CN111800151B

CN111800151B - 5G signal receiving device

Info

Publication number: CN111800151B
Application number: CN202010637554.8A
Authority: CN
Inventors: 黄春
Original assignee: Beijing Wanxiang Xinyuan Digital Technology Research Institute Co ltd
Current assignee: Xinyuan Xingyu Digital Communication Technology Co.,Ltd.
Priority date: 2020-07-05
Filing date: 2020-07-05
Publication date: 2022-01-14
Anticipated expiration: 2040-07-05
Also published as: CN111800151A

Abstract

The invention relates to the field of communication devices, in particular to a 5G signal receiving device, which comprises a main supporting rod, a fixing mechanism, a signal receiving mechanism, an adjusting mechanism, a shielding mechanism and a waterproof mechanism, wherein the main supporting rod is fixedly connected with the main supporting rod; when the device is used, the signal receiving mechanism is arranged at the top of the fixing mechanism, and a series of movable connection modes are adopted, so that the signal receiving component is conveniently adjusted, and the signal receiving of the device is ensured; the adjusting mechanism is arranged in the fixing mechanism, and a user can manually rotate the adjusting mechanism, so that the signal receiving part is further conveniently adjusted; the shielding mechanism is arranged at the top of the fixing mechanism, and the whole device is conveniently protected in the rainy weather through a rotary connecting mode and a funnel type structural design; locate one side of main stay bar with waterproof mechanism, carry out the part through carrying out the rainwater at rainwater weather and collect the further protection that produces buoyancy help to the device to play better guard action to the device.

Description

5G signal receiving device

Technical Field

The invention relates to the field of communication devices, in particular to a 5G signal receiving device.

Background

With the development of the mobile internet, more and more devices are connected to the mobile network, new services and applications are in the endlessly, and thus the development of the 5G technology is very slow, wherein a receiving device for 5G signals is an important research direction. The signal receiving antenna is a metal paraboloid and is responsible for reflecting the satellite signals to the feed source and the high-frequency head which are positioned at the focus. Most signal receiving antennas are generally parabolic, and some multi-focus signal receiving antennas are formed by combining a spherical surface and a paraboloid, and the signal is concentrated to the focus of the signal receiving antenna after being reflected by the paraboloid. In recent years, with the development of network mobile communication, a device capable of receiving 5G signals is required, and the stability of received signals is further improved.

However, because the signal receiving antenna is placed outdoors for a long time, most of the existing 5G signal receiving devices are fixedly installed at a certain position in the actual use process, and are inconvenient to move and adjust, which causes the influence on the stability and receiving efficiency of the device under the action of strong wind weather or external force; meanwhile, although nowadays these signalling devices have long been designed with reinforced housings, the degree of protection of the device is still lacking in long-term outdoor environments, particularly in rainy weather, affecting the service life of the device.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a 5G signal receiving device.

The technical scheme adopted by the invention for solving the technical problems is as follows: A5G signal receiving device comprises a main supporting rod, a fixing mechanism, a signal receiving mechanism, an adjusting mechanism, a shielding mechanism and a waterproof mechanism, wherein the fixing mechanism for fixing other mechanisms is arranged at the top of the main supporting rod for supporting the whole device, the signal receiving mechanism for receiving signals is arranged at the top of one side of the fixing mechanism, the adjusting mechanism for conveniently adjusting the signal receiving mechanism is arranged in the fixing mechanism, the shielding mechanism for protecting the signal receiving mechanism is fixed at the top of the fixing mechanism, and the waterproof mechanism for preventing the signal receiving mechanism from being waterproofed is arranged at one side of the main supporting rod.

Specifically, the fixing mechanism comprises a loop bar, a supporting block, a fixing block and a receiving device main body, the whole long rod-shaped main supporting rod is sleeved at the top of the loop bar, the rectangular plate-shaped supporting block is fixed at the top of the loop bar, the rectangular block-shaped fixing block is fixed on one side of the supporting block, and the fixing block deviates from one side of the supporting block and is connected with the receiving device main body in a rectangular box shape.

It is specific, signal receiving mechanism includes sleeve, screw rod, even a section of thick bamboo, receiving antenna, turns to ball, connecting block, bolt and nut, the top middle part of receiving arrangement main part is equipped with and is cylindricly the sleeve, telescopic inside threaded connection has the screw rod, the top of screw rod is fixed with and is cylindricly even a section of thick bamboo, even the inside block of a section of thick bamboo has and is globular turn to the ball, the top that turns to the ball is fixed with the connecting block, the connecting block deviates from the one end that turns to the ball is fixed with and is cambered surface bowl form receiving antenna, be close to on the sleeve with the position that the screw rod meets is equipped with the bolt, threaded connection has on the bolt the nut.

It is specific, adjustment mechanism includes grab handle, bull stick, rack, gear, connecting rod and slider, one side that the receiving arrangement main part is close to the top is equipped with and is just six terrace with edge forms the grab handle, one side of grab handle is connected with and is shaft-like the bull stick, the bull stick deviates from the one end of grab handle extends to the inside and the threaded connection of receiving arrangement main part in the inside of rack, the rack block in the inside of receiving arrangement main part, just one side meshing of rack has the gear, the middle part of gear is fixed with and is shaft-like the connecting rod, the connecting rod deviates from the one end of gear connect in telescopic bottom, one side of bull stick is fixed with and is rectangular block-like the slider, the slider block in the inside of rack.

Specifically, shield the mechanism and include first dead lever, arrangement piece, second dead lever, cover and guide slot, one side at bracer top is fixed with and is shaft-like first dead lever, the position that first dead lever is close to the top rotates and is connected with one end and is the arcuation settle the piece, the top of settling the piece is fixed with and is shaft-like the second dead lever, the top of second dead lever is fixed with and is hourglass hopper-shaped cover, the top that covers is circumference array and distributes and have the multichannel the guide slot.

Specifically, the waterproof mechanism comprises a supporting rod, a water storage tank, a protective cover and a floating block, wherein one side of the main supporting rod is connected with the supporting rod, one end of the supporting rod, which is deviated from the main supporting rod, is connected to the bottom of the water storage tank, the bottom of the receiving device main body is fixed to the inner bottom surface of the water storage tank, the bottom of the side wall of the receiving device main body is provided with the protective cover in a folded shape, and the floating block in an arc-plate shape is fixed to three sides of the protective cover.

The invention has the beneficial effects that:

(1) when the 5G signal receiving device is used, the signal receiving mechanism is arranged at the top of the fixing mechanism, and a series of movable connection modes are adopted, so that the signal receiving component is conveniently adjusted, and the signal receiving of the device is ensured; namely: in the in-service use process, when strong wind weather appears or receives external force influence and need adjust receiving antenna, the user can manually unscrew the nut, then manually hold a connecting cylinder and rotate, make the screw rod carry out the spiral rotation in the sleeve, thereby both can make receiving antenna rotate, can adjust receiving antenna's height again, make the convenience adjust receiving antenna, furthermore, the user still can manually twist receiving antenna, in the effect that turns to the ball, can make receiving antenna can carry out the regulation of arbitrary angle in the certain extent, thereby further convenience adjusts receiving antenna, make the stability that can guarantee the device and the receiving efficiency of signal.

(2) When the 5G signal receiving device is used, the adjusting mechanism is arranged in the fixing mechanism, and a user can manually rotate the adjusting mechanism through a series of transmission mechanisms, so that a signal receiving part is further conveniently adjusted; namely: when adjusting receiving antenna, the user still can manually hold the grab handle and rotate, then the grab handle rotates and drives the drive bull stick and rotate, the bull stick rotates and makes the rack produce pivoted trend, but because the rack is spacing by the slider, then the rack can only carry out the round trip movement in receiving arrangement main part inside, when the rack removes, can drive the gear simultaneously and rotate, gear revolve drives the connecting rod and rotates, the connecting rod rotates and drives the sleeve and rotate, finally drive receiving antenna and rotate, thereby can further convenience adjust receiving antenna, make the stability and the signal reception efficiency that can guarantee the device more.

(3) When the 5G signal receiving device is used, the shielding mechanism is arranged at the top of the fixing mechanism, and the whole device is conveniently protected in the rainy weather through a rotary connection mode and a funnel type structural design; namely: when rainwater weather appears, the user can manually rotate the arrangement block, the arrangement block rotates to drive the second fixed rod to rotate, the second fixed rod rotates to drive to cover and rotate, and finally the cover is rotated to the receiving antenna directly over, so that the receiving antenna and the receiving device main body can be shielded conveniently in rainwater weather, the whole device can be better protected, and the service life of the device is ensured.

(4) When the 5G signal receiving device is used, the waterproof mechanism is arranged on one side of the main supporting rod, part of the fixing mechanism is surrounded, and partial rainwater is collected in rainwater weather to generate buoyancy to help further protect the device, so that the device can be further protected on the basis of the shielding mechanism; namely: when rainwater weather, along with the continuous descending of rainwater, can be amasss a lot of rainwater very fast in the storage water tank, along with the continuous rising of water level in the storage water tank, the kicking block can begin to receive the buoyancy effect of water, and is bigger and bigger as buoyancy, the kicking block will drive the guard shield and continuously rise together to the guard shield can carry out further protection with receiving arrangement main part is whole, makes the security of further having guaranteed the device use, has guaranteed life.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structure diagram of a 5G signal receiving apparatus provided in the present invention;

FIG. 2 is a schematic view of the connection structure of the fixing mechanism and the adjusting mechanism shown in FIG. 1;

FIG. 3 is a schematic view of a connection structure between the fixing mechanism and the signal receiving mechanism shown in FIG. 1;

FIG. 4 is a schematic structural diagram of the signal receiving mechanism shown in FIG. 3;

FIG. 5 is an enlarged view of portion A of FIG. 1;

fig. 6 is an enlarged view of the portion B shown in fig. 2.

In the figure: 1. the main supporting rod, 2, a fixing mechanism, 21, a loop bar, 22, a supporting block, 23, a fixing block, 24, a receiving device body, 3, a signal receiving mechanism, 31, a sleeve, 32, a screw rod, 33, a connecting cylinder, 34, a receiving antenna, 35, a steering ball, 36, a connecting block, 37, a bolt, 38, a nut, 4, an adjusting mechanism, 41, a grab handle, 42, a rotating rod, 43, a rack, 44, a gear, 45, a connecting rod, 46, a sliding block, 5, a shielding mechanism, 51, a first fixing rod, 52, a mounting block, 53, a second fixing rod, 54, a cover, 55, a guide groove, 6, a waterproof mechanism, 61, a supporting rod, 62, a water storage tank, 63, a shield, 64 and a floating block.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-6, the 5G signal receiving device according to the present invention comprises a main supporting rod 1, a fixing mechanism 2, a signal receiving mechanism 3, an adjusting mechanism 4, a shielding mechanism 5 and a waterproof mechanism 6, the top of the main supporting rod 1 for supporting the whole device is provided with the fixing mechanism 2 for fixing other mechanisms, the top of one side of the fixing mechanism 2 is provided with the signal receiving mechanism 3 for receiving signals, the fixing mechanism 2 is internally provided with the adjusting mechanism 4 for conveniently adjusting the signal receiving mechanism 3, the top of the fixing mechanism 2 is fixed with the shielding mechanism 5 for shielding the signal receiving mechanism 3, one side of the main supporting rod 1 is provided with the waterproof mechanism 6 for playing a waterproof role in the signal receiving mechanism 3.

Specifically, the fixing mechanism 2 includes a loop bar 21, a supporting block 22, a fixing block 23 and a receiving device main body 24, the loop bar 21 is sleeved on the top of the main supporting bar 1 which is integrally long-rod-shaped, the supporting block 22 which is rectangular plate-shaped is fixed on the top of the loop bar 21, the fixing block 23 which is rectangular block-shaped is fixed on one side of the supporting block 22, and the receiving device main body 24 which is rectangular box-shaped is connected on one side of the fixing block 23 which is far away from the supporting block 22; when the device is used, the fixing mechanism 2 is fixed at the top of the main supporting rod 1, and the whole device is conveniently and fixedly supported through the connection of the fixing mechanism 2 and other mechanisms; namely: in actual use, the loop bar 21 is fixed on the top of the main supporting rod 1, then the supporting block 22 is connected to the loop bar 21, the fixing block 23 is connected to the supporting block 22, and finally the receiving device main body 24 is connected to the fixing block 23, so that the whole device is conveniently supported and fixed through a series of mutual connection.

Specifically, the signal receiving mechanism 3 includes a sleeve 31, a screw rod 32, a connecting cylinder 33, a receiving antenna 34, a steering ball 35, a connecting block 36, a bolt 37 and a nut 38, the cylindrical sleeve 31 is arranged in the middle of the top end of the receiving device main body 24, the screw rod 32 is connected to the inner thread of the sleeve 31, the cylindrical connecting cylinder 33 is fixed to the top of the screw rod 32, the spherical steering ball 35 is clamped inside the connecting cylinder 33, the connecting block 36 is fixed to the top of the steering ball 35, the receiving antenna 34 in the shape of a cambered-surface bowl is fixed to one end of the connecting block 36 away from the steering ball 35, the bolt 37 is arranged on a portion of the sleeve 31 adjacent to the connecting portion of the screw rod 32, and the nut 38 is connected to the bolt 37 in a threaded manner; when the device is used, the signal receiving mechanism 3 is arranged at the top of the fixing mechanism 2, and a series of movable connection modes are adopted, so that the signal receiving component is conveniently adjusted, and the signal receiving of the device is ensured; namely: in the actual use process, when windy weather occurs or the receiving antenna 34 needs to be adjusted due to the influence of external force, a user can manually loosen the screw cap 38, then manually hold the connecting cylinder 33 to rotate, so that the screw rod 32 is spirally rotated in the sleeve 31, and the receiving antenna 34 can be rotated and the height of the receiving antenna 34 can be adjusted, so that the receiving antenna 34 can be adjusted conveniently, further, the user can manually twist the receiving antenna 34, and under the action of the steering ball 35, the receiving antenna 34 can be adjusted at any angle within a certain range, so that the receiving antenna 34 can be further adjusted conveniently, and the stability of the device and the receiving efficiency of signals can be ensured.

In particular, the adjusting mechanism 4 comprises a handle 41, a rotating rod 42, a rack 43, a gear 44, a connecting rod 45 and a slide block 46, the handle 41 in the shape of a regular hexagonal frustum is arranged on one side of the receiving device body 24 close to the top end, one side of the handle 41 is connected with the rotating rod 42 in a rod shape, one end of the rotating rod 42 departing from the handle 41 extends to the inside of the receiving device main body 24 and is connected to the inside of the rack 43 in a threaded manner, the rack 43 is clamped inside the receiving device main body 24, and one side of the rack 43 is engaged with the gear 44, the middle part of the gear 44 is fixed with the rod-shaped connecting rod 45, one end of the connecting rod 45, which is far away from the gear 44, is connected to the bottom of the sleeve 31, one side of the rotating rod 42 is fixed with the rectangular block-shaped sliding block 46, and the sliding block 46 is clamped inside the rack 43; when in use, the adjusting mechanism 4 is arranged inside the fixing mechanism 2, and a user can manually rotate the adjusting mechanism 4 through a series of transmission mechanisms, so that the signal receiving part can be further conveniently adjusted; namely: when the receiving antenna 34 is adjusted, a user can also manually hold the holding handle 41 and rotate the holding handle 41, the holding handle 41 rotates to drive the rotating rod 42 to rotate, the rotating rod 42 rotates to enable the rack 43 to generate a rotating trend, but because the rack 43 is limited by the sliding block 46, the rack 43 can only move back and forth inside the receiving device main body 24, when the rack 43 moves, the rack 43 simultaneously drives the gear 44 to rotate, the gear 44 rotates to drive the connecting rod 45 to rotate, the connecting rod 45 rotates to drive the sleeve 31 to rotate, and finally the receiving antenna 34 is driven to rotate, so that the receiving antenna 34 can be further conveniently adjusted, and the stability and the signal receiving efficiency of the device can be further ensured.

Specifically, the shielding mechanism 5 includes a first fixing rod 51, a mounting block 52, a second fixing rod 53, a cover 54, and a guide groove 55, the first fixing rod 51 in a rod shape is fixed on one side of the top of the supporting block 22, the mounting block 52 with one end in an arc shape is rotatably connected to a portion of the first fixing rod 51 near the top, the second fixing rod 53 in a rod shape is fixed on the top of the mounting block 52, the cover 54 in a funnel shape is fixed on the top of the second fixing rod 53, and a plurality of guide grooves 55 are circumferentially distributed on the top of the cover 54 in an array manner; when the device is used, the shielding mechanism 5 is arranged at the top of the fixing mechanism 2, and the whole device is conveniently protected in the rainy weather through a rotary connecting mode and a funnel type structural design; namely: when rainwater weather appears, the user can manually right settle block 52 rotates, settle block 52 rotates and drives second dead lever 53 rotates, second dead lever 53 rotates and drives cover 54 rotates, finally makes cover 54 rotate to directly over receiving antenna 34 to it is convenient can be right when rainwater weather receiving antenna 34 with receiving device main part 24 plays the effect of sheltering from, makes that can be better protect whole device, guarantees the life of device.

Specifically, the waterproof mechanism 6 includes a supporting rod 61, a water storage tank 62, a shield 63 and a floating block 64, one side of the main supporting rod 1 is connected with the supporting rod 61, one end of the supporting rod 61, which is away from the main supporting rod 1, is connected to the bottom of the water storage tank 62, the bottom of the receiving device main body 24 is fixed to the inner bottom surface of the water storage tank 62, the bottom of the side wall of the receiving device main body 24 is provided with a layer of the folded shield 63, and the three sides of the shield 63 are fixed with the arc-plate-shaped floating block 64; when the device is used, the waterproof mechanism 6 is arranged on one side of the main supporting rod 1, part of the fixing mechanism 2 is surrounded, and partial rainwater is collected in rainwater weather to generate buoyancy to help further protect the device, so that the device can be further protected on the basis of the shielding mechanism 5; namely: in rainy days, along with the continuous descending of rainwater, a lot of rainwater can be accumulated in the storage water tank 62 very fast, along with the continuous rising of water level in the storage water tank 62, the floating block 64 can begin to receive the buoyancy effect of water, and when the buoyancy is bigger and bigger, the floating block 64 can drive the guard shield 63 to continuously rise together, so that the guard shield 63 can further protect the whole receiving device main body 24, the use safety of the device is further ensured, and the service life is ensured.

When the device is used, firstly, when the receiving antenna 34 needs to be adjusted due to windy weather or external force, a user can manually loosen the screw cap 38, then manually hold the connecting cylinder 33 to rotate, and make the screw rod 32 spirally rotate in the sleeve 31, so that the receiving antenna 34 can be rotated, and the height of the receiving antenna 34 can be adjusted, so that the receiving antenna 34 can be conveniently adjusted, further, the user can manually twist the receiving antenna 34, and under the action of the steering ball 35, the receiving antenna 34 can be adjusted at any angle within a certain range, so that the receiving antenna 34 can be further conveniently adjusted, and the stability of the device and the receiving efficiency of signals can be ensured; when the receiving antenna 34 is adjusted, a user can also manually hold the holding handle 41 and rotate the holding handle, the holding handle 41 rotates to drive the rotating rod 42 to rotate, the rotating rod 42 rotates to enable the rack 43 to generate a rotating trend, but because the rack 43 is limited by the sliding block 46, the rack 43 can only move back and forth in the receiving device main body 24, when the rack 43 moves, the rack 43 simultaneously drives the gear 44 to rotate, the gear 44 rotates to drive the connecting rod 45 to rotate, the connecting rod 45 rotates to drive the sleeve 31 to rotate, and finally the receiving antenna 34 is driven to rotate, so that the receiving antenna 34 can be further conveniently adjusted, and the stability and the signal receiving efficiency of the device can be further ensured; when the weather is rainy, a user can manually rotate the placement block 52, the placement block 52 rotates to drive the second fixing rod 53 to rotate, the second fixing rod 53 rotates to drive the cover 54 to rotate, and finally the cover 54 rotates to be right above the receiving antenna 34, so that the receiving antenna 34 and the receiving device main body 24 can be conveniently shielded in the weather of rain, the whole device can be better protected, and the service life of the device is ensured; in addition, when rainwater weather, along with the continuous descending of rainwater, can be amasss a lot of rainwater very fast in the storage water tank 62, along with the continuous rising of water level in the storage water tank 62, the kicking block 64 can begin to receive the buoyancy effect of water, and when buoyancy is bigger and bigger, the kicking block 64 will drive guard shield 63 and continuously rise together, thereby guard shield 63 can carry out further protection with receiving arrangement main part 24 is whole, make the security of further having guaranteed the device use, and the service life is guaranteed, finally, the whole use of this device is accomplished.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A 5G signal receiving apparatus, characterized in that: comprises a main stay bar (1), a fixing mechanism (2), a signal receiving mechanism (3), an adjusting mechanism (4), a shielding mechanism (5) and a waterproof mechanism (6), the top of the main supporting rod (1) for supporting the whole device is provided with the fixing mechanism (2) for fixing other mechanisms, the top of one side of the fixing mechanism (2) is provided with a signal receiving mechanism (3) for receiving signals, the fixing mechanism (2) is internally provided with the adjusting mechanism (4) which is used for conveniently adjusting the signal receiving mechanism (3), the top of the fixing mechanism (2) is fixed with the shielding mechanism (5) for protecting the signal receiving mechanism (3), one side of the main support rod (1) is provided with the waterproof mechanism (6) which is used for playing a waterproof role on the signal receiving mechanism (3);

the fixing mechanism (2) comprises a loop bar (21), a supporting block (22), a fixing block (23) and a receiving device main body (24), the loop bar (21) is sleeved at the top of the main supporting bar (1) which is integrally long-bar-shaped, the supporting block (22) which is rectangular plate-shaped is fixed at the top of the loop bar (21), the fixing block (23) which is rectangular block-shaped is fixed at one side of the supporting block (22), and the receiving device main body (24) which is rectangular box-shaped is connected at one side of the fixing block (23) which deviates from the supporting block (22);

the signal receiving mechanism (3) comprises a sleeve (31), a screw rod (32), a connecting cylinder (33), a receiving antenna (34), a steering ball (35), a connecting block (36), a bolt (37) and a nut (38), wherein the top middle part of the receiving device main body (24) is provided with the cylindrical sleeve (31), the internal thread of the sleeve (31) is connected with the screw rod (32), the top of the screw rod (32) is fixed with the cylindrical connecting cylinder (33), the internal clamping of the connecting cylinder (33) is provided with the spherical steering ball (35), the top of the steering ball (35) is fixed with the connecting block (36), one end of the connecting block (36) deviating from the steering ball (35) is fixed with the receiving antenna (34) in the shape of a cambered bowl, and the bolt (37) is arranged on the sleeve (31) close to the part connected with the screw rod (32), the screw cap (38) is connected to the bolt (37) in a threaded manner;

adjustment mechanism (4) includes grab handle (41), bull stick (42), rack (43), gear (44), connecting rod (45) and slider (46), one side that receiving arrangement main part (24) is close to the top is equipped with and is the regular hexagonal terrace form grab handle (41), one side of grab handle (41) is connected with and is rod-like bull stick (42), bull stick (42) deviates from the one end of grab handle (41) extends to the inside and the threaded connection of receiving arrangement main part (24) in the inside of rack (43), rack (43) block in the inside of receiving arrangement main part (24), just one side meshing of rack (43) has gear (44), the middle part of gear (44) is fixed with and is rod-like connecting rod (45), connecting rod (45) deviate from the one end of gear (44) connect in the bottom of sleeve (31), one side of the rotating rod (42) is fixedly provided with the rectangular block-shaped sliding block (46), and the sliding block (46) is clamped inside the rack (43);

the shielding mechanism (5) comprises a first fixing rod (51), a mounting block (52), a second fixing rod (53), a cover (54) and a guide groove (55), wherein the first fixing rod (51) in a rod shape is fixed on one side of the top of the supporting block (22), the mounting block (52) with one arc-shaped end is rotatably connected to the part, close to the top, of the first fixing rod (51), the second fixing rod (53) in a rod shape is fixed on the top of the mounting block (52), the cover (54) in a funnel shape is fixed on the top of the second fixing rod (53), and a plurality of guide grooves (55) are distributed on the top of the cover (54) in a circumferential array manner;

the waterproof mechanism (6) comprises a supporting rod (61), a water storage tank (62), a protective cover (63) and a floating block (64), wherein the supporting rod (61) is connected to one side of the main supporting rod (1), one end, deviating from the main supporting rod (1), of the supporting rod (61) is connected to the bottom of the water storage tank (62), the bottom of the receiving device main body (24) is fixed to the inner bottom surface of the water storage tank (62), the protective cover (63) which is folded is arranged at the bottom of the side wall of the receiving device main body (24), and the floating block (64) which is arc-plate-shaped is fixed to three sides of the protective cover (63).