阅读说明：本技术 一种通讯用数传信号扩散设备 (Data transmission signal diffusion equipment for communication ) 是由 张启和 于 2020-08-07 设计创作，主要内容包括：本发明涉及数传信号扩散设备,更具体的说是一种通讯用数传信号扩散设备,包括扩散范围调整机构、发射信号角度调整机构、发射信号方向调整机构、发射信号高度调整机构、行进机构,设备能够更改数传信号的扩散范围,设备能够调整发射数传信号的角度,设备能够调整发射数传信号的方向,设备能够升降发射数传信号的高度,设备能够向前或者向后行进,扩散范围调整机构与发射信号角度调整机构连接,发射信号角度调整机构与发射信号方向调整机构连接,发射信号方向调整机构与发射信号高度调整机构连接,发射信号高度调整机构与行进机构连接。(The invention relates to a data transmission signal diffusion device, in particular to a data transmission signal diffusion device for communication, which comprises a diffusion range adjusting mechanism, a transmission signal angle adjusting mechanism, a transmission signal direction adjusting mechanism, a transmission signal height adjusting mechanism and a traveling mechanism, wherein the device can change the diffusion range of data transmission signals, can adjust the angle of the transmission data transmission signals, can adjust the direction of the transmission data transmission signals, can lift the height of the transmission data transmission signals, and can travel forwards or backwards.)

1. The utility model provides a data transmission signal diffusion equipment for communication, includes diffusion range guiding mechanism (1), transmission signal angle guiding mechanism (2), transmission signal direction guiding mechanism (3), transmission signal height adjusting mechanism (4), advancing mechanism (5), its characterized in that: the diffusion range adjusting mechanism (1) is connected with the emission signal angle adjusting mechanism (2), the emission signal angle adjusting mechanism (2) is connected with the emission signal direction adjusting mechanism (3), the emission signal direction adjusting mechanism (3) is connected with the emission signal height adjusting mechanism (4), and the emission signal height adjusting mechanism (4) is connected with the advancing mechanism (5).

2. The data transmission signal spreading device for communication according to claim 1, wherein: the diffusion range adjusting mechanism (1) comprises a power motor (1-1), a motor shaft (1-2), a friction wheel (1-3), a thin aluminum plate (1-4), a limiting block a (1-5), a limiting block b (1-6), a limiting shaft a (1-7), a spring (1-8), a motor mounting block (1-9), a circular ring (1-10), a circular ring ball (1-11), a limiting soft plate (1-12), a limiting plate (1-13), a limiting shaft b (1-14), a limiting spring (1-15), a pressing plate (1-16), a data transmission radio station mounting seat (1-17), a data transmission radio station (1-18), a data transmission signal line (1-19), a supporting mounting block (1-20), a supporting shaft (1-21), The device comprises shaft sleeves (1-22), mounting plates a (1-23), mounting blocks (1-24) and mounting plates b (1-25), wherein a power motor (1-1) is connected with a motor shaft (1-2), the motor shaft (1-2) is connected with friction wheels (1-3), the friction wheels (1-3) are connected with thin aluminum plates (1-4), the thin aluminum plates (1-4) are connected with limiting blocks a (1-5) in a sliding mode, the limiting blocks a (1-5) are connected with limiting blocks b (1-6) in a sliding mode, the limiting blocks b (1-6) are connected with limiting shafts a (1-7) in a sliding mode, the limiting shafts a (1-7) are connected with the limiting blocks a (1-5), springs (1-8) are sleeved on the limiting shafts a (1-7), one sides of the springs are connected with the limiting blocks b (1-6), the other sides of the springs are connected with the limiting blocks a (1-, the motor mounting block (1-9) is connected with a power motor (1-1), the circular ring (1-10) is connected with a circular ring ball (1-11), the circular ring ball (1-11) is connected with a compression plate (1-16), a limiting soft plate (1-12) is connected with a thin aluminum plate (1-4) in a sliding manner, a limiting plate (1-13) is connected with a limiting shaft b (1-14), the limiting shaft b (1-14) is connected with a limiting soft plate (1-12), a limiting spring (1-15) is sleeved on the limiting shaft b (1-14) and limited on the compression plate (1-16) and the limiting plate (1-13), the compression plate (1-16) is connected with a limiting block b (1-6) in a sliding manner, a data transmission station mounting seat (1-17) is connected with the thin aluminum plate (1-4), the data transmission radio station (1-18) is connected with a data transmission radio station mounting seat (1-17), a data transmission signal line (1-19) is connected with the data transmission radio station (1-18), a supporting mounting block (1-20) is connected with a compression plate (1-16), a supporting shaft (1-21) is in bearing connection with the supporting mounting block (1-20), a shaft sleeve (1-22) is in bearing connection with the supporting shaft (1-21), a mounting plate a (1-23) is connected with the shaft sleeve (1-22), a mounting block (1-24) is connected with the mounting plate a (1-23), a mounting plate b (1-25) is connected with the mounting block (1-24), a motor mounting block (1-9) is connected with the mounting plate b (1-25), and a limiting shaft b (1-14) is in sliding connection with the compression plate (1-16).

3. The data transmission signal spreading device for communication according to claim 1, wherein: the transmission signal angle adjusting mechanism (2) comprises an adjusting motor mounting plate (2-1), an adjusting motor (2-2), an adjusting motor shaft (2-3), a switching sliding plate (2-4), a switching limiting plate a (2-5), a switching shaft (2-6), a switching limiting plate b (2-7), a switching limiting block (2-8), a switching limiting spring (2-9), a switching belt (2-10), a switching sliding shaft (2-11), a switching gear a (2-12), a lifting gear b (2-13), a lifting transmission shaft a (2-14), a bearing plate a (2-15), a bearing plate b (2-16), a lifting belt (2-17), a lifting transmission shaft b (2-18), a lifting friction wheel (2-19), A lifting support plate (2-20), a lifting shaft sleeve (2-21), a lifting shaft (2-22), a lifting installation block (2-23), a lifting compression plate a (2-24), a lifting compression b (2-25), a lifting compression plate c (2-26), a lifting compression shaft (2-27), a lifting compression spring (2-28), a sliding groove (2-29), a sliding groove shaft (2-30), an equipment connection plate a (2-31) and an equipment connection plate b (2-32), wherein an adjusting motor installation plate (2-1) is connected with an adjusting motor (2-2), the adjusting motor (2-2) is connected with an adjusting motor shaft (2-3), the adjusting motor shaft (2-3) is connected with a switching sliding plate (2-4) in a sliding manner, the switching sliding plate (2-4) is connected with a switching limit plate a (2-5), the switching limiting plate a (2-5) is connected with the switching shaft (2-6) in a sliding manner, the switching shaft (2-6) is connected with the switching limiting block (2-8), the switching limiting plate b (2-7) is connected with the switching shaft (2-6), the switching limiting block (2-8) is connected with the switching sliding plate (2-4) in a sliding manner, a switching limiting spring (2-9) is sleeved on the switching shaft (2-6) and limited on the switching limiting plate a (2-5) and the switching limiting block (2-8), the switching belt (2-10) is connected with the switching sliding plate (2-4) in a friction manner, the switching sliding shaft (2-11) is connected with the switching belt (2-10) in a friction manner, the switching gear a (2-12) is connected with the switching gear a (2-12), and the lifting gear b (2-13) is connected with the lifting transmission shaft a (2-14), the lifting transmission shaft a (2-14) is in bearing connection with the bearing plate a (2-15), the bearing plate a (2-15) is connected with the equipment connecting plate b (2-32), the bearing plate b (2-16) is in bearing connection with the lifting transmission shaft a (2-14), the lifting belt (2-17) is in friction connection with the bearing plate b (2-16), the lifting transmission shaft b (2-18) is in friction connection with the lifting belt (2-17), the lifting friction wheel (2-19) is connected with the lifting transmission shaft b (2-18), the lifting support plate (2-20) is in sliding connection with the lifting friction wheel (2-19), the lifting shaft sleeve (2-21) is connected with the lifting support plate (2-20), and the lifting shaft (2-22) is in bearing connection with the lifting shaft sleeve (2-21), the lifting installation block (2-23) is connected with a lifting shaft (2-22) through a bearing, a lifting compression plate a (2-24) is connected with a lifting compression b (2-25), the lifting compression b (2-25) is connected with a lifting compression shaft (2-27) in a sliding way, a lifting compression plate c (2-26) is connected with a lifting compression plate a (2-24) in a sliding way, the lifting compression shaft (2-27) is connected with a lifting compression plate c (2-26), a lifting compression spring (2-28) is sleeved on the lifting compression shaft (2-27) and limited on the lifting compression b (2-25) and the lifting compression plate c (2-26), a sliding groove (2-29) is connected with a lifting support plate (2-20) in a sliding way, a sliding groove shaft (2-30) is connected with a sliding groove (2-29) through a bearing, the device connecting plate a (2-31) is connected with the device connecting plate b (2-32), the device connecting plate b (2-32) is connected with the adjusting motor mounting plate (2-1), the switching sliding plate (2-4) is connected with the device connecting plate b (2-32), the bearing plate b (2-16) is connected with the device connecting plate b (2-32), the lifting compression plate a (2-24) is connected with the mounting plate b (1-25), the lifting compression plate b (2-25) is connected with the mounting plate b (1-25), the lifting compression plate c (2-26) is connected with the mounting plate b (1-25) in a sliding mode, the sliding groove shaft (2-30) is connected with the mounting plate b (1-25), and the device connecting plate a (2-31) is connected with the mounting plate b (1-25).

4. The data transmission signal spreading device for communication according to claim 1, wherein: the transmission signal direction adjusting mechanism (3) comprises a power gear (3-1), a direction transmission shaft (3-2), a direction connecting plate a (3-3), a direction belt a (3-4), a direction transmission shaft b (3-5), a direction connecting plate b (3-6), a direction belt b (3-7), a direction transmission shaft (3-8), a direction connecting plate c (3-9), a rotary friction column (3-10), a direction connecting column (3-11) and a bearing ring (3-12), the power gear (3-1) is connected with the direction transmission shaft (3-2), the direction transmission shaft (3-2) is in bearing connection with the direction connecting plate a (3-3), the direction connecting plate a (3-3) is connected with an equipment connecting plate b (2-32), the direction belt a (3-4) is in bearing connection with the direction transmission shaft (3-2), the direction transmission shaft b (3-5) is in bearing connection with the direction belt a (3-4), the direction connecting plate b (3-6) is in bearing connection with the direction transmission shaft b (3-5), the direction belt b (3-7) is in friction connection with the direction transmission shaft b (3-5), the direction transmission shaft (3-8) is in friction connection with the direction belt b (3-7), the direction connecting plate c (3-9) is in bearing connection with the direction transmission shaft (3-8), the rotary friction column (3-10) is in friction connection with the direction belt b (3-7), the direction connecting column (3-11) is connected with the rotary friction column (3-10), and the bearing ring (3-12) is in bearing connection with the direction connecting column (3-11), the direction connecting plate a (3-3) is connected with the mounting plate b (1-25), the direction connecting plate b (3-6) is connected with the equipment connecting plate b (2-32), and the direction connecting plate c (3-9) is connected with the equipment connecting plate b (2-32).

5. The data transmission signal spreading device for communication according to claim 1, wherein: the height adjusting mechanism (4) for transmitting signals comprises a height power gear (4-1), a height transmission shaft a (4-2), a height mounting plate a (4-3), a height belt (4-4), a height transmission shaft b (4-5), a height mounting plate b (4-6), a helical gear (4-7), a helical tooth lifting column (4-8) and a threaded ring (4-9), wherein the height power gear (4-1) is connected with the height transmission shaft a (4-2), the height transmission shaft a (4-2) is in bearing connection with the height mounting plate a (4-3), the height mounting plate a (4-3) is connected with an equipment connecting plate b (2-32), and the height belt (4-4) is in friction connection with the height transmission shaft a (4-2), the height transmission shaft b (4-5) is in friction connection with the height belt (4-4), the height mounting plate b (4-6) is connected with the equipment connecting plate b (2-32), the helical gear (4-7) is connected with the height transmission shaft b (4-5), the helical tooth lifting column (4-8) is meshed with the helical gear (4-7), the thread ring (4-9) is in threaded connection with the bottom of the helical tooth lifting column (4-8), the height mounting plate a (4-3) is connected with the equipment connecting plate b (2-32), and the height mounting plate b (4-6) is connected with the equipment connecting plate b (2-32).

6. The data transmission signal spreading device for communication according to claim 1, wherein: the travelling mechanism (5) comprises a travelling motor (5-1), a travelling motor shaft (5-2), a travelling belt (5-3), a travelling transmission shaft a (5-4), a travelling belt (5-5), a travelling shaft friction wheel (5-6), a travelling transmission shaft b (5-7), a travelling shaft (5-8), a travelling wheel (5-9), a travelling installation side plate (5-10) and a travelling installation plate (5-11), wherein the travelling motor (5-1) is connected with the travelling motor shaft (5-2), the travelling motor shaft (5-2) is in friction connection with the travelling belt (5-3), the travelling belt (5-3) is in friction connection with the travelling transmission shaft a (5-4), and the travelling transmission shaft a (5-4) is in friction connection with the travelling belt (5-5), the traveling belt (5-5) is in friction connection with a traveling shaft friction wheel (5-6), the traveling shaft friction wheel (5-6) is connected with a traveling shaft (5-8), a traveling transmission shaft b (5-7) is in friction connection with the traveling belt (5-5), the traveling shaft (5-8) is in bearing connection with a traveling installation side plate (5-10), the traveling wheel (5-9) is connected with the traveling shaft (5-8), the traveling installation side plate (5-10) is connected with a traveling installation plate (5-11), the traveling installation plate (5-11) is connected with a traveling motor (5-1), the traveling shaft (5-8) is in bearing connection with the traveling installation side plate (5-10), and the traveling installation plate (5-11) is connected with a threaded ring (4-9).

7. The data transmission signal spreading device for communication according to claim 1, wherein: the circular rings (1-10) are connected with the circular balls (1-11) through bearings, and the circular balls (1-11) are hollow and can slide on the circular rings (1-10).

Technical Field

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

Background

In the process of data transmission, equipment for diffusing data transmission is often needed, but no good diffusion signal equipment with a diffusible range exists in the market, so the data transmission signal diffusion equipment for communication is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the data transmission signal diffusion equipment for communication, the equipment can change the diffusion range of the data transmission signal, the equipment can adjust the angle for transmitting the data transmission signal, the equipment can adjust the direction for transmitting the data transmission signal, the equipment can lift the height for transmitting the data transmission signal, and the equipment can move forwards or backwards.

In order to solve the technical problem, the invention relates to data transmission signal diffusion equipment, in particular to data transmission signal diffusion equipment for communication, which comprises a diffusion range adjusting mechanism, a transmission signal angle adjusting mechanism, a transmission signal direction adjusting mechanism, a transmission signal height adjusting mechanism and a traveling mechanism, wherein the diffusion range of data transmission signals can be changed by the equipment, the angle of the transmission data transmission signals can be adjusted by the equipment, the direction of the transmission data transmission signals can be adjusted by the equipment, the height of the transmission data transmission signals can be increased or decreased by the equipment, and the equipment can travel forwards or backwards.

The diffusion range adjusting mechanism is connected with the emission signal angle adjusting mechanism, the emission signal angle adjusting mechanism is connected with the emission signal direction adjusting mechanism, the emission signal direction adjusting mechanism is connected with the emission signal height adjusting mechanism, and the emission signal height adjusting mechanism is connected with the advancing mechanism.

As a further optimization of the technical scheme, the invention relates to a communication data transmission signal diffusion device, wherein a diffusion range adjusting mechanism comprises a power motor, a motor shaft, a friction wheel, a thin aluminum plate, a limiting block a, a limiting block b, a limiting shaft a, a spring, a motor mounting block, a circular ring ball, a limiting soft plate, a limiting shaft b, a limiting spring, a compression plate, a data transmission station mounting seat, a data transmission station, a data transmission signal wire, a support mounting block, a support shaft, a shaft sleeve, a mounting plate a, a mounting block and a mounting plate b, wherein the power motor is connected with the motor shaft, the motor shaft is connected with the friction wheel, the friction wheel is connected with the thin aluminum plate, the thin aluminum plate is connected with the limiting block a in a sliding manner, the limiting block a is connected with the limiting block b in sliding manner, the limiting block b is connected with the limiting shaft a in sliding manner, the limiting shaft a is connected with the limiting, the motor installation block is connected with a power motor, a circular ring is connected with a circular ring ball, the circular ring ball is connected with a compression plate, a limiting soft plate is connected with a thin aluminum plate in a sliding mode, a limiting plate is connected with a limiting shaft b, the limiting shaft b is connected with the limiting soft plate, a limiting spring sleeve is arranged on the limiting shaft b and is limited on the compression plate and the limiting plate, the compression plate is connected with the limiting block b in a sliding mode, a data transmission station installation seat is connected with the thin aluminum plate, a data transmission station is connected with the data transmission station installation seat, a data transmission signal line is connected with the data transmission station, a supporting installation block is connected with the compression plate, a supporting shaft is connected with a supporting installation block bearing, the shaft sleeve is connected with a supporting shaft bearing, an installation plate a is connected with the shaft sleeve, the installation block is connected with an installation plate a, the installation plate b is connected with.

As a further optimization of the technical scheme, the invention provides a data transmission signal diffusion device for communication, the transmission signal angle adjusting mechanism comprises an adjusting motor mounting plate, an adjusting motor shaft, a switching sliding plate, a switching limiting plate a, a switching shaft, a switching limiting plate b, a switching limiting block, a switching limiting spring, a switching belt, a switching sliding shaft, a switching gear a, a lifting gear b, a lifting transmission shaft a, a bearing plate b, a lifting belt, a lifting transmission shaft b, a lifting friction wheel, a lifting support plate, a lifting shaft sleeve, a lifting shaft, a lifting mounting block, a lifting compression plate a, a lifting compression plate b, a lifting compression plate c, a lifting compression shaft, a lifting compression spring, a sliding groove shaft, a device connecting plate a and a device connecting plate b, the adjusting motor mounting plate is connected with the adjusting motor, the adjusting motor is connected with the adjusting motor shaft, the adjusting motor shaft is connected with a switching sliding plate in a sliding manner, the switching sliding plate is connected with a switching limiting plate a, the switching limiting plate a is connected with a switching shaft in a sliding manner, the switching shaft is connected with a switching limiting block, a switching limiting plate b is connected with the switching shaft, the switching limiting block is connected with the switching sliding plate in a sliding manner, a switching limiting spring is sleeved on the switching shaft and is limited on the switching limiting plate a and the switching limiting block, a switching belt is in a friction connection with the switching sliding plate, the switching sliding shaft is in a friction connection with the switching belt, the switching gear a is connected with a switching gear a, a lifting gear b is connected with a lifting transmission shaft a, the lifting transmission shaft a is connected with a bearing plate a bearing, the bearing plate a is connected with an equipment connecting plate b, the bearing plate b is in a bearing connection with the lifting transmission shaft a, the lifting, the lifting support plate is connected with the lifting friction wheel in a sliding manner, the lifting shaft sleeve is connected with the lifting support plate, the lifting shaft is connected with a lifting shaft sleeve bearing, the lifting installation block is connected with the lifting shaft bearing, the lifting compression plate a is connected with the lifting compression plate b, the lifting compression plate b is connected with the lifting compression shaft in a sliding manner, the lifting compression plate c is connected with the lifting compression plate a in a sliding manner, the lifting compression shaft is connected with the lifting compression plate c, the lifting compression spring is sleeved on the lifting compression shaft and limited on the lifting compression plate b and the lifting compression plate c, the sliding groove is connected with the lifting support plate in a sliding manner, the sliding groove shaft is connected with the sliding groove bearing, the equipment connection plate a is connected with the equipment connection plate b, the equipment connection plate b is connected with the adjustment motor installation plate, the switching sliding plate is connected with the equipment connection plate b, the bearing plate b is connected with the equipment, the lifting compression plate c is connected with the mounting plate b in a sliding mode, the sliding groove shaft is connected with the mounting plate b, and the equipment connecting plate a is connected with the mounting plate b.

As a further optimization of the technical scheme, the invention relates to a data transmission signal diffusion device for communication, wherein the emission signal direction adjusting mechanism comprises a power gear, a direction transmission shaft, a direction connecting plate a, a direction belt a, a direction transmission shaft b, a direction connecting plate b, a direction belt b, a direction transmission shaft, a direction connecting plate c, a rotary friction column, a direction connecting column and a bearing ring, the power gear is connected with the direction transmission shaft, the direction transmission shaft is connected with a direction connecting plate a bearing, the direction connecting plate a is connected with a device connecting plate b, the direction belt a is connected with the direction transmission shaft bearing, the direction transmission shaft b is connected with the direction belt a bearing, the direction connecting plate b is connected with a direction transmission shaft b bearing, the direction belt b is connected with the direction transmission shaft b friction, the direction transmission shaft is connected with the direction belt b friction, the direction connecting plate c, the rotating friction column is in friction connection with the direction belt b, the direction connecting column is connected with the rotating friction column, the bearing ring is in bearing connection with the direction connecting column, the direction connecting plate a is connected with the mounting plate b, the direction connecting plate b is connected with the equipment connecting plate b, and the direction connecting plate c is connected with the equipment connecting plate b.

As a further optimization of the technical scheme, the invention relates to a digital transmission signal diffusion device for communication, wherein a transmission signal height adjusting mechanism comprises a height power gear, a height transmission shaft a, a height mounting plate a, a height belt, a height transmission shaft b, a height mounting plate b, a helical gear, a helical tooth lifting column and a threaded ring, the height power gear is connected with the height transmission shaft a, the height transmission shaft a is connected with the height mounting plate a through a bearing, the height mounting plate a is connected with a device connecting plate b, the height belt is connected with the height transmission shaft a through a friction, the height transmission shaft b is connected with the height belt through a friction, the height mounting plate b is connected with a device connecting plate b, the helical gear is connected with the height transmission shaft b, the helical tooth lifting column is meshed with the helical gear, the threaded ring is connected with the bottom of the helical tooth lifting column through a thread, the height mounting plate a, the height mounting plate b is connected with the equipment connecting plate b.

As a further optimization of the technical solution, the invention provides a data transmission signal diffusion device for communication, wherein the traveling mechanism comprises a traveling motor, a traveling motor shaft, a traveling belt, a traveling transmission shaft a, a traveling belt, a traveling shaft friction wheel, a traveling transmission shaft b, a traveling shaft, a traveling wheel, a traveling installation side plate and a traveling installation plate, the traveling motor is connected with the traveling motor shaft, the traveling motor shaft is in friction connection with the traveling belt, the traveling belt is in friction connection with the traveling transmission shaft a, the traveling transmission shaft a is in friction connection with the traveling belt, the traveling belt is in friction connection with the traveling shaft friction wheel, the traveling shaft friction wheel is connected with the traveling shaft, the traveling transmission shaft b is in friction connection with the traveling belt, the traveling shaft is in bearing connection with the traveling installation side plate, the traveling wheel is connected with the traveling shaft, the traveling installation side plate is connected with the traveling installation plate, the advancing shaft is connected with the advancing mounting side plate bearing, and the advancing mounting plate is connected with the threaded ring.

As a further optimization of the technical scheme, the data transmission signal diffusion equipment for communication is characterized in that the circular ring is connected with the circular ring ball bearing, and the circular ring ball is hollow and can slide on the circular ring.

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

according to the data transmission signal diffusion equipment for communication, the diffusion range of the data transmission signal can be changed, the angle of transmitting the data transmission signal can be adjusted, the direction of transmitting the data transmission signal can be adjusted, the height of transmitting the data transmission signal can be increased or decreased, and the equipment can move forwards or backwards.

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 data transmission signal diffusion device for communication according to the present invention.

Fig. 2 is a schematic structural diagram of a diffusion range adjusting mechanism 1 of a data transmission signal diffusion device for communication according to the present invention.

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

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

Fig. 5 is a schematic structural diagram of thin aluminum plates 1-4 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 6 is a schematic structural diagram of a transmission signal angle adjustment mechanism 2 of a data transmission signal diffusion device for communication according to the first embodiment of the present invention.

Fig. 7 is a second schematic structural diagram of a transmission signal angle adjusting mechanism 2 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 8 is a third schematic structural diagram of the transmission signal angle adjustment mechanism 2 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 9 is a fourth schematic structural diagram of the transmission signal angle adjustment mechanism 2 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 10 is a fifth schematic structural diagram of the transmission signal angle adjusting mechanism 2 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 11 is a schematic structural view of a tuning motor shaft 2-3 of the data transmission signal diffusion apparatus for communication according to the present invention.

Fig. 12 is a schematic structural diagram of a transmission signal direction adjusting mechanism 3 of a data transmission signal diffusion device for communication according to the first embodiment of the present invention.

Fig. 13 is a second schematic structural diagram of a transmission signal direction adjusting mechanism 3 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 14 is a third schematic structural diagram of the transmission signal direction adjusting mechanism 3 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 15 is a fourth schematic structural diagram of the transmission signal direction adjusting mechanism 3 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 16 is a schematic structural diagram of a transmission signal direction adjusting mechanism 3 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 17 is a schematic structural diagram of a transmission signal height adjusting mechanism 4 of a data transmission signal diffusion device for communication according to the first embodiment of the present invention.

Fig. 18 is a schematic structural diagram of a transmission signal height adjusting mechanism 4 of a data transmission signal diffusion device for communication according to the second embodiment of the present invention.

Fig. 19 is a third schematic structural diagram of the transmission signal height adjusting mechanism 4 of the data transmission signal diffusion device for communication according to the present invention.

Fig. 20 is a first schematic structural diagram of the traveling mechanism 5 of the data transmission signal diffusion apparatus for communication according to the present invention.

Fig. 21 is a second schematic structural diagram of the traveling mechanism 5 of the data transmission signal diffusion device for communication according to the present invention.

In the figure: a diffusion range adjusting mechanism 1; a power motor 1-1; a motor shaft 1-2; 1-3 of a friction wheel; 1-4 of thin aluminum plates; a limiting block a 1-5; a limiting block b 1-6; a limiting shaft a 1-7; 1-8 parts of spring; motor mounting blocks 1-9; 1-10 of a circular ring; 1-11 parts of a circular sphere; 1-12 parts of a limiting soft board; 1-13 parts of a limiting plate; a limit shaft b 1-14; 1-15 parts of a limiting spring; compression plates 1-16; a data transmission radio station mounting base 1-17; data transmission radio stations 1-18; data transmission signal lines 1 to 19; supporting the mounting blocks 1-20; 1-21 parts of a support shaft; 1-22 of shaft sleeve; mounting plate a 1-23; mounting blocks 1-24; mounting plates b 1-25; a transmission signal angle adjusting mechanism 2; adjusting a motor mounting plate 2-1; adjusting a motor 2-2; adjusting a motor shaft 2-3; switching the sliding plates 2-4; a switching limit plate a 2-5; a switching shaft 2-6; a switching position limiting plate b 2-7; switching a limiting block 2-8; switching the limit springs 2-9; switching the belts 2-10; switching the sliding shafts 2-11; switching gear a 2-12; lifting gears b 2-13; a lifting transmission shaft a 2-14; bearing plate a 2-15; bearing plate b 2-16; 2-17 of a lifting belt; a lifting transmission shaft b 2-18; 2-19 of a lifting friction wheel; 2-20 parts of a lifting support plate; 2-21 of a lifting shaft sleeve; 2-22 of a lifting shaft; lifting and mounting blocks 2-23; lifting compression plate a 2-24; lifting and pressing b 2-25; lifting compression plates c 2-26; lifting pressing shafts 2-27; lifting compression springs 2-28; 2-29 of sliding groove; 2-30 parts of a sliding groove shaft; equipment connecting board a 2-31; equipment connecting plates b 2-32; a transmission signal direction adjusting mechanism 3; a power gear 3-1; a directional transmission shaft 3-2; the direction connecting plate a 3-3; directional belt a 3-4; a direction transmission shaft b 3-5; direction connecting plate b 3-6; direction belt b 3-7; 3-8 parts of a directional transmission shaft; the direction connecting plate c 3-9; 3-10 parts of a rotary friction column; 3-11 parts of a direction connecting column; 3-12 parts of bearing ring; a transmission signal height adjusting mechanism 4; a high power gear 4-1; a height transmission shaft a 4-2; height mounting plate a 4-3; 4-4 parts of a height belt; a height transmission shaft b 4-5; height mounting plate b 4-6; 4-7 of helical gears; 4-8 of a helical tooth lifting column; 4-9 of thread ring; a traveling mechanism 5; a traveling motor 5-1; a traveling motor shaft 5-2; 5-3 of a traveling belt; a traveling drive shaft a 5-4; 5-5 of a traveling belt; 5-6 of a traveling shaft friction wheel; a traveling drive shaft b 5-7; 5-8 of a travel shaft; 5-9 parts of a travelling wheel; mounting side plates 5-10 in an advancing manner; traveling mounting plates 5-11.

Detailed Description