CN113652968A - Anchor cable construction auxiliary equipment and anchor cable installation method - Google Patents

Abstract

The invention discloses an anchor cable construction auxiliary device and an anchor cable installation method, wherein the anchor cable construction auxiliary device comprises: the upper part of the bearing platform is provided with an accommodating sleeve; the base is vertically provided with two lifting devices, the two lifting devices are respectively arranged at two ends of the accommodating sleeve, and the upper ends of the two lifting devices are respectively hinged to the bottom of the bearing platform; the cable pushing device comprises a pushing sleeve for the anchor cable to penetrate through, wherein a clamp for clamping the anchor cable is installed in the head end of the pushing sleeve, the tail end of the pushing sleeve is slidably arranged in one end of an accommodating sleeve, and the tail end of the pushing sleeve is provided with an internal thread; and the driving device comprises a transmission sleeve and a driving motor which are rotatably arranged in the other end of the accommodating sleeve, wherein the first end of the transmission sleeve is provided with an external thread and screwed on the tail end, and the driving motor is arranged in the accommodating sleeve and is in transmission connection with the second end of the transmission sleeve. The anchor cable construction auxiliary equipment solves the problem that the existing anchor cable construction auxiliary equipment is too simple in structure and mostly only has a supporting function.

Description

Anchor cable construction auxiliary equipment and anchor cable installation method

Technical Field

The invention relates to the technical field of building construction, in particular to anchor cable construction auxiliary equipment and an anchor cable installation method.

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 compact 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 slopes, dangerous rocks and dangerous rocks.

The existing anchor cable construction auxiliary equipment is too simple in structure, mostly only has a supporting function, and cannot well adjust the height and the inclined angle of the anchor cable.

Disclosure of Invention

In order to overcome the defects in the prior art, the anchor cable construction auxiliary equipment is provided so as to solve the problems that the existing anchor cable construction auxiliary equipment is too simple in structure and mostly only has a supporting function.

In order to achieve the above object, there is provided an anchor cable construction auxiliary device, including:

the upper part of the bearing platform is provided with an accommodating sleeve;

the base is vertically provided with two lifting devices, the two lifting devices are respectively arranged at two ends of the accommodating sleeve, and the upper ends of the two lifting devices are respectively hinged to the bottom of the bearing platform;

the cable pushing device comprises a pushing sleeve for an anchor cable to penetrate through, wherein a clamp for clamping the anchor cable is installed in the head end of the pushing sleeve, the tail end of the pushing sleeve is slidably arranged in one end of an accommodating sleeve, and the tail end is provided with an internal thread; and

the driving device comprises a transmission sleeve and a driving motor, wherein the transmission sleeve and the driving motor are rotatably arranged in the other end of the accommodating sleeve, the first end of the transmission sleeve is provided with an external thread and screwed on the tail end, and the driving motor is arranged in the accommodating sleeve and is in transmission connection with the second end of the transmission sleeve.

Further, the accommodating sleeve, the pushing sleeve and the transmission sleeve are coaxially arranged.

Furthermore, the bottom of the bearing platform is provided with a sliding groove which is arranged below one end of the accommodating sleeve and is arranged along the axial direction of the accommodating sleeve, a sliding block is arranged in the sliding groove in a sliding manner, and the upper end of the lifting device is hinged to the sliding block.

Further, the pushing sleeve is in a polygonal prism shape, and the shape and the size of the inner cavity of the accommodating sleeve are matched with those of the pushing sleeve.

Furthermore, a driven gear is coaxially connected to a second end of the pushing sleeve, a through hole aligned with the driven gear is formed in the other end of the accommodating sleeve, the driving motor is fixedly arranged outside the accommodating sleeve, a driving gear is coaxially connected to an output end of the driving motor, and one side of the driving gear penetrates through the through hole and is meshed with the driven gear.

Furthermore, the bearing platform is provided with a through mounting hole, the driving motor is mounted in the mounting hole, and a protective cover is mounted at the hole of the mounting hole.

Further, the jig includes:

the two electric hydraulic push rods are arranged on the two opposite inner walls of the head end of the pushing sleeve, and the telescopic ends of the two electric hydraulic push rods are arranged oppositely; and

the two clamping plates are respectively connected to the telescopic ends of the two electric hydraulic push rods, and a clamping space for clamping the anchor cable is formed between the clamping plates.

Furthermore, the clamping plates are arc-shaped, and the inner arc surfaces of the two clamping plates are arranged oppositely.

The roller type hydraulic cylinder is characterized by further comprising a plurality of rollers, a plurality of blind holes are formed in the lower portion of the base, a hydraulic oil cylinder is installed in each blind hole, the rollers are installed at the telescopic ends of the hydraulic oil cylinder, the rollers extend to the outer portion of the blind holes after the hydraulic oil cylinder extends, and the rollers are folded in the blind holes after the hydraulic oil cylinder retracts.

The invention provides an anchor cable installation method, which comprises the following steps:

providing anchor cable construction auxiliary equipment, and installing the anchor cable construction auxiliary equipment at the outer side of an anchor cable hole of an anchor ingot so that the head end of a pushing sleeve is aligned to the anchor cable hole;

the anchor cable is arranged in the pushing sleeve in a penetrating mode, and the clamp clamps the anchor cable, so that the end portion of the anchor cable extends to the outside of the head end of the pushing sleeve;

the arrangement angle of the pushing sleeve is adjusted through the expansion and contraction of the two lifting devices, so that the pushing sleeve and the anchor cable hole are coaxially arranged;

starting a driving motor, wherein the driving motor drives the transmission sleeve to rotate, and the transmission sleeve pushes the pushing sleeve towards the anchor cable hole along the axial direction of the accommodating sleeve, so that the end part of the anchor cable penetrates through the anchor cable hole;

and after the end part of the anchor cable is arranged in the anchor cable hole in a penetrating way, the anchor cable is anchored in the anchor cable hole.

The auxiliary equipment for construction of the anchor cable has the advantages that when the anchor cable is installed in an anchor ingot, the anchor cable penetrates through the pushing sleeve, the clamp is clamped in the anchor cable, the arrangement angle of the pushing sleeve is adjusted through the two lifting devices, the anchor cable in the pushing sleeve is aligned to the anchor cable hole of the anchor ingot, the transmission sleeve is rotated through the driving motor, the pushing sleeve is pushed towards the direction of the anchor cable hole by the transmission sleeve, the anchor cable is stably inserted into the anchor cable hole of the anchor ingot, and anchoring construction efficiency of the anchor cable is improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a schematic structural diagram of an anchor cable construction auxiliary device according to an embodiment of the present invention.

Fig. 2 is a sectional view of the anchor rope construction assisting apparatus according to the embodiment of the present invention.

Fig. 3 is a schematic view illustrating a roller in a folded state according to an embodiment of the invention.

Fig. 4 and 5 are schematic diagrams of anchor cable pushing steps according to an embodiment of the present invention.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 to 5, the present invention provides an anchor cable construction assistance apparatus, including: cushion cap 1, base 2, propelling movement sleeve 3 and drive arrangement.

In the present embodiment, the receiving sleeve 11 is mounted on the upper portion of the platform 1. The base is arranged below the bearing platform. Specifically, two lifting devices 21 are mounted on the upper portion of the base 2. The lifting device 21 is vertically disposed. The two lifting devices 21 are respectively disposed below two ends of the accommodating sleeve 11. The upper ends of the two lifting devices 21 are respectively hinged with the bottom of the bearing platform 1.

The pushing sleeve 3 is used for the anchor cable 5 to penetrate through. The pushing sleeve has a head end and a tail end opposite to each other. A clamp 30 is installed in the head end of the push sleeve 3. The clamp 30 is used for clamping the anchor cable 5 which is arranged in the pushing sleeve in a penetrating way. The tail end of the pushing sleeve 3 is slidably disposed in one end of the accommodating sleeve 11, that is, the tail end of the pushing sleeve can only move along the axial direction of the accommodating sleeve. The tail end of the pushing sleeve is provided with an internal thread.

The drive means comprise a transmission sleeve 42 and a drive motor 41. The transmission sleeve 42 is rotatably mounted in the other end of the receiving sleeve 11. In this embodiment, the transmission sleeve is rotatably mounted in the other end of the receiving sleeve by a bearing 422. The bearing 422 is coaxially installed in the accommodating sleeve, and the transmission sleeve is inserted into the inner ring of the bearing 422. The transmission sleeve is provided with a first end and a second end which are opposite, and the middle part of the transmission sleeve is inserted into the inner ring of the bearing. The first end of the driving sleeve 42 is provided with external threads and screwed to the tail end of the pushing sleeve. The driving motor 41 is installed on the accommodating sleeve 11, and the driving motor 41 is connected to the second end of the transmission sleeve 42 in a transmission manner. The driving motor is used for rotating the transmission sleeve.

According to the auxiliary equipment for construction of the anchor cable, when the anchor cable is installed in the anchor ingot, the anchor cable penetrates through the pushing sleeve, the clamp is clamped on the anchor cable, the arrangement angle of the pushing sleeve is adjusted through the two lifting devices, so that the anchor cable in the pushing sleeve is aligned to the anchor cable hole of the anchor ingot, the transmission sleeve is rotated through the driving motor, the transmission sleeve pushes the pushing sleeve towards the direction of the anchor cable hole, the anchor cable is stably inserted into the anchor cable hole of the anchor ingot, and the anchoring construction efficiency of the anchor cable is improved.

In this embodiment, the base is a mobile base. Specifically, the anchor cable construction assistance device of the present invention further includes a plurality of rollers 22. Referring to fig. 3, the lower portion of the base 2 is formed with a plurality of blind holes. In this embodiment, the base is the rectangle, and the quantity of blind hole is four, and four blind holes set up respectively in four corners of base. The blind hole is vertically arranged, and an orifice of the blind hole is arranged downwards. The blind hole is provided with a hydraulic oil cylinder 23. The hydraulic oil cylinder 23 is provided with a fixed end and a telescopic end which are opposite, and the fixed end of the hydraulic oil cylinder is connected to the bottom of the blind hole. The rollers 22 are mounted to the telescopic ends of hydraulic rams 23. The roller is folded in the blind hole as shown in fig. 3. After hydraulic cylinder 23 extends, roller 22 extends to the outside of blind hole, and the rollers at four corners of base support whole anchor rope construction auxiliary assembly. Constructors can rapidly move the anchor cable construction auxiliary equipment to a construction position through the idler wheels. After the anchor cable construction auxiliary equipment moves to the construction position, in order to avoid the movement of the anchor cable construction auxiliary equipment, the hydraulic oil cylinder 23 contracts, and after the hydraulic oil cylinder contracts, the roller 22 is folded in the blind hole, so that the base is supported on the ground of the construction position, and the anchor cable construction auxiliary equipment cannot move.

As a preferred implementation mode, a storage battery is installed at the upper part of the base and provides power for the anchor cable construction auxiliary equipment.

In the present embodiment, the receiving sleeve 11, the pushing sleeve 3 and the transmission sleeve 42 are coaxially arranged.

As a preferred embodiment, the push sleeve 3 has a polygonal prism shape, and the shape and size of the inner cavity of the receiving sleeve 11 are adapted to the shape and size of the push sleeve 3. In this embodiment, the pushing sleeve has a hexagonal prism shape, and the inner cavity of the corresponding accommodating sleeve has a hexagonal prism shape, so that the pushing sleeve slidably disposed in the accommodating sleeve can only move along the axial direction of the accommodating sleeve, but cannot rotate in the accommodating sleeve.

As a preferred embodiment, the bottom of the platform 1 is provided with a chute. The chute is disposed below one end of the accommodating sleeve 11. The slide groove is provided along the axial direction of the accommodating sleeve 11. A slide block 24 is arranged in the sliding groove in a sliding way. Wherein the upper end of one lifting device 21 is hinged to a slide block 24.

In this embodiment, one lifting device is connected to the slide block through the hinge support, and the other lifting device is connected to the bottom of the bearing platform through the hinge support.

Referring to fig. 2, the lifting device includes a straight threaded sleeve, a threaded rod screwed to the straight threaded sleeve, and a lifting motor 211. The straight threaded sleeve has an open end and a closed end. The closed end of the straight thread sleeve is connected with the hinged support. The threaded rod is screwed in the opening end of the straight threaded sleeve. The straight thread sleeve is vertically arranged.

The upper part of the base is provided with a through hole. The through holes are vertically arranged. And a lifting motor is arranged at the bottom of the through hole. The output end of the lifting motor is vertically arranged. The threaded rod is rotatably arranged in the upper hole of the through hole through a bearing. The output end of the lifting motor is coaxially connected with the threaded rod.

When the height and the setting angle of the pushing sleeve are adjusted, the lifting motors of the two lifting devices respectively drive the straight thread sleeve to lift so as to adjust the setting angle and the setting height of the bearing platform.

As a preferred embodiment, a driven gear 421 is coaxially connected to the second end of the pushing sleeve 3. The other end of the accommodating sleeve 11 is provided with a through hole aligned with the driven gear 421. The driving motor 41 is fixedly arranged outside the accommodating sleeve 11. The output end of the driving motor 41 is coaxially connected with a driving gear 411. One side of the driving gear 411 is inserted into the through hole and extends into the receiving sleeve, and one side of the driving gear is engaged with the driven gear 421. The driving motor rotates forwards and backwards, so that the transmission sleeve pushes or pulls back the pushing sleeve.

In this embodiment, the platform 1 is provided with a through mounting hole. The driving motor 41 is installed in the installation hole. The opening of the mounting hole is provided with a protective cover 25. The driving motor is fixedly arranged outside the accommodating sleeve and embedded in the mounting hole.

As a preferred embodiment, the clamp 30 in the push sleeve comprises: two electro-hydraulic push rods 31 and two clamping plates 32. Specifically, two electro-hydraulic push rods 31 are respectively mounted on two opposite inner walls of the head end of the push sleeve 3. The electric hydraulic push rod is arranged along the radial direction of the pushing sleeve. The telescopic ends of the two electric hydraulic push rods 31 are arranged oppositely. The two clamping plates 32 are respectively connected to the telescopic ends of the two electro-hydraulic push rods 31. A clamping space for clamping the anchor cable 5 is formed between the two clamping plates 32.

In this embodiment, the clamping plate 32 is arcuate. The intrados of the two clamping plates 32 are arranged opposite to each other.

The invention provides an anchor cable installation method, which comprises the following steps:

s1: and providing an anchor cable construction auxiliary device, and installing the anchor cable construction auxiliary device at the outer side of the anchor cable hole of the anchor ingot, so that the head end of the pushing sleeve is aligned to the anchor cable hole.

Through the extension of hydraulic cylinder, the gyro wheel stretches out the blind hole of base for anchor rope construction auxiliary assembly passes through the gyro wheel and supports in ground. Constructors quickly move the anchor cable construction auxiliary equipment to the anchor ingot through the rollers, so that the pushing sleeve and the anchor cable hole of the anchor ingot are oppositely arranged.

S2: the anchor cable 5 is arranged in the pushing sleeve 3 in a penetrating mode, and the clamp 30 is clamped on the anchor cable 5, so that the end portion of the anchor cable 5 extends to the outside of the head end of the pushing sleeve 3.

Before the anchor cable is arranged in the pushing sleeve in a penetrating mode, the electric hydraulic push rod is contracted, and the distance between the two clamping plates is larger than the outer diameter of the anchor cable.

After the anchor cable penetrates through the pushing sleeve, the electric hydraulic push rod is extended, so that the two clamping plates are clamped on the anchor cable, and one end of the anchor cable extends to the outside of the pushing sleeve.

S3: the arrangement angle of the pushing sleeve 3 is adjusted through the expansion of the two lifting devices 21, so that the pushing sleeve 3 and the anchor cable hole are coaxially arranged.

Through the positive and negative rotation of elevator motor, adjust the height of straight thread sleeve for propelling movement sleeve and anchor rope hole coaxial setting.

S4: the driving motor 41 is started, the driving motor 41 drives the transmission sleeve 42 to rotate, and the transmission sleeve 42 pushes the pushing sleeve 3 towards the anchor cable hole along the axial direction of the accommodating sleeve 11, so that the end part of the anchor cable 5 penetrates through the anchor cable hole.

The driving motor rotates, the driving gear drives the driven gear, and then the transmission sleeve pushes the pushing sleeve towards the anchor cable hole, so that the anchor cable is inserted into the anchor cable hole.

S5: after the end of the anchor cable 5 is inserted into the anchor cable hole, the anchor cable 5 is anchored in the anchor cable hole.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention as referred to in the present application is not limited to the embodiments with a specific combination of the above-mentioned features, but also covers other embodiments with any combination of the above-mentioned features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (10)

1. An anchor rope construction auxiliary device, comprising:

the upper part of the bearing platform is provided with an accommodating sleeve;

the base is vertically provided with two lifting devices, the two lifting devices are respectively arranged at two ends of the accommodating sleeve, and the upper ends of the two lifting devices are respectively hinged to the bottom of the bearing platform;

the cable pushing device comprises a pushing sleeve for an anchor cable to penetrate through, wherein a clamp for clamping the anchor cable is installed in the head end of the pushing sleeve, the tail end of the pushing sleeve is slidably arranged in one end of an accommodating sleeve, and the tail end is provided with an internal thread; and

the driving device comprises a transmission sleeve and a driving motor, wherein the transmission sleeve and the driving motor are rotatably arranged in the other end of the accommodating sleeve, the first end of the transmission sleeve is provided with an external thread and screwed on the tail end, and the driving motor is arranged in the accommodating sleeve and is in transmission connection with the second end of the transmission sleeve.

2. The anchor rope construction aid of claim 1, wherein the receiving sleeve, the push sleeve and the transmission sleeve are coaxially disposed.

3. The anchor cable construction auxiliary equipment as claimed in claim 1, wherein a sliding groove is formed at a bottom of the bearing platform, the sliding groove is disposed below one end of the receiving sleeve and is disposed along an axial direction of the receiving sleeve, a sliding block is slidably disposed in the sliding groove, and an upper end of a lifting device is hinged to the sliding block.

4. The anchor line construction aid of claim 1, wherein the push sleeve is polygonal prism shaped, and the shape and size of the inner cavity of the receiving sleeve is adapted to the shape and size of the push sleeve.

5. The anchor cable construction auxiliary device as claimed in claim 1, wherein a driven gear is coaxially connected to the second end of the pushing sleeve, a through hole aligned with the driven gear is formed in the other end of the accommodating sleeve, the driving motor is fixedly disposed outside the accommodating sleeve, a driving gear is coaxially connected to an output end of the driving motor, and one side of the driving gear is inserted into the through hole and meshed with the driven gear.

6. The anchor cable construction auxiliary equipment as claimed in claim 5, wherein the bearing platform is provided with a through mounting hole, the driving motor is mounted in the mounting hole, and a protective cover is mounted at an opening of the mounting hole.

7. The anchor line construction aid of claim 1, wherein the clamp comprises:

the two electric hydraulic push rods are arranged on the two opposite inner walls of the head end of the pushing sleeve, and the telescopic ends of the two electric hydraulic push rods are arranged oppositely; and

the two clamping plates are respectively connected to the telescopic ends of the two electric hydraulic push rods, and a clamping space for clamping the anchor cable is formed between the clamping plates.

8. The anchor rope construction assistance device of claim 7, wherein the clamping plates are arcuate, and the intrados of the two clamping plates are disposed opposite one another.

9. The anchor cable construction auxiliary equipment as claimed in claim 1, further comprising a plurality of rollers, wherein a plurality of blind holes are formed in the lower portion of the base, a hydraulic cylinder is installed in each blind hole, the rollers are installed at the telescopic end of the hydraulic cylinder, the rollers extend to the outside of the blind holes after the hydraulic cylinder extends, and the rollers are folded in the blind holes after the hydraulic cylinder retracts.

10. A cable bolt installation method is characterized by comprising the following steps:

providing the anchor cable construction auxiliary equipment as claimed in any one of claims 1 to 9, installing the anchor cable construction auxiliary equipment outside the anchor cable hole of the anchor ingot so that the head end of the pushing sleeve is aligned with the anchor cable hole;

the anchor cable is arranged in the pushing sleeve in a penetrating mode, and the clamp clamps the anchor cable, so that the end portion of the anchor cable extends to the outside of the head end of the pushing sleeve;

the arrangement angle of the pushing sleeve is adjusted through the expansion and contraction of the two lifting devices, so that the pushing sleeve and the anchor cable hole are coaxially arranged;

starting a driving motor, wherein the driving motor drives the transmission sleeve to rotate, and the transmission sleeve pushes the pushing sleeve towards the anchor cable hole along the axial direction of the accommodating sleeve, so that the end part of the anchor cable penetrates through the anchor cable hole;

and after the end part of the anchor cable is arranged in the anchor cable hole in a penetrating way, the anchor cable is anchored in the anchor cable hole.

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