CN213571920U - Anchor cable anchor withdrawing device with pre-installed staggered buckling type anchor withdrawing ring - Google Patents
Anchor cable anchor withdrawing device with pre-installed staggered buckling type anchor withdrawing ring Download PDFInfo
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- CN213571920U CN213571920U CN202022237205.5U CN202022237205U CN213571920U CN 213571920 U CN213571920 U CN 213571920U CN 202022237205 U CN202022237205 U CN 202022237205U CN 213571920 U CN213571920 U CN 213571920U
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- 239000011435 rock Substances 0.000 description 7
- 230000000149 penetrating effect Effects 0.000 description 6
- 238000001125 extrusion Methods 0.000 description 5
- 229910000831 Steel Inorganic materials 0.000 description 3
- 230000008602 contraction Effects 0.000 description 3
- 238000012986 modification Methods 0.000 description 3
- 230000004048 modification Effects 0.000 description 3
- 239000010959 steel Substances 0.000 description 3
- 238000005553 drilling Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
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- 229920005989 resin Polymers 0.000 description 1
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Abstract
The utility model discloses a pre-installation is crisscross to be buckled mutually and is moved back anchor rope of anchor ring and move back anchor device belongs to the ground tackle field, including the ring seat, the inside fixed mounting in ring seat left and right sides has the spacing groove, the inside movable mounting in spacing groove has the stopper, stopper outside fixed mounting has the spring, ring seat left side stopper upper end runs through spacing groove fixed mounting and has chuck A, ring seat right side stopper upper end runs through spacing groove fixed mounting and has chuck B, the inside fixed mounting in chuck B left end has the slot, chuck A right-hand member runs through the slot and pegs graft and has the picture peg, the inside fixed mounting in picture peg upper end has spiral shell groove A, the inside fixed mounting in slot upper end chuck B has spiral shell groove B, the inside commentaries on classics of spiral shell groove A and spiral shell groove B is. Through setting up embedded fixed knot structure, embedded sliding construction and elastic expansion structure, improved the practicality of moving back anchor device.
Description
Technical Field
The utility model relates to an ground tackle technical field especially relates to a pre-installation is crisscross to be buckled mutually and is moved back anchor rope of anchor ring and move back anchor device.
Background
The anchor cable is characterized in that when the main cable is anchored in a side hole in a suspension bridge, the main cable is divided into a plurality of steel bundles which are respectively anchored in an anchor ingot, and the steel bundles are called as the anchor cables. The anchor cable is a prestressed steel strand which is fixed on the slope surface through the outer end and passes through the sliding surface of the side slope in a stable rock body with the other end anchored in the sliding surface, so that the anti-sliding resistance is directly generated on the sliding surface, the anti-sliding friction resistance is increased, the structural surface is in a compression state, and the integrity of the rock body of the side slope is improved, thereby fundamentally improving the mechanical property of the rock body, effectively controlling the displacement of the rock body, promoting the stability of the rock body, and achieving the purpose of renovating bedding, sliding slope, dangerous rocks and dangerous rocks.
The patent CN201610058022.2 discloses a large-diameter mining anchor cable, which aims at the problems that if an anchor cable with the existing specification is matched, a handheld drilling machine is needed for drilling, the construction speed is slow, the labor intensity is high, the noise pollution is large, the operation difficulty is high, the construction potential safety hazard is large when people construct under an unsupported top plate, and through a hollow structure, rigid core pipes or rigid core rods are adopted at two ends, so that the cable body is ensured to be fastened by a rigging at the tail part of the cable body without shrinkage, and the upper end resin is reliably anchored; the flexible core pipe is adopted in the middle of the anchor cable, so that the anchor cable can be bent, a long anchor cable can be constructed in a narrow space, and the anchor cable is light in weight, low in cost and convenient to construct.
The anchor withdrawing device has the following defects: the anchor ring that moves back is not good to the fixed effect of anchor rope, leads to the anchor rope can become flexible, has reduced the practicality of moving back the anchor device, and the aforesaid moves back the anchor ring and moves back the process of anchor more complicated, and the power consumption consuming time has reduced the practicality of moving back the anchor device to the anchor rope.
SUMMERY OF THE UTILITY MODEL
The utility model provides an anchor cable withdrawing device of a preassembled staggered buckling type withdrawing anchor ring, which aims to adopt an elastic expansion structure, an embedded sliding structure and an embedded fixing structure, when the anchor cable is required to be fixed, a chuck A and a chuck B are respectively pulled to move outwards by hands to drive a limiting block fixedly arranged at the lower side to move outwards in a limiting groove, the limiting block moves outwards to extrude a spring, the spring is extruded and deformed by extrusion and contraction to convert kinetic energy into elastic potential energy, the anchor cable is aligned with a through groove A to penetrate downwards to be inserted, the tensile force to the chuck A and the chuck B is loosened, the spring converts the elastic potential energy into the kinetic energy to push the limiting block inwards, the limiting block drives the chuck A and the chuck B to move towards the center simultaneously, a plug board is inserted into the inside of a slot, the screw groove A is aligned with the screw groove B, the screw groove B is rotated downwards by the bolt A, the bolt A is mutually meshed with the screw thread cut on the outer wall, the bolt A is rotated to enter the thread groove A and the thread groove B, the firm fixation of the chuck A and the chuck B is completed, the through groove B at the center of the auxiliary disc is aligned to the lower side of the anchor rope to push the auxiliary disc upwards, the thread groove C is aligned to the thread groove D, the bolt B is aligned to the thread groove C, threads cut on the outer wall of the bolt B are meshed with threads cut on the inner walls of the thread groove C and the thread groove D, the bolt B rotates and moves upwards in the thread groove C and the thread groove D, the auxiliary disc clamps the anchor rope again, when the anchor rope needs to be pulled out, the bolt B only needs to be manually rotated downwards to be taken out from the thread groove C and the thread groove D, the auxiliary disc is pulled downwards, meanwhile, the bolt A rotates upwards to be taken out from the thread groove A and the thread groove B, the chuck A and the chuck B are pulled outwards to move outwards, the anchor rope is directly pulled upwards to be taken out from the through groove A, the anchor withdrawing, the practicability of the anchor withdrawing device is improved.
The utility model provides a specific technical scheme as follows:
the utility model provides a pre-assembling staggered mutually buckled anchor cable withdrawing device of an anchor ring, which comprises a ring seat, wherein limiting grooves are fixedly arranged inside the left side and the right side of the ring seat, limiting blocks are movably arranged inside the limiting grooves, springs are fixedly arranged outside the limiting blocks, a chuck A is fixedly arranged at the upper end of the limiting block on the left side of the ring seat in a penetrating way through the limiting grooves, a chuck B is fixedly arranged at the upper end of the limiting block on the right side of the ring seat in a penetrating way through the limiting grooves, a slot is fixedly arranged inside the left end of the chuck B, a plug board is inserted into the right end of the chuck A in a penetrating way through the slot, a thread groove A is fixedly arranged inside the upper end of the plug board, a thread groove B is fixedly arranged inside the chuck B on the upper end of the slot, a bolt A is rotatably arranged inside the thread groove A and the thread groove B, a through groove A is fixedly arranged, the anchor plate is characterized in that a thread groove D is fixedly mounted inside the lower ends of the left side and the right side of the ring seat, a bolt B is mounted inside the thread groove C and the thread groove D in a rotating mode, a through groove B is fixedly mounted inside the center of the auxiliary plate, and anchor cables are inserted inside the through groove A and the through groove B.
Optionally, the size of the limiting block is matched with the size of the limiting groove to form an embedded sliding structure.
Optionally, the outer end of the limiting block is fixedly connected with one end of the spring, and the other end of the spring is fixedly connected with the inner wall of the limiting groove to form an elastic telescopic structure.
Optionally, the size of the slot is matched with the size of the slot to form an embedded fixing structure.
Optionally, the outer wall of the bolt B is provided with threads which are mutually meshed with the threads on the inner walls of the thread groove C and the thread groove D to form a rotating structure.
The utility model has the advantages as follows:
the embodiment of the utility model provides an anchor cable that anchor ring was moved back to pre-installation crisscross looks knot formula moves back anchor device, through elastic expansion structure, embedded sliding structure and embedded fixed knot structure, when needs fixed the anchor cable, manual to both sides pulling chuck A and chuck B respectively to the outside side and move and drive the stopper of downside fixed mounting outwards in the spacing groove, the stopper moves extrusion spring outwards, the spring receives extrusion contraction deformation and converts kinetic energy into elastic potential energy, align anchor cable to logical groove A and run through the insertion downwards, loosen the pulling force to chuck A and chuck B, the spring converts elastic potential energy into kinetic energy and pushes the stopper inwards, the stopper drives chuck A and chuck B to move to the center simultaneously, make the picture peg inject the inside the slot, make spiral groove A and spiral groove B align, use bolt A to live spiral groove B and rotate downwards, bolt A is through outer wall cutting screw thread and spiral groove A and spiral groove B inner wall cutting screw thread intermeshing, the bolt A is rotated to enter the thread groove A and the thread groove B, the firm fixation of the chuck A and the chuck B is completed, the through groove B at the center of the auxiliary disc is aligned to the lower side of the anchor rope to push the auxiliary disc upwards, the thread groove C is aligned to the thread groove D, the bolt B is aligned to the thread groove C, threads cut on the outer wall of the bolt B are meshed with threads cut on the inner walls of the thread groove C and the thread groove D, the bolt B rotates and moves upwards in the thread groove C and the thread groove D, the auxiliary disc clamps the anchor rope again, when the anchor rope needs to be pulled out, the bolt B only needs to be manually rotated downwards to be taken out from the thread groove C and the thread groove D, the auxiliary disc is pulled downwards, meanwhile, the bolt A rotates upwards to be taken out from the thread groove A and the thread groove B, the chuck A and the chuck B are pulled outwards to move outwards, the anchor rope is directly pulled upwards to be taken out from the through groove A, the anchor withdrawing, the practicability of the anchor withdrawing device is improved.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
Fig. 1 is a schematic front view of a cross-sectional structure of an anchor cable withdrawing device pre-assembled with staggered and buckled anchor withdrawing rings according to an embodiment of the present invention;
fig. 2 shows that the anchor cable of the anchor ring is moved back to pre-installation staggered buckling type anchor cable device
The partial enlarged structure of A in FIG. 1 is schematically shown;
fig. 3 is a schematic view of a local overlooking structure of an anchor cable withdrawing device of a preassembled staggered buckling type anchor withdrawing ring.
In the figure: 1. a ring seat; 2. a limiting groove; 3. a limiting block; 4. a spring; 5. a chuck A; 6. a chuck B; 7. a slot; 8. inserting plates; 9. a thread groove A; 10. a thread groove B; 11. a bolt A; 12. a through groove A; 13. an anchor cable; 14. an auxiliary disc; 15. a through groove B; 16. screw grooves C, 17 and a screw groove D; 18. and B, a bolt B.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
The anchor cable withdrawing device of the embodiment of the present invention, which is pre-assembled with the staggered buckle type withdrawing anchor ring, will be described in detail with reference to fig. 1 to 3.
Referring to fig. 1, 2 and 3, an anchor cable withdrawing device of a preassembled staggered buckling type anchor withdrawing ring provided by the embodiment of the present invention comprises a ring seat 1, limiting grooves 2 are fixedly installed inside the left and right sides of the ring seat 1, limiting blocks 3 are movably installed inside the limiting grooves 2, springs 4 are fixedly installed outside the limiting blocks 3, a chuck A5 is fixedly installed at the upper end of the limiting groove 2 penetrating the upper end of the limiting block 3 at the left side of the ring seat 1, a chuck B6 is fixedly installed at the upper end of the limiting groove 2 penetrating the upper end of the limiting groove 3 at the right side of the ring seat 1, a slot 7 is fixedly installed inside the left end of the chuck B6, a plug plate 8 is inserted into the slot 7 penetrating the right end of the chuck A5, a groove a9 is fixedly installed inside the upper end of the plug plate 8, a groove B10 is fixedly installed inside the chuck B6 at the upper end of the slot 7, a bolt a11 is rotatably installed inside the slot a9 and the slot B10, a through, the inside fixed mounting in the left and right sides of auxiliary plate 14 has spiral groove C16, and the inside fixed mounting in the left and right sides lower extreme of ring seat 1 has spiral groove D17, and the inside commentaries on classics of spiral groove C16 and spiral groove D17 is equipped with bolt B18, and the inside fixed mounting in auxiliary plate 14 center has logical groove B15, and logical groove A12 and the inside cartridge of logical groove B15 have anchor rope 13.
Referring to fig. 1, the size of the stopper 3 is matched with the size of the stopper groove 2 to form an embedded sliding structure, when the anchor cable 13 needs to be fixed, the chuck a5 and the chuck B6 are respectively pulled to move outwards by hand to drive the stopper 3 fixedly mounted at the lower side to move outwards in the stopper groove 2, the stopper 3 moves outwards to press the spring 4, the spring 4 is compressed and deformed to convert kinetic energy into elastic potential energy, the anchor cable 13 is inserted downwards through the through groove a12, the pulling force to the chuck a5 and the chuck B6 is released, the spring 4 converts the elastic potential energy into kinetic energy to push the stopper 3 inwards, the stopper 3 drives the chuck a5 and the chuck B6 to move inwards simultaneously, the inserting plate 8 is inserted into the slot 7 to align the screw groove a9 and the screw groove B10, the screw groove B10 rotates downwards by using the screw a11, the screw a11 is engaged with the screw thread cut on the inner walls of the screw groove a9 and the screw groove B10 by the outer wall, the bolt A11 is rotated into a screw groove A9 and a screw groove B10 to complete the firm fixation of the chuck A5 and the chuck B6, the auxiliary disc 14 is pushed upwards by aligning a through groove B15 at the center of the auxiliary disc 14 with the lower side of the anchor cable 13, the screw groove C16 and the screw groove D17 are aligned, the bolt B18 is aligned with the screw groove C16, the bolt B18 is meshed with the screw grooves C16 and D17 by cutting threads on the inner wall of the screw groove C16 and the screw groove D17 by cutting threads on the outer wall, the bolt B18 is rotated upwards in the screw groove C16 and the screw groove D17, so that the auxiliary disc 14 clamps the anchor cable 13 again, when the anchor cable 13 needs to be extracted, the bolt B18 is manually rotated downwards to be extracted from the screw grooves C16 and D17 by moving downwards, the auxiliary disc 14 is pulled downwards, and the bolt A11 is rotated upwards to extract the anchor cable from the screw groove A9 and the screw groove B10 by pulling outwards to pull the chuck 6 to directly withdraw the anchor cable 12, time and labor are saved, and the practicability of the anchor withdrawing device is improved.
Referring to fig. 1, the outer end of the limiting block 3 is fixedly connected with one end of a spring 4, the other end of the spring 4 is fixedly connected with the inner wall of a limiting groove 2 to form an elastic telescopic structure, when an anchor cable 13 needs to be fixed, a chuck A5 and a chuck B6 are respectively pulled to the two sides by hand to move outwards to drive the limiting block 3 fixedly installed at the lower side to move outwards in the limiting groove 2, the limiting block 3 moves outwards to press the spring 4, the spring 4 is compressed and deformed to convert kinetic energy into elastic potential energy, the anchor cable 13 is aligned with a through groove a12 to be inserted downwards, the pulling force on the chuck A5 and the chuck B6 is released, the spring 4 converts the elastic potential energy into kinetic energy to push the limiting block 3 inwards, the limiting block 3 drives the chuck A5 and the chuck B6 to move towards the center simultaneously, so that an inserting plate 8 is inserted into the inside of a slot 7, the through groove a9 and a B10 are aligned, the through a11, the through a bolt a11, the bolt a is engaged with the outer wall of, the bolt A11 is rotated into a screw groove A9 and a screw groove B10 to complete the firm fixation of the chuck A5 and the chuck B6, the auxiliary disc 14 is pushed upwards by aligning a through groove B15 at the center of the auxiliary disc 14 with the lower side of the anchor cable 13, the screw groove C16 and the screw groove D17 are aligned, the bolt B18 is aligned with the screw groove C16, the bolt B18 is meshed with the screw grooves C16 and D17 by cutting threads on the inner wall of the screw groove C16 and the screw groove D17 by cutting threads on the outer wall, the bolt B18 is rotated upwards in the screw groove C16 and the screw groove D17, so that the auxiliary disc 14 clamps the anchor cable 13 again, when the anchor cable 13 needs to be extracted, the bolt B18 is manually rotated downwards to be extracted from the screw grooves C16 and D17 by moving downwards, the auxiliary disc 14 is pulled downwards, and the bolt A11 is rotated upwards to extract the anchor cable from the screw groove A9 and the screw groove B10 by pulling outwards to pull the chuck 6 to directly withdraw the anchor cable 12, time and labor are saved, and the practicability of the anchor withdrawing device is improved.
Referring to fig. 2 and 3, the size of the slot 7 and the size of the insert plate 8 are matched with each other to form an embedded fixing structure, when the anchor cable 13 needs to be fixed, the chuck a5 and the chuck B6 are respectively pulled to move outwards by hand to drive the stopper 3 fixedly installed at the lower side to move outwards in the stopper groove 2, the stopper 3 moves outwards to press the spring 4, the spring 4 is compressed and deformed to convert kinetic energy into elastic potential energy, the anchor cable 13 is inserted downwards by aligning with the through groove a12, the pulling force to the chuck a5 and the chuck B6 is released, the spring 4 converts the elastic potential energy into kinetic energy to push the stopper 3 inwards, the stopper 3 drives the chuck a5 and the chuck B6 to move inwards simultaneously, the insert plate 8 is inserted into the slot 7, the screw groove a9 and the screw groove B10 are aligned, the screw groove B10 is rotated downwards by using the bolt a11, the bolt a11 is engaged with the screw thread cut on the inner wall of the screw groove a9 and the screw groove B10, the bolt A11 is rotated into a screw groove A9 and a screw groove B10 to complete the firm fixation of the chuck A5 and the chuck B6, the auxiliary disc 14 is pushed upwards by aligning a through groove B15 at the center of the auxiliary disc 14 with the lower side of the anchor cable 13, the screw groove C16 and the screw groove D17 are aligned, the bolt B18 is aligned with the screw groove C16, the bolt B18 is meshed with the screw grooves C16 and D17 by cutting threads on the inner wall of the screw groove C16 and the screw groove D17 by cutting threads on the outer wall, the bolt B18 is rotated upwards in the screw groove C16 and the screw groove D17, so that the auxiliary disc 14 clamps the anchor cable 13 again, when the anchor cable 13 needs to be extracted, the bolt B18 is manually rotated downwards to be extracted from the screw grooves C16 and D17 by moving downwards, the auxiliary disc 14 is pulled downwards, and the bolt A11 is rotated upwards to extract the anchor cable from the screw groove A9 and the screw groove B10 by pulling outwards to pull the chuck 6 to directly withdraw the anchor cable 12, time and labor are saved, and the practicability of the anchor withdrawing device is improved.
Referring to fig. 1, when the anchor cable 13 needs to be fixed, the chuck a5 and the chuck B6 are manually pulled to both sides to move outwards to drive the stopper 3 fixedly installed on the lower side to move outwards in the stopper groove 2, the stopper 3 moves outwards to press the spring 4, the spring 4 is compressed and deformed to convert kinetic energy into elastic potential energy, the anchor cable 13 is aligned with the through groove a12 to be inserted downwards, the pulling force on the chuck a5 and the chuck B6 is released, the spring 4 converts the elastic potential energy into kinetic energy to push the stopper 3 inwards, the stopper 3 drives the chuck a5 and the chuck B6 to move towards the center simultaneously, the inserting plate 8 is inserted into the slot 7 to align the screw groove a9 with the screw groove B10, the screw groove B10 is rotated downwards by using the bolt a11, and the bolt a11 is engaged with the screw groove a9 and the screw groove B10, the bolt A11 is rotated into a screw groove A9 and a screw groove B10 to complete the firm fixation of the chuck A5 and the chuck B6, the auxiliary disc 14 is pushed upwards by aligning a through groove B15 at the center of the auxiliary disc 14 with the lower side of the anchor cable 13, the screw groove C16 and the screw groove D17 are aligned, the bolt B18 is aligned with the screw groove C16, the bolt B18 is meshed with the screw grooves C16 and D17 by cutting threads on the inner wall of the screw groove C16 and the screw groove D17 by cutting threads on the outer wall, the bolt B18 is rotated upwards in the screw groove C16 and the screw groove D17, so that the auxiliary disc 14 clamps the anchor cable 13 again, when the anchor cable 13 needs to be extracted, the bolt B18 is manually rotated downwards to be extracted from the screw grooves C16 and D17 by moving downwards, the auxiliary disc 14 is pulled downwards, and the bolt A11 is rotated upwards to extract the anchor cable from the screw groove A9 and the screw groove B10 by pulling outwards to pull the chuck 6 to directly withdraw the anchor cable 12, time and labor are saved, and the practicability of the anchor withdrawing device is improved.
The embodiment of the utility model provides a pre-installation is crisscross to be buckled mutually and is moved anchor rope that moves back anchor ring and move back anchor device, when needs are fixed anchor rope 13, manual drawing chuck A5 and chuck B6 outwards respectively to both sides and moving and drive stopper 3 of downside fixed mounting outwards at spacing groove 2, stopper 3 outwards moves extrusion spring 4, spring 4 receives extrusion contraction deformation and converts kinetic energy into elastic potential energy, aim at anchor rope 13 and pass through the insertion downwards through logical groove A12, loosen the pulling force to chuck A5 and chuck B6, spring 4 converts elastic potential energy into kinetic energy and inwards promotes stopper 3, stopper 3 drives chuck A5 and chuck B6 and moves to the center simultaneously, make picture peg 8 inject inside slot 7, make spiral groove A9 and spiral groove B10 align, use bolt A11 to live spiral groove B10 and rotate downwards, bolt A11 has the screw thread through the outer wall to be cut into screw thread and has screw groove A9 and spiral groove B10 inner wall to cut and have screw thread intermeshing, bolt A11 is rotated to enter a thread groove A9 and a thread groove B10, so that the chuck A5 and the chuck B6 are firmly fixed, a through groove B15 at the center of an auxiliary disc 14 is aligned with the lower side of an anchor rope 13 to push the auxiliary disc 14 upwards, so that a thread groove C16 is aligned with a thread groove D17, bolt B18 is aligned with a thread groove C16, bolt B18 is meshed with thread grooves C16 and thread grooves D17 through threads cut on the outer wall, bolt B18 rotates in the thread groove C16 and the thread groove D17 to move upwards, so that the auxiliary disc 14 clamps the cable 13 again, when the cable 13 needs to be pulled out, the bolt B18 is manually turned downwards to be moved downwards and taken out from the groove C16 and the groove D17, the auxiliary disc 14 is pulled downwards, meanwhile, the bolt A11 is rotated upwards from the thread groove A9 and the thread groove B10 to be taken out, the chuck A5 and the chuck B6 are pulled outwards to move outwards, and the anchor cable 13 is directly pulled upwards to be taken out from the through groove A12 to finish the anchor withdrawing process.
It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (5)
1. The anchor cable that anchor ring was moved back to crisscross formula of preassembleing moves back anchor device, its characterized in that, move back anchor device and include ring seat (1), the inside fixed mounting in the left and right sides of ring seat (1) has spacing groove (2), the inside movable mounting in spacing groove (2) has stopper (3), stopper (3) outside fixed mounting has spring (4), ring seat (1) left side stopper (3) upper end is run through spacing groove (2) fixed mounting and is had chuck A (5), ring seat (1) right side stopper (3) upper end is run through spacing groove (2) fixed mounting and is had chuck B (6), the inside fixed mounting in chuck B (6) left end has slot (7), chuck A (5) right-hand member runs through slot (7) and pegs graft and has picture peg (8), the inside fixed mounting in picture peg (8) upper end has spiral shell groove A (9), the inside fixed mounting in chuck B (6) has spiral shell groove B (10) slot (7), the bolt A (11) is equipped with in the inside commentaries on classics of spiral shell groove A (9) and spiral shell groove B (10), ring seat (1) center inside fixed mounting has logical groove A (12), ring seat (1) downside outer wall has auxiliary disc (14), the inside fixed mounting of auxiliary disc (14) left and right sides has spiral shell groove C (16), the inside fixed mounting of ring seat (1) left and right sides lower extreme has spiral shell groove D (17), spiral shell groove C (16) and spiral shell groove D (17) inside commentaries on classics are equipped with bolt B (18), auxiliary disc (14) center inside fixed mounting has logical groove B (15), it has anchor rope (13) to lead to groove A (12) and lead to the inside cartridge of groove B (15).
2. The anchor cable withdrawing device of the preassembled staggered buckling type anchor withdrawing ring as claimed in claim 1, wherein the size of the limiting block (3) is matched with the size of the limiting groove (2) to form an embedded sliding structure.
3. The anchor cable withdrawing device of the preassembled staggered buckling type anchor withdrawing ring as claimed in claim 1, wherein an outer end of the limiting block (3) is fixedly connected with one end of the spring (4), and the other end of the spring (4) is fixedly connected with an inner wall of the limiting groove (2) to form an elastic telescopic structure.
4. The anchor cable withdrawing device of the preassembled staggered and buckled anchor withdrawing ring as claimed in claim 1, wherein the size of the slot (7) and the size of the insertion plate (8) are matched with each other to form an embedded fixing structure.
5. The anchor rope withdrawing device of the pre-assembled staggered and buckled anchor withdrawing ring as claimed in claim 1, wherein the outer wall of the bolt B (18) is threaded to engage with the inner wall of the thread groove C (16) and the inner wall of the thread groove D (17) to form a rotating structure.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022237205.5U CN213571920U (en) | 2020-10-10 | 2020-10-10 | Anchor cable anchor withdrawing device with pre-installed staggered buckling type anchor withdrawing ring |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022237205.5U CN213571920U (en) | 2020-10-10 | 2020-10-10 | Anchor cable anchor withdrawing device with pre-installed staggered buckling type anchor withdrawing ring |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN213571920U true CN213571920U (en) | 2021-06-29 |
Family
ID=76581292
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202022237205.5U Expired - Fee Related CN213571920U (en) | 2020-10-10 | 2020-10-10 | Anchor cable anchor withdrawing device with pre-installed staggered buckling type anchor withdrawing ring |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN213571920U (en) |
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2020
- 2020-10-10 CN CN202022237205.5U patent/CN213571920U/en not_active Expired - Fee Related
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Granted publication date: 20210629 |