CN116335463A

CN116335463A - Iron tower installation device for wireless optical communication equipment

Info

Publication number: CN116335463A
Application number: CN202310089580.5A
Authority: CN
Inventors: 田旭; 周贤宏; 盛丽杰; 戈洪彪
Original assignee: Zhejiang Hangning Expressway Co ltd; Huzhou Shuangya Technology Co ltd
Current assignee: Zhejiang Hangning Expressway Co ltd; Huzhou Shuangya Technology Co ltd
Priority date: 2023-02-09
Filing date: 2023-02-09
Publication date: 2023-06-27

Abstract

The invention relates to the technical field of installation of wireless optical communication equipment, in particular to an iron tower installation device for wireless optical communication equipment, which comprises a base, a plurality of iron tower units and an iron tower installation device, wherein one iron tower unit is fixed on the base, the other iron tower units are sequentially and upwards overlapped, the iron tower units are upwards transported and installed through the iron tower installation device, a top plate is fixed at the top end of an iron frame, racks are vertically fixed on the side wall of each iron frame, a clamping block is fixed on the lower surface of a first bottom plate, a dovetail groove is formed in the clamping block, a dovetail block corresponding to the dovetail groove is fixed on the upper surface of the top plate, the dovetail block can be embedded in the dovetail groove, and a locking mechanism is arranged on the top plate.

Description

Iron tower installation device for wireless optical communication equipment

Technical Field

The invention relates to the technical field of wireless optical communication equipment installation, in particular to an iron tower installation device for wireless optical communication equipment.

Background

In a wireless optical communication device (FSO) installation mode, a wireless optical communication device is mainly installed on a roof or a wall or a roof of other buildings by using a special installation support for the wireless optical communication device, but in practical application, many wireless optical communication devices need to be installed on an iron tower (such as a steel angle tower or a holding tower), and a platform needs to be built on the iron tower by using a special installation support for the common wireless optical communication device so as to install the special installation support, thus the iron tower needs to be installed first. The large crane is needed for building the iron tower at present, then the iron tower is built by being matched with a worker to climb up the iron tower, but due to the fact that the iron tower is high-altitude operation, the worker has a certain danger, in addition, a certain places are not suitable for the large crane to enter, therefore, the iron tower building operation cannot be performed, and in order to solve the problems, the iron tower installation device for the wireless optical communication equipment is provided.

Disclosure of Invention

First, the technical problem to be solved

The problem that a large crane is needed for building the current iron tower, then a worker is matched to climb up the iron tower to build the iron tower is solved, but the iron tower is not built, and the installation device for the iron tower of the wireless optical communication equipment is provided because the iron tower is built by the large crane, the worker has a certain danger, and in addition, a certain place is not suitable for the large crane to enter, so that the iron tower building operation cannot be performed.

(II) technical scheme

The utility model provides an iron tower installation device for wireless optical communication equipment, includes base, a plurality of iron tower unit, iron tower installation device, is fixed with an iron tower unit on the base, and other iron tower units upwards overlap in proper order and set up, and the iron tower unit upwards transports the installation through iron tower installation device.

As the preferable technical scheme, the iron tower unit includes first bottom plate, and four angle departments of first bottom plate all are vertical to be fixed with the iron stand, and the top of iron stand is fixed with the roof, all are vertical to be fixed with the rack on the lateral wall of every iron stand, and the lower surface fixing of first bottom plate has the fixture block, has seted up the dovetail on the fixture block, and the upper surface fixing of roof has the dovetail corresponding with the dovetail, and the dovetail can inlay and establish in the dovetail, is provided with locking mechanism on the roof.

As the preferred technical scheme, locking mechanism is including fixing the inversion L type mounting panel on the roof, the upper surface fixed of L type mounting panel has the support, vertical plug bush has a pair of slide bar on the support lower surface, slide bar bottom mounting has the jack catch, the jack catch just is towards the one end shaping first inclined plane of first bottom plate, and the cover is equipped with reset spring on the slide bar and between support, jack catch, set up logical groove on the L type mounting panel, the jack catch extends to logical outside the groove, set up the draw-in groove corresponding with the jack catch on the first bottom plate, the jack catch can inlay and establish inside the draw-in groove, the one end of jack catch is fixed with unlocking piece.

As the preferable technical scheme, iron tower installation device is including the frame, has offered the rectangle on the frame and has led to the groove, and the frame is gone up and be located the inside both sides horizontal installation of rectangle logical groove and have a pair of pivot, all is fixed with the gear in every pivot, and the gear can mesh with the rack, is fixed with gear motor on the lateral wall of frame, gear motor's output shaft and one of them pivot fixed connection, and the one end of frame is provided with pushing mechanism, the other end is provided with balanced unit.

As the preferred technical scheme, pushing mechanism is including fixing the second bottom plate on the frame, be fixed with the U template on the second bottom plate, the U template export is towards balanced unit, the spout has been seted up on the second bottom plate, just be located the inside rectangle piece installation piece that is fixed with of spout on the lateral wall of U template, the end department of rectangle piece installation piece is fixed with the forked tail installation piece, and be located rectangle piece installation piece top level plug bush connecting screw rod on the lateral wall of U template, the screw rod is rotated towards the one end of balanced unit and is installed the electro-magnet that is used for pushing iron tower unit, the other end is fixed with the dog, be fixed with the frame on the lateral wall of U template, the level is fixed with the motor in the frame, the motor output axle head is fixed with first cone tooth, be fixed with the bearing frame on the lateral wall of U template, install the second cone tooth on the bearing frame, the second cone tooth all runs through the screw rod, and second cone tooth and screw rod threaded connection, first cone tooth, second cone tooth intermeshing.

As the preferable technical scheme, the balancing unit comprises a third bottom plate, a pair of round rods are vertically fixed on the third bottom plate, a plurality of balancing weights are vertically inserted on the round rods in a sleeved mode, and an unlocking unit is arranged at one end, close to the pushing mechanism, of the third bottom plate.

As the preferable technical scheme, the unlocking unit comprises a vertical plate fixed on a third bottom plate, an electric cylinder is fixed on the vertical plate, a pushing block is fixed at the output shaft end of the electric cylinder, a second inclined surface is formed at one end of the pushing block, a third inclined surface is formed at one end of the unlocking block, and the second inclined surface and the third inclined surface can be mutually abutted.

As the preferable technical scheme, reinforcing rib plates are arranged below the second bottom plate and the third bottom plate, one side of each reinforcing rib plate is fixedly connected with the lower surfaces of the second bottom plate and the third bottom plate, and the other side of each reinforcing rib plate is fixedly connected with the side wall of the machine base.

(III) beneficial effects

The invention has the beneficial effects that:

1. the dovetail groove slides to the right to drive the first bottom plate to slide to the right, the clamping groove corresponding to the clamping jaw is formed in the first bottom plate, the clamping jaw faces one end of the first bottom plate to form a first inclined plane, the first bottom plate slides to the right and then passes through the first inclined plane, the clamping jaw moves upwards under the action of the first inclined plane, when the clamping groove passes through the first inclined plane, the clamping jaw resets under the action of a spring force due to the reset spring, and therefore the clamping jaw is embedded in the clamping groove, and two iron tower units are locked.

2. The gear motor rotates to drive the rotating shaft to rotate, the rotating shaft rotates to drive the gear to rotate, the gear can be meshed with the rack, and the gear can drive the stand to move up and down on the rack, so that an iron tower unit placed on the stand can be transported upwards.

3. The iron tower unit is placed on the second bottom plate, the clamping block is fixed on the lower surface of the first bottom plate, the dovetail groove is formed in the clamping block, the dovetail groove is placed on the rectangular block mounting block, then the motor rotates to drive the first conical tooth to rotate, the first conical tooth and the second conical tooth are meshed with each other, the first conical tooth rotates to drive the second conical tooth to rotate, the second conical tooth is in threaded connection with the screw rod, the second conical tooth rotates to drive the screw rod to rotate, the screw rod rotates to drive the electromagnet to move rightwards, the electromagnet moves rightwards to drive the dovetail groove to slide rightwards, the dovetail groove is enabled to slide to the dovetail mounting block, the dovetail groove and the dovetail mounting block are enabled to be clamped, the iron tower unit is prevented from falling off in transportation, when the machine base moves to the top of the iron tower unit, the electromagnet continues to move rightwards, the dovetail groove is enabled to slide to the dovetail block, meanwhile, the locking mechanism locks the two iron tower units, the iron tower unit can be built automatically through the arrangement of the pushing mechanism, safety and convenience are achieved, and the automation degree is high.

4. Through setting up balanced unit, iron tower unit is placed to frame one end, balancing weight is placed to the other end to make the weight balance at both ends, prevent when upwards transporting iron tower unit, the frame rocks.

5. When the iron tower unit is unlocked, the output shaft of the electric cylinder moves leftwards to drive the push block to move leftwards, the push block moves leftwards to the unlocking block, a second inclined plane is formed at one end of the push block, a third inclined plane is formed at one end of the unlocking block, the second inclined plane and the third inclined plane can be mutually abutted, the push block continues to move leftwards to drive the unlocking block to move upwards, and the unlocking block moves upwards, so that the unlocking block is separated from the clamping groove, and the iron tower unit can be unlocked.

6. The device has solved the construction of current iron tower and has needed to use large-scale crane, then cooperates the workman to climb the iron tower and build, but because of being high altitude construction, the workman has certain danger, in addition, some places are unsuitable for large-scale crane entering, just can not carry out the iron tower from this and build the problem of operation.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic structural view of the pylon unit of the present invention;

FIG. 3 is a schematic view of the structure of the locking mechanism of the present invention;

FIG. 4 is a schematic structural view of the pylon mounting apparatus of the present invention;

1-a base; 2-an iron tower unit; 3-an iron tower installation device; 4-a first base plate; 5-iron stand; 6-top plate; 7-a rack; 8-clamping blocks; 9-a dovetail groove; 10-dovetail blocks; 11-a locking mechanism; 12-a pushing mechanism; 13-a balancing unit; 14-an unlocking unit; 15-reinforcing rib plates; 301-a stand; 302-a rotating shaft; 303-a gear; 304-a gear motor; 1101-L shaped mounting plate; 1102-a stent; 1103-slide bar; 1104-a claw; 1105-card slot; 1106-unlocking block; 1201-a second floor; 1202-U-shape plates; 1203-chute; 1204-rectangular block mounting blocks; 1205-dovetail mounting blocks; 1206-a screw; 1207-an electromagnet; 1208-stop; 1209-motor; 1210-first cone teeth; 1211-a rack; 1212-bearing blocks; 1213-second cone teeth; 1301-a third bottom plate; 1302-round bar; 1303-balancing weight; 1401-risers; 1402-electric cylinder; 1403-push block;

Detailed Description

An iron tower installation apparatus for a wireless optical communication device according to the present invention will be further described with reference to the accompanying drawings, and the present invention will be further described in detail with reference to the following examples:

as shown in fig. 1-4, an iron tower installation device for a wireless optical communication device includes a base 1, a plurality of iron tower units 2, and an iron tower installation device 3, and is characterized in that: be fixed with iron tower unit 2 on the base 1, other iron tower units 2 upwards stack in proper order and set up, and iron tower unit 2 upwards transport installation through iron tower installation device 3.

As shown in fig. 2, the iron tower unit 2 includes a first bottom plate 4, iron frames 5 are vertically fixed at four corners of the first bottom plate 4, top plates 6 are fixed at the top ends of the iron frames 5, racks 7 are vertically fixed on the side walls of each iron frame 5, clamping blocks 8 are fixed on the lower surface of the first bottom plate 4, dovetail grooves 9 are formed in the clamping blocks 8, dovetail blocks 10 corresponding to the dovetail grooves 9 are fixed on the upper surface of the top plates 6, the dovetail blocks 10 can be embedded in the dovetail grooves 9, and locking mechanisms 11 are arranged on the top plates 6.

When the iron tower units 2 are overlapped upwards, the dovetail grooves 9 at the bottoms of the iron tower units 2 are embedded and arranged in the lower dovetail blocks 10 in a sliding manner to the right, and meanwhile, the locking mechanism 11 locks the two iron tower units 2.

As shown in fig. 3, the locking mechanism 11 includes an inverted L-shaped mounting plate 1101 fixed on the top plate 6, a bracket 1102 fixed on the upper surface of the L-shaped mounting plate 1101, a pair of slide bars 1103 vertically inserted on the lower surface of the bracket 1102, a claw 1104 fixed at the bottom end of the slide bars 1103, a first inclined surface formed toward one end of the first bottom plate 4, a return spring 1107 sleeved on the slide bars 1103 and between the bracket 1102 and the claw 1104, a through slot formed on the L-shaped mounting plate 1101, the claw 1104 extending to the outside of the through slot, a clamping slot 1105 corresponding to the claw 1104 formed on the first bottom plate 4, the claw 1104 being embedded in the clamping slot 1105, and an unlocking block 1106 fixed at one end of the claw 1104.

It should be noted that, the dovetail groove 9 slides to the right to drive the first bottom plate 4 to slide to the right, the clamping groove 1105 corresponding to the clamping jaw 1104 is provided on the first bottom plate 4, the clamping jaw 1104 forms a first inclined plane towards one end of the first bottom plate 4, the first bottom plate 4 slides to the right and then passes through the first inclined plane, the clamping jaw 1104 moves upwards under the action of the first inclined plane, when the clamping groove 1105 passes through the first inclined plane, the clamping jaw 1104 resets under the action of the spring force due to the reset spring 1107, so that the clamping jaw 1104 is embedded in the clamping groove 1105, and the two iron tower units 2 are locked.

As shown in fig. 4, the iron tower installation device 3 includes a base 301, a rectangular through slot is formed in the base 301, a pair of rotating shafts 302 are horizontally installed on two sides of the base 301 and located inside the rectangular through slot, a gear 303 is fixed on each rotating shaft 302, the gear 303 can be meshed with the rack 7, a gear motor 304 is fixed on a side wall of the base 301, an output shaft of the gear motor 304 is fixedly connected with one of the rotating shafts 302, a pushing mechanism 12 is arranged at one end of the base 301, and a balancing unit 13 is arranged at the other end of the base 301.

It should be noted that, the rotation of the gear motor 304 drives the rotation of the rotation shaft 302, the rotation of the rotation shaft 302 drives the rotation of the gear 303, the gear 303 may mesh with the rack 7, and the rotation of the gear 303 may drive the stand 301 to move up and down on the rack 7, so that the iron tower unit 2 placed on the stand 301 may be transported upwards.

As shown in fig. 4, the pushing mechanism 12 includes a second bottom plate 1201 fixed on the base 201, a u-shaped plate 1202 is fixed on the second bottom plate 1201, an outlet of the u-shaped plate 1202 faces the balancing unit 13, a sliding groove 1203 is formed on the second bottom plate 1201, a rectangular block mounting block 1204 is fixed on a side wall of the u-shaped plate 1202 and located inside the sliding groove 1203, a dovetail mounting block 1205 is fixed at an end of the rectangular block mounting block 1204, a screw rod 1206 is connected to the rectangular block mounting block 1204 in a horizontal inserting manner, an electromagnet 1207 for pushing the iron tower unit 2 is rotatably mounted on one end of the screw rod 1206 facing the balancing unit 13, a stop 1208 is fixed on the other end of the screw rod 1206, a frame 1211 is fixed on an outer side wall of the frame 1211, a motor 1209 is horizontally fixed on the frame 1211, a first conical tooth 1210 is fixed on an output shaft end of the motor 1209, a bearing seat 1212 is fixed on an outer side wall of the u-shaped plate 1202, a second conical tooth 1213 is mounted on the bearing seat 1212, the second conical tooth 1213 is connected to the screw rod 1206, and the second conical tooth 1213 is meshed with the first conical tooth 1213.

It should be noted that, the iron tower unit 2 is placed on the second bottom plate 1201, the fixture block 8 is fixed on the lower surface of the first bottom plate 4, the dovetail groove 9 is formed on the fixture block 8, the dovetail groove 9 is placed on the rectangular block mounting block 1204, then the motor 1209 rotates to drive the first tapered tooth 1210 to rotate, the first tapered tooth 1210 and the second tapered tooth 1213 are meshed with each other, the first tapered tooth 1210 rotates to drive the second tapered tooth 1213 to rotate, the second tapered tooth 1213 is in threaded connection with the screw 1206, the second tapered tooth 1213 rotates to drive the screw 1206 to rotate, the screw 1206 rotates to drive the electromagnet 1207 to move rightward, the electromagnet 1207 moves rightward to drive the dovetail groove 9 to slide rightward, so that the dovetail groove 9 slides to the dovetail mounting block 1205, thereby enabling the dovetail groove 9 to be clamped with the dovetail mounting block 1205, preventing the iron tower unit 2 from falling off during transportation, when the base 301 moves to the top of the iron tower unit 2, the motor 1209 continues to rotate, thereby enabling the electromagnet 1207 to move rightward, thereby enabling the dovetail groove 9 to slide into the dovetail block 10, and simultaneously, the locking mechanism 11 rotates to drive the two iron tower units 2, namely, the automatic locking mechanism 12 can be set up and automatically, and the iron tower 2 can be conveniently locked by high through the automatic locking mechanism.

As shown in fig. 4, the balancing unit 13 includes a third bottom plate 1301, a pair of round rods 1302 are vertically fixed on the third bottom plate 1301, a plurality of balancing weights 1303 are vertically inserted on the round rods 1302, and an unlocking unit 14 is arranged on the third bottom plate 1301 and near one end of the pushing mechanism 12.

By setting the balancing unit 13, the iron tower unit 2 is placed at one end of the stand 201, and the balancing weights 1303 are placed at the other end, so that the weights at both ends are balanced, and the stand 201 is prevented from shaking when the iron tower unit 2 is transported upwards.

As shown in fig. 4, the unlocking unit 14 includes a vertical plate 1401 fixed on a third bottom plate 1301, an electric cylinder 1402 is fixed on the vertical plate 1401, a push block 1403 is fixed at the output shaft end of the electric cylinder 1402, a second inclined surface is formed at one end of the push block 1403, a third inclined surface is formed at one end of the unlocking block 1106, and the second inclined surface and the third inclined surface can be mutually abutted.

It should be noted that, during unlocking, the output shaft of the electric cylinder 1402 moves leftwards to drive the push block 1403 to move leftwards, the push block 1403 moves leftwards to the unlocking block 1106, a second inclined plane is formed at one end of the push block 1403, a third inclined plane is formed at one end of the unlocking block 1106, the second inclined plane and the third inclined plane can be mutually abutted, the push block 1403 continues to move leftwards to drive the unlocking block 1106 to move upwards, and the unlocking block 1106 moves upwards, so that the unlocking block 1106 is separated from the clamping groove 1105, and the iron tower unit 2 can be unlocked.

As shown in fig. 4, reinforcing rib plates 15 are arranged below the second bottom plate 1201 and the third bottom plate 1301, one side of each reinforcing rib plate 15 is fixedly connected with the lower surfaces of the second bottom plate 1201 and the third bottom plate 1301, and the other side is fixedly connected with the side wall of the machine base 201.

Working principle: in operation, the iron tower unit 2 is placed on the second bottom plate 1201, the clamping block 8 is fixed on the lower surface of the first bottom plate 4, the dovetail groove 9 is formed on the clamping block 8, the dovetail groove 9 is placed on the rectangular block mounting block 1204, then the motor 1209 rotates to drive the first tapered tooth 1210 to rotate, the first tapered tooth 1210 and the second tapered tooth 1213 are meshed with each other, the first tapered tooth 1210 rotates to drive the second tapered tooth 1213 to rotate, the second tapered tooth 1213 is in threaded connection with the screw 1206, the second tapered tooth 1213 rotates to drive the screw 1206 to rotate, the screw 1206 rotates to drive the electromagnet 1207 to move rightward, the electromagnet 1207 moves rightward to drive the dovetail groove 9 to slide rightward, the dovetail groove 9 slides to the position of the dovetail mounting block 1205, thereby enabling the dovetail groove 9 to be clamped with the dovetail mounting block 1205, the iron tower unit 2 is prevented from falling off during transportation, the speed reducing motor 304 rotates to drive the rotating shaft 302 to rotate, the rotating shaft 302 rotates to drive the gear 303 to rotate, the gear 303 can be meshed with the rack 7, the gear 303 rotates to drive the base 301 to move up and down on the rack 7, so that the iron tower unit 2 placed on the base 301 can be transported upwards, when the base 301 moves to the top of the iron tower unit 2, the motor 1209 continues to rotate, the electromagnet 1207 continues to move rightwards, so that the dovetail groove 9 slides into the dovetail block 10, meanwhile, the locking mechanism 11 locks the two iron tower units 2, and the iron tower unit 2 can be built automatically, so that the iron tower unit 2 is safe, convenient and high in automation degree can be achieved by arranging the pushing mechanism 12;

when unlocking, the output shaft of the electric cylinder 1402 moves leftwards to drive the push block 1403 to move leftwards, the push block 1403 moves leftwards to the unlocking block 1106, a second inclined plane is formed at one end of the push block 1403, a third inclined plane is formed at one end of the unlocking block 1106, the second inclined plane and the third inclined plane can be mutually abutted, the push block 1403 continues to move leftwards to drive the unlocking block 1106 to move upwards, and the unlocking block 1106 moves upwards, so that the unlocking block 1106 is separated from the clamping groove 1105, and the iron tower unit 2 can be unlocked.

The above examples are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solutions of the present invention should fall within the scope of protection of the present invention, and the technical content claimed by the present invention is fully described in the claims.

Claims

1. Iron tower installation device for wireless optical communication equipment, including base (1), a plurality of iron tower unit (2), iron tower installation device (3), its characterized in that: an iron tower unit (2) is fixed on the base (1), other iron tower units (2) are sequentially arranged in an upward overlapping mode, and the iron tower units (2) are transported and installed upwards through an iron tower installation device (3).

2. A pylon mounting apparatus for a wireless optical communication device as defined in claim 1, wherein: iron tower unit (2) are including first bottom plate (4), four angle departments of first bottom plate (4) are all vertical to be fixed with iron stand (5), the top of iron stand (5) is fixed with roof (6), every all vertical rack (7) that are fixed with on the lateral wall of iron stand (5), the lower fixed surface of first bottom plate (4) has fixture block (8), dovetail (9) have been seted up on fixture block (8), the upper surface of roof (6) is fixed with dovetail (10) corresponding with dovetail (9), dovetail (10) can inlay and establish in dovetail (9), be provided with locking mechanism (11) on roof (6).

3. A pylon mounting apparatus for a wireless optical communication device as defined in claim 2, wherein: the locking mechanism (11) comprises an inverted L-shaped mounting plate (1101) fixed on a top plate (6), a support (1102) is fixed on the upper surface of the L-shaped mounting plate (1101), a pair of sliding rods (1103) are vertically sleeved on the lower surface of the support (1102), clamping claws (1104) are fixed at the bottom ends of the sliding rods (1103), a first inclined surface is formed towards one end of a first bottom plate (4), a reset spring (1107) is sleeved on the sliding rods (1103) and between the support (1102) and the clamping claws (1104), through grooves are formed in the L-shaped mounting plate (1101), the clamping claws (1104) extend to the outside of the through grooves, clamping grooves (1105) corresponding to the clamping claws (1104) are formed in the first bottom plate (4), the clamping claws (1104) can be embedded in the clamping grooves (1104), and unlocking blocks (1106) are fixed at one ends of the clamping claws (1104).

4. A pylon mounting apparatus for a wireless optical communication device of claim 3, wherein: iron tower installation device (3) is including frame (301), rectangular through groove has been seted up on frame (301), a pair of pivot (302) are installed to the horizontal level in the inside both sides of rectangular through groove on frame (301), every all be fixed with gear (303) on pivot (302), gear (303) can mesh with rack (7), be fixed with gear motor (304) on the lateral wall of frame (301), gear motor (304)'s output shaft and one of them pivot (302) fixed connection, the one end of frame (301) is provided with push mechanism (12), the other end is provided with balancing unit (13).

5. A pylon mounting apparatus for a wireless optical communication device as defined in claim 4, wherein: the pushing mechanism (12) comprises a second bottom plate (1201) fixed on the machine base (201), a U-shaped plate (1202) is fixed on the second bottom plate (1201), an outlet of the U-shaped plate (1202) faces to the balancing unit (13), a sliding groove (1203) is formed in the second bottom plate (1201), a rectangular block mounting block (1204) is fixed on the side wall of the U-shaped plate (1202) and positioned in the sliding groove (1203), a dovetail mounting block (1205) is fixed at the end of the rectangular block mounting block (1204), a screw rod (1206) is horizontally inserted and sleeved on the side wall of the U-shaped plate (1202) and positioned above the rectangular block mounting block (1204), an electromagnet (1207) for pushing an iron tower unit (2) is rotatably mounted at one end of the screw rod (1206) towards the balancing unit (13), a stop block (1208) is fixed at the other end of the screw rod, a frame (1211) is fixed on the outer side wall of the U-shaped plate (1202), a motor (1209) is horizontally fixed on the frame (1211), a first conical tooth (1212) is fixed at the end of the motor (1209), a bearing seat (1212) is fixed on the outer side wall of the U-shaped plate (1213), and the second conical teeth (1213) are in threaded connection with the screw rod (1206), and the first conical teeth (1210) and the second conical teeth (1213) are meshed with each other.

6. A pylon mounting apparatus for a wireless optical communication device as defined in claim 4, wherein: the balance unit (13) comprises a third bottom plate (1301), a pair of round rods (1302) are vertically fixed on the third bottom plate (1301), a plurality of balancing weights (1303) are vertically sleeved on the round rods (1302), and an unlocking unit (14) is arranged on the third bottom plate (1301) and close to one end of the pushing mechanism (12).

7. A pylon mounting apparatus for a wireless optical communication device as defined in claim 6, wherein: the unlocking unit (14) comprises a vertical plate (1401) fixed on a third bottom plate (1301), an electric cylinder (1402) is fixed on the vertical plate (1401), a pushing block (1403) is fixed at the output shaft end of the electric cylinder (1402), a second inclined surface is formed at one end of the pushing block (1403), a third inclined surface is formed at one end of the unlocking block (1106), and the second inclined surface and the third inclined surface can be mutually abutted.

8. A pylon mounting apparatus for a wireless optical communication device as defined in claim 6, wherein: reinforcing rib plates (15) are arranged below the second bottom plate (1201) and the third bottom plate (1301), one side of each reinforcing rib plate (15) is fixedly connected with the lower surfaces of the second bottom plate (1201) and the third bottom plate (1301), and the other side of each reinforcing rib plate is fixedly connected with the side wall of the machine base (201).