CN216617016U - Modular assembly's canopy - Google Patents

Abstract

The utility model discloses a modularly assembled shed, which is characterized in that: comprises vertical rods, cross beams and plates; the vertical rods are vertical to the ground, are arranged at intervals along the transverse direction and the longitudinal direction, and can stretch up and down to adjust the height of the vertical rods; the transverse beams are detachably and rotatably connected with the vertical rods which are transversely arranged, and can be rotatably switched between positions above the vertical rods and positions parallel to the vertical rods, so that the transverse beams can be opened and folded relative to the vertical rods; the plate is detachably laid between the two beams. According to the utility model, the vertical rods can be stretched up and down to adjust the height of the vertical rods, and workers can complete the installation of the cross beams and the laying of the plates when standing on the ground or in a place which is not too high, so that the safety of the erection of the whole shed is greatly reduced. The crossbeam can be opened and folding relative the montant, does benefit to the removal and the transport of whole canopy. The vertical rods, the cross beams and the plates are detachably combined together, so that the repeated utilization rate of each part is improved.

Description

Modular assembly's canopy

Technical Field

The utility model relates to a modularly assembled shed.

Background

In general, temporary steel bar sheds in construction areas are mainly of steel structures or light steel structures, workers gradually perform ascending operation along with the lifting of the structures after gradually welding or anchoring steel beam supports, and finally the laying and fixing of shed roofs are completed in a high-altitude operation mode at the tops of more than two meters. The specific operation is as follows: and erecting the steel column on the ground, and pouring concrete between the bottom of the steel column and the foundation. After confirming that the steel column is fixed and meeting the requirements, after an operation worker wears the safety belt, gradually ascending the height for operation, erecting the steel beam, hoisting the steel beam through hoisting equipment if necessary, and simultaneously welding or anchoring and fixing the steel beam which is gradually in place. And after the steel beam is confirmed to be fixed to meet the requirements, laying a shed roof and fixing.

The whole construction period of the existing steel bar shed is long, and upward construction can be continued only after the foundation concrete reaches the strength. The construction process is tedious, relates to concrete construction, the operation of ascending a height, probably still needs lifting device to hoist the material in the construction. The worker requires a long time for the climbing work to increase insecurity. The material recovery rate of the temporary steel bar shed after completion is not high, unnecessary material waste can occur in the dismantling process, and meanwhile, repeated unnecessary ascending operation and hoisting operation can be increased. For a construction site with a longer construction period, the construction site which is changed along with the construction progress can not be adapted more effectively.

Therefore, further improvements are needed for the design of the existing steel reinforced plastic sheds.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a modular assembled shed, which is adjustable in height, convenient for laying a ceiling, convenient for moving, foldable and openable, and convenient for storage and transportation.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a canopy of modular assembly which characterized in that: comprises that

The vertical rods are vertical to the ground and are arranged at intervals along the transverse direction and the longitudinal direction, and the vertical rods can stretch up and down to adjust the height of the vertical rods;

the transverse beams are detachably and rotatably connected with the vertical rods which are transversely arranged, and can be rotatably switched between positions above the vertical rods and positions parallel to the vertical rods, so that the transverse beams can be opened and folded relative to the vertical rods;

the plate is detachably paved between the two cross beams.

The mode that the montant can stretch out and draw back from top to bottom has the multiple, as preferred, the montant includes two at least body of rod that cup joint hollow structure together, and the adjacent body of rod can reciprocate relatively another body of rod from top to bottom.

In order to be beneficial to controlling the vertical rod to stretch up and down, the telescopic rod further comprises a driving device connected with the rod bodies in a driving mode, and the driving device is used for driving one rod body which is adjacent up and down to move up and down relative to the other rod body.

The mode that crossbeam and montant rotate to be connected has the multiple, as preferred, be provided with the activity hinge between crossbeam and the montant, and realize the rotation of crossbeam relative montant.

In order to avoid the situation that the cross beam is located above the vertical rod and rotates relative to the vertical rod, the vertical rod is preferably hinged with the inclined strut in a movable mode, the free end of the inclined strut is detachably connected with the cross beam, when the cross beam is located above the vertical rod and the relative vertical rod is opened, the free end of the inclined strut is abutted to and fixed with the cross beam, and after the free end of the inclined strut is separated from the cross beam, the cross beam can rotate to be parallel to the vertical rod and is folded relative to the vertical rod.

The detachable mode of board and crossbeam has the multiple, as preferred, the free end of bracing is the trip form, the draw-in groove has been seted up to the bottom of crossbeam, and the free end of bracing can block establish in the draw-in groove and break away from in the draw-in groove.

Preferably, the two side edges of the cross beam are provided with first hook-shaped clamping grooves with openings facing to the right or the left, correspondingly, the two side edges of the plate are provided with second hook-shaped clamping grooves facing to the left or the right, and the first hook-shaped clamping grooves and the second hook-shaped clamping grooves are buckled together to realize that the plate is detachably laid between the two cross beams.

Preferably, the end of the cross beam is provided with a stop block capable of exposing and shielding the first hook-shaped clamping groove, the stop block exposes the first hook-shaped clamping groove before the plate is buckled on the cross beam, and the stop block shields the first hook-shaped clamping groove and prevents the plate from sliding along the first hook-shaped clamping groove after the plate is buckled on the cross beam.

In order to improve the overall mobility of the shed, preferably, the bottom of the vertical rod is provided with universal wheels.

Compared with the prior art, the utility model has the advantages that: according to the utility model, the vertical rods can be stretched up and down to adjust the height of the vertical rods, and workers can complete the installation of the cross beams and the laying of the plates when standing on the ground or in a place which is not too high, so that the safety of the erection of the whole shed is greatly reduced. The crossbeam can be opened and folding relative the montant, does benefit to the removal and the transport of whole canopy. The vertical rods, the cross beams and the plates are detachably combined together, so that the repeated utilization rate of each part is improved.

Drawings

Fig. 1 is a schematic structural view (opening of a cross beam relative to a vertical beam) of an embodiment of the present invention.

Fig. 2 is a schematic structural view (opening of the cross member relative to the vertical member) of the embodiment of the present invention.

Fig. 3 is an enlarged view at I in fig. 1.

Fig. 4 is an enlarged view taken at pi of fig. 2 (the first hook-shaped card slot is shielded by the stopper).

Fig. 5 is an exploded view of a plate and a beam.

Fig. 6 is an enlarged view at iii in fig. 5.

Fig. 7 is an enlarged view taken at iv in fig. 5 (the first hook-shaped catch groove is exposed by the stopper).

Fig. 8 is a partial structural view (folding of the cross member relative to the vertical member) of the embodiment of the present invention.

Detailed Description

The utility model is described in further detail below with reference to the accompanying examples.

Referring to figures 1 to 8, a preferred embodiment of the modular assembled shelter of the present invention is shown, comprising vertical poles 1, beams 2, panels 3 and drive means 4.

The vertical rods 1 are vertical to the ground and are arranged at intervals in the transverse direction and the longitudinal direction, in the embodiment, the number of the vertical rods 1 is 6, 2 vertical rods are arranged in the transverse direction, 3 vertical rods are arranged in the longitudinal direction, and three rows and two columns are arranged. The vertical rod 1 comprises three rod bodies 11 which are sleeved together and have a hollow structure, and one rod body 11 which is adjacent up and down can move up and down relative to the other rod body 11 to adjust the height of the vertical rod 1. The vertical rod 1 is movably hinged with an inclined strut 6, and the free end of the inclined strut 6 is in a clamping hook shape. The bottom of montant 1 is provided with universal wheel 8, does benefit to the removal of canopy, and universal wheel 8 is the rubber tyer in this embodiment, can brake fixedly.

The cross beams 2 are steel plates, the number of the cross beams is three, each cross beam 2 is detachably and rotatably connected with each vertical rod 1 which is transversely arranged, in the embodiment, a movable hinge 5 is arranged between each cross beam 2 and each vertical rod 1, the cross beams 2 can be rotatably switched between the positions above the vertical rods 1 and the positions parallel to the vertical rods 1, and the cross beams 2 can be opened and folded relative to the vertical rods 1. The clamping groove is formed in the bottom of the cross beam 2, when the cross beam 2 is located above the vertical rod and is opened relative to the vertical rod 1, the free end of the inclined strut 6 is clamped and fixed with the clamping groove of the cross beam 2, the cross beam 2 is firmly fixed above the vertical rod 1, and after the free end of the inclined strut 6 is separated from the clamping groove, the cross beam 2 can rotate to be parallel to the vertical rod 1 and is folded relative to the vertical rod 1. Two sides of the beam 2 are provided with first hook-shaped clamping grooves 21 with openings facing right. The end of the cross beam 2 is provided with a stop dog 7 capable of exposing and shielding the first hook-shaped clamping groove 21, in the embodiment, the stop dog 7 is divided into an upper stop dog and a lower stop dog, the lower stop dog is always fixed at the end of the cross beam 2 to expose the first hook-shaped clamping groove 21, the upper stop dog and the lower stop dog are provided with threaded holes, the upper stop dog and the lower stop dog are detachably connected through screws, and when the upper stop dog and the lower stop dog are connected together, the first hook-shaped clamping groove 21 is shielded.

The plate 3 is a steel plate, two side edges of the plate 3 are provided with second hook-shaped clamping grooves 31 facing to the left, and the first hook-shaped clamping grooves 21 and the second hook-shaped clamping grooves 31 are buckled together to realize that the plate 3 is detachably paved between the two cross beams 2. Before the plate 3 is buckled on the cross beam 2, the upper stop block exposes the first hook-shaped clamping groove 21, and after the plate 3 is buckled on the cross beam 2, the upper stop block and the lower stop block are connected together through screws, so that the first hook-shaped clamping groove 21 is shielded, and the plate 3 is prevented from sliding along the first hook-shaped clamping groove 21. The mounted panel 3 is unfolded and folded with respect to the vertical bars 1 following the cross bar 2.

The driving device 4 is arranged on the vertical rod 1, is connected with the rod bodies 11 in a driving mode, and is used for driving one rod body 11 which is adjacent up and down to move up and down relative to the other rod body 11. The drive means 4 is in this embodiment electrically driven and the drive connections may be direct, indirect or in various transmission ways.

The high-altitude operation time in the whole process is reduced through the modular design; the loss of the material in the dismantling process is reduced; reduce installation and demolish time, manpower and equipment cost, reduce the storage space of modularization material. The turnover rate of the material is improved.

Claims (9)

1. A canopy of modular assembly which characterized in that: comprises that

The vertical rods (1) are vertical to the ground and are arranged at intervals along the transverse direction and the longitudinal direction, and the vertical rods (1) can stretch up and down to adjust the height of the vertical rods (1);

the transverse beams (2) are detachably and rotatably connected with the vertical rods (1) which are transversely arranged, and the transverse beams (2) can be rotatably switched between positions above the vertical rods (1) and positions parallel to the vertical rods (1) to open and fold the transverse beams (2) relative to the vertical rods (1);

and the plate (3) is detachably paved between the two cross beams (2).

2. The modularly assembled shelter of claim 1, wherein: the vertical rod (1) comprises at least two rod bodies (11) which are sleeved together and have a hollow structure, and one rod body (11) which is adjacent from top to bottom can move up and down relative to the other rod body (11).

3. A modularly assembled shelter as claimed in claim 2, wherein: the device also comprises a driving device (4) which is connected with the rod bodies (11) in a driving way and is used for driving one rod body (11) which is adjacent up and down to move up and down relative to the other rod body (11).

4. The modularly assembled shelter of claim 1, wherein: a movable hinge (5) is arranged between the cross beam (2) and the vertical rod (1), so that the cross beam (2) can rotate relative to the vertical rod (1).

5. The modularly assembled shelter of claim 1, wherein: the utility model discloses a bracing piece, including montant (1), montant (2), crossbeam (2) and crossbeam (6), the activity is articulated to have bracing (6) on montant (1), the free end and the crossbeam (2) of bracing (6) can shirk to be connected, is located the montant top and when relative montant (1) was opened in crossbeam (2), with the free end and the crossbeam (2) looks butt of bracing (6) and fixed, after breaking away from crossbeam (2) with the free end of bracing (6), crossbeam (2) can rotate to the position that is parallel to each other with montant (1) and relative montant (1) is folding.

6. The modularly assembled shelter of claim 5, wherein: the free end of the inclined strut (6) is in a clamping hook shape, the bottom of the cross beam (2) is provided with a clamping groove, and the free end of the inclined strut (6) can be clamped in the clamping groove and separated from the clamping groove.

7. The modularly assembled shelter of claim 1, wherein: the two sides of the cross beam (2) are provided with first hook-shaped clamping grooves (21) with openings facing to the right or the left, correspondingly, the two sides of the plate (3) are provided with second hook-shaped clamping grooves (31) facing to the left or the right, and the first hook-shaped clamping grooves (21) and the second hook-shaped clamping grooves (31) are buckled together to realize that the plate (3) is detachably paved between the two cross beams (2).

8. The modularly assembled shelter of claim 7, wherein: the end part of the cross beam (2) is provided with a stop block (7) capable of exposing and shielding the first hook-shaped clamping groove (21), the stop block (7) exposes the first hook-shaped clamping groove (21) before the plate (3) is buckled on the cross beam (2), and the stop block (7) shields the first hook-shaped clamping groove (21) to prevent the plate (3) from sliding along the first hook-shaped clamping groove (21) after the plate (3) is buckled on the cross beam (2).

9. A modularly assembled shelter as claimed in any one of claims 1 to 8, wherein: the bottom of the vertical rod (1) is provided with a universal wheel (8).

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