CN114401023A - Shelter sliding cover system - Google Patents

Abstract

The invention relates to the technical field of communication shelter sliding covers, and provides a shelter sliding cover system which comprises a shelter body, a shelter cover and an antenna, wherein the shelter body is provided with an opening, the shelter cover is used for sealing the opening, the antenna is arranged on the shelter cover in a sliding mode and is positioned in the shelter body, the shelter sliding cover system also comprises a purging component, the purging component is arranged on the shelter cover and is used for cleaning the periphery of the opening 2 on the top of the shelter, the shelter sliding cover system also comprises a turnover device, the turnover device is arranged on the shelter body and is connected with the shelter cover, the turnover device comprises a swing rod, the swing rod is arranged on the shelter body in a swinging mode, the shelter cover is arranged on the swing rod, the swing rod is arranged on the shelter body in a rotating mode at the same time, and a hydraulic cylinder, and two ends of the hydraulic cylinder are respectively hinged to the swing rod and the shelter body and are used for driving the swing rod to swing. Through the technical scheme, the problem that in the prior art, in rainy and snowy weather, the antenna needs to extend out of the cabin for communication of the square cabin, and the inside of the cabin is wet due to the fact that the inside and the outside of the cabin are in a communicated state at the moment is solved.

Description

Shelter sliding cover system

Technical Field

The invention relates to the technical field of communication shelter sliding covers, in particular to a shelter sliding cover system.

Background

The shelter among the prior art is the storing cabin on the communication car, wherein important communication equipment prevents in the shelter, communication equipment needs to come the received signal through the antenna, wherein the antenna needs the roll-off extravehicular, among the prior art, utilize and realize stretching out and indentation of antenna at shelter top trompil, wherein realize the closure of trompil through the sliding closure, the slide bar among the prior art has certain leakproofness, but when the roof snow or have certain rainwater, when uncapping again, probably fall to the greatest extent the under-deck, because the under-deck all is communication facilities, the normal use that the communication set up is probably influenced after intaking or getting damp, so need a sliding closure system of novel shelter, solve above-mentioned problem.

Disclosure of Invention

The invention provides a sliding cover system of a shelter, which solves the problem that in the prior art, in rainy and snowy weather, the shelter communication requires an antenna to extend out of the shelter, and the interior of the shelter is wet due to the fact that the interior and the exterior of the shelter are in a communicated state.

The technical scheme of the invention is as follows:

a sliding closure system for a shelter comprises a shelter body, an antenna, a purging component and a sliding closure mechanism, wherein the shelter body is provided with an opening, a shelter cover used for sealing the opening, the antenna is arranged on the shelter cover in a sliding mode and positioned in the shelter body, the purging component is arranged on the shelter cover and used for cleaning the periphery of the opening on the top of the shelter, the sliding closure system further comprises a sliding closure mechanism,

the turnover device is arranged on the cabin body and connected with the cabin cover, the turnover device comprises a turnover mechanism,

the swing rod is arranged on the cabin body in a swinging mode, the cabin cover is arranged on the swing rod, the swing rod is arranged on the cabin body in a rotating mode simultaneously,

and two ends of the hydraulic cylinder are respectively hinged to the swing rod and the cabin body and are used for driving the swing rod to swing.

As a further technical proposal, the purging component comprises,

a rotating block rotatably disposed on the hatch,

the purging plate is a telescopic plate and is uniformly distributed on the rotating block along the circumferential direction, the purging plate is provided with a plurality of air holes, the axis of each air hole is inclined to the axis of the opening, and the air holes face the axis direction far away from the opening.

As a further technical scheme, the rotating block is provided with a communicating cavity, the purging plate is a telescopic plate, the purging plate is provided with a through groove, the communicating cavity is communicated with the through groove, the through groove is provided with an arc-shaped groove, the diameter of the arc-shaped groove is larger than the width of the through groove, the rotating block further comprises a rotating shaft,

a plurality of sliding blocks which are hinged with each other and are arranged in the arc-shaped groove in a sliding manner,

the cleaning block is arranged on the sliding block and penetrates out of the through groove to be in contact with the cabin roof,

the air pipe is communicated with the communicating cavity and used for supplying air and exhausting air to the communicating cavity.

As a further technical scheme, the annular sleeve is sleeved on the swing rod, the annular sleeve and the swing rod rotate relatively, and two ends of the hydraulic cylinder are respectively hinged with the annular sleeve and the cabin body.

As a further technical solution, the antenna includes,

a multi-stage telescopic rod which is arranged in the cabin body in a sliding manner,

the signal receiving rods are arranged on the multi-stage telescopic rods in a swinging mode and are evenly arranged along the circumferential direction.

As a further technical proposal, the multi-stage telescopic rod comprises,

a first rod slidably disposed within the capsule,

the second rod is sleeved on the first rod and is in threaded connection with the first rod,

and the third rod is rotatably arranged on the second rod and is in threaded connection with the second rod.

As a further technical solution, the slide rail includes a first rail section and a second rail section, the first rail section is disposed on the inner wall of the cabin body, the second rail section is disposed on the cabin cover, the first rail section is aligned with the second rail section, and the first rod is slidably disposed on the slide rail.

As a further technical scheme, the triggering device is arranged at one end, far away from the first rail section, of the second rail section and comprises,

two proximity switches are arranged at two ends of the slide rail respectively,

connecting line, connecting line sets up on the slide rail, just first rail section with the second rail section all has the contact, first rail section with first contact and second contact communicate with each other when the second rail section aligns, connecting line is used for doing the antenna is followed the removal of slide rail provides the electric energy.

An antenna using method comprises the following steps,

s1, before the antenna slides out along the cabin, the purging assembly operates to clean up the dirt on the top of the cabin,

s2, after the dirt on the cabin top is cleaned, the purging assembly resets, the antenna starts to slide along the track and moves to the second track section to touch the proximity switch,

s3, the approach switch sends out the command that the antenna slides to the first track section and the command that the hatch cover swings, before the antenna slides out of the second track section, the hatch cover swings out,

s4, the hatch cover swings to drive the antenna to move out of the hatch, after swinging for 90 degrees, the hatch cover rotates for 180 degrees, then the hatch cover swings to close the opening,

s5, the multi-stage telescopic rod is extended, the signal receiving rod drives the auxiliary receiver to swing and is adjusted to the position with the best signal, the signal is received,

s6, after the signal reception is finished, the multi-stage telescopic rods are retracted, the hatch cover swings out at 90 degrees and rotates 180 degrees, then the hatch cover swings and brings the antenna back to the hatch, the second rail section is communicated with the first rail section again, the connecting lines are communicated at the same time,

s7, the antenna moves towards the first track section and returns to the previous placing position.

The working principle and the beneficial effects of the invention are as follows:

the shelter in the prior art is a storage cabin on a communication vehicle, wherein important communication equipment is used for preventing the communication equipment from receiving signals through an antenna in the shelter, the antenna needs to slide out of the shelter, in the prior art, the opening at the top of the shelter is used for extending and retracting the antenna, the opening is sealed through a sliding cover, a sliding rod in the prior art has certain tightness, but when the roof is snowed or has certain rainwater, the sliding rod possibly falls into the shelter after being opened, and the normal use of communication setting is possibly influenced after water enters or is affected by dampness due to communication facilities in the shelter, in order to solve the problems, the sliding cover system of the shelter is specially designed, and comprises a sweeping component and a turnover device, wherein the sweeping component realizes the function of sweeping rainwater, snow, leaves, dust and other foreign matters on the top of the shelter, ensures that no foreign matters fall into the cabin when the shelter cover of the shelter is opened, the turnover device can realize the effect of driving the shelter cover to swing and turn over, wherein the turnover device comprises a swing rod and a hydraulic cylinder, the swing rod is arranged on the cabin body in a swinging way and is connected with the cabin cover, can play a role of overturning the hatch cover and simultaneously put the antenna arranged on the hatch cover out of the cabin body, wherein the hatch cover is rotatably arranged on the swing rod, when the hatch cover swings out a certain angle and the angle reaches the space that the hatch cover can overturn, the hatch cover realizes 180-degree rotation, the swinging angle of the swing rod in the scheme is set to be 90 degrees, when the rotation of the cabin cover is finished, the swing rod swings back, the cabin cover seals the cabin body, the antenna is arranged outside the cabin body, the communication is not influenced, meanwhile, pre-stored equal-humidity air can be prevented from entering the cabin, wherein two ends of the hydraulic cylinder are hinged to the cabin and the swing rod, and the function of pulling the swing rod to swing is achieved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic three-dimensional view of the hatch of the present invention in a closed position;

FIG. 2 is a schematic three-dimensional view of the hatch cover of the present invention when opened;

FIG. 3 is a schematic three-dimensional view of the hatch of the present invention after being inverted;

FIG. 4 is a schematic side view of the whole body of the present invention;

FIG. 5 is a schematic cross-sectional view of the hatch of the present invention when open;

FIG. 6 is a schematic cross-sectional view of the hatch of the present invention when closed;

FIG. 7 is a schematic three-dimensional view of a purge assembly according to the present disclosure;

FIG. 8 is a first schematic cross-sectional view of a purge assembly according to the present invention;

FIG. 9 is a schematic cross-sectional view of a purging assembly according to the present invention;

FIG. 10 is a schematic view of the structure at A in FIG. 8 according to the present invention;

FIG. 11 is a schematic view of the structure of FIG. 4 at B in accordance with the present invention;

FIG. 12 is a schematic view of the structure of FIG. 6 at C in accordance with the present invention;

in the figure: 1. the device comprises a cabin body, 2, an opening, 3, an antenna, 4, a cabin cover, 5, a purging component, 6, a turnover device, 7, a swing rod, 8, a hydraulic cylinder, 9, a rotating block, 10, a purging plate, 11, a communicating cavity, 12, a through groove, 13, an arc-shaped groove, 14, a sliding block, 15, a purging block, 16, a multi-stage telescopic rod, 17, a signal receiving rod, 18, an auxiliary receiver, 19, a first rod, 20, a second rod, 21, a third rod, 22, a sliding rail, 23, a first rail section, 24, a second rail section, 25, a trigger device, 26, a switch, 27, a connecting circuit, 28, an annular sleeve, 29 and an air hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 12, the present embodiment provides a shelter sliding cover system, which includes a shelter body 1, the shelter body 1 has an opening 2, a hatch cover 4 for sealing the opening 2, an antenna 3 slidably disposed on the hatch cover 4 and located in the shelter body 1, a purging assembly 5, the purging assembly 5 is disposed on the hatch cover 4, the purging assembly 5 is used for cleaning the periphery of the opening 2 on the roof of the shelter, and further includes,

the overturning device 6 is arranged on the cabin body 1 and is connected with the cabin cover 4, the overturning device 6 comprises,

the swing rod 7 is arranged on the cabin body 1 in a swinging mode, the cabin cover 4 is arranged on the swing rod 7, the swing rod 7 is arranged on the cabin body 1 in a rotating mode simultaneously,

and two ends of the hydraulic cylinder 8 are respectively hinged to the swing rod 7 and the cabin body 1 and are used for driving the swing rod to swing.

The shelter in the prior art is a storage cabin on a communication vehicle, wherein important communication equipment is to prevent the communication equipment from receiving signals through an antenna 3 in the shelter, wherein the antenna 3 needs to slide out of the cabin, in the prior art, the extension and retraction of the antenna 3 are realized by utilizing an opening at the top of the shelter, wherein the opening is sealed through a sliding cover, a sliding rod in the prior art has certain tightness, but when the roof is snowy or has certain rainwater, the inside of the cabin is possibly completely opened when the roof is opened, as the communication facilities are all in the cabin, the normal use of communication setting is possibly influenced after water enters or is affected by dampness, in order to solve the problems, the shelter sliding cover system is specially designed, wherein the shelter sliding cover system comprises a sweeping component 5 and a turnover device 6, and the sweeping component 5 realizes the function of sweeping rainwater, snow, fallen leaves, dust and other foreign matters on the top of the cabin, the overturning device 6 can drive the cabin cover 4 to swing and overturn when the cabin cover 4 of the shelter is opened, wherein the overturning device 6 comprises an oscillating bar 7 and a hydraulic cylinder 8, the oscillating bar 7 is arranged on the cabin body 1 in a swinging mode and connected with the cabin cover 4, the effect of overturning the cabin cover 4 can be achieved, the antenna 3 arranged on the cabin cover 4 is simultaneously swung out of the cabin body 1, the cabin cover 4 is rotatably arranged on the oscillating bar 7, when the cabin cover 4 swings out a certain angle and the angle reaches the space where the cabin cover 4 can turn over, the cabin cover 4 rotates 180 degrees, the swinging bar 7 swings out at an angle of 90 degrees in the scheme, after the cabin cover 4 rotates, the oscillating bar 7 swings back, the cabin cover 4 seals the cabin body 1, the antenna 3 is arranged outside the cabin body 1, and when communication is not influenced, pre-stored equal humid air can be prevented from entering the cabin body 1, wherein, two ends of the hydraulic cylinder 8 are hinged on the cabin body 1 and the swing rod 7, thereby realizing the function of pulling the swing rod 7 to swing.

Further, the purge module 5 comprises, in combination,

a rotating block 9, wherein the rotating block 9 is rotatably arranged on the hatch cover 4,

the purging plate 10 is a telescopic plate, the purging plate 10 is provided with a plurality of purging plates which are uniformly distributed on the rotating block 9 along the circumferential direction, the purging plate 10 is provided with a plurality of air holes 29, the axes of the air holes 29 are inclined to the axis of the opening 2, and the air holes 29 face the axis direction far away from the opening 2.

In order to clean foreign matters on the top of the cabin, the cleaning assembly is specially provided with a rotating and blowing plate 10, wherein the rotating and blowing plate 10 is arranged on the cabin cover 4 in a rotating mode, the function of driving the blowing plate 10 to rotate is achieved, the cabin cover 4 and the foreign matters around the cabin cover 4 are pushed and far away from the square cabin opening 2 through the rotation of the blowing plate 10, the blowing plate 10 is provided with a plurality of air holes 29, and the air holes 29 can be used for blowing dust, foreign matter fragments and the like and enabling the foreign matters to be far away from the opening 2.

Further, the rotating block 9 is provided with a communicating cavity 11, the purging plate 10 is a telescopic plate, the purging plate 10 is provided with a through groove 12, the communicating cavity 11 is communicated with the through groove 12, the through groove 12 is provided with an arc-shaped groove 13, the diameter of the arc-shaped groove 13 is larger than the width of the through groove 12, and the rotating block further comprises,

a plurality of sliding blocks 14, wherein the sliding blocks 14 are hinged with each other and are arranged in the arc-shaped groove 13 in a sliding manner,

a cleaning block 15, wherein the cleaning block 15 is arranged on the sliding block 14, penetrates out of the through groove 12 and is contacted with the cabin roof,

the air pipe 30 is communicated with the communicating cavity 11, and the air pipe 30 is used for supplying air and exhausting air to the communicating cavity 11.

In the embodiment, in order to reduce the occupied space of the purging component 5, the communicating cavity 11 is specially arranged, the purging plate 10 is placed in the communicating cavity 11, the purging plate 10 is also provided with the through groove 12 which is generally provided with the arc-shaped groove 13, the sliding block 14, the air pipe and the cleaning block 15, in order to reduce the occupied area of the purging plate 10, the purging plate 10 can be ensured to smoothly enter the cabin when the cabin cover 4 is turned over, and simultaneously the purging plate 10 has a cleaning range larger than that of the cabin cover 4 when in work, the purging plate 10 is specially arranged into the telescopic plate, the sliding block 14 and the cleaning block 15 which are positioned at the movable end of the purging plate 10 are both fixed relative to the movable end, the sliding block 14 and the cleaning block 15 which are positioned at the fixed end of the purging plate 10 are arranged in a sliding manner when the fixed end is opposite to the fixed end, and the sliding block 14 and the cleaning block 15 in the fixed end can slide relative to the fixed end when the purging plate 10 is stretched, the cleaning block 15 is arranged on the sliding block 14 and penetrates through the through groove 12 to be in contact with the cabin roof, so that dirt is taken away when the cleaning block 15 moves, and the cleaning function is realized. Wherein the trachea can realize for the intercommunication chamber 11 air feed and bleed, when the trachea for the intercommunication chamber 11 air feed, because gas pressure will sweep the expansion end of board 10 and blow off, simultaneously for a plurality of gas pockets 29 provide the air supply, when the trachea bleeds, can realize will sweeping the effect that the expansion end of board 10 withdraws.

Further, an annular sleeve 28 is sleeved on the oscillating rod 7, the annular sleeve 28 and the oscillating rod 7 rotate relatively, and two ends of the hydraulic cylinder 8 are respectively hinged with the annular sleeve 28 and the cabin body 1.

In order to realize that pendulum rod 7 does not interfere when realizing swing and rotation in this embodiment, annular sleeve 28 is specially arranged, annular sleeve 28 is sleeved on pendulum rod 7, and rotate relatively with pendulum rod 7, wherein the one end that pendulum rod 7 is connected with cabin body 1 is ball-hinged, can not receive the influence when pendulum rod 7 swings, when pendulum rod 7 needs pendulum rod 7 to rotate after pendulum rod 7 swings in place, through the setting of annular sleeve 28, the rotation of pendulum rod 7 can not influence the pneumatic cylinder 8 of being connected with pendulum rod 7, pneumatic cylinder 8 is direct to be connected with annular sleeve 28, annular sleeve 28 rotates relatively with pendulum rod 7, can not take place to interfere with the swing and the rotation that realize pendulum rod 7.

Further, the antenna 3 includes, in addition to,

a multi-stage telescopic rod 16, the multi-stage telescopic rod 16 is arranged in the cabin 1 in a sliding way,

and the signal receiving rods 17 are arranged on the multi-stage telescopic rods 16 in a swinging mode and are uniformly arranged along the circumferential direction.

In this embodiment, in order to realize the function of receiving signals of the antenna 3, the multi-stage telescopic rod 16 and the signal receiving rod 17 are specially arranged, wherein the multi-stage telescopic rod 16 can meet the height requirement of the antenna 3, and simultaneously, the occupied space of the antenna 3 can be reduced as much as possible, and the signal receiving rod 17 is arranged on the multi-stage telescopic rod 16 in a swinging manner to play a role in increasing the receiving range of the antenna 3.

Further, the multi-stage telescopic rod 16 comprises,

a first rod 19, the first rod 19 is arranged in the cabin 1 in a sliding way,

a second rod 20, the second rod 20 is sleeved on the first rod 19, and the second rod 20 is in threaded connection with the first rod 19,

and the third rod 21 is rotatably arranged on the second rod 20, and the third rod 21 is in threaded connection with the second rod 20.

In this embodiment, in order to achieve the extension and retraction of the multi-stage telescopic rod 16, a first rod 19, a second rod 20 and a third rod 21 are specially provided, wherein the first rod 19 is slidably disposed in the cabin 1, the second rod 20 is in threaded connection with the first rod 19, the third rod 21 is rotatably disposed on the second rod 20, the third rod 21 is in threaded connection with the second rod 20, the third rod 21 and the second rod 20 are in threaded movement through the rotation of the third rod 21, after the engagement between the threads of the third rod 21 and the second rod 20 is completed, the third rod 21 drives the second rod 20 to rotate, the second rod 20 and the first rod 19 rotate relatively, the threaded movement is achieved, and the extension and retraction effect of the multi-stage telescopic rod 16 is achieved through this way.

Further, the slide rail 22 includes a first rail section 23 and a second rail section 24, the first rail section 23 is disposed on the inner wall of the cabin 1, the second rail section 24 is disposed on the cabin cover 4, the first rail section 23 is aligned with the second rail section 24, and the first rod 19 is slidably disposed on the slide rail 22.

In order to realize the movement of the antenna 3 and prevent the antenna 3 from interfering with the work of an operator in the cabin 1, the sliding rail 22 is specially provided, the sliding rail 22 has a first rail section 23 and a second rail section 24, the first rail section 23 is arranged on the inner wall of the cabin 1, the second rail section 24 is arranged on the inner wall of the cabin cover 4, the first rail section 23 and the second rail section 24 are aligned, the first rod 19 of the antenna 3 is arranged on the guiding rail in a sliding manner, the position of the antenna 3 is changed through the sliding rail 22, the antenna 3 is placed at a place where the corner does not interfere with the work, and when the antenna 3 needs to work, the first rail section 23 slides to the second rail section 24 through the guiding rail slide way, so that the movement of the antenna 3 is realized.

Further, a triggering device 25 is arranged at an end of said second rail section 24 remote from said first rail section 23, comprising,

two proximity switches 26, wherein the two proximity switches 26 are respectively arranged at two ends of the slide rail 22,

a connection line 27, the connection line 27 is disposed on the slide rail 22, and the first rail segment 23 and the second rail segment 24 both have contacts, the first contact and the second contact communicate with each other when the first rail segment 23 and the second rail segment 24 are aligned, the connection line 27 is used for providing electric energy for the antenna 3 along the movement of the slide rail 22.

In order to control the antenna 3 after movement, a proximity switch 26 and a connection 27 are provided, the proximity switch 26 being capable of transmitting a movement signal to the antenna 3, and the connection 27 providing power for movement of the antenna 3, wherein the connection 27 has contacts between the first track section 23 and the second track section 24, and the contacts are connected when the first track section 23 and the second track section 24 are flush.

An antenna using method comprises the following steps,

s1, before the antenna 3 slides out along the cabin 1, the blowing and sweeping component 5 operates to clean the dirt on the top of the cabin 1,

s2, after the dirt on the cabin top is cleaned, the purging assembly 5 is reset, the antenna 3 starts to slide along the track, and moves to the second track section 24 to touch the proximity switch 26,

s3, the proximity switch 26 sends out the command of sliding the antenna 3 to the first track segment 23 and the command of swinging the hatch 4, before the antenna 3 slides out of the second track segment, the hatch 4 swings out,

s4, the hatch cover 4 swings to drive the antenna 3 to move out of the hatch, after swinging for 90 degrees, the hatch cover 4 rotates for 180 degrees, then the hatch cover 3 swings to close the opening 2,

s5, extending the multi-stage telescopic rod 16, driving the auxiliary receiver 18 to swing by the signal receiving rod 17, adjusting to the position with the best signal, starting to receive the signal,

s6, after the signal reception is finished, the multi-stage telescopic rod 16 is retracted, the hatch cover 490 degrees swings out and rotates 180 degrees, then the hatch cover 4 swings and brings the antenna 3 back into the hatch, the second rail section 24 is communicated with the first rail section 23 again, the connecting line 27 is communicated at the same time,

s7, antenna 3 moves toward first track segment 23 and returns to the previously placed position.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A shelter sliding closure system comprises a cabin body (1), wherein the cabin body (1) is provided with an opening (2), a cabin cover (4) used for sealing the opening (2), and an antenna (3) arranged on the cabin cover (4) in a sliding manner and positioned in the cabin body (1), and is characterized by further comprising a purging component (5), wherein the purging component (5) is arranged on the cabin cover (4), the purging component (5) is used for cleaning the periphery of the opening (2) on the cabin top, and the shelter sliding closure system also comprises a device for cleaning the periphery of the opening (2),

a turnover device (6), wherein the turnover device (6) is arranged on the cabin body (1) and is connected with the cabin cover (4), the turnover device (6) comprises,

the swing rod (7) is arranged on the cabin body (1) in a swinging mode, the cabin cover (4) is arranged on the swing rod (7), the swing rod (7) is arranged on the cabin body (1) in a rotating mode simultaneously,

and two ends of the hydraulic cylinder (8) are hinged to the swing rod (7) and the cabin body (1) respectively and used for driving the swing rod to swing.

2. The shelter slide cover system according to claim 1, wherein the purge assembly (5) comprises,

a rotating block (9), the rotating block (9) is rotatably arranged on the hatch cover (4),

the purging plate (10) is a telescopic plate, the purging plate (10) is provided with a plurality of air holes (29), the air holes (29) are evenly distributed on the rotating block (9) along the circumferential direction, the axis of the air hole (29) is inclined to the axis of the opening (2), and the air hole (29) faces the direction of the axis far away from the opening (2).

3. The shelter sliding cover system according to claim 1, wherein the turning block (9) is provided with a communication cavity (11), the purging plate (10) is a telescopic plate, the purging plate (10) is provided with a through groove (12), the communication cavity (11) is communicated with the through groove (12), the through groove (12) is provided with an arc-shaped groove (13), and the diameter of the arc-shaped groove (13) is larger than the width of the through groove (12), further comprising,

a plurality of sliding blocks (14), the sliding blocks (14) are hinged with each other and are arranged in the arc-shaped groove (13) in a sliding manner,

the cleaning block (15) is arranged on the sliding block (14) and penetrates out of the through groove (12) to be in contact with the cabin roof,

trachea (30), trachea (30) with intercommunication chamber (11) communicate with each other, trachea (30) are used for the effect of intercommunication chamber (11) air feed and air exhaust.

4. The shelter sliding closure system according to claim 1, further comprising an annular sleeve (28), wherein the annular sleeve (28) is sleeved on the swing rod (7), the annular sleeve (28) and the swing rod (7) rotate relatively, and two ends of the hydraulic cylinder (8) are respectively hinged with the annular sleeve (28) and the shelter body (1).

5. A shelter sliding cover system according to claim 1, characterised in that said antenna (3) comprises,

a multi-stage telescopic rod (16), the multi-stage telescopic rod (16) is arranged in the cabin body (1) in a sliding way,

the signal receiving rods (17) are arranged on the multi-stage telescopic rods (16) in a swinging mode and are uniformly arranged along the circumferential direction.

6. The shelter sliding cover system according to claim 5, wherein the multi-stage telescopic rod (16) comprises,

a first rod (19), the first rod (19) is arranged in the cabin body (1) in a sliding way,

a second rod (20), wherein the second rod (20) is sleeved on the first rod (19), and the second rod (20) is in threaded connection with the first rod (19),

the third rod (21) is rotatably arranged on the second rod (20), and the third rod (21) is in threaded connection with the second rod (20).

7. The shelter sliding closure system according to any one of claim 6, further comprising a sliding rail (22), wherein the sliding rail (22) comprises a first rail section (23) and a second rail section (24), the first rail section (23) is arranged on the inner wall of the shelter body (1), the second rail section (24) is arranged on the shelter cover (4), the first rail section (23) is aligned with the second rail section (24), and the first rod (19) is slidably arranged on the sliding rail (22).

8. The shelter sliding cover system according to claim 7, further comprising an activating device (25), wherein the activating device (25) is arranged at an end of the second rail section (24) away from the first rail section (23), comprising,

two proximity switches (26) are arranged, and are respectively arranged at two ends of the slide rail (22),

connecting wire (27), connecting wire (27) set up on slide rail (22), just first track section (23) with second track section (24) all have the contact, first contact and second contact communicate with each other when first track section (23) with second track section (24) align, connecting wire (27) are used for antenna (3) are followed the removal of slide rail (22) provides the electric energy.

9. The shelter sliding cover system according to any one of claims 1 to 8, further comprising an antenna using method comprising the steps of,

s1, before the antenna (3) slides out along the cabin body (1), the purging component (5) operates to clean the dirt on the top of the cabin body (1),

s2, after the dirt on the cabin top is cleaned, the purging assembly (5) is reset, the antenna (3) starts to slide along the track and moves to the second track section (24) to touch the proximity switch (26),

s3, the approach switch (26) sends out an instruction that the antenna (3) slides towards the first track section (23) and an instruction that the hatch cover (4) swings, before the antenna (3) slides out of the second track section, the hatch cover (4) swings out,

s4, the hatch cover (4) swings to drive the antenna (3) to move out of the hatch, after swinging for 90 degrees, the hatch cover (4) rotates for 180 degrees, then the hatch cover (3) swings to seal the opening (2),

s5, extending the multi-stage telescopic rod (16), driving the auxiliary receiver (18) to swing by the signal receiving rod (17), adjusting to the position with the best signal, starting to receive the signal,

s6, after the signal reception is finished, the multi-stage telescopic rod (16) is retracted, the hatch cover (4) is swung out at 90 degrees and rotates 180 degrees, then the hatch cover (4) swings and brings the antenna (3) back into the cabin, the second rail section (24) is communicated with the first rail section (23) again, the connecting line (27) is communicated simultaneously,

s7, the antenna (3) moves to the first track section (23) and returns to the previous placing position.

Images