CN215394854U - Clamp for producing power cable pipe with high Vicat softening point - Google Patents

Abstract

The utility model discloses a clamp for producing a high-dimensional softening point power cable pipe, which relates to the technical field of clamps and aims at solving the problem of inconvenience in use of the existing clamp. The clamping device is reasonable in structure, can be used for rapidly clamping the high-Vicat softening point power cable pipe, can be used for simply and conveniently adjusting the angle of the clamped high-Vicat softening point power cable pipe, can be used for simply and conveniently splitting and carrying the clamp, and is high in working performance and convenient to use.

Description

Clamp for producing power cable pipe with high Vicat softening point

Technical Field

The utility model relates to the technical field of clamps, in particular to a clamp for producing a power cable pipe with a high Vicat softening point.

Background

The power cable pipe is also called as a cable pipe, a cable protection pipe, a cement cable pipe, a power calandria, a power cable protection pipe and the like, and the high-Vicat softening point power cable pipe needs to be clamped by corresponding clamps in the using process, so that convenience is brought to users for using the power cable pipe.

Although the existing clamp can clamp the high-Vicat softening point power cable pipe, in the using process, the corresponding position is fixed mostly, the high-Vicat softening point power cable pipe can only be clamped singly, corresponding adjustment is flexibly carried out on the clamp according to the using requirement of a user, the use is inconvenient, and therefore the clamp for producing the high-Vicat softening point power cable pipe is provided.

SUMMERY OF THE UTILITY MODEL

The clamp for producing the power cable pipe with the high Vicat softening point provided by the utility model solves the problem of inconvenience in use of the clamp.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a clamp for producing a power cable pipe with a high Vicat softening point comprises a first mounting block and a second mounting block which is positioned on one side of the first mounting block, the first mounting block is provided with a connecting component for connecting a second mounting block, clamping blocks are arranged above the first mounting block and the second mounting block, the first mounting block and the second mounting block are both provided with adjusting components for fixing the positions of the corresponding clamping blocks, the sides of the first mounting block and the second mounting block which are deviated from each other are provided with supporting plates, the supporting plates positioned at one side of the mounting blocks are provided with rotating grooves, a rotating block is rotatably connected inside the rotating groove, a plurality of hydraulic rods are fixed on one side of the rotating block close to the first mounting block, the piston ends of the hydraulic rods are all fixed on the first mounting block, the first stepping motor is fixed on the support plate positioned on one side of the second mounting block, the output end of the first stepping motor is in transmission connection with a driving shaft, and the other end of the driving shaft is fixed to the second mounting block.

Preferably, the adjusting component comprises connecting plates hinged at two ends of the outer side of the clamping block, a connecting plate at the bottom of the clamping block above the mounting block I is fixed on the inner wall of the mounting block I, a connecting plate at the bottom of the clamping block above the mounting block II is fixed on the inner wall of the mounting block II, a second stepping motor is fixed at the top of each connecting plate at the bottom of the clamping block, the output ends of the second stepping motors are in transmission connection with lead screws, one ends of the lead screws, which are positioned in the first mounting block, far away from the second stepping motors are rotatably connected on the inner wall of the top of the first mounting block through bearings, one ends of the lead screws, which are positioned in the second mounting block, far away from the second stepping motors are rotatably connected on the inner wall of the top of the second mounting block through bearings, the outer wall of the screw rod is in threaded sleeve connection with a driving sleeve, and one end, far away from the clamping block, of the connecting plate at the top of the clamping block is hinged to the outer wall of the corresponding driving sleeve through hinges.

Preferably, the rotating groove is a circular groove, the rotating block is a circular block, and the hydraulic rod is rotatably connected inside the notch of the rotating groove.

Preferably, the connecting assembly comprises a guide plate fixed at the bottom of the mounting block II, a guide groove is formed in the bottom of the mounting block I, one end, far away from the mounting block II, of the guide plate is slidably connected inside the guide groove, a limiting frame is slidably connected inside the guide groove, the end part, located inside the guide groove, of the guide plate is provided with a loading groove, two ends, far away from the mounting block II, of the guide plate are both slidably connected with sliding blocks, a plurality of pushing springs are arranged inside the loading groove, two ends of each pushing spring are respectively fixed at opposite sides of two sliding blocks, one end, far away from the pushing springs, of each sliding block is fixedly provided with a positioning block which is in sliding fit with the notch of the loading groove, positioning grooves are formed in the inner walls at two ends of the limiting frame, one end, far away from the sliding blocks, of each positioning block is respectively slidably connected inside the corresponding positioning groove, and toggle grooves communicated with the loading grooves are formed in the two sides of the guide plate.

Preferably, the length of the guide slot is greater than that of the guide plate, and the depth of the loading slot is greater than that of the two positioning blocks.

Preferably, the clamping blocks are of arc structures, and spongy cushions are bonded on the inner walls of the clamping blocks.

In the utility model:

through installation piece one, installation piece two, the clamp splice, the backup pad, the connecting plate, second step motor, the lead screw, the drive cover, step motor one, the rotation groove, the turning block, the hydraulic stem, the deflector, the guide way, the restriction frame, load the groove, the sliding block, push spring, the locating piece, the constant head tank and the cooperation work of striking the groove, can be quick carry out the centre gripping to high-dimensional card softening point power cable pipe, thereby the person of facilitating the use carries out processing to high-dimensional card softening point power cable pipe, and can be according to user's processing demand, simple and convenient adjusts by the angle of the high-dimensional card softening point power cable pipe of centre gripping, high working property, and can be according to user's user demand, simple and convenient carries out the split to the anchor clamps, high durability and convenient use.

In conclusion, the clamping device is reasonable in structure, can be used for rapidly clamping the high-Vicat softening point power cable pipe, can be used for simply and conveniently adjusting the angle of the clamped high-Vicat softening point power cable pipe, can be used for simply and conveniently splitting and carrying the clamp, and is high in working performance and convenient to use.

Drawings

FIG. 1 is a schematic structural diagram of a fixture for producing a high Vicat softening point power cable pipe according to the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

fig. 3 is a side view of a support plate in the clamp for producing a high vicat softening point power cable pipe according to the present invention.

Reference numbers in the figures: 1. a first mounting block; 2. a second mounting block; 3. a clamping block; 4. a support plate; 5. a connecting plate; 6. a second stepping motor; 7. a screw rod; 8. a drive sleeve; 9. a first stepping motor; 10. a rotating groove; 11. rotating the block; 12. a hydraulic lever; 13. a guide plate; 14. a guide groove; 15. a limit frame; 16. a loading slot; 17. a slider; 18. a push spring; 19. positioning blocks; 20. positioning a groove; 21. the groove is toggled.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a fixture for producing a high-dimensional clamping softening point power cable pipe comprises a first installation block 1 and a second installation block 2 located on one side of the first installation block 1, wherein a connecting component for connecting the second installation block 2 is arranged on the first installation block 1, clamping blocks 3 are arranged above the first installation block 1 and the second installation block 2, adjusting components for fixing the positions of the corresponding clamping blocks 3 are arranged on the first installation block 1 and the second installation block 2, supporting plates 4 are arranged on the deviating sides of the first installation block 1 and the second installation block 2, a rotating groove 10 is arranged on the supporting plate 4 located on one side of the first installation block 1, a rotating block 11 is rotatably connected inside the rotating groove 10, a plurality of hydraulic rods 12 are fixed on one side of the rotating block 11 close to the first installation block 1, piston ends of the hydraulic rods 12 are fixed on the first installation block 1, a first stepping motor 9 is fixed on the supporting plate 4 located on one side of the second installation block 2, the output end transmission of step motor one 9 is connected with the drive shaft, the other end of drive shaft is fixed on installation piece two 2, adjusting part is including articulating the connecting plate 5 at 3 outside both ends of clamp splice, 3 bottom connecting plates 5 of clamp splice that lie in installation piece one 1 top are fixed on the inner wall of installation piece one 1, 3 bottom connecting plates 5 of clamp splice that lie in installation piece two 2 top are fixed on the inner wall of installation piece two 2, 5 tops of connecting plate that lie in 3 bottoms of clamp splice all are fixed with second step motor 6, second step motor 6 is the motor that just reverses.

The output ends of the second stepping motors 6 are in transmission connection with screw rods 7, one ends, far away from the second stepping motors 6, of the screw rods 7 in the first mounting block 1 are rotatably connected onto the inner wall of the top of the first mounting block 1 through bearings, one ends, far away from the second stepping motors 6, of the screw rods 7 in the second mounting block 2 are rotatably connected onto the inner wall of the top of the second mounting block 2 through bearings, driving sleeves 8 are sleeved on the outer wall of the screw rods 7 in a threaded manner, one ends, far away from the clamping blocks 3, of the connecting plates 5 at the top of the clamping blocks 3 are respectively hinged onto the outer walls of the corresponding driving sleeves 8 through hinges, when a user needs to clamp a high-Vicat softening-point power cable pipe, the clamp can be adjusted according to the size of the high-Vicat softening-point power cable pipe, and the piston end of the hydraulic rod 12 can be driven to displace to drive the first mounting block 1 to displace through the operation of the hydraulic rod 12, the clamping blocks 3 above the mounting block I1 are driven to displace, the distance between the two clamping blocks 3 can be adjusted at the moment, and after a user adjusts the distance between the two clamping blocks 3, the lead screw 7 can be driven to rotate through the operation of the second stepping motor 6 at the moment, the driving sleeve 8 is driven to vertically displace, the connecting plate 5 above the clamping blocks 3 is driven to deflect, the clamping blocks 3 are driven to deflect, after the tops of the two clamping blocks 3 are opened, the high-vicat softening-point power cable pipe can be placed between the two clamping blocks 3 at the moment, the lead screw 7 can be driven to rotate through the reverse operation of the second stepping motor 6 at the moment, the driving sleeve 8 is driven to vertically displace, the connecting plate 5 above the clamping blocks 3 is driven to deflect, the clamping blocks 3 are driven to deflect, when the inner walls of the tops of the two clamping blocks 3 are in contact with the high-vicat softening-vicat power cable pipe, at the moment, the high-Vicat softening point power cable pipe is clamped inside the clamp, and a user can conveniently process the high-Vicat softening point power cable pipe.

And when a user needs to adjust the angle of the high-Vicat softening point power cable pipe in the process of processing the high-Vicat softening point power cable pipe, the driving shaft is driven to rotate by the operation of the stepping motor I9, the mounting block II 2 and the mounting block I1 are driven to rotate, the two clamping blocks 3 are driven to rotate, the high-Vicat softening point power cable pipe between the two clamping blocks 3 is driven to rotate, and the user can adjust the corresponding angle of the high-Vicat softening point power cable pipe at the moment, so that the use is convenient.

The rotary groove 10 is a circular groove, the rotary block 11 is a circular block, the hydraulic rod 12 is rotatably connected inside the notch of the rotary groove 10, and the rotary block 11 and the rotary groove 10 are matched to work so that the hydraulic rod 12 can rotate.

The connecting assembly comprises a guide plate 13 fixed at the bottom of a mounting block II 2, a guide groove 14 is formed at the bottom of the mounting block I1, one end, far away from the mounting block II 2, of the guide plate 13 is connected inside the guide groove 14 in a sliding manner, a limiting frame 15 is connected inside the guide groove 14 in a sliding manner, the guide plate 13 is connected inside the limiting frame 15 in a sliding manner, a loading groove 16 is formed at the end part of the guide plate 13 positioned inside the guide groove 14, sliding blocks 17 are connected at two ends inside the loading groove 16 in a sliding manner, a plurality of pushing springs 18 are arranged inside the loading groove 16, two ends of each pushing spring 18 are respectively fixed at opposite sides of the two sliding blocks 17, a positioning block 19 which is matched with a groove opening of the loading groove 16 in a sliding manner and works is fixed at one end, far away from the sliding block 17, of the sliding block 17, positioning grooves 20 are formed in the inner walls at two ends of the limiting frame 15, and are respectively connected inside the corresponding positioning grooves 20 in a sliding manner, toggle grooves 21 communicated with the loading groove 16 are formed in two sides of the guide plate 13, and the mounting block I1 can be driven to rotate when the mounting block II 2 rotates through linkage of the guide plate 13 and the guide groove 14.

And when a user uses the clamp, the clamp needs to be transported, and when the first mounting block 1 and the second mounting block 2 need to be detached, the first mounting block 1 can be pulled to move through the operation of the hydraulic rod 12, when the toggle groove 21 on the guide plate 13 slides to the outside of the guide groove 14, the hydraulic rod 12 stops operating, the slide block 17 can be pressed through the toggle groove 21 to drive the slide block 17 to move, the positioning block 19 is driven to move, when the positioning block 19 is separated from the inside of the positioning groove 20, the hydraulic rod 12 continues to operate to drive the first mounting block 1 to move, when the guide plate 13 is separated from the limiting frame 15 and is separated from the inside of the guide groove 14, the first mounting block 1 and the second mounting block 2 are detached, and at this time, the user can conveniently transport the clamp.

The length of the guide groove 14 is longer than that of the guide plate 13, the depth of the loading groove 16 is longer than that of the two positioning blocks 19, and the guide plate 13 can be effectively accommodated by the guide groove 14 having a length longer than that of the guide plate 13.

The clamp splice 3 is the arc structure, and the inner wall of clamp splice 3 all bonds and has the foam-rubber cushion, through the foam-rubber cushion, can avoid clamp splice 3 high-dimensional card softening point power cable pipe injury to high-dimensional card softening point power cable pipe when the centre gripping, carries out effectual protection to high-dimensional card softening point power cable pipe.

The working principle is as follows: when a user needs to clamp the high-Vicat softening point power cable pipe, the piston end of the hydraulic rod 12 can be driven to displace through the operation of the hydraulic rod 12 at the moment, the mounting block I1 is driven to displace, the clamping block 3 positioned above the mounting block I1 is driven to displace, the distance between the two clamping blocks 3 can be adjusted at the moment, then the driving sleeve 8 can be driven to vertically displace through the operation of the second stepping motor 6, the clamping blocks 3 are driven to deflect, when the tops of the two clamping blocks 3 are opened, the high-Vicat softening point power cable pipe can be placed between the two clamping blocks 3, at the moment, the clamping blocks 3 can be driven to deflect through the reverse operation of the second stepping motor 6, when the inner walls of the tops of the two clamping blocks 3 are in contact with the high-Vicat softening point power cable pipe, the high-Vicat softening point power cable pipe is clamped inside the clamp at the moment, when a user needs to adjust the angle of the high-Vicat softening point power cable pipe, the high-Vicat softening point power cable pipe between the two clamping blocks 3 can be driven to rotate by the operation of the stepping motor I9, the user can adjust the corresponding angle of the high-Vicat softening point power cable pipe, the use is convenient, and when the user needs to disassemble the first mounting block 1 and the second mounting block 2, the first mounting block 1 can be pulled to displace through the operation of the hydraulic rod 12, when the toggle groove 21 on the guide plate 13 slides to the outside of the guide groove 14, the slide block 17 is pressed, when the positioning block 19 is disengaged from the inside of the positioning groove 20, the operation of the hydraulic rod 12 is continued, when the guide plate 13 is separated from the limiting frame 15, and after the clamp is separated from the interior of the guide groove 14, the first mounting block 1 and the second mounting block 2 are detached, and the user can conveniently transport the clamp.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The fixture for producing the power cable pipe with the high victory softening point comprises a first installation block (1) and a second installation block (2) located on one side of the first installation block (1), and is characterized in that a connecting assembly used for connecting the second installation block (2) is arranged on the first installation block (1), clamping blocks (3) are arranged above the first installation block (1) and the second installation block (2), adjusting assemblies used for fixing the positions of the corresponding clamping blocks (3) are arranged on the first installation block (1) and the second installation block (2), supporting plates (4) are arranged on the deviating sides of the first installation block (1) and the second installation block (2), a rotating groove (10) is formed in the supporting plate (4) located on one side of the first installation block (1), a rotating block (11) is rotatably connected inside the rotating groove (10), and a plurality of hydraulic rods (12) are fixed on one side of the rotating block (11) close to the first installation block (1), the piston end of the hydraulic rod (12) is fixed on the first mounting block (1), the first stepping motor (9) is fixed on the supporting plate (4) located on one side of the second mounting block (2), the output end of the first stepping motor (9) is in transmission connection with a driving shaft, and the other end of the driving shaft is fixed on the second mounting block (2).

2. The clamp for producing the power cable pipe with the high Vicat softening point according to claim 1, wherein the adjusting component comprises connecting plates (5) hinged at two ends of the outer side of the clamping block (3), the connecting plate (5) at the bottom of the clamping block (3) above the mounting block I (1) is fixed on the inner wall of the mounting block I (1), the connecting plate (5) at the bottom of the clamping block (3) above the mounting block II (2) is fixed on the inner wall of the mounting block II (2), the second stepping motors (6) are fixed at the tops of the connecting plates (5) at the bottom of the clamping block (3), the output ends of the second stepping motors (6) are in transmission connection with screw rods (7), one ends, far away from the second stepping motors (6), of the screw rods (7) in the mounting block I (1) are rotatably connected on the inner wall at the tops of the mounting block I (1) through bearings, one end, far away from the second stepping motor (6), of the screw rod (7) inside the second mounting block (2) is rotatably connected to the inner wall of the top of the second mounting block (2) through a bearing, a driving sleeve (8) is sleeved on the outer wall of the screw rod (7) in a threaded manner, and one end, far away from the clamping block (3), of the connecting plate (5) at the top of the clamping block (3) is hinged to the outer wall of the corresponding driving sleeve (8) through a hinge.

3. The clamp for producing the high Vicat softening point power cable tube according to claim 1, wherein the rotating groove (10) is a circular groove, the rotating block (11) is a circular block, and the hydraulic rod (12) is rotatably connected inside the notch of the rotating groove (10).

4. The clamp for producing the power cable pipe with the high Vicat softening point as claimed in claim 1, wherein the connecting assembly comprises a guide plate (13) fixed at the bottom of the second mounting block (2), the bottom of the first mounting block (1) is provided with a guide groove (14), one end of the guide plate (13) far away from the second mounting block (2) is slidably connected inside the guide groove (14), the inside of the guide groove (14) is slidably connected with a limiting frame (15), the guide plate (13) is slidably connected inside the limiting frame (15), the end of the guide plate (13) inside the guide groove (14) is provided with a loading groove (16), two ends inside the loading groove (16) are both slidably connected with sliding blocks (17), the inside of the loading groove (16) is provided with a plurality of pushing springs (18), two ends of the pushing springs (18) are respectively fixed at opposite sides of the two sliding blocks (17), one end of the sliding block (17) far away from the pushing spring (18) is fixed with a positioning block (19) which works in a sliding fit with a notch of the loading groove (16), positioning grooves (20) are formed in the inner walls of two ends of the limiting frame (15), one end of the positioning block (19) far away from the sliding block (17) is connected inside the corresponding positioning grooves (20) in a sliding mode, and toggle grooves (21) communicated with the loading groove (16) are formed in two sides of the guide plate (13).

5. The clamp for producing a high Vicat softening point power cable tube according to claim 4, characterized in that the length of the guide slot (14) is greater than the length of the guide plate (13), and the depth of the loading slot (16) is greater than the length of the two positioning blocks (19).

6. The clamp for producing the power cable pipe with the high Vicat softening point according to claim 1, wherein the clamping blocks (3) are all arc-shaped structures, and sponge pads are adhered to the inner walls of the clamping blocks (3).

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