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CN-122013924-A - Wind-proof processing shed

CN122013924ACN 122013924 ACN122013924 ACN 122013924ACN-122013924-A

Abstract

The invention relates to the technical field of engineering construction buildings, in particular to a wind-proof processing shed, which is characterized in that a flexible built-in ceiling is arranged in a shed frame, the periphery of the flexible built-in ceiling is guided to move downwards to be led into a storage groove at the periphery of a base station by a guide assembly during shutdown protection, and then the circumferential continuous locking is realized by a locking part, so that the windward height of the ceiling is reduced, the windward area is reduced, and meanwhile, the lifting and loosening risks caused by the entering of wind from the periphery are reduced by the continuous constraint of the periphery; and the ceiling is still kept at the upper part in the shed under the operation state, the traffic opening is not occupied, the switching steps between shutdown protection and recovery operation are clear, the repeated operation is convenient, and the rapid protection device is suitable for the rapid protection requirement of a region with frequent strong wind before the arrival of strong wind.

Inventors

  • TANG YILAN
  • QIU JIALE
  • ZHANG YAN
  • LIU LEI
  • GAO YIMING
  • WANG LEI
  • GONG DANPING

Assignees

  • 中交一公局集团建筑工程有限公司

Dates

Publication Date
20260512
Application Date
20260225

Claims (10)

  1. 1. The utility model provides a keep away wind processing canopy, is applied to the semi-open type processing operation of building construction scene, characterized in that includes: A base station; the shed frame is arranged on the base platform and comprises a plurality of upright posts and top beams, wherein the upright posts are arranged along the periphery of the base platform, the top beams are connected with the upper ends of the upright posts, and openings for people and materials to enter and exit are formed among the upright posts; The built-in ceiling is a flexible ceiling and is arranged in the shed frame, the top of the built-in ceiling is connected with the top beam through a ceiling hanging assembly arranged on the top beam so as to be kept at the upper part in the shed in an operation state, and the built-in ceiling is provided with a periphery extending along the circumferential direction; a perimeter receiving locking structure provided at a perimeter of the base, the perimeter receiving locking structure including a receiving groove extending along the perimeter of the base and surrounding to a closed perimeter for receiving the perimeter in a wind-shielding state, and a locking portion for holding the perimeter entering the receiving groove in the receiving groove; the guide assembly is arranged on at least part of the upright posts and is connected with the periphery, and the periphery is guided in the process of downwards moving the built-in ceiling from the upper part in the shed so as to be guided into the storage groove when the periphery downwards moves in place; in the wind-shielding state, the periphery enters the storage groove under the guidance of the guide assembly and is held by the locking part, so that a circumferential locking boundary is formed at the periphery of the base, and processing equipment and materials in the shed are covered.
  2. 2. The wind-shelter processing shed as claimed in claim 1, wherein the roof hanging assembly comprises a plurality of fixing members provided on the roof rail and detachably connected to the top of the built-in roof, respectively, to hold the built-in roof at an upper portion in the shed and stably fix the position thereof in an operational state.
  3. 3. The wind-shelter processing shed as claimed in claim 2, wherein the roof beams form a roof framework and comprise a plurality of bending beams extending in the width direction of the shed and a plurality of connecting beams extending in the length direction of the shed and connecting adjacent bending beams; The ceiling hanging assembly further comprises a plurality of slings, the slings are respectively and correspondingly fixed at the vault of each bending beam, the slings are sequentially arranged at intervals in the length direction of the shed, the upper end of each sling is connected with the vault of the corresponding bending beam, the lower end of each sling is connected with the top of the built-in ceiling, the slings are used for limiting the downward moving height of the built-in ceiling in a wind-shielding state, and a reserved gap is reserved between the built-in ceiling and processing equipment in the shed in the limiting state.
  4. 4. The wind-shelter processing shed as claimed in claim 3, wherein the arch top of the bending beam is provided with a avoidance accommodating portion for installing and accommodating the driving main body at the upper end of the sling, the avoidance accommodating portion is formed by bending the bending beam locally at the arch top, and a hanging connecting piece connected with the driving main body at the upper end of the sling is arranged in the avoidance accommodating portion; The built-in ceiling comprises a hard plate arranged at the top of the built-in ceiling and in fit connection with the built-in ceiling, and the lower end of the sling is connected with the hard plate.
  5. 5. The shelter from wind treatment booth according to any one of claims 1 to 4, wherein the guide assembly comprises a vertical chute provided on the upright and a slider in sliding engagement with the vertical chute, the slider being connected to the periphery of the built-in roof; The periphery of the built-in ceiling is in a wave-shaped outline along the circumferential direction and sequentially forms a plurality of wave crest parts and wave trough parts, and the sliding parts are respectively connected with the wave crest parts; the vertical slideway comprises an inclined guide-in section positioned at the bottom end of the upright post, and the inclined guide-in section obliquely extends towards the notch direction of the storage groove and stretches into the storage groove; the locking part comprises a butt joint receiving piece arranged in the storage groove, the butt joint receiving piece is connected with the inclined leading-in section and is used for receiving the sliding piece and locking the sliding piece at a preset position in the storage groove.
  6. 6. The shelter from wind processing shed as in claim 5, wherein the perimeter receiving latch arrangement further comprises a slot cover assembly disposed at the slot opening of the receiving slot, the slot cover assembly comprising a cover plate movable relative to the receiving slot, the cover plate being in a cover position and covering the slot opening of the receiving slot in an operational state, and an upper surface of the cover plate in the cover position being flush with an upper surface of the base station.
  7. 7. The shelter from wind processing shed according to claim 6, wherein the cover plate comprises a plurality of plate sections arranged in sequence along the extending direction of the receiving slot, wherein the plurality of plate sections comprise a plurality of reversible support sections; The side wall of the reversible supporting section is in reversible connection with the inner wall of the accommodating groove and can be turned between a sealing cover state and a supporting state, wherein in the sealing cover state, the reversible supporting section is accommodated in the accommodating groove and is flush with the upper surface of the base table; The rest of the plurality of plate segments except the reversible supporting segment are detachable cover plate segments, and the detachable cover plate segments are placed at the notch of the containing groove in the sealing cover state so as to cover the notch of the containing groove.
  8. 8. The shelter from wind of claim 7, in which the support section comprises a first surface and a second surface disposed opposite each other, the first surface being planar and the second surface being a streamlined curved surface, the second surface facing and abutting the peripheral edge of the built-in roof in the supported condition, and the first surface facing away from the built-in roof.
  9. 9. The shelter from wind processing shed according to claim 7, wherein the receiving slot is provided in segments along the direction in which it extends, and comprises a plurality of receiving sections corresponding to the uprights and supporting receiving sections between two adjacent receiving sections; Each receiving accommodating section forms a mounting space in the groove for mounting a butt joint receiving piece, and the butt joint receiving piece is arranged in the mounting space and positioned at a position corresponding to an introduction path of the guide assembly so as to receive the sliding piece introduced by the guide assembly; the support accommodating section forms an accommodating space for accommodating the reversible support section in the groove, an overturning connecting part is arranged at the inner wall of the support accommodating section, and the side wall of the reversible support section is in overturning connection with the support accommodating section through the overturning connecting part, so that the reversible support section is accommodated in the accommodating space in a sealing cover state and is flush with the upper surface of the base table, and is overturned to vertically extend out of the notch of the accommodating groove in a supporting state; The bottom of the supporting and accommodating section is provided with a plugging matching groove, the opening of the plugging matching groove faces to the notch of the accommodating groove, the bottom of the reversible supporting section in the supporting state is provided with a plugging part matched with the plugging matching groove, and the plugging part is inserted into the plugging matching groove in the supporting state so as to compress and hold the periphery of the built-in ceiling in the accommodating groove.
  10. 10. The shelter from wind process of claim 6, wherein the periphery of the built-in roof is provided with a constriction in at least one peripheral section between two adjacent uprights, the constriction being configured to constrict the peripheral section to form a stackable peripheral section which can be introduced into the receiving slot in a shelter from wind and held in compression within the receiving slot when the closure panel is in the closed position.

Description

Wind-proof processing shed Technical Field The invention relates to the technical field of engineering construction buildings, in particular to a wind-proof processing shed. Background The construction site is usually required to be provided with a temporary semi-open type processing operation shed for blanking, cutting, polishing and welding of members such as steel bars, sectional materials and formwork accessories, and temporary stacking of tools and materials. Because the construction site is limited, the operation organization is frequent, personnel and materials are intensive to get in and out, the processing operation shed is often required to be reserved with openings in the circumferential direction, so that personnel pass, materials are transported and equipment is convenient to get in and out, and meanwhile, the processing equipment is convenient to arrange, overhaul and move. The processing operation shed in the existing construction site mostly adopts a simple shed frame to form a shielding structure by matching with tarpaulin or plates. In order to meet the operation requirement of semi-open, a continuous closed enclosure structure is usually lacking in the lateral direction or the circumferential direction, and in open air, temporary air or wind gap areas, the wind environment changes obviously, especially in extreme cases of strong wind, gusts or abrupt wind direction changes, the semi-open shed body is easy to generate unstable states such as cover shaking, bulging, curling and the like, so that the failure risks such as loosening, abrasion, tearing and the like of the connecting part are increased. If the peripheral edge of the covering piece lacks reliable circumferential constraint, the covering piece is easy to be lifted locally and expanded gradually, so that equipment and materials in the shed are exposed to weather and dust environment to influence the processing quality and construction organization, and meanwhile, the condition that the covering piece is too large in swing amplitude can collide with equipment, sharp objects or personnel in the shed, wind and the like, so that potential safety hazards are brought. The problems are more common in large wind frequent areas such as coasts, valleys, open sites and the like, and have burst under seasonal strong wind or short-time gusts. It should be noted that, under the environmental conditions such as extreme strong wind, the construction site is usually in a shutdown or temporary shutdown state, but the processing operation shed still needs to provide necessary protection and restraint for the devices and materials in the shed, so as to avoid the situations of instability of the covering parts, scattering of the materials in the shed, damage of the devices and the like during the shutdown period, and reduce the safety risks for surrounding personnel and facilities. In actual construction, the risk of being lifted by wind is usually reduced through temporary reinforcement modes such as layering, binding and weight pressing, but the modes often depend on manual arrangement, are unevenly distributed in stress, have great influence on stability by environment and operation, are easy to loosen or lose efficacy in the processes of frequent opening, resetting and carrying and passing, and are difficult to effectively protect equipment and materials in a shed in time and reliably in extreme environments temporarily. Meanwhile, the temporary reinforcement mode often brings additional workload of disassembly and maintenance, and repeated disassembly and restoration are needed once the operation needs to be restored, so that the requirements of the construction site on passing, carrying and organization efficiency are difficult to meet. Therefore, aiming at the problems that the semi-open type processing operation shed of the building construction site is easy to generate instability of a covering piece, insufficient circumferential constraint, insufficient protection of equipment materials, safety risk and the like under extreme environments such as strong wind and the like, a structural scheme capable of improving the wind resistance safety of the processing operation shed of the site is still necessary. Disclosure of Invention The invention aims to solve the technical problems that the shed surface covering part is easy to shake, turn up, lift and other instability phenomena due to circumferential openings in extreme environments such as strong wind and gust in the existing construction site semi-open type processing operation shed, so that the problems of loose abrasion at the joint, insufficient protection of equipment and materials in the shed and increased safety risk during shutdown are caused, and the existing temporary reinforcement modes such as artificial layering, binding and weight are used for overcoming the defects of uneven stress, easy loosening failure and difficult timely and reliable formation of effective constraint. (II) t