CN117154399A - Heat dissipation type antenna protection cover for data transmission - Google Patents

Abstract

The invention discloses a heat-dissipation type antenna protection cover for data transmission, and relates to the technical field of antenna protection covers. The antenna protection cover is used for covering heat energy generated when the antenna works, so that the temperature of the antenna is continuously increased, and the technical problem of signal transmission distortion is solved. The utility model provides a but data transmission is with heat dissipation formula antenna protection cover, including first installation shell, the downside rigid coupling of first installation shell has second installation shell and the third installation shell that is the opposite direction and distributes, the second installation shell with the rigid coupling has the fourth installation shell between the third installation shell, the downside rigid coupling of first installation shell has the fixed column of symmetric distribution, the fixed column rotates and is connected with annular shell, the rigid coupling has evenly distributed's fender water column in the fixed column. According to the invention, the protective cover is ventilated through the water blocking column and the annular shell, and heat generated during the working of the antenna is taken away, so that the antenna is cooled, and the performance of the antenna is prevented from being influenced by high temperature.

Description

Heat dissipation type antenna protection cover for data transmission

Technical Field

The invention relates to the technical field of antenna protection covers, in particular to a heat-dissipation type antenna protection cover for data transmission.

Background

In the process of informatization development, an antenna plays an important role in a communication system and plays a role in transmitting and receiving signals, however, in the process of using the antenna, in order to ensure the stability and service life of the antenna, a layer of antenna protection cover is generally covered outside the antenna, so that the antenna is protected from adverse external environments such as rainwater, snow and dust, the stability and service life of the antenna are improved, but the antenna can generate a large amount of heat energy during operation, the existing antenna protection cover is a complete shell and is not provided with a vent, so that the antenna protection cover can cover the heat energy generated during operation of the antenna, the heat energy generated during operation of the antenna can not be discharged in time, the temperature of the antenna is continuously increased, signal transmission is distorted, and even electronic elements inside the antenna can be overheated and damaged during severe conditions.

Disclosure of Invention

In order to overcome the defect that the antenna temperature is continuously increased and signal transmission is distorted due to the fact that heat energy generated by the antenna during operation is covered by the antenna protection cover, so that heat generated by the antenna during operation cannot be timely discharged.

The utility model provides a but data transmission is with heat dissipation type antenna protection cover, including first installation shell, the downside rigid coupling of first installation shell has second installation shell and the third installation shell that is opposite direction distribution, the second installation shell with the rigid coupling has the fourth installation shell between the third installation shell, the downside rigid coupling of first installation shell has the fixed column of symmetric distribution, the fixed column rotates and is connected with the annular shell, the downside rigid coupling of fourth installation shell has the first baffle of symmetric distribution, first baffle with adjacent annular shell sliding connection, the rigid coupling has evenly distributed's water retaining column in the fixed column, evenly distributed the lower extreme common rigid coupling of water retaining column has the fixed disk, the fixed disk seted up with correspond annular shell sliding connection's ring channel, the wash port has been seted up to the fixed disk, the second installation shell with can dismantle between the lower extreme of third installation shell and be connected with the mount pad, the middle part of the opposite side of annular shell all is provided with the filtration pore, the downside of first installation shell is provided with the filtration pore for wasing the subassembly.

Furthermore, a water diversion groove is formed in the water blocking column, the water diversion groove faces to the middle of the mounting seat, and the water blocking column is made of water absorbing materials.

Further, the backwash assembly is including the solid fixed ring of symmetric distribution, the solid fixed ring of symmetric distribution all rigid coupling in the downside of first installation shell, gu fixed ring rotates and is connected with the swivel, gu fixed ring with be provided with the torsional spring between the swivel, the swivel with adjacent the annular shell rigid coupling, gu fixed ring rigid coupling has first stopper, the swivel rigid coupling has the second stopper, the second stopper with adjacent first stopper spacing fit, the swivel is around being equipped with first stay cord, the third installation shell rigid coupling has the first pivot of symmetric distribution, the fourth installation shell rigid coupling has the second pivot of symmetric distribution, first stay cord runs through the third installation shell to bypass adjacent first pivot and adjacent second pivot, the symmetric distribution the lower extreme of first stay cord is provided with jointly and is used for pulling the drive mechanism of first stay cord.

Further, the transmission mechanism comprises a first fixing shell fixedly connected to one side, away from the second mounting shell, of the third mounting shell, a straight groove is formed in the first fixing shell, a water storage shell is slidably connected to the first fixing shell through the straight groove, the first pull ropes are symmetrically distributed and fixedly connected to the water storage shell, a limiting column is fixedly connected to the straight groove of the first fixing shell and is slidably connected with the water storage shell, and a first elastic piece is arranged around the limiting column and fixedly connected between the first fixing shell and the water storage shell.

Further, the water storage shell lower part is provided with the cooling subassembly, the cooling subassembly is used for right first fixed shell cools down, the cooling subassembly is including the shower nozzle of symmetric distribution, the symmetric distribution the shower nozzle all rigid coupling in the downside of water storage shell, the water inlet of shower nozzle is located the inside of water storage shell, the inside rigid coupling of water storage shell has the hydraulic shell of symmetric distribution, hydraulic shell sliding connection has the piston, one side rigid coupling of piston has the U-shaped pole, the opposite side of piston with adjacent store liquid between the hydraulic shell, U-shaped pole one end rigid coupling has the closing plate, the closing plate with adjacent the shower nozzle cooperation.

Further, the outside of first fixed shell is provided with induced air mechanism, induced air mechanism is used for guiding the wind direction, induced air mechanism is including the guide board of symmetric distribution, the symmetric distribution the guide board all the rigid coupling in the outside of first fixed shell, the symmetric distribution the guide board is close to respectively adjacent manger plate post, first fixed shell rotates and is connected with the first limiting plate of symmetric distribution, first limiting plate rigid coupling has the spacer pin, the guide board with adjacent spacer pin sliding fit, the spacer pin rigid coupling has the second stay cord, the second stay cord keep away from adjacent the one end of spacer pin is provided with the protective component who is used for protecting the antenna, first fixed shell is provided with the spacing subassembly of symmetric distribution, spacing subassembly is used for being adjacent the guide board is spacing, leave the clearance between first fixed shell with the third installation shell.

Further, the protection component further comprises second fixing shells which are symmetrically distributed, the second fixing shells which are symmetrically distributed are fixedly connected to the lower sides of the adjacent fixing rings respectively, third fixing shells are fixedly connected to the second fixing shells, first fixing blocks which are symmetrically distributed are fixedly connected to the third fixing shells, first limiting rings are fixedly connected to the first fixing blocks, second fixing blocks and third fixing blocks are slidably connected to the first limiting rings, first wind shields are fixedly connected to the second fixing blocks and the adjacent third fixing blocks together, second elastic pieces are fixedly connected between the second fixing blocks and the adjacent first fixing blocks, and the second elastic pieces are wound on the adjacent first limiting rings, the second pull ropes are fixedly connected to the adjacent third fixing blocks and penetrate through the first fixing blocks corresponding to the adjacent third fixing blocks.

Further, the spacing subassembly is including the arc shell, the arc shell rigid coupling in the third installation shell is close to adjacent one side of first limiting plate, first fixed shell is close to adjacent one side of first limiting plate rotates and is connected with the second deep bead, the second deep bead with adjacent through gear train transmission between the first limiting plate, arc shell sliding connection has the third baffle, the third baffle with adjacent rigid coupling has the fifth elastic component between the arc shell, the second deep bead rigid coupling has the third spacing ring, the third spacing ring with adjacent the spacing cooperation of third baffle, one side rotation that the first fixed shell kept away from the third installation shell is connected with mirror image and evenly distributed's second baffle, one side that the first fixed shell kept away from the third installation shell is provided with mirror image and evenly distributed's locking mechanical system, locking mechanical system is used for fixed adjacent the first limiting plate.

Further, the locking mechanism comprises a second limiting plate, the second limiting plate is slidably connected to the inside of the first fixing shell, a sliding rod is fixedly connected to the second limiting plate, a hook is slidably connected to the sliding rod, the first limiting plate is provided with a groove matched with the hook and adjacent to the sliding rod, a supporting rod is slidably connected to the sliding rod, the supporting rod is fixedly connected to the first fixing shell, a fourth elastic piece is fixedly connected between the sliding rod and the first fixing shell, a third pull rope is fixedly connected between the second baffle and the adjacent second limiting plate, and a damping rod is fixedly connected between the second limiting plate and the first fixing shell.

Further, the sliding rod is fixedly connected with a second limiting ring, a third elastic piece is fixedly connected between the second limiting ring and the adjacent hook, and the first fixing shell is provided with a vent hole.

The beneficial effects of the invention are as follows:

1. according to the invention, the protective cover is ventilated through the water blocking columns and the annular shell, so that dust is prevented from entering the cavity provided with the antenna, signal transmission of the antenna is blocked, heat generated during operation of the antenna is taken away, the antenna is cooled, high temperature is prevented from influencing the performance of the antenna, and during raining, rainwater is prevented from entering the cavity provided with the antenna through the water blocking columns and the annular shell by two rows of staggered water blocking columns, so that the antenna is damaged, and rainwater is prevented from being gathered into the cavity provided with the antenna through the water diversion grooves on the water blocking columns.

2. When raining, through the filtration pore on the annular shell rotate the outside of second installation shell and third installation shell, through the filtration pore on the rainwater back flush annular shell, prevent the filtration pore jam on the annular shell.

3. The first limiting plate is utilized to guide wind in the case of small wind, ventilation is accelerated, and the first limiting plate is recovered when the wind is large, so that the antenna is prevented from shaking.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a perspective structural sectional view of a second mounting case and a third mounting case of the present invention;

FIG. 3 is a schematic perspective view of the second mounting shell, the third mounting shell, the annular shell and other parts of the present invention;

FIG. 4 is a schematic perspective view of the annular shell, first baffle, annular groove, and other parts of the present invention;

FIG. 5 is a schematic perspective view of a backwash assembly of the present invention;

FIG. 6 is a schematic perspective view of a fixed ring, a first limiting block and a swivel according to the present invention;

FIG. 7 is a schematic perspective view of a transmission mechanism of the present invention;

FIG. 8 is a schematic perspective view of a cooling module according to the present invention;

FIG. 9 is a schematic perspective view of the first limiting plate, the guide plate, the arc-shaped shell and other parts of the invention;

FIG. 10 is a schematic perspective view of a protective assembly according to the present invention;

FIG. 11 is a schematic perspective view of the locking mechanism and the first stationary housing of the present invention;

FIG. 12 is a schematic perspective view of a locking mechanism of the present invention;

fig. 13 is a schematic perspective view of a limiting assembly according to the present invention.

In the above figures: 1-mount, 10-backwash assembly 101-first mount, 102-second mount, 103-third mount, 104-fourth mount, 105-fixed column, 106-water stop column, 107-fixed disk, 2-annular housing, 20-drive mechanism, 201-first baffle, 202-annular groove, 203-first pull rope, 204-first shaft, 205-second shaft, 206-fixed ring, 2061-first stopper, 207-swivel, 2071-second stopper, 30-cooling assembly, 3-first fixed housing, 301-water storage housing, 302-limit column, 303-first elastic member, 4-shower head, 40-induced draft mechanism, 401-hydraulic housing, 402-piston, 403-U-shaped rod, 404-seal plate, 5-first limit plate, 50-guard assembly, 501-guide plate, 502-limit pin, 503-second pull rope, 504-second fixed housing, 505-third fixed housing, 5051-first fixed block, 506-second fixed block, 50507-third fixed block, 508-first limit plate, 508-second elastic member, 60-second limit plate, 60-second limit rod, 60-6-elastic member, 60-third limit plate, 60-limit rod, 60-6-fourth limit rod, 60-6-elastic member, 60-third limit rod, 60-6-third limit rod, 60-6-seal, 60-third limit rod, 60-seal, 802-a fifth elastic piece, 803-a third baffle plate and 804-a third limiting ring.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which currently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Example 1: the heat dissipation type antenna protection cover for data transmission comprises a first installation shell 101, a second installation shell 102 and a third installation shell 103 which are oppositely distributed are fixedly connected at the lower side of the first installation shell 101, a fourth installation shell 104 is fixedly connected between the second installation shell 102 and the third installation shell 103, the fourth installation shell 104 is positioned at the upper parts of the second installation shell 102 and the third installation shell 103, fixing columns 105 which are symmetrically distributed from left to right are fixedly connected at the lower side of the first installation shell 101, a ring-shaped shell 2 is rotationally connected at the lower part of the fixing columns 105, a first baffle 201 which is symmetrically distributed from left to right is fixedly connected at the lower side of the fourth installation shell 104, the first baffle 201 is in sliding connection with the adjacent ring-shaped shell 2, two rows of water blocking columns 106 which are uniformly distributed are fixedly connected in the fixing columns 105, and the two rows of water blocking columns 106 are mutually staggered, the lower ends of the evenly distributed water blocking columns 106 are fixedly connected with a fixed disk 107 together, the fixed disk 107 is provided with an annular groove 202 which is in sliding connection with the corresponding annular shell 2, the annular groove 202 on the fixed disk 107 is internally provided with a drain hole, the fixed disk 107 is provided with a drain hole corresponding to the water blocking column 106, an installation seat 1 is detachably connected between the lower ends of the second installation shell 102 and the third installation shell 103, the water blocking columns 106 are provided with water diversion grooves, the water diversion grooves face the middle part of the installation seat 1, the water blocking columns 106 are made of water absorbing materials, raindrops fall along the water blocking columns 106 during raining, the raindrops flow downwards through the water diversion grooves during raindrop gathering, the raindrops are prevented from entering a cavity provided with an antenna, damage is caused to the antenna, the middle parts of opposite sides of the symmetrically distributed annular shells 2 are provided with filter holes for filtering air entering between the second installation shell 102 and the third installation shell 103, the lower side of the first installation housing 101 is provided with a backwash assembly 10 for cleaning filter holes.

As shown in fig. 5 and 6, the backwash assembly 10 includes a fixing ring 206 with bilateral symmetry distribution, the fixing ring 206 with bilateral symmetry distribution is fixedly connected to the lower side of the first installation shell 101, the fixing ring 206 is rotationally connected with a rotating ring 207, a torsion spring is disposed between the fixing ring 206 and the rotating ring 207, the lower side of the rotating ring 207 is fixedly connected with the adjacent annular shell 2, the fixing ring 206 is fixedly connected with a first limiting block 2061, the rotating ring 207 is fixedly connected with a second limiting block 2071, the second limiting block 2071 is in limit fit with the adjacent first limiting block 2061, when the rotating ring 207 rotates, the rotating ring 207 drives the annular shell 2 to rotate, when the annular shell 2 rotates 180 degrees, a filtering hole on the annular shell 2 is located on the outer sides of the second installation shell 102 and the third installation shell 103, and is used for flushing the filtering hole on the annular shell 2 during raining, the annular shell 2 is prevented from being blocked, the rotating ring 207 is fixedly connected with a first rotating shaft 204 with the adjacent annular shell 103, the fourth installation shell 104 is fixedly connected with a second rotating shaft 205 with bilateral symmetry distribution, the first rotating shaft 103 is fixedly connected with the second rotating shaft 205, the first rotating shaft 203 passes through the adjacent rotating shaft 203 and passes through the adjacent rotating shaft 204, and the second rotating shaft 203 is arranged in the same direction as the adjacent rotating shaft 204, and the adjacent rotating shaft 203 is used for driving the adjacent rotating shaft 204.

As shown in fig. 7, the transmission mechanism 20 includes a first fixing shell 3, the first fixing shell 3 is fixedly connected to the front side of the third mounting shell 103, straight grooves with symmetrical distribution are formed in the middle of the first fixing shell 3, the first fixing shell 3 is slidably connected with a water storage shell 301 through the straight grooves with symmetrical distribution, when raining, rainwater slides into the water storage shell 301 through the first fixing shell 3, the rainwater is collected, first pull ropes 203 with symmetrical distribution are fixedly connected with the water storage shell 301, the first pull ropes 203 are used for pulling the first pull ropes 203 downwards through the water storage shell 301 to rotate the annular shell 2 when raining, limiting columns 302 are fixedly connected with the water storage shell 301 in a sliding manner, the limiting columns 302 are fixedly connected with the water storage shell 301 in a winding manner, the upper ends of the first elastic pieces 303 are fixedly connected with the water storage shell 301, and the lower ends of the first elastic pieces 303 are fixedly connected with the first fixing shell 3.

Before the device is used, a worker firstly installs the device on an antenna, opens the mounting seat 1, sleeves the antenna into a cavity between the second mounting shell 102 and the third mounting shell 103, then fixes the antenna through the mounting seat 1, and then fixes the device on an electric wire tower.

In the use, the inside temperature of antenna probably makes the protective housing rise owing to the high frequency use, when having the wind of fore-and-aft direction to blow this moment, wind enters into annular shell 2 through the clearance between the water retaining column 106, when wind passes through water retaining column 106, because water retaining column 106 is cylindrical, wind can encircle through 106, prevent that wind from weakening, then wind enters into in the annular shell 2 the wind enters into the cavity between second installation shell 102 and the third installation shell 103 through the filtration pore on it, and discharge through the annular shell 2 of opposite side, take away the heat that the antenna during operation simultaneously, cool down the antenna, prevent that the antenna temperature is too high from influencing antenna performance, in this process, dust in the filtration air is crossed through the filtration pore on the annular shell 2, prevent that the dust from entering into the cavity of installing the antenna, hinder the signal transmission of antenna.

In raining, take the annular shell 2 of front end as the example, the rainwater that falls adsorbs the rainwater after contacting with water retaining column 106, and block the rainwater through two rows of crisscross water retaining columns 106 that distribute, prevent that the rainwater from entering into the cavity that installs the antenna through water retaining column 106 and annular shell 2, cause the antenna impaired, when the wind passes through, because wind rotates around the cylinder when passing through the cylinder, wind can blow the rainwater on water retaining column 106 surface, make the rainwater rotate around water retaining column 106 under the blowing of wind, and gather in the pivoted in-process, when the raindrop of gathering rotates the water diversion inslot on water retaining column 106, the raindrop leaves the route that the wind flows on water retaining column 106, at this moment the raindrop is not influenced by wind-force under the blocking of water retaining column 106, simultaneously follow the water diversion groove on water retaining column 106 under the effect of gravity and slide down, when the raindrop drops falls on the fixed disk 107, discharge through the hole on the fixed disk 107, prevent that the raindrop gathers and enter into the cavity that installs the antenna.

In the process of raining, rainwater can slide down along the surface of the first fixing case 3 and enter the water storage case 301, and in the process of collecting rainwater in the water storage case 301, the water storage case 301 slowly moves down under the action of gravity, and the water storage case 301 slides on the limiting post 302 and compresses the first elastic member 303.

In the process that the water storage shell 301 slides downwards, the water storage shell 301 pulls the first pull ropes 203 at the front end and the rear end, taking the first pull ropes 203 at the front end as an example, the first pull ropes 203 rotate on the first rotating shaft 204 and the second rotating shaft 205 and pull the rotating ring 207 to rotate anticlockwise, the torsion spring on the rotating ring 207 stores force, meanwhile, the first limiting block 2061 and the second limiting block 2071 are separated, the rotating ring 207 rotates to drive the annular shell 2 to rotate anticlockwise until the first elastic piece 303 is compressed to a limit state, at this time, even if rainwater in the water storage shell 301 continues to increase, the water storage shell 301 does not fall any more, at this time, the rotating ring 207 just rotates 180 degrees, at the same time, the annular shell 2 is driven to rotate 180 degrees, at this time, the filter holes on the annular shell 2 are located on the outer sides of the second installation shell 102 and the third installation shell 103, after the annular shell 2 rotates, the filter holes on the annular shell 2 are reversely washed by rainwater, and the filter holes on the annular shell 2 are prevented from being blocked.

When rain stops, the water level of the rainwater in the water storage shell 301 slowly drops through volatilization, in the process of dropping the water level of the rainwater in the water storage shell 301, the water storage shell 301 rises under the combined action of the first elastic piece 303 and the first pull rope 203, meanwhile, the rotating ring 207 winds the first pull rope 203 under the action of the torsion spring, taking the front end first pull rope 203 as an example, in the process of volatilizing the water in the water storage shell 301, the rotating ring 207 drives the second limiting block 2071 to rotate clockwise, meanwhile, the rotating ring 207 drives the annular shell 2 to rotate, and when the water in the water storage shell 301 is completely volatilized, the second limiting block 2071 rotates to be in limiting fit with the adjacent first limiting block 2061 and enables the annular shell 2 to reset.

Based on embodiment 1, as shown in fig. 7 and 8, a cooling component 30 is disposed at the lower part of a water storage shell 301, the cooling component 30 is used for cooling a first fixed shell 3, the cooling component 30 includes two symmetrically distributed spray heads 4, the two symmetrically distributed spray heads 4 are fixedly connected to the lower side of the water storage shell 301, a water inlet of each spray head 4 is located in the water storage shell 301, a water outlet of each spray head 4 is located outside the water storage shell 301 and is in contact with the first fixed shell 3, a symmetrically distributed hydraulic shell 401 is fixedly connected in the water storage shell 301, a piston 402 is slidably connected in the hydraulic shell 401, a U-shaped rod 403 is fixedly connected to one side of the piston 402, heated and expanded liquid is stored between the other side of the piston 402 and an adjacent hydraulic shell 401, a sealing plate 404 is fixedly connected to one end of the U-shaped rod 403, the sealing plate 404 is matched with the adjacent spray heads 4, when the temperature rises, the sealing plate 404 is driven by the piston 402 to move, and the sealing between the sealing plate 404 and the spray heads 4 is released, so that water in the water storage shell 301 flows onto the first fixed shell 3, and the first fixed shell 3 is cooled.

When water is stored in the water storage shell 301, if the external temperature is increased (in the initial state, the sealing plate 404 is in sealing fit with the adjacent spray head 4), the liquid in the hydraulic shell 401 is heated and expands, and the piston 402 is extruded, so that the piston 402 slides in the hydraulic shell 401, the sealing plate 404 is driven to slide through the U-shaped rod 403 while the piston 402 slides, so that the sealing plate 404 is gradually far away from the corresponding spray head 4, the sealing plate 404 is gradually in sealing fit with the adjacent spray head 4, after the sealing plate 4 is in sealing fit with the adjacent sealing plate 404, the water in the water storage shell 301 sprays the water onto the first fixed shell 3 through the spray head 4, and the antenna is positioned on the right side of the third mounting shell 103, so that the first fixed shell 3 is positioned on the left side of the third mounting shell 103, the water on the first fixed shell 3 does not influence the antenna, the temperature of the first fixed shell 3 is reduced, and meanwhile, the falling speed of the water level in the water storage shell 301 is accelerated, and the water storage shell 301 can be quickly reset after stopping.

Based on embodiment 2, as shown in fig. 9 and 10, the outside of the first fixed shell 3 is provided with an induced air mechanism 40, the induced air mechanism 40 is used for guiding the wind direction, the induced air mechanism 40 comprises two symmetrically distributed guide plates 501, the two symmetrically distributed guide plates 501 are fixedly connected to the outside of the first fixed shell 3, the two symmetrically distributed guide plates 501 are respectively close to adjacent water blocking columns 106, the first fixed shell 3 is rotationally connected with a symmetrically distributed first limiting plate 5, the first limiting plate 5 is used for guiding the wind into a cavity in which an antenna is placed, the first limiting plate 5 is fixedly connected with a limiting pin 502 which is in sliding fit with an adjacent limiting pin 502, the limiting pin 502 is fixedly connected with a second pull rope 503, one end of the second pull rope 503, which is far away from the adjacent limiting pin 502, is provided with a protection component 50 for protecting the antenna, the protection component 50 reduces the resistance of the antenna when the antenna is subjected to strong wind, the antenna is prevented from shaking, the first fixed shell 3 is provided with a symmetrically distributed limiting component 70, the limiting component 70 is used for limiting the adjacent guide plates, the first fixed shell 3 is rotationally connected with a first limiting plate 5, the first limiting plate 103 is fixedly connected with a limiting pin 103, and a second limiting plate 103, and a third shell 103, which is mounted on the inner side of the antenna 103, and a third shell 103, which is cooled down through a gap, when the first fixed shell 103, and a third shell is mounted.

As shown in fig. 10, the protection assembly 50 further includes a second fixing shell 504 with symmetrical distribution, the second fixing shell 504 with symmetrical distribution is fixedly connected to the lower side of the adjacent fixing ring 206, a third fixing shell 505 is fixedly connected to the lower side of the second fixing shell 504, two first fixing blocks 5051 with symmetrical distribution are fixedly connected to the third fixing shell 505, a first limiting ring 508 is fixedly connected between the two first fixing blocks 5051, the first limiting ring 508 is slidably connected with a second fixing block 506 and a third fixing block 5061, the first limiting ring 508 is used for limiting the second fixing block 506 and the third fixing block 5061, the second fixing block 506 and the adjacent third fixing block 5061 are fixedly connected with a first wind deflector 507, the first wind deflector 507 is located on the outer side of the annular shell 2 and is in surface contact with the annular shell 2, when the first wind deflector 507 rotates to a notch of the annular shell 2, a second elastic member 509 is fixedly connected between the second fixing block 506 and the adjacent first fixing block 5051, the second elastic member 509 is fixedly connected to the second fixing block 5061, and the second driving rope 5061 is pulled to the second fixing block 50503, and the second driving rope 5061 is fixedly connected to the second fixing block 50503.

As shown in fig. 13, the limiting assembly 70 includes an arc shell 8, the arc shell 8 is fixedly connected to one side of the third installation shell 103, which is close to the adjacent first limiting plate 5, a second wind deflector 801 is rotationally connected to one side of the first fixing shell 3, which is close to the adjacent first limiting plate 5, the second wind deflector 801 and the adjacent first limiting plate 5 are driven by a gear set, when the first limiting plate 5 rotates, the adjacent second wind deflector 801 reversely rotates, the arc shell 8 is slidably connected with a third baffle 803, a fifth elastic member 802 is fixedly connected between the third baffle 803 and the adjacent arc shell 8, and is used for limiting the second wind deflector 801, a third limiting ring 804 is fixedly connected to the second wind deflector 801, the third limiting ring 804 is in limiting fit with the adjacent third baffle 803, a mirror image and evenly distributed second baffle 605 is rotationally connected to one side of the first fixing shell 3, which is far from the third installation shell 103, a mirror image and evenly distributed locking mechanism 60 is provided on one side of the first fixing shell 3, the number of the second baffles 605 is equal to the number of locking mechanisms 60.

As shown in fig. 1, 11 and 12, the locking mechanism 60 includes a second limiting plate 6, the second limiting plate 6 is slidably connected to the inside of the first fixing shell 3, a sliding rod 601 is fixedly connected to the second limiting plate 6, a second limiting ring 6021 is fixedly connected to the sliding rod 601, a hook 602 is slidably connected to the sliding rod 601, a slope is provided at the front side of the hook 602, a third elastic member 6022 is fixedly connected between the second limiting ring 6021 and an adjacent hook 602, a vent hole is provided on the first fixing shell 3, the vent hole is inclined downward, when rainwater slides down on the first fixing shell 3, the slope in the vent hole slides down to collect rainwater, a groove matched with the adjacent hook 602 is provided on the first limiting plate 5, a supporting rod 603 is slidably connected to the first fixing shell 3, a fourth elastic member 604 is fixedly connected between the sliding rod 601 and the first fixing shell 3, the third elastic member 6022 is used for resetting the sliding rod 601, a third limiting plate 606 is fixedly connected between the second baffle 605 and the adjacent second limiting plate 6, and the third limiting plate 606 is fixedly connected between the second baffle 605 and the first fixing shell 3, and the third baffle plate 6 is used for preventing the damping device from being repeatedly moved, and the damping device is used for preventing the damping device from being repeatedly moved between the first fixing shells 7 and the first fixing shell and 7.

When the wind force is great, the strong wind passes between the second installation shell 102 and the third installation shell 103, because the second installation shell 102 and the third installation shell 103 are internally provided with the antenna, the resistance that the wind receives under the hindrance of the antenna is great, can make second installation shell 102 and third installation shell 103 take place to rock, when this device receives the wind that blows from front to back, take the front side as an example, the wind blows the first limiting plate 5 of front side, and the first limiting plate 5 of front side is rotated clockwise under the blowing of wind force this moment to be close to first fixed shell 3, and simultaneously first limiting plate 5 drives spacer pin 502 and rotates around guide board 501, and spacer pin 502 rotates and pulls second stay 503 outwards to pull second stay 503.

In the process of pulling the second pull rope 503, the second pull rope 503 passes through the first fixed block 5051 to drive the third fixed block 5061 to rotate around the third fixed shell 505, the third fixed block 5061 drives the second fixed block 506 to rotate through the first wind shield 507, the second fixed block 506 stretches the second elastic piece 509 while rotating on the third fixed shell 505, the first wind shield 507 rotates to gradually shield the adjacent water blocking column 106, the throughput of wind around the water blocking column 106 is reduced, when the first limiting plate 5 on the front side is attached to the first fixed shell 3, the third fixed block 5061 is in contact with the adjacent first fixed block 5051, at the moment, the first wind shield 507 completely shields the adjacent water blocking column 106, when wind blows through the first wind shield 507, the wind is guided to two sides through an arc surface on the first wind shield 507, resistance to the device is reduced, shaking is prevented when the wind is strong, the antenna is loose, meanwhile, the first limiting plate 5 on the rear side rotates clockwise, but the first limiting plate 5 on the rear side is gradually away from the first fixed shell 3.

In the above process, when the first limiting plate 5 on the front side rotates clockwise, the first limiting plate 5 drives the adjacent second wind deflector 801 to rotate anticlockwise through the gear set, and meanwhile, the second wind deflector 801 drives the third limiting ring 804 to disengage from the third baffle 803, at this time, the second wind deflector 801 on the front side approaches the first fixed shell 3, and when the first limiting plate 5 contacts the first fixed shell 3, the second wind deflector 801 contacts the first fixed shell 3 synchronously.

In the above process, the first limiting plate 5 at the rear side rotates clockwise under the drive of wind, and drives the second wind guard 801 at the rear side to rotate through the gear, the second wind guard 801 at the rear side drives the third limiting ring 804 to rotate while rotating, the third limiting ring 804 drives the adjacent third baffle 803 to slide in the arc-shaped shell 8, and meanwhile, the fifth elastic piece 802 is extruded, when the first limiting plate 5 at the rear side stops rotating, the second wind guard 801 at the rear side stops rotating, at this time, the second wind guards 801 at the front end and the rear end are not contacted with the third installation shell 103 any more, and the wind is guided by the first wind guard 507 to pass through the gap between the third installation shell 103 and the first fixing shell 3, and the effect of cooling the antenna is achieved by cooling the third installation shell 103.

In the above process, when the first limiting plate 5 is in contact with the first fixed shell 3, since the gap between the third mounting shell 103 and the first fixed shell 3 is gradually opened in the process of rotating the first limiting plate 5, the wind blows the second baffle 605 at the front end to rotate backward when passing through the gap between the third mounting shell 103 and the first fixed shell 3, the second baffle 605 drives the second limiting plate 6 to move towards the middle part of the first fixed shell 3 through the third pull rope 606, the second limiting plate 6 drives the sliding rod 601 to move on the supporting rod 603, simultaneously stretches the damping rod 7, the sliding rod 601 drives the hook 602, the second limiting ring 6021 and the third elastic member 6022 to move, simultaneously compresses the fourth elastic member 604, enables the hook 602 to move towards the middle part of the first fixed shell 3, when the second baffle 605 is in contact with the first fixed shell 3, the first limiting plate 5 presses the inclined surface on the hook 602 first limiting plate 5 at this moment, simultaneously presses the third elastic member 6022 and the third elastic member 6022 under the action of the inclined surface on the hook 602, and the third elastic member 6022 is compressed, thereby the damping rod is contracted towards the middle part of the first fixed shell 3, and the damping rod 6022 is compressed, and the damping rod is contracted towards the end is contracted.

When the wind force reduces, the second baffle 605 stops pulling the third pull rope 606, at the moment, the fourth elastic piece 604 is released, and drives the adjacent sliding rod 601 to drive the second limiting plate 6 to move, the second limiting plate 6 is reset, meanwhile, the sliding rod 601 drives the hook 602 to move, the hook 602 is separated from the first limiting plate 5, the locking of the first limiting plate 5 is released, meanwhile, the moving speed of the sliding rod 601 is slowed down under the action of the damping rod 7, repeated locking when the wind is large is prevented, and the service life of the device is prolonged.

When encountering wind in the right-to-left direction, the wind passes through the first limiting plate 5 and the second wind guard 801 on the front side and the rear side, and enters the cavity provided with the antenna through the sliding rod 601 under the guidance of the first limiting plate 5 and the second wind guard 801, the antenna is cooled, when the wind is large, the wind blows the first limiting plate 5, at this time, the first limiting plate 5 moves to the side close to the first fixed shell 3, and the first wind guard 507 is rotated through transmission, when the first limiting plate 5 is perpendicular to the second installation shell 102, the first wind guard 507 rotates for 45 degrees, at this time, the wind rotates around the third installation shell 103 under the guidance of the first wind guard 507, so that the wind passes through the gaps of the first fixed shell 3 and the third installation shell 103, and when encountering wind in the left-to-right direction, the wind enters the gaps of the first fixed shell 3 and the third installation shell 103 through the holes on the first fixed shell 3, and the antenna is cooled through the third installation shell 103.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims (10)

1. A heat dissipation type antenna protection cover for data transmission is characterized in that: including first installation shell (101), the downside rigid coupling of first installation shell (101) has second installation shell (102) and third installation shell (103) that are the opposite direction and distribute, second installation shell (102) with rigid coupling has fourth installation shell (104) between third installation shell (103), the downside rigid coupling of first installation shell (101) has fixed column (105) of symmetric distribution, fixed column (105) rotate and are connected with annular shell (2), the downside rigid coupling of fourth installation shell (104) has first baffle (201) of symmetric distribution, first baffle (201) with adjacent annular shell (2) sliding connection, the rigid coupling has evenly distributed's fender water column (106) in fixed column (105), evenly distributed's lower extreme joint has fixed disk (107), fixed disk (107) set up with correspond annular shell (2) sliding connection's ring channel (202), fixed disk (107) set up the wash port, second baffle (201) with annular shell (102) and third installation shell (102) have that the opposite side is connected with annular shell (2) sliding connection's filter component.

2. The heat-radiating antenna protection cover for data transmission according to claim 1, wherein: the water retaining column (106) is provided with a water diversion groove, the water diversion groove faces the middle of the mounting seat (1), and the water retaining column (106) is made of water absorbing materials.

3. The heat-radiating antenna protection cover for data transmission according to claim 1, wherein: the backwash assembly (10) comprises symmetrically distributed fixing rings (206), the symmetrically distributed fixing rings (206) are fixedly connected to the lower side of the first installation shell (101), the fixing rings (206) are rotationally connected with rotating rings (207), torsion springs are arranged between the fixing rings (206) and the rotating rings (207), the rotating rings (207) are fixedly connected with adjacent annular shells (2), first limiting blocks (2061) are fixedly connected with second limiting blocks (2071) through the rotating rings (207), the second limiting blocks (2071) are in limit fit with the adjacent first limiting blocks (2061), the rotating rings (207) are provided with first pull ropes (203) in a winding mode, the third installation shell (103) is fixedly connected with symmetrically distributed first rotating shafts (204), the fourth installation shell (104) is fixedly connected with second symmetrically distributed rotating shafts (205), the first pull ropes (203) penetrate through the third installation shell (103) and bypass the adjacent first rotating shafts (204) and the adjacent first rotating shafts (203) are provided with common driving mechanisms (203).

4. A heat-radiating antenna protection cover for data transmission according to claim 3, wherein: the transmission mechanism (20) comprises a first fixing shell (3), the first fixing shell (3) is fixedly connected to one side, away from the second mounting shell (102), of the third mounting shell (103), a straight groove is formed in the first fixing shell (3), a water storage shell (301) is slidably connected to the first fixing shell (3) through the straight groove, first pull ropes (203) which are symmetrically distributed are fixedly connected to the water storage shell (301), limiting columns (302) are fixedly connected in the straight grooves of the first fixing shell (3), the limiting columns (302) are slidably connected with the water storage shell (301), and the limiting columns (302) are fixedly connected between the first fixing shell (3) and the water storage shell (301) in a winding mode.

5. The heat-radiating antenna protection cover for data transmission of claim 4, wherein: the cooling assembly (30) is arranged at the lower part of the water storage shell (301), the cooling assembly (30) is used for cooling the first fixed shell (3), the cooling assembly (30) comprises symmetrically distributed spray heads (4), the symmetrically distributed spray heads (4) are fixedly connected to the lower side of the water storage shell (301), water inlets of the spray heads (4) are located in the water storage shell (301), symmetrically distributed hydraulic shells (401) are fixedly connected to the water storage shell (301), pistons (402) are connected in a sliding mode, U-shaped rods (403) are fixedly connected to one sides of the pistons (402), liquid is stored between the other sides of the pistons (402) and the adjacent hydraulic shells (401), and sealing plates (404) are fixedly connected to one ends of the U-shaped rods (403) and are matched with the adjacent spray heads (4).

6. The heat-radiating antenna protection cover for data transmission of claim 5, wherein: the utility model provides a wind-guiding mechanism (40) is provided with in the outside of first fixed shell (3), wind-guiding mechanism (40) are used for guiding the wind direction, wind-guiding mechanism (40) are including symmetrically distributed guide board (501), symmetrically distributed guide board (501) all rigid coupling in the outside of first fixed shell (3), symmetrically distributed guide board (501) are close to respectively adjacent manger plate post (106), first fixed shell (3) rotate and are connected with symmetrically distributed first limiting plate (5), first limiting plate (5) rigid coupling has spacer pin (502), guide board (501) and adjacent spacer pin (502) sliding fit, spacer pin (502) rigid coupling has second stay cord (503), one end that second stay cord (503) kept away from adjacent spacer pin (502) is provided with protection subassembly (50) that are used for protecting the antenna, first fixed shell (3) are provided with symmetrically distributed spacing subassembly (70), spacing subassembly (70) are used for carrying out to adjacent guide board (103) first fixed shell (501) and third clearance between the fixed shell (3).

7. The heat-radiating antenna protection cover for data transmission of claim 6, wherein: the protection component (50) is further provided with a second fixing shell (504) which is symmetrically distributed, the second fixing shell (504) is fixedly connected to the lower sides of the adjacent fixing rings (206) respectively, a third fixing shell (505) is fixedly connected to the second fixing shell (504), a first fixing block (5051) which is symmetrically distributed is fixedly connected to the third fixing shell (505), a first limiting ring (508) is fixedly connected to the first fixing block (5051), the first limiting ring (508) is slidably connected with a second fixing block (506) and a third fixing block (5061), the second fixing block (506) and the adjacent third fixing block (5061) are fixedly connected with a first wind deflector (507) together, a second elastic piece (509) is fixedly connected between the second fixing block (506) and the adjacent first fixing block (5051), the second elastic piece (509) is wound on the adjacent first limiting ring (508), and the second fixing block (503) and the adjacent third fixing block (5061) are fixedly connected with a pull rope (5061) in a penetrating mode.

8. The heat-radiating antenna protection cover for data transmission of claim 6, wherein: limiting component (70) is including arc shell (8), arc shell (8) rigid coupling in third installation shell (103) are close to adjacently one side of first limiting plate (5), first fixed bolster (3) are close to adjacently one side rotation of first limiting plate (5) is connected with second deep bead (801), second deep bead (801) and adjacent through the gear train transmission between first limiting plate (5), arc shell (8) sliding connection has third baffle (803), third baffle (803) and adjacent rigid coupling has fifth elastic component (802) between arc shell (8), second deep bead (801) rigid coupling has third spacing ring (804), third spacing ring (804) are adjacent one side rotation of third installation shell (103) is connected with mirror image and evenly distributed's second baffle (605), first fixed bolster (3) are kept away from mirror image and evenly distributed's (103) have between arc shell (8) third spacing ring (803) rigid coupling has third spacing ring (803) limit fit, first fixed bolster (103) are kept away from mirror image and evenly distributed (103) have one side locking mechanism (60).

9. The heat-radiating antenna protection cover for data transmission of claim 8, wherein: the locking mechanism (60) comprises a second limiting plate (6), the second limiting plate (6) is connected with the inside of the first fixed shell (3) in a sliding mode, a sliding rod (601) is fixedly connected with the second limiting plate (6), a hook (602) is connected with the sliding rod (601) in a sliding mode, grooves matched with the hook (602) are formed in the first limiting plate (5), a supporting rod (603) is connected with the sliding rod (601) in a sliding mode, the supporting rod (603) is fixedly connected with the first fixed shell (3), a fourth elastic piece (604) is fixedly connected between the sliding rod (601) and the first fixed shell (3), a third pull rope (606) is fixedly connected between the second baffle (605) and the second limiting plate (6) which is adjacent to each other, and a damping rod (7) is fixedly connected between the second limiting plate (6) and the first fixed shell (3).

10. The heat-radiating antenna protection cover for data transmission of claim 9, wherein: the sliding rod (601) is fixedly connected with a second limiting ring (6021), a third elastic piece (6022) is fixedly connected between the second limiting ring (6021) and the adjacent hook (602), and the first fixing shell (3) is provided with a vent hole.