CN110107140B - Emergent signal tower of communication engineering - Google Patents

Abstract

The invention relates to communication correlation, in particular to an emergency signal tower for communication engineering, which comprises a signal source fixing mechanism, a wind power generation mechanism, a limiting mechanism, an emergency supporting plate mechanism, a mechanism shell, a bottom protection mechanism, a buffer mechanism, a side stabilizing mechanism and an adjusting mechanism. The signal source fixing mechanism is connected with the emergency supporting plate mechanism, the limiting mechanism is connected with a mechanism shell, the mechanism shell is connected with the wind power generation mechanism, the emergency supporting plate mechanism is connected with the mechanism shell, the mechanism shell is connected with the bottom protection mechanism, the bottom protection mechanism is connected with the buffer mechanism, the bottom protection mechanism is connected with the side stabilizing mechanism, and the bottom protection mechanism is connected with the adjusting mechanism.

Description

Emergent signal tower of communication engineering

Technical Field

The invention relates to communication correlation, in particular to an emergency signal tower for communication engineering.

Background

The signal tower is a main building covered by signals and is mostly arranged at a high position, accidents are easy to occur due to geographical positions of the signal tower, and the emergency signal tower in the communication engineering is designed to solve the problem in order that the coverage of the signals is not influenced under the condition of the accidents.

Disclosure of Invention

The invention mainly solves the technical problem of providing a communication engineering emergency signal tower, the device has a self-protection mechanism under the condition of overlarge wind power to prevent a signal source from being damaged, has the function of wind power generation, can still work under the condition of accidental power failure, has an adjustment structure and can be adjusted according to actual conditions.

In order to solve the technical problems, the invention relates to communication correlation, in particular to a communication engineering emergency signal tower which comprises a signal source fixing mechanism, a wind power generation mechanism, a limiting mechanism, an emergency supporting plate mechanism, a mechanism shell, a bottom protection mechanism, a buffer mechanism, a side stabilizing mechanism and an adjusting mechanism.

The signal source fixing mechanism comprises a fixing plate, a supporting column, a slideway rod, a side spring, an extrusion rod, a structural shell, a large articulated piece, a small articulated piece, a worm wheel, a motor, a buffer spring, a square piece and a spherical wheel, wherein the fixing plate is fixedly connected with the supporting column, the supporting column is fixedly connected with the slideway rod through a through hole, the slideway rod is movably connected with the structural shell through a track groove, the side spring is matched with the track groove, the slideway rod is in contact connection with the side spring, the side spring is in contact connection with the extrusion rod, the extrusion rod is movably connected with the structural shell through the track groove, the large articulated piece is fixedly connected with the structural shell, the large articulated piece is articulated with the supporting column, the small articulated piece is fixedly connected with the structural shell, the small articulated piece is articulated with the extrusion rod, the worm is engaged with the structural shell through a threaded hole, the worm is engaged with the worm wheel, the structure shell is fixedly connected with the buffer spring, the buffer spring is fixedly connected with the square piece, the square piece is movably connected with the spherical wheel through the groove, and the structure shell is in contact connection with the hemispherical piece;

the structure shell is provided with a track groove, a threaded hole and a fixing groove;

the wind power generation mechanism comprises a fan blade, a ring piece, a gear, a generator, power storage equipment, a sliding block pin and a spherical sliding piece, wherein the fan blade is fixedly connected with the ring piece, the ring piece is fixedly connected with the sliding block pin, the sliding block pin is movably connected with the spherical sliding piece through a groove, the ring piece is meshed with the gear through gear grains, the gear is fixedly connected with the generator, the generator is connected with the power storage equipment, the power storage equipment is fixedly connected with a shell main body through an L-shaped groove, and the sliding block pin is movably connected with the shell main body through an annular stepped;

the annular piece is provided with gear grains;

the limiting mechanism comprises a hemispherical part, a short column, a flat clamping part and a small spring, the hemispherical part is fixedly connected with the short column, the short column is fixedly connected with the flat clamping part, the flat clamping part is fixedly connected with the small spring, and the flat clamping part is movably connected with the shell main body through a stepped groove;

the emergency supporting plate mechanism comprises a middle supporting plate, a balancing weight, an insertion piece, a T-shaped piece, an interlayer spring, a supporting short piece, a short piece fixing piece and a connecting wire, wherein the middle supporting plate is fixedly connected with the balancing weight, the middle supporting plate is connected with the insertion piece through a positioning groove, the insertion piece is hinged with the T-shaped piece, the T-shaped piece is fixedly connected with the interlayer spring, the T-shaped piece is in contact connection with the supporting short piece, the supporting short piece is hinged with the short piece fixing piece, the short piece fixing piece is fixedly connected with the shell main body, the T-shaped piece is movably connected with the shell main body through a supporting plate groove body, the connecting wire is fixedly connected with the;

a positioning groove is arranged on the middle supporting plate;

the support short piece is provided with a winding hole;

the mechanism shell comprises a shell main body, a grid plate connecting piece, a grid plate, stressed supporting legs and a combined clamping shell, wherein the shell main body is fixedly connected with the grid plate connecting piece, the grid plate connecting piece is hinged with the grid plate, the stressed supporting legs are fixedly connected with the shell main body, the shell main body is fixedly connected with the combined clamping shell, the stressed supporting legs are in contact connection with a protective shell, the grid plate is in contact connection with abutting columns, the number of the stressed supporting legs is multiple, the stressed supporting legs are uniformly distributed at the bottom of the shell main body, and the number of the stressed supporting legs is multiple and is located between the stressed supporting legs;

the shell main body is provided with a step groove, an annular step groove, an L-shaped groove, a supporting plate groove body and a wiring hole;

the combined clamping shell is provided with a triangular clamping groove, and the combined clamping shell and the clamping piece teeth are matched through the triangular clamping groove;

the bottom protection mechanism comprises a combined buckle, a butting piece and a protection shell, the combined buckle is fixedly connected with the protection shell, the protection shell is movably connected with the butting piece through a butting piece stepped groove, and the protection shell is fixedly connected with the square fixing piece;

the combined buckle comprises a fixed block, clamping part teeth and a wire fixed block, the fixed block is fixedly connected with the clamping part teeth, the wire fixed block is fixedly connected with the fixed block, and the wire fixed block is fixedly connected with the connecting wire through a wire fixing hole;

the thread fixing block is provided with a thread fixing hole;

the abutting piece comprises an abutting column, an abutting column clamping piece and an abutting column spring, the abutting column is fixedly connected with the abutting column clamping piece, the abutting column clamping piece is fixedly connected with the abutting column spring, and the abutting column clamping piece is movably connected with the abutting piece stepped groove;

the protective shell is provided with a butting piece stepped groove, a strip-shaped groove, an oval sliding piece, a short slideway, an extrusion threaded hole and a drain hole, the protective shell is movably connected with the oval piece through the strip-shaped groove, the protective shell is movably connected with the cylindrical sliding piece through the oval sliding piece, the protective shell is movably connected with the buffer plate through the short slideway, and the protective shell is meshed with the middle through threaded piece through the extrusion threaded hole;

the buffer mechanism comprises a buffer plate, a limiting column, a bottom buffer spring and a middle through thread piece, the buffer plate is fixedly connected with the limiting column, the limiting column is positioned in the center of the bottom buffer spring, the bottom buffer spring is fixedly connected with the buffer plate, the bottom buffer spring is fixedly connected with the middle through thread piece, and the middle through thread piece is movably connected with the limiting column through a sliding middle hole;

the middle through thread piece is provided with a sliding middle hole;

the side stabilizing mechanism comprises a cylindrical sliding piece, an elliptical piece, a long supporting rod and a swinging fixing pin, wherein the cylindrical sliding piece is fixedly connected with the elliptical piece through a through hole, the elliptical piece is hinged with the long supporting rod, and the long supporting rod is hinged with the swinging fixing pin;

the adjusting mechanism comprises an adjusting structure block and a dual-purpose adjusting piece, and the adjusting structure block is hinged with the dual-purpose adjusting piece through a positioning shaft;

the adjusting structure block comprises a square fixing piece, an arc-shaped track piece and a positioning threaded nail, the square fixing piece is fixedly connected with the arc-shaped track piece, and the arc-shaped track piece is meshed with the positioning threaded nail through threads;

the arc-shaped rail piece is provided with a bottom arc-shaped rail;

the dual-purpose adjusting piece comprises a fixed foot plate, an L-shaped rotating piece, an arc-shaped sliding piece, a moving wheel and a positioning shaft, wherein the fixed foot plate is fixedly connected with the L-shaped rotating piece, the L-shaped rotating piece is movably connected with the positioning shaft, the L-shaped rotating piece is fixedly connected with the arc-shaped sliding piece, the arc-shaped sliding piece is meshed with the positioning screw nail through a positioning thread groove, and the L-shaped rotating piece is connected with the moving wheel through a shaft;

a positioning thread groove is arranged on the arc-shaped sliding piece;

the signal source fixing mechanism is connected with the emergency supporting plate mechanism, the limiting mechanism is connected with a mechanism shell, the mechanism shell is connected with the wind power generation mechanism, the emergency supporting plate mechanism is connected with the mechanism shell, the mechanism shell is connected with the bottom protection mechanism, the bottom protection mechanism is connected with the buffer mechanism, the bottom protection mechanism is connected with the side stabilizing mechanism, and the bottom protection mechanism is connected with the adjusting mechanism.

As a further optimization of the technical scheme, the number of the adjusting mechanisms of the emergency signal tower in the communication engineering is four, and the four adjusting mechanisms are uniformly distributed at the bottom of the bottom protection mechanism.

As a further optimization of the technical scheme, the number of the buffer springs is multiple, and the buffer springs are uniformly distributed at the bottom of the structural shell.

As a further optimization of the technical scheme, the number of the grid plate connecting pieces and the number of the grid plates of the communication engineering emergency signal tower are four, and the grid plates are distributed around the shell main body.

The communication engineering emergency signal tower has the beneficial effects that:

the emergency signal tower for the communication engineering has a self-protection mechanism under the condition of overlarge wind power, prevents a signal source from being damaged, has a wind power generation function, can still work under the condition of accidental power failure, has an adjustment structure, and can be adjusted according to actual conditions.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of an emergency signal tower in communication engineering according to the present invention.

Fig. 2 is a schematic structural diagram of a signal source fixing mechanism 1 of an emergency signal tower in a communication engineering.

Fig. 3 is a schematic cross-sectional view of C-C in fig. 2.

Fig. 4 is a schematic cross-sectional view of a-a in fig. 2.

Fig. 5 is a schematic structural diagram of a wind power generation mechanism 2 of an emergency signal tower in a communication engineering.

Fig. 6 is a schematic view of a connection structure of a fan blade 2-1 and a ring-shaped member 2-2 of an emergency signal tower of a communication engineering.

Fig. 7 is a schematic structural diagram of a limiting mechanism 3 of an emergency signal tower in a communication engineering according to the present invention.

Fig. 8 is a schematic structural diagram of an emergency support plate mechanism 4 of an emergency signal tower in the communication engineering.

Fig. 9 is a schematic structural diagram of a mechanism housing 5 of an emergency signal tower in communication engineering.

Fig. 10 is a schematic structural diagram of a combined card shell 5-5 of an emergency signal tower in communication engineering according to the present invention.

Fig. 11 is a schematic structural diagram of a bottom protection mechanism 6 of an emergency signal tower in communication engineering according to the present invention.

Fig. 12 is a schematic structural diagram of a combined buckle 6-1 of an emergency signal tower in communication engineering according to the present invention.

Fig. 13 is a schematic structural diagram of a support part 6-2 of an emergency signal tower in communication engineering according to the present invention.

Fig. 14 is a schematic structural diagram of a buffering mechanism 7 of an emergency signal tower in a communication engineering according to the present invention.

Fig. 15 is a schematic structural diagram of a side stabilizing mechanism 8 of an emergency signal tower in communication engineering.

Fig. 16 is a schematic structural diagram of an adjusting mechanism 9 of an emergency signal tower in communication engineering according to the present invention.

Fig. 17 is a schematic structural diagram of an adjusting structure block 9-1 of an emergency signal tower in communication engineering according to the present invention.

Fig. 18 is a schematic structural diagram of a dual-purpose adjusting member 9-2 of an emergency signal tower in communication engineering according to the present invention.

Fig. 19 is a schematic cross-sectional view of B-B in fig. 18.

Fig. 20 is a schematic structural diagram of a top view of a mechanism housing 5 of an emergency signal tower in the communication engineering.

In the drawing, a signal source fixing mechanism 1, a fixing plate 1-1, a support column 1-2, a slideway rod 1-3, a side spring 1-4, an extrusion rod 1-5, a structure shell 1-6, a track groove 1-6-1, a threaded hole 1-6-2, a fixed groove 1-6-3, a large articulated piece 1-7, a small articulated piece 1-8, a worm 1-9, a worm wheel 1-10, a motor 1-11, a buffer spring 1-12, a block piece 1-13, a spherical wheel 1-14, a wind power generation mechanism 2, a fan blade 2-1, a ring piece 2-2, a gear pattern 2-1, a gear 2-3, a generator 2-4, power storage equipment 2-5, a slider foot fixing piece 2-6, a spherical slider 2-7, a limiting mechanism 3, a hemispherical piece 3-1, a short column 3-2, a flat clamping piece 3-3, a small spring 3-4, an emergency supporting plate mechanism 4-1, a middle supporting plate 4-1, a positioning groove 4-1-6, a positioning groove 4-6, a fixing mechanism, a sliding block 2-6, a sliding block 2-7, a sliding block 2-6, a sliding block 2-7, a convex piece, a.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the invention relates to a communication-related, more specifically, a communication engineering emergency signal tower, which includes a signal source fixing mechanism 1, a wind power generation mechanism 2, a limiting mechanism 3, an emergency support plate mechanism 4, a mechanism housing 5, a bottom protection mechanism 6, a buffer mechanism 7, a side stabilizing mechanism 8, and an adjusting mechanism 9.

The signal source fixing mechanism 1 comprises a fixing plate 1-1, a support column 1-2, a slideway rod 1-3, a side spring 1-4, an extrusion rod 1-5, a structure shell 1-6, a large articulated piece 1-7, a small articulated piece 1-8, a worm 1-9, a worm wheel 1-10, a motor 1-11, a buffer spring 1-12, a square piece 1-13 and a spherical wheel 1-14, wherein the fixing plate 1-1 is fixedly connected with the support column 1-2, the support column 1-2 is fixedly connected with the slideway rod 1-3 through a through hole, the slideway rod 1-3 is movably connected with the structure shell 1-6 through a rail groove 1-6-1, the rail spring 1-4 is matched with the rail groove 1-6-1, and the slideway rod 1-3 is connected with the side spring 1-4 in a contact manner, side springs 1-4 are in contact connection with an extrusion rod 1-5, the extrusion rod 1-5 is movably connected with a structural shell 1-6 through a track groove 1-6-1, a large articulated piece 1-7 is fixedly connected with the structural shell 1-6, the large articulated piece 1-7 is articulated with a support column 1-2, a small articulated piece 1-8 is fixedly connected with the structural shell 1-6, a small articulated piece 1-8 is articulated with the extrusion rod 1-5, a worm 1-9 is engaged with the structural shell 1-6 through a threaded hole 1-6-2, the worm 1-9 is engaged with a worm wheel 1-10, the worm wheel 1-10 is fixedly connected with a motor 1-11, the motor 1-11 is fixedly connected with the structural shell 1-6 through a fixed groove 1-6-3, the structural shell 1-6 is fixedly connected with a buffer spring 1-12, the buffer springs 1-12 are fixedly connected with the square pieces 1-13, the square pieces 1-13 are movably connected with the spherical wheels 1-14 through grooves, the structural shell 1-6 is in contact connection with the hemispherical piece 3-1, the signal source equipment is fixed on the fixed plate 1-1, the side springs 1-4 support the slideway rods 1-3, so that the fixed plate 1-1 plays a role of buffering when being impacted by wind or blind flyers, the motors 1-11 are played, the motors 1-11 drive the worms 1-9 to ascend through the worm wheels 1-10, the worms 1-9 ascend to push the extrusion rods 1-5 to extrude the side springs 1-4, the side springs 1-4 on one side press the slideway rods 1-3 under the force, the fixed plate 1-1 can incline, and the purpose of adjusting the angle of the fixed plate 1-1 is achieved, synchronously starting the motors 1-11 at the two sides, and adjusting the extrusion degree of the springs 1-4 at the two sides to the slideway rods 1-3;

the structure shell 1-6 is provided with a track groove 1-6-1, a threaded hole 1-6-2 and a fixing groove 1-6-3;

the wind power generation mechanism 2 comprises a fan blade 2-1, a ring piece 2-2, a gear 2-3, a generator 2-4, an electric power storage device 2-5, a slider pin 2-6 and a spherical slider 2-7, the fan blade 2-1 is fixedly connected with the ring piece 2-2, the ring piece 2-2 is fixedly connected with the slider pin 2-6, the slider pin 2-6 is movably connected with the spherical slider 2-7 through a groove, the ring piece 2-2 is meshed with the gear 2-3 through a gear pattern 2-2-1, the gear 2-3 is fixedly connected with the generator 2-4, the generator 2-4 is connected with the electric power storage device 2-5, the electric power storage device 2-5 is fixedly connected with a shell main body 5-1 through an L groove 5-1-3, the slider pin 2-6 is movably connected with the shell main body 5-1 through an annular stepped groove 5-1-2, wind drives the ring piece 2-2 to rotate through the fan blade 2-1, the slider pin 2-6 is matched with the spherical slider 2-7 to enable the ring piece 2-2 to rotate, the ring piece 2-2 drives the gear 2-3, and the electric power storage device 2-5 to drive the electric power supply device to stop;

the annular piece 2-2 is provided with gear grains 2-2-1;

the limiting mechanism 3 comprises a hemispherical part 3-1, a short column 3-2, a flat clamping piece 3-3 and a small spring 3-4, the hemispherical part 3-1 is fixedly connected with the short column 3-2, the short column 3-2 is fixedly connected with the flat clamping piece 3-3, the flat clamping piece 3-3 is fixedly connected with the small spring 3-4, and the flat clamping piece 3-3 is movably connected with the shell main body 5-1 through a stepped groove 5-1-1;

the emergency supporting plate mechanism 4 comprises a middle supporting plate 4-1, a balancing weight 4-2, an inserting piece 4-3, a T-shaped piece 4-4, an interlayer spring 4-5, a supporting short piece 4-6, a short piece fixing piece 4-7 and a connecting wire 4-8, wherein the middle supporting plate 4-1 is fixedly connected with the balancing weight 4-2, the middle supporting plate 4-1 is connected with the inserting piece 4-3 through a positioning groove 4-1-1, the inserting piece 4-3 is hinged with the T-shaped piece 4-4, the T-shaped piece 4-4 is fixedly connected with the interlayer spring 4-5, the T-shaped piece 4-4 is in contact connection with the supporting short piece 4-6, the supporting short piece 4-6 is hinged with the short piece fixing piece 4-7, the short piece fixing piece 4-7 is fixedly connected with a shell main body 5-1, the T-shaped piece 4-4 is movably connected with the shell main body 5-1 through the supporting plate groove body 5-1-4, the connecting line 4-8 is fixedly connected with the supporting short piece 4-6 through the winding hole 4-6-1, the connecting line 4-8 is adapted to the wiring hole 5-1-5, when the wind power is too large to separate or break the combined clamping shell 5-5 and the combined buckle 6-1, the connecting line 4-8 pulls the supporting short piece 4-6 to rotate downwards, the supporting short piece 4-6 is separated from the T-shaped piece 4-4, the T-shaped piece 4-4 pulls the inserting piece 4-3 to be separated from the middle supporting plate 4-1 under the supporting action of the interlayer spring 4-5, one end of the middle supporting plate 4-1 rotates downwards under the action of the balancing weight 4-2 at the moment, so that the signal source fixing mechanism 1 on the middle supporting plate 4-1 falls integrally, entering the inside of the protective shell 6-3 and above the buffer plate 7-1, wherein the buffer springs 1-12 play a role of buffering;

a positioning groove 4-1-1 is arranged on the middle supporting plate 4-1;

the support short piece 4-6 is provided with a winding hole 4-6-1;

the mechanism shell 5 comprises a shell main body 5-1, a grid plate connecting piece 5-2 and a grid plate 5-3, the combined clamping type solar cell comprises stress supporting legs 5-4 and combined clamping shells 5-5, a shell main body 5-1 is fixedly connected with a grid plate connecting piece 5-2, the grid plate connecting piece 5-2 is hinged with a grid plate 5-3, the stress supporting legs 5-4 are fixedly connected with the shell main body 5-1, the shell main body 5-1 is fixedly connected with the combined clamping shells 5-5, the stress supporting legs 5-4 are in contact connection with a protective shell 6-3, the grid plate 5-3 is in contact connection with a support column 6-2-1, the number of the stress supporting legs 5-4 is multiple, the stress supporting legs are uniformly distributed at the bottom of the shell main body 5-1, and the number of the stress supporting legs 5-4 is multiple and is located between the stress supporting legs 5-4;

the shell main body 5-1 is provided with a stepped groove 5-1-1, an annular stepped groove 5-1-2, an L-shaped groove 5-1-3, a supporting plate groove body 5-1-4 and a wiring hole 5-1-5;

the combined clamping shell 5-5 is provided with a triangular clamping groove 5-5-1, and the combined clamping shell 5-5 is matched with the clamping piece teeth 6-1-2 through the triangular clamping groove 5-5-1;

the bottom protection mechanism 6 comprises a combined buckle 6-1, a butting piece 6-2 and a protective shell 6-3, the combined buckle 6-1 is fixedly connected with the protective shell 6-3, the protective shell 6-3 is movably connected with the butting piece 6-2 through a butting piece stepped groove 6-3-1, and the protective shell 6-3 is fixedly connected with a square fixing piece 9-1-1;

the combined buckle 6-1 comprises a fixed block 6-1-1, a clamping piece tooth 6-1-2 and a line fixed block 6-1-3, wherein the fixed block 6-1-1 is fixedly connected with the clamping piece tooth 6-1-2, the line fixed block 6-1-3 is fixedly connected with the fixed block 6-1-1, and the line fixed block 6-1-3 is fixedly connected with a connecting line 4-8 through a line fixing hole 6-1-3-1;

the thread fixing block 6-1-3 is provided with a thread fixing hole 6-1-3-1;

the abutting part 6-2 comprises an abutting column 6-2-1, an abutting column clamping part 6-2-2 and an abutting column spring 6-2-3, the abutting column 6-2-1 is fixedly connected with the abutting column clamping part 6-2-2, the abutting column clamping part 6-2-2 is fixedly connected with the abutting column spring 6-2-3, the abutting column clamping part 6-2-2 is movably connected with the abutting piece stepped groove 6-3-1, the abutting column 6-2-1 plays a role of supporting the grid plate 5-3, the grid plate 5-3 is used for preventing sundries from floating in the protective shell 6-3, and the abutting column spring 6-2-3 plays a role of supporting the abutting column clamping part 6-2-2 to play a role of buffering;

the protective shell 6-3 is provided with a butting part stepped groove 6-3-1, a strip-shaped groove 6-3-2, an oval slider 6-3-3, a short slideway 6-3-4, an extrusion threaded hole 6-3-5 and a drain hole 6-3-6, the protective shell 6-3 is movably connected with the oval part 8-2 through the strip-shaped groove 6-3-2, the protective shell 6-3 is movably connected with a cylindrical slider 8-1 through the oval slider 6-3-3, the protective shell 6-3 is movably connected with a buffer plate 7-1 through the short slideway 6-3-4, and the protective shell 6-3 is meshed with a middle through threaded part 7-4 through the extrusion threaded hole 6-3-5;

the buffer mechanism 7 comprises a buffer plate 7-1, a limiting column 7-2, a bottom buffer spring 7-3 and a middle through thread piece 7-4, the buffer plate 7-1 is fixedly connected with the limiting column 7-2, the limiting column 7-2 is positioned at the center of the bottom buffer spring 7-3, the bottom buffer spring 7-3 is fixedly connected with the buffer plate 7-1, the bottom buffer spring 7-3 is fixedly connected with the middle through thread piece 7-4, the middle through thread piece 7-4 is movably connected with the limiting column 7-2 through a sliding middle hole 7-4-1, the bottom buffer spring 7-3 plays a role in supporting the buffer plate 7-1 for buffering, wherein the limiting column 7-2 limits the moving track of the buffer plate 7-1 and prevents the buffer plate 7-1 from inclining so as to lose the buffering effect, the middle through thread piece 7-4 is rotated, and the middle through thread piece 7-4 extrudes the bottom buffer spring 7-3 to play a role in adjusting the buffering force of the bottom buffer spring 7-3;

the middle through screw thread piece 7-4 is provided with a sliding middle hole 7-4-1;

the side stabilizing mechanism 8 comprises a cylindrical sliding piece 8-1, an elliptical piece 8-2, a long supporting rod 8-3 and a swinging fixing foot 8-4, wherein the cylindrical sliding piece 8-1 is fixedly connected with the elliptical piece 8-2 through a through hole, the elliptical piece 8-2 is hinged with the long supporting rod 8-3, the long supporting rod 8-3 is hinged with the swinging fixing foot 8-4, and the swinging fixing foot 8-4 is used for being fixed at the bottom and plays a role of a stabilizing device, wherein the cylindrical sliding piece 8-1 can move up and down along the elliptical sliding piece 6-3-3 to adjust the position, the fixing range of the device at the bottom can be enlarged, different installation spaces are used, and the elliptical piece 8-2 and the long supporting rod 8-3 play a role of connection;

the adjusting mechanism 9 comprises an adjusting structure block 9-1 and a dual-purpose adjusting part 9-2, wherein the adjusting structure block 9-1 is hinged with the dual-purpose adjusting part 9-2 through a positioning shaft 9-2-5;

the adjusting structure block 9-1 comprises a square fixing piece 9-1-1, an arc-shaped track piece 9-1-2 and a positioning threaded nail 9-1-3, the square fixing piece 9-1-1 is fixedly connected with the arc-shaped track piece 9-1-2, and the arc-shaped track piece 9-1-2 is meshed with the positioning threaded nail 9-1-3 through threads;

the arc-shaped rail piece 9-1-2 is provided with a bottom arc-shaped rail 9-1-2-1;

the dual-purpose adjusting piece 9-2 comprises a fixed foot plate 9-2-1, an L-shaped rotating piece 9-2-2, an arc-shaped sliding piece 9-2-3, a moving wheel 9-2-4 and a positioning shaft 9-2-5, wherein the fixed foot plate 9-2-1 is fixedly connected with a L-shaped rotating piece 9-2-2, a L-shaped rotating piece 9-2-2 is movably connected with the positioning shaft 9-2-5, the L-shaped rotating piece 9-2-2 is fixedly connected with the arc-shaped sliding piece 9-2-3, the arc-shaped sliding piece 9-2-3 is meshed with the positioning screw nail 9-1-3 through a positioning screw groove 9-2-3-1, the L-shaped rotating piece 9-2-2 is connected with the moving wheel 9-2-4 through a shaft, the fixed foot plate 9-2-1 plays the role of a fixing device, the moving wheel 9-2-4 is convenient to move, and the arc-shaped sliding piece 9-2-3 slides along a bottom arc-shaped rail;

the arc-shaped sliding piece 9-2-3 is provided with a positioning thread groove 9-2-3-1;

the signal source fixing mechanism 1 is connected with an emergency supporting plate mechanism 4, the limiting mechanism 3 is connected with a mechanism shell 5, the mechanism shell 5 is connected with a wind power generation mechanism 2, the emergency supporting plate mechanism 4 is connected with the mechanism shell 5, the mechanism shell 5 is connected with a bottom protection mechanism 6, the bottom protection mechanism 6 is connected with a buffer mechanism 7, the bottom protection mechanism 6 is connected with a side stabilizing mechanism 8, and the bottom protection mechanism 6 is connected with an adjusting mechanism 9.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes the first embodiment, in which the number of the adjusting mechanisms 9 is four and is uniformly distributed at the bottom of the bottom protection mechanism 6.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes the first embodiment, in which a plurality of buffer springs 1 to 12 are uniformly distributed at the bottom of the structural shells 1 to 6.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes the first embodiment, where the number of the grid plate connectors 5-2 and the number of the grid plates 5-3 are four, and the four grid plates are uniformly distributed around the housing main body 5-1.

The use method of the device comprises the following steps: the positioning screw 9-1-3 fixed with the arc-shaped sliding piece 9-2-3 is rotated to enable the positioning screw 9-1-3 to be separated from the arc-shaped sliding piece 9-2-3, the arc-shaped sliding piece 9-2-3 slides to the other end along the bottom arc-shaped track 9-1-2-1 by taking the positioning shaft 9-2-5 as a central point, and is fixed through the positioning screw 9-1-3, at the moment, the conversion of the moving wheel 9-2-4 and the fixed foot plate 9-2-1 is realized, the fixed foot plate 9-2-1 plays a role of a fixing device, and the moving wheel 9-2-4 is convenient for the device to move.

The swing fixing leg 8-4 is used to fix on the bottom and acts as a stabilizer, in which the cylindrical slider 8-1 can move up and down along the oval slider 6-3-3 to adjust the position, the fixing range of the device on the bottom can be enlarged, different installation spaces can be used, and the oval piece 8-2 and the long support bar 8-3 act as a connection.

The bottom buffer spring 7-3 plays a role in supporting the buffer plate 7-1 for buffering, the limiting column 7-2 limits the moving track of the buffer plate 7-1 to prevent the buffer plate 7-1 from being inclined so as to lose the buffering effect, the middle through thread piece 7-4 rotates, and the middle through thread piece 7-4 extrudes the bottom buffer spring 7-3 to play a role in adjusting the buffering force of the bottom buffer spring 7-3.

The support column 6-2-1 plays a role in supporting the grid plate 5-3, the grid plate 5-3 is used for preventing sundries from floating in the protective shell 6-3, and the support column spring 6-2-3 plays a role in supporting the support column clamping piece 6-2-2 and playing a role in buffering.

Wind drives the annular piece 2-2 to rotate through the fan blade 2-1, the sliding block feet 2-6 and the spherical sliding piece 2-7 are matched to enable the annular piece 2-2 to rotate more stably, the annular piece 2-2 drives the gear 2-3, so that the generator 2-4 is driven to operate to supply power to the power storage equipment 2-5, the power storage equipment 2-5 supplies power to the signal source equipment, and the equipment is prevented from stopping working due to accidental power failure.

The small spring 3-4 supports the flat clamping piece 3-3, so that the hemispherical piece 3-1 supports the signal source fixing mechanism 1 and the signal source fixing mechanism 1 is prevented from shaking greatly.

The signal source equipment is fixed on a fixed plate 1-1, side springs 1-4 support a slideway rod 1-3, so that when the fixed plate 1-1 is impacted by wind or blind flyers, the buffer effect is achieved, a motor 1-11 is achieved, the motor 1-11 drives a worm 1-9 to ascend through a worm wheel 1-10, the worm 1-9 ascends to push an extrusion rod 1-5 to extrude the side springs 1-4, the side springs 1-4 on one side extrude the slideway rod 1-3 under the stress, the fixed plate 1-1 can be inclined, the purpose of adjusting the angle of the fixed plate 1-1 is achieved, the motors 1-11 on the two sides are synchronously started, and the extrusion pressure degree of the side springs 1-4 on the two sides on the slideway rod 1-3 can be adjusted.

When the combined clamping shell 5-5 and the combined buckle 6-1 are separated or broken due to overlarge wind power, the connecting wire 4-8 pulls the supporting short piece 4-6 to rotate downwards, the supporting short piece 4-6 is separated from the T-shaped piece 4-4, the T-shaped piece 4-4 pulls the plug-in piece 4-3 to be separated from the middle supporting plate 4-1 under the supporting effect of the interlayer spring 4-5, one end of the middle supporting plate 4-1 rotates downwards under the effect of the balancing weight 4-2 at the moment, so that the signal source fixing mechanism 1 on the middle supporting plate 4-1 falls integrally and enters the protective shell 6-3, the buffer plate 7-1 is arranged above the buffer spring 1-12, and the buffer spring 1-12 plays a buffer effect.

The device has a self-protection mechanism under the condition of overlarge wind power, prevents a signal source from being damaged, has the function of wind power generation, can still work under the condition of accidental power failure, has an adjustment structure, and can be adjusted according to actual conditions.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides an emergent signal tower of communication engineering, includes signal source fixed establishment (1), wind power generation mechanism (2), stop gear (3), urgent layer board mechanism (4), mechanism shell (5), bottom protection mechanism (6), buffer gear (7), side stabilizing mean (8), guiding mechanism (9), its characterized in that: the signal source fixing mechanism (1) comprises a fixing plate (1-1), a support column (1-2), a slideway rod (1-3), a side spring (1-4), an extrusion rod (1-5), a structural shell (1-6), a large articulated piece (1-7), a small articulated piece (1-8), a worm (1-9), a worm wheel (1-10), a motor (1-11), a buffer spring (1-12), a square piece (1-13) and a spherical wheel (1-14), wherein the fixing plate (1-1) is fixedly connected with the support column (1-2), the support column (1-2) is fixedly connected with the slideway rod (1-3) through a through hole, the slideway rod (1-3) is movably connected with the structural shell (1-6) through a track groove (1-6-1), the side springs (1-4) are adapted to the track grooves (1-6-1), the slideway rods (1-3) are in contact connection with the side springs (1-4), the side springs (1-4) are in contact connection with the extrusion rods (1-5), the extrusion rods (1-5) are movably connected with the structural shells (1-6) through the track grooves (1-6-1), the large articulated elements (1-7) are fixedly connected with the structural shells (1-6), the large articulated elements (1-7) are articulated with the supporting columns (1-2), the small articulated elements (1-8) are fixedly connected with the structural shells (1-6), the small articulated elements (1-8) are articulated with the extrusion rods (1-5), the worms (1-9) are engaged with the structural shells (1-6) through the threaded holes (1-6-2), the worm (1-9) is meshed with the worm wheel (1-10), the worm wheel (1-10) is fixedly connected with the motor (1-11), the motor (1-11) is fixedly connected with the structural shell (1-6) through the fixing groove (1-6-3), the structural shell (1-6) is fixedly connected with the buffer spring (1-12), the buffer spring (1-12) is fixedly connected with the square piece (1-13), the square piece (1-13) is movably connected with the spherical wheel (1-14) through the groove, and the structural shell (1-6) is in contact connection with the hemispherical piece (3-1);

the structure shell (1-6) is provided with a track groove (1-6-1), a threaded hole (1-6-2) and a fixed groove (1-6-3);

the wind power generation mechanism (2) comprises a fan blade (2-1), a ring piece (2-2), a gear (2-3), a generator (2-4), an electric power storage device (2-5), a sliding block pin (2-6) and a spherical sliding piece (2-7), the fan blade (2-1) is fixedly connected with the ring piece (2-2), the ring piece (2-2) is fixedly connected with the sliding block pin (2-6), the sliding block pin (2-6) is movably connected with the spherical sliding piece (2-7) through a groove, the ring piece (2-2) is meshed with the gear (2-3) through a gear pattern (2-2-1), the gear (2-3) is fixedly connected with the generator (2-4), the generator (2-4) is connected with the electric power storage device (2-5), the electric power storage device (2-5) is fixedly connected with a shell main body (5-1) through an L groove (5-1-3), and the sliding block pin (2-6) is movably connected with the shell main body (5-1) through a stepped groove (5-1);

the annular piece (2-2) is provided with gear grains (2-2-1);

the limiting mechanism (3) comprises a hemispherical part (3-1), a short column (3-2), a flat clamping piece (3-3) and a small spring (3-4), the hemispherical part (3-1) is fixedly connected with the short column (3-2), the short column (3-2) is fixedly connected with the flat clamping piece (3-3), the flat clamping piece (3-3) is fixedly connected with the small spring (3-4), and the flat clamping piece (3-3) is movably connected with the shell main body (5-1) through a stepped groove (5-1-1);

the emergency supporting plate mechanism (4) comprises a middle supporting plate (4-1), a balancing weight (4-2), an inserting piece (4-3), a T-shaped piece (4-4), an interlayer spring (4-5), a supporting short piece (4-6), a short piece fixing piece (4-7) and a connecting line (4-8), wherein the middle supporting plate (4-1) is fixedly connected with the balancing weight (4-2), the middle supporting plate (4-1) is connected with the inserting piece (4-3) through a positioning groove (4-1-1), the inserting piece (4-3) is hinged with the T-shaped piece (4-4), the T-shaped piece (4-4) is fixedly connected with the interlayer spring (4-5), the T-shaped piece (4-4) is connected with the supporting short piece (4-6) in a contact manner, the supporting short piece (4-6) is hinged with the short piece (4-7), the short piece fixing piece (4-7) is fixedly connected with the shell main body (5-1), the T-shaped piece (4-4) is movably connected with the shell main body (5-1) through the supporting plate groove body (5-1-4), the connecting line (4-8) is fixedly connected with the supporting short piece (4-6) through the winding hole (4-6-1), and the connecting line (4-8) is matched with the wiring hole (5-1-5);

a positioning groove (4-1-1) is arranged on the middle supporting plate (4-1);

the support short piece (4-6) is provided with a winding hole (4-6-1);

the mechanism shell (5) comprises a shell main body (5-1), grid plate connecting pieces (5-2), grid plates (5-3), stressed supporting legs (5-4) and a combined clamping shell (5-5), wherein the shell main body (5-1) is fixedly connected with the grid plate connecting pieces (5-2), the grid plate connecting pieces (5-2) are hinged with the grid plates (5-3), the stressed supporting legs (5-4) are fixedly connected with the shell main body (5-1), the shell main body (5-1) is fixedly connected with the combined clamping shell (5-5), the stressed supporting legs (5-4) are in contact connection with a protective shell (6-3), the grid plates (5-3) are in contact connection with supporting columns (6-2-1), and the number of the stressed supporting legs (5-4) is multiple, the stress supporting legs (5-4) are arranged between the stress supporting legs (5-4);

the shell main body (5-1) is provided with a step groove (5-1-1), an annular step groove (5-1-2), an L-shaped groove (5-1-3), a supporting plate groove body (5-1-4) and a wiring hole (5-1-5);

the combined clamping shell (5-5) is provided with a triangular clamping groove (5-5-1), and the combined clamping shell (5-5) is matched with the clamping piece teeth (6-1-2) through the triangular clamping groove (5-5-1);

the bottom protection mechanism (6) comprises a combined buckle (6-1), a butting piece (6-2) and a protective shell (6-3), the combined buckle (6-1) is fixedly connected with the protective shell (6-3), the protective shell (6-3) is movably connected with the butting piece (6-2) through a butting piece stepped groove (6-3-1), and the protective shell (6-3) is fixedly connected with a square fixing piece (9-1-1);

the combined buckle (6-1) comprises a fixed block (6-1-1), clamping piece teeth (6-1-2) and a line fixed block (6-1-3), the fixed block (6-1-1) is fixedly connected with the clamping piece teeth (6-1-2), the line fixed block (6-1-3) is fixedly connected with the fixed block (6-1-1), and the line fixed block (6-1-3) is fixedly connected with a connecting line (4-8) through a line fixing hole (6-1-3-1);

the thread fixing block (6-1-3) is provided with a thread fixing hole (6-1-3-1);

the abutting part (6-2) comprises an abutting column (6-2-1), an abutting column clamping piece (6-2-2) and an abutting column spring (6-2-3), the abutting column (6-2-1) is fixedly connected with the abutting column clamping piece (6-2-2), the abutting column clamping piece (6-2-2) is fixedly connected with the abutting column spring (6-2-3), and the abutting column clamping piece (6-2-2) is movably connected with the abutting part stepped groove (6-3-1);

the protective shell (6-3) is provided with a butting piece stepped groove (6-3-1), a strip-shaped groove (6-3-2), an oval slider (6-3-3), a short slideway (6-3-4), an extrusion threaded hole (6-3-5) and a drain hole (6-3-6), the protective shell (6-3) is movably connected with the elliptic piece (8-2) through a strip-shaped groove (6-3-2), the protective shell (6-3) is movably connected with the cylindrical sliding piece (8-1) through the elliptic sliding piece (6-3-3), the protective shell (6-3) is movably connected with the buffer plate (7-1) through a short slideway (6-3-4), and the protective shell (6-3) is meshed with the through screw thread piece (7-4) through an extrusion threaded hole (6-3-5);

the buffer mechanism (7) comprises a buffer plate (7-1), a limiting column (7-2), a bottom buffer spring (7-3) and a middle through threaded part (7-4), the buffer plate (7-1) is fixedly connected with the limiting column (7-2), the limiting column (7-2) is positioned in the center of the bottom buffer spring (7-3), the bottom buffer spring (7-3) is fixedly connected with the buffer plate (7-1), the bottom buffer spring (7-3) is fixedly connected with the middle through threaded part (7-4), and the middle through threaded part (7-4) is movably connected with the limiting column (7-2) through a sliding middle hole (7-4-1);

the middle through screw (7-4) is provided with a sliding middle hole (7-4-1);

the side stabilizing mechanism (8) comprises a cylindrical sliding piece (8-1), an elliptic piece (8-2), a long supporting rod (8-3) and a swinging fixing pin (8-4), wherein the cylindrical sliding piece (8-1) is fixedly connected with the elliptic piece (8-2) through a through hole, the elliptic piece (8-2) is hinged with the long supporting rod (8-3), and the long supporting rod (8-3) is hinged with the swinging fixing pin (8-4);

the adjusting mechanism (9) comprises an adjusting structure block (9-1) and a dual-purpose adjusting piece (9-2), and the adjusting structure block (9-1) is hinged with the dual-purpose adjusting piece (9-2) through a positioning shaft (9-2-5);

the adjusting structure block (9-1) comprises a square fixing piece (9-1-1), an arc-shaped track piece (9-1-2) and a positioning threaded nail (9-1-3), the square fixing piece (9-1-1) is fixedly connected with the arc-shaped track piece (9-1-2), and the arc-shaped track piece (9-1-2) is meshed with the positioning threaded nail (9-1-3) through threads;

the arc-shaped track piece (9-1-2) is provided with a bottom arc-shaped track (9-1-2-1);

the dual-purpose adjusting piece (9-2) comprises a fixed foot plate (9-2-1), an L-shaped rotating piece (9-2-2), an arc-shaped sliding piece (9-2-3), a moving wheel (9-2-4) and a positioning shaft (9-2-5), wherein the fixed foot plate (9-2-1) is fixedly connected with a L-shaped rotating piece (9-2-2), the L-shaped rotating piece (9-2-2) is movably connected with the positioning shaft (9-2-5), the L-shaped rotating piece (9-2-2) is fixedly connected with the arc-shaped sliding piece (9-2-3), the arc-shaped sliding piece (9-2-3) is meshed with the positioning screw nail (9-1-3) through a positioning screw groove (9-2-3-1), and the L-shaped rotating piece (9-2-2) is connected with the moving wheel (9-2-4) through a shaft;

a positioning thread groove (9-2-3-1) is arranged on the arc-shaped sliding piece (9-2-3);

the signal source fixing mechanism (1) is connected with the emergency supporting plate mechanism (4), the limiting mechanism (3) is connected with a mechanism shell (5), the mechanism shell (5) is connected with the wind power generation mechanism (2), the emergency supporting plate mechanism (4) is connected with the mechanism shell (5), the mechanism shell (5) is connected with a bottom protection mechanism (6), the bottom protection mechanism (6) is connected with a buffer mechanism (7), the bottom protection mechanism (6) is connected with a side stabilizing mechanism (8), and the bottom protection mechanism (6) is connected with an adjusting mechanism (9).

2. The emergency signal tower of communication engineering according to claim 1, wherein: the number of the adjusting mechanisms (9) is four, and the adjusting mechanisms are uniformly distributed at the bottom of the bottom protection mechanism (6).

3. The emergency signal tower of communication engineering according to claim 1, wherein: the number of the buffer springs (1-12) is multiple, and the buffer springs are uniformly distributed at the bottom of the structural shell (1-6).

4. The emergency signal tower of communication engineering according to claim 1, wherein: the number of the grid plate connecting pieces (5-2) and the number of the grid plates (5-3) are four, and the grid plates are uniformly distributed around the shell main body (5-1).

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