CN221031271U - Assembled construction scaffold - Google Patents

Abstract

The utility model provides an assembled construction scaffold, which belongs to the field of construction of building equipment, and comprises support rods, bearing units, locking structures and fixing cables, wherein the number of the bearing units in the assembled construction scaffold is N, and N is more than or equal to 3; the bearing unit comprises a bearing plate, a protection structure and a sliding structure, and the bearing plate is arranged at the bottom of the bearing unit; the bearing plate comprises a bottom plate and a supplementing plate, and the bottom plate and the supplementing plate are connected through the sliding structure; the protective structure is arranged on the side surface of the bearing unit and is connected with the bearing plate; the support rods comprise upright posts and cross beams, the support columns are arranged vertically to the ground, and the support columns are parallel to each other; the cross beam is arranged at the bottom of the bearing plate and is vertically connected with the two adjacent upright posts; the number of the cross beams is M, M is even, and M is more than or equal to 4. The utility model realizes the assembled construction scaffold which can be quickly adjusted through the arrangement of the bearing units.

Description

Assembled construction scaffold

Technical Field

The utility model belongs to the field of building construction equipment, and particularly relates to an assembled construction scaffold.

Background

The scaffold is used as common equipment in the field of building construction, and refers to various support equipment which is used on a building site and cannot be directly constructed in the places of an outer wall, interior decoration or high storey height, and is erected by workers through operation and solving the problems of vertical and horizontal transportation. The common traditional scaffold is erected on site by using steel pipe fasteners, is time-consuming and labor-consuming and weak in universality, and needs to be rebuilt when the working angle or the working space is required to be adjusted, so that the scaffold cannot be well adapted to various building site environments.

Therefore, an assembled construction scaffold capable of being rapidly adjusted is a problem to be solved.

Disclosure of utility model

In view of the above-mentioned drawbacks of the prior art, an object of the present utility model is to provide an assembled construction scaffolding.

The technical aim of the utility model is realized by the following scheme:

An assembled construction scaffold comprises a supporting rod, a bearing unit, a locking structure and a fixing cable,

The number of the bearing units in the fabricated construction scaffold is set to be N, wherein N is more than or equal to 3;

the bearing unit comprises a bearing plate, a protection structure and a sliding structure, wherein the bearing plate is arranged at the bottom of the bearing unit, and at least one first fixing hook is arranged on the bearing plate;

the bearing plate comprises a bottom plate and a supplementing plate, and the bottom plate and the supplementing plate are connected through the sliding structure;

The protective structure is arranged on the side surface of the bearing unit and is connected with the bearing plate;

The support rods comprise upright posts and cross beams, the support columns are arranged vertically to the ground, and the support columns are parallel to each other;

A second fixing hook is arranged on each upright post at each fixed height position at intervals, and the number of the second fixing hooks is N;

The cross beam is arranged at the bottom of the bearing plate and is vertically connected with the two adjacent upright posts; the number of the cross beams is M, M is an even number, and M is more than or equal to 4;

the bearing plate is connected with the upright post through the locking structure;

The fixing cable connects the first fixing hook and the second fixing hook.

Further, the number of the supplementary plates is at least one.

Further, the sliding structure comprises a sliding groove and a sliding block, wherein the sliding groove is arranged on the lower surfaces of the bottom plate and the supplementary plate; the sliding block is arranged on the upper surface of the supplementing plate, which is opposite to the position of the supplementing plate.

Further, the sliding block arranged on one of the supplementing plates is set as X; the number of the sliding grooves is 2X, and X is more than or equal to 1.

Further, the sliding structure further comprises a sliding anti-falling structure.

Further, the sliding anti-falling structure is provided with a sliding notch with two closed ends.

Further, the bearing plate further comprises a reinforcing structure which is arranged at the position, close to the edge of the bottom plate, of the supplementary plate, and the position, close to the edge of the supplementary plate, of the bottom plate.

Further, the reinforcement structure is provided to penetrate through the carrier plate and the beam bolting structure.

Further, the protection structure is arranged as a metal guardrail with a telescopic structure.

Further, the locking structure comprises a sleeve and a fastening buckle, wherein the sleeve is arranged on the upright post, and the fastening buckle is arranged at the edge of the bearing plate.

Compared with the prior art, the utility model has the following advantages (beneficial effects):

(1) The loading board includes bottom plate and supplementary board among this technical scheme, through the combination to both, can the working range of this scaffold frame of fast adjustment, improves the degree of environmental adaptation.

(2) The technical scheme has the advantages of simple structure, easy operation, good quick disassembly and assembly, and convenient work site development.

Drawings

FIG. 1 is a schematic overall view of the present utility model;

FIG. 2 is a schematic diagram of a load bearing unit according to the present utility model;

FIG. 3 is a schematic view of a support bar of the present utility model;

FIG. 4 is a schematic view of a sliding structure of the present utility model;

fig. 5 is a schematic view of the locking structure of the present utility model.

Reference numerals:

1. A support rod; 2. a carrying unit; 3. a locking structure; 4. a fixing cable; 11. a column; 111. a second fixing hook; 12. a cross beam; 21. a carrying plate; 211. a bottom plate; 212. a supplementary plate; 213. a reinforcing structure; 214. a first fixed hook; 22. a protective structure; 23. a sliding structure; 231. a sliding groove, 232, and a sliding block; 233. a sliding anti-falling structure; 31. a sleeve; 32. a fastening buckle;

Detailed Description

The following examples of the present utility model are described in detail, and are given by way of illustration of the present utility model, but the scope of the present utility model is not limited to the following examples.

An assembled construction scaffold comprises a supporting rod 1, a bearing unit 2, a locking structure 3 and a fixing cable 4.

The number of the bearing units 2 in the fabricated construction scaffold is set to be N, wherein N is more than or equal to 3; different numbers of scaffold carrying units 2 may be configured according to the requirements of the construction environment.

The carrying unit 2 includes a carrying plate 21, a guard structure 22 and a sliding structure 23.

The bearing plate 21 is arranged at the bottom of the bearing unit 2, the bearing plate 21 comprises a bottom plate 211 and a supplementing plate 212, and the bottom plate 211 and the supplementing plate 212 are connected through the sliding structure 23. When not in use, the supplementary plate 212 slides into the bottom of the bottom plate 211; when in use, the base plate 211 and the supplementary plate 212 are slid relatively, so that the supplementary plate 212 slides outwards from the bottom of the base plate 211 to form an expansion area.

The number of the supplementary plates 212 is at least one, and different numbers of the supplementary plates 212 can be configured according to the requirements of construction environments.

The sliding structure 23 includes a sliding groove 231 and a sliding block 232, the sliding groove 231 being provided at lower surfaces of the base plate 211 and the supplementary plate 212; the sliding block 232 is disposed on an upper surface of the supplemental plate 212 opposite to the first surface.

The sliding block 232 provided on one of the replenishment plates 212 is provided as X; the number of the sliding grooves 231 is 2X, and X is not less than 1.

The sliding structure 23 further includes a sliding anti-release structure 233, and the sliding anti-release structure 233 is configured as a sliding slot 231 opening with two closed ends. By the arrangement of the opening of the sliding groove 231, the sliding block 232 can be prevented from being separated from the sliding groove 231 during sliding, so that the sliding safety of the bearing plate 21 is ensured.

The carrying plate 21 further comprises a reinforcing structure 213 disposed on the edge of the supplementary plate 212 near the bottom plate 211, and the bottom plate 211 near the edge of the supplementary plate 212. The reinforcement structure 213 is provided with a bolt connection structure penetrating through the bearing plate 21 and the cross beam 12, when the supplementary plate 212 slides out outwards, after the supplementary plate 212 is limited by the sliding anti-falling structure 233, the reinforcement structure 213 is used for reinforcing the bearing plate 21, so that the working safety of the scaffold is ensured.

The protective structure 22 is arranged on the side surface of the bearing unit 2 and is connected with the bearing plate 21; the protection structure 22 is configured as a metal guardrail with a telescopic structure, and when the supplementary plate 212 slides, the protection structure 22 also stretches and contracts accordingly, so that the protection structure 22 is ensured to be arranged on the side surface of the carrying unit 2.

The support rod 1 comprises a stand column 11 and a cross beam 12, wherein the support columns are arranged vertically to the ground and are parallel to each other; the cross beam 12 is arranged at the bottom of the bearing plate 21 and is vertically connected with the two adjacent upright posts 11; the number of the cross beams 12 is M, M is even, and M is more than or equal to 4. The support bar 1 forms a support structure for a scaffold on which the load carrying unit 2 can be arranged by means of the arrangement of the uprights 11 and the cross bars 12.

The locking structure 3 comprises a sleeve 31 and a fastening buckle 32, the sleeve 31 is arranged on the upright 11, the fastening buckle 32 is arranged at the edge of the bearing plate 21, and the bearing plate 21 is connected with the upright 11 through the locking structure 3. When the carrying unit 2 is arranged at a proper position, the fastening buckle 32 is rotated to tighten with the sleeve 31, so that the position of the carrying unit 2 arranged on the upright 11 is fixed.

A second fixing hook 111 is arranged on each upright post 11 at each fixed height position, and the number of the second fixing hooks 111 is N; at least one first fixing hook 214 is provided on the bearing plate 21. The fixing cable 4 connects the first fixing hook 214 and the second fixing hook 111. The fixing cable 4 may form a diagonal fixing structure having two ends branched according to the number of the first fixing hooks 214 and the second fixing hooks 111.

The foregoing describes in detail preferred embodiments of the present utility model. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the utility model without requiring creative effort by one of ordinary skill in the art. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by a person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (10)

1. An assembled construction scaffold comprises a supporting rod, a bearing unit, a locking structure and a fixing cable, and is characterized in that,

The number of the bearing units in the fabricated construction scaffold is set to be N, wherein N is more than or equal to 3;

the bearing unit comprises a bearing plate, a protection structure and a sliding structure, wherein the bearing plate is arranged at the bottom of the bearing unit, and at least one first fixing hook is arranged on the bearing plate;

the bearing plate comprises a bottom plate and a supplementing plate, and the bottom plate and the supplementing plate are connected through the sliding structure;

The protective structure is arranged on the side surface of the bearing unit and is connected with the bearing plate;

The support rods comprise upright posts and cross beams, the support columns are arranged vertically to the ground, and the support columns are parallel to each other;

A second fixing hook is arranged on each upright post at each fixed height position at intervals, and the number of the second fixing hooks is N;

The cross beam is arranged at the bottom of the bearing plate and is vertically connected with the two adjacent upright posts; the number of the cross beams is M, M is an even number, and M is more than or equal to 4;

the bearing plate is connected with the upright post through the locking structure;

The fixing cable connects the first fixing hook and the second fixing hook.

2. The fabricated construction scaffolding as claimed in claim 1, wherein the supplementary panels are provided in at least one block.

3. The fabricated construction scaffolding as claimed in claim 1, wherein the sliding structure includes a sliding groove and a sliding block, the sliding groove being provided at lower surfaces of the base plate and the supplementary plate; the sliding block is arranged on the upper surface of the supplementing plate, which is opposite to the position of the supplementing plate.

4. A fabricated construction scaffolding according to claim 3, wherein the slide blocks provided on one of the supplementary plates are provided as X; the number of the sliding grooves is 2X, and X is more than or equal to 1.

5. The fabricated scaffold structure of claim 4, wherein the sliding structure further comprises a sliding anti-slip structure.

6. The fabricated scaffold according to claim 5, wherein the sliding and anti-drop structure is provided as a sliding slot with two closed ends.

7. The fabricated scaffold of claim 1, wherein the load bearing plate further comprises a reinforcing structure disposed adjacent the edge of the supplemental plate and the edge of the supplemental plate.

8. The fabricated construction scaffolding of claim 6, wherein the reinforcement structure is disposed through the load bearing plate and cross beam bolting structure.

9. The fabricated construction scaffolding of claim 1, wherein the guard structure is provided as a metal guard rail having a telescoping structure.

10. The fabricated scaffold according to claim 1, wherein the locking structure comprises a sleeve and a fastener, the sleeve being disposed on the upright, the fastener being disposed on the edge of the load-bearing plate.