CN214196178U - Construction platform - Google Patents

Abstract

The utility model belongs to the technical field of the construction, a construction platform is disclosed, including platform, drilling rod, single-column pylon, rig, hoist subassembly, removal subassembly and drive assembly. The drill rod can be driven to lift through the matching of the hoisting assembly and the single-column tower. Before drilling construction is carried out, the drill rods can be lifted and spliced according to the required drilling depth until the length of the drill rods meets the drilling requirement, the drill rods do not need to be repeatedly spliced in the drilling process, a large amount of time is saved, and the construction efficiency is improved. After drilling is completed, the drill rod can be lifted by the winch assembly in cooperation with the single-column tower, so that the drill rod is pulled out of the drilled hole, the cooperation of a crane is not needed, and the construction cost is reduced. The drilling machine is arranged on the platform, the moving assembly is driven to operate through the driving module, and the platform is moved, so that the drilling machine is moved under the condition that a special crane is not needed, and the construction cost is further reduced.

Description

Construction platform

Technical Field

The utility model relates to a construction technical field especially relates to a construction platform.

Background

The omnibearing high-pressure jet method is called as a short term, and is widely applied to foundation reinforcement construction because of the advantages of small influence of construction on the environment, large effective reinforcement depth, reliable reinforcement effect, changeable reinforcement section shape and the like. However, in the foundation stabilization construction process, the construction displacement of the drilling machine and the pulling of the drill rod from the drill hole are carried out in a matching way by a crane, so that the construction cost is increased, and the drill rod is formed by splicing single drill rods with the length of 1.5m, so that the drill rod needs to be repeatedly spliced in the drilling process when the drilling depth is large, and a large amount of time is wasted.

Therefore, a construction platform is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a construction platform realizes that rig construction aversion does not need the crane cooperation, need not relapse the continuous drilling rod that connects among the drilling process, promotes the efficiency of construction.

To achieve the purpose, the utility model adopts the following technical proposal:

a construction platform comprising:

a platform;

a drill rod for drilling a hole;

a single-column tower disposed on the platform, the single-column tower for suspending the drill pipe;

a drilling machine fixed on the platform, wherein the drilling machine can drive the drill rod to drill a hole;

the hoisting assembly is detachably connected with the drill rod and can be matched with the single-column tower frame to drive the drill rod to lift;

the moving assembly is arranged at the bottom of the platform;

and the driving component is arranged on the platform and is in transmission connection with the moving component, and the driving component is used for driving the moving component to operate so as to enable the platform to move.

Preferably, the hoisting assembly comprises:

a main winch fixed to the platform;

the first fixed pulley is fixed at the top of the single-column tower;

and one end of the main steel wire rope is connected to the main winch, and the other end of the main steel wire rope is detachably connected with the top end of the drill rod by winding the first fixed pulley.

Preferably, the tower further comprises two inclined struts, the two inclined struts are respectively arranged on two sides of the single-column tower and are arranged at included angles, the top ends of the inclined struts are movably connected with the single-column tower and can swing relative to the single-column tower, and the bottom ends of the inclined struts are connected to the platform.

Preferably, the single-column tower is hinged to the platform, the construction platform further comprises an adjusting assembly, two ends of the adjusting assembly respectively act on the inclined strut and the platform, and the adjusting assembly is used for driving the inclined strut to move along the axial direction of the inclined strut so as to adjust the verticality of the single-column tower.

Preferably, the adjusting assembly comprises a connecting portion and a screw rod, one end of the connecting portion is hinged to the platform, the other end of the connecting portion is in threaded connection with one end of the screw rod, the other end of the screw rod is in threaded connection with the inclined strut, and the screw rod can drive the inclined strut to move axially along the inclined strut when rotated.

Preferably, the construction platform further comprises a jacking device, wherein the jacking device is arranged on the two sides of the front end and the rear end of the platform and used for driving the platform to lift.

Preferably, the moving assembly includes a first roller and a second roller, which are respectively disposed at a front end and a rear end of the platform.

Preferably, the driving assembly includes a first auxiliary hoist and a second auxiliary hoist;

the second auxiliary winch is in transmission connection with the second roller and is used for driving the second roller to rotate so as to drive the platform to move back and forth;

the first auxiliary winch is matched with the second auxiliary winch and can drive the platform to move left and right along the first roller and the second roller.

Preferably, the construction platform further comprises a distribution box, and the drilling machine, the main winch, the first auxiliary winch and the second auxiliary winch are electrically connected with the distribution box.

Preferably, the construction platform further comprises a backing plate arranged below the moving assembly along the length direction of the platform.

The utility model has the advantages that:

the utility model provides a construction platform, hoist subassembly and single-column pylon cooperation can order about the drilling rod and go up and down. Before drilling, the hoisting assembly can be used for being matched with the single-column tower frame to lift and splice the drill rod according to the required drilling depth, the drill rod is required to be drilled according to the length of the drill rod, the drill rod does not need to be repeatedly spliced in the drilling process, a large amount of time is saved, and the construction efficiency is improved. After drilling is completed, the drill rod can be pulled out of the drilled hole through the winch assembly and the single-column tower without the cooperation of a crane, and the construction cost is reduced. The drilling machine is arranged on the platform, the moving assembly is driven to operate through the driving module, and the platform is moved, so that the drilling machine is moved under the condition that a special crane is not needed, and the construction cost is further reduced.

Drawings

FIG. 1 is a front view of a construction platform provided by the present invention;

fig. 2 is a left side view of the construction platform provided by the present invention;

fig. 3 is a schematic structural diagram of a driving assembly provided by the present invention;

fig. 4 is a top view of the construction platform provided by the present invention when it is shifted to the right;

fig. 5 is a top view of the construction platform provided by the present invention when it is shifted to the left;

fig. 6 is a top view of the construction platform when it is shifted forward and backward.

In the figure:

1. a platform;

2. a drill stem; 21. a first hook;

3. a single-column tower; 31. a guide frame;

4. a drilling machine;

5. a hoisting assembly; 51. a main hoist; 52. a first fixed pulley; 53. a main wire rope;

6. a moving assembly; 61. a first drum; 62. a second drum;

7. a drive assembly;

71. a first auxiliary hoist; 72. a second pair of winches; 73. a first pair of wire ropes; 731. a second hook; 74. a second pair of wire ropes; 741. a third hook; 75. a second fixed pulley;

76. a first right guide pulley block; 761. a first guide pulley; 762. a second guide pulley;

77. a second right guide pulley block; 771. a third guide pulley; 772. a fourth guide pulley;

78. a first left guide pulley block; 781. a fifth guide pulley; 782. a sixth guide pulley;

79. a second left guide pulley block; 791. a seventh guide pulley; 792. an eighth guide pulley;

8. bracing; 81. a fourth hook;

9. an adjustment assembly; 91. a connecting portion; 92. a screw rod;

10. a jacking device; 11. a distribution box; 12. a backing plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

As shown in fig. 1-3, the utility model provides a construction platform, including platform 1, drilling rod 2, single-column pylon 3, rig 4, hoist assembly 5, removal subassembly 6 and drive assembly 7.

The drill rod 2 is used for drilling. The single-column tower 3 is arranged on the platform 1 and used for hanging the drill rod 2. The drilling machine 4 is fixed on the platform 1 and can drive the drill rod 2 to drill. The hoisting assembly 5 is detachably connected with the drill rod 2, and the hoisting assembly 5 can be matched with the single-column tower 3 to drive the drill rod 2 to ascend and descend. The moving assembly 6 is arranged at the bottom of the platform 1. The driving component 7 is arranged on the platform 1, and the driving component 7 is in transmission connection with the moving component 6 and is used for driving the moving component 6 to operate so as to enable the platform 1 to move.

Can order about drilling rod 2 through hoist subassembly 5 cooperation single-column pylon 3 and go up and down, before carrying out the drilling construction, can promote and splice drilling rod 2 according to the degree of depth of required drilling, need not continue to connect drilling rod 2 repeatedly at drilling in-process until drilling rod 2 length satisfies the drilling needs, saved a large amount of time, improved the efficiency of construction. After the drilling is finished, the drill rod 2 can be lifted by the winch assembly 5 in cooperation with the single-column tower 3, so that the drill rod 2 is pulled out of the drilling hole, the cooperation of a crane is not needed, and the construction cost is reduced. The drilling machine 4 is arranged on the platform 1, the moving assembly 6 is driven to operate through the driving module 7, and the platform 1 is moved, so that the drilling machine 4 is moved under the condition that a special crane is not needed to be matched, and the construction cost is further reduced.

Alternatively, as shown in fig. 1, the winding assembly 5 includes a main winding machine 51, a first fixed sheave 52, and a main wire rope 53. The main hoist 51 is fixed to the platform 1. The first fixed pulley 52 is fixed on the top of the single-column tower 3, specifically, in the present embodiment, the guide frame 31 is arranged on the top of the single-column tower 3, and the first fixed pulley 52 is fixed on the bottom end of the guide frame 31. One end of the main steel wire rope 53 is connected to the main winch 51, and the other end of the main steel wire rope 53 is detachably connected to the top end of the drill rod 2 after being wound around the first fixed pulley 52, specifically, in the embodiment, the top end of the drill rod 2 is provided with the first hook 21, and when the drill rod 2 needs to be lifted, one end of the main steel wire rope 53, which is not connected to the main winch 51, is connected to the first hook 21 at the top end of the drill rod 2 after being wound around the first fixed pulley 52. The elevation of the drill rod 2 can be achieved by the main hoist 51 retracting and releasing the main wire rope 53. Specifically, after the construction platform moves to the construction position, the main hoisting machine 51 draws in the main steel wire rope 53, so that the drill rod 2 can be pulled up, the extension work of the drill rod 2 is facilitated, and the length of the drill rod 2 can meet the requirement of the drilling depth. Before the drilling operation is performed, the drill rod 2 is fixed to the drilling machine 4, the main wire rope 53 is removed from the first hook 21, and then the drilling operation is started. After the drilling operation is completed, the main wire rope 53 is connected to the first hook 21 again, and the main wire rope 53 is wound by the main winding machine 51, so that the drill rod 2 is pulled out of the drilled hole. After the drill rod 2 is pulled out, the main winch 51 releases the main steel wire rope 53, so that the drill rod 2 can fall down, and the drill rod 2 is conveniently detached.

Alternatively, as shown in fig. 3 and 6, the driving assembly 7 includes a second secondary winch 72, a second secondary wire rope 74, and a second fixed sheave 75. The second fixed sheave 75 is fixed between the second sub-winch 72 and the second drum 62. One end of the second sub-wire rope 74 is connected to the second sub-hoist 72, and the end of the other end is provided with a third hook 741. The middle of the second drum 62 is provided with a protrusion for hooking the third hook 741.

When the construction platform needs to be moved forward and backward, the end of the second auxiliary steel wire rope 74, which is not connected with the second auxiliary winch 72, is wound around the second fixed pulley 75 and wound on the second drum 62, and the third hook 741 is hooked on the protrusion on the second drum 62. The second auxiliary winch 72 is started, the second auxiliary steel wire rope 74 is collected by the second auxiliary winch 72, and the third hook 741 at the end of the second auxiliary steel wire rope 74 pulls the second roller 62 to roll, so that the platform 1 is driven to move. Specifically, in this embodiment, when the second pair of cables 74 is wound around the second drum 62 counterclockwise, the second pair of winches 72 collect the second pair of cables 74, and the platform 1 moves forward, whereas when the second pair of cables 74 is wound around the second drum 62 clockwise, the second pair of winches 72 collect the second pair of cables 74, and the platform 1 moves backward.

Optionally, as shown in fig. 3 and 4, the driving assembly 7 further comprises a first secondary winch 71, a first secondary wire rope 73, a first right guide pulley block 76 and a second right guide pulley block 77. A first right guide pulley block 76 and a second right guide pulley block 77 are fixed to the right side of the platform 1. The first right guide pulley block 76 includes a first guide pulley 761 and a second guide pulley 762, and the second right guide pulley block 77 includes a third guide pulley 771 and a fourth guide pulley 772. One end of the first auxiliary wire rope 73 is connected to the first auxiliary hoist 71, and the other end thereof is provided with a second hook 731.

When the construction platform needs to be shifted to the right, the first auxiliary steel wire rope 73 sequentially bypasses the second guide pulley 762 and the first guide pulley 761, and the second hook 731 is connected to the right end of the first roller 61; the second pair of wire ropes 74 are wound around the fourth guide pulley 772 and the third guide pulley 771 in sequence, and the third hook 741 is connected to the right end of the second drum 62. The first auxiliary winch 71 and the second auxiliary winch 72 are started, the first auxiliary winch 71 and the second auxiliary winch 72 simultaneously collect a first auxiliary steel wire rope 73 and a second auxiliary steel wire rope 74, the second hook 731 pulls the right end of the first roller 61, the third hook 741 pulls the right end of the second roller 62, the reaction force of the first roller 61 to the second hook 731 acts on the first auxiliary winch 71 through the first auxiliary steel wire rope 73, the reaction force of the second roller 62 to the third hook 741 acts on the second auxiliary winch 72 through the second auxiliary steel wire rope 74, the first auxiliary winch 71 and the second auxiliary winch 72 are driven to move rightwards, and the first auxiliary winch 71 and the second auxiliary winch 72 are fixed on the platform 1, so that the platform 1 is driven to move rightwards when the first auxiliary winch 71 and the second auxiliary winch 72 move rightwards, and the construction platform moves rightwards.

Optionally, as shown in fig. 3 and 5, the driving assembly 7 further includes a first left guide pulley block 78 and a second left guide pulley block 79, and both the first left guide pulley block 78 and the second left guide pulley block 79 are fixed to the left side of the platform 1. The first left guide pulley block 78 comprises a fifth guide pulley 781 and a sixth guide pulley 782, and the second left guide pulley block 79 comprises a seventh guide pulley 791 and an eighth guide pulley 792.

When the construction platform needs to be shifted to the left, one end of the first auxiliary steel wire rope 73, which is provided with the second hook 731, sequentially bypasses the sixth guide pulley 782 and the fifth guide pulley 781, and is connected with the second hook 731 and hung at the left end of the first roller 61; one end of the second sub-cable 74 provided with the third hook 741 passes around the eighth guide pulley 792 and the seventh guide pulley 791 in order, and the third hook 741 is connected to the left end of the second drum 62. The subsequent operation steps of the construction platform displacement to the left are the same as the displacement to the right and are not described in detail here.

Optionally, as shown in fig. 2, the construction platform further includes two inclined struts 8, and the inclined struts 8 are of a truss structure, so that the self weight and the wind resistance are reduced while the rigidity is ensured. Two bracing 8 set up respectively in the both sides of single-column pylon 3, and become the contained angle setting, and the top and the single-column pylon 3 swing of bracing 8 can be for single-column pylon 3 swing, and the bottom is connected in platform 1. Specifically, in the present embodiment, the top end of the inclined strut 8 is provided with a fourth hook 81, which is connected to the single-column tower 3, and in other embodiments, the top end of the inclined strut 8 may also be hinged with the single-column tower 3.

Optionally, as shown in fig. 1 and fig. 2, the construction platform further includes an adjusting assembly 9, two ends of the adjusting assembly 9 respectively act on the inclined strut 8 and the platform 1, the bottom end of the single-column tower 3 is hinged to the platform 1, and the adjusting assembly 9 is configured to drive the inclined strut 8 to move along the axial direction of the inclined strut 8, so as to adjust the verticality of the single-column tower 3. Specifically, in the present embodiment, the adjusting assembly 9 includes a connecting portion 91 and a screw rod 92, one end of the connecting portion 91 is hinged to the platform 1, the other end is screwed to one end of the screw rod 92, and the other end of the screw rod 92 is screwed to the bottom end of the inclined strut 8. The lead screw 92 is a bidirectional lead screw, the connecting part 91 and the inclined strut 8 can be drawn close to or away from each other by rotating the lead screw 92, so that the inclined strut 8 and the platform 1 are close to or away from each other, and the fourth hook 81 at the top end of the inclined strut 8 drives the single-column tower 3 to rotate around the platform 1, so that the verticality of the single-column tower 3 is adjusted. The adjustment of the vertical degree of the single-column tower frame 3 is realized by matching the inclined strut 8 with the adjusting component 9, the single-column tower frame 3 supports the drill rod 2, and the vertical degree of the drill rod 2 can be ensured by adjusting the vertical degree of the single-column tower frame 3.

Optionally, as shown in fig. 1, the construction platform further comprises a backing plate 12 disposed below the first roller 61 and the second roller 62 along the length of the platform 1. The setting of the setting plate 12 prevents the construction platform from sinking when the construction is performed on a soft ground.

Optionally, as shown in fig. 1 and 2, the construction platform further includes a jacking device 10, and the jacking device 10 is disposed on both sides of the front end and the rear end of the platform 1, specifically, in this embodiment, the jacking device 10 is a jack. The verticality of the single-column tower 3 can be adjusted by jacking or dropping the jacking device 10 at different positions of the construction platform. When the base plate 12 is placed below the first roller 61 and the second roller 62, the platform 1 can be jacked up by the jacking device 10, the base plate 12 is placed in and then the jacking device 10 falls back, and the first roller 61 and the second roller 62 fall back and are placed on the base plate 12.

Optionally, as shown in fig. 1, the construction platform further includes a distribution box 11, and the main hoist 51, the first auxiliary hoist 71, the second auxiliary hoist 72 and the drilling machine 4 are electrically connected to the distribution box 11. The main hoist 51, the first auxiliary hoist 71, the second auxiliary hoist 72 and the drilling machine 4 on the construction platform can be powered through the distribution box 11.

Principle of operation

After the construction platform moves to the construction position, one end, which is not connected with the main winch 51, of the main steel wire rope 53 is wound around the first fixed pulley 52 and then connected to the first hook 21 at the top end of the drill rod 2, the main steel wire rope 53 is furled in through the main winch 51, the drill rod 2 can be upwards pulled up, extension work of the drill rod 2 is conveniently carried out, and the length of the drill rod 2 can meet the requirement of the drilling depth. Before the drilling operation is performed, the drill rod 2 is fixed to the drilling machine 4, the main wire rope 53 is removed from the first hook 21, and then the drilling operation is started. After the drilling operation is completed, the main wire rope 53 is connected to the first hook 21 again, and the main wire rope 53 is wound by the main winding machine 51, so that the drill rod 2 is pulled out of the drilled hole. After the drill rod 2 is pulled out, the main winch 51 releases the main steel wire rope 53, so that the drill rod 2 can fall down, and the drill rod 2 is conveniently detached.

When the construction platform needs to be moved forward and backward, the end of the second auxiliary steel wire rope 74, which is not connected with the second auxiliary winch 72, is wound around the second fixed pulley 75 and wound on the second drum 62, and the third hook 741 is hooked on the protrusion on the second drum 62. The second auxiliary winch 72 is started, the second auxiliary steel wire rope 74 is collected by the second auxiliary winch 72, and the third hook 741 at the end of the second auxiliary steel wire rope 74 pulls the second roller 62 to roll, so that the platform 1 is driven to move. When the second pair of wire ropes 74 are wound around the second drum 62 counterclockwise, the second pair of winding machines 72 folds the second pair of wire ropes 74, and the platform 1 moves forward, whereas when the second pair of wire ropes 74 are wound around the second drum 62 clockwise, the second pair of winding machines 72 folds the second pair of wire ropes 74, and the platform 1 moves backward.

When the construction platform needs to be shifted to the right, the first auxiliary steel wire rope 73 sequentially bypasses the second guide pulley 762 and the first guide pulley 761, and the second hook 731 is connected to the right end of the first roller 61; the second pair of wire ropes 74 are wound around the fourth guide pulley 772 and the third guide pulley 771 in sequence, and the third hook 741 is connected to the right end of the second drum 62. The first auxiliary winch 71 and the second auxiliary winch 72 are started, the first auxiliary winch 71 and the second auxiliary winch 72 simultaneously collect a first auxiliary steel wire rope 73 and a second auxiliary steel wire rope 74, the second hook 731 pulls the right end of the first roller 61, the third hook 741 pulls the right end of the second roller 62, the reaction force of the first roller 61 to the second hook 731 acts on the first auxiliary winch 71 through the first auxiliary steel wire rope 73, the reaction force of the second roller 62 to the third hook 741 acts on the second auxiliary winch 72 through the second auxiliary steel wire rope 74, the first auxiliary winch 71 and the second auxiliary winch 72 are driven to move rightwards, and the first auxiliary winch 71 and the second auxiliary winch 72 are fixed on the platform 1, so that the platform 1 is driven to move rightwards when the first auxiliary winch 71 and the second auxiliary winch 72 move rightwards, and the construction platform moves rightwards.

When the construction platform needs to be shifted to the left, one end of the first auxiliary steel wire rope 73, which is provided with the second hook 731, sequentially bypasses the sixth guide pulley 782 and the fifth guide pulley 781, and is connected with the second hook 731 and hung at the left end of the first roller 61; one end of the second sub-cable 74 provided with the third hook 741 passes around the eighth guide pulley 792 and the seventh guide pulley 791 in order, and the third hook 741 is connected to the left end of the second drum 62. The subsequent operation steps of the construction platform displacement to the left are the same as the displacement to the right and are not described in detail here.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, rearrangements and substitutions will now occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A construction platform, comprising:

a platform (1);

a drill rod (2) for drilling a hole;

a mono-column tower (3) arranged on the platform (1), the mono-column tower (3) being used for suspending the drill rod (2);

a drilling machine (4) fixed on the platform (1), wherein the drilling machine (4) can drive the drill rod (2) to drill;

the hoisting assembly (5) is detachably connected with the drill rod (2), and the hoisting assembly (5) can be matched with the single-column tower frame (3) to drive the drill rod (2) to lift;

a moving assembly (6) arranged at the bottom of the platform (1);

the driving assembly (7) is arranged on the platform (1), and the driving assembly (7) is in transmission connection with the moving assembly (6) and is used for driving the moving assembly (6) to operate so as to enable the platform (1) to move.

2. Construction platform according to claim 1, characterized in that said hoisting assembly (5) comprises:

a main winch (51) fixed to the platform (1);

a first fixed pulley (52) fixed to the top of the single-column tower (3);

and one end of a main steel wire rope (53) is connected to the main winch (51), and the other end of the main steel wire rope winds the first fixed pulley (52) and then is detachably connected with the top end of the drill rod (2).

3. The construction platform according to claim 1, further comprising two inclined struts (8), wherein the two inclined struts (8) are respectively arranged at two sides of the single-column tower (3) and are arranged at an included angle, the top ends of the inclined struts (8) are movably connected with the single-column tower (3) and can swing relative to the single-column tower (3), and the bottom ends of the inclined struts are connected to the platform (1).

4. A construction platform according to claim 3, wherein the single-column tower (3) is hinged to the platform (1), and the construction platform further comprises an adjusting assembly (9), both ends of which respectively act on the inclined strut (8) and the platform (1), wherein the adjusting assembly (9) is used for driving the inclined strut (8) to move along the axial direction of the inclined strut (8) so as to adjust the verticality of the single-column tower (3).

5. The construction platform according to claim 4, wherein the adjusting assembly (9) comprises a connecting part (91) and a screw rod (92), one end of the connecting part (91) is hinged with the platform (1), the other end of the connecting part is in threaded connection with one end of the screw rod (92), the other end of the screw rod (92) is in threaded connection with the inclined strut (8), and the inclined strut (8) can be driven to move along the axial direction of the inclined strut (8) by rotating the screw rod (92).

6. The construction platform according to claim 1, further comprising a jacking device (10), wherein the jacking device (10) is arranged on both sides of the front end and the rear end of the platform (1) and used for driving the platform (1) to lift.

7. A construction platform according to claim 2, wherein said moving assembly (6) comprises a first roller (61) and a second roller (62), said first roller (61) and said second roller (62) being arranged at the front end and the rear end of said platform (1), respectively.

8. A construction platform according to claim 7, wherein the drive assembly (7) comprises a first secondary hoist (71) and a second secondary hoist (72);

the second auxiliary winch (72) is in transmission connection with the second roller (62) and is used for driving the second roller (62) to rotate so as to drive the platform (1) to move back and forth;

the first auxiliary winch (71) is matched with the second auxiliary winch (72) to drive the platform (1) to move left and right along the first roller (61) and the second roller (62).

9. The construction platform according to claim 8, further comprising a distribution box (11), wherein the drilling machine (4), the main hoist (51), the first auxiliary hoist (71) and the second auxiliary hoist (72) are electrically connected to the distribution box (11).

10. The construction platform according to claim 1, further comprising a skid plate (12) disposed below the moving assembly (6) along the length of the platform (1).

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