CN211143939U - Tower mast structure lift operation platform - Google Patents

Abstract

The utility model discloses a tower mast structure lift operation platform, including interior support body, outer support body and operation platform, interior support body includes interior upper ring frame and interior lower ring frame, the outer support body includes outer upper ring frame and outer lower ring frame, be provided with a plurality of interior racks between interior upper ring frame and the interior lower ring frame, be provided with a plurality of outer racks between outer upper ring frame and the outer lower ring frame, the meshing is connected with the internal gear on every interior rack, internal gear and outer lower ring frame fixed connection, the meshing has the external gear on every outer rack, external gear and interior upper ring frame fixed connection, interior upper ring frame, all install interior flexible oil pump of frame on the interior lower ring frame, outer upper ring frame, all install the flexible oil pump of outer frame on the interior lower ring frame, operation platform is ring structure and installs on outer upper ring frame through fixed establishment. The utility model discloses an inner frame body and outer frame body alternate motion realize climbing, and the operation platform that will go up and down is fixed in the not co-altitude position of tower mast structure as required, has improved the work efficiency of repair greatly, has saved manpower and materials.

Description

Tower mast structure lift operation platform

Technical Field

The utility model belongs to the technical field of building construction and maintenance equipment, concretely relates to tower mast structure lift operation platform.

Background

The tower mast structure refers to a structure with a larger height and a smaller cross section. Nowadays, tower mast structures are generally applied in the construction industry at home and abroad, are mostly arranged at the top of a super high building layer, and have extremely high aesthetic value. The tower mast structure with the steel structure is widely applied to the field of buildings due to light structure, attractive appearance and industrial production. In order to improve the decoration performance of the tower mast structure, a decorative material is required to be attached to the surface of the tower mast structure or an artistic construction is required to be additionally arranged on the tower mast structure, and the outer surface of the tower mast structure is required to be repaired irregularly due to the fact that the tower mast structure is exposed to the external environment for a long time and is eroded by the atmosphere, rain and snow.

The traditional scaffold building repair process is complicated in steps and long in time consumption, and is not suitable for repairing a tower mast structure, so that a tower mast structure lifting operation platform is urgently needed at the present stage, the lifting operation platform can flexibly move up and down outside the tower mast structure, and the repair work efficiency is improved.

Disclosure of Invention

Problem to exist among the prior art, the utility model provides a tower mast structure lift operation platform, the utility model discloses can climb or move down in the tower mast is structural, and can be fixed in the not co-altitude position of tower mast structure, improved the efficiency of the work of repairing.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a tower mast structure lifting operation platform, which comprises an inner frame body, an outer frame body and an operation platform, wherein the inner frame body is arranged at the inner side of the outer frame body, the inner frame body comprises an inner upper ring frame and an inner lower ring frame, the outer frame body comprises an outer upper ring frame and an outer lower ring frame, a plurality of inner racks are arranged between the inner upper ring frame and the inner lower ring frame, a plurality of outer racks are arranged between the outer upper ring frame and the outer lower ring frame, the inner racks and the outer racks are alternately arranged, each inner rack is engaged and connected with an inner gear, the inner gear is fixedly connected with the outer lower ring frame, each outer rack is engaged with an outer gear, the outer gears are fixedly connected with the inner upper ring frame, the inner gears and the outer gears are driven by a driving motor, the inner upper ring frame and the inner lower ring frame are both provided with an inner frame telescopic oil pump, outer upper ring frame all install outer frame telescopic oil pump on the outer lower ring frame, operation platform be annular structure and install in through fixed establishment on the outer upper ring frame.

As preferred technical scheme, fixed establishment is including supporting the reinforcing bar, bracing and outrigger support column, support the reinforcing bar the bracing the outrigger support column connects gradually end to end and forms the triangle-shaped structure, support the reinforcing bar weld in between operation platform's inward flange and outward flange, the outrigger support column weld in between outer upper ring frame and the outer lower ring frame, operation platform's inward flange, outward flange upwards extend respectively and are provided with safety barrier.

As a preferred technical scheme, an inner frame supporting column is installed between the inner upper ring frame and the inner lower ring frame, the inner frame supporting column and the inner rack are alternately arranged, and the outer frame supporting column and the outer rack are alternately arranged.

As a preferred technical scheme, the inner frame telescopic oil pump is installed at the joint of the inner rack and the inner upper ring frame as well as the joint of the inner lower ring frame, and the outer frame telescopic oil pump is installed at the joint of the outer rack and the outer upper ring frame as well as the joint of the outer lower ring frame.

As a preferable technical scheme, a storage battery box is arranged at the joint of the inner upper ring frame and the inner rack and the joint of the outer lower ring frame and the outer rack.

As a preferable technical scheme, the distances between every two adjacent inner racks are equal, and the distances between every two adjacent outer racks are equal.

As a preferred technical scheme, baffles are respectively arranged on two sides of the inner gear and two sides of the outer gear, the baffles on two sides of the inner gear are parallel to a plane where the inner gear is located, the baffles on two sides of the outer gear are parallel to a plane where the outer gear is located, and the driving shaft sequentially penetrates through the baffles.

As a preferable technical scheme, the inner frame telescopic oil pump and the outer frame telescopic oil pump have the same structure and comprise an oil pump main body, an electromagnet, a transmission mechanism and a guide mechanism,

the oil pump main body comprises an oil pump base and an output shaft, the oil pump base is fixed on the lifting auxiliary frame, the output shaft is connected with the electromagnet through the transmission mechanism,

the guide mechanism comprises a first guide plate, a second guide plate and a guide post, the first guide plate is arranged at one end of the oil pump base far away from the output shaft, the second guide plate is arranged at one end of the oil pump base connected with the output shaft, guide holes are respectively arranged on the first guide plate and the second guide plate, one end of the guide post sequentially penetrates through the guide holes on the first guide plate and the second guide plate and is fixed with the electromagnet, the guide post is parallel to the output shaft,

drive mechanism includes driving plate, crossing arm and linking arm, the driving plate is located the second deflector with between the electro-magnet and with the second deflector is parallel, output shaft fixed connection the driving plate, the plane at crossing arm place with the perpendicular and crossing central point fixed connection of driving plate the driving plate, four tip of crossing arm respectively with the one end of linking arm is articulated, four the other end of two linking arms in the linking arm with the second deflector is articulated, the other end of two other linking arms fixed with the electro-magnet is articulated.

According to a preferable technical scheme, the end face, far away from the oil pump main body, of the electromagnet is in a straight face shape, a circular arc shape or a folded face shape.

According to the preferable technical scheme, the driving motor, the inner frame telescopic oil pump and the outer frame telescopic oil pump are all controlled by an electrical control system, an operation interface of the electrical control system is installed on an operation platform, and the operation interface is controlled through a touch screen or a remote controller.

As a preferable technical scheme, the number of the cross arms is two, the two cross arms are arranged on two opposite sides of the transmission plate, and a connecting line of cross center points of the two cross arms penetrates through a central axis of the output shaft.

Preferably, the first guide plate and the second guide plate are respectively provided with two guide holes, and the two guide holes are symmetrically arranged along a straight line where the output shaft is located.

As a preferable technical scheme, the driving motor, the oil pump main body and the electromagnet are powered by a storage battery or an external power supply.

As a preferred technical scheme, the inner frame body, the outer frame body, the inner rack, the outer rack, the inner gear and the outer gear are made of steel materials.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses an inner frame body realizes climbing or moving down with the alternating motion of outer frame body to the outside that the outer shelf was fixed in tower mast mechanism will go up and down through the flexible oil pump of inner frame, the flexible oil pump of outer frame, can be fixed in the not co-altitude position of tower mast structure with lift operation platform according to the construction needs, the constructor of being convenient for repairs the outside of tower mast structure, has improved work efficiency greatly, has saved manpower and materials.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the tower mast structure lifting operation platform of the present invention.

Fig. 2 is a schematic structural view at another angle in fig. 1.

Fig. 3 is a schematic structural diagram of the inner frame body and the outer frame body of the tower mast structure lifting mechanism of the present invention.

Fig. 4 is a schematic structural view at another angle in fig. 3.

Fig. 5 is a partially enlarged view of fig. 3.

Fig. 6 is a schematic structural diagram of the telescopic oil pumps (inner frame telescopic oil pump, outer frame telescopic oil pump) in the tower mast structure lifting operation platform of the present invention.

Fig. 7 is a schematic structural view at another angle of fig. 6.

Fig. 8 is a schematic structural view of a transmission mechanism in the telescopic oil pump of the present invention.

Fig. 9 is a schematic structural view at another angle of fig. 8.

Fig. 10 is a working state diagram of the tower mast structure lifting operation platform of the present invention.

Fig. 11 is a simplified schematic diagram of the first working state of the tower mast structure lifting operation platform of the present invention.

Fig. 12 is a simplified schematic diagram of the second working state of the tower mast structure lifting operation platform of the present invention.

Wherein the reference numerals are specified as follows: the oil pump comprises an outer upper ring frame 1, an outer lower ring frame 2, an inner upper ring frame 3, an inner lower ring frame 4, an outer rack 5, an outer gear 6, an inner rack 7, an inner gear 8, an outer frame telescopic oil pump 9, an inner frame telescopic oil pump 10, a baffle 11, an oil pump base 12, an output shaft 13, a first guide plate 14, a second guide plate 15, a guide column 16, a transmission plate 17, an electromagnet 18, a cross arm 19, a connecting arm 20, a guide hole 21, a driving motor 22, a driving shaft 23, an outer frame supporting column 24, an inner frame supporting column 25, an operation platform 26, a supporting steel rib 27 and an inclined strut 28.

Detailed Description

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1 and fig. 2, the present embodiment provides a lifting operation platform of a tower mast structure, which includes an inner frame, an outer frame, and an operation platform 26. As shown in fig. 3-5, the inner frame body is disposed inside the outer frame body, the inner frame body includes an inner upper ring frame 3 and an inner lower ring frame 4, the outer frame body includes an outer upper ring frame 1 and an outer lower ring frame 2, and the inner upper ring frame 3, the inner lower ring frame 4, the outer upper ring frame 1, and the outer lower ring frame 2 are octagonal. The four inner racks 7 are arranged between the inner upper ring frame 3 and the inner lower ring frame 4, the four inner racks 7 are distributed at equal intervals, the two ends of each inner rack 7 are respectively connected with the corner points of the inner upper ring frame 3 and the inner lower ring frame 4, and the stability of the structure is improved. Four outer racks 5 are arranged between the outer upper ring frame 1 and the outer lower ring frame 2, the four outer racks 5 are distributed at equal intervals, and two ends of each outer rack 5 are respectively connected with the corner points of the outer upper ring frame 1 and the outer lower ring frame 2. The inner racks 7 and the outer racks 5 are alternately arranged. The meshing is connected with internal gear 8 on every interior rack 7, internal gear 8 and outer 2 fixed connection of lower ring frame, the meshing has external gear 6 on every outer rack 5, external gear 6 and interior 3 fixed connection of upper ring frame, internal gear 8, external gear 6 is driven by driving motor 22, the both sides of internal gear 8, the both sides of external gear 6 are provided with baffle 11 respectively, the baffle 11 of internal gear 8 both sides is parallel with the plane at internal gear 8 place, the baffle 11 of external gear 6 both sides is parallel with the plane at external gear 6 place, baffle 11 is passed in proper order to drive shaft 23. The inner upper ring frame 3 and the inner lower ring frame 4 are both provided with inner frame telescopic oil pumps 10, and the outer upper ring frame 1 and the outer lower ring frame 2 are both provided with outer frame telescopic oil pumps 9. The inner frame telescopic oil pump 10 is arranged at the joint of the inner rack 7 and the inner upper ring frame 3 and the inner lower ring frame 4, and the outer frame telescopic oil pump 9 is arranged at the joint of the outer rack 5 and the outer upper ring frame 1 and the outer lower ring frame 2. And a storage battery box 25 is arranged at the joint of the inner upper ring frame 3 and the inner rack 7 and the joint of the outer lower ring frame 2 and the outer rack 5. The battery case 25 is used to supply power to the telescopic oil pumps (the inner frame telescopic oil pump 10 and the outer frame telescopic oil pump 9) and the drive motor 22. The driving motor 22, the inner frame telescopic oil pump 10 and the outer frame telescopic oil pump 9 are controlled by an electrical control system, an operation interface of the electrical control system is installed on an operation platform 26, the operation interface is controlled by a touch screen or a remote controller, and an operator can stand on the ground or on the operation platform 26 to control the working process of the electrical control system.

With continued reference to fig. 1 and 2, the operation platform 26 is a ring structure and is mounted on the outer upper ring frame through a fixing mechanism. Fixed establishment is including supporting reinforcing bar 27, bracing 28 and outrigger support column 24, supports reinforcing bar 27, bracing 28, outrigger support column 24 end to end and connects gradually and forms the triangle-shaped structure, supports reinforcing bar 27 and welds between operation platform 26's inward flange and outward flange, and the outrigger support column welds in and goes up between ring frame and the interior ring frame down, and operation platform 26's inward flange, outward flange upwards extend respectively and are provided with safety barrier.

In order to improve the stability of the whole structure, an inner frame supporting column 25 is installed between the inner upper ring frame 3 and the inner lower ring frame 4, the inner frame supporting column 25 and the inner rack 7 are alternately arranged, and in the embodiment, two inner frame supporting columns 25 are distributed between every two adjacent inner rack 7 at equal intervals. The outrigger support columns 24 and the outer racks 5 are alternately arranged, and two outrigger support columns 24 are distributed between every two adjacent outer racks 5 at equal intervals, so that the outrigger support columns support the operating platform 26 on the one hand, and the stability of the whole structure is improved on the other hand. The inner frame body, the outer frame body, the inner rack 7, the outer rack 5, the inner gear 8 and the outer gear 6 are made of steel materials.

As shown in fig. 6 to 7, the telescopic oil pump (inner frame telescopic oil pump 10, outer frame telescopic oil pump 9) includes an oil pump main body, an electromagnet 18, a transmission mechanism, and a guide mechanism.

Wherein, the oil pump main part includes oil pump base 12 and output shaft 13, and in the in-process of installation use, oil pump base 12 is fixed in on inner frame body, the outer frame body, and output shaft 13 passes through drive mechanism and connects electro-magnet 18. The oil pump main body and the electromagnet 18 can be connected with a storage battery box 25 or can be connected with an external power supply according to requirements. In this embodiment, the electromagnet 18 is away from the end face folded surface shape of the oil pump main body, and in other implementations, the specific shape of the end face is designed according to the shape of the tower mast structure, and may be a straight surface shape, an arc surface shape or other shapes, so as to ensure that the end face of the electromagnet 18 is completely attached to the outer surface of the tower mast structure, and improve the stability of the overall structure.

The guide mechanism comprises a first guide plate 14, a second guide plate 15 and a guide post 16, the first guide plate 14 is installed at one end, far away from the output shaft 13, of the oil pump base 12, the second guide plate 15 is installed at one end, connected with the output shaft 13, of the oil pump base 12, guide holes 21 are formed in the first guide plate 14 and the second guide plate 15 respectively, one end of the guide post 16 sequentially penetrates through the guide holes 21 in the first guide plate 14 and the second guide plate 15 and is fixed with the electromagnet 18, and the guide post 16 is parallel to the output shaft 13. The first guide plate 14 and the second guide plate 15 are respectively provided with two guide holes 21, and the two guide holes 21 are symmetrically arranged along a straight line where the output shaft 13 is located. The two guide posts 16 ensure that the motion track of the output shaft 13 is a straight line, and the output shaft 13 is prevented from shaking in the stretching process.

As shown in fig. 8 and 9, the transmission mechanism includes a transmission plate 17, a cross arm 19 and a connecting arm 20, the transmission plate 17 is located between the second guide plate 15 and the electromagnet 18 and is parallel to the second guide plate 15, the output shaft 13 is fixedly connected to the transmission plate 17, and the transmission plate 17 is provided with a guide hole 21 for the guide post 16 to pass through. The plane of the cross arm 19 is perpendicular to the transmission plate 17, the center point of the cross is fixedly connected with the transmission plate 17, four end portions of the cross arm 19 are respectively hinged with one end of a connecting arm 20, the other ends of two connecting arms 20 in the four connecting arms 20 are hinged with the second guide plate 15, and the other ends of the other two connecting arms 20 are fixedly hinged with the electromagnet 18. The two cross arms 19 are arranged in two, the two cross arms 19 are arranged on two opposite sides of the transmission plate 17, and a connecting line of cross center points of the two cross arms 19 penetrates through a central axis of the output shaft 13. When the output shaft 13 drives the electromagnet 18 to extend or retract, the two symmetrically arranged cross arms 19 play a role in buffering on one hand, and on the other hand, the electromagnet 18 is prevented from shaking in the movement process.

The plane of the cross arm 19 is parallel to the plane of the two guide posts 16, so that the output shaft 13 is positioned at the center of the cross arm 19 and the guide posts 16, and the movement stability of the output shaft 13 is improved.

Referring to fig. 10-12, the working principle of the present embodiment will be further described with reference to an octagon-shaped tower mast structure (a central tower body at shanghai exhibition, which is an octagon-shaped tower body structure with a narrow top and a wide bottom). As shown in fig. 11, when the lifting platform of the tower mast structure of the present embodiment needs to climb up, the electromagnet 18 of the inner frame telescopic oil pump 10 is powered off, and the inner frame telescopic oil pump 10 is far away from the tower mast structure, the electromagnet 18 of the outer frame telescopic oil pump 9 is powered on and adsorbed on the outer wall of the tower mast structure, the internal gear 8 and the external gear 6 are driven by the driving motor 22 to rotate, since the internal gear 8 is fixed with the outer lower ring frame 2, the position of the internal gear 8 does not move during the rotation process, the internal rack 7 moves up under the driving of the internal gear 8 until the internal gear 8 is located at the bottom of the internal rack 7, the external gear 6 is located at the top of the external rack 5, and the positional relationship between the internal rack 7 and the external rack 5 is shown in fig. 12. Then, the driving motor 22 driving the inner gear 8 and the outer gear 6 to move stops working, the electromagnet of the outer frame telescopic oil pump 9 is powered off, the outer frame telescopic oil pump 9 is far away from the tower mast structure, the electromagnet of the inner frame telescopic oil pump 10 is powered on and is adsorbed on the outer wall of the tower mast structure, the inner gear 8 and the outer gear 6 rotate under the driving of the driving motor 22, the outer gear 6 is fixed with the inner upper ring frame 3, the position of the outer gear 6 does not move in the rotating process, the outer rack 5 moves upwards under the driving of the outer gear 6 until the outer gear 6 is located at the bottom of the outer rack 5, the position relation between the outer rack 5 and the inner rack 7 is as shown in fig. 11, and the climbing process of the lifting operation platform of the tower mast structure is completed. The same principle is adopted, and the downward moving process of the tower mast structure lifting operation platform can be realized.

As shown in fig. 6 and 7, the telescopic oil pump operates as follows: the terminal surface shape of electro-magnet 18 is the face of book shape in this embodiment, and the contained angle that forms between the contained angle that forms and adjacent two sides on the tower body between the face of book is the same, and the terminal surface of electro-magnet 18 is towards the tower body, and when needs were fixed lift operation platform on the tower body, output shaft 13 stretched out for the terminal surface and the tower body contact of electro-magnet 18, electro-magnet 18 circular telegram makes electro-magnet 18 can adsorb on the tower body, and when needs removed elevating system, electro-magnet 18 outage, output shaft 13 withdrawal. Because the tower body is of a structure with a narrow top and a wide bottom, and the electromagnet 18 is a folded surface and is matched with the shape of the tower body, when the electromagnet 18 is powered off in an unexpected situation, the electromagnet 18 cannot slide down along the tower body in a short time.

Although the present invention has been described in detail with reference to the above embodiments, it should be understood by those skilled in the art that modifications or improvements based on the disclosure of the present invention can be made without departing from the spirit and scope of the present invention, and these modifications and improvements are within the spirit and scope of the present invention.

Claims (14)

1. A tower mast structure lifting operation platform is characterized by comprising an inner frame body, an outer frame body and an operation platform, wherein the inner frame body is arranged on the inner side of the outer frame body, the inner frame body comprises an inner upper ring frame and an inner lower ring frame, the outer frame body comprises an outer upper ring frame and an outer lower ring frame, a plurality of inner racks are arranged between the inner upper ring frame and the inner lower ring frame, a plurality of outer racks are arranged between the outer upper ring frame and the outer lower ring frame, the inner racks and the outer racks are alternately arranged, each inner rack is engaged and connected with an inner gear, the inner gears are fixedly connected with the outer lower ring frame, each outer rack is engaged with an outer gear, the outer gears are fixedly connected with the inner upper ring frame, the inner gears and the outer gears are driven by a driving motor, inner frame telescopic oil pumps are arranged on the inner upper ring frame and the inner lower ring frame, outer upper ring frame all install outer frame telescopic oil pump on the outer lower ring frame, operation platform be annular structure and install in through fixed establishment on the outer upper ring frame.

2. The tower mast structure lifting operation platform of claim 1, wherein the fixing mechanism comprises a supporting steel rib, a diagonal brace and an outer frame supporting column, the supporting steel rib, the diagonal brace and the outer frame supporting column are sequentially connected end to form a triangular structure, the supporting steel rib is welded between the inner edge and the outer edge of the operation platform, the outer frame supporting column is welded between the outer upper ring frame and the outer lower ring frame, and safety guards extend upwards from the inner edge and the outer edge of the operation platform respectively.

3. The tower mast structure lifting operation platform of claim 2, wherein inner frame supporting columns are installed between the inner upper ring frame and the inner lower ring frame, the inner frame supporting columns and the inner racks are alternately arranged, and the outer frame supporting columns and the outer racks are alternately arranged.

4. The tower mast structure lifting platform of claim 1, wherein the inner frame oil pump is mounted at the joint of the inner rack and the inner upper ring frame and the inner lower ring frame, and the outer frame oil pump is mounted at the joint of the outer rack and the outer upper ring frame and the outer lower ring frame.

5. The tower mast structure lifting operation platform of claim 4, wherein a battery box is installed at the connection of the inner upper ring frame and the inner rack and at the connection of the outer lower ring frame and the outer rack.

6. The tower mast structure lifting platform of claim 1, wherein the inner splines are equally spaced from each other and the outer splines are equally spaced from each other.

7. The tower mast structure lifting operation platform of claim 1, wherein the baffles are respectively arranged on two sides of the internal gear and two sides of the external gear, the baffles on two sides of the internal gear are parallel to the plane of the internal gear, the baffles on two sides of the external gear are parallel to the plane of the external gear, and the driving shaft of the driving motor sequentially passes through the baffles.

8. The tower mast structure lifting operation platform of claim 1, wherein the inner frame telescopic oil pump and the outer frame telescopic oil pump have the same structure and comprise an oil pump body, an electromagnet, a transmission mechanism and a guide mechanism,

the oil pump main body comprises an oil pump base and an output shaft, the oil pump base is fixed on the lifting auxiliary frame, the output shaft is connected with the electromagnet through the transmission mechanism,

the guide mechanism comprises a first guide plate, a second guide plate and a guide post, the first guide plate is arranged at one end of the oil pump base far away from the output shaft, the second guide plate is arranged at one end of the oil pump base connected with the output shaft, guide holes are respectively arranged on the first guide plate and the second guide plate, one end of the guide post sequentially penetrates through the guide holes on the first guide plate and the second guide plate and is fixed with the electromagnet, the guide post is parallel to the output shaft,

drive mechanism includes driving plate, crossing arm and linking arm, the driving plate is located the second deflector with between the electro-magnet and with the second deflector is parallel, output shaft fixed connection the driving plate, the plane at crossing arm place with the perpendicular and crossing central point fixed connection of driving plate the driving plate, four tip of crossing arm respectively with the one end of linking arm is articulated, four the other end of two linking arms in the linking arm with the second deflector is articulated, the other end of two other linking arms fixed with the electro-magnet is articulated.

9. The tower mast structure lifting operation platform of claim 8, wherein the end surface of the electromagnet far away from the oil pump body is straight, circular or folded.

10. The tower mast structure lifting operation platform of claim 9, wherein the driving motor, the inner frame oil pump and the outer frame oil pump are all controlled by an electrical control system, an operation interface of the electrical control system is installed on the operation platform, and the operation interface is controlled by a touch screen or a remote controller.

11. The tower mast structure lifting platform of claim 8, wherein the number of the cross arms is two, two of the cross arms are disposed on opposite sides of the driving plate, and a line connecting cross center points of the two cross arms passes through a central axis of the output shaft.

12. The tower mast structure lifting platform of claim 8, wherein the first and second guide plates are provided with two guide holes, and the two guide holes are symmetrically arranged along a line where the output shaft is located.

13. The tower mast structure lifting operation platform of claim 8, wherein the driving motor, the oil pump body and the electromagnet are powered by a storage battery or an external power source.

14. The tower mast structure lifting platform of claim 1, wherein the inner frame, the outer frame, the inner rack, the outer rack, the inner gear and the outer gear are made of steel.

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