CN214993816U - Prestressed anchorage cable steel strand wires retrieves mechanism - Google Patents
Prestressed anchorage cable steel strand wires retrieves mechanism Download PDFInfo
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- CN214993816U CN214993816U CN202120244660.XU CN202120244660U CN214993816U CN 214993816 U CN214993816 U CN 214993816U CN 202120244660 U CN202120244660 U CN 202120244660U CN 214993816 U CN214993816 U CN 214993816U
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- 229910000831 Steel Inorganic materials 0.000 title claims abstract description 265
- 239000010959 steel Substances 0.000 title claims abstract description 265
- 230000007246 mechanism Effects 0.000 title claims abstract description 26
- 238000011084 recovery Methods 0.000 claims abstract description 17
- 238000007906 compression Methods 0.000 claims abstract description 4
- 238000004064 recycling Methods 0.000 claims description 9
- 238000000034 method Methods 0.000 description 12
- 238000004873 anchoring Methods 0.000 description 9
- 238000006073 displacement reaction Methods 0.000 description 7
- 230000009471 action Effects 0.000 description 5
- 238000010276 construction Methods 0.000 description 5
- 230000008569 process Effects 0.000 description 5
- 239000000463 material Substances 0.000 description 4
- 239000011435 rock Substances 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 230000000149 penetrating effect Effects 0.000 description 3
- 238000006243 chemical reaction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 229910001294 Reinforcing steel Inorganic materials 0.000 description 1
- 230000002411 adverse Effects 0.000 description 1
- 239000004568 cement Substances 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 150000001875 compounds Chemical class 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000004519 grease Substances 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000004806 packaging method and process Methods 0.000 description 1
- 230000001681 protective effect Effects 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
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Abstract
The utility model belongs to the geotechnical engineering field specifically discloses a prestressed anchorage cable steel strand wires recovery mechanism. The steel strand recovery mechanism for the prestressed anchor cable comprises a steel strand sheath, an anchor seat, a steel strand clamp, a clamp position controller and a waterproof cap, wherein the steel strand sheath is sleeved on the outer side of a steel strand; the wire clamp position controller comprises a position controller main body provided with a groove with an upward opening; the upper end of the position controller main body is connected with the lower end of the steel strand clamp, and the lower end of the position controller main body is connected with the upper end of the spring; the spring is positioned in the waterproof cap, and the bottom of the spring is in contact with the bottom of the waterproof cap; when the waterproof cap is installed in place, the spring is in a micro-compression state; and the lower end of the steel strand penetrates through the cavity of the steel strand clamp and then abuts against the inner groove of the clamp position controller. The utility model discloses do not need special recovery instrument, only need give an axial knocking force of steel strand wires, do not need rotatory power, can remove the locking of steel strand wires fastener to steel strand wires to reach the purpose of unblock.
Description
Technical Field
The utility model relates to a geotechnical engineering technical field, concretely relates to prestressed anchorage cable steel strand wires recovery mechanism.
Background
The prestressed anchor cable is anchored, namely, a drill hole penetrates through a soft rock stratum or a sliding surface, one end of the anchor cable is anchored in a stable body outside a hard rock stratum or the sliding surface through an anchoring section (an inner anchor head), the other end of the anchor cable is provided with a free section (a steel strand is not bonded with a bonding material) with a certain length, the end part of the anchor cable is tensioned and locked through an anchorage device (an outer anchor head), and therefore a certain pulling force is applied to the rock stratum in advance, and an unstable rock body or a sliding body is anchored. The device is called a prestressed anchor cable device, and the method for anchoring by adopting the device is called a prestressed anchor cable anchoring method.
In foundation pit support, particularly in deep foundation pit support engineering, a prestressed anchor cable device is often adopted as an important part of a temporary support system. In the foundation pit support of temporary facilities, the steel stranded wires for the anchor cables cannot be recovered generally, so that a large amount of materials such as steel (reinforcing steel) stranded wires and the like are consumed, and great waste is caused; and the reserved steel strands in the ground can also have adverse effects on later construction of surrounding buildings. If the temporary facilities adopt the recyclable prestressed anchor cables for supporting, the temporary support is dismantled and recycled after the temporary support is finished, the cost can be greatly reduced, and the influence of the steel strand left underground on later-stage construction can be eliminated. Therefore, the recoverable anchor cable is more and more appreciated and favored by people. However, the existing recoverable anchor cable device has the following defects: firstly, the mechanism is complex, and the cost is high; secondly, the recovery difficulty is high, and the recovery rate is low; and thirdly, the recovery operation is complex, the field operation is not easy, and even a special auxiliary tool is needed to draw out the steel strand.
Disclosure of Invention
An object of the utility model is to provide a prestressed anchorage cable steel strand wires retrieves mechanism, this mechanism should can solve exist among the prior art not enough, have characteristics such as with low costs, easy operation is reliable, steel strand wires rate of recovery height.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a prestressed anchor cable steel strand recovery mechanism comprises a steel strand sheath sleeved on the outer side of a steel strand, an anchor seat arranged below the steel strand sheath and provided with a cavity in the middle, a steel strand clamp installed in the cavity of the anchor seat, a wire clamp position controller arranged at the lower end of the steel strand clamp, a spring arranged at the lower end of the wire clamp position controller, and a waterproof cap connected with the lower end of the anchor seat. The steel strand clamp is a hollow round table with a narrow top and a wide bottom and is used for clamping the steel strands; the wire clamp position controller comprises a position controller main body provided with a groove with an upward opening; the upper end of the position controller main body is connected with the lower end of the steel strand clamp, and the lower end of the position controller main body is connected with the upper end of the spring; the spring is positioned in the waterproof cap, and the bottom of the spring is in contact with the bottom of the waterproof cap; when the waterproof cap is installed in place, the spring is in a micro-compression state; and the lower end of the steel strand penetrates through the cavity of the steel strand clamp and then abuts against the inner groove of the clamp position controller.
Furthermore, a wire clamp inner groove is formed in the inner wall of the lower end of the steel stranded wire clamp; the wire clamp position controller also comprises a first wire clamp position controller boss arranged along the periphery of the upper end of the position controller main body and a second wire clamp position controller boss arranged along the periphery of the middle section of the position controller main body; the first wire clamp position controller boss extends into the inner groove of the wire clamp, the second wire clamp position controller boss is positioned below the steel strand clamp, and the outer diameter of the second wire clamp position controller boss is larger than that of the steel strand clamp; and the outer wall of the steel strand clamp is provided with a rubber ring for connecting the steel strand clamp and the wire clamp position controller into a whole.
Furthermore, the steel strand clamp is formed by surrounding a plurality of steel strand clamping pieces which are uniformly distributed. The number of the steel strand clamping pieces is 3.
Further, the steel strand sheath is a PVR pipe and is connected with the anchor base through a connector; the connector is a hollow cavity with openings at the upper end and the lower end, the upper end of the hollow cavity is sleeved outside the lower end of the steel strand sheath, and the lower end of the hollow cavity is embedded in the upper end opening of the anchor seat cavity.
Furthermore, the spring, the steel strand and the steel strand clamp are coaxially arranged.
Furthermore, the shape of the anchor seat cavity is matched with the shape of the steel strand clamp.
Further, the periphery of the lower end of the steel strand clamp is provided with a rubber ring placing groove.
The utility model discloses still relate to an above-mentioned prestressed anchorage cable steel strand wires retrieves construction method of mechanism, this method includes following step:
(1) assembly
Firstly, assembling a steel strand sheath, a connector, an anchor seat, a steel strand clamp, a clamp position controller, a rubber ring, a spring and a waterproof cap, then sequentially penetrating the steel strand through the steel strand sheath and the connector, extending into the steel strand clamp in a cavity of the anchor seat, closely contacting the steel strand clamp with the cavity of the anchor seat, and enabling the spring to provide an upward acting force for the steel strand clamp, so that the steel strand is clamped by the steel strand clamp, and the assembly of the anchor cable is completed.
(2) Grouting
After the hole forming of the anchor cable hole is finished, laying a grouting pipe according to the requirement, putting the assembled anchor cable into the anchor cable hole, and performing primary grouting or secondary grouting on the anchoring section of the anchor cable hole by the grouting pipe; the grouting pipe is used for pressure-injecting a bonding material into the anchor cable hole.
(3) Tensioning and locking
And when the grouting body and the anchor cable are coagulated into a whole and reach certain strength, an outer anchorage device is arranged at the upper end of the steel strand, and prestress is applied to the anchor cable to stretch and lock, so that the anchoring body is anchored.
(4) Recovering
After the anchoring task is finished, the steel strand needs to be drawn out for recycling; firstly, removing the outer anchor, separating the steel strand into a certain length (dozens of centimeters) from the steel strand sheath, and simultaneously splitting the steel strand into a bundle A and a bundle B, wherein the bundle A is 2-3 steel strand wires, and the sum of the bundle A and the bundle B is the total number of the steel wires of the steel strand; knocking the A bundle of steel strands in the steel strand sheath downwards from the right above, A, B bundles of steel strands generate relative displacement, driving the wire clamp position controller to move downwards, driving the steel strand clamp to move downwards, and when the steel strand clamp moves downwards, the steel strand clamp is not in close contact with the cavity of the anchor seat any more, the clamping force applied on the steel strand clamp by the anchor seat is gradually reduced, and in the downward movement process, the gap between the steel strand clamp and the cavity of the anchor seat is gradually increased, and the steel strand clamp is not in close contact with the steel strands any more; the A bundle of atress moves forward, meets the wire clamp accuse position ware and the counter-force of spring after, B bundle then moves backward along opposite direction, when A, B two bunches of relative displacement of steel wire bundle surpassed the restraint length of steel strand clamping piece, only A bundle of steel wire bundle had been left in the steel strand clamping piece cavity, and the steel strand clamp then has lost the clamping action to the steel strand wires completely this moment, and whole steel strand wires can be followed and drawn out in steel strand clamp and the anchor block. The steel strand wires can be taken out from the inner anchor at one time, and the anchor rope can be rapidly and conveniently recovered.
According to the above technical scheme, the utility model discloses do not need special recovery instrument, like tractive equipment such as jack, hoist engine, only need give the axial power of strikeing of steel strand wires, do not need rotatory power, can remove the locking of steel strand wires fastener to steel strand wires to easily withdraw from the anchor rope hole steel strand wires. Under the combined action of the truncated cone-shaped cavity of the anchor seat and the pressure of the spring, the steel stranded wire is unidirectionally locked by the steel stranded wire clamp, and the locking force is in direct proportion to the pulling force transmitted to the steel stranded wire by the outer anchor. When two or more steel wire bundles in the steel strand are knocked continuously, the steel wire bundles push the wire clamp controller and the steel strand clamp to move towards the direction far away from the cavity of the anchor seat, and therefore the purpose of unlocking is achieved.
Drawings
FIG. 1 is a schematic structural view of a steel strand recovery mechanism of a prestressed anchor cable according to the present invention;
FIG. 2 is a schematic structural diagram of a prestressed anchor cable steel strand recovery mechanism in a locking state;
FIG. 3 is a schematic structural diagram of a prestressed anchor cable steel strand recovery mechanism in a released state;
FIG. 4 is an enlarged view of portion A of FIG. 2;
FIG. 5 is an enlarged view of portion B of FIG. 3;
FIG. 6 is a longitudinal cross-sectional view of a steel strand clamp;
FIG. 7 is a longitudinal cross-sectional view of the wire grip retainer;
fig. 8 (a) and (b) are schematic diagrams illustrating the state change of the steel strand in the construction process of the present invention.
Wherein:
1. steel strand wires, 2, steel strand wires sheath, 3, connector, 4, anchor block, 5, steel strand wires press from both sides, 51, fastener inner groovy, 52, the recess is placed to the rubber circle, 53, the fastener inner boss, 6, fastener accuse position ware, 61, fastener accuse position ware inner groovy, 62, fastener accuse position ware boss one, 63, the outer recess of fastener accuse position ware, 64, fastener accuse position ware boss two, 7, the rubber circle, 8, the spring, 9, waterproof cap.
Detailed Description
The present invention will be further explained with reference to the accompanying drawings:
the prestressed anchor cable steel strand recycling mechanism shown in fig. 1-5 comprises a steel strand sheath 2 sleeved outside a steel strand 1, an anchor seat 4 arranged below the steel strand sheath 2 and provided with a truncated cone-shaped cavity in the middle, a steel strand clamp 5 arranged in the cavity of the anchor seat 4, a clamp position controller 6 arranged at the lower end of the steel strand clamp 5, a spring 8 arranged at the lower end of the clamp position controller 6, and a waterproof cap 9 connected with the lower end of the anchor seat 4. The steel strand 1 is used for transferring the prestress provided by the outer anchorage device to the inner anchorage device. The shape of the cavity of the anchor seat 4 is matched with the shape of the steel stranded wire clamp 5. The lower end of the steel stranded wire clamp 5 is connected with a spring 8 through a wire clamp position controller 6. The spring 8 is located in the waterproof cap 9, and the bottom of the spring 8 is in contact with the bottom of the waterproof cap 9. When the waterproof cap 9 is in place, the spring 8 is in a slightly compressed state. The spring 8, the steel strand 1 and the steel strand clamp 5 are coaxially arranged. The steel strand sheath 2 is a PVR pipe, and the steel strand sheath 2 is connected with the anchor block 4 through the connector 3; the connector 3 is a hollow cavity with openings at the upper end and the lower end, the upper end of the hollow cavity is sleeved outside the lower end of the steel strand sheath 2, and the lower end of the hollow cavity is embedded in the upper opening of the anchor seat 4. And the steel strand sheath 2 is used for preventing cement paste and other bonding compounds from being bonded with the steel strand. Under the normal state, the steel strand clamp 5 enables the steel strand 1 to be automatically locked and in a micro-locking state under the combined action of the anchor seat cavity and the spring pressure transmitted by the clamp position controller. Under the condition that the steel strand 1 is not subjected to external force along the axial direction of the steel strand, the steel strand clamp 5 which is slightly locked can be kept in close contact with the wall of the anchor block cavity, the steel strand clamp 5 cannot be loosened, and the steel strand 1 can be firmly and stably clamped by the steel strand clamp 5. Because the spring 8 is in a micro-compression state, an upward acting force is always applied to the wire clamp position controller and the steel strand clamp, so that when the wire clamp is in a micro-locking state, even if the whole recovery mechanism is impacted by external force, once the external force disappears, the steel strand clamp locks the steel strand again, the steel strand is not easy to fall off from the anchor seat, and the stability and the reliability of the recovery mechanism are ensured.
As shown in fig. 6, the steel strand clamp 5 is a hollow round table with a narrow top and a wide bottom, and the hollow round table is formed by surrounding a plurality of steel strand clamping pieces which are uniformly distributed. The number of the steel strand clamping pieces is 3. The steel strand clamp 5 is used for clamping the steel strand 1. And the inner wall of the lower end of the steel stranded wire clamp 5 is provided with a wire clamp inner groove 51 and a wire clamp inner boss 53. And a rubber ring for connecting the steel strand clamp 5 and the wire clamp position controller 6 into a whole is arranged on the outer wall of the steel strand clamp 5. The lower extreme periphery of steel strand clamp 5 is equipped with rubber circle standing groove 52 for place rubber circle 7, rubber circle 7 is used for forming a whole with three steel strand clamping pieces on the one hand, and on the other hand is used for pressing from both sides 5 and clamp accuse position ware 6 with the steel strand and is connected as an organic wholely. Preferably, the rubber ring 7 is a rubber ring. Through the round platform form that sets up to pressing from both sides 5 suits with steel strand wires with anchor socket 4 cavity, like this under the exogenic action, when placing anchor socket 4 cavity with steel strand wires clamp 5, put more up, anchor socket 4 cavity is connected with steel strand wires clamp 5 more firm steady to make steel strand wires clamp 5 can press from both sides tightly with steel strand wires 1 that passes from its centre. When one of the steel stranded wires is subjected to downward knocking force, the steel stranded wire clamp 1 moves downwards, the downward moving steel stranded wire clamp 6 pushes the wire clamp position controller 6 to move downwards, the wire clamp position controller 6 drives the steel stranded wire clamp 5 to move downwards, when the steel stranded wire clamp 5 moves downwards, a gap between the steel stranded wire clamp and the cavity of the anchor seat 4 is enlarged gradually, meanwhile, when some steel stranded wires are subjected to downward knocking force, under the reaction of the wire clamp position controller 6 and the spring 8, the other steel stranded wires move backwards in opposite directions, and when the relative displacement of the other steel stranded wires is larger than the constraint length of the steel stranded wire clamp 5, the cavity of the anchor seat 4 cannot clamp the steel stranded wire 1 through the constraint of the steel stranded wire clamp 5. At this time, the other steel strand bundle is pulled upwards, and the steel strand 1 can be completely drawn out.
As shown in fig. 7, the wire clamp position controller 6 includes a position controller body having an upwardly open recess 61. The upper end of the position controller main body is connected with the steel strand clamp 5, and the lower end of the position controller main body is connected with the upper end of the spring 8. The lower end of the steel strand 1 penetrates through the cavity of the steel strand clamp 5 and then abuts against the inner groove 61 of the clamp position controller, and the steel strand 1 is clamped by the steel strand clamp 5. The wire clamp position controller 6 further comprises a first wire clamp position controller boss 62 arranged along the periphery of the upper end of the position controller main body and a second wire clamp position controller boss 64 arranged along the periphery of the middle section of the position controller main body. The first wire clamp position controller boss 62 extends into the wire clamp inner groove 61. The size of the groove 61 corresponds to the size of the steel strand 1. The first wire clamp position controller boss 62 and the wire clamp inner groove 61 are mutually limited, and the steel strand clamp and the wire clamp position controller 6 can be connected into a whole through the rubber ring 7 wound on the outer ring of the steel strand clamp 5. When the wire clamp position controller 6 moves, the steel stranded wires 5 are driven to clamp together. The second wire clamp position controller boss 64 is located below the steel strand clamp 5, and the outer diameter of the second wire clamp position controller boss is larger than that of the steel strand clamp 5. The second wire clamp position controller boss 64 is used for supporting and fixing the steel strand clamp at the bottom of the steel strand clamp 5, and is used for upwards transmitting the elastic force of the spring in a compressed state to the steel strand clamp 5 to enable the steel strand clamp 5 to be tightly matched with the anchor block 4, so that the steel strand 1 penetrating through the steel strand clamp 5 can be clamped by the steel strand clamp 5.
The utility model discloses still relate to an above-mentioned prestressed anchorage cable steel strand wires retrieves construction method of mechanism, this method includes following step:
(1) assembly
Firstly, assembling a steel strand sheath, a connector, an anchor seat, a steel strand clamp, a clamp position controller, a rubber ring, a spring and a waterproof cap, then sequentially penetrating the steel strand through the steel strand sheath and the connector, extending into the steel strand clamp in a cavity of the anchor seat, closely contacting the steel strand clamp with the cavity of the anchor seat, and enabling the spring to provide an upward acting force for the steel strand clamp, so that the steel strand is clamped by the steel strand clamp, and the assembly of the anchor cable is completed. The assembled cable bolt is shown in fig. 2, and the steel strand is in a locked state, and the steel strand clamp and the anchor seat are relatively static. The existing similar technology has to use larger prestress force to lock the steel strand by the steel strand clamping piece when being assembled.
(2) Grouting
After the hole forming of the anchor cable hole is finished, laying a grouting pipe according to the requirement, putting the assembled anchor cable into the anchor cable hole, and performing primary grouting or secondary grouting on the anchoring section of the anchor cable hole by the grouting pipe; the grouting pipe is used for pressure-injecting a bonding material into the anchor cable hole.
(3) Tensioning and locking
And when the grouting body and the anchor cable are coagulated into a whole and reach certain strength, an outer anchorage device is arranged at the upper end of the steel strand, and prestress is applied to the anchor cable to stretch and lock, so that the anchoring body is anchored.
(4) Recovering
After the anchoring task is completed, the steel strand 1 needs to be drawn out for recycling. The method comprises the steps of firstly removing an outer anchor, separating a steel strand 1 from a steel strand sheath 2 to a certain length (dozens of centimeters), splitting the steel strand 1 into a bundle A and a bundle B, wherein the bundle A is 2-3 steel strand wires, knocking the bundle A in the steel strand sheath 2 downwards from the right above, and A, B two bundles of steel strands to generate relative displacement. A and B are positive integers, and A is less than B. Preferably, the value of A is 2-3, and the rest is B. Because the bottom of the strand 1 is held against the recess 61, the downward movement of the strand a gives the recess 61 a downward force which drives the grip retainer 6 downward. The wire clamp position controller 6 and the steel strand clamp 5 are connected into a whole, and the wire clamp position controller 6 moves downwards to drive the steel strand clamp 5 to move downwards. When the steel strand clamp 5 moves downwards, the steel strand clamp is not in close contact with the cavity of the anchor base 4, the clamping force applied to the steel strand clamp 5 by the anchor base 4 is gradually reduced, in the downward movement process, the gap between the steel strand clamp 5 and the cavity of the anchor base 4 is gradually increased, the steel strand clamp 5 is not in close contact with the steel strand 1 any more, meanwhile, when the A bundle in the steel strand is subjected to downward knocking force, under the reaction of the wire clamp position controller 6 and the spring 8, the B bundle of the steel strand can move backwards in the opposite direction, when the relative displacement of the B bundle of the steel strand is greater than the constraint length of the steel strand clamp 5, the cavity of the clamping anchor base 4 cannot clamp the steel strand 1 through the constraint of the steel strand clamp 5, at the moment, in an unlocking state as shown in fig. 3, the whole steel strand clamp 1 can be pulled upwards to be pulled out from the steel strand clamp 5 and the anchor base 4. The steel strand 1 can be once only taken out from the inner anchor, and the anchor rope can be rapidly and conveniently recovered. The constraint length is the length of the steel strand clamp for clamping the steel strand.
In the prior art, the whole steel strand is knocked to axially move to cause the clamping piece to move so as to unlock. Although this kind of method also can retrieve the steel strand wires, because when adopting this method to retrieve the steel strand wires, there is great resistance in the axial motion of whole steel strand wires, and the recovery process is wasted time and energy, and the success rate is low, moreover in the in-service use process, if under the exogenic action, the steel strand wires presss from both sides and separates easily with the anchor block, makes the mechanism lose the effect of retrieving the steel strand wires. The utility model discloses divide into A, B two bundles with the steel strand wires, wherein A restraints for 2-3 steel wires to separate, as shown in fig. 8 a. When the steel wires of the A bundle of steel strands are knocked, no matter how long the whole steel strand is (20 meters, 40 meters and 60 meters), A, B two bundles of steel strands generate relative displacement as shown in figure 8 b. One of the two bundles is knocked, the other bundle is equivalent to the existing track of the bundle, and the track is spiral, is lubricated by grease in the whole process and has small resistance. The movement between the two steel strands is spiral movement, so that the reliability is higher, the operation is more labor-saving, and the success rate is higher. Even if some foreign matters enter the protective pipe, the relative displacement of one bundle in the spiral track formed by the other bundle is not prevented. And steel strand wires retrieve mechanism, the mill's equipment is simpler, does not need pretension, the locking reliability is higher, packaging efficiency can improve 60%.
The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.
Claims (7)
1. The utility model provides a prestressed anchorage cable steel strand wires recovery mechanism which characterized in that: the device comprises a steel strand sheath sleeved on the outer side of a steel strand, an anchor seat arranged below the steel strand sheath and provided with a cavity in the middle, a steel strand clamp arranged in the cavity of the anchor seat, a clamp position controller arranged at the lower end of the steel strand clamp, a spring arranged at the lower end of the clamp position controller and a waterproof cap connected with the lower end of the anchor seat; the steel strand clamp is a hollow round table with a narrow top and a wide bottom and is used for clamping the steel strands; the wire clamp position controller comprises a position controller main body provided with a groove with an upward opening; the upper end of the position controller main body is abutted against the lower end of the steel stranded wire clamp, and the lower end of the position controller main body is connected with the upper end of the spring; the spring is positioned in the waterproof cap, and the bottom of the spring is in contact with the bottom of the waterproof cap; the spring is in a micro-compression state; and the lower end of the steel strand penetrates through the cavity of the steel strand clamp and then abuts against the inner groove of the clamp position controller.
2. The prestressed anchor cable steel strand recycling mechanism of claim 1, wherein: the inner wall of the lower end of the steel stranded wire clamp is provided with a wire clamp inner groove and a wire clamp inner boss; the wire clamp position controller also comprises a first wire clamp position controller boss arranged along the periphery of the upper end of the position controller main body and a second wire clamp position controller boss arranged along the periphery of the middle section of the position controller main body; the first wire clamp position controller boss extends into the inner groove of the wire clamp, the second wire clamp position controller boss is positioned below the steel strand clamp, and the outer diameter of the second wire clamp position controller boss is larger than that of the steel strand clamp; and the outer wall of the steel strand clamp is provided with a rubber ring for connecting the steel strand clamp and the wire clamp position controller into a whole.
3. The prestressed anchor cable steel strand recycling mechanism of claim 1, wherein: the steel strand clamp is formed by surrounding a plurality of steel strand clamping pieces which are uniformly distributed.
4. The prestressed anchor cable steel strand recycling mechanism of claim 1, wherein: the steel strand sheath is a PVR pipe and is connected with the anchor block through a connector; the connector is a hollow cavity with openings at the upper end and the lower end, the upper end of the hollow cavity is sleeved outside the lower end of the steel strand sheath, and the lower end of the hollow cavity is embedded in the upper end opening of the anchor seat cavity.
5. The prestressed anchor cable steel strand recycling mechanism of claim 1, wherein: the steel strand, the steel strand clamp, the clamp position controller and the spring are coaxially arranged.
6. The prestressed anchor cable steel strand recycling mechanism of claim 1, wherein: the shape of the anchor seat cavity is matched with the shape of the steel strand clamp.
7. The prestressed anchor cable steel strand recycling mechanism of claim 2, wherein: the periphery of the lower end of the steel strand clamp is provided with a rubber ring placing groove.
Priority Applications (1)
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CN202120244660.XU CN214993816U (en) | 2021-01-28 | 2021-01-28 | Prestressed anchorage cable steel strand wires retrieves mechanism |
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CN202120244660.XU CN214993816U (en) | 2021-01-28 | 2021-01-28 | Prestressed anchorage cable steel strand wires retrieves mechanism |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112796318A (en) * | 2021-01-28 | 2021-05-14 | 济南百士岩土工程有限公司 | Prestressed anchor cable steel strand recovery mechanism and construction method thereof |
CN112796318B (en) * | 2021-01-28 | 2024-11-08 | 济南百士岩土工程有限公司 | Prestressed anchor cable steel strand recycling mechanism and construction method thereof |
-
2021
- 2021-01-28 CN CN202120244660.XU patent/CN214993816U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112796318A (en) * | 2021-01-28 | 2021-05-14 | 济南百士岩土工程有限公司 | Prestressed anchor cable steel strand recovery mechanism and construction method thereof |
CN112796318B (en) * | 2021-01-28 | 2024-11-08 | 济南百士岩土工程有限公司 | Prestressed anchor cable steel strand recycling mechanism and construction method thereof |
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