CN117071742B - Carbon fiber composite aluminum alloy tent house and building and dismantling methods thereof - Google Patents

Abstract

The application provides a carbon fiber composite aluminum alloy tent and a building and dismantling method thereof. The tent frame comprises a support frame body and a tent top frame body fixed above the support frame body, and a guide pulley is arranged on one side of the support frame body; the traction device comprises a cloth-lapping traction rope, a cloth-pulling rod and a wire-pressing wheel, wherein the cloth-pulling rod is connected with the cloth-lapping traction rope, one end of the cloth-lapping traction rope is wound on the wire-pressing wheel along a guide pulley, the wire-pressing wheel is rotatably arranged on one side of the support frame body, and a first driving source for driving the wire-pressing wheel to rotate is arranged on the support frame body. The application improves the convenience of paving the tarpaulin.

Description

Carbon fiber composite aluminum alloy tent house and building and dismantling methods thereof

Technical Field

The application relates to the technical field of aluminum alloy tarpaulins, in particular to a carbon fiber composite aluminum alloy tarpaulin and a construction method thereof.

Background

The carbon fiber composite aluminum alloy tent is made of carbon fiber composite materials, has the advantages of light weight, high strength, corrosion resistance, fatigue resistance, strong plasticity and the like, and has wide application fields including the fields of transportation, aerospace, construction, exhibition, sports and the like.

The carbon fiber composite aluminum alloy tent mainly comprises a tent frame and a tent roof. In the process of building the carbon fiber composite aluminum alloy tent, a tent frame is built firstly, and after the building of the tent frame is completed, the tent cloth at the top is installed to form a tent roof.

In the process of building the carbon fiber composite aluminum alloy tent, an operator can fix a pull rope and the like at the end part of the tent, and then fix the other end of the pull rope on a forklift or a fork truck. The awning cloth is pulled by external force of forklift or forklift, so that the awning cloth is paved on the top of the awning frame and then is fixed on the top of the awning frame. However, the mobile equipment such as a forklift or a forklift is inconvenient to use anytime and anywhere, and a plurality of inconveniences are brought to the building work of the carbon fiber composite aluminum alloy tent.

Disclosure of Invention

In order to facilitate the paving of tarpaulin on the top of a tent frame, the application provides a carbon fiber composite aluminum alloy tent and a construction method thereof.

On one hand, the application provides a carbon fiber composite aluminum alloy tent, which adopts the following technical scheme:

carbon fiber composite aluminum alloy covering or awning on a car, boat, etc. room includes:

the tent frame comprises a support frame body and a tent top frame body fixed above the support frame body, and a guide pulley is arranged on one side of the support frame body;

the traction device comprises a cloth-lapping traction rope, a cloth-pulling rod and a wire pressing wheel, wherein the cloth-pulling rod is connected with the cloth-lapping traction rope, one end of the cloth-lapping traction rope is wound on the wire pressing wheel along the guide pulley, the wire pressing wheel is rotatably arranged on one side of the support frame body, and a driving source for driving the wire pressing wheel to rotate is arranged on the support frame body;

the rope clamping device is located at one side of the supporting frame body away from the line pressing wheel, and comprises a first rope clamping pulley and a second rope clamping pulley which are oppositely arranged, a driving piece used for driving the first rope clamping pulley and the second rope clamping pulley to slide in opposite directions, and one end of the cloth-lapping traction rope away from the line pressing wheel is clamped between the first rope clamping pulley and the second rope clamping pulley.

Through adopting above-mentioned technical scheme, connect the granny rag pole in tarpaulin one end, start driving source drive line ball wheel rotates and is connected with the rope segment of granny rag pole towards the direction that is close to the line ball wheel with the drive taking cloth haulage rope and remove, drive the granny rag pole when taking cloth haulage rope to remove for tarpaulin moves to the shed roof support body along the shed roof support body lateral wall along the shed roof support body with the granny rag pole and removes to covering the shed roof support body completely, with the automatic laying of tarpaulin on the shed roof support body, need not to use and remove the setting such as fork truck or forklift to assist, improved the convenience that the tarpaulin was laid.

The setting of card rope device is used for chucking to take cloth haulage rope, from tarpaulin start to lay until tarpaulin laid the in-process that finishes, take cloth haulage rope keep away from the line ball wheel one end by centre gripping all the time between first card rope pulley and second chucking pulley, when the granary pole slides to being close to one side that the canopy roof support body is close to the line ball wheel, card rope subassembly exerts the resistance to taking cloth haulage rope for granary pole both sides atress is balanced, reduces the possibility that the granary pole directly slides down the canopy roof support body. When the lapping traction rope moves, the first rope clamping pulley and the second rope clamping pulley can slide away from each other under the action of the lapping traction rope, so that the clamping force on the lapping traction rope is reduced, and the lapping traction rope is convenient to move; when the pull part rod conveys the awning cloth to the shed roof frame body, the side end of the awning cloth is arranged between the outer circumferential side walls of the first rope clamping pulley and the second rope clamping pulley, and after the awning cloth stops moving, the first rope clamping pulley and the second rope clamping pulley are mutually close to each other under the action of the driving piece to continuously clamp the awning cloth traction rope and the awning cloth.

Optionally, the supporting frame body and the shed roof frame body are both made of carbon fiber composite aluminum alloy materials.

By adopting the technical scheme, the carbon fiber composite aluminum alloy material is used for manufacturing the support frame body and the shed roof frame body, so that the weight of the shed frame is reduced, and the bearing capacity of the shed frame is improved; the carbon fiber composite aluminum alloy has excellent corrosion resistance and wear resistance, can effectively resist wind and rain erosion and wear, and ensures the service life of the tent.

Optionally, the traction device further comprises an anti-loosening assembly, the anti-loosening assembly is located on one side of the wire pressing wheel, an anti-loosening bracket is arranged on one side of the wire pressing wheel, and the anti-loosening assembly comprises a pressing handle and a first locking piece;

a wire passing groove is formed in the anti-loosening bracket, and one end of the lapping traction rope passes through the wire passing groove after bypassing the wire pressing wheel;

the pressing handle is rotationally connected to the anti-loosening support, one end of the pressing handle can prop against the lapping traction rope, and the first locking piece is used for locking the pressing handle when the pressing handle props against the lapping traction rope.

By adopting the technical scheme, one end of the cloth-lapping traction rope passes through the wire passing groove after the wire pressing wheel is wound, and when the driving source drives the wire pressing wheel to rotate so that the cloth-lapping traction rope moves when pulling the cloth-pulling rod, one end of the cloth-lapping traction rope, which passes through the wire passing groove, moves towards the outside of the anti-loosening bracket; after the cloth-lapping traction rope drives the cloth-pulling rod to move to a proper position, the pressing handle is rotated, so that one end of the anti-loosening handle is abutted against the rope portion of the cloth-lapping traction rope, the traction cloth-lapping traction rope is limited, and the possibility that the cloth-lapping traction rope moves again when being close to the wire-pressing wheel is reduced. After one end of the compaction handle is compacted on the lapping traction rope, the position of the compaction handle is locked by using the first locking piece, so that the compaction effect of the compaction handle is enhanced.

Optionally, support body one side and be fixed with the installation pole, the spout has been seted up on the installation pole, wear to be equipped with first pivot in the first card rope pulley, first pivot slip set up in the spout, wear to be equipped with the second pivot in the second card rope pulley, second pivot fixed connection in on the installation pole, the driving piece is used for the drive first card rope pulley slides.

Through adopting above-mentioned technical scheme, the first pivot on the first rope pulley that blocks slides and sets up in the spout, has realized the sliding connection of first rope pulley on the installation pole, and the fixed connection on the installation pole is realized through the second pivot to the second rope pulley, and the first rope pulley of driving piece drive slides in the spout. When a lapping traction rope is required to be arranged between the first rope clamping pulley and the second rope clamping pulley in a penetrating manner, the first rope clamping pulley can slide in the direction away from the second rope clamping pulley, so that the lapping traction rope can conveniently pass through the space between the first rope clamping pulley and the second rope clamping pulley; after the first rope clamping pulley is loosened, the first rope clamping pulley slides to be close to the second rope clamping pulley under the action of the driving piece so as to clamp the lapping traction rope.

Optionally, the driving piece includes reset spring, reset spring is located in the spout, reset spring is used for driving first card rope pulley resets to the tight cloth haulage rope of lapping.

By adopting the technical scheme, when the lapping traction rope is required to be arranged between the first clamping rope Hua Hualun and the second clamping rope pulley in a penetrating way, the first clamping rope pulley can slide towards the direction away from the second clamping rope pulley, and the reset spring is in a compressed state at the moment, so that the lapping traction rope can conveniently pass through the space between the first clamping rope pulley and the second clamping rope pulley; after the first rope clamping pulley is loosened, the reset spring is restored to the original state so as to drive the first rope clamping pulley to slide towards the direction close to the second rope clamping pulley, and the first rope clamping pulley and the second rope clamping pulley can clamp the lapping traction rope.

Optionally, the supporting frame body includes a supporting upright, and a fixing device for installing the driving source is arranged on the supporting upright;

the fixing device comprises a driving assembly, a storage plate, a first fixing clamping plate and a second fixing clamping plate, wherein the first fixing clamping plate and the second fixing clamping plate are respectively arranged on two sides of the storage plate, one end of the storage plate is fixedly connected with the first fixing clamping plate, and a clamping groove for clamping the first fixing clamping plate or the second clamping plate is formed in the outer side wall of the supporting upright post;

the driving assembly comprises a bidirectional screw rod and an operating handle arranged at one end of the bidirectional screw rod, the first fixed clamping plate and the second fixed clamping plate are respectively in threaded connection with different threaded sections of the bidirectional screw rod, a guide rod is arranged on one side of the storage plate, and one end of the guide rod penetrates through the second fixed clamping plate.

Through adopting above-mentioned technical scheme, when installing the motor on the support frame body, remove the fixed bolster to support stand department for first fixed splint and second fixed splint are respectively with two joint grooves on the support stand one by one relatively, rotate operating handle and make the bi-directional screw rotate, and first fixed splint and second fixed splint are in order pegged graft in the joint inslot under the effect of bi-directional screw and guide bar relative movement, until first fixed splint and second fixed splint press from both sides tight support stand, in order to realize fixing device's installation on support stand, the setting of guide bar is in order to hinder the second fixed splint to rotate along with the bi-directional screw together. The fixing device is arranged to realize the detachable connection of the motor on the support frame body, and the motor can be installed without other tools.

Optionally, the spreading rod both ends all are provided with the follow-up sliding seat, the follow-up sliding seat include the loading board with rotate set up in the follow-up gyro wheel of loading board one side, the loading board keep away from one side of follow-up gyro wheel with the spreading rod can dismantle the connection.

Through adopting above-mentioned technical scheme, the facility of slide seat that follows makes the granny rag pole can rely on the gyro wheel that follows on canopy top support body to slide for the slip of granny rag pole is smoother, stable, has reduced the friction between granny rag pole and the canopy top support body, and the noise that produces when can reducing the tarpaulin and lay, prolongs the life of granny rag pole simultaneously.

Optionally, a cloth collecting mechanism is arranged at one side of the tent frame, the cloth collecting mechanism comprises a cloth folding frame and a cloth collecting traction rope, and the cloth collecting traction rope is used for connecting one end of the tent cloth far away from the cloth collecting traction rope;

the cloth folding frame comprises a plurality of sliding rollers which are arranged in parallel, two adjacent sliding rollers are arranged in a staggered mode, the cloth collecting traction rope is sequentially wound on the sliding rollers, and the traction device can drive the cloth collecting traction rope to move.

By adopting the technical scheme, when the tarpaulin paved on the shed roof frame body needs to be detached, the fixing device is detached from the support column provided with the adjusting support, so that the lapping traction rope is separated from the wire pressing wheel; and then the fixing device is arranged on the support upright post close to the cloth folding frame so as to realize the transfer of the parts of the traction device except the cloth folding traction rope and the fixing support, one end of the cloth folding traction rope, which is far away from the tarpaulin, is wound on the wire pressing wheel, one end of the cloth folding traction rope, which is close to the tarpaulin, is driven to move along the direction close to the cloth folding frame by a driving source in the traction device, and when the cloth folding traction rope moves, the tarpaulin can be driven to sequentially wind on a plurality of sliding rollers so as to detach the tarpaulin from the shed roof frame body.

Optionally, the cloth stacking frame further comprises a first moving bracket and a second moving bracket which are oppositely arranged, and the sliding roller is rotationally connected between the first moving bracket and the second moving bracket;

the sliding roller comprises a first auxiliary roller and a second auxiliary roller which are detachably connected, the first auxiliary roller is rotatably connected to the first movable support, and the sliding roller is rotatably connected to the second movable support.

By adopting the technical scheme, after the tarpaulin is transported to the cloth stacking frame along the top frame body through the traction device and the cloth collecting traction rope, the connection between the first auxiliary roller and the second auxiliary roller in each sliding roller can be disconnected, and then the first movable bracket and the second movable bracket are driven to move in a deviating way until the first auxiliary roller and the second auxiliary roller are completely separated from the tarpaulin; the tarpaulin falls freely under the effect of gravity to form folding state's tarpaulin, be convenient for operating personnel accomodate, arrange in order.

On the other hand, the application provides a method for constructing and dismantling a carbon fiber composite aluminum alloy tent, which adopts the following technical scheme: the carbon fiber composite aluminum alloy tent building method is used for building or dismantling the carbon fiber composite aluminum alloy tent and comprises the following steps,

s1: paving pretreatment, forming a containing sleeve at one end of the tarpaulin;

s2: the tarpaulin is installed, a cloth pulling rod penetrates through the accommodating sleeve to realize connection between the cloth pulling rod and the tarpaulin, a rope portion of the cloth pulling rope is tied to the end portion of the cloth pulling rod, and one end of the cloth pulling rope penetrates through a position between the first rope clamping pulley and the second rope clamping pulley;

s3: paving the awning cloth, starting a driving source to drive a wire pressing wheel to rotate, enabling a cloth-lapping traction rope to move towards the direction close to the wire pressing wheel under the action of the wire pressing wheel, driving the awning cloth to gradually move onto a roof frame body until the awning cloth completely covers the roof frame body, and then closing the driving source;

s4: removing pretreatment, namely detaching the fixing device from the tent frame, mounting the fixing device on a support upright post close to the cloth folding frame, and then winding one end of the cloth collecting traction rope far away from the tent cloth on a wire pressing wheel;

s5: the awning cloth is detached, a driving source is started to drive a wire pressing wheel to rotate, a cloth collecting traction rope moves towards the direction close to the wire pressing wheel under the action of the wire pressing wheel, the cloth collecting traction rope drives the awning cloth to sequentially bypass each sliding roller until the awning cloth is completely separated from a shed roof frame body, and then the driving source is closed;

s6: the awning cloth is folded, the connection between the first auxiliary roller and the second auxiliary roller in each sliding roller is disconnected, and the first movable support and the second movable support are enabled to move in a deviating way until each first auxiliary roller and each second auxiliary roller are completely separated from the awning cloth.

Through adopting above-mentioned technical scheme, realize that tarpaulin's automatic laying on the canopy roof support body is demolishd, need not to use removal settings such as fork truck or forklift to carry out supplementary granny rag, improved the convenience of tarpaulin laying and demolishment operation.

In summary, the present application includes at least one of the following beneficial effects:

1. the traction device is arranged in the application, the awning cloth can be moved onto the shed roof frame body by the rod under the action of the traction device and can be moved along the outer side wall of the shed roof frame body to completely cover the shed roof frame body, thereby realizing automatic paving of the awning cloth on the shed roof frame body and improving the convenience of paving the awning cloth;

2. according to the application, the support frame body and the shed roof frame body are both made of carbon fiber composite aluminum alloy materials, so that the weight of the shed frame can be reduced, and the bearing capacity of the shed frame can be improved; the carbon fiber composite aluminum alloy has excellent corrosion resistance and wear resistance, and the service life of the tent is ensured;

3. the random sliding seat is arranged on the cloth pulling rod, and the cloth pulling rod slides on the shed roof frame body through the random sliding seat, so that the sliding of the cloth pulling rod is smoother and more stable, the friction and collision between the cloth pulling rod and the shed roof frame body are reduced, the noise generated during the paving of tarpaulin can be reduced, and the service life of the cloth pulling rod is prolonged.

Drawings

FIG. 1 is a schematic view showing the overall structure of embodiment 1 of the present application;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1 at A;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1;

fig. 5 is a partially enlarged schematic view of a support column showing a specific position of mounting a driving source according to embodiment 1 of the present application;

FIG. 6 is an enlarged schematic view of the structure at D in FIG. 4;

FIG. 7 is a schematic view showing the overall structure of the awning cloth according to embodiment 2 of the present application laid on the roof frame;

fig. 8 is an exploded view of a cloth folding frame according to embodiment 2 of the present application.

Reference numerals illustrate: 1. tent frame; 11. a support frame body; 111. a support column; 1111. a clamping groove; 12. a mounting support; 13. a mounting rod; 131. a chute; 14. a roof frame body; 141. a shed roof beam; 142. connecting keels; 15. a guide pulley; 2. a traction device; 21. a pull rope is lapped; 211. rope sleeve; 22. a cloth pulling rod; 23. a wire pressing wheel; 231. a wire pressing rotating shaft; 24. a driving source; 25. an anti-loosening component; 251. a compression handle; 2511. an operation lever; 2512. rotating the strip; 2513. a pinch roller; 2514. a locking slide bar; 26. a first locking member; 27. a first bevel gear; 28. a second bevel gear; 3. a rope clamping device; 31. a first rope clamping pulley; 311. a first rotating shaft; 32. a second rope clamping pulley; 321. a second rotating shaft; 33. a driving member; 331. driving the pull rod; 332. a return spring; 4. a fixing device; 41. a drive assembly; 411. a bidirectional screw; 412. an operation handle; 42. a storage plate; 43. a first fixed splint; 44. a second fixed splint; 45. a guide rod; 5. a follower sliding seat; 51. a carrying plate; 52. a follower roller; 6. adjusting the support; 61. an adjusting plate; 611. angle adjusting holes; 62. a second locking member; 63. a telescopic rod; 631. a connecting cylinder; 6311. a height-adjusting hole; 632. an inner rod; 64. a third locking member; 7. a fixed support; 71. a mounting shell; 72. an anti-loose bracket; 721. an anti-loosening support plate; 7211. wire passing grooves; 722. a connecting rod; 723. the connecting rotating shaft; 7212. arc-shaped strip holes; 724. a plug ring; 8. a cloth collecting mechanism; 81. a slide roller; 811. a first sub roller; 812. a plug; 813. a second auxiliary roller; 814. a receiving groove; 82. a first movable bracket; 83. a second movable bracket; 84. collecting a cloth traction rope; 85. and a universal wheel.

Detailed Description

The application is described in further detail below with reference to fig. 1-7.

Example 1:

the embodiment 1 of the application provides a carbon fiber composite aluminum alloy tent.

Referring to fig. 1, the carbon fiber composite aluminum alloy tent includes a tent frame 1, the tent frame 1 includes a support frame 11 and a tent top frame 14 welded to the top of the support frame 11, the support frame 11 includes four support posts 111; the roof frame 14 includes a roof beam 141 disposed above the support frame 11 at intervals and a connection keel 142 welded and fixed below the roof beam 141, and the middle of the roof beam 141 tapers towards a direction away from the support frame 11 to form a bend, in this embodiment, two roof beams 141 are specifically disposed, and two ends of one roof beam 141 are welded and fixed with two support columns 111 respectively. The connection keels 142 are specifically provided with four, and four connection keels 142 are arranged at intervals. In other embodiments, the number of roof rails 141 and connecting keels 142 may be set according to particular needs.

In this embodiment, the supporting frame 11 and the shed roof frame 14 at the top of the supporting frame 11 are made of carbon fiber composite aluminum alloy.

Referring to fig. 1 and 2, for convenience in laying a tarpaulin onto a shed roof frame 14, a traction device 2 is provided on a shed frame 1. The traction device 2 comprises a lapping traction rope 21 and a cloth pulling rod 22. One side of the supporting frame body 11 is provided with a rope clamping device 3, and the rope clamping device 3 is arranged in one-to-one correspondence with the lapping traction ropes 21. The rope clamping device 3 comprises a first rope clamping pulley 31, a second rope clamping pulley 32 and a driving piece 33, wherein a first rotating shaft 311 is coaxially arranged in the first rope clamping pulley 31 in a penetrating way, and the first rope clamping pulley 31 is rotatably connected with the first rotating shaft 311 through a bearing; the second rope clamping pulley 32 is internally and coaxially provided with a second rotating shaft 321 in a penetrating way, and the second rope clamping pulley 32 is rotatably connected with the second rotating shaft 321 through a bearing. A mounting support 12 is fixed on one support column 111, a mounting rod 13 is fixedly connected to one side, away from the support column 111, of the mounting support 12, and a chute 131 is formed in the mounting rod 13; one end of the first rotating shaft 311 is slidably disposed in the chute 131, so as to realize sliding connection of the first rope clamping pulley 31 on the mounting rod 13, and one end of the second rotating shaft 321 is fixed on the mounting rod 13.

Referring to fig. 2, the driving member 33 includes a driving rod 331 and a return spring 332 sleeved on the driving rod 331, one end of the driving rod 331 passes through the inner sidewall of the chute 131 and is fixedly connected with the first rotating shaft 311, and the return spring 332 is abutted between the inner sidewall of the chute 131 and the first rotating shaft 311. Pulling the driving rod 331 in a direction away from the second rope clamping pulley 32 can drive the first rope clamping pulley 31 to move in a direction away from the second rope clamping pulley 32; after the driving pull rod 331 is released, the return spring 332 gradually returns to its original length to drive the first rope clamping pulley 31 to slide in a direction approaching the second rope clamping pulley 32 to abut against the second rope clamping pulley 32. In the present embodiment, two cloth pulling ropes 21 are specifically provided, and the two cloth pulling ropes 21 are respectively located at two sides of the roof frame 14, and two sets of rope clamping devices 3 are correspondingly provided. One end of the cloth hauling rope 21, which is close to the rope clamping device 3, passes through the space between the first rope clamping pulley 31 and the second rope clamping pulley 32, so that the rope portion of the cloth hauling rope 21 is clamped by the first rope clamping pulley 31 and the second rope clamping pulley 32.

Referring to fig. 2, the cloth pulling rod 22 is located at one side of the canopy frame 14 near the rope clamping device 3, and the cloth pulling rod 22 is disposed parallel to the connection keel 142. The rope portion of the cloth pulling rope 21 at the position of the cloth pulling rod 22 is connected with the cloth pulling rod 22, and in this embodiment, a rope sleeve 211 is formed on the cloth pulling rope 21, and the rope sleeve 211 is sleeved at the end of the cloth pulling rod 22. When the cloth-carrying traction rope 21 moves, the cloth-carrying rod 22 is driven to slide along the shed roof frame 14. The awning cloth side end is connected to the spreading rod 22 to drive the awning cloth to move to the awning top frame 14, and the awning cloth gradually covers the awning top frame 14.

Referring to fig. 1 and 2, the two ends of the spreading rod 22 are provided with follower sliding seats 5, and the follower sliding seats 5 comprise a bearing plate 51 and two follower rollers 52 rotatably connected to one side of the bearing plate 51, wherein the follower rollers 52 are located on one side of the bearing plate 51 away from the spreading rod 22. The bearing plate 51 is provided with a clamping block at one side close to the spreading bars 22, the spreading bars 22 are specifically arranged in a hollow strip shape, and the clamping block is inserted into the end parts of the spreading bars 22 so as to realize the connection between the follower sliding seat 5 and the spreading bars 22.

When the cloth-lapping traction rope 21 drives the cloth-pulling rod 22 to slide, the follower roller 52 on the follower sliding seat 5 slides on the roof beam 141 at the side end in the five roof beams 141, and the cloth-pulling rod 22 is in a suspended state. The movement of the cloth pulling rod 22 is smoother, the friction and collision between the cloth pulling rod 22 and the shed roof beam 141 are reduced, and the noise generated when the cloth pulling rod 22 slides can be reduced.

Referring to fig. 1 and 3, an adjusting support 6 corresponding to the rope clamping device 3 one by one is disposed on one side of the supporting frame 11 away from the rope clamping device 3, in this embodiment, two adjusting supports 6 are specifically disposed, and the adjusting supports 6 are welded and fixed on the supporting upright 111. The adjusting support 6 comprises an adjusting plate 61 and a telescopic rod 63 rotatably connected to the adjusting plate 61, and one end of the telescopic rod 63 away from the adjusting plate 61 is rotatably provided with a guide pulley 15. A plurality of angle adjusting holes 611 are formed in one side, away from the supporting upright post 111, of the adjusting plate 61, and the angle adjusting holes 611 are arranged at intervals around the rotation axis of the telescopic rod 63. In the present embodiment, the angle adjusting holes 611 are provided with five at equal intervals along the rotation axis of the telescopic rod 63. The adjusting plate 61 is further provided with a second locking member 62, the second locking member 62 is specifically provided as a locking bolt, and the telescopic rod 63 is provided with a threaded hole for threaded connection of the locking bolt. When the telescopic rod 63 rotates to a proper inclination angle, the locking bolt passes through the angle adjusting hole 611 and then is connected in the threaded hole on the telescopic rod 63 in a threaded manner, so that the telescopic rod 63 is locked, and the guide pulley 15 is positioned at a proper position.

Referring to fig. 3, the telescopic rod 63 includes a coupling cylinder 631 and an inner rod 632 slidably disposed in the coupling cylinder 631, one end of the coupling cylinder 631 is hinged to the adjustment plate 61, and the guide pulley 15 is rotatably coupled to one end of the inner rod 632 remote from the adjustment plate 61. The outer side wall of the connecting tube 631 is provided with a plurality of height adjusting holes 6311 at intervals along the length direction thereof, the inner rod 632 is provided with a plug hole, and the connecting tube 631 is also provided with a third locking piece 64. In this embodiment, the third locking member 64 is specifically configured as a plug bolt, and slides the inner rod 632, so that the telescopic rod 63 can sequentially pass through the height adjusting hole 6311 and the plug hole after being telescopic to a proper length, and lock the position of the inner rod 632 in the connecting tube 631, thereby realizing the adjustment of the position of the guide pulley 15. The arrangement of the adjusting support 6 improves the applicability of the guide pulley 15, and the lapping traction rope 21 is wound on the guide pulley 15 after being connected with the cloth pulling rod 22.

Referring to fig. 4 and 5, the traction device 2 further includes a wire pressing wheel 23 and a driving source 24, the wire pressing wheel 23 rotates on one side of the supporting frame 11, and the driving source 24 is used for driving the wire pressing wheel 23 to rotate. A fixed support 7 is arranged below the two adjusting supports 6. A mounting case 71 having one end opened is fixed to the fixing support 7, and the opening of the mounting case 71 is directed upward in this embodiment. The wire pressing wheel 23 is positioned in the mounting shell 71, and a wire pressing rotating shaft 231 is arranged in the wire pressing wheel 23 in a penetrating manner; one end of the wire pressing rotating shaft 231 sequentially penetrates through the mounting shell 71 and the fixed support 7, and the wire pressing rotating shaft 231 is rotatably connected with the fixed support 7 through a bearing. The outer circumferential side wall of the wire pressing wheel 23 is provided with an accommodating ring groove, and the lapping traction rope 21 continuously winds into the accommodating ring groove of the wire pressing wheel 23 after bypassing the guide pulley 15, and winds at least one circle on the wire pressing wheel 23.

Referring to fig. 5, the driving source 24 is fixed on the fixed support 7, in this embodiment, the driving source 24 is specifically configured as a motor, and an output shaft of the motor passes through the fixed support 7, one end of the output shaft of the motor is coaxially fixed with a first bevel gear 27, one end of the wire pressing rotating shaft 231, which is far from the wire pressing wheel 23, is coaxially fixed with a second bevel gear 28, and the second bevel gear 28 is meshed with the first bevel gear 27. The motor is started to drive the wire pressing rotating shaft 231 to rotate, so that the wire pressing wheel 23 is indirectly driven to rotate.

Referring to fig. 4 and 5, the mounting case 71 is provided with a locking bracket 72, the locking bracket 72 includes two locking brackets 721 fixed to both sides of the mounting case 71, and a connecting rod 722 is fixedly connected between the two locking brackets 721. The anti-loosening support plate 721 is provided with a wire passing groove 7211, and the cloth-lapping traction rope 21 passes through the anti-loosening support plate 721 along the wire passing groove 7211 after being wound on the wire pressing wheel 23.

Referring to fig. 4 and 6, the anti-loosening bracket 72 is provided with an anti-loosening assembly 25, and the anti-loosening assembly 25 includes a pressing handle 251 and a first locking piece 26. The pressing handle 251 includes an operation rod 2511, a rotation bar 2512 fixedly coupled to one end of the operation rod 2511, and a pressing wheel 2513 fixedly coupled to one end of the rotation bar 2512. A connection shaft 723 is provided on one of the anti-loosening brackets 721, and the connection shaft 723 also passes through the rotation bar 2512 and is rotatably connected with the rotation bar 2512 to achieve the rotational connection of the anti-loosening assembly 25 on the anti-loosening bracket 721. The anti-loosening support plate 721 is further provided with an arc-shaped bar hole 7212, one end of the rotating bar 2512 is fixedly welded with an anti-loosening slide bar 2514, one end of the anti-loosening slide bar 2514 is arranged in the arc-shaped bar hole 7212 in a penetrating mode, and when the operating rod 2511 is rotated, the anti-loosening slide bar 2514 can slide in the arc-shaped bar hole 7212.

Referring to fig. 4 and 6, the presser wheel 23 can be driven to rotate to drive the cloth pulling rope 21 to move in the direction of the locking bracket 72 along the rope clamping device 3 (not shown in the drawings), so that the cloth pulling rope 21 drives the cloth pulling rod 22 (not shown in the drawings) to slide from one side of the shed roof frame body 14 (not shown in the drawings) to the other side of the shed roof frame body 14. The tarpaulin attached to the cloth pulling rod 22 moves with the cloth pulling rod 22 to gradually cover the roof frame body 14. When the cloth-taking traction rope 21 moves under the action of the wire pressing wheel 23, one end of the cloth-taking traction rope 21 penetrating through the wire groove 7211 can gradually move towards a direction away from the anti-loosening bracket 72; the cloth pulling rope 21 can be pulled manually to move the end of the cloth pulling rope 21 penetrating through the wire groove 7211 in a direction away from the anti-loosening bracket 72 until the awning cloth completely covers the awning top frame 14.

When the awning cloth completely covers the awning top frame 14, the operating handle 412 is rotated, so that the pinch roller 2513 rotates towards the direction close to the pinch roller 23 until the awning cloth traction rope 21 on the pinch roller 23 abuts against, and the possibility that the awning cloth traction rope 21 moves again is reduced.

Referring to fig. 4 and 6, the locking support plate 721 is further fixed with two insert rings 724, and the insert rings 724 are arranged at intervals. In the present embodiment, the first locking member 26 is specifically provided as a locking pin. After the pressing wheel 2513 abuts against the lapping traction rope 21 on the pressing wire wheel 23, the anti-loose pin is inserted into the insertion ring 724; at this time, the locking slide rod 2514 is clamped between the inner side wall of the arc slide hole and the locking pin, so that the position of the pressing handle 251 is locked, and the pressing wheel 2513 is not easy to move after being abutted against the cloth pulling rope 21.

Referring to fig. 4 and 5, the fixing support 7 is detachably connected to the supporting upright 111, and a fixing device 4 is provided at a side of the fixing support 7 away from the motor, and the fixing device 4 includes a first fixing splint 43, a second fixing splint 44, a storage plate 42 disposed between the first fixing splint 43 and the second fixing splint 44, and a driving assembly 41. One end of the object placing plate 42 is fixedly connected with the first fixing clamp plate 43, and the object placing plate 42 is fixedly connected with the fixing support 7 through bolts. The driving assembly 41 comprises a bidirectional screw 411 and an operating handle 412 hinged to one end of the bidirectional screw 411, the first fixed clamping plate 43 and the second fixed clamping plate 44 are oppositely arranged, and the first fixed clamping plate 43 and the second fixed clamping plate 44 are respectively in threaded connection with different threaded sections of the bidirectional screw 411; the driving assembly 41 further comprises a guide rod 45, and the guide rod 45 is fixed on one side of the storage plate 42, which is close to the bidirectional screw rod. One end of the guide rod 45 penetrates out of the second fixed clamping plate 44, and the other end of the guide rod 45 is fixedly connected with the first fixed clamping plate 43. The first fixing clamp plate 43 and the second fixing clamp plate 44 can be driven to move relatively or reversely by rotating the operating handle 412.

Referring to fig. 4 and 5, the supporting upright 111 is provided with clamping grooves 1111 for clamping the side ends of the first fixing clamp plate 43 or the second fixing clamp plate 44, the first fixing clamp plate 43 and the second fixing clamp plate 44 are respectively opposite to the two clamping grooves 1111 on the supporting upright 111 one by one, and the operating handle 412 is rotated to enable the bidirectional screw 411 to rotate so as to drive the first fixing clamp plate 43 and the second fixing clamp plate 44 to relatively move and be inserted into the clamping grooves 1111; until the first fixing clip 43 and the second fixing clip 44 clip the support column 111, thereby achieving the mounting fixation of the fixing support 7 on the support column 111.

The implementation principle of the carbon fiber composite aluminum alloy tent of the embodiment 1 of the application is as follows: one end of the tarpaulin is provided with a containing sleeve, the tarpaulin rod 22 passes through the containing sleeve, the rope part of the lapping traction rope 21, which is close to the tarpaulin rod 22, is knotted to form a rope sleeve 211, the rope sleeve 211 on the lapping traction rope 21 is sleeved at the end part of the tarpaulin rod 22, and then the clamping blocks on the two following sliding seats 5 are respectively clamped and spliced at the two ends of the tarpaulin rod 22. The motor is started to drive the wire pressing wheel 23 to rotate, so that one end of the cloth-lapping traction rope 21 penetrating through the wire groove 7211 moves in a direction away from the anti-loosening support plate 721, and the cloth-pulling rod 22 is driven to slide to the other side of the shed roof frame body 14 along one side of the shed roof frame body 14, and the cloth-pulling rod 22 drives the awning cloth to gradually cover the shed roof frame body 14. After the awning cloth covers the top of the awning top frame 14 completely, the operation rod 2511 of the pressing handle 251 is rotated, and the pressing wheel 2513 is driven to rotate towards the direction close to the pressing wheel 23 until the pressing wheel 2513 abuts against the rope portion of the lapping traction rope 21 on the pressing wheel 23. And then the locking pins are sequentially inserted into the two insertion rings 724 to lock the position of the pressing handle 251. The laying of the awning cloth on the shed roof frame 14 is completed.

Example 2:

the embodiment 2 of the application provides a carbon fiber composite aluminum alloy tent.

Referring to fig. 7, this embodiment differs from embodiment 1 in that a cloth collecting mechanism 8 is provided on the side of the tent frame 1 close to the rope clamping device 3. The cloth collecting mechanism 8 comprises a cloth folding frame and a cloth collecting traction rope 84, wherein the cloth folding frame comprises a first movable support 82, a second movable support 83 and a sliding roller 81 arranged between the first movable support 82 and the second movable support 83. The first movable bracket 82 and the second movable bracket 83 are arranged opposite to each other, and universal wheels 85 with brakes are arranged at the bottoms of the first movable bracket 82 and the second movable bracket 83. The sliding rollers 81 are provided with a plurality of sliding rollers 81, the sliding rollers 81 are arranged between the first moving bracket 82 and the second moving bracket 83 at equal intervals along the vertical direction, and two sliding rollers 81 arranged adjacently are arranged in a transverse dislocation mode. In the present embodiment, six slide rollers 81 are provided specifically.

Referring to fig. 8, each slide roller 81 is composed of a first sub roller 811 and a second sub roller 813 which are detachably connected, a plug 812 is integrally formed at one end of the first sub roller 811, and one end of the first sub roller 811 away from the plug 812 is rotatably connected with the first movable bracket 82; the second auxiliary roller 813 is provided with an accommodating groove 814 for the plugging of the plugging head 812, and one end of the second auxiliary roller 813 away from the accommodating groove 814 is rotatably connected with the second movable bracket 83. The first moving bracket 82 and the second moving bracket 83 are driven to move away from each other, so that the plug 812 slides out of the accommodating groove 814, and the first moving bracket 82 and the second moving bracket 83 are separated.

Referring to fig. 7, in the present embodiment, two cloth pulling ropes 84 are provided. One end of the cloth retraction pulling rope 84 is connected with one end of the tarpaulin which is far away from the cloth pulling rod 22. When the cloth collecting traction rope 84 is connected with the awning cloth, the cloth collecting traction rope 84 is tied to the side end of the awning cloth through a hole formed in the awning cloth, and in other embodiments, a clamp can be connected to the cloth collecting traction rope 84, and the awning cloth is clamped by the clamp so as to realize connection between the cloth collecting traction rope 84 and the awning cloth.

Referring to fig. 7, when it is desired to perform a tarpaulin removal, it is necessary to detach both fixing devices 4 from the support columns 111 on which the adjustment holders 6 are mounted and to mount the fixing devices 4 to the support columns 111 on which the clamping devices 3 are provided. (the attachment and detachment of the fixing device 4 are the same as those of the fixing device 4 in embodiment 1.) the parts of the traction device 2 on the fixing device 4 except the cloth traction rope 21 and the fixing support 7 are transferred along with the movement of the fixing device 4. One end of the cloth collecting traction rope 84 far away from the awning cloth is sequentially wound around each sliding roller 81 and then wound on the wire pressing wheel 23, and the cloth collecting traction rope 84 passes through the wire groove 7211 after being wound on the wire pressing wheel 23 for at least one circle.

The motor is then started to drive the pressing wheel 23 to rotate, so that one end of the cloth collecting traction rope 84, which is close to the tarpaulin, moves towards the direction close to the cloth folding frame. The tarpaulin gradually moves towards the direction close to the cloth folding frame under the drive of the cloth folding traction rope 84, so that the tarpaulin is sequentially wound on each sliding roller 81. When the end of the awning cloth, which is connected with the spreading rod 22, moves to the tail end of the shed roof frame body 14, the spreading rod 22 is detached from the awning cloth; the cloth-collecting pulling rope 84 continues to pull the tarpaulin to move until the tarpaulin is completely separated from the shed roof frame body 14, and the motor can be turned off. At this time, the first moving bracket 82 and the second moving bracket 83 are pulled so that the first moving bracket 82 and the second moving bracket 83 are moved away from each other until the first sub roller 811 and the second sub roller 813 in each slide roller 81 are both disengaged from the awning cloth; the awning cloth falls freely under the action of gravity to form a folded state.

Example 3:

the present embodiment differs from embodiment 2 in that the adjustment support 6 on the support column 111 is replaced by a clip rope arrangement 3.

The application also provides a method for constructing and dismantling the carbon fiber composite aluminum alloy tent house, which comprises the following steps,

s1: paving pretreatment, forming a containing sleeve at one end of the tarpaulin;

folding the side end of the awning cloth, and sewing the side end of the awning cloth to the surface of the awning cloth to form a containing sleeve;

s2: the tarpaulin is installed, the tarpaulin rod 22 passes through the accommodating sleeve to realize the connection between the tarpaulin rod 22 and the tarpaulin, the rope part of the lapping traction rope 21 is tied at the end part of the tarpaulin rod 22, and then one end of the lapping traction rope 21 passes through the space between the first rope clamping pulley 31 and the second rope clamping pulley 32;

s3: the awning cloth is paved, a motor is started to drive a wire pressing wheel 23 to rotate, so that a cloth-lapping traction rope 21 moves towards the direction close to the wire pressing wheel 23 under the action of the wire pressing wheel 23, the awning cloth is driven to gradually move onto the awning top frame body 14 until the awning cloth completely covers the awning top frame body 14, and then the motor is turned off;

s4: the fixing device 4 is detached from the tent frame 1 and then is mounted on the support upright 111 close to the cloth folding frame, and then one end of the cloth collecting traction rope 84, which is far away from the tent cloth, is wound on the wire pressing wheel 23;

s5: the awning cloth is detached, the driving source 24 is started to drive the pressing wheel 23 to rotate, the cloth collecting traction rope 84 moves towards the direction close to the pressing wheel 23 under the action of the pressing wheel 23, the awning cloth is driven by the cloth collecting traction rope 84 to sequentially bypass each sliding roller 81 until the awning cloth is completely separated from the shed roof frame body 14, and then the driving source 24 is closed;

s6: the awning cloth is folded, and the connection between the first sub roller 811 and the second sub roller 813 in each slide roller 81 is broken, so that the first moving bracket 82 and the second moving bracket 83 are moved away from each other until each of the first sub roller 811 and the second sub roller 813 is completely separated from the awning cloth.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. Carbon fiber composite aluminum alloy covering or awning on a car, boat, etc. room, its characterized in that includes:

the tent frame (1), the tent frame (1) comprises a support frame body (11) and a tent top frame body (14) fixed above the support frame body (11), and a guide pulley (15) is arranged on one side of the support frame body (11);

the traction device (2), the traction device (2) comprises a lapping traction rope (21), a cloth pulling rod (22) and a wire pressing wheel (23), the cloth pulling rod (22) is connected with the lapping traction rope (21), one end of the lapping traction rope (21) is wound on the wire pressing wheel (23) along the guide pulley (15), the wire pressing wheel (23) is rotatably arranged on one side of the support frame body (11), and a driving source (24) for driving the wire pressing wheel (23) to rotate is arranged on the support frame body (11);

the rope clamping device (3), the rope clamping device (3) is positioned on one side, far away from the wire pressing wheel (23), of the supporting frame body (11), the rope clamping device (3) comprises a first rope clamping pulley (31) and a second rope clamping pulley (32) which are oppositely arranged, and a driving piece (33) used for driving the first rope clamping pulley (31) and the second rope clamping pulley (32) to slide in opposite directions, and one end, far away from the wire pressing wheel (23), of the lapping traction rope (21) is clamped between the first rope clamping pulley (31) and the second rope clamping pulley (32);

the traction device (2) further comprises an anti-loosening assembly (25), the anti-loosening assembly (25) is located on one side of the wire pressing wheel (23), an anti-loosening bracket (72) is arranged on one side of the wire pressing wheel (23), and the anti-loosening assembly (25) comprises a pressing handle (251) and a first locking piece (26);

a wire passing groove (7211) is formed in the anti-loosening bracket (72), and one end of the lapping traction rope (21) passes through the wire passing groove (7211) after bypassing the wire pressing wheel (23);

the pressing handle (251) is rotatably connected to the anti-loosening bracket (72), one end of the pressing handle (251) can abut against the lapping traction rope (21), and the first locking piece (26) is used for locking the pressing handle (251) when the pressing handle (251) abuts against the lapping traction rope (21);

the two ends of the spreading rod (22) are respectively provided with a follower sliding seat (5), the follower sliding seats (5) comprise a bearing plate (51) and follower rollers (52) rotatably arranged on one side of the bearing plate (51), and one side, far away from the follower rollers (52), of the bearing plate (51) is detachably connected with the spreading rod (22);

a cloth collecting mechanism (8) is arranged on one side of the tent frame (1), the cloth collecting mechanism (8) comprises a cloth folding frame and a cloth collecting traction rope (84), and the cloth collecting traction rope (84) is used for connecting one end, far away from the cloth collecting traction rope (21), of the tent cloth;

the cloth folding frame comprises a plurality of sliding rollers (81) which are arranged in parallel, two adjacent sliding rollers (81) are arranged in a staggered mode, a cloth collecting traction rope (84) is sequentially wound on the sliding rollers (81), and the traction device (2) can drive the cloth collecting traction rope (84) to move.

2. The carbon fiber composite aluminum alloy tent according to claim 1, wherein the support frame body (11) and the tent roof frame body (14) are both made of the carbon fiber composite aluminum alloy material.

3. The carbon fiber composite aluminum alloy tent according to claim 1, wherein a mounting rod (13) is fixed on one side of the support frame body (11), a chute (131) is formed in the mounting rod (13), a first rotating shaft (311) is arranged in the first rope clamping pulley (31) in a penetrating manner, the first rotating shaft (311) is arranged in the chute (131) in a sliding manner, a second rotating shaft (321) is arranged in the second rope clamping pulley (32) in a penetrating manner, the second rotating shaft (321) is fixedly connected to the mounting rod (13), and the driving piece (33) is used for driving the first rope clamping pulley (31) to slide.

4. A carbon fibre composite aluminium alloy tent according to claim 3, characterized in that the driving member (33) comprises a return spring (332), the return spring (332) is located in the chute (131), the return spring (332) is used for driving the first rope clamping pulley (31) to return to abutting the cloth hauling rope (21).

5. The carbon fiber composite aluminum alloy tent according to claim 1, wherein the support frame body (11) comprises a support upright (111), and a fixing device (4) for installing the driving source (24) is arranged on the support upright (111);

the fixing device (4) comprises a driving assembly (41), a storage plate (42) and a first fixing clamp plate (43) and a second fixing clamp plate (44) which are respectively arranged at two sides of the storage plate (42), one end of the storage plate (42) is fixedly connected with the first fixing clamp plate (43), and a clamping groove (1111) for clamping the first fixing clamp plate (43) or the second clamp plate is formed in the outer side wall of the supporting upright post (111);

the driving assembly (41) comprises a bidirectional screw rod (411) and an operating handle (412) arranged at one end of the bidirectional screw rod (411), the first fixed clamping plate (43) and the second fixed clamping plate (44) are respectively connected to different threaded sections of the bidirectional screw rod (411) in a threaded mode, a guide rod (45) is arranged on one side of the storage plate (42), and one end of the guide rod (45) penetrates through the second fixed clamping plate (44).

6. The carbon fiber composite aluminum alloy tent of claim 1, wherein the cloth folding frame further comprises a first movable bracket (82) and a second movable bracket (83) which are oppositely arranged, and the sliding roller (81) is rotatably connected between the first movable bracket (82) and the second movable bracket (83);

the sliding roller (81) comprises a first auxiliary roller (811) and a second auxiliary roller (813) which are detachably connected, the first auxiliary roller (811) is rotatably connected to the first movable bracket (82), and the sliding roller (81) is rotatably connected to the second movable bracket (83).

7. A method for constructing and dismantling a carbon fiber composite aluminum alloy tent, which is characterized by comprising the following steps of,

s1: paving pretreatment, forming a containing sleeve at one end of the tarpaulin;

s2: the tarpaulin is installed, a cloth pulling rod (22) passes through the accommodating sleeve to realize the connection between the cloth pulling rod (22) and the tarpaulin, the rope part of the cloth pulling rope (21) is tied at the end part of the cloth pulling rod (22), and one end of the cloth pulling rope (21) passes through the space between the first rope clamping pulley (31) and the second rope clamping pulley (32);

s3: the awning cloth is paved, a driving source (24) is started to drive a wire pressing wheel (23) to rotate, a lapping traction rope (21) moves towards a direction close to the wire pressing wheel (23) under the action of the wire pressing wheel (23), the awning cloth is driven to gradually move to a shed roof frame body (14) until the awning cloth completely covers the shed roof frame body (14), and then the driving source (24) is closed;

s4: the method comprises the steps of removing pretreatment, detaching a fixing device (4) from a tent frame (1), installing the fixing device on a support upright post (111) close to a cloth folding frame, and then winding one end, far away from the tent cloth, of a cloth collecting traction rope (84) onto a wire pressing wheel (23);

s5: the awning cloth is detached, a driving source (24) is started to drive a wire pressing wheel (23) to rotate, a cloth collecting traction rope (84) moves towards the direction close to the wire pressing wheel (23) under the action of the wire pressing wheel (23), the awning cloth collecting traction rope (84) drives the awning cloth to sequentially bypass each sliding roller (81) until the awning cloth is completely separated from a shed roof frame body (14), and then the driving source (24) is closed;

s6: the awning cloth is folded, the connection between the first auxiliary roller (811) and the second auxiliary roller (813) in each sliding roller (81) is disconnected, and the first movable bracket (82) and the second movable bracket (83) are moved away from each other until each of the first auxiliary roller (811) and the second auxiliary roller (813) is completely separated from the awning cloth.