CN111786107B - Directional transmission data transmission signal equipment for communication - Google Patents

Abstract

The invention relates to directional transmission data transmission signal equipment, in particular to directional transmission data transmission signal equipment for communication, which comprises a transmission angle adjusting mechanism, a rotary three-section power source mechanism, a z-direction lifting mechanism and a lifting stability-increasing mechanism, wherein the equipment can adjust the angle of transmitting data transmission signals, can increase the stability when adjusting the angle of the data transmission signals, can lift a signal reflection plate, can increase the stability in a lifting state line, can be pulled to a specified position, the transmission angle adjusting mechanism is connected with the z-direction lifting mechanism, the rotary three-section power source mechanism is connected with the z-direction lifting mechanism, the z-direction lifting mechanism is connected with the lifting stability-increasing mechanism, and the rotary three-section power source mechanism is connected with the lifting stability-increasing mechanism.

Description

Directional transmission data transmission signal equipment for communication

Technical Field

The invention relates to a directional transmission data transmission signal device, in particular to a directional transmission data transmission signal device for communication.

Background

During data transmission, the signal receiving signal is weak frequently, or no signal exists at a certain position, but no better directional transmission data transmission signal equipment exists in the market, so the directional transmission data transmission signal equipment for communication is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the directional transmission data transmission signal equipment for communication, the equipment can adjust the angle of transmitting the data transmission signal, the equipment can increase the stability when adjusting the angle of the data transmission signal, the equipment can lift a signal reflection plate, the equipment can increase the stability in a lifting state line, and the equipment can be pulled to a specified position.

In order to solve the technical problem, the invention relates to directional transmission data transmission signal equipment, in particular to directional transmission data transmission signal equipment for communication, which comprises a transmission angle adjusting mechanism, a rotary three-section power source mechanism, a z-direction lifting mechanism and a lifting stability-increasing mechanism, wherein the equipment can adjust the angle of transmitting data transmission signals, can increase the stability when adjusting the angle of the data transmission signals, can lift a signal reflection plate, can increase the stability in a lifting state line, and can be pulled to a specified position.

The launching angle adjusting mechanism is connected with the z-direction lifting mechanism, the three-section rotary power source mechanism is connected with the z-direction lifting mechanism, the z-direction lifting mechanism is connected with the lifting stability-increasing mechanism, and the three-section rotary power source mechanism is connected with the lifting stability-increasing mechanism.

As a further optimization of the technical scheme, the invention relates to a directional transmission data transmission signal device for communication, wherein the transmission angle adjusting mechanism comprises a rotating motor, a rotating motor shaft, a rotating belt, a rotating transmission shaft a, a gear b, a rotating transmission shaft b, a connecting plate a, a rotating connecting block, a connecting plate b, a signal transmitting mechanism, a connecting plate c, a rotating connecting shaft a, an angle stabilizing connecting block, an angle stabilizing spring, an angle stabilizing connecting shaft, a connecting plate d, a rotating connecting shaft b and a device mounting block, wherein the rotating motor is connected with the rotating motor shaft, the rotating motor shaft is in friction connection with the rotating belt, the rotating belt is in friction connection with the rotating transmission shaft a, the rotating transmission shaft a is connected with the gear a, the gear a is meshed with the gear b, the gear b is connected with the rotating transmission shaft b, and the connecting plate a are in bearing connection, the connecting plate a is connected with the equipment mounting block, the rotary connecting block is connected with the rotary transmission shaft b, the connecting plate b is connected with the rotary connecting block, the signal transmitting mechanism is connected with the connecting plate b, the connecting plate c is connected with the connecting plate b, the rotary connecting shaft a is connected with a connecting plate c bearing, the angle stabilizing connecting block on one side is connected with a rotary connecting shaft a bearing, the angle stabilizing connecting block on the other side is connected with a rotary connecting shaft b bearing, an angle stabilizing spring is sleeved on the angle stabilizing connecting shaft and limited on the angle stabilizing connecting block on two sides, the angle stabilizing connecting shaft is connected with the angle stabilizing connecting block on one side, the angle stabilizing connecting shaft is connected with the angle stabilizing connecting block on the other side in a sliding mode, the connecting plate d is connected with the rotary connecting shaft b bearing, the equipment mounting block is connected with the rotary motor, a shaft of the rotary motor is connected with; the signal transmitting mechanism comprises a data transmission radio station, a data transmission radio station mounting seat, a data transmission signal line and a signal reflecting plate, wherein the data transmission radio station is connected with the data transmission radio station mounting seat, the data transmission radio station mounting seat is connected with the signal reflecting plate, and the data transmission signal line penetrates through the signal reflecting plate to be connected with the data transmission radio station mounting seat.

As a further optimization of the technical scheme, the invention relates to a directional transmission data transmission signal device for communication, which comprises a rotary three-section power source mechanism, a power motor, a power shaft, a power gear, a rotary plate a, a rotary plate b, a rotary plate c, a handle, a rotary limiting plate a, a rotary sliding limiting block, a sliding limiting spring, a sliding shaft limiting plate a, a sliding shaft limiting plate b, a sliding shaft, a rotary limiting plate b, a device mounting plate and a central rotating shaft, wherein the power motor is connected with the power shaft, the power shaft is connected with the power gear, the rotary plate a is connected with the power motor, the rotary plate b is connected with the rotary plate a, the rotary plate c is connected with the rotary plate b, the handle is connected with the rotary plate c, the rotary limiting plate a is connected with the device mounting plate, the rotary sliding limiting block is connected with the sliding shaft, the sliding limiting, sliding shaft limiting plate a is connected with the sliding shaft, sliding shaft limiting plate b is connected with the sliding shaft in a sliding mode, rotating limiting plate b is connected with the equipment mounting plate, the equipment mounting plate is connected with rotating plate a in a sliding mode, the central rotating shaft is connected with the equipment mounting plate in a sliding mode, rotating plate b is connected with the equipment mounting plate in a sliding mode, and the rotating sliding limiting block is connected with the equipment mounting plate in a sliding mode.

As a further optimization of the technical scheme, the invention relates to directional transmission data transmission signal equipment for communication, wherein a z-direction lifting mechanism comprises a lifting gear, a gear connecting shaft, a lifting belt, a threaded shaft bearing seat, an internal threaded connecting column, a pressing plate a, a pressing shaft, a pressing plate b, a pressing spring, an equipment supporting plate, an equipment bearing box, a lifting limiting plate, a lifting limiting block, a lifting limiting groove, a hinged plate, a lifting limiting pressing spring and an equipment mounting bottom plate, wherein the lifting gear is connected with the gear connecting shaft, the gear connecting shaft is in friction connection with the lifting belt, the lifting belt is in friction connection with the threaded shaft, the threaded shaft is in bearing connection with the threaded shaft bearing seat, the threaded shaft bearing seat is connected with the equipment mounting bottom plate, the internal threaded connecting column is in threaded connection with the threaded shaft, the pressing plate a is connected with the, the compression spring is sleeved on the compression shaft and limited on the compression plate a and the compression plate b, the equipment supporting plate is connected with the equipment bearing box in a sliding way, the equipment bearing box is connected with the lifting limiting plate, the lifting limiting plate is connected with the equipment supporting plate in a sliding way, the lifting limiting block is connected with the equipment bearing box, the lifting limiting groove is formed in the lifting limiting block, the hinged plate is connected with the lifting limiting block in a sliding way, the lifting limiting compression plate is connected with the hinged plate, one end of the lifting limiting compression spring is connected with the lifting limiting compression plate, the other end of the lifting limiting compression spring is connected with the equipment mounting block, the equipment mounting bottom plate is connected with the gear connecting shaft bearing, the gear connecting shaft is connected with the equipment mounting plate bearing, the internal thread connecting column is connected with the equipment mounting plate in a sliding way, the, the equipment supporting plate is connected with the rising limiting block in a sliding mode, the equipment supporting plate is connected with the equipment mounting block, the rising limiting groove is connected with the hinged plate in a sliding mode, and the hinged plate is hinged with the equipment mounting block.

As a further optimization of the technical scheme, the invention relates to a directional transmitting data transmission signal device for communication, wherein the lifting and stability-increasing mechanism comprises a propeller connecting block, a reaction force propeller, a propeller connecting column, an air inlet duct, an air outlet duct, a sealing plate, an air outlet pipe, air outlet holes, an x-direction mounting plate, a y-direction mounting plate, a traveling shaft, a traveling wheel and a traveling handle, the propeller connecting block is connected with the reaction force propeller, the reaction force propeller is connected with the propeller connecting column, the air inlet duct is connected with a propeller connecting block bearing, the air outlet duct is connected with the propeller connecting block bearing, the sealing plate is connected with the air outlet duct, one side of the air outlet pipe is inserted into the other side of the sealing plate and inserted into a device supporting plate, four air outlet holes are formed in a device bearing box, the x-direction mounting plate is connected with the y-direction mounting plate, the traveling shaft, the handle of marcing is connected with the x to the mounting panel, and the duct that admits air is connected with the equipment fixing board, and the x is connected with the equipment fixing board to the mounting panel, and the x is connected with the equipment fixing bottom plate to the mounting panel, and the y is connected with the equipment fixing bottom plate to the mounting panel.

As a further optimization of the technical scheme, the directional transmitting data transmission signal equipment for communication is characterized in that the signal reflection plate is made of an aluminum plate capable of reflecting signals.

The directional transmission data transmission signal equipment for communication has the beneficial effects that:

the invention relates to a directional transmission data transmission signal device for communication, which can adjust the angle of transmitting data transmission signals, can increase the stability when adjusting the angle of the data transmission signals, can lift a signal reflection plate, can increase the stability in a lifting state line, can be pulled to a specified position,

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 a device for directionally transmitting data transmission signals for communication according to the present invention.

Fig. 2 is a schematic structural diagram of a device for directionally transmitting data transmission signals for communication according to a second embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a transmission angle adjusting mechanism 1 of a directional transmission data transmission signal device for communication according to the present invention.

Fig. 4 is a schematic structural diagram of a transmission angle adjusting mechanism 1 of a directional transmission data transmission signal device for communication according to the present invention.

Fig. 5 is a third schematic structural diagram of the transmission angle adjusting mechanism 1 of the directional transmission data transmission signal device for communication according to the present invention.

Fig. 6 is a schematic structural diagram of angle stabilizing connection blocks 1-14 of a device for directionally transmitting data transmission signals for communication according to the present invention.

Fig. 7 is a schematic structural diagram of a signal transmitting mechanism 1-11 of a device for directionally transmitting data transmission signals for communication according to the present invention.

Fig. 8 is a schematic structural diagram of a rotary three-stage power source mechanism 2 of a directional data transmission signal transmitting device for communication according to the present invention.

Fig. 9 is a first structural schematic diagram of the z-direction lifting mechanism 3 of the directional transmitting data transmission signal device for communication according to the present invention.

Fig. 10 is a schematic structural diagram of a z-direction lifting mechanism 3 of a directional transmission data transmission signal device for communication according to the present invention.

Fig. 11 is a third schematic structural diagram of the z-direction lifting mechanism 3 of the directional transmitting data transmission signal device for communication in the present invention.

Fig. 12 is a schematic structural diagram of a z-direction lifting mechanism 3 of a directional transmitting data transmission signal device for communication according to the present invention.

Fig. 13 is a schematic structural diagram of a z-direction lifting mechanism 3 of a directional transmitting data transmission signal device for communication according to the present invention.

Fig. 14 is a schematic structural diagram of a lift-up stability-increasing mechanism 4 of a directional transmission data transmission signal device for communication according to the present invention.

Fig. 15 is a schematic structural diagram of a rising and stability-increasing mechanism 4 of a directional transmission data transmission signal device for communication according to the present invention.

Fig. 16 is a third schematic structural diagram of the lift-up stability-increasing mechanism 4 of the directional transmission data transmission signal device for communication according to the present invention.

In the figure: a firing angle adjusting mechanism 1; a rotating electrical machine 1-1; a rotating motor shaft 1-2; rotating the belt 1-3; a rotary transmission shaft a 1-4; gear a 1-5; gear b 1-6; a rotary transmission shaft b 1-7; connection board a 1-8; 1-9 of a rotary connecting block; connecting plate b 1-10; signal emission mechanisms 1-11; a data transmission radio station 1-11-1; a data transmission radio station mounting base 1-11-2; a data transmission signal line 1-11-3; signal reflecting plates 1-11-4; connecting plate c 1-12; a rotary connecting shaft a 1-13; 1-14 of angle stability augmentation connecting blocks; 1-15 of angle stability augmentation spring; 1-16 of an angle stability augmentation connecting shaft; connecting plate d 1-17; a rotary connecting shaft b 1-18; equipment mounting blocks 1-19; rotating the three-stage power source mechanism 2; 2-1 of a power motor; a power shaft 2-2; 2-3 of a power gear; rotating plate a 2-4; rotating plate b 2-5; rotating plate c 2-6; 2-7 of a handle; the rotating limit plate a 2-8; rotating and sliding the limited block 2-9; 2-10 parts of a sliding limiting spring; the sliding shaft limit plate a 2-11; a sliding shaft limit plate b 2-12; 2-13 of a sliding shaft; the rotation limiting plate b 2-14; equipment mounting plates 2-15; a central axis of rotation 2-16; a z-direction raising mechanism 3; raising the gear 3-1; a gear connecting shaft 3-2; lifting the belt 3-3; 3-4 parts of a threaded shaft; 3-5 parts of a threaded shaft bearing seat; 3-6 parts of an internal thread connecting column; compression paddle a 3-7; 3-8 of a compression shaft; compression paddle b 3-9; pressing the spring 3-10; equipment supporting plates 3-11; 3-12 parts of equipment bearing box; lifting the limiting plates 3-13; lifting the limiting blocks 3-14; lifting the limiting groove for 3-15; hinge plates 3-16; lifting the limiting compression plate 3-17; the lifting limit compresses the springs 3-18; equipment mounting base plates 3-19; the stability augmentation mechanism 4 is lifted; 4-1 of a propeller connecting block; a reaction force propeller 4-2; 4-3 of a propeller connecting column; 4-4 of an air inlet duct; 4-5 of an exhaust duct; 4-6 of a sealing plate; 4-7 parts of an air outlet pipe; 4-8 of air outlet holes; the x-direction mounting plate 4-9; 4-10 of a y-direction mounting plate; 4-11 of a travel shaft; 4-12 of a travelling wheel; and a traveling handle 4-13.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present invention relates to a directional transmission data transmission signal device, and more specifically, to a directional transmission data transmission signal device for communication, which includes a transmission angle adjustment mechanism 1, a rotary three-stage power source mechanism 2, a z-direction elevation mechanism 3, and an elevation stability augmentation mechanism 4, and is capable of adjusting an angle of a transmission data transmission signal, increasing stability of the device when adjusting the angle of the data transmission signal, elevating a signal reflection plate, increasing stability of the device when in an elevation state line, and pulling the device to a designated position.

The launching angle adjusting mechanism 1 is connected with a z-direction lifting mechanism 3, the three-section rotary power source mechanism 2 is connected with the z-direction lifting mechanism 3, the z-direction lifting mechanism 3 is connected with a lifting stability-increasing mechanism 4, and the three-section rotary power source mechanism 2 is connected with the lifting stability-increasing mechanism 4.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the present embodiment, where the launch angle adjusting mechanism 1 includes a rotating motor 1-1, a rotating motor shaft 1-2, a rotating belt 1-3, a rotating transmission shaft a1-4, a gear a1-5, a gear b1-6, a rotating transmission shaft b1-7, a connecting plate a1-8, a rotating connecting block 1-9, a connecting plate b1-10, a signal launching mechanism 1-11, a connecting plate c1-12, a rotating connecting shaft a1-13, an angle stabilizing connecting block 1-14, an angle stabilizing spring 1-15, an angle stabilizing connecting shaft 1-16, and a signal launching mechanism 1-11, connecting plates d1-17, rotary connecting shafts b1-18 and equipment mounting blocks 1-19, a rotary motor 1-1 is connected with a rotary motor shaft 1-2, the rotary motor shaft 1-2 is in friction connection with rotary belts 1-3, the rotary belts 1-3 are in friction connection with a rotary transmission shaft a1-4, the rotary transmission shaft a1-4 is connected with a gear a1-5, a gear a1-5 is meshed with a gear b1-6, a gear b1-6 is connected with a rotary transmission shaft b1-7, a rotary transmission shaft b1-7, a rotary transmission shaft b1-7 is in bearing connection with connecting plates a1-8, connecting plates a1-8 are connected with the equipment mounting blocks 1-19, rotary connecting blocks 1-9 are connected with the rotary transmission shafts b1-7, connecting plates b1-10 are connected with the rotary connecting blocks 1-9, the signal emission mechanism 1-11 is connected with a connecting plate b1-10, a connecting plate c1-12 is connected with a connecting plate b1-10, a rotating connecting shaft a1-13 is connected with a connecting plate c1-12 through a bearing, an angle stabilizing connecting block 1-14 at one side is connected with a rotating connecting shaft a1-13 through a bearing, an angle stabilizing connecting block 1-14 at the other side is connected with a rotating connecting shaft b1-18 through a bearing, an angle stabilizing spring 1-15 is sleeved on the angle stabilizing connecting shaft 1-16 and limited on the angle stabilizing connecting blocks 1-14 at two sides, the angle stabilizing connecting shaft 1-16 is connected with the angle stabilizing connecting block 1-14 at one side, the angle stabilizing connecting shaft 1-16 is connected with the angle stabilizing connecting block 1-14 at the other side in a sliding manner, a connecting plate d1-17 is connected with the rotating connecting shaft b1-18 through, the equipment mounting block 1-19 is connected with the rotating motor 1-1, the rotating motor shaft 1-2 is connected with the equipment mounting block 1-19 through a bearing, and the rotating transmission shaft a1-4 is connected with the equipment mounting block 1-19 through a bearing; the signal transmitting mechanism 1-11 comprises a data transmission radio station 1-11-1, a data transmission radio station mounting seat 1-11-2, a data transmission signal line 1-11-3 and a signal reflection plate 1-11-4, the data transmission radio station 1-11-1 is connected with the data transmission radio station mounting seat 1-11-2, the data transmission radio station mounting seat 1-11-2 is connected with the signal reflection plate 1-11-4, the data transmission signal line 1-11-3 penetrates through the signal reflection plate 1-11-4 and the data transmission radio station mounting seat 1-11-2 to be connected with the data transmission radio station 1-11-1, the angle for transmitting the data transmission signal can be adjusted, the rotating motor 1-1 works to drive the rotating motor shaft 1-2 to rotate, the rotary motor shaft 1-2 rotates to drive the rotary transmission shaft a1-4 to rotate through the rotary belt 1-3, the rotary transmission shaft a1-4 rotates to drive the gear a1-5 to rotate, the gear a1-5 rotates to drive the gear b1-6 to rotate by taking the rotary transmission shaft b1-7 as a shaft, the rotary transmission shaft b1-7 rotates to drive the rotary connecting block 1-9 to rotate, the rotary connecting block 1-9 rotates to drive the signal transmitting mechanism 1-11 to rotate through the connecting plate b1-10, the data transmission signal wire 1-11-3 in the transmitting mechanism 1-11 transmits a data transmission signal to the data transmission radio station 1-11-1, an antenna on the data transmission radio station 1-11-1 transmits the signal, the transmitted signal is reflected to the periphery through the signal reflecting plate 1-11-4, the device can increase stability when adjusting the angle of the data transmission signal, when the signal transmitting mechanism 1-11 rotates to a specified angle, the angle stability increasing connecting blocks 1-14 on two sides are pressed under the action of the angle stability increasing springs 1-15, the angle stability increasing springs 1-15 cannot bend under the guide of the angle stability increasing connecting shafts 1-16, the angle stability increasing connecting shafts 1-16 slide towards the angle stability increasing connecting blocks 1-14 on one side, the process effectively restricts the gap generated when the gear a1-5 is meshed with the gear b1-6, and the angle of the data transmission signal is adjusted more accurately and stably.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the three-stage rotary power source mechanism 2 includes a power motor 2-1, a power shaft 2-2, a power gear 2-3, a rotary plate a2-4, a rotary plate b2-5, a rotary plate c2-6, a handle 2-7, a rotary limit plate a2-8, a rotary slide limit block 2-9, a slide limit spring 2-10, a slide limit plate a2-11, a slide limit plate b2-12, a slide shaft 2-13, a rotary limit plate b2-14, an equipment mounting plate 2-15, and a central rotary shaft 2-16, a power motor 2-1 is connected with a power shaft 2-2, the power shaft 2-2 is connected with a power gear 2-3, a rotating plate a2-4 is connected with the power motor 2-1, a rotating plate b2-5 is connected with a rotating plate a2-4, a rotating plate c2-6 is connected with a rotating plate b2-5, a handle 2-7 is connected with a rotating plate c2-6, a rotating limit plate a2-8 is connected with an equipment mounting plate 2-15, a rotating sliding limit block 2-9 is connected with a sliding shaft 2-13, a sliding limit spring 2-10 is sleeved on the sliding shaft 2-13 and limited on the rotating sliding limit block 2-9 and a sliding shaft limit plate b2-12, a sliding shaft limit plate a2-11 is connected with the sliding shaft 2-13, a sliding shaft limit plate b2-12 is connected with the sliding shaft 2-13 in a sliding manner, the rotation limiting plates b2-14 are connected with the equipment mounting plates 2-15, the equipment mounting plates 2-15 are slidably connected with the rotation plates a2-4, the central rotation shafts 2-16 are slidably connected with the equipment mounting plates 2-15, the rotation plates b2-5 are slidably connected with the equipment mounting plates 2-15, and the rotation sliding limiting blocks 2-9 are slidably connected with the equipment mounting plates 2-15.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the z-direction raising mechanism 3 includes a raising gear 3-1, a gear connecting shaft 3-2, a raising belt 3-3, a threaded shaft 3-4, a threaded shaft bearing seat 3-5, an internal threaded connecting column 3-6, a pressing plate a3-7, a pressing shaft 3-8, a pressing plate b3-9, a pressing spring 3-10, an equipment supporting plate 3-11, an equipment bearing box 3-12, a raising limit plate 3-13, a raising limit block 3-14, a raising limit groove 3-15, a hinge plate 3-16, a raising limit pressing plate 3-17, a lifting spring 3-10, a lifting, 3-18 parts of lifting limit compression spring, 3-19 parts of equipment installation bottom plate, 3-1 parts of lifting gear, 3-2 parts of gear connection shaft, 3-3 parts of lifting belt, 3-4 parts of threaded shaft, 3-5 parts of threaded shaft bearing seat, 3-19 parts of equipment installation bottom plate, 3-6 parts of internal thread connecting column, 3-4 parts of threaded shaft, 3-8 parts of compression plate a3-7, 3-8 parts of compression shaft, 3-8 parts of compression plate b3-9 parts of bearing, 3-10 parts of compression spring, 3-8 parts of compression shaft, limited by a3-7 parts of compression plate a and a 3-9 parts of compression plate b, the device supporting plate 3-11 is connected with the device bearing box 3-12 in a sliding way, the device bearing box 3-12 is connected with the lifting limit plate 3-13, the lifting limit plate 3-13 is connected with the device supporting plate 3-11 in a sliding way, the lifting limit block 3-14 is connected with the device bearing box 3-12, the lifting limit groove 3-15 is arranged on the lifting limit block 3-14, the hinged plate 3-16 is connected with the lifting limit block 3-14 in a sliding way, the lifting limit compression plate 3-17 is connected with the hinged plate 3-16, one end of the lifting limit compression spring 3-18 is connected with the lifting limit compression plate 3-17, the other end is connected with the device mounting block 1-19, the device mounting bottom plate 3-19 is connected with the gear connecting shaft 3-2 in a bearing way, the gear connecting shaft 3-2 is connected, the internal thread connecting column 3-6 is connected with the equipment mounting plate 2-15 in a sliding way, the internal thread connecting column 3-6 is connected with the lower bearing of the equipment supporting plate 3-11, the internal thread connecting column 3-6 is connected with the equipment bearing box 3-12 in a bearing way, the pressing plate b3-9 is connected with the equipment mounting bottom plate 3-19, the equipment supporting plate 3-11 is connected with the lifting limiting block 3-14 in a sliding way, the equipment supporting plate 3-11 is connected with the equipment mounting block 1-19, the lifting limiting groove 3-15 is connected with the hinged plate 3-16 in a sliding way, the hinged plate 3-16 is hinged with the equipment mounting block 1-19, the equipment can lift the signal reflection plate, pull the handle 2-7 to rotate, the handle 2-7 moves to drive the rotating plate a2-4 and the rotating plate b2-5 to rotate by taking the central rotating shaft 2-16, the rotating plate b2-5 rotates to drive the power motor 2-1 to rotate, the power motor 2-1 rotates to drive the power gear 2-3 to rotate through the power shaft 2-2, when the power gear 2-3 rotates to be meshed with the lifting gear 3-1, the rotating plate b2-5 rotates to a position between the rotating limit plate a2-8 and the rotating slide limit block 2-9 close to the rotating limit plate a2-8, the rotating slide limit block 2-9 is pressed under the action of the slide limit spring 2-10, the slide shaft 2-13 prevents the slide limit spring 2-10 from bending, the rotating slide limit block 2-9 drives the slide shaft 2-13 to move towards the rotating slide limit block 2-9 when pressed, and the slide shaft limit plate a2-11 limits the relative position of the slide shaft 2-13, the relative position of the rotating plate b2-5 is limited under the action of the rotating limiting plate a2-8 and the rotating sliding limiting block 2-9, at the moment, the power motor 2-1 works to drive the power shaft 2-2 to rotate, the power shaft 2-2 rotates to drive the power gear 2-3 to rotate, the power gear 2-3 rotates to drive the lifting gear 3-1 to rotate, the lifting gear 3-1 rotates to drive the gear connecting shaft 3-2 to rotate, the gear connecting shaft 3-2 rotates and drives the threaded shaft 3-4 to rotate under the limitation of the threaded shaft bearing seat 3-5 through the lifting belt 3-3, the threaded shaft 3-4 rotates to drive the internal threaded connecting column 3-6 to ascend or descend, and when the internal threaded connecting column 3-6 ascends, the internal threaded connecting column is connected with the equipment mounting plate 2-15 through the sliding connection relationship of the internal threaded The threaded connecting columns 3-6 cannot rotate when moving upwards, the internal threaded connecting columns 3-6 drive the equipment supporting plates 3-11 to move upwards when moving upwards, the equipment supporting plates 3-11 drive the equipment mounting blocks 1-19 to move upwards, the equipment mounting blocks 1-19 simultaneously drive the rotary transmission shafts a1-4, the connecting plates a1-8 and the connecting plates d1-17 to move upwards, the connecting plates a1-8 drive the rotary connecting blocks 1-9 to move through the rotary transmission shafts b1-7, the rotary connecting blocks 1-9 drive the connecting plates b1-10 to move, the connecting plates b1-10 drive the signal transmitting mechanisms 1-11 to move, and the connecting plates d1-17 drive the angle-stabilizing connecting blocks 1-14 on one side to move through the rotary connecting shafts b1-18, the angle stabilizing connecting blocks 1 to 14 move to drive the angle stabilizing connecting blocks 1 to 14 on the other side to move upwards through the angle stabilizing springs 1 to 15 and the angle stabilizing connecting shafts 1 to 16, the angle stabilizing connecting blocks 1 to 14 move to drive the connecting plates c1 to 12 through the rotating connecting shafts a1 to 13, the connecting plates c1 to 12 move to drive the signal emitting mechanisms 1 to 11, the signal reflecting plates 1 to 11 to 4 move synchronously when the signal emitting mechanisms 1 to 11 move, when the equipment supporting plates 3 to 11 move, the action lines of the lifting limit blocks 3 to 13 and the lifting limit blocks 3 to 14 are lifted, so that the equipment bearing boxes 3 to 12 cannot rotate, the equipment mounting blocks 1 to 19 drive the hinged plates 3 to 16 to move when the equipment mounting blocks 1 to 19 move upwards, and the hinged plates 3 to 16 slide on the lifting limit blocks 3 to 14 when the hinged plates 3 to 16 move, the upside of the hinged plate 3-16 can realize the reset under the action of the lifting limit plate 3-13 and the lifting limit pressing spring 3-18, the downside of the hinged plate 3-16 further benefits the reset function of the hinged plate 3-16 under the action of the lifting limit pressing plate 3-17 and the lifting limit pressing spring 3-18, when the hinged plate 3-16 moves upwards to any lifting limit groove 3-15, the upward movement of the equipment stops, the hinged plate 3-16 is blocked in the limit groove 3-15, and the relative position is limited under the action of the two lifting limit pressing springs 3-18.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, wherein the elevating and stabilizing mechanism 4 includes a propeller connecting block 4-1, a reaction force propeller 4-2, a propeller connecting column 4-3, an intake duct 4-4, an exhaust duct 4-5, a sealing plate 4-6, an outlet duct 4-7, an outlet duct 4-8, an x-direction mounting plate 4-9, a y-direction mounting plate 4-10, a traveling shaft 4-11, a traveling wheel 4-12, and a traveling puller 4-13, the propeller connecting block 4-1 is connected with the reaction force propeller 4-2, the reaction force propeller 4-2 is connected with the propeller connecting column 4-3, an air inlet duct 4-4 is connected with a propeller connecting block 4-1 through a bearing, an exhaust duct 4-5 is connected with the propeller connecting block 4-1 through a bearing, a sealing plate 4-6 is connected with an exhaust duct 4-5, one side of an air outlet pipe 4-7 is inserted into the other side of the sealing plate 4-6 and inserted into an equipment supporting plate 3-11, four air outlet holes 4-8 are formed in an equipment bearing box 3-12, an x-direction mounting plate 4-9 is connected with a y-direction mounting plate 4-10, a traveling shaft 4-11 is connected with a y-direction mounting plate 4-10 through a bearing, a traveling wheel 4-12 is connected with a traveling shaft 4-11 through a bearing, a traveling handle 4-13 is connected with the x-direction mounting plate 4-9, the air inlet duct 4-4 is connected with an equipment mounting plate 2-15, and the x-direction mounting plate 4-, the x-direction mounting plate 4-9 is connected with the equipment mounting base plate 3-19, the y-direction mounting plate 4-10 is connected with the equipment mounting plate 2-15, the y-direction mounting plate 4-10 is connected with the equipment mounting base plate 3-19, the equipment can be stabilized in a rising state line, the pull handle 2-7 is pulled to rotate, the pull handle 2-7 moves to drive the rotating plate a2-4 and the rotating plate b2-5 to rotate around the central rotating shaft 2-16 serving as an axis through the rotating plate c2-6, the rotating plate b2-5 rotates to drive the power motor 2-1 to rotate, the power motor 2-1 rotates to drive the power gear 2-3 to rotate through the power shaft 2-2, and when the power gear 2-3 rotates to be meshed with the propeller connecting block 4-1, the rotating plate b2-5 rotates to the rotating limiting plate b2-14 and the rotating sliding limiting block 2 near the rotating limiting plate b2-14 When the pressure is between 9, the rotary sliding limiting block 2-9 is pressed under the action of the sliding limiting spring 2-10, the sliding shaft 2-13 enables the sliding limiting spring 2-10 not to bend, the rotary sliding limiting block 2-9 drives the sliding shaft 2-13 to move towards the rotary sliding limiting block 2-9 when pressed, the sliding shaft limiting plate a2-11 enables the relative position of the sliding shaft 2-13 to be limited, the rotating plate b2-5 enables the relative position to be limited under the action of the rotary limiting plate a2-8 and the rotary sliding limiting block 2-9, at the moment, the power motor 2-1 works to drive the power shaft 2-2 to rotate, the power shaft 2-2 rotates to drive the power gear 2-3 to rotate, the power gear 2-3 rotates to drive the propeller connecting block 4-1 to rotate, the reaction force spiral air blowing is driven by the rotation of the propeller connecting block 4-1, the air generated by the propeller connecting block 4-1 enters the air outlet pipe 4-7 through the hole on the sealing plate 4-6, the air entering the air outlet pipe 4-7 enters the space formed by the equipment supporting plate 3-11 and the equipment bearing box 3-12 through the hole on the equipment supporting plate 3-11 and is exhausted from the air outlet hole 4-8 on the equipment bearing box 3-12, the four air outlet holes 4-8 are respectively and uniformly arranged around the equipment bearing box 3-12, the air exhausted from the air outlet hole 4-8 on the equipment bearing box 3-12 can increase the stability of the rising part when the equipment is lifted, the equipment can be pulled to the designated position, the traveling handle 4-13 is pulled, the traveling handle 4-13 moves to drive the x-direction mounting plate 4-9, the x-direction mounting plate 4-9 moves to drive the y-direction mounting plate 4-1 to move, the y-direction mounting plate 4-1 moves to drive the traveling shaft 4-11 to rotate, and the traveling shaft 4-11 rotates to drive the traveling wheels 4-12 to travel on the ground.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the first embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, and 12, in which the signal reflection plate 1-11-4 is made of an aluminum plate capable of reflecting signals.

The working principle of the device is as follows: the equipment can adjust the angle for transmitting data transmission signals, the rotating motor 1-1 works to drive the rotating motor shaft 1-2 to rotate, the rotating motor shaft 1-2 rotates to drive the rotating transmission shaft a1-4 to rotate through the rotating belt 1-3, the rotating transmission shaft a1-4 rotates to drive the gear a1-5 to rotate, the gear a1-5 rotates to drive the gear b1-6 to rotate by taking the rotating transmission shaft b1-7 as a shaft, the rotating transmission shaft b1-7 rotates to drive the rotating connecting block 1-9 to rotate, the rotating connecting block 1-9 rotates to drive the signal transmitting mechanism 1-11 to rotate through the connecting plate b1-10, the data transmission signal lines 1-11-3 in the transmitting mechanism 1-11 transmit the data transmission signals to the data transmission radio station 1-11-1, the antenna on the data transmission radio station 1-11-1 transmits signals, the transmitted signals are reflected to the periphery through the signal reflecting plates 1-11-4 to be transmitted, the equipment can increase stability when the angle of the data transmission signals is adjusted, when the signal transmitting mechanism 1-11 rotates to a specified angle, the angle stabilizing connecting blocks 1-14 on two sides are pressed under the action of the angle stabilizing springs 1-15, the angle stabilizing springs 1-15 cannot be bent under the guide of the angle stabilizing connecting shafts 1-16, the angle stabilizing connecting shafts 1-16 slide towards the angle stabilizing connecting blocks 1-14 on one side, the process effectively restricts the gap generated when the gear a1-5 is meshed with the gear b1-6, the angle of the data transmission signals is adjusted to be more accurate and stable, and the equipment can lift the signal reflecting plates, pulling the handle 2-7 to rotate, the handle 2-7 moves to drive the rotating plate a2-4 and the rotating plate b2-5 to rotate by taking the central rotating shaft 2-16 as an axis through the rotating plate c2-6, the rotating plate b2-5 rotates to drive the power motor 2-1 to rotate, the power motor 2-1 rotates to drive the power gear 2-3 to rotate through the power shaft 2-2, when the power gear 2-3 rotates to be meshed with the lifting gear 3-1, the rotating plate b2-5 rotates to a position between the rotating limit plate a2-8 and the rotating sliding limit block 2-9 close to the rotating limit plate a2-8, the rotating sliding limit block 2-9 is pressed under the action of the sliding limit spring 2-10, and the sliding shaft 2-13 enables the sliding limit spring 2-10 not to bend, when the rotary sliding limiting block 2-9 is pressed, the sliding shaft 2-13 is driven to move towards the rotary sliding limiting block 2-9, the relative position of the sliding shaft 2-13 is limited by the sliding shaft limiting plate a2-11, the relative position of the rotary plate b2-5 is limited under the action of the rotary limiting plate a2-8 and the rotary sliding limiting block 2-9, at the moment, the power motor 2-1 works to drive the power shaft 2-2 to rotate, the power shaft 2-2 rotates to drive the power gear 2-3 to rotate, the power gear 2-3 rotates to drive the lifting gear 3-1 to rotate, the lifting gear 3-1 rotates to drive the gear 3-2 to rotate, the gear connecting shaft 3-2 rotates and drives the threaded shaft 3-4 to rotate under the limitation of the threaded shaft bearing seat 3-5 through the lifting belt 3-3, the threaded shaft 3-4 rotates to drive the internal threaded connecting post 3-6 to ascend or descend, when the internal threaded connecting post 3-6 ascends, the internal threaded connecting post 3-6 cannot rotate when moving upwards through the sliding connection relation between the groove of the internal threaded connecting post 3-6 and the equipment mounting plate 2-15, the internal threaded connecting post 3-6 drives the equipment supporting plate 3-11 to move upwards, the equipment supporting plate 3-11 moves to drive the equipment mounting block 1-19 to move upwards, the equipment mounting block 1-19 simultaneously moves upwards to drive the rotary transmission shaft a1-4, the connecting plate a1-8 and the connecting plate d1-17 to move upwards, the connecting plate a1-8 moves to drive the rotary connecting block 1-9 to move through the rotary transmission shaft b1-7, and the rotary connecting block 1-9 moves to drive the connecting plate b1-10 to move, the connecting plate b1-10 moves to drive the signal emission mechanism 1-11 to move, the connecting plate d1-17 moves to drive the angle-stabilizing connecting block 1-14 at one side to move through the rotating connecting shaft b1-18, the angle-stabilizing connecting block 1-14 moves to drive the angle-stabilizing connecting block 1-14 at the other side to move upwards through the angle-stabilizing spring 1-15 and the angle-stabilizing connecting shaft 1-16, the angle-stabilizing connecting block 1-14 moves to drive the connecting plate c1-12 to move through the rotating connecting shaft a1-13, the connecting plate c1-12 moves to drive the signal emission mechanism 1-11 to move, the signal reflection plates 1-11-4 move synchronously when the signal emission mechanism 1-11 moves, when the equipment supporting plate 3-11 moves, the action line of the limiting plate 3-13 and the limiting block 3-14 is lifted, the bearing box 3-12 of the equipment can not rotate, the installation block 1-19 of the equipment drives the hinged plate 3-16 to move when moving upwards, the hinged plate 3-16 slides on the elevation limit block 3-14 when moving, the upside of the hinged plate 3-16 can realize the reset under the action of the elevation limit plate 3-13 and the elevation limit compression spring 3-18, the underside of the hinged plate 3-16 further contributes to the reset function of the hinged plate 3-16 under the action of the elevation limit compression plate 3-17 and the elevation limit compression spring 3-18, when the hinged plate 3-16 moves upwards to any elevation limit groove 3-15, the equipment stops moving upwards, the hinged plate 3-16 is clamped in the limit groove 3-15, and under the action of the two elevation limit compression springs 3-18, the relative position is limited. The equipment can increase stability in a lifting state line, the handle 2-7 is pulled to rotate, the handle 2-7 moves to drive the rotating plate a2-4 and the rotating plate b2-5 to rotate around the central rotating shaft 2-16 through the rotating plate c2-6, the rotating plate b2-5 rotates to drive the power motor 2-1 to rotate, the power motor 2-1 rotates to drive the power gear 2-3 to rotate through the power shaft 2-2, when the power gear 2-3 rotates to be meshed with the propeller connecting block 4-1, the rotating plate b2-5 rotates to a position between the rotating limit plate b2-14 and the rotating sliding limit block 2-9 close to the rotating limit plate b2-14, the rotating sliding limit block 2-9 is pressed under the action of the sliding limit spring 2-10, and the sliding shaft 2-13 prevents the sliding limit spring 2-10 from being bent, when the rotary sliding limiting block 2-9 is pressed, the sliding shaft 2-13 is driven to move towards the rotary sliding limiting block 2-9, the relative position of the sliding shaft 2-13 is limited by the sliding shaft limiting plate a2-11, the relative position of the rotary plate b2-5 is limited under the action of the rotary limiting plate a2-8 and the rotary sliding limiting block 2-9, at the moment, the power motor 2-1 works to drive the power shaft 2-2 to rotate, the power shaft 2-2 rotates to drive the power gear 2-3 to rotate, the power gear 2-3 rotates to drive the propeller connecting block 4-1 to rotate, the propeller connecting block 4-1 rotates to drive the counteractive force spiral air blower, air generated by the propeller connecting block 4-1 enters the air outlet pipe 4-7 through the hole on the sealing plate 4-6, the wind entering the air outlet pipe 4-7 enters the space formed by the equipment supporting plate 3-11 and the equipment bearing box 3-12 through the hole on the equipment supporting plate 3-11, and is discharged from the air outlet holes 4-8 on the equipment bearing boxes 3-12, the four air outlet holes 4-8 are respectively and uniformly arranged on the periphery of the equipment bearing boxes 3-12, when the equipment is lifted, the air exhausted from the air outlet holes 4-8 on the bearing boxes 3-12 of the equipment can stabilize the lifted part, the equipment can be pulled to a specified position, the traveling handle 4-13 is pulled, the traveling handle 4-13 moves to drive the x-direction mounting plate 4-9, the x-direction mounting plate 4-9 moves to drive the y-direction mounting plate 4-1 to move, the y-direction mounting plate 4-1 moves to drive the traveling shafts 4-11 to rotate, and the traveling shafts 4-11 rotate to drive the traveling wheels 4-12 to travel on the ground.

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 (2)

1. The utility model provides a communication is with directional transmission data transmission signal equipment, includes transmission angle guiding mechanism (1), rotatory three-section power supply mechanism (2), z to rising mechanism (3), rising increase steady mechanism (4), its characterized in that: the emission angle adjusting mechanism (1) comprises a rotating motor (1-1), a rotating motor shaft (1-2), a rotating belt (1-3), a rotating transmission shaft a (1-4), a gear a (1-5), a gear b (1-6), a rotating transmission shaft b (1-7), a connecting plate a (1-8), a rotating connecting block (1-9), a connecting plate b (1-10), a signal emission mechanism (1-11), a connecting plate c (1-12), a rotating connecting shaft a (1-13), an angle stability increasing connecting block (1-14), an angle stability increasing spring (1-15), an angle stability increasing connecting shaft (1-16), a connecting plate d (1-17), a rotating connecting shaft b (1-18) and an equipment mounting block (1-19), a rotating motor (1-1) is connected with a rotating motor shaft (1-2), the rotating motor shaft (1-2) is connected with a rotating belt (1-3) in a friction mode, the rotating belt (1-3) is connected with a rotating transmission shaft a (1-4) in a friction mode, the rotating transmission shaft a (1-4) is connected with a gear a (1-5), the gear a (1-5) is meshed with a gear b (1-6), the gear b (1-6) is connected with a rotating transmission shaft b (1-7), the rotating transmission shaft b (1-7) of the rotating transmission shaft b (1-7) is connected with a connecting plate a (1-8) in a bearing mode, the connecting plate a (1-8) is connected with an equipment mounting block (1-19), and a rotating connecting block (1-9) is connected with the rotating transmission shaft b (1-7), the connecting plate b (1-10) is connected with the rotary connecting block (1-9), the signal transmitting mechanism (1-11) is connected with the connecting plate b (1-10), the connecting plate c (1-12) is connected with the connecting plate b (1-10), the rotary connecting shaft a (1-13) is connected with the connecting plate c (1-12) through a bearing, the angle stabilizing connecting block (1-14) at one side is connected with the rotary connecting shaft a (1-13) through a bearing, the angle stabilizing connecting block (1-14) at the other side is connected with the rotary connecting shaft b (1-18) through a bearing, the angle stabilizing spring (1-15) is sleeved on the angle stabilizing connecting shaft (1-16) and limited on the angle stabilizing connecting block (1-14) at two sides, the angle stabilizing connecting shaft (1-16) is connected with the angle stabilizing connecting block (1-14) at one side, the angle stability augmentation connecting shafts (1-16) are in sliding connection with angle stability augmentation connecting blocks (1-14) on the other side, the connecting plates d (1-17) are in bearing connection with the rotating connecting shafts b (1-18), the equipment mounting blocks (1-19) are connected with the rotating motors (1-1), the rotating motor shafts (1-2) are in bearing connection with the equipment mounting blocks (1-19), and the rotating transmission shafts a (1-4) are in bearing connection with the equipment mounting blocks (1-19); the signal transmitting mechanism (1-11) comprises a data transmission radio station (1-11-1), a data transmission radio station mounting seat (1-11-2), a data transmission signal line (1-11-3) and a signal reflecting plate (1-11-4), the data transmission radio station (1-11-1) is connected with the data transmission radio station mounting seat (1-11-2), the data transmission radio station mounting seat (1-11-2) is connected with the signal reflecting plate (1-11-4), and the data transmission signal line (1-11-3) penetrates through the signal reflecting plate (1-11-4) to be connected with the data transmission radio station mounting seat (1-11-2) and the data transmission radio station (1-11-1);

the rotary three-section power source mechanism (2) comprises a power motor (2-1), a power shaft (2-2), a power gear (2-3), a rotating plate a (2-4), a rotating plate b (2-5), a rotating plate c (2-6), a handle (2-7), a rotary limiting plate a (2-8), a rotary sliding limiting block (2-9), a sliding limiting spring (2-10), a sliding shaft limiting plate a (2-11), a sliding shaft limiting plate b (2-12), a sliding shaft (2-13), a rotary limiting plate b (2-14), an equipment mounting plate (2-15) and a central rotating shaft (2-16), wherein the power motor (2-1) is connected with the power shaft (2-2), the power shaft (2-2) is connected with the power gear (2-3), the rotating plate a (2-4) is connected with a power motor (2-1), the rotating plate b (2-5) is connected with the rotating plate a (2-4), the rotating plate c (2-6) is connected with the rotating plate b (2-5), the handle (2-7) is connected with the rotating plate c (2-6), the rotating limiting plate a (2-8) is connected with the equipment mounting plate (2-15), the rotating sliding limiting block (2-9) is connected with the sliding shaft (2-13), the sliding limiting spring (2-10) is sleeved on the sliding shaft (2-13) and limited on the rotating sliding limiting block (2-9) and the sliding shaft limiting plate b (2-12), the sliding shaft limiting plate a (2-11) is connected with the sliding shaft (2-13), the sliding shaft limiting plate b (2-12) is connected with the sliding shaft (2-13) in a sliding manner, the rotary limiting plate b (2-14) is connected with the equipment mounting plate (2-15), the equipment mounting plate (2-15) is connected with the rotary plate a (2-4) in a sliding manner, the central rotary shaft (2-16) is connected with the equipment mounting plate (2-15) in a sliding manner, the rotary plate b (2-5) is connected with the equipment mounting plate (2-15) in a sliding manner, and the rotary sliding limiting block (2-9) is connected with the equipment mounting plate (2-15) in a sliding manner;

the z-direction lifting mechanism (3) comprises a lifting gear (3-1), a gear connecting shaft (3-2), a lifting belt (3-3), a threaded shaft (3-4), a threaded shaft bearing seat (3-5), an internal threaded connecting column (3-6), a pressing plate a (3-7), a pressing shaft (3-8), a pressing plate b (3-9), a pressing spring (3-10), an equipment supporting plate (3-11), an equipment bearing box (3-12), a lifting limit plate (3-13), a lifting limit block (3-14), a lifting limit groove (3-15), a hinge plate (3-16), a lifting limit pressing plate (3-17), a lifting limit pressing spring (3-18) and an equipment mounting base plate (3-19), the lifting gear (3-1) is connected with a gear connecting shaft (3-2), the gear connecting shaft (3-2) is in friction connection with a lifting belt (3-3), the lifting belt (3-3) is in friction connection with a threaded shaft (3-4), the threaded shaft (3-4) is in bearing connection with a threaded shaft bearing seat (3-5), the threaded shaft bearing seat (3-5) is connected with an equipment installation base plate (3-19), an internal thread connecting column (3-6) is in thread connection with the threaded shaft (3-4), a pressing plate a (3-7) is connected with a pressing shaft (3-8), the pressing shaft (3-8) is in bearing connection with a pressing plate b (3-9), a pressing spring (3-10) is sleeved on the pressing shaft (3-8) and limited on the pressing plate a (3-7) and the pressing plate b (3-9), the equipment supporting plate (3-11) is connected with the equipment bearing box (3-12) in a sliding way, the equipment bearing box (3-12) is connected with the lifting limit plate (3-13), the lifting limit plate (3-13) is connected with the equipment supporting plate (3-11) in a sliding way, the lifting limit block (3-14) is connected with the equipment bearing box (3-12), the lifting limit groove (3-15) is arranged on the lifting limit block (3-14), the hinged plate (3-16) is connected with the lifting limit block (3-14) in a sliding way, the lifting limit compression plate (3-17) is connected with the hinged plate (3-16), one end of the lifting limit compression spring (3-18) is connected with the lifting limit compression plate (3-17) and the other end is connected with the equipment connecting shaft (1-19), the equipment mounting bottom plate (3-19) is connected with the gear (3-2) in a bearing way, the gear connecting shaft (3-2) is in bearing connection with the equipment mounting plate (2-15), the internal thread connecting column (3-6) is in sliding connection with the equipment mounting plate (2-15), the internal thread connecting column (3-6) is in bearing connection with the lower part of the equipment supporting plate (3-11), the internal thread connecting column (3-6) is in bearing connection with the equipment bearing box (3-12), the compression plate b (3-9) is connected with the equipment mounting bottom plate (3-19), the equipment supporting plate (3-11) is in sliding connection with the lifting limiting block (3-14), the equipment supporting plate (3-11) is connected with the equipment mounting block (1-19), the lifting limiting groove (3-15) is in sliding connection with the hinged plate (3-16), and the hinged plate (3-16) is hinged with the equipment mounting block (1-19);

the lifting and stability-increasing mechanism (4) comprises a propeller connecting block (4-1), a reaction force propeller (4-2), a propeller connecting column (4-3), an air inlet duct (4-4), an air outlet duct (4-5), a sealing plate (4-6), an air outlet pipe (4-7), an air outlet hole (4-8), an x-direction mounting plate (4-9), a y-direction mounting plate (4-10), a traveling shaft (4-11), a traveling wheel (4-12) and a traveling handle (4-13), the propeller connecting block (4-1) is connected with the reaction force propeller (4-2), the reaction force propeller (4-2) is connected with the propeller connecting column (4-3), the air inlet duct (4-4) is connected with the propeller connecting block (4-1) through a bearing, the exhaust duct (4-5) is in bearing connection with the propeller connecting block (4-1), the sealing plate (4-6) is connected with the exhaust duct (4-5), one side of the air outlet pipe (4-7) is inserted into the other side of the sealing plate (4-6) and inserted into the equipment supporting plate (3-11), four air outlet holes (4-8) are formed in the equipment bearing box (3-12), the x-direction mounting plate (4-9) is connected with the y-direction mounting plate (4-10), the advancing shaft (4-11) is in bearing connection with the y-direction mounting plate (4-10), the advancing wheel (4-12) is in bearing connection with the advancing shaft (4-11), the advancing handle (4-13) is connected with the x-direction mounting plate (4-9), the air inlet duct (4-4) is connected with the equipment mounting plate (2-15), the x-direction mounting plate (4-9) is connected with the equipment mounting plate (2-15), the x-direction mounting plate (4-9) is connected with the equipment mounting base plate (3-19), the y-direction mounting plate (4-10) is connected with the equipment mounting plate (2-15), and the y-direction mounting plate (4-10) is connected with the equipment mounting base plate (3-19);

the launching angle adjusting mechanism (1) is connected with the z-direction lifting mechanism (3), the three-section rotary power source mechanism (2) is connected with the z-direction lifting mechanism (3), the z-direction lifting mechanism (3) is connected with the lifting stability-increasing mechanism (4), and the three-section rotary power source mechanism (2) is connected with the lifting stability-increasing mechanism (4).

2. The apparatus of claim 1, wherein the apparatus is further configured to transmit data signals in a directional manner: the signal reflection plate (1-11-4) is made of an aluminum plate capable of reflecting signals.

Images