CN219027474U - Workbench with positioning and guiding structure for compensating tube machining - Google Patents

Abstract

The utility model discloses a workbench with a positioning guide structure for processing a compensation tube, and relates to the field of processing of compensation tubes. The workbench with the positioning guide structure for the compensation tube processing can be used for installing the compensation tubes with most sizes in an adaptive manner, and can be used for adjusting the positions and the processing angles.

Description

Workbench with positioning and guiding structure for compensating tube machining

Technical Field

The utility model relates to the field of compensation tube processing, in particular to a workbench with a positioning guide structure for compensation tube processing.

Background

The compensator is also called a telescopic device or an expansion joint and an expansion joint, is mainly used for compensating expansion caused by temperature change of a pipeline, if the pipeline cannot be fully and freely expanded or contracted when the temperature changes, thermal stress is generated in the pipeline, the stress must be considered in the pipeline design, otherwise, the pipeline is possibly broken, normal production is influenced, the compensator plays an important role in ensuring long-term normal operation of the pipeline as an important component part of pipeline engineering, and when the existing compensator is processed, no better auxiliary structure is used for adjusting the position and angle of the existing compensator, so that the existing compensator is manually assisted, and the overall processing efficiency is lower.

Therefore, it is necessary to provide a workbench with a positioning guide structure for compensating tube processing to solve the above problems.

Disclosure of Invention

The utility model mainly aims to provide a workbench with a positioning guide structure for processing a compensation tube, which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the workbench with the positioning guide structure for the compensation tube machining comprises a workbench, wherein a chute is formed in the center of the top of the workbench, a first movable groove is formed in the center of the bottom of an inner cavity of the chute, a threaded column is rotationally connected in the center of the inner cavity of the first movable groove, a positioning guide assembly is movably connected to the top of the workbench, and positioning blocks are symmetrically and movably connected to the left side and the right side of the top of the positioning guide assembly;

the bottom of location direction subassembly fixedly connected with first axis of rotation, the bottom of first axis of rotation is through shaft coupling fixedly connected with third servo motor, the outer wall fixedly connected with protecting crust of third servo motor, the positive fixedly connected with movable block of protecting crust bottom, the back swing joint of workstation has feeding structure.

Preferably, the positive bottom fixedly connected with first servo motor of workstation, the back of first servo motor passes through first pivot fixed connection in the front of screw thread post, protecting crust swing joint is in the inner chamber of spout, movable block swing joint is in the inner chamber of first movable groove and threaded connection is at the outer wall of screw thread post.

Preferably, the left and right sides symmetry of protecting crust bottom rotates and is connected with the gyro wheel, two of bottom laminating spout inner chamber bottoms of gyro wheel, the centre fixedly connected with second servo motor on location direction subassembly right side, the second movable groove has been seted up at the centre at location direction subassembly top, the centre in second movable groove inner chamber rotates and is connected with two-way screw thread post, the left side of second servo motor passes through second pivot fixed connection in the right side of two-way screw thread post.

Preferably, the two positioning blocks are arc-shaped, one side of each positioning block, which is opposite to the other side, is symmetrically and fixedly connected with a support column, and the bottoms of the two support columns are symmetrically and movably connected to two sides of the inner cavity of the second movable groove and are in threaded connection with two sides of the outer wall of the bidirectional threaded column.

Preferably, the feeding structure is a cavity structure with the back and the top bottom communicated with the outside, a fourth servo motor is fixedly connected to the center of the right side of the feeding structure, a feeding roller is fixedly connected to the left side of the fourth servo motor through a third rotating shaft, and anti-skidding patterns are fixedly connected to the outer wall of the feeding roller.

Preferably, the positive centre fixedly connected with spliced pole of pay-off structure, the centre fixedly connected with fixing base at the workstation back, the fixing base is the cavity structure that back and left and right sides communicate with each other with the external world, fixedly connected with second axis of rotation in the inner chamber of fixing base, spliced pole swing joint is in the inner chamber of fixing base and rotates the outer wall of connection at the second axis of rotation.

Advantageous effects

Compared with the prior art, the utility model has the following beneficial effects:

1. this compensation tube processing is with workstation that has location guide structure through the second servo motor that starts the setting, can drive two-way screw thread post and rotate, can drive the locating piece of both sides and remove to opposite one side this moment to this can carry out the centre gripping with the compensation tube of placing between two locating pieces, with this completion to its location work.

2. This compensation pipe processing is with workstation that has location guide structure through the first servo motor that starts the setting, can drive the screw thread post and rotate, and the movable block can drive the protecting crust and carry out the back-and-forth movement this moment to this can drive the compensation pipe at location guide subassembly top and remove, through the third servo motor that starts the setting, makes first rotation axis can drive the compensation pipe at location guide subassembly top and rotate, can adjust the position and the angle of compensation pipe according to the processing demand this moment, so as to satisfy most processing demands.

3. This compensation pipe processing is with workstation that has location guide structure through the fourth servo motor that starts the setting, can drive the feed roll and advance to rotate to this can drive the compensation pipe of placing at the feed roll top and carry out the pay-off and remove the processing, through the antiskid line of setting, can increase its friction with the compensation pipe, can prevent that it from droing, through the second axis of rotation of setting, can adjust the position of feed roll according to the position of locating piece, with this relative effect of playing.

Drawings

FIG. 1 is a schematic view of the front face of the present utility model;

FIG. 2 is a schematic diagram of a first servomotor of the present utility model;

FIG. 3 is a schematic view of the positioning guide assembly of the present utility model;

fig. 4 is a schematic structural view of the feeding structure of the present utility model.

In the figure: 1. a work table; 2. a first servo motor; 3. a threaded column; 4. a chute; 5. a first movable groove; 6. positioning the guide assembly; 7. a second movable groove; 8. a bidirectional threaded column; 9. a second servo motor; 10. a protective shell; 11. a third servo motor; 12. a first rotation shaft; 13. a roller; 14. a movable block; 15. a positioning block; 16. a support column; 17. a feeding structure; 18. a feed roller; 19. anti-skid lines; 20. a fourth servo motor; 21. a connecting column; 22. a fixing seat; 23. and a second rotation shaft.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1-4, a workbench with a positioning guide structure for processing compensation pipes comprises a workbench 1, wherein a chute 4 is formed in the center of the top of the workbench 1, a first movable groove 5 is formed in the center of the bottom of an inner cavity of the chute 4, a threaded column 3 is rotatably connected in the center of the inner cavity of the first movable groove 5, a positioning guide component 6 is movably connected to the top of the workbench 1, positioning blocks 15 are symmetrically and movably connected to the left side and the right side of the top of the positioning guide component 6, a first rotating shaft 12 is fixedly connected to the bottom of the positioning guide component 6, a third servo motor 11 is fixedly connected to the bottom of the first rotating shaft 12 through a coupler, a protective shell 10 is fixedly connected to the outer wall of the third servo motor 11, a movable block 14 is fixedly connected to the center of the bottom of the protective shell 10, a feeding structure 17 is movably connected to the back of the workbench 1, a first servo motor 2 is fixedly connected to the bottom of the front surface of the workbench 1, the back of the first servo motor 2 is fixedly connected with the front of the threaded column 3 through a first rotating shaft, the protective shell 10 is movably connected in the inner cavity of the sliding groove 4, the movable block 14 is movably connected in the inner cavity of the first movable groove 5 and is in threaded connection with the outer wall of the threaded column 3, the left side and the right side of the bottom of the protective shell 10 are symmetrically and rotatably connected with the idler wheels 13, the bottoms of the idler wheels 13 are attached to the two bottoms of the inner cavity of the sliding groove 4, the right side of the positioning guide assembly 6 is fixedly connected with the second servo motor 9, the second movable groove 7 is formed in the middle of the top of the positioning guide assembly 6, the middle of the inner cavity of the second movable groove 7 is fixedly connected with the bidirectional threaded column 8 through a second rotating shaft, the left side of the second servo motor 9 is fixedly connected with the right side of the bidirectional threaded column 8 through a second rotating shaft, the two positioning blocks 15 are in circular arcs, one side of the two positioning blocks 15 opposite to each other is symmetrically and fixedly connected with the supporting columns 16, the bottoms of the two support columns 16 are symmetrically and movably connected at two sides of the inner cavity of the second movable groove 7 and are in threaded connection at two sides of the outer wall of the bidirectional threaded column 8, the feeding structure 17 is a cavity structure with the back surface and the top bottom communicated with the outside, the center of the right side of the feeding structure 17 is fixedly connected with a fourth servo motor 20, the left side of the fourth servo motor 20 is fixedly connected with a feeding roller 18 through a third rotating shaft, the outer wall of the feeding roller 18 is fixedly connected with an anti-skid pattern 19, the center of the front surface of the feeding structure 17 is fixedly connected with a connecting column 21, the center of the back surface of the workbench 1 is fixedly connected with a fixing seat 22, the fixing seat 22 is a cavity structure with the back surface and the left side and the right side communicated with the outside, the inner cavity of the fixing seat 22 is fixedly connected with a second rotating shaft 23, the connecting column 21 is movably connected in the inner cavity of the fixing seat 22 and is rotationally connected with the outer wall of the second rotating shaft 23, through starting the second servo motor 9, the two-way threaded column 8 can be driven to rotate, the positioning blocks 15 on two sides can be driven to move to the opposite sides at the moment, so that a compensation tube placed between the two positioning blocks 15 can be clamped, positioning work of the two positioning blocks can be completed, the threaded column 3 can be driven to rotate by starting the first servo motor 2, the movable block 14 can drive the protective shell 10 to move back and forth at the moment, the compensation tube at the top of the positioning guide assembly 6 can be driven to move, the first rotating shaft 12 can drive the compensation tube at the top of the positioning guide assembly 6 to rotate by starting the third servo motor 11, the position and the angle of the compensation tube can be adjusted according to processing requirements at the moment, most processing requirements can be met, the feeding roller 18 can be driven to rotate by starting the fourth servo motor 20, the compensation tube placed at the top of the feeding roller 18 can be driven to carry out feeding movement treatment, friction between the compensation tube and the compensation tube can be increased through the anti-skid stripes 19, the compensation tube can be prevented from falling off, and the position of the feeding roller 18 can be adjusted according to the position of the positioning block 15 through the second rotating shaft 23, so that the opposite effect is achieved.

It should be noted that the utility model is a workbench with a positioning guide structure for compensating tube processing, when in use, a compensating tube is placed in the middle of the top of a positioning guide assembly 6, a second servo motor 9 is started, a bidirectional threaded column 8 is driven to rotate in the inner cavity of a second movable groove 7, at the moment, the bottoms of two support columns 16 are in threaded connection with the outer wall of the bidirectional threaded column 8, so that two positioning blocks 15 are driven to move to opposite sides until the compensating tube is clamped, the position and the angle of the compensating tube are adjusted according to the use requirement, a first servo motor 2 is started, a threaded column 3 is driven to rotate in the inner cavity of the first movable groove 5, when the threaded column 3 rotates, a movable block 14 is in threaded connection with the outer wall of the movable block, so that a protective shell 10 is driven to move in the inner cavity of a sliding groove 4, two rollers 13 at the bottom of the protective shell 10 move at two sides of the inner cavity of the sliding groove 4, friction of the protective shell 10 is reduced, a third servo motor 11 is started, a first rotating shaft 12 can drive the positioning guide assembly 6 to rotate until the compensating tube is clamped, the angle of the compensating tube is adjusted according to the use requirement, a feeding roller 18 is driven to rotate, after the position of the compensating tube is adjusted, a feeding roller 18 is driven to rotate, and a feeding roller 18 is driven to rotate at the proper position, and a feeding roller 18 is driven to rotate, and after the back of the compensating roller is adjusted, and the feeding roller is driven to rotate, and the feeding roller is finished, and after the feeding roller is adjusted.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a compensation pipe processing is with workstation that has location guide structure, includes workstation (1), its characterized in that: a sliding groove (4) is formed in the center of the top of the workbench (1), a first movable groove (5) is formed in the center of the bottom of an inner cavity of the sliding groove (4), a threaded column (3) is rotatably connected with the center of the inner cavity of the first movable groove (5), a positioning guide assembly (6) is movably connected to the top of the workbench (1), and positioning blocks (15) are symmetrically and movably connected to the left side and the right side of the top of the positioning guide assembly (6);

the automatic feeding device is characterized in that a first rotating shaft (12) is fixedly connected to the bottom of the positioning guide assembly (6), a third servo motor (11) is fixedly connected to the bottom of the first rotating shaft (12) through a coupler, a protecting shell (10) is fixedly connected to the outer wall of the third servo motor (11), a movable block (14) is fixedly connected to the center of the bottom of the protecting shell (10), and a feeding structure (17) is movably connected to the back of the workbench (1).

2. A compensating tube tooling table with positioning guide structure as claimed in claim 1, wherein: the automatic feeding device is characterized in that a first servo motor (2) is fixedly connected to the bottom of the front face of the workbench (1), the back face of the first servo motor (2) is fixedly connected to the front face of the threaded column (3) through a first rotating shaft, the protecting shell (10) is movably connected to the inner cavity of the sliding groove (4), and the movable block (14) is movably connected to the inner cavity of the first movable groove (5) and is in threaded connection with the outer wall of the threaded column (3).

3. A compensating tube tooling table with positioning guide structure as claimed in claim 1, wherein: the left and right sides symmetry rotation of protecting crust (10) bottom is connected with gyro wheel (13), two of bottom laminating spout (4) inner chamber bottoms of gyro wheel (13), the positive fixedly connected with second servo motor (9) on location direction subassembly (6) right side, second movable groove (7) have been seted up in the positive at location direction subassembly (6) top, the positive rotation in second movable groove (7) inner chamber is connected with two-way screw thread post (8), the right side at two-way screw thread post (8) is passed through in the left side of second servo motor (9) through second pivot fixed connection.

4. A compensating tube tooling table with positioning guide structure as claimed in claim 1, wherein: the two positioning blocks (15) are arc-shaped, one side of each positioning block (15) opposite to the other side is symmetrically and fixedly connected with a supporting column (16), and the bottoms of the two supporting columns (16) are symmetrically and movably connected to two sides of an inner cavity of the second movable groove (7) and are in threaded connection with two sides of the outer wall of the bidirectional threaded column (8).

5. A compensating tube tooling table with positioning guide structure as claimed in claim 1, wherein: the feeding structure (17) is a cavity structure with the back and the top bottom communicated with the outside, a fourth servo motor (20) is fixedly connected to the center of the right side of the feeding structure (17), a feeding roller (18) is fixedly connected to the left side of the fourth servo motor (20) through a third rotating shaft, and anti-skidding lines (19) are fixedly connected to the outer wall of the feeding roller (18).

6. A compensating tube tooling table with positioning guide structure as claimed in claim 1, wherein: the feeding device is characterized in that a connecting column (21) is fixedly connected to the front center of the feeding structure (17), a fixing seat (22) is fixedly connected to the center of the back of the workbench (1), the fixing seat (22) is of a cavity structure with the back and the left side and the right side communicated with the outside, a second rotating shaft (23) is fixedly connected to the inner cavity of the fixing seat (22), and the connecting column (21) is movably connected to the inner cavity of the fixing seat (22) and is rotatably connected to the outer wall of the second rotating shaft (23).

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