CN220165067U - Nickel-based superalloy tubular product draw gear - Google Patents

Abstract

The utility model provides a nickel-based superalloy tubular product draw gear, including a plurality of locating plate group, the locating plate group includes two location curb plates, rotate between another location curb plate and install the bottom roller bearing, the roll track is all installed at the both sides top of a plurality of locating plate group, the multiaspect clamping mechanism is installed to the cooperation on the roll track, arbitrary side fixed mounting of a plurality of locating plate group has the bearing board, install actuating mechanism on the bearing board, realize the traction of nickel-based superalloy tubular product through multiaspect clamping mechanism's top board and cooperation bottom roller bearing, realize the side positioning of nickel-based superalloy tubular product through the side splint simultaneously, carry out the clamp fastening from four faces of nickel-based superalloy tubular product, prevent that the drunkenness from taking place for nickel-based superalloy tubular product, then drive multiaspect clamping mechanism through actuating mechanism and carry out the displacement, the displacement direction is fixed, traction release is even, the self gesture of nickel-based superalloy tubular product has been avoided and has been changed, and the traction efficiency and the security of nickel-based superalloy tubular product have been improved.

Description

Nickel-based superalloy tubular product draw gear

Technical Field

The utility model relates to the technical field of traction of nickel-based superalloy pipes, in particular to a traction device for nickel-based superalloy pipes.

Background

The nickel-based superalloy pipe can bear certain stress at 600-1200 ℃ and has oxidation resistance or corrosion resistance, and a traction device is required to carry out traction transfer on the position of the pipe in the production process of the nickel-based superalloy pipe, and then the next procedure is carried out.

The traction device of the nickel-based superalloy pipe in the prior art generally rolls on a roller platform and then carries out binding traction through tools such as traction ropes, but the mode has two technical problems that the optimization and the lifting are required, firstly, due to the particularity of the pipe, the position deviation and the movement easily occur on the rolling platform, and secondly, the traction force of the traction ropes is too concentrated, so that the nickel-based superalloy pipe is easy to change in posture, and the traction efficiency and the safety of the nickel-based superalloy pipe are affected by the movement.

Therefore, in order to solve the defects in the prior art, it is necessary to provide a nickel-based superalloy tube traction device to solve the defects in the prior art.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide a nickel-based superalloy pipe traction device, which realizes the traction of a nickel-based superalloy pipe through an upper pressing plate of a multi-surface clamping mechanism and a matched bottom roller, and simultaneously realizes the lateral positioning of the nickel-based superalloy pipe through a side clamping plate, so that the nickel-based superalloy pipe is clamped and fixed from four surfaces, the nickel-based superalloy pipe is prevented from moving, then the multi-surface clamping mechanism is driven by a driving mechanism to displace, the displacement direction is fixed, the traction force is uniformly released, the self-posture of the nickel-based superalloy pipe is prevented from changing, and the traction efficiency and the safety of the nickel-based superalloy pipe are improved.

The above object of the present utility model is achieved by the following means.

The nickel-based superalloy pipe traction device comprises a plurality of positioning plate groups, wherein each positioning plate group comprises two positioning side plates, a bottom rolling shaft is rotatably arranged between the other positioning side plates, rolling tracks are arranged at the tops of two sides of each positioning plate group, a multi-surface clamping mechanism is arranged on the rolling tracks in a matched mode, a bearing plate is fixedly arranged on any one side of each positioning plate group, a driving mechanism is arranged on each bearing plate, and the driving mechanism is fixedly connected with the multi-surface clamping mechanism;

the multi-face clamping mechanism comprises two supporting side plates, the lower part of each supporting side plate is matched with a rolling track through idler wheels, the supporting side plate close to one side of the driving mechanism is fixedly connected with the driving mechanism, the tops of the two supporting side plates are fixedly connected with each other through a transverse plate, a telescopic cylinder is fixedly installed on the transverse plate, the output end of the telescopic cylinder penetrates through the transverse plate and is fixedly provided with an upper pressing plate, the top of any one side of any one supporting side plate is fixedly provided with a first motor, the other supporting side plate on the corresponding side is provided with a first fixing block, the output end of the first motor is fixedly provided with a first screw rod, the other end of the first screw rod is rotatably installed on the first fixing block, and the first screw rod is spirally matched with and provided with two side clamping plates.

Specifically, the driving mechanism comprises a second motor, the second motor is fixedly arranged at any one end of the supporting plate, a second screw rod is fixedly arranged at the output end of the second motor, a second fixed block is arranged at the other end of the supporting plate, the other end of the second screw rod is rotatably arranged on the second fixed block, a connecting plate is spirally matched and arranged on the second screw rod, and the connecting plate is fixedly connected with the bottom of the supporting side plate corresponding to the position of the connecting plate.

Preferably, the spiral matching directions of the two side clamping plates and the first screw rod are opposite, and the bottom height of the side clamping plates is higher than the top height of the bottom rolling shaft.

Specifically, the telescopic cylinder is installed in the center of the transverse plate, and the output end of the telescopic cylinder is installed in the center of the upper pressing plate.

Further, limiting blocks are arranged at two ends of the rolling track.

According to the utility model, the traction of the nickel-based superalloy pipe is realized through the upper pressing plate of the multi-surface clamping mechanism and the bottom roller, and meanwhile, the lateral positioning of the nickel-based superalloy pipe is realized through the side clamping plates, the clamping and fixing are performed on four surfaces of the nickel-based superalloy pipe, so that the nickel-based superalloy pipe is prevented from moving, then the driving mechanism drives the multi-surface clamping mechanism to displace, the displacement direction is fixed, the traction force is uniformly released, the self-posture of the nickel-based superalloy pipe is prevented from changing, and the traction efficiency and the safety of the nickel-based superalloy pipe are improved.

Drawings

The utility model is further illustrated by the accompanying drawings, which are not to be construed as limiting the utility model in any way.

Fig. 1 is a schematic perspective view of a drawing device for drawing nickel-base superalloy tubes.

Fig. 2 is a schematic diagram of a front view of a multi-surface clamping mechanism of a nickel-based superalloy pipe traction device.

FIG. 3 is a schematic view of the installation of a locating plate set, rolling track and drive mechanism of a nickel-base superalloy tube traction device of the present utility model.

Fig. 4 is an enlarged schematic view of a drawing of a nickel-base superalloy pipe traction device according to the present utility model.

Fig. 5 is an enlarged schematic view of a nickel-base superalloy pipe pulling apparatus at B in accordance with the present utility model.

From fig. 1 to 5, it includes:

1. a positioning plate group;

11. positioning side plates, 12 and bottom rollers;

2. rolling the track;

3. a multi-face clamping mechanism;

31. a supporting side plate, 32, a roller, 33, a cross plate, 34, a telescopic cylinder, 35 and an upper pressing plate, 36, a first motor, 37, a first fixed block, 38, a first screw rod, 39 and a side clamping plate;

4. a bearing plate;

5. a driving mechanism;

51. the second motor, 52, the second screw rod, 53, the second fixed block, 54 and the connecting plate;

6. and a limiting block.

Detailed Description

The utility model will be further described with reference to the following examples.

Example 1.

As shown in fig. 1-5, a nickel-based superalloy pipe traction device comprises a plurality of locating plate groups 1, wherein each locating plate group 1 comprises two locating side plates 11, a bottom roller 12 is rotatably arranged between the other locating side plates 11, rolling tracks 2 are arranged at the tops of two sides of each locating plate group 1, a multi-face clamping mechanism 3 is arranged on each rolling track 2 in a matched mode, a supporting plate 4 is fixedly arranged on any one side of each locating plate group 1, a driving mechanism 5 is arranged on each supporting plate 4, and each driving mechanism 5 is fixedly connected with each multi-face clamping mechanism 3.

The utility model is used for traction and transfer of nickel-based superalloy pipes, and is fixedly arranged on the ground through positioning side plates 11, a bottom roller 12 is rotatably arranged between every two positioning side plates 11 to form a positioning plate group 1, rolling transportation of the nickel-based superalloy pipes is realized through a plurality of positioning plate groups 1, the plurality of positioning plate groups 1 are connected through a rolling track 2 at the top, simultaneously, a multi-surface clamping mechanism 3 is arranged on the rolling track 2 in a rolling way, the nickel-based superalloy pipes are supported and rolling-displaced through the bottom roller 12, then the top surface and the side surfaces of the nickel-based superalloy pipes are clamped and internally limited through the multi-surface clamping mechanism 3, and clamping friction force is formed between the bottom roller 12, so that rolling traction of the pipes is facilitated, and then the nickel-based superalloy pipes are driven to displace through a driving mechanism 5 with the multi-surface clamping mechanism 3.

The multi-face clamping mechanism 3 comprises two supporting side plates 31, the lower part of each supporting side plate 31 is matched with the rolling track 2 through a roller 32, the supporting side plate 31 close to one side of the driving mechanism 5 is fixedly connected with the driving mechanism 5, the tops of the two supporting side plates 31 are fixedly connected through a transverse plate 33, a telescopic air cylinder 34 is fixedly arranged on the transverse plate 33, the output end of the telescopic air cylinder 34 penetrates through the transverse plate 33 and is fixedly provided with an upper pressing plate 35, the top of any one side of any one supporting side plate 31 is fixedly provided with a first motor 36, the other supporting side plate 31 on the corresponding side is provided with a first fixed block 37, the output end of the first motor 36 is fixedly provided with a first screw rod 38, the other end of the first screw rod 38 is rotatably arranged on the first fixed block 37, and the first screw rod 38 is spirally matched with two side clamping plates 39.

The multiaspect clamping mechanism 3 is installed on two rolling tracks 2 through two supporting side plates 31 slidable, two gyro wheels 32 are installed to the supporting side plate 31 below, install respectively and roll in the both sides of rolling track 2, the diaphragm 33 that two supporting side plates 31 were installed through between realizes connecting, simultaneously fixed mounting telescopic cylinder 34 on the diaphragm 33, make telescopic cylinder 34's output pass diaphragm 33 downwards, drive the top board 35 of bottom and carry out the compaction to nickel base superalloy tubular product, then drive first lead screw 38 through the first motor 36 that supports the curb plate side and rotate, be equipped with the screw hole on two side splint 39 rather than the cooperation, make two side splint 39 press from both sides the side of nickel base superalloy tubular product, can be applicable to the nickel base superalloy tubular product of equidimension, then drive the displacement of supporting side plate 31 through actuating mechanism 5, realize the traction to nickel base superalloy tubular product.

The driving mechanism 5 comprises a second motor 51, the second motor 51 is fixedly arranged at any one end of the supporting plate 4, a second screw rod 52 is fixedly arranged at the output end of the second motor 51, a second fixing block 53 is arranged at the other end of the supporting plate 4, the other end of the second screw rod 52 is rotatably arranged on the second fixing block 53, a connecting plate 54 is spirally matched and arranged on the second screw rod 52, and the connecting plate 54 is fixedly connected with the bottom of the supporting side plate 31 corresponding to the position of the connecting plate.

The driving mechanism 5 drives the second screw rod 52 to rotate through the output of the second motor 51, then drives the connecting plate 54 which is matched with the screw rod to displace, the connecting plate 54 is fixedly connected with the bottom of the supporting side plate 31, and the supporting side plate 31 is driven to displace to pull the nickel-based superalloy pipe.

The screw fitting directions of the two side clamping plates 39 and the first screw rod 38 are opposite, and the bottom height of the side clamping plates 39 is higher than the top height of the bottom roller 12.

The two side clamping plates 39 can clamp and release the nickel-based superalloy tube by opposite displacement generated by the rotation of the first screw rod 38.

The telescopic cylinder 34 is installed at the center of the cross plate 33, and the output end of the telescopic cylinder 34 is installed at the center of the upper pressure plate 35.

The upper pressing plate 35 is driven by the telescopic air cylinder 34 to press the central position of the nickel-based superalloy pipe, so that the situation that the pressure action point and the contact point of the telescopic air cylinder 34 are not on the same vertical line is avoided, and the pressing efficiency is improved.

Limiting blocks 6 are arranged at two ends of the rolling track 2.

The limiting block 6 can prevent the multi-face clamping mechanism 3 from falling off the rolling track 2.

According to the utility model, the traction of the nickel-based superalloy pipe is realized through the upper pressing plate 35 of the multi-face clamping mechanism 3 and the bottom roller 12, and meanwhile, the lateral positioning of the nickel-based superalloy pipe is realized through the side clamping plates 39, the clamping and fixing are performed on four faces of the nickel-based superalloy pipe, the nickel-based superalloy pipe is prevented from moving, then the driving mechanism 5 drives the multi-face clamping mechanism 3 to displace, the displacement direction is fixed, the traction force is uniformly released, the self-posture of the nickel-based superalloy pipe is prevented from changing, and the traction efficiency and the safety of the nickel-based superalloy pipe are improved.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (5)

1. The utility model provides a nickel base superalloy tubular product draw gear which characterized in that: the positioning plate sets comprise two positioning side plates, bottom rolling shafts are rotatably arranged between the other positioning side plates, rolling tracks are arranged at the tops of two sides of the positioning plate sets, a multi-surface clamping mechanism is arranged on the rolling tracks in a matched mode, a bearing plate is fixedly arranged on any side of each positioning plate set, a driving mechanism is arranged on each bearing plate, and the driving mechanism is fixedly connected with the multi-surface clamping mechanism;

the multi-face clamping mechanism comprises two supporting side plates, each supporting side plate is matched with the rolling track through a roller, the supporting side plate close to one side of the driving mechanism is fixedly connected with the driving mechanism, the tops of the two supporting side plates are fixedly connected through a transverse plate, a telescopic cylinder is fixedly installed on the transverse plate, the output end of the telescopic cylinder penetrates through the transverse plate and is fixedly provided with an upper pressing plate, any one of the supporting side plates is fixedly provided with a first motor at the top of any side, the other supporting side plate at the corresponding side is provided with a first fixing block, the output end of the first motor is fixedly provided with a first screw rod, the other end of the first screw rod is rotatably installed on the first fixing block, and the first screw rod is spirally matched with two side clamping plates.

2. The nickel-base superalloy pipe pulling device as defined in claim 1, wherein: the driving mechanism comprises a second motor, the second motor is fixedly arranged at any one end of the supporting plate, a second screw rod is fixedly arranged at the output end of the second motor, a second fixing block is arranged at the other end of the supporting plate, the other end of the second screw rod is rotatably arranged on the second fixing block, a connecting plate is spirally matched and arranged on the second screw rod, and the connecting plate is fixedly connected with the bottom of the supporting side plate corresponding to the position of the connecting plate.

3. The nickel-base superalloy pipe pulling device as defined in claim 1, wherein: the spiral matching directions of the two side clamping plates and the first screw rod are opposite, and the bottom height of the side clamping plates is higher than the top height of the bottom rolling shaft.

4. The nickel-base superalloy pipe pulling device as defined in claim 1, wherein: the telescopic cylinder is installed in the center of the transverse plate, and the output end of the telescopic cylinder is installed in the center of the upper pressing plate.

5. The nickel-base superalloy pipe pulling device as defined in claim 1, wherein: limiting blocks are arranged at two ends of the rolling track.