CN215926955U - Efficient construction equipment for iron tower foundation - Google Patents

Abstract

The utility model relates to high-efficiency construction equipment for an iron tower foundation, which comprises bearing upright posts, connecting cross arms, at least two bearing cross arms, guide upright posts, a connecting base and a guide adjusting mechanism, wherein the bearing upright posts are connected through the connecting cross arms to form a frame structure with a rectangular axial section, the bearing cross arms are distributed from top to bottom along the axis of the bearing upright posts, two end faces of each bearing cross arm are respectively connected with a connecting bearer through the guide adjusting mechanism, the guide upright posts are in sliding connection with the bearing cross arms through the guide adjusting mechanisms, and the front end faces of the guide upright posts are in sliding connection with the rear end faces of the connecting base through the guide adjusting mechanisms. On one hand, the system has simple structure, high modularization degree, convenient, fast and reliable transfer construction and good bearing capacity and impact and vibration resistance; on the other hand can realize the needs to a plurality of large aperture drilling operations of iron tower foundation through once installing in the construction, very big improvement construction operations's work efficiency, simultaneously can effectual reduction dust dirt.

Description

Efficient construction equipment for iron tower foundation

Technical Field

The utility model relates to efficient construction equipment for an iron tower foundation, and belongs to the technical field of electric power construction and civil engineering construction.

Background

Currently, in construction operation of communication iron towers and high-voltage circuit transmission iron tower equipment, foundation operation holes with the hole diameter of 1.5 meters and the depth of 20 meters are usually pre-drilled on the ground, and currently, when the construction operation is performed on the foundation, because the traditional drilling equipment cannot realize one-time drilling forming operation and currently, no drilling equipment capable of simultaneously meeting the drilling operation exists, the traditional drilling equipment which is usually adopted in the current concrete construction is used for repeatedly drilling the hole for multiple times, so that the working strength, the construction operation amount and the construction cost are high, the construction operation efficiency is low, and the construction precision is relatively poor due to repeated construction; on the other hand, a method of directly performing construction through blasting is adopted, although the construction operation efficiency is high, the construction operation safety is poor, the construction precision is difficult to effectively guarantee, and blasting operation is easy to cause the peripheral geological structure of the iron tower foundation to be influenced, so that the quality of iron tower foundation construction is influenced.

Therefore, in order to solve the problem, research and development of efficient construction equipment for the iron tower foundation are urgently needed, so that the purposes of improving the construction efficiency and the construction precision and effectively reducing the labor intensity, difficulty and construction cost of construction operation are achieved; on the other hand, the construction condition can be effectively improved, and the aim of meeting the requirements of relevant construction specifications of environmental protection is fulfilled.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides high-efficiency construction equipment for an iron tower foundation.

An efficient construction device for an iron tower foundation comprises bearing upright posts, connecting cross arms, bearing cross arms, guide upright posts, a connecting base, a guide adjusting mechanism, a spraying port, an air return port, a booster fan, a spraying pump and a driving circuit, wherein at least four bearing upright posts are arranged, each bearing upright post is vertically distributed with a horizontal plane, two adjacent bearing upright posts are connected through at least two connecting cross arms to form a frame structure with a rectangular axial section, the connecting cross arms are uniformly distributed along the axial direction of the bearing upright posts from top to bottom and are mutually vertical to the bearing upright posts, at least two bearing cross arms are distributed along the axial lines of the bearing upright posts from top to bottom, two end faces of each bearing cross arm are respectively connected with a connecting bearing through the guide adjusting mechanism and are vertically distributed with the axial lines of the connecting cross arms, the guide upright posts are distributed in parallel to the axial lines of the bearing upright posts, and the rear end faces of the guide upright posts are connected with the bearing cross arms through the guide adjusting mechanism in a sliding manner, the front end face of the guide upright post is connected with the rear end face of the connecting base in a sliding mode through the guide adjusting mechanism, the front end face of the connecting base and the axis of the guide upright post are distributed in parallel, the guide upright post is of a hollow cylindrical structure, a plurality of air return openings are uniformly distributed on the inner surface of the guide upright post, the axes of the air return openings are perpendicular to and intersect with the axis of the guide upright post, the air return openings are connected in parallel and communicated with the booster fan through a guide pipe, a plurality of spraying openings are uniformly distributed on the outer side face of each bearing cross arm along the axis of the bearing cross arm, the axis of the spraying openings and the axis of the bearing cross arm form an included angle of 0-90 degrees, the spraying openings are connected in parallel and communicated with the spraying pump, the booster fan, the spraying pump and the driving circuit are connected with the outer surface of the bearing upright post, and the driving circuit is electrically connected with the guide adjusting mechanism, the booster fan and the spraying pump respectively.

Furthermore, the connecting cross arm comprises a rod body, a guide sleeve and a positioning pin, wherein the two ends of the rod body are respectively provided with the guide sleeve which is vertically distributed with the axis of the rod body, the guide sleeve is coated outside the rod body and is in sliding connection with the rod body, the side surface of the guide sleeve and the side wall of the rod body corresponding to the side surface of the guide sleeve are provided with at least two pin holes and are connected with the positioning pin through the pin holes, the front end surface of the positioning pin is positioned outside the rod body, the rear end surface of the positioning pin is vertically connected with the outer surface of the bearing upright post, the outer side surface of the bearing upright post corresponding to the positioning pin is provided with a positioning groove which has a U-shaped cross section and is vertically distributed with the axis of the bearing upright post, and the axis of the positioning groove is vertical to and intersected with the axis of the positioning pin.

Further, it includes post, positioning disk, stock to bear the stand, wherein the positioning disk is discoid structure, and its up end is connected and coaxial distribution with the post, and the terminal surface is connected and coaxial distribution with the stock down, and all passes through threaded connection between post and stock and positioning disk, and the positioning disk diameter is 2 times at least of post and stock diameter, the post is a plurality of, passes through threaded connection and coaxial distribution between two adjacent posts, and stock length is not less than 10% of post total length.

Furthermore, the guide adjusting mechanism comprises a bearing platform, a driving groove, guide wheels, a driving mechanism, a driving motor, a level gauge and vibration isolation supports, wherein the driving groove has a U-shaped groove structure with a cross section, the front end surface of the driving groove is connected with the rear end surface of the bearing platform through a sliding groove, the sliding groove is vertically distributed with the bottom of the driving groove, the bearing platform is of a plate-shaped structure with a rectangular cross section, the height of the bearing platform is at least 2 times of the height of the driving groove, the bearing platform and the front end surface of the driving groove are distributed in parallel, the upper end surface of the bearing platform is higher than the upper end surface of the driving groove by 0 to 3/4 of the height of the bearing platform, the front end surface of the bearing platform is provided with at least one vibration isolation support and is connected with a bearing cross arm and a connecting base through the vibration isolation supports, the upper end surface of the bearing platform is connected with one level gauge, at least two guide wheels are connected with the rear end surface of the bearing platform, wheel shafts are distributed in the same plane vertically distributed with the rear end surface of the bearing platform, the driving mechanism is embedded in the driving groove, connected with the side wall of the driving groove and distributed in parallel with the axis of the driving groove, and is respectively connected with the outer surfaces of the connecting cross arm, the bearing cross arm and the guide upright post, and the driving motor is connected with the outer side surface of the driving groove, connected with the driving mechanism through a transmission shaft and electrically connected with a driving circuit.

Furthermore, the driving mechanism is any one of a screw mechanism, a gear rack mechanism, a transmission belt mechanism and a transmission chain mechanism.

Furthermore, the connection base comprises a bearing seat, a bearing plate, telescopic columns, guide slide rails and positioning connecting grooves, wherein the bearing seat is of a U-shaped groove structure with a cross section, the axis of the U-shaped groove structure is parallel to the axis of the guide columns, the bearing plate is embedded in the bearing seat and is coaxially distributed with the bearing seat, the side wall of the bearing plate is slidably connected with the side wall of the bearing seat through at least two guide slide rails, the lower end face of the bearing plate is connected with the bottom of the bearing seat through at least two telescopic columns, and at least two positioning connecting grooves which are parallel to the axis of the guide columns are formed in the bottom of the bearing seat and the upper end face of the bearing plate.

Furthermore, the driving circuit is a circuit system based on any one of a programmable controller and an industrial singlechip.

On one hand, the system is simple in structure, high in modularization degree, convenient, rapid and reliable in transferring and construction, good in bearing capacity and impact and vibration resistance, capable of effectively meeting the requirements of construction operation under various complex geological conditions, strong in environment adaptability, wide in construction process application range and greatly improved in use flexibility and universality; on the other hand, the requirement of drilling a plurality of large-aperture holes on the iron tower foundation can be met through one-time installation in the construction process, the working efficiency of the construction operation is greatly improved, the defect that the construction precision of the iron tower foundation is poor when the traditional equipment needs to be frequently installed and positioned is overcome, meanwhile, the dust pollution can be effectively reduced in the construction process, the construction conditions are greatly improved, and the pollution to the surrounding environment caused by the construction operation is eliminated.

Drawings

The utility model is described in detail below with reference to the drawings and the detailed description;

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a connecting cross arm structure;

FIG. 3 is a schematic view of a load-bearing column structure;

FIG. 4 is a schematic structural view of a guiding adjustment mechanism;

fig. 5 is a schematic view of a connection base structure.

Detailed Description

In order to facilitate the implementation of the technical means, creation features, achievement of the purpose and the efficacy of the utility model, the utility model is further described below with reference to specific embodiments.

As shown in figures 1-5, a high-efficiency construction device for iron tower foundation comprises bearing upright posts 1, connecting cross arms 2, bearing cross arms 3, guide upright posts 4, a connecting base 5, a guide adjusting mechanism 6, a spraying port 7, an air return port 8, a booster fan 9, a spraying pump 10 and a driving circuit 11, wherein at least four bearing upright posts 1 are arranged, each bearing upright post 1 is vertically distributed with a horizontal plane, two adjacent bearing upright posts 1 are connected through at least two connecting cross arms 2 to form a frame structure with a rectangular axial section, the connecting cross arms 2 are uniformly distributed from top to bottom along the axial direction of the bearing upright posts 1 and are mutually vertical to the bearing upright posts 1, at least two bearing cross arms 3 are distributed from top to bottom along the axial line of the bearing upright posts 1, two end faces of each bearing cross arm 3 are respectively connected with the connecting bearing upright post 2 through the guide adjusting mechanism 6 and are vertically distributed with the axial line of the connecting cross arm 2, the guide upright posts 4 are distributed in parallel to the axial line of the bearing upright posts 1, the rear end face of the guide upright post 4 is connected with each bearing cross arm 3 in a sliding way through a guide adjusting mechanism 6, the front end face of the guide upright post 4 is connected with the rear end face of a connecting base 5 in a sliding way through the guide adjusting mechanism 6, the front end face of the connecting base 5 is distributed with the axis of the guide upright post 4 in parallel, the guide upright post 4 is of a hollow columnar structure, a plurality of air return ports 8 are uniformly distributed on the inner surface, the axis of each air return port 8 is vertical to and intersected with the axis of the guide upright post 4, the air return ports 8 are mutually connected in parallel and are communicated with a booster fan 9 through a guide pipe 12, a plurality of spray ports 7 are uniformly distributed on the outer side face of each bearing cross arm 3 along the axis of the bearing cross arm 3, the axis of each spray port and the axis of the bearing cross arm 3 form an included angle of 0-90 degrees, the spray ports 7 are mutually connected in parallel and are communicated with a spray pump 10, the booster fan 9, the spray pump 10 and a driving circuit 11 are all connected with the outer surface of the bearing upright post 1, and the driving circuit 11 is respectively connected with the guide adjusting mechanism 6, The booster fan 9 and the spray pump 10 are electrically connected.

In this embodiment, the connecting cross arm 2 includes a rod body 21, a guide sleeve 22, and a positioning pin 23, wherein two ends of the rod body 21 are respectively provided with a guide sleeve 22 vertically distributed with an axis of the rod body 21, the guide sleeve 22 is wrapped outside the rod body 21 and is slidably connected with the rod body 21, the side surface of the guide sleeve 22 and the side surface of the guide sleeve 22 corresponding to the side surface of the rod body 21 are provided with at least two pin holes 24 and are connected with the positioning pin 23 through the pin holes 24, the front end surface of the positioning pin 23 is located outside the rod body 21, the rear end surface is vertically connected with the outer surface of the bearing upright post 1, the outer side surface of the bearing upright post 1 corresponding to the positioning pin 23 is provided with a positioning groove 25 having a cross section in a shape like "u" and vertically distributed with the axis of the bearing upright post 1, and the axis of the positioning groove 25 is perpendicular to and intersecting with the axis of the positioning pin 23.

Further, in the pin holes 24, the axes of two adjacent pin holes 24 are intersected and form an included angle of 90-180 degrees.

In this embodiment, the bearing column 1 includes a column 101, a positioning plate 102, and an anchor rod 103, wherein the positioning plate 102 is a disc-shaped structure, an upper end surface of the positioning plate 102 is connected with the column 101 and coaxially distributed, a lower end surface of the positioning plate is connected with the anchor rod 103 and coaxially distributed, the column 101, the anchor rod 103 and the positioning plate 102 are all connected through threads, a diameter of the positioning plate 102 is at least 2 times a diameter of the column 101 and the anchor rod 103, the columns 101 are a plurality of columns 101, two adjacent columns 101 are connected through threads and coaxially distributed, and a length of the anchor rod 103 is not less than 10% of a total length of the column 101.

Preferably, the positioning plate 102 has an axial cross section in any one of a rectangular disc structure and an isosceles trapezoid circular truncated cone structure, the positioning plate 102 has a grating plate structure, and a plurality of conical protrusions 104 with a height of not less than 5 mm are uniformly distributed on a lower end surface of the positioning plate.

It is emphasized that the guiding and adjusting mechanism 6 includes a bearing platform 61, a driving groove 62, a guide wheel 63, a driving mechanism 64, a driving motor 65, a level gauge 66, and at least two guide wheels 63, wherein the driving groove 62 has a cross section of a U-shaped groove structure, the front end surface of the driving groove 62 is connected with the rear end surface of the bearing platform 61 through a sliding groove 68, the sliding groove 68 is vertically distributed with the bottom of the driving groove 62, the bearing platform 61 has a cross section of a rectangular plate structure, the height of the bearing platform is at least 2 times of the height of the driving groove 62, the bearing platform 61 is distributed in parallel with the front end surface of the driving groove 62, the upper end surface of the bearing platform is higher than the upper end surface of the driving groove 62 by 0 to 3/4 of the height of the bearing platform, the front end surface of the bearing platform 61 is provided with at least one vibration isolation support 67 and is connected with the bearing cross arm 3 and the connecting base 5 through the vibration isolation support 67, the upper end surface is connected with one level gauge 66, the driving mechanism 64 is embedded in the driving groove 62, connected with the side wall of the driving groove 62 and distributed in parallel with the axis of the driving groove 62, the driving mechanism 64 is respectively connected with the outer surfaces of the connecting cross arm 2, the bearing cross arm 3 and the guide upright post 4, and the driving motor 65 is connected with the outer side surface of the driving groove 62, connected with the driving mechanism 64 through a transmission shaft and electrically connected with the driving circuit 11.

The driving mechanism 64 is any one of a screw mechanism, a rack-and-pinion mechanism, a transmission belt mechanism, and a transmission chain mechanism.

Further preferably, the driving mechanism 64 adopts a rack and pinion mechanism, a gear of the rack and pinion mechanism is embedded in the driving groove 62, and a rack is connected with the bearing cross arm 3 and the guide upright post 5 and is distributed in parallel with the axis of the bearing cross arm 3 and the axis of the guide upright post 5.

In this embodiment, the connection base 5 includes a bearing seat 51, a bearing plate 52, telescopic posts 53, guide rails 54, and positioning connection slots 55, wherein the bearing seat 51 has a cross-section in a "u" -shaped slot structure, the axis of the u-shaped slot structure is parallel to the axis of the guide post 4, the bearing plate 52 is embedded in the bearing seat 51 and is coaxial with the bearing seat 51, the side wall of the bearing plate 52 is slidably connected to the side wall of the bearing seat 51 through at least two guide rails 54, the lower end surface of the bearing plate is connected to the bottom of the bearing seat 51 through at least two telescopic posts 53, and at least two positioning connection slots 55 are formed on the bottom of the bearing seat 51 and the upper end surface of the bearing plate 52 and are parallel to the axis of the guide post 4.

It should be noted that the front end face of the bearing plate 52 is connected to at least one winding mechanism 56 through a positioning connection slot 55, and the winding mechanism 56 is electrically connected to the driving circuit 11.

In this embodiment, the driving circuit 11 is a circuit system based on any one of a programmable controller and an industrial single chip microcomputer.

In the concrete implementation of the novel construction method, firstly, according to the environment of a site to be constructed, the structure size and the structure strength of a geological condition structure and an iron tower foundation structure, the required bearing upright post, a connecting cross arm, a bearing cross arm, a guide upright post and a connecting base are set, then the selected novel construction method is transported to a designated working position in a part state, firstly, drilling is started on a ground plane outside the iron tower foundation position, then each guide upright post is connected with the ground through an anchor rod at the bottom of the guide upright post, a positioning disc is abutted against the surface of the ground plane, simultaneously, the number of each post rod of the guide upright post is adjusted according to the construction requirement, the total length of the post rod meets the construction requirement, then, the connecting cross arm, the bearing cross arm, the guide upright post, the connecting base, a guide adjusting mechanism, a spray port, a return air port, a booster fan, a spray pump and a driving circuit are assembled and assembled, and the spray port is communicated with an external dust removal water source supply system, collect clarification plant intercommunication with booster fan and outside dust to be connected the rig and the connection base of drilling usefulness, and make rig axis and horizontal plane vertical distribution, set up hoisting apparatus and be connected through arbitrary one in hoisting apparatus and excavating equipment, the holding device simultaneously on connection base, can accomplish this novel assembly operation.

When the drilling machine and the winch are installed and connected, the drilling machine and the winch are respectively installed in the bearing seat of the connecting base and on the front end face of the bearing plate, and the axes of the drilling machine and the winch are distributed in parallel.

After the novel assembly is completed, firstly, the drilling machine is adjusted to the position of a construction operation surface through the guide adjusting mechanism, simultaneously, the distance between the lower end face of a drill rod of the drilling machine and the construction operation surface is adjusted by adjusting the connecting base along the guide upright post, the equipment assembly is completed, then, the drilling machine is driven to operate to carry out drilling operation, meanwhile, the drilling machine is driven to descend by the guide adjusting mechanism, the drilling rod is assisted to feed the drilling operation, in the drilling operation process of the drilling machine, on one hand, a booster fan is driven to operate, a negative pressure environment is formed by the booster fan through an air return port, so that dust generated by drilling is converged into the guide upright post in a concentrated manner, and is conveyed into external dust collecting and purifying equipment through each air return port, and dust purifying operation is realized; on the other hand, the spraying opening is driven to operate, the spraying pump is enabled to spray and reduce dust on the construction working face through the spraying opening after the dedusting water source water body is pressurized, and therefore the dust generation amount is reduced, and the purpose of improving the drilling operation construction environment is achieved.

Meanwhile, in the drilling process, when drilling and processing are carried out on each foundation hole of the iron tower foundation, a drilling machine is enabled to drill a plurality of construction drill holes on the outer side position of each foundation hole around the axis of the foundation hole, the construction drill holes are uniformly distributed around the axis of the foundation hole, the distance between every two adjacent construction drill holes is 0-10 mm, the depth of each single construction drill hole is 1/2 which is not greater than the depth of the foundation hole, after a circle of construction drill holes are completed, the hole walls of the construction drill holes are communicated, finally, excavation is carried out on the middle position of each construction drill hole through excavating equipment and clamping equipment which are connected with a winch, excavation is stopped when the construction drill holes are excavated to the bottom of the construction drill holes, construction operation of the construction drill holes is carried out again, and circular construction operation on the foundation holes is realized until the current foundation hole is completed.

And after the construction operation of one foundation hole is completed, driving the guide adjusting mechanism to operate, adjusting the drilling machine to the position of another foundation hole through the guide adjusting mechanism, and circularly constructing again until all the foundation hole construction is completed.

On one hand, the system is simple in structure, high in modularization degree, convenient, rapid and reliable in transferring and construction, good in bearing capacity and impact and vibration resistance, capable of effectively meeting the requirements of construction operation under various complex geological conditions, strong in environment adaptability, wide in construction process application range and greatly improved in use flexibility and universality; on the other hand, the requirement of drilling a plurality of large-aperture holes on the iron tower foundation can be met through one-time installation in the construction process, the working efficiency of the construction operation is greatly improved, the defect that the construction precision of the iron tower foundation is poor when the traditional equipment needs to be frequently installed and positioned is overcome, meanwhile, the dust pollution can be effectively reduced in the construction process, the construction conditions are greatly improved, and the pollution to the surrounding environment caused by the construction operation is eliminated.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an efficient construction equipment of iron tower basis which characterized in that: the high-efficiency construction equipment for the iron tower foundation comprises bearing upright posts, connecting cross arms, bearing cross arms, at least four guide upright posts, a connecting base, a guide adjusting mechanism, a spraying port, an air return port, a booster fan, a spraying pump and a driving circuit, wherein each bearing upright post is vertically distributed with a horizontal plane, two adjacent bearing upright posts are connected through at least two connecting cross arms to form a frame structure with a rectangular axial section, the connecting cross arms are uniformly distributed along the axial direction of the bearing upright posts from top to bottom and are vertical to the bearing upright posts, at least two bearing cross arms are distributed along the axial lines of the bearing upright posts from top to bottom, two end faces of each bearing cross arm are respectively connected with a connecting bearer through the guide adjusting mechanism and are vertically distributed with the axial lines of the connecting cross arms, the guide upright posts are distributed in parallel to the axial lines of the bearing upright posts, and the rear end faces of the guide upright posts are connected with the bearing cross arms in a sliding mode through the guide adjusting mechanism, the utility model discloses a bearing stand, including guide upright post, air return inlet, bearing cross arm, spray pump, booster fan, drive circuit, bearing upright post, bearing adjusting mechanism, booster fan, spray pump, drive circuit, guide adjusting mechanism, booster fan, spray pump, drive circuit, and drive circuit respectively with guide adjusting mechanism, booster fan, spray pump electrical connection.

2. The efficient construction equipment for the iron tower foundation according to claim 1, wherein: the connecting cross arm comprises a rod body, a guide sleeve and a positioning pin, wherein the two ends of the rod body are respectively provided with the guide sleeve which is vertically distributed with the axis of the rod body, the guide sleeve is coated outside the rod body and is in sliding connection with the rod body, the side surface of the guide sleeve and the side wall of the rod body corresponding to the side surface of the guide sleeve are provided with at least two pin holes and are connected with the positioning pin through the pin holes, the front end surface of the positioning pin is positioned outside the rod body, the rear end surface of the positioning pin is vertically connected with the outer surface of a bearing upright post, the outer side surface of the bearing upright post corresponding to the positioning pin is provided with a positioning groove with a U-shaped cross section and vertically distributed with the axis of the bearing upright post, and the axis of the positioning groove is vertical to and intersected with the axis of the positioning pin.

3. The efficient construction equipment for the iron tower foundation according to claim 1, wherein: bear stand includes post, positioning disk, stock, wherein the positioning disk is discoid structure, and its up end is connected and coaxial distribution with the post, and the terminal surface is connected and coaxial distribution with the stock down, and all passes through threaded connection between post and stock and positioning disk, and the positioning disk diameter is 2 at least times of post and stock diameter, the post is a plurality of, passes through threaded connection and coaxial distribution between two adjacent posts, and stock length is not less than 10% of post total length.

4. The efficient construction equipment for the iron tower foundation according to claim 1, wherein: the guide adjusting mechanism comprises a bearing platform, a driving groove, guide wheels, a driving mechanism, a driving motor, a level meter and vibration isolation supports, wherein the driving groove has a U-shaped groove structure with a cross section, the front end surface of the driving groove is connected with the rear end surface of the bearing platform through a sliding groove, the sliding groove is vertically distributed with the bottom of the driving groove, the bearing platform is of a plate-shaped structure with a rectangular cross section, the height of the bearing platform is at least 2 times of the height of the driving groove, the bearing platform and the front end surface of the driving groove are distributed in parallel, the upper end surface of the bearing platform is higher than the upper end surface of the driving groove by 0 to 3/4 of the height of the bearing platform, at least one vibration isolation support is arranged on the front end surface of the bearing platform and is connected with a bearing cross arm and a connecting base through the vibration isolation support, the upper end surface of the bearing platform is connected with one level meter, at least two guide wheels are connected with the rear end surface of the bearing platform, wheel shafts of the guide wheels are distributed in the same plane vertically distributed with the rear end surface of the bearing platform, the driving mechanism is embedded in the driving groove, connected with the side wall of the driving groove and distributed in parallel with the axis of the driving groove, and is respectively connected with the outer surfaces of the connecting cross arm, the bearing cross arm and the guide upright post, and the driving motor is connected with the outer side surface of the driving groove, connected with the driving mechanism through a transmission shaft and electrically connected with a driving circuit.

5. The efficient construction equipment for the iron tower foundation according to claim 4, wherein: the driving mechanism is any one of a screw mechanism, a gear rack mechanism, a transmission belt mechanism and a transmission chain mechanism.

6. The efficient construction equipment for the iron tower foundation according to claim 1, wherein: the connecting base comprises a bearing seat, a bearing plate, telescopic columns, guide slide rails and positioning connecting grooves, wherein the bearing seat is of a U-shaped groove-shaped structure with a cross section, the axis of the U-shaped groove-shaped structure is parallel to the axis of the guide column, the bearing plate is embedded in the bearing seat and is coaxially distributed with the bearing seat, the side wall of the bearing plate is in sliding connection with the side wall of the bearing seat through at least two guide slide rails, the lower end face of the bearing plate is connected with the bottom of the bearing seat through at least two telescopic columns, and at least two positioning connecting grooves which are parallel to the axis of the guide column are formed in the bottom of the bearing seat and the upper end face of the bearing plate.

7. The efficient construction equipment for the iron tower foundation according to claim 1, wherein: the driving circuit is a circuit system based on any one of a programmable controller and an industrial singlechip.

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