CN113431417A - Wireless signal propagation device - Google Patents

Abstract

The invention discloses a wireless signal transmission device, which comprises a supporting mechanism, a guide mechanism, a rotating mechanism, a lifting mechanism, a fixing mechanism and moving mechanisms, wherein the fixing mechanism is fixedly connected to the top of the supporting mechanism, a plurality of moving mechanisms are uniformly distributed on the fixing mechanism, the guide mechanism is rotatably connected to the supporting mechanism, the guide mechanism is fixedly arranged between the supporting mechanism and the fixing mechanism, the rotating mechanism is slidably connected to the supporting mechanism, the lifting mechanism is arranged on the rotating mechanism, and the rotating mechanism is slidably connected to the guide mechanism; the device can drive the signal transmitting device of sliding connection on the fixed establishment to take off through drive slewing mechanism and elevating system, need not the staff climb to the radio signal transmission device and go to operate, has eliminated the potential safety hazard that high operation exists, can obtain bigger activity space simultaneously in ground operation.

Description

Wireless signal propagation device

Technical Field

The invention belongs to the technical field of communication, and particularly relates to a wireless signal transmission device.

Background

The utility model discloses a communication tower convenient to maintain, which has the prior patent number of CN201721181060.3, and comprises a base, a tower body, a support column, a wireless transceiver and a lightning rod; the upper surface of the base is fixedly connected with a tower body, the bottom of the tower body is fixedly connected with a motor, a shaft extension end of the motor is fixedly connected with a lead screw, the lead screw is a bidirectional lead screw, a lower end sleeve of the lead screw is provided with a lower sliding block, the edge of a fixed plate is hinged with a maintenance platform, an upper end sleeve of the lead screw is provided with an upper sliding block, the side wall of the upper sliding block is hinged with an upper connecting rod, the left side and the right side of the tower body are hinged with movable plates, and the maintenance platform is in a folded state and inclines towards the outer side of the tower body under a normal state, so that the climbing difficulty is increased, and climbing of irrelevant people is prevented from occurring so as to avoid accidents; when the communication tower needs to be maintained, the motor is started to drive the maintenance platform to be opened to the horizontal position, so that people can conveniently stand on the maintenance platform to perform maintenance operation, the safety and the convenience of maintenance are greatly improved, and meanwhile, the pedals are rotated to the horizontal position, so that workers can conveniently climb upwards and can conveniently climb and maintain; however, when the personnel works aloft, the personnel are easily influenced by the external environment, the safety of the personnel is hidden, and meanwhile, the movable operation range is limited, so that inconvenience is caused in the process of maintenance or replacement.

Disclosure of Invention

In order to solve the above problems in the prior art, the present invention is directed to a wireless signal transmission device.

The technical scheme adopted by the invention is as follows:

the utility model provides a wireless signal propagation device, includes supporting mechanism, guiding mechanism, slewing mechanism, elevating system, fixed establishment and moving mechanism, fixed establishment fixed connection be in supporting mechanism's top, a plurality of moving mechanism evenly distributed is in on the fixed establishment, guiding mechanism rotates to be connected on the supporting mechanism, guiding mechanism is fixed to be set up supporting mechanism with between the fixed establishment, slewing mechanism sliding connection be in on the supporting mechanism, elevating system sets up slewing mechanism is last, slewing mechanism sliding connection be in on the guiding mechanism.

Preferably, the supporting mechanism is including supporting the base, what support set up on the base has moving mechanism assorted counter weight spout, every equal sliding connection has first balancing weight on the counter weight spout, every first balancing weight with it all is provided with first telescopic link to support between the base, the intermediate position perpendicular to of support base fixedly connected with support column on the upper surface of support base, follow the extending direction of support column is provided with guide way and rack.

Preferably, guiding mechanism is including rotating the connection and being in the direction base on the support base is connected with rotating the connection and being in the direction seat of honour on the support column, the direction base with be connected through two guide bars between the direction seat of honour, two sliding connection has sliding platform on the guide bar, sliding platform with be provided with the second telescopic link between the direction base.

Preferably, the guide base is provided with a second flow guide hole and communicated with the bottom of the second telescopic rod, the support base is provided with a first flow guide hole corresponding to the first telescopic rod, and the first flow guide hole is communicated with the first telescopic rod.

Preferably, slewing mechanism includes sliding connection and is in the rotation base in the guide way, the last fixedly connected with ring gear of rotating the base, it is connected with the rotation support to rotate on the rotation base, rotation support one side fixedly connected with second balancing weight and first motor, the first gear of fixedly connected with on the output shaft of first motor, first gear with the transmission is connected between the ring gear.

Preferably, the rotating support is provided with a sucker and a moving chute, and the sucker and the moving chute are both located at one side far away from the second balancing weight.

Preferably, elevating system includes sliding connection and is in remove the lift base in the spout, lift base with it is provided with the cylinder to rotate between the support, it is connected with the worm to rotate on the lift base, the first friction pulley of one end fixedly connected with of worm, one side of lift base is rotated and is connected with the second gear, the second gear with the transmission is connected between the worm.

Preferably, sliding connection has the lift balladeur train on the lifting base, the lift balladeur train with be provided with the spring between the lifting base, lift balladeur train bottom fixedly connected with second motor, the output shaft of second motor extends to the upside of lift balladeur train and at the terminal fixedly connected with second friction pulley of its output shaft, the second friction pulley with the transmission is connected between the first friction pulley.

Preferably, the fixing mechanism comprises a fixing support fixedly connected to the supporting column, a limiting support corresponding to the moving mechanism is arranged on the fixing support, a lead screw corresponding to the moving mechanism is rotatably connected to the fixing support, a torsion spring is arranged between one end of the lead screw and the fixing support, a first electromagnetic lock is arranged between the other end of the lead screw and the fixing support, and a third friction wheel is fixedly connected to the lead screw.

Preferably, moving mechanism includes sliding connection and is in removal support on the fixed bolster, the lead screw with threaded connection between the lead screw, the both sides of removing the support are provided with the removal balladeur train, every remove the balladeur train with all be provided with the spring between the removal support, every it is connected with two fixed rollers to rotate on the removal balladeur train, one of them fixed roller's one end fixedly connected with second electromagnetic lock, two connect through the transmission of fixed friction area between the fixed roller, two the centre gripping has the fixed plate between the fixed friction area, fixedly connected with signal emission device on the fixed plate.

The invention has the beneficial effects that:

1. the device can drive sliding connection and take off the signal transmitting device on fixed establishment through drive slewing mechanism and elevating system, need not the staff climb to the radio signal spreads the device and go to operate, has eliminated the potential safety hazard that high operation exists, can obtain bigger activity space simultaneously in ground operation, provides convenient for staff's work.

2. The device can be at the in-process of picking signal emission device, and the focus of whole device will change, will influence the stability of device, and the guiding mechanism through utilizing the cooperation of linker principle to set up promotes to set up the first balancing weight on supporting mechanism and carries out the counter weight to whole device, makes the partial mechanism of its device at the in-process that removes, and the focus remains throughout on supporting mechanism's support column, stability that can effectual improvement device.

Drawings

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

FIG. 1 is a schematic view of the overall axial side construction of the present invention;

FIG. 2 is a schematic axial side view of the support mechanism of the present invention;

FIG. 3 is a schematic axial side view of the guide mechanism of the present invention;

FIG. 4 is a schematic view of the connection between the guide mechanism and the support mechanism according to the present invention;

FIG. 5 is a schematic view of the construction of the rotating mechanism of the present invention;

FIG. 6 is a schematic view of the construction of the lift mechanism of the present invention;

FIG. 7 is a schematic structural view of the securing mechanism of the present invention;

FIG. 8 is a first schematic structural diagram of the moving mechanism of the present invention;

fig. 9 is a second schematic structural diagram of the moving mechanism of the present invention.

In the figure: 1-support mechanism, 101-support base, 102-counterweight chute, 103-first counterweight block, 104-first telescopic rod, 105-support column, 106-guide groove, 107-rack, 108-first guide hole, 2-guide mechanism, 201-guide base, 202-guide rod, 203-guide upper seat, 204-sliding platform, 205-second telescopic rod, 206-second guide hole, 3-rotation mechanism, 301-rotation base, 302-toothed ring, 303-rotation bracket, 304-movement chute, 305-suction cup, 306-guide hole, 307-second counterweight block, 308-first motor, 309-first gear, 4-lifting mechanism, 401-lifting base, 402-cylinder, 403-second gear, 404-worm, 405-first friction wheel, 406-lifting carriage, 407-second motor, 408-second friction wheel, 5-fixing mechanism, 501-fixing bracket, 502-limiting bracket, 503-screw rod, 504-third friction wheel, 505-torsion spring, 506-first electromagnetic lock, 6-moving mechanism, 601-moving bracket, 602-moving carriage, 603-fixing roller, 604-fixing friction belt, 605-second electromagnetic lock, 606-fixing plate, 607-signal transmitting device.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

The specific implementation mode is as follows:

the following describes a specific embodiment of the present invention with reference to fig. 1 to 9, and a wireless signal transmission device includes a supporting mechanism 1, a guiding mechanism 2, a rotating mechanism 3, a lifting mechanism 4, a fixing mechanism 5 and a moving mechanism 6, wherein the fixing mechanism 5 is fixedly connected to the top of the supporting mechanism 1, a plurality of moving mechanisms 6 are uniformly distributed on the fixing mechanism 5, the guiding mechanism 2 is rotatably connected to the supporting mechanism 1, the guiding mechanism 2 is fixedly disposed between the supporting mechanism 1 and the fixing mechanism 5, the rotating mechanism 3 is slidably connected to the supporting mechanism 1, the lifting mechanism 4 is disposed on the rotating mechanism 3, and the rotating mechanism 3 is slidably connected to the guiding mechanism 2; when picking up the signal emission device on the moving mechanism, firstly, the position of the lifting mechanism 4 is adjusted by the driving rotating mechanism 3 to move through the driving lifting mechanism 4, the moving mechanism 6 is driven by the fixing mechanism 5 to move by utilizing friction force after moving to a specified position, the signal emission device on the moving mechanism 6 is fixed on the rotating mechanism 3 in the process of moving, the whole device can be re-weighted by the guide mechanism 2 in cooperation with the supporting mechanism 1 in the descending process, so that the gravity center position of the whole device is concentrated on the central position of the supporting mechanism 1, the influence of the gravity center of the device can be avoided, and the stability of the device is improved.

Preferably, in an embodiment of the present invention, referring to fig. 2 to 4 again, the supporting mechanism 1 includes a supporting base 101, a counterweight sliding groove 102 matched with the moving mechanism 6 is disposed on the supporting base 101, a first counterweight block 103 is slidably connected to each counterweight sliding groove 102, a first telescopic rod 104 is disposed between each first counterweight block 103 and the supporting base 101, a supporting column 105 is fixedly connected to a middle position of the supporting base 101, which is perpendicular to an upper surface of the supporting base 101, and a guide groove 106 and a rack 107 are disposed along an extending direction of the supporting column 105; the guide mechanism 2 comprises a guide base 201 rotatably connected to the support base 101 and a guide upper seat 203 rotatably connected to the support column 105, the guide base 201 and the guide upper seat 203 are connected through two guide rods 202, the two guide rods 202 are slidably connected with a sliding platform 204, and a second telescopic rod 205 is arranged between the sliding platform 204 and the guide base 201; a second flow guide hole 206 is formed in the guide base 201 and is communicated with the bottom of the second telescopic rod 205, a first flow guide hole 108 corresponding to the first telescopic rod 104 is formed in the support base 101, and the first flow guide hole 108 is communicated with the first telescopic rod 104; when the rotating mechanism 3 descends to a certain position, the sliding platform 204 slidably connected to the guide rod 202 is decompressed and moves downwards, the second telescopic rod 205 arranged between the sliding platform 204 and the guide base 201 is compressed in the moving process, so that the second flow guide hole 206 in the guide base 201 is communicated with the first flow guide hole 108 on the support base 101 on the same side as the signal emitting device taken down, so that a communicating device is formed between the second telescopic rod 205 and the first telescopic rod 104, and further the first telescopic rod 104 forms a communicating device with the first telescopic rod 104 through the second telescopic rod 205 in the falling process to push the first counterweight block 103 on the same side as the signal emitting device to move, so that the center of the device is always kept on the support column in the moving process, and the influence on the center of the whole device due to the position change of the signal emitting device can be prevented, so that the device is more stable in the using process.

Preferably, in an embodiment of the present invention, referring to fig. 5 again, the rotating mechanism 3 includes a rotating base 301 slidably connected in the guide groove 106, a toothed ring 302 is fixedly connected to the rotating base 301, a rotating bracket 303 is rotatably connected to the rotating base 301, a second counterweight 307 and a first motor 308 are fixedly connected to one side of the rotating bracket 303, a first gear 309 is fixedly connected to an output shaft of the first motor 308, and the first gear 309 is in transmission connection with the toothed ring 302; a suction cup 305 and a moving chute 304 are arranged on the rotating bracket 303, and both the suction cup 305 and the moving chute 304 are positioned on one side far away from the second counterweight block 307; in the using process, the first motor 308 is driven to drive the first gear 309 fixedly connected to the output shaft of the first motor to rotate, and the first gear 309 is meshed with the gear ring 302 to drive the rotating bracket 303 to rotate, so that the lifting mechanism 4 connected to the rotating mechanism 3 moves to a corresponding position; the signal transmitting device on the moving mechanism 6 is sucked by arranging the sucking disc 305, and the signal transmitting device is detached,

preferably, in an embodiment of the present invention, referring to fig. 6 again, the lifting mechanism 4 includes a lifting base 401 slidably connected in the moving chute 304, a spring is disposed between the lifting carriage 406 and the lifting base 401, an air cylinder 402 is disposed between the lifting base 401 and the rotating bracket 303, a worm 404 is rotatably connected to the lifting base 401, a first friction wheel 405 is fixedly connected to one end of the worm 404, a second gear 403 is rotatably connected to one side of the lifting base 401, and the second gear 403 is in transmission connection with the worm 404; a lifting carriage 406 is connected onto the lifting base 401 in a sliding manner, a second motor 407 is fixedly connected to the bottom of the lifting carriage 406, an output shaft of the second motor 407 extends to the upper side of the lifting carriage 406, a second friction wheel 408 is fixedly connected to the tail end of the output shaft of the second motor 407, and the second friction wheel 408 is in transmission connection with the first friction wheel 405; a second motor 407 is driven to drive a second friction wheel 408 fixedly connected to the tail end of the second motor to rotate, a worm 404 fixedly connected with the first friction wheel 405 is driven to rotate by the friction force between the second friction wheel 408 and the first friction wheel 405 in the rotating process, a second gear 403 is driven to rotate by the meshing with the second gear 403 in the rotating process, and the second gear 403 drives the rotating mechanism 3 and the lifting mechanism 4 to move up and down by the meshing with the rack 107; by adopting the arrangement of the worm 404, after the device moves to a specified position, the positioning effect of the device can be effectively improved by utilizing the self-locking between the second gear 403 and the worm 404, and the movement phenomenon of the device when the signal reflection device is assembled and disassembled can be prevented; after the moving mechanism 6 is adsorbed on the suction cup 305, the cylinder 402 will contract at this time, and drive the lifting base 401 to move, so that the second gear 403 is separated from the rack 107, and the lifting mechanism 4 and the rotating mechanism 3 are installed to slide downward under the action of their own gravity.

Preferably, in an embodiment of the present invention, referring to fig. 7 again, the fixing mechanism 5 includes a fixing bracket 501 fixedly connected to the supporting column 105, a limiting bracket 502 corresponding to the moving mechanism 6 is disposed on the fixing bracket 501, a screw rod 503 corresponding to the moving mechanism 6 is rotatably connected to the fixing bracket 501, a torsion spring 505 is disposed between one end of the screw rod 503 and the fixing bracket 501, a first electromagnetic lock 506 is disposed between the other end of the screw rod 503 and the fixing bracket, and a third friction wheel 504 is fixedly connected to the screw rod 503; after the lifting mechanism 4 moves to a specified position, the limiting bracket 502 arranged on the fixed bracket 501 pushes the lifting carriage 406 to move downwards to compress the spring arranged between the lifting carriage 406 and the lifting bracket 401, so that the second friction wheel 408 is separated from the first friction wheel 405 to prevent the lifting mechanism from continuously rising, at this time, the second friction wheel 408 just performs friction transmission with a third friction wheel 504 arranged on the lead screw 503 to drive the lead screw 503 to rotate, because the lead screw 503 is in threaded connection with the moving mechanism 6, the lead screw 503 drives the moving mechanism 6 to move to enable the moving mechanism 6 to be adsorbed on the sucker 305 on the rotating mechanism 3, and the lead screw 503 is locked by driving the first electromagnetic lock 506 to prevent the lead screw from rotating under the action of the torsion spring 505; after the signal transmitter 607 is installed on the moving mechanism 6, the first electromagnetic lock 506 is driven to unlock, and the lead screw 503 is rotated by the torsion spring 50, so as to push the moving mechanism 6 to return to the end of the fixing mechanism 5 through the threaded connection.

Preferably, in an embodiment of the present invention, referring to fig. 8 to 9 again, the moving mechanism 6 includes a moving bracket 601 slidably connected to the fixed bracket 501, the lead screw 503 is in threaded connection with the lead screw 503, moving carriages 602 are disposed on two sides of the moving bracket 601, a spring is disposed between each moving carriage 602 and the moving bracket 601, two fixed rollers 603 are rotatably connected to each moving carriage 602, one end of one of the fixed rollers 603 is fixedly connected to a second electromagnetic lock 605, the two fixed rollers 603 are in transmission connection with each other through a fixed friction belt 604, a fixed plate 606 is clamped between the two fixed friction belts 604, and a signal transmitting device 607 is fixedly connected to the fixed plate 606; after the sucking disc 305 adsorbs the signal emission device 607, the second electromagnetic lock 605 is unlocked, and the fixed roller 603 can rotate to match with the descending of the lifting mechanism 4, so that the signal emission device 607 clamped between the two fixed friction belts 604 falls off; when the lifting mechanism 4 is installed, the movable sliding frame 602 is pushed to move towards two sides through the fixing plate 606 in the lifting process, springs are arranged between the movable sliding frame 602 and the movable support 601 in the moving process to increase the pressure between the fixing plate 606 and the fixed friction belt 604, after the lifting mechanism 4 is moved to a designated position, the second electromagnetic lock 605 is locked to prevent the fixed roller 603 from rotating, the fixing plate 606 is clamped through friction force, and meanwhile, the second electromagnetic lock 605 can prevent the fixing plate 606 from falling off in the moving process of the moving mechanism 6.

The invention relates to a wireless signal transmission device, which has the working principle that:

in the using process, when the signal transmitting device on the moving mechanism is picked up, the position of the lifting mechanism 4 is adjusted by the driving rotating mechanism 3, the lifting mechanism 4 is driven to move, the first motor 308 is driven to drive the first gear 309 fixedly connected to the output shaft of the first motor to rotate in the using process, and the first gear 309 is meshed with the gear ring 302 to drive the rotating bracket 303 to rotate, so that the lifting mechanism 4 connected to the rotating mechanism 3 moves to the corresponding position; a second motor 407 is driven to drive a second friction wheel 408 fixedly connected to the tail end of the second motor to rotate, a worm 404 fixedly connected with the first friction wheel 405 is driven to rotate by the friction force between the second friction wheel 408 and the first friction wheel 405 in the rotating process, a second gear 403 is driven to rotate by the meshing with the second gear 403 in the rotating process, and the second gear 403 drives the rotating mechanism 3 and the lifting mechanism 4 to move up and down by the meshing with the rack 107; after the lifting mechanism 4 moves to a specified position, the limiting bracket 502 arranged on the fixed bracket 501 pushes the lifting carriage 406 to move downwards to compress the spring arranged between the lifting carriage 406 and the lifting bracket 401, so that the second friction wheel 408 is separated from the first friction wheel 405 to prevent the lifting mechanism from continuously rising, at this time, the second friction wheel 408 just performs friction transmission with a third friction wheel 504 arranged on the lead screw 503 to drive the lead screw 503 to rotate, because the lead screw 503 is in threaded connection with the moving mechanism 6, the lead screw 503 drives the moving mechanism 6 to move to enable the moving mechanism 6 to be adsorbed on the sucker 305 on the rotating mechanism 3, and the lead screw 503 is locked by driving the first electromagnetic lock 506 to prevent the lead screw from rotating under the action of the torsion spring 505; by arranging the sucking disc 305 to suck the signal transmitting device on the moving mechanism 6, after the sucking disc 305 sucks the signal transmitting device 607, the second electromagnetic lock 605 is unlocked, and the fixed roller 603 can be rotationally matched with the lifting mechanism 4 to descend so that the signal transmitting device 607 clamped between the two fixed friction belts 604 falls off; after the moving mechanism 6 is adsorbed on the suction cup 305, the cylinder 402 will contract at this time to drive the lifting base 401 to move, so that the second gear 403 is separated from the rack 107, and the lifting mechanism 4 and the rotating mechanism 3 are installed to slide downwards under the action of self gravity; when the rotating mechanism 3 descends to a certain position, the sliding platform 204 slidably connected to the guide rod 202 is decompressed and moves downwards, the second telescopic rod 205 arranged between the sliding platform 204 and the guide base 201 is compressed in the moving process, so that the second flow guide hole 206 in the guide base 201 is communicated with the first flow guide hole 108 on the support base 101 on the same side as the signal emitting device taken down, so that a communicating device is formed between the second telescopic rod 205 and the first telescopic rod 104, and further the first telescopic rod 104 forms a communicating device with the first telescopic rod 104 through the second telescopic rod 205 in the falling process to push the first counterweight block 103 on the same side as the signal emitting device to move, so that the center of the device is always kept on the support column in the moving process, and the influence on the center of the whole device due to the position change of the signal emitting device can be prevented, the device is more stable in the using process; after the signal transmitting device is replaced by a maintenance fire, the lifting mechanism 4 is driven to ascend, when the signal transmitting device is installed, the lifting mechanism 4 can pass through the fixing plate 606 in the ascending process, the movable sliding frame 602 is pushed to move towards two sides, springs are arranged between the movable sliding frame 602 and the movable support 601 in the moving process, the pressure between the fixing plate 606 and the fixed friction belt 604 is increased, after the lifting mechanism 4 moves to the designated position, the second electromagnetic lock 605 is locked to prevent the fixing roller 603 from rotating, the fixing plate 606 is clamped through friction force, and meanwhile the fixing plate 606 can be prevented from falling off in the moving process by the arrangement of the second electromagnetic lock 605.

The invention is not limited to the above alternative embodiments, and any other various forms of products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, which fall within the scope of the present invention as defined in the claims, fall within the scope of the present invention.

Claims (10)

1. A wireless signal propagation device, characterized by; including supporting mechanism (1), guiding mechanism (2), slewing mechanism (3), elevating system (4), fixed establishment (5) and moving mechanism (6), fixed establishment (5) fixed connection be in the top of supporting mechanism (1), a plurality of moving mechanism (6) evenly distributed is in on fixed establishment (5), guiding mechanism (2) rotate to be connected on supporting mechanism (1), guiding mechanism (2) are fixed to be set up supporting mechanism (1) with between fixed establishment (5), slewing mechanism (3) sliding connection be in on supporting mechanism (1), elevating system (4) set up on slewing mechanism (3), slewing mechanism (3) sliding connection be in on guiding mechanism (2).

2. A wireless signal propagation device according to claim 1, wherein: supporting mechanism (1) is including supporting base (101), what support that sets up on base (101) has moving mechanism (6) assorted counter weight spout (102), every equal sliding connection has first balancing weight (103) on counter weight spout (102), every first balancing weight (103) with support and all be provided with first telescopic link (104) between base (101), the intermediate position perpendicular to of support base (101) fixedly connected with support column (105) on the upper surface of support base (101), follow the extending direction of support column (105) is provided with guide way (106) and rack (107).

3. A wireless signal propagation device according to claim 2, wherein: guiding mechanism (2) are connected including rotating direction base (201) on supporting base (101) are connected with rotating direction and are connected last seat (203) of direction on support column (105), direction base (201) with connect, two through two guide bars (202) between last seat (203) of direction sliding connection has sliding platform (204) on guide bar (202), sliding platform (204) with be provided with second telescopic link (205) between direction base (201).

4. A wireless signal propagation device according to claim 3, wherein: the guide base (201) is provided with a second flow guide hole (206) and is communicated with the bottom of the second telescopic rod (205), the support base (101) is provided with a first flow guide hole (108) corresponding to the first telescopic rod (104), and the first flow guide hole (108) is communicated with the first telescopic rod (104).

5. A wireless signal propagation device according to claim 3, wherein: slewing mechanism (3) include sliding connection be in rotation base (301) in guide way (106), fixedly connected with ring gear (302) on rotation base (301), it is connected with rotation support (303) to rotate on rotation base (301), rotate support (303) one side fixedly connected with second balancing weight (307) and first motor (308), first gear (309) of fixedly connected with on the output shaft of first motor (308), first gear (309) with the transmission is connected between ring gear (302).

6. A wireless signal propagation device according to claim 5, wherein: the rotating support (303) is provided with a sucker (305) and a moving chute (304), and the sucker (305) and the moving chute (304) are both located on one side far away from the second balancing weight (307).

7. A wireless signal propagation device according to claim 6, wherein: elevating system (4) include sliding connection and are in remove lift base (401) in spout (304), lift base (401) with be provided with cylinder (402) between rotation support (303), it is connected with worm (404) to rotate on lift base (401), the first friction pulley (405) of one end fixedly connected with of worm (404), one side of lift base (401) is rotated and is connected with second gear (403), second gear (403) with the transmission is connected between worm (404).

8. A wireless signal propagation device according to claim 7, wherein: lifting carriage (406) is connected to the lifting base (401) in a sliding mode, a spring is arranged between the lifting carriage (406) and the lifting base (401), a second motor (407) is fixedly connected to the bottom of the lifting carriage (406), an output shaft of the second motor (407) extends to the upper side of the lifting carriage (406) and a second friction wheel (408) is fixedly connected to the tail end of the output shaft of the second motor, and the second friction wheel (408) is connected with the first friction wheel (405) in a transmission mode.

9. A wireless signal propagation device according to claim 3, wherein: fixed establishment (5) are including fixed connection fixed bolster (501) on support column (105), be provided with on fixed bolster (501) with corresponding spacing support (502) of moving mechanism (6), rotate on fixed bolster (501) be connected with corresponding lead screw (503) of moving mechanism (6), the one end of lead screw (503) with be provided with torsion spring (505) between fixed bolster (501), the other end of lead screw (503) with be provided with first electromagnetic lock (506) between fixed, fixedly connected with third friction pulley (504) on lead screw (503).

10. A wireless signal propagation device according to claim 9, wherein: the moving mechanism (6) comprises a moving support (601) which is connected onto the fixed support (501) in a sliding mode, the lead screw (503) is in threaded connection with the lead screw (503), moving sliding frames (602) are arranged on two sides of the moving support (601), a spring is arranged between each moving sliding frame (602) and the moving support (601), each moving sliding frame (602) is connected with two fixed rollers (603) in a rotating mode, one end of each fixed roller (603) is fixedly connected with a second electromagnetic lock (605), the two fixed rollers (603) are connected through fixed friction belts (604) in a transmission mode, a fixed plate (606) is clamped between the fixed friction belts (604), and a signal transmitting device (607) is fixedly connected onto the fixed plate (606).

Images