CN212985261U - Anchor device is gone into to anchor cable strand exhibition cable of pilot tunnel - Google Patents

Anchor device is gone into to anchor cable strand exhibition cable of pilot tunnel Download PDF

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Publication number
CN212985261U
CN212985261U CN202021564343.8U CN202021564343U CN212985261U CN 212985261 U CN212985261 U CN 212985261U CN 202021564343 U CN202021564343 U CN 202021564343U CN 212985261 U CN212985261 U CN 212985261U
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cable
strand
inverted
lifting
anchor
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薛志武
薛帆
谢小琴
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CCCC Wuhan Harbour Engineering Design and Research Institute Co Ltd
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CCCC Wuhan Harbour Engineering Design and Research Institute Co Ltd
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Abstract

The utility model provides a long pilot tunnel anchor cable strand exhibition cable anchor device, which comprises a frame body arranged near a tunnel entrance, wherein a plurality of inverted U-shaped track grooves for bearing and buffering cable strands are arranged at the position of the frame body near the top, the whole inverted U-shaped track groove is in an inverted U shape, and a plurality of rotating rollers are arranged along the inverted U-shaped track groove; the cable strand hoisting trolley is used for hoisting the cable strand to the inverted U-shaped track groove or discharging the cable strand from the inverted U-shaped track groove. Through the scheme that adopts the support body that has a plurality of "U" shape rail groove of falling, utilize a plurality of "U" shape rail grooves of falling on the support body, through making the strand under the prerequisite that does not influence self quality on the support body, through buckling messenger's strand obtain the expansion length space of sufficient length. Through the scheme that will fall "U" shape track groove setting in the support body outside, can simplify the operation of strand hoist and mount by a wide margin, need not to make the anchor head of strand pass the support body repeatedly.

Description

Anchor device is gone into to anchor cable strand exhibition cable of pilot tunnel
Technical Field
The utility model relates to a tunnel anchor structure suspension bridge main push-towing rope construction field, especially long guide way tunnel anchor rope exhibition cable go into anchor device.
Background
The tunnel anchor is an anchor structure form which can well utilize geological conditions of an anchor site area, has relatively small engineering quantity which is only 20% -25% of that of a gravity anchor, has high cost performance and small disturbance to the surrounding environment, and is mostly used for a suspension bridge on a highway in a mountain area. When the main cable of the suspension bridge is erected, the cable strands on the cable disc are usually pulled to the opposite bank anchor at one side, and then the cable strand anchor at the side is carried out. When the tunnel anchor pilot tunnel on the side is too long, the anchor is already anchored on the opposite bank, and the very long strand is still wound on the cable disc on the side, at this time, if the remaining strand is directly unwound from the cable disc, the strand is easily broken and damaged, which leads to difficulty in anchoring, for example, the length of the pilot tunnel in a certain project reaches 160 meters, and the above technical problem occurs. For example, chinese patent document CN 206495140U describes a high-efficiency traction system for erecting a main cable of a suspension bridge tunnel anchor, which is a scheme for tunnel anchor construction in the prior art. Although chinese patent document CN 108797347 a describes a scheme of circularly pulling in an anchor by using a plurality of windlasses, none of the above schemes considers the problem that the strand is damaged due to the insufficient length of the strand.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a tunnel anchor strand exhibition cable goes into anchor device in pilot tunnel can solve tunnel anchor pilot tunnel overlength among the prior art, and the strand expandes limited problem, in the preferred scheme, can realize assisting the automatic control that the strand expandes.
In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a cable spreading and anchoring device for anchor strands of a guide tunnel comprises a frame body arranged near a tunnel entrance, wherein a plurality of inverted U-shaped track grooves used for bearing and buffering the cable strands are arranged at the position, close to the top, of the frame body, the inverted U-shaped track grooves are integrally inverted U-shaped, and a plurality of rotating rollers are arranged along the inverted U-shaped track grooves;
the cable strand hoisting trolley is used for hoisting the cable strand to the inverted U-shaped track groove or discharging the cable strand from the inverted U-shaped track groove.
In a preferred scheme, the inverted U-shaped rail grooves are arranged along the longitudinal top beam of the frame body to be 2, 3, 4, 5 or 6;
the bending diameter of the bending position of the inverted U-shaped track groove and the distance between the inverted U-shaped track grooves are larger than the minimum bending diameter of the cable strand.
In a preferred scheme, a longitudinal top beam is arranged at the top of the frame body, an inverted U-shaped track groove is arranged below the longitudinal top beam, and the inverted U-shaped track groove is positioned on the outer side of one side of the frame body;
the bottom of the longitudinal top beam is provided with a cantilever sliding rail, the cantilever sliding rail is perpendicular to the projection of the longitudinal top beam, and the part of the cantilever sliding rail above the inverted U-shaped rail groove is of a cantilever structure;
be equipped with cable strand promotion hoist and mount dolly on the cantilever slide rail, cable strand promotion hoist and mount dolly can follow the cantilever slide rail walking, is equipped with hoisting device on the cable strand promotion hoist and mount dolly, and hoisting device is connected with the cable strand for promote or transfer the cable strand.
In the preferred scheme, a trolley traveling motor and a cable strand hoisting motor are arranged on the cable strand hoisting trolley, trolley traveling travel switches are further arranged at two ends of the cable strand hoisting trolley, a collision block for limiting the travel of the cable strand hoisting trolley is arranged on the cantilever slide rail, and the collision block is used for triggering the trolley traveling travel switch;
the trolley walking motor, the cable strand lifting motor and the trolley walking travel switch are electrically connected with the cable strand lifting controller, the cable strand lifting controller is electrically connected with the main control device, and the main control device is electrically connected with the remote controller through the wireless transmission module.
In the preferred scheme, one side of support body is equipped with vertical track, and "U" shape track groove is connected with vertical track through the lift dolly, still is equipped with track groove hoisting device on the support body, and track groove hoisting device is connected with "U" shape track groove of falling for promote or fall "U" shape track groove down.
In the preferred scheme, the track groove lifting device is provided with a track groove lifting motor, a lifting travel switch is arranged on the vertical track, and the track groove lifting motor and the lifting travel switch are electrically connected with a track groove lifting controller;
the cable strand hoisting trolley is provided with a trolley traveling motor and a cable strand hoisting motor, two ends of the cable strand hoisting trolley are also provided with trolley traveling travel switches, the cantilever slide rail is provided with a collision block for limiting the travel of the cable strand hoisting trolley, and the collision block is used for triggering the trolley traveling travel switch;
the trolley walking motor, the cable strand lifting motor and the trolley walking travel switch are electrically connected with the cable strand lifting controller;
the track groove lifting controller and the cable strand lifting controller are electrically connected with the main control device, and the main control device is electrically connected with the remote controller through the wireless transmission module.
In the preferred scheme, an anchor spreading guide roller is further arranged near the frame body, the anchor spreading guide roller is a slope, a plurality of guide rollers used for bearing the cable strands are arranged on the anchor spreading guide roller, and the anchor spreading guide roller is used for assisting in spreading the cable strands on the cable disc;
a tower crane is also arranged for drawing the cable strand from the cable disc to the position near the frame body.
A construction method adopting the anchor cable strand spreading and anchoring device for the long pilot tunnel comprises the following steps:
s1, pulling the cable strand to the ground near the frame body by using a tower crane;
s2, hoisting the hoisting trolley by using the cable strand on the frame body, and hoisting the cable strand to at least 1 inverted U-shaped rail groove;
s3, connecting the anchor head of the cable strand with a puller by using a tower crane, and pulling the cable strand to the opposite bank;
s4, after anchoring the cable strand on the opposite bank side, sequentially hoisting the cable strand into the inverted U-shaped track groove in the sequence from the distance from the tunnel to the approach of the tunnel;
the cable strands are hung down from the space between the adjacent inverted U-shaped track grooves to a position close to the ground so as to buffer the cable strands with enough length;
the cable strand at the side is completely released from the cable disc, and the tail end of the cable strand is connected with an anchor-entering traction device by a tower crane;
s5, pulling the cable strand into the tunnel anchor by the anchor-entering traction device;
hoisting the hoisting trolley by using the cable strand to hoist the cable strand out of the inverted U-shaped track groove and slowly release the cable strand downwards;
s6, pulling the tail end of the cable strand to the bottom of the tunnel by an anchor-entering traction device for fixation;
the construction of anchoring the strand spread cable is realized through the steps.
In the preferred scheme, the hoisting of the cable strand starts from a cable strand hoisting trolley corresponding to a group of inverted U-shaped rail grooves far away from the tunnel;
lifting out the cable strand lifting trolley corresponding to a group of inverted U-shaped track grooves close to the tunnel;
before the cable strand is hung out of the inverted U-shaped track groove, the inverted U-shaped track groove close to one side of the tunnel reduces the height to assist in releasing the cable strand.
In a preferred scheme, in the step 2, the process of hoisting the cable strand comprises the following steps: the remote controller sends out an instruction, the instruction is transmitted to the main control device through the wireless transmission module, the main control device sends the instruction to the cable strand lifting controllers of the two corresponding cable strand lifting trolleys, the cable strand lifting controllers control the cable strand lifting trolleys to move to the free ends of the cantilever slide rails, and when the cable strand lifting controllers receive signals of the trolley traveling travel switches, the cable strand lifting trolleys stop moving;
the cable strand lifting trolley is used for lowering a lifting device to be connected with a cable strand, a cable strand lifting controller controls a cable strand lifting motor to act to lift the cable strand, and the cable strand lifting controller controls the cable strand lifting motor to stop after a preset height is reached according to feedback of the cable strand lifting motor;
the cable strand lifting controller controls the trolley walking motor to run towards the upper part of the inverted U-shaped track groove, and controls the trolley walking motor to stop according to a signal of the trolley walking travel switch;
the cable strand lifting controller controls the action of a cable strand lifting motor to place the cable strand into the inverted U-shaped track groove.
The utility model provides a pair of anchor device is gone into to pilot tunnel anchor strand exhibition cable, through the scheme that adopts the support body that has a plurality of "U" shape rail groove of falling, utilize a plurality of "U" shape rail grooves of falling on the support body, through making the strand under the prerequisite that does not influence self quality on the support body, through buckling messenger's strand and obtain the expansion length space of sufficient length. In the preferred scheme, through the scheme that will fall "U" shape track groove setting in the support body outside, can simplify the operation of strand hoist and mount by a wide margin, need not to make the anchor head of strand pass the support body repeatedly. And safe high-altitude control operation is realized by adopting remote automatic control.
Drawings
The invention will be further explained with reference to the following figures and examples:
fig. 1 is a front view of the frame body of the present invention.
Fig. 2 is a front view of the frame body of the present invention when the cable strand is deployed.
Fig. 3 is a top view of the present invention.
Fig. 4 is a left side view of the present invention.
Fig. 5 is a perspective view of the mounting structure of a single inverted U-shaped track groove of the present invention.
Fig. 6 is a schematic view showing a single mounting structure of the inverted U-shaped track groove according to the present invention.
Fig. 7 is an automatic control block diagram of the present invention.
Fig. 8 is a schematic view of the first inverted U-shaped track groove for hoisting the cable strand according to the present invention.
Fig. 9 is a schematic view of the cable strand of the present invention hanging into the second inverted "U" shaped track groove.
Fig. 10 is a schematic view of the strand of the present invention being pulled to the opposite bank.
Fig. 11 is a schematic structural view of the cable strand spreading and anchoring construction of the present invention.
In the figure: the device comprises a frame body 1, a longitudinal top beam 101, a cantilever slide rail 102, a slide rail end plate 103, a main control device 104, a wireless transmission module 105, a remote controller 106, a vertical rail 107, an inverted U-shaped rail groove 2, an inverted U-shaped groove body 201, a rotating roller 202, a lifting trolley 203, a cable strand lifting and hoisting trolley 3, a cable strand lifting controller 301, a cable strand lifting motor 302, a trolley walking motor 303, a trolley walking travel switch 304, a tower crane 4, a cable strand guide roller 5, a traction steel wire 6, a cable strand 7, a tunnel 8, an anchor-entering traction device 9, an anchor-expanding guide roller 10, a cable disc 11, a rail groove lifting device 12, a rail groove lifting controller 121, a rail groove lifting motor 122, a lifting travel switch 123 and a puller 13.
Detailed Description
Example 1:
the longitudinal direction in this example is the left-right direction of fig. 1, 2, 8-11.
A long pilot tunnel anchor strand spreading and anchoring device comprises a frame body 1 arranged near an entrance of a tunnel 8, wherein a plurality of inverted U-shaped track grooves 2 used for bearing and buffering cable strands 7 are arranged at positions, close to the top, of the frame body 1, the overall inverted U-shaped track grooves 2 are inverted U-shaped, and a plurality of rotating rollers 202 are arranged along the inverted U-shaped track bodies 201; the turning rollers 202 are provided for holding the strand 7 so as not to wear the strand 7 while moving. The strand 7 in this example has a circumscribed circle diameter of about 4.6cm and a hexagonal cross-section. The side edge of the inverted U-shaped groove body 201 of the inverted U-shaped track groove 2 needs to have enough height, for example, the side edge height of the inverted U-shaped groove body 201 is 1.5 to 3 times of the diameter of the cable strand 7, so as to avoid that the cable strand 7 is separated from the inverted U-shaped groove body 201 in the pulling process, which causes safety accidents.
The hoisting device is also provided with a plurality of strand hoisting trolleys 3, and the strand hoisting trolleys 3 are used for hoisting the strands 7 to the inverted U-shaped track grooves 2 or discharging the strands 7 from the inverted U-shaped track grooves 2.
The preferred solution is as shown in fig. 1 and 2, the inverted "U" shaped rail grooves 2 are arranged in 2, 3, 4, 5 or 6 along the longitudinal top beam 101 of the frame body 1; in this example, 3 inverted "U" shaped track grooves 2 are preferably used.
The bending diameter of the bending position of the inverted U-shaped track groove 2 and the distance between the inverted U-shaped track grooves 2 are larger than the minimum bending diameter of the cable strand 7. The minimum bending diameter here means the minimum bending diameter allowed for the strand 7 without loosing filaments and being damaged.
In a preferred scheme, as shown in fig. 4-6, a longitudinal top beam 101 is arranged at the top of a frame body 1, an inverted U-shaped track groove 2 is arranged below the longitudinal top beam 101, and the inverted U-shaped track groove 2 is positioned on the outer side of one side of the frame body 1;
the bottom of the longitudinal top beam 101 is provided with a cantilever sliding rail 102, the cantilever sliding rail 102 is welded with the bottom of the longitudinal top beam 101, the projection of the cantilever sliding rail 102 is vertical to the projection of the longitudinal top beam 101, and the part of the cantilever sliding rail 102 above the inverted U-shaped rail groove 2 is of a cantilever structure; namely, the rear part below the cantilever sliding rail 102 is not blocked above the inverted U-shaped rail groove 2, so that the cable 7 is hung into the inverted U-shaped rail groove 2 from the side surface, the operation that the anchor head passes through the frame body 1 is avoided, and the connection operation of frequently replacing the cable lifting hoisting trolley 3 and the cable 7 is also avoided.
The cable strand lifting and hoisting trolley 3 is arranged on the cantilever slide rail 102, the cable strand lifting and hoisting trolley 3 can walk along the cantilever slide rail 102, and the trolley walking motor 303 rotates through a roller which is clamped on the cantilever slide rail 102 by a driving card to realize that the cable strand lifting and hoisting trolley 3 walks along the cantilever slide rail 102. The strand hoisting trolley 3 is provided with a hoisting device, the hoisting device in this example is an electric hoist, preferably an automatically controllable electric hoist, in which a servo motor or a hall motor is used to feed back the hoisting height of the hoisting device, and the hoisting device of the hoisting device, such as a lifting hook or a gripper, is connected to the strand 7 for hoisting or lowering the strand 7.
The preferable scheme is as shown in fig. 7, a trolley traveling motor 303 and a cable lifting motor 302 are arranged on the cable lifting trolley 3, trolley traveling travel switches 304 are further arranged at two ends of the cable lifting trolley 3, and the trolley traveling travel switches 304 are arranged on the cable lifting trolley 3 to facilitate wiring. A collision block for limiting the stroke of the hoisting trolley 3 lifted by the cable strand is arranged on the cantilever slide rail 102 and is used for triggering a trolley walking stroke switch 304; the end of the cantilever sliding rail 102 is also provided with a sliding rail end plate 103 to further improve the safety. It should be noted that the trolley travel switch 304 is disposed on the cantilever sliding rail 102, which is an equivalent solution.
The trolley traveling motor 303, the strand lifting motor 302 and the trolley traveling travel switch 304 are electrically connected with the strand lifting controller 301, the strand lifting controller 301 adopts a single chip microcomputer, for example, an STM32F series single chip microcomputer, to control the travel of the trolley traveling motor 303 and the strand lifting motor 302, and to receive the feedback of the trolley traveling travel switch 304, it should be noted that the trolley traveling travel switch 304 in this example does not adopt a hard switch mode, but serves as a sensor, and gives the control right to the strand lifting controller 301, so as to improve the degree of automation.
The strand lifting controller 301 is electrically connected to the main control device 104, in this example, the main control device 104 employs a PLC, the main control device 104 passes through the wireless transmission module 105, the wireless transmission module 105 preferably employs a WiFi module, and the wireless transmission module 105 is electrically connected to the remote controller 106. The remote controller 106 is operated by a tablet computer so as to be conveniently connected with the main control device 104, and the control and the debugging are simple and convenient.
The preferable scheme is as shown in fig. 6, wherein a vertical rail is arranged on one side of the frame body 1, the inverted U-shaped rail groove 2 is connected with the vertical rail through a lifting trolley 203, a vertical wing plate is arranged on the vertical rail 107, and a roller of the lifting trolley 203 is clamped on the wing plate. Still be equipped with track groove hoisting device 12 on support body 1, track groove hoisting device 12 is connected with "U" shape track groove 2 for promote or transfer "U" shape track groove 2. The rail groove lifting device 12 in this example employs an electric block which facilitates automatic control. The electric hoist preferably adopts a servo motor or a Hall motor. To feed back the lifting height of the inverted U-shaped track groove 2.
Another preferable scheme is as shown in fig. 6, the track groove lifting device 12 is provided with a track groove lifting motor 122, the vertical track 107 is provided with a lifting travel switch 123, and the track groove lifting motor 122 and the lifting travel switch 123 are electrically connected with the track groove lifting controller 121;
the cable strand hoisting trolley 3 is provided with a trolley traveling motor 303 and a cable strand hoisting motor 302, two ends of the cable strand hoisting trolley 3 are also provided with trolley traveling travel switches 304, the cantilever slide rail 102 is provided with a collision block for limiting the travel of the cable strand hoisting trolley 3, and the collision block is used for triggering the trolley traveling travel switches 304;
the trolley walking motor 303, the cable strand lifting motor 302 and the trolley walking travel switch 304 are electrically connected with the cable strand lifting controller 301;
the track groove lifting controller 121 and the strand lifting controller 301 are electrically connected to the main control device 104, and the main control device 104 is electrically connected to the remote controller 106 through the wireless transmission module 105. In the embodiment, the scheme that the hoisting of the cable strand 7 and the lifting of the inverted U-shaped track groove 2 are simultaneously adopted is realized, so that the jumping of the cable strand 7 during pulling is reduced, and the safety is improved.
In a preferred scheme, as shown in fig. 3 and 4, a spread anchor guide roller 10 is further arranged near the frame body 1, the spread anchor guide roller 10 is a slope, a plurality of guide rollers for bearing the cable strands 7 are arranged on the spread anchor guide roller 10, and the spread anchor guide roller 10 is used for assisting in spreading the cable strands 7 on the cable drum 11;
a tower crane 4 is also provided for pulling the strand 7 from the cable disc 11 to the vicinity of the frame body 1. The tower crane 4 is used for assisting in hoisting and pulling the cable strand 7.
Example 2:
as shown in fig. 8 to 11, a construction method using the anchor strand spreading and anchoring device for a long pilot tunnel includes the following steps:
s1, pulling the cable strand 7 to the ground near the frame body 1 by using the tower crane 4;
s2, hoisting the hoisting trolley 3 by using the cable strand on the frame body 1, and hoisting the cable strand 7 to at least 1 inverted U-shaped rail groove 2;
when lifting by crane, earlier utilize tower crane 4 to pull 7 strand to a set of "U" shape track groove 2's of keeping away from tunnel 8 below, then utilize strand lifting and hoisting trolley 3 to be connected to 7 anchor heads of strand to the position of "U" shape track groove 2 ground clearance height, when lifting at every turn, adopt two sets of strand lifting and hoisting trolley 3, two sets of strand lifting and hoisting trolley 3 are located the both ends of "U" shape track groove 2 respectively, in order to avoid lifting by crane the diameter undersize of buckling of 7 strand of in-process. Then hoisting the cable strands 7 to the inverted U-shaped rail grooves 2 in sequence, and finally hoisting the inverted U-shaped rail grooves 2 close to the tunnel 8, thereby buffering the cable strands 7 with enough length on the frame body 1.
S3, connecting the anchor head of the cable strand 7 with the puller 13 by using the tower crane 4, and pulling the cable strand 7 to the opposite bank;
preferably, during the dragging process, the hoisting trolley 3 is lifted by the cable strand according to the condition to continuously hoist the cable strand 7, so as to reserve the cable strand 7 with enough length for the dragging device 13 to drag.
S4, after anchoring the cable strand on the opposite bank side, sequentially hoisting the cable strand 7 into the inverted U-shaped track groove 2 in the sequence from the distance from the tunnel 8 to the approach of the tunnel 8;
the hoisting method comprises the following specific steps: after the cable strand goes into the anchor to the bank side, continue to pull the cable strand 7 of renting sufficient length from cable dish 11 with tower crane 4, pull to support body 1 below, the cable strand of keeping away from 8 one end in tunnel 2 both ends of falling "U" shape track groove descends the hoist and mount hoist trolley 3's hoist cable, the hoist cable is connected with cable strand 7, for example in fig. 8, the position of connecting should ensure that cable strand 7 has sufficient buffer length, cable strand promotes the cable strand lifting motor 302 action of hoist and mount trolley 3, it puts into falling "U" shape track groove 2 to hoist cable strand 7. In the hoisting process, the tower crane 4 assists in continuously pulling from the cable disc, so that stress is prevented from being concentrated on a small section of the cable strand, and the cable strand 7 is damaged due to the fact that the bending radius is too small. The tower crane 4 continues to pull the cable strand 7 to the lower part of the frame body 1 from the cable disc again, the sling of the cable strand lifting and hoisting trolley 3 at the two ends of the second inverted U-shaped track groove 2 puts down the hoisting cable strand 7, and the rest is done in the same way, so that the cable strand 7 is hoisted into the inverted U-shaped track groove 2.
The preferred solution is shown in fig. 7, and the more detailed process of hoisting the strand is: the remote controller 106 sends out an instruction, the instruction is transmitted to the main control device 104 through the wireless transmission module 105, the main control device 104 sends the instruction to the strand lifting controllers 301 of the two corresponding strand lifting trolleys 3, the strand lifting controllers 301 control the strand lifting trolleys 3 to move to the free ends of the cantilever slide rails 102, and when the strand lifting controllers 301 receive signals of the trolley walking travel switches 304, the strand lifting controllers 301 control the strand lifting trolleys 3 to stop moving;
lowering a hoisting device by the strand hoisting trolley 3 to be connected with the strand 7, controlling the strand hoisting motor 302 to act by the strand hoisting controller 301 to hoist the strand 7, and controlling the strand hoisting motor 302 to stop by the strand hoisting controller 301 after reaching a preset height according to the feedback of the strand hoisting motor 302;
the strand lifting controller 301 controls the trolley walking motor 303 to move towards the upper part of the inverted U-shaped track groove 2, and according to the signal of the trolley walking travel switch 304, the strand lifting controller 301 controls the trolley walking motor 303 to stop;
the strand lifting controller 301 controls the strand lifting motor 302 to move, and the strand 7 is placed in the inverted "U" shaped track groove 2.
In a preferred embodiment, as shown in fig. 5 and 6, before the cable strand 7 is inserted, the rail groove lifting controller 121 of the rail groove lifting device 12 controls the rail groove lifting motor 122 to operate, so as to lower the height of the inverted "U" -shaped rail groove 2, thereby preventing the side edge of the inverted "U" -shaped rail groove 2 from blocking the cable strand 7.
The cable strand is hung down from between the adjacent inverted U-shaped track grooves 2 to a position close to the ground so as to buffer the cable strand 7 with enough length;
the cable strand at the side is completely released from the cable disc 11, and the tail end of the cable strand is connected with the anchor-entering traction device 9 by a tower crane;
s5, pulling the cable strand into the tunnel anchor by the anchor-entering traction device 9;
hoisting the cable strand 7 out of the inverted U-shaped track groove 2 by using the cable strand hoisting trolley 3, and slowly releasing downwards;
the preferred scheme is as shown in fig. 6, the concrete steps of hoisting the strand from the inverted U-shaped track groove 2 are as follows: the hoisting device of the two strand hoisting trolleys 3 is connected with the strands 7 at the two ends of the inverted U-shaped track groove 2, wherein the two ends of the inverted U-shaped track groove 2 refer to the two arc-shaped ends of the inverted U-shaped groove body 201. The rail groove lifting device 12 controls the falling of the inverted U-shaped rail groove 2, so that the cable strand 7 is completely separated from the inverted U-shaped rail groove 2, the side wall of the inverted U-shaped groove body 201 cannot block the cable strand 7, the cable strand lifting trolley 3 runs to the free end of the cantilever slide rail 102, and then the lifting device is slowly put down, and the construction of lifting out the cable strand is completed.
In the preferred scheme, in the process of dragging the cable strand into the tunnel anchor by the anchor-entering traction device 9, the track groove lifting device 12 slowly descends to the height of the inverted U-shaped track groove 2 so as to match the traction of the anchor-entering traction device 9.
S6, pulling the tail end of the cable strand 7 to the bottom of the tunnel 8 by the anchor-entering traction device 9 for fixation;
the construction of anchoring the strand spread cable is realized through the steps.
In the preferred scheme as shown in fig. 8-10, the hoisting of the cable strand 7 is started from the cable strand lifting trolley 3 corresponding to the group of inverted U-shaped rail grooves 2 far away from the tunnel 8;
hoisting out the cable strand lifting trolley 3 corresponding to the group of inverted U-shaped track grooves 2 close to the tunnel 8;
before the cable strand is hung out of the inverted U-shaped track groove 2, the inverted U-shaped track groove 2 on the side close to the tunnel 8 is lowered in height to assist in releasing the cable strand 7.
The above embodiments are merely preferred technical solutions of the present invention, and should not be considered as limitations of the present invention, and the features in the embodiments and the examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (7)

1. The utility model provides a pilot tunnel anchor rope strand exhibition cable goes into anchor device which characterized by: the device comprises a frame body (1) arranged near an entrance of a tunnel (8), wherein a plurality of inverted U-shaped track grooves (2) used for bearing and buffering cable strands (7) are arranged at the position, close to the top, of the frame body (1), the inverted U-shaped track grooves (2) are integrally inverted U-shaped, and a plurality of rotating rollers (202) are arranged along the inverted U-shaped track body (201);
the cable strand hoisting device is characterized by further comprising a plurality of cable strand hoisting trolleys (3), wherein the cable strand hoisting trolleys (3) are used for hoisting cable strands (7) to the inverted U-shaped track grooves (2), or the cable strands (7) are discharged from the inverted U-shaped track grooves (2).
2. The anchor strand spreading and anchoring device for the pilot tunnel according to claim 1, wherein: the inverted U-shaped track grooves (2) are arranged along the longitudinal top beam (101) of the frame body (1) in 2, 3, 4, 5 or 6 numbers;
the bending diameter of the bending position of the inverted U-shaped track groove (2) and the distance between the inverted U-shaped track grooves (2) are larger than the minimum bending diameter of the cable strand (7).
3. The anchor strand spreading and anchoring device for the pilot tunnel according to claim 1, wherein: the top of the frame body (1) is provided with a longitudinal top beam (101), the inverted U-shaped track groove (2) is arranged below the longitudinal top beam (101), and the inverted U-shaped track groove (2) is positioned on the outer side of one side of the frame body (1);
the bottom of the longitudinal top beam (101) is provided with a cantilever sliding rail (102), the cantilever sliding rail (102) is perpendicular to the projection of the longitudinal top beam (101), and the part of the cantilever sliding rail (102) above the inverted U-shaped rail groove (2) is of a cantilever structure;
be equipped with cable strand promotion hoist and mount dolly (3) on cantilever slide rail (102), cable strand promotion hoist and mount dolly (3) can follow cantilever slide rail (102) walking, is equipped with hoisting device on cable strand promotion hoist and mount dolly (3), and hoisting device is connected with cable strand (7) for promote or transfer cable strand (7).
4. The anchor strand spreading and anchoring device for the pilot tunnel according to claim 3, wherein: a trolley traveling motor (303) and a cable lifting motor (302) are arranged on the cable lifting trolley (3), trolley traveling stroke switches (304) are further arranged at two ends of the cable lifting trolley (3), a collision block used for limiting the stroke of the cable lifting trolley (3) is arranged on the cantilever slide rail (102), and the collision block is used for triggering the trolley traveling stroke switches (304);
the trolley walking motor (303), the cable lifting motor (302) and the trolley walking travel switch (304) are electrically connected with the cable lifting controller (301), the cable lifting controller (301) is electrically connected with the main control device (104), and the main control device (104) is electrically connected with the remote controller (106) through the wireless transmission module (105).
5. The anchor strand spreading and anchoring device for the pilot tunnel according to claim 3, wherein: one side of support body (1) is equipped with vertical track, falls "U" shape track groove (2) and is connected with vertical track through lift dolly (203), still is equipped with track groove hoisting device (12) on support body (1), and track groove hoisting device (12) are connected with "U" shape track groove (2) for promote or transfer "U" shape track groove (2).
6. The anchor strand spreading and anchoring device for the pilot tunnel according to claim 5, wherein: the track groove lifting device (12) is provided with a track groove lifting motor (122), the vertical track (107) is provided with a lifting travel switch (123), and the track groove lifting motor (122) and the lifting travel switch (123) are electrically connected with a track groove lifting controller (121);
a trolley traveling motor (303) and a cable lifting motor (302) are arranged on the cable lifting trolley (3), trolley traveling stroke switches (304) are further arranged at two ends of the cable lifting trolley (3), a collision block used for limiting the stroke of the cable lifting trolley (3) is arranged on the cantilever slide rail (102), and the collision block is used for triggering the trolley traveling stroke switches (304);
the trolley walking motor (303), the cable strand lifting motor (302) and the trolley walking travel switch (304) are electrically connected with the cable strand lifting controller (301);
the track groove lifting controller (121) and the strand lifting controller (301) are electrically connected with the main control device (104), and the main control device (104) is electrically connected with the remote controller (106) through the wireless transmission module (105).
7. The anchor strand spreading and anchoring device for the pilot tunnel according to claim 1, wherein: an anchor spreading guide roller (10) is further arranged near the frame body (1), the anchor spreading guide roller (10) is a slope, a plurality of guide rollers used for bearing the cable strands (7) are arranged on the anchor spreading guide roller (10), and the anchor spreading guide roller (10) is used for assisting in spreading the cable strands (7) on the cable disc (11);
a tower crane (4) is also arranged and used for drawing the cable strand (7) from the cable disc (11) to the position near the frame body (1).
CN202021564343.8U 2020-07-31 2020-07-31 Anchor device is gone into to anchor cable strand exhibition cable of pilot tunnel Active CN212985261U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111877176A (en) * 2020-07-31 2020-11-03 中交武汉港湾工程设计研究院有限公司 Anchor structure for spreading anchor cable into anchor of guide tunnel and construction method

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111877176A (en) * 2020-07-31 2020-11-03 中交武汉港湾工程设计研究院有限公司 Anchor structure for spreading anchor cable into anchor of guide tunnel and construction method
CN111877176B (en) * 2020-07-31 2021-12-31 中交武汉港湾工程设计研究院有限公司 Anchor structure for spreading anchor cable into anchor of guide tunnel and construction method

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