CN208632053U - A kind of ancillary equipment of lowering anchor cable - Google Patents

Abstract

The utility model discloses a kind of ancillary equipments of lowering anchor cable, including pedestal；Moving device for driving the ancillary equipment to advance, is set to the bottom of the pedestal；With can oscilaltion hoistable platform, be set to the top of the pedestal；Wherein, the hoistable platform includes job platform, and lower rope device is provided on the job platform；Wherein, the lower rope device includes sliding rail, and the bottom of the sliding rail and the job platform are hinged；For driving the sliding rail to rotate so that the sliding rail and the job platform are set on the job platform and are connected with the sliding rail in the first driving device of an angle；Rope slot is sent, is slidably connected in the sliding rail；With for drive it is described send rope slot in the second driving device slided in the sliding rail, be set in the sliding rail and send rope slot to be connected with described.It is intended to effectively drop low lowering anchor cable difficulty of construction, reduces the construction hidden danger in lowering anchor cable work progress to a certain extent.

Description

A kind of ancillary equipment of lowering anchor cable

Technical field

The utility model relates to geotechnical anchor engineering technical field more particularly to a kind of ancillary equipments of lowering anchor cable, use In the long weight anchor rope strengthening construction for assisting large-scale side slope.

Background technique

Prestress anchorage cable refers to the strand bracket for taking prestressing method anchorage cable anchoring inside rock mass, is used for reinforcing edge The prestress wire on slope.Anchor cable is anchored into rock mass by anchor head by the hole of rock mass weak structural face, gliding mass and firm ground It is linked togather, to change the stress state of slope rock mass, sliding resistance is directly generated on sliding surface, increase antiskid friction resistance Power makes structural plane be in impaction state, to improve the globality of slope rock mass, to fundamentally improve the mechanical property of rock mass Can, the displacement of rock mass is efficiently controlled, its stabilization is promoted, achievees the purpose that renovate concordant, landslide and crag, danger stone, improves side The globality and intensity of slope unstable rock mass.When construction prestressed cable, special tension device and equipment are needed.

Anchor cable obtains very extensive application in geotechnical engineering reinforcing at present, and lowering anchor cable is constructed usually using under fashioned iron Suo Pingtai or crane cooperation manually carry out lower rope construction.

Using rope under Suo Pingtai under fashioned iron, trolley height, Suo Pingtai under fashioned iron need to be often adjusted according to on-site actual situations It need to be moved by other mechanical equipments, and anchor cable hole, to different above and below angle, lower rope difficulty is big, flat during lowering anchor cable Platform shaking is larger, threatens the safety of construction personnel, and to placing, basic flatness requirement is high.

Using the artificial lower rope of crane cooperation, when lower rope, needs two crane (one is manned, a ring rope) coordinative constructions, under Rope working space is small, and personnel's operation difficulty is big, and anchor cable hole is to different above and below angle, and cable body is not easy to enter hole along axially bored line, and easily Damage, construction safety hidden danger are prominent.

Utility model content

The purpose of this utility model is to provide a kind of ancillary equipments of lowering anchor cable, it is intended to effectively drop low lowering anchor cable Difficulty of construction reduces the construction hidden danger in lowering anchor cable work progress to a certain extent.

The above-mentioned purpose of the utility model has the technical scheme that

A kind of ancillary equipment of lowering anchor cable, including pedestal；For driving or stopping the traveling for stopping the ancillary equipment and advancing Device is set to the bottom of the pedestal；With can oscilaltion hoistable platform, be set to the top of the pedestal；Wherein, institute Stating hoistable platform includes job platform, and lower rope device is provided on the job platform；Wherein, the lower rope device includes sliding Rail, the bottom of the sliding rail and the job platform are hinged；For driving the sliding rail to rotate so that the sliding rail and the work Industry platform is in the first driving device of an angle, is set on the job platform and is connected with the sliding rail；Send rope Slot is slidably connected in the sliding rail；With for drive it is described send rope slot in the second driving device slided in the sliding rail, if It is placed in the sliding rail and send rope slot to be connected with described.

Preferably, the hoistable platform further includes scissor-type lifting mechanism, is set to the job platform and the pedestal Between；For driving the scissor-type lifting mechanism to execute the third driver of stretching, extension or contractive action, cut with described Fork elevating mechanism is connected；Wherein, the scissor-type lifting mechanism is provided with multistage shear arm group.

Preferably, the shear arm group is set as three-level.

Preferably, the moving device includes the driving wheel for providing the active force of traveling for the moving device, if It is placed in the bottom of the pedestal；For providing the driven wheel of the steering of traveling for the moving device, it is set to the pedestal Bottom；No less than three hydraulic legs are set to the bottom setting of the pedestal.

Preferably, the driving wheel includes rotation axis, is rotatably connected on the bottom of the pedestal, and the rotation axis is only Around the central axes rotation of its own；Fourth drive device for driving the rotation axis to rotate, is set on the pedestal, and It is sequentially connected with the rotation axis；With several first wheels, at least two first wheels in several first wheels are coaxial It is fixedly connected in the rotation axis.

Preferably, the driven wheel includes rotary shaft, and middle part is rotatably connected on the bottom of the pedestal, and the rotary shaft Only revolve around its own rotation point being rotatablely connected with the pedestal in the lower section of the pedestal；With several second wheels, if It does at least two second wheels in second wheel and rotates coaxially and be connected in the rotary shaft.

As the improvement of the technical program, the surrounding of the job platform is provided with guardrail.

As the improvement of the technical program, it is provided on the pedestal and is climbed for operating personnel to what the job platform was climbed Ladder.

As the improvement of the technical program, bail is removably connected in the rotary shaft.

Beneficial effects of the present invention:

One, the ancillary equipment can drive automatic moving and hoistable platform lift work platform, energy by fourth drive device Effectively solve anchor cable construction process ancillary equipment frequently mobile and lowering anchor cable height different problems；

Two, after this ancillary equipment is placed steadily in predetermined job location, pass through first driving device and drive sliding rail rotation To adjust the lower rope angle for sending rope slot, make that the axis of rope slot and anchor cable axially bored line is sent to be arranged on same straight line, job platform Lower rope device can effectively solve angle different problems when lowering anchor cable.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is the side view of the utility model embodiment；

Fig. 2 is the rearview after the utility model embodiment hides part-structure on pedestal and hydraulic leg；

Fig. 3 is the drawing of the connection otic placode in Fig. 2 at A；

Fig. 4 is the enlarged drawing in the portion B in Fig. 2；

Fig. 5 is the front view of the utility model embodiment；

Fig. 6 is the drawing in Fig. 5 at C, it is intended to show the connection structure of rotary shaft and pedestal rotation connection；

Fig. 7 is the top view of the utility model embodiment；

Fig. 8 is the enlarged drawing in the portion D in Fig. 5；

Fig. 9 is the schematic diagram that the sliding rail of the utility model embodiment is overturn when being driven by first driving device；

Figure 10 is the drawing in the portion E in Fig. 7, it is intended to the connection of the rotation connection of the inner sidewall of display thread lead screw and sliding rail Structure.

Appended drawing reference: 1, pedestal；11, connection otic placode；12, first sliding groove；2, driving wheel；21, rotation axis；221, the first rotation Rotating motor；222, first bevel gear；223, transmission shaft；224, second bevel gear；225, third hand tap gear；226, the 4th cone tooth Wheel；23, the first wheel；3, driven wheel；31, rotary shaft；32, the second wheel；33, first end cover；34, first bearing；35, second End cap；36, second bearing；37, connecting shaft；4, hydraulic leg；5, job platform；51, guardrail；52, second sliding slot；6, scissor-type Elevating mechanism；61, connecting rod；62, rotating bar；71, second hydraulic cylinder；72, first connecting rod；73, the second connecting rod；74, third Connecting rod；75, the 4th connecting rod；81, sliding rail；821, first hydraulic cylinder；83, rope slot is sent；841, thread lead screw；842, the second rotation Rotating motor；85, third end cap；86,3rd bearing；9, bail；92, ladder；93, control cabinet.

Specific embodiment

In the following detailed description, many details are proposed, in order to complete understanding of the present invention.But It will be apparent to those skilled in the art that bright can be the case where not needing some details in these details Lower implementation.Below to the description of embodiment just for the sake of provided by showing example of the invention to it is of the invention preferably Understand.

Below in conjunction with attached drawing, the technical solution of the embodiment of the present invention is described.

Embodiment

As shown in Figure 1, a kind of ancillary equipment of lowering anchor cable, including pedestal 1, moving device, hoistable platform and lower rope dress It sets

In the present embodiment, pedestal 1 is set as rectangular panel.

The bottom of pedestal 1 is arranged in moving device, for driving the ancillary equipment of this lowering anchor cable to advance, and with rectangle The length direction of panel is direction of travel.For the ease of more clearly illustrating the ancillary equipment of this lowering anchor cable, in order to Those skilled in the art understand that the embodiment, define the pedestal 1 of the rectangular panel along its length on one end be this anchor The head end, the other end of the ancillary equipment of rope are the tail end of the ancillary equipment of this lowering anchor cable under rope.It should be pointed out that this is not It is the restriction to this implementation.Moving device can be crawler type traveling or wheel type is advanced, it is preferable that moving device uses wheel Formula is advanced.Moving device includes driving wheel 2 and driven wheel 3, is arranged on the bottom of pedestal 1, and along this lowering anchor cable Ancillary equipment direction of travel setting.Wherein, driving wheel 2 is used to provide the active force of traveling for moving device, close to this The tail end of the ancillary equipment of lowering anchor cable is arranged；Driven wheel 3 is used to provide the steering of traveling for moving device, close to this anchor cable The head end of the ancillary equipment of lower rope is arranged.Certainly, in other embodiments, moving device can be by the way of crawler belt traveling.

As depicted in figs. 1 and 2, driving wheel 2 includes rotation axis 21, fourth drive device and the first wheel 23.

On the bottom of pedestal 1 along its length on two sides setting there are two opposite connection otic placode 11, and two connections Otic placode 11 is arranged close to the tail end of the ancillary equipment of this lowering anchor cable, in conjunction with Fig. 3, offers through hole in connection otic placode 11, Rotation axis 21 is arranged in the through hole of two connection otic placodes 11 simultaneously, so that rotation axis 21 is rotatably connected on the bottom of pedestal 1 Portion, only around the central axes rotation of its own.In conjunction with Fig. 4, fourth drive device is for driving the rotation of rotation axis 21, including first Rotating electric machine 221 is fixedly connected on pedestal 1, it is preferable that the first rotating electric machine 221 selects servo motor, the first rotating electric machine It has been fixedly and coaxially connected first bevel gear 222 on 221 output shaft, transmission shaft 223, transmission shaft are rotatably connected on pedestal 1 It has been fixedly and coaxially connected second bevel gear 224 and third hand tap gear 225 on 223, has been fixedly and coaxially connected the 4th in rotation axis 21 Bevel gear 226, wherein first bevel gear 222 and second bevel gear 224 are meshed, third hand tap gear 225 and the 4th bevel gear 226 are meshed.In the present embodiment, the first wheel 23 is set as two, it is preferable that two the first wheels 23 correspond together respectively Axis is fixedly connected on the both ends of rotation axis 21.In other embodiments, the first wheel 23 can be set to multiple, and coaxial solid Surely it is connected in rotation axis 21.Start the first rotating electric machine 221, output shaft rotation, and first bevel gear 222 driven to rotate, First bevel gear 222 drives second bevel gear 224 to rotate, and transmission shaft 223 and third hand tap gear 225 is driven to rotate, third Bevel gear 225 drives the rotation of the 4th bevel gear 226, and drives rotation axis 21 to rotate, and make first vehicle at 21 both ends of rotation axis 23 rotation of wheel, to provide the active force of traveling for moving device.

As shown in Figure 1 and Figure 5, driven wheel 3 includes rotary shaft 31 and the second wheel 32.

In conjunction with Fig. 6, first end cover 33 has been bolted on the center line on the bottom of pedestal 1 along its length, Its one end molding first accommodating cavity of setting far from pedestal 1, and first end cover 33 is close to the ancillary equipment of this lowering anchor cable Head end is arranged, and being fitted into first accommodating cavity has first bearing 34, passes through bolt at the middle point along the axial direction of rotary shaft 31 It is connected with second end cover 35, the second accommodating cavity is arranged in one end molding far from rotary shaft 31, and setting is embedding in second accommodating cavity Conjunction has second bearing 36, wherein the inner ring of first bearing 34 and the inner ring of second bearing 36 are connected by a connecting shaft 37, specifically , one end of connecting shaft 37 is fixedly and coaxially connected in the inner ring of first bearing 34, the other end is fixedly and coaxially connected in the second axis It holds in 36 inner ring, so that rotary shaft 31 is rotatably connected on the bottom of pedestal 1, only around its own and the rotation connection of pedestal 1 It rotates the lower section put in pedestal 1 and revolves in the plane for being parallel to pedestal 1.In the present embodiment, the second wheel 32 is set as two It is a, it is preferable that two the second wheels 32 correspond respectively rotates coaxially the both ends for being connected to rotary shaft 31.In other embodiments In, the second wheel 32 can be set to multiple, and be fixedly and coaxially connected in rotary shaft 31.

For the ease of manufacturing processing and assembling, in the present embodiment, rotation axis 21 and rotary shaft 31 are arranged same In plane, the first wheel 23 is consistent with the model specification of the second wheel 32.

When the ancillary equipment of this lowering anchor cable reaches near anchor cable hole, when needing lower rope, simple leans on above-mentioned traveling There may be certain shaking risks for device support, as shown in Figure 1, therefore at four of the bottom of the pedestal of the rectangular panel 1 It is provided with hydraulic leg 4 on angle, when reaching operating location, is stretched out by the piston rod of hydraulic leg 4, by pedestal 1 and row It is hanging into device, and the ancillary equipment of this lowering anchor cable is supported to keep it more firm, it reduces and shakes.

Construction operation building site operating condition is complex, and the ancillary equipment of this lowering anchor cable may sometimes get down hopeless in a quagmire In, and the moving device for relying solely on itself is difficult to climb out of, and leads as shown in figure 5, being therefore removably connected in rotary shaft 31 Draw ring 9, it climbs out of mud pit in order to which other operating equipments such as crane connect with the ancillary equipment of this lowering anchor cable traction, preferably Ground, bail 9 are in " Y " font, are had contact in being provided on the end of two bifurcateds, this, which has contact with, is hooked in rotary shaft 31.

As shown in Figure 1 and Figure 5, the top of pedestal 1 is arranged in hoistable platform, can oscilaltion, including job platform 5, cut Fork elevating mechanism 6 and third driving device.

The surrounding that job platform 5 faces away from the extension of 6 side of scissor-type lifting mechanism is provided with guardrail 51, and pedestal 1 is set It is equipped with the ladder 92 climbed for operating personnel to job platform 5, in the present embodiment, the tail end of pedestal 1 is arranged in ladder 92.

Scissor-type lifting mechanism 6 is set between job platform 5 and pedestal 1, by the stretching, extension of scissor-type lifting mechanism 6 or Contraction drives job platform 5 to rise or fall.In the present embodiment, scissor-type lifting mechanism 6 is provided with three-level shear arm group.Often Level-one shear arm group include rotating bar 62 it is identical with two sets and be parallel to each other, 1 two sides of pedestal are arranged in mirror symmetry In the scissor component of " X " type, the scissor component of every level-one is hinged on the connecting rod in rotating bar 62 with revolute pair by two middle parts 61 compositions, adjacent two layers scissor component are hinged by the linkwork that 61 both ends of connecting rod are arranged in.Bottom scissor group One end of a connecting rod 61 in part and the pedestal 1 is hinged, one end of another connecting rod 61 be slidably connected on pedestal 1 the In one sliding slot 12, one end of a connecting rod 61 in top scissor component and the pedestal 1 hinged, another connecting rod 61 one In the second sliding slot 52 for holding the bottom for being slidably connected at job platform 5.For the ease of more clearly illustrating this lowering anchor cable Ancillary equipment, in order to those skilled in the art understand that the embodiment, from pedestal 1 to job platform 5, number is followed successively by and cuts for definition First order shear arm group, second level shear arm group and the third level shear arm group of fork elevating mechanism 6.It is pointed out that this It is not the restriction to the present embodiment.In other embodiments, the shear arm group of scissor-type lifting mechanism 6 can according to need setting More or less grades.

Third driving device is used to drive the stretching, extension or contraction of scissor-type lifting mechanism 6, in the present embodiment, third driving Device includes four second hydraulic cylinders 71.In four connecting rods 61 of two sets of scissor components in first order shear arm group, wherein one It is fixed between a connecting rod 61 of mirror symmetry therewith in a connecting rod 61 and another scissor component in a scissor component It is connected with first connecting rod 72；In four connecting rods 61 of two sets of scissor components in the shear arm group of the second level, wherein a scissor It is fixedly connected between a connecting rod 61 of mirror symmetry therewith in a connecting rod 61 and another scissor component in component Second connecting rod 73, another connecting rod 61 in a scissor component in another scissor component mirror symmetry therewith it is another Third connecting rod 74 is fixedly connected between one connecting rod 61；Four connecting rods of two sets of scissor components in the shear arm group of the second level In 61, wherein a company of mirror symmetry therewith in a connecting rod 61 in a scissor component and another scissor component The 4th connecting rod 75 is fixedly connected between bar 61；Wherein, first connecting rod 72 and the interlaced setting of the second connecting rod 73, position In 62 two sides of rotating bar of first order shear arm group, third connecting rod 74 and the interlaced setting of the 4th connecting rod 75 are located at the 62 two sides of rotating bar of second level shear arm group.The tail of the cylinder body of two of them second hydraulic cylinder 71 in four second hydraulic cylinders 71 End is rotatably connected on first connecting rod 72, the extension end of piston rod is rotatably connected in the second connecting rod 73, four the second liquid The tail end of the cylinder body of wherein another two second hydraulic cylinder 71 in cylinder pressure 71 is rotatably connected on first connecting rod 72, piston rod Extension end be rotatably connected in the second connecting rod 73, the cylinder of other two second hydraulic cylinder 71 in four second hydraulic cylinders 71 The tail end of body is rotatably connected in third connecting rod 74, the extension end of piston rod is rotatably connected in the 4th connecting rod 75.At it In his embodiment, third driving device can record the more second hydraulic cylinders 71 of equivalence setting according to above, to meet power need It wants, those skilled in the art are easy to therefrom be enlightened and implemented.

Before needing to carry out lowering anchor cable operation, the piston rod of four second hydraulic cylinders 71 retracts at the same time, and drives scissor lift Mechanism is shunk, and job platform 5 is driven to drop to minimum point, and construction personnel first climbs the mountain job platform 5 from ladder 92.Then four The piston rod of two hydraulic cylinders 71 stretches out simultaneously, and driving scissors-type lifting stretching, extension drives job platform 5 to rise to assignment height Degree.

As shown in Figure 1 and Figure 5, lower rope device is arranged on job platform 5, for assisting lowering anchor cable, including sliding rail 81, First driving device send rope slot 83 and the second driving device.

It in conjunction with Fig. 7, is in U shape when job platform 5 is overlooked, the ancillary equipment being open towards this lowering anchor cable Front end, two sides are in mirror symmetry, and the bottom of sliding rail 81 and job platform 5 are hinged, and hinge joint is located at the symmetry axis of job platform 5 On.Further combined with Fig. 5 and Fig. 8, the cross section of sliding rail 81 is in U shape, the track of open side, that is, sliding rail 81, and the cross Section is also provided with deep gouge in the bottom of the track of the sliding rail 81 of U shape.With continued reference to Fig. 1 and Fig. 5, first driving device For driving sliding rail 81 to rotate so that sliding rail 81 and job platform 5 are in an angle (Fig. 9 signal), be set on job platform 5, And be connected with sliding rail 81, in the present embodiment, first driving device is first hydraulic cylinder 821, the cylinder body of first hydraulic cylinder 821 Tail portion and job platform 5 be hinged, the bottom of piston rod extension end and sliding rail 81 is hinged.Rope slot 83 is sent to be slidably connected at sliding rail In 81 track.Second driving device send rope slot 83 to slide in sliding rail 81 for driving, be set in sliding rail 81 and with give Rope slot 83 is connected, and the second driving device includes thread lead screw 841 and the second rotating electric machine 842, wherein the second driving motor is set It sets in one end of sliding rail 81, wherein thread lead screw 841 is arranged in the deep gouge of the rail base of sliding rail 81, and one end is rotatablely connected On the inner sidewall of the end of sliding rail 81, the output shaft of the other end and the second driving motor is fixedly and coaxially connected.In conjunction with Fig. 7 and figure 10, in the present embodiment, rotation connection is accomplished by the following way in the inner sidewall of the end of thread lead screw 841 and sliding rail 81, in Third end cap 85 is provided on the inner sidewall of the end of sliding rail 81, one end molding of the inner sidewall of the end far from sliding rail 81 is set Third accommodating cavity is set, being fitted into third accommodating cavity has 3rd bearing 86, and the one end of thread lead screw 841 far from the second driving motor is solid Surely it is connected in the inner ring of 3rd bearing 86.The bottom of rope slot 83 is sent to be threadedly coupled with thread lead screw 841.

When the ancillary equipment of this lowering anchor cable reaches assignment place under moving device driving, passing through lifting Then one end of the cable body of anchor cable is placed in and send in rope slot 83, then so as to construction personnel's operation by the specified altitude assignment that platform rises Restart first hydraulic cylinder 821, so that sliding rail 81 is overturn, so that sliding rail 81 is aligned with anchor cable hole, then starts the second electric rotating Machine 842, the second rotating electric machine 842 drive thread lead screw 841 rotate so that send rope slot 83 moved in thread lead screw 841 and to Anchor cable hole is close, and the cable body of anchor cable is driven to enter anchor cable hole.

As shown in Figure 1, the bottom of pedestal 1 is fixedly connected with control cabinet 93, for control moving device, hoistable platform and/ Or lower rope device operating.

Although reference be made herein to invention has been described for explanatory embodiment of the invention, and above-described embodiment is only this hair Bright preferable embodiment, embodiment of the present invention are not limited by the above embodiments, it should be appreciated that those skilled in the art Member can be designed that a lot of other modification and implementations, these modifications and implementations will fall in principle disclosed in the present application Within scope and spirit.

Claims (9)

1. a kind of ancillary equipment of lowering anchor cable, which is characterized in that including

Pedestal (1)；

For driving or stopping the moving device for stopping the ancillary equipment and advancing, it is set to the bottom of the pedestal (1)；With

Can oscilaltion hoistable platform, be set to the top of the pedestal (1)；

Wherein, the hoistable platform includes job platform (5), is provided with lower rope device on the job platform (5)；

Wherein, the lower rope device includes

Sliding rail (81), the bottom and the job platform (5) of the sliding rail (81) are hinged；

For driving the sliding rail (81) to rotate so that the sliding rail (81) and the job platform (5) are driven in the first of an angle Dynamic device, is set on the job platform (5) and is connected with the sliding rail (81)；

Rope slot (83) are sent, are slidably connected in the sliding rail (81)；With

For driving second driving device for sending sliding in rope slot (83) Yu Suoshu sliding rail (81), it is set to the sliding rail (81) rope slot (83) is sent to be connected in and with described.

2. the ancillary equipment of lowering anchor cable according to claim 1, which is characterized in that the hoistable platform further includes

Scissor-type lifting mechanism (6) is set between the job platform (5) and the pedestal (1)；

It is and described for driving the scissor-type lifting mechanism (6) to execute the third driving device of stretching or contractive action Scissor-type lifting mechanism (6) is connected；

Wherein, the scissor-type lifting mechanism (6) is provided with multistage shear arm group.

3. the ancillary equipment of lowering anchor cable according to claim 2, which is characterized in that the shear arm group is set as three Grade.

4. the ancillary equipment of lowering anchor cable according to claim 1, which is characterized in that the moving device includes

For providing the driving wheel (2) of the active force of traveling for the moving device, it is set to the bottom of the pedestal (1)；

For providing the driven wheel (3) of the steering of traveling for the moving device, it is set to the bottom of the pedestal (1)；With

No less than three hydraulic legs (4), are set to the bottom of the pedestal (1).

5. the ancillary equipment of lowering anchor cable according to claim 4, which is characterized in that the driving wheel (2) includes

Rotation axis (21) is rotatably connected on the bottom of the pedestal (1), and the rotation axis (21) is only around the axis of its own Line rotation；

For drive the rotation axis (21) rotate fourth drive device, be set on the pedestal (1), and with the rotation Axis (21) transmission connection；With

Several first wheels (23), at least two first wheels (23) in several first wheels (23) are fixedly and coaxially connected In on the rotation axis (21).

6. the ancillary equipment of lowering anchor cable according to claim 4, which is characterized in that the driven wheel (3) includes

Rotary shaft (31), middle part are rotatably connected on the bottom of the pedestal (1), and the rotary shaft (31) only around its own with The rotation point of pedestal (1) rotation connection revolves in the lower section of the pedestal (1)；With

Several second wheels (32), at least two second wheels (32) in several second wheels (32) rotate coaxially connection In on the rotary shaft (31).

7. according to claim 1 to the ancillary equipment of lowering anchor cable described in 6 any one, which is characterized in that the operation horizontal The surrounding of platform (5) is provided with guardrail (51).

8. according to claim 1 to the ancillary equipment of lowering anchor cable described in 6 any one, which is characterized in that the pedestal (1) On be provided with the ladder (92) climbed for operating personnel to the job platform (5).

9. the ancillary equipment of lowering anchor cable according to claim 6, which is characterized in that be detachably connected in the rotary shaft There are bail (91).