of the arc groove, and the arc groove is simultaneously fixedly connected with the moving mechanism.

Preferably, the linkage assembly comprises: the hanging rod is fixedly arranged in the middle of the top plate, a sliding sleeve is sleeved on the hanging rod, and the sliding sleeve can slide on the hanging rod; and two ends of the hinge piece are respectively hinged with the sliding sleeve, the thread block and the sliding block and are used for pulling the thread block and the sliding block to synchronously move in opposite directions.

Preferably, the moving mechanism includes: the installation groove is fixedly connected with the power output end of the sedimentation mechanism, guide components for maintaining the stability of the movement of the installation groove are arranged at two ends of the installation groove, and the guide components are fixedly arranged on the inner side of the side plate; the two ends of the guide rod are fixedly connected with the inner wall of the mounting groove and distributed on the two sides of the inside of the mounting groove, the guide rods on the two sides are fixedly provided with stop blocks, and the stop blocks are arranged on the two sides of the guide rod on one side; the guide blocks are sleeved on the guide rod and provided with a plurality of guide blocks, a second elastic piece is connected between adjacent guide blocks on one side and used for maintaining the distance between the adjacent guide blocks, and the stop blocks can limit the guide blocks at two ends; the power assembly is fixedly connected with the mounting groove, and the power output end of the power assembly is connected with one end of the guide block and is used for providing power for the guide block to move on the guide rod; and the pulling plate is fixed between the two opposite guide blocks and fixedly connected with the clamp.

Preferably, the guide assembly comprises: the guide slot is fixedly connected with the side plate and is arranged on the inner side, the guide slot is provided with guide wheels in a matched mode, the guide wheels can move along the direction of the guide slot, and the rotating shaft is fixedly connected with two sides of the mounting groove.

Preferably, the power assembly comprises: the two ends of the limiting rotating rod are fixedly connected with the inner wall of the mounting groove, the limiting rotating rod penetrates through a mounting seat, and the mounting seat can slide on the limiting rotating rod; the driving piece is fixedly connected with the mounting seat and is used for providing power support for the power assembly to drive the guide block to move; the gear is fixedly connected with the output shaft of the driving piece, a rack for guiding the gear to move is meshed with the gear, and the rack is fixedly connected with the inner wall of the mounting groove.

Preferably, the jig includes: the connecting frame is fixedly connected with the output end of the moving mechanism, and a frame body is fixedly arranged on the connecting frame; the stop lever, its welding is in the framework both sides, the stop lever can set up a plurality of in order to satisfy a plurality of gasket hanging material demands.

The hanging fixture for the gasket galvanization provided by the invention not only can greatly simplify the feeding and discharging processes, but also is not easy to unweld, long in service life, simple to operate and high in practicability.

Drawings

Fig. 1 is a schematic diagram of a material hanging fixture for gasket galvanization.

Fig. 2 is a schematic diagram of a moving mechanism of a hanging fixture for gasket galvanization.

Fig. 3 is a schematic diagram of a power assembly of a hanging fixture for galvanization of shims.

Fig. 4 is a schematic diagram of a jig for a stock-hanging jig for galvanization of a gasket.

In the accompanying drawings: 1-bottom plate, 2-set screw, 3-side plate, 4-top plate, 5-galvanization pool, 6-subsidence mechanism, 7-moving mechanism, 8-clamp, 61-connector, 62-power piece, 63-threaded rod, 64-threaded block, 65-slide bar, 66-slide block, 67-first elastic piece, 68-linkage component, 69-push rod, 610-circular arc groove, 681-suspender, 682-slide sleeve, 683-hinge component, 71-mounting groove, 72-guiding component, 73-guide rod, 74-stopper, 75-guide block, 76-second elastic piece, 77-power component, 78-pull plate, 721-guide groove, 722-guide wheel, 771-limit-turn rod, 772-mount, 773-driving component, 774-gear, 775-rack, 81-connector, 82-frame, 83-stop rod.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

Referring to fig. 1, a hanging fixture for galvanizing a gasket provided by an embodiment of the present invention includes:

the device comprises a bottom plate 1, fixing screws 2 penetrate through four threads of the bottom plate 1, the bottom plate 1 can fix a device body through the fixing screws 2, side plates 3 are fixedly arranged on two sides of the bottom plate 1, a top plate 4 is fixedly arranged on one side, away from the bottom plate 1, of the side plates 3, and the bottom plate 1, the side plates 3 and the top plate 4 form a device body supporting framework; a galvanization pool 5 fixedly installed on the base plate 1 for electrolytically galvanizing the gasket; the sedimentation mechanism 6, the two ends of which are rotatably arranged on the side plate 3, the power input end of the sedimentation mechanism 5 is arranged outside the side plate 3, the power output end of the sedimentation mechanism 6 is fixedly provided with a moving mechanism 7, the moving mechanism 7 is fixedly provided with a clamp 8 for placing a gasket, the sedimentation mechanism 6 can drive the clamp 8 to enter the galvanizing bath 5 through the moving mechanism 7 for galvanizing, and the moving mechanism 7 is used for moving the clamp 8 for feeding and discharging the gasket.

When the device is specifically used, the moving mechanism 7 is started firstly, the moving mechanism 7 moves the clamp 8 to the edge of the device body, then the gasket to be electroplated is placed in the clamp 8, after the clamp 8 is fully filled with the gasket, the moving mechanism 7 is reversely started, the moving mechanism 7 can carry out dispersed reset on the clamp 8 at equal intervals, the electrolyte and the gasket are ensured to have larger-area contact during electroplating, after the clamp 8 is dispersed reset, the sedimentation mechanism 6 is started, the sedimentation mechanism 6 drives the clamp 8 to gradually descend into the galvanizing bath 5 through the moving mechanism 7, so that the gasket can be galvanized, and after the galvanizing is completed, the sedimentation mechanism 6 is reversely started, the moving mechanism 7 pulls the clamp 8 to ascend, and the gasket can be taken down after the clamp is moved to the edge through the moving mechanism 7.

As shown in fig. 1, as a preferred embodiment of the present invention, the sedimentation mechanism 6 includes: one end of the connecting piece 61 is rotatably arranged on the side plate 3 and distributed on two sides, one end of the connecting piece 61 is connected with a power piece 62 for driving the sedimentation mechanism 6 to ascend or descend, and the power piece 62 is arranged outside the side plate 3 and fixedly connected with the side plate 3; a threaded rod 63 fixedly connected with the connecting piece 61 connected with the power piece 62, wherein a threaded block 64 capable of moving under the rotation of the threaded rod 63 is sleeved on the threaded rod 63; the sliding rod 65 is fixedly connected with the connecting piece 61 far away from the power piece 62, a sliding block 66 capable of sliding along the sliding rod 65 is sleeved on the sliding rod 65, and a first elastic piece 67 used for buffering the movement of the sliding block 66 is fixedly arranged between the sliding block 66 and the connecting piece 61; the two ends of the linkage assembly 68 are respectively hinged with the threaded block 64 and the sliding block 65, and the linkage assembly 68 is fixedly connected with the top plate 4 at the same time and is used for pulling the threaded block 64 and the sliding block 65 to synchronously move; the push rods 69 are distributed on two sides, one ends of the push rods 69 are fixedly connected with the threaded blocks 64 and the sliding blocks 65, the other ends of the push rods 69 are provided with circular arc grooves 610 in a matched mode, the other ends of the push rods 69 can slide in the direction of the circular arc grooves 610, and the circular arc grooves 610 are simultaneously fixedly connected with the moving mechanism 7.

When the embodiment is specifically used, the power piece 62 is started, the power piece 62 is specifically a motor, the output shaft of the power piece 62 drives the left connecting piece 61 to rotate, the left connecting piece 61 rotates to drive the threaded rod 63 to rotate, the threaded rod 63 rotates to enable the threaded block 64 to move leftwards along the threaded block 63, the threaded block 64 can drive the sliding block 66 to move rightwards along the sliding rod 65 through the linkage assembly 68, the sliding block 66 and the threaded block 63 do mutual moving away from each other to drive the push rods 69 on two sides to do mutual moving away from each other to drive the circular arc groove 610 to move downwards, and the circular arc groove 610 can drive the clamp 8 to move downwards through the moving mechanism 7 and gradually enter the galvanized pool 5, so that the gasket can be galvanized.

As shown in fig. 1, as a preferred embodiment of the present invention, the linkage assembly 68 includes: a boom 681, which is fixedly installed in the middle of the top plate 4, wherein a sliding sleeve 682 is sleeved on the boom 681, and the sliding sleeve 682 can slide on the boom 681; the hinge 683 is hinged at two ends to the sliding sleeve 682 and the

screw blocks

64 and 66, respectively, for pulling the

screw blocks

64 and 66 to move synchronously and oppositely.

When the threaded block 64 moves leftwards along the threaded rod 63, the threaded block 64 pulls the left hinge member 683, the hinge member 683 is a hinge rod, the left hinge member 683 moves leftwards to drive the sliding sleeve 682 to move downwards along the hanging rod 681, the sliding sleeve 682 moves downwards to enable the right hinge member 683 to press the sliding block 66 rightwards, and the sliding block 66 moves rightwards along the sliding rod 65, so that the push rods 69 on two sides synchronously move towards each other.

As shown in fig. 2, as a preferred embodiment of the present invention, the moving mechanism 7 includes: the installation groove 71 is fixedly connected with the power output end of the sedimentation mechanism 6, guide assemblies 72 for maintaining the stable movement of the installation groove 71 are arranged at two ends of the installation groove 71, and the guide assemblies 72 are fixedly arranged on the inner side of the side plate 3; the two ends of the guide rods 73 are fixedly connected with the inner wall of the mounting groove 71 and distributed on two sides of the inside of the mounting groove 71, the guide rods 73 on two sides are fixedly provided with stop blocks 74, and the stop blocks 74 are arranged on two sides of the guide rods 73 on one side; the guide blocks 75 are sleeved on the guide rods 73 and are provided with a plurality of guide blocks, a second elastic piece 76 is connected between adjacent guide blocks 75 on one side and used for maintaining the distance between the adjacent guide blocks 75, and the stop blocks 74 can limit the guide blocks 75 at two ends; a power assembly 77 fixedly connected to the mounting groove 71 and having a power output end connected to one end of the guide block 75 for providing power for the guide block 75 to move on the guide bar 73; the pull plate 78 is fixed between the two opposite guide blocks 75, and the pull plate 78 is fixedly connected with the clamp 8.

If the gasket is to be placed into the clamp 8, the power assembly 77 is started, the power assembly 77 drives the rightmost guide block 75 to move leftwards along the guide rod 73, the rightmost guide block 75 can gradually press the left guide block 75 to move leftwards through the second elastic piece 76, when the guide block 75 presses the clamp 8 into the left side through the pull plate 78, the gasket can be placed into the clamp 8 for feeding, after the feeding is completed, the power assembly 77 is reversely started, the power assembly 77 pulls the rightmost guide block 75 to move rightwards along the guide rod 73, the guide block 75 is gradually dispersed under the pushing of the second elastic piece 76, so that the contact between electrolyte and the gasket can be increased during galvanization, and the stop block 74 can limit the positions of the guide blocks 75 at two ends.

As shown in fig. 1, as a preferred embodiment of the present invention, the guide assembly 72 includes: the guide groove 721 is fixedly connected with the side plate 3 and is arranged on the inner side, the guide groove 721 is provided with guide wheels 722 in a matching way, the guide wheels 722 can move along the direction of the guide groove 721, and the rotating shaft is fixedly connected with the two sides of the mounting groove 71.

Under the driving of the sedimentation mechanism 6, the mounting groove 71 moves downwards to drive the guide wheels 722 on two sides to move downwards along the guide groove 721, and the guide wheels 722 and the guide groove 721 cooperate to keep the mounting groove 71 stable in moving downwards.

As shown in fig. 2 and 3, the power assembly 77 includes, as a preferred embodiment of the present invention: the two ends of the limiting rod 771 are fixedly connected with the inner wall of the mounting groove 71, the limiting rod 771 passes through the mounting seat 772, and the mounting seat 772 can slide on the limiting rod 771; a driving member 773 fixedly coupled to the mounting block 772 for providing power support for the movement of the power assembly 77 to drive the guide block 75; and the gear 774 is fixedly connected with the output shaft of the driving piece 773, the gear 774 is meshed with a rack 775 for guiding the movement of the gear 774, and the rack 775 is fixedly connected with the inner wall of the mounting groove 71.

When the embodiment is specifically used, the driving piece 773 is started, the driving piece 773 is specifically a motor, the output shaft of the driving piece 773 drives the gear 774 to rotate, the gear 774 can move leftwards along the rack 775 meshed with the gear 774 in a rotating mode, meanwhile, the mounting seat 772 moves leftwards along the limit rotating rod 771, the driving piece 773 can be prevented from rotating, the mounting seat 772 can move leftwards to drive the rightmost guide block 75 to move leftwards along the guide rod 73, and therefore gasket feeding is facilitated.

As shown in fig. 4, as a preferred embodiment of the present invention, the jig 8 includes: the connecting frame 81 is fixedly connected with the output end of the moving mechanism 7, and a frame 82 is fixedly arranged on the connecting frame 81; the stop lever 83 is welded on two sides of the frame 82, and a plurality of stop levers 83 can be arranged to meet the requirement of a plurality of gasket hanging materials.

When the gasket is specifically used, the gasket is put into the stop lever 83 of the connecting piece 81, the stop lever 83 is welded on the connecting frame 81, the welding surface is large, and the welding is not easy to be removed.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. The utility model provides a gasket galvanization is with hanging material anchor clamps, contains equipment body, its characterized in that includes:

the device comprises a bottom plate, wherein four threads of the bottom plate penetrate through fixing screws, the bottom plate can fix the device body through the fixing screws, side plates are fixedly arranged on two sides of the bottom plate, a top plate is fixedly arranged on one side, away from the bottom plate, of the side plates, and the bottom plate, the side plates and the top plate form a device body supporting framework;

the galvanization pool is fixedly arranged on the bottom plate and is used for carrying out electrolytic galvanization on the gasket;

the two ends of the sedimentation mechanism are rotatably arranged on the side plates, the power input end of the sedimentation mechanism is arranged outside the side plates, the power output end of the sedimentation mechanism is fixedly provided with a moving mechanism, the moving mechanism is fixedly provided with a clamp for placing the gasket, the sedimentation mechanism can drive the clamp to enter the galvanization pool for galvanization through the moving mechanism, and the moving mechanism is used for moving the clamp for feeding and discharging the gasket;

the moving mechanism includes: the installation groove is fixedly connected with the power output end of the sedimentation mechanism, guide components for maintaining the stability of the movement of the installation groove are arranged at two ends of the installation groove, and the guide components are fixedly arranged on the inner side of the side plate;

the two ends of the guide rod are fixedly connected with the inner wall of the mounting groove and distributed on the two sides of the inside of the mounting groove, the guide rods on the two sides are fixedly provided with stop blocks, and the stop blocks are arranged on the two sides of the guide rod on one side;

the guide blocks are sleeved on the guide rod and provided with a plurality of guide blocks, a second elastic piece is connected between adjacent guide blocks on one side and used for maintaining the distance between the adjacent guide blocks, and the stop blocks can limit the guide blocks at two ends;

the power assembly is fixedly connected with the mounting groove, and the power output end of the power assembly is connected with one end of the guide block and is used for providing power for the guide block to move on the guide rod;

the pulling plate is fixed between the two opposite guide blocks and fixedly connected with the clamp;

the guide assembly includes: the guide groove is fixedly connected with the side plate and is arranged on the inner side, guide wheels are cooperatively arranged on the guide groove, the guide wheels can move along the direction of the guide groove, and the rotating shaft is fixedly connected with two sides of the mounting groove;

the power assembly includes: the two ends of the limiting rotating rod are fixedly connected with the inner wall of the mounting groove, the limiting rotating rod penetrates through a mounting seat, and the mounting seat can slide on the limiting rotating rod;

the driving piece is fixedly connected with the mounting seat and is used for providing power support for the power assembly to drive the guide block to move;

the gear is fixedly connected with the output shaft of the driving piece, a rack for guiding the gear to move is meshed with the gear, and the rack is fixedly connected with the inner wall of the mounting groove.

2. The stock clamp for galvanization of a gasket of claim 1, wherein said sedimentation mechanism includes:

one end of the connecting piece is rotatably arranged on the side plate and distributed on two sides, one end of the connecting piece is connected with a power piece for driving the sedimentation mechanism to ascend or descend, and the power piece is arranged on the outer side of the side plate and fixedly connected with the side plate;

the threaded rod is fixedly connected with a connecting piece connected with the power piece, and a threaded block capable of moving under the rotation of the threaded rod is sleeved on the threaded rod in a threaded manner;

the sliding rod is fixedly connected with a connecting piece far away from the power piece, a sliding block capable of sliding along the sliding rod is sleeved on the sliding rod, and a first elastic piece used for buffering the movement of the sliding block is fixedly arranged between the sliding block and the connecting piece;

the two ends of the linkage assembly are respectively hinged with the threaded block and the sliding block, and the linkage assembly is fixedly connected with the top plate at the same time and is used for pulling the threaded block and the sliding block to synchronously move;

the push rod is distributed on two sides, one end of the push rod is fixedly connected with the threaded block and the sliding block, the other end of the push rod is provided with an arc groove in a matched mode, the other end of the push rod can slide in the direction of the arc groove, and the arc groove is simultaneously fixedly connected with the moving mechanism.

3. The hanger clamp for gasket zinc plating of claim 2, wherein the linkage assembly comprises:

the hanging rod is fixedly arranged in the middle of the top plate, a sliding sleeve is sleeved on the hanging rod, and the sliding sleeve can slide on the hanging rod;

and two ends of the hinge piece are respectively hinged with the sliding sleeve, the thread block and the sliding block and are used for pulling the thread block and the sliding block to synchronously move in opposite directions.

4. The stock clamp for galvanization of a gasket of claim 1, including:

the connecting frame is fixedly connected with the output end of the moving mechanism, and a frame body is fixedly arranged on the connecting frame;

the stop lever, its welding is in the framework both sides, the stop lever can set up a plurality of in order to satisfy a plurality of gasket hanging material demands.