CN117266514A - Modularized movable telescopic scaffold - Google Patents

Abstract

The invention discloses a modularized movable telescopic scaffold, which belongs to the technical field of scaffolds and comprises one or more telescopic modules, wherein each telescopic module comprises a plurality of vertical rods and a movable connector sleeved on each vertical rod, a cross rod is arranged between every two adjacent vertical rods, two ends of each cross rod are connected to the movable connector, a diagonal rod is arranged between every two adjacent vertical rods, and two ends of each diagonal rod are connected to the movable connector through diagonal rod connectors. According to the modularized movable telescopic scaffold with the structure, the telescopic modules and the vertical rod connecting pieces are arranged, so that the scaffold with different heights and different lengths can be conveniently built and disassembled, the construction time is shortened, and the construction period is shortened; the universal wheels are arranged at the lower ends of the vertical rods at the bottommost parts, so that the scaffold is convenient to transfer.

Description

Modularized movable telescopic scaffold

Technical Field

The invention relates to the technical field of scaffolds, in particular to a modularized movable telescopic scaffold.

Background

When building decoration or construction is performed on a building site, a scaffold is generally used for operation, and an operator stands on the scaffold to perform operation on a working platform which is erected for ensuring smooth execution of each construction process.

However, the existing scaffold is generally welded by steel pipes or steel materials, the structure is fixed, the time for constructing the scaffold is long, and the construction period is increased; after the worker uses the scaffold, the worker cannot fold and contract, so that the scaffold occupies a large space, is inconvenient to store, is inconvenient to move and store, and needs to be improved. In addition, when the construction is completed, the scaffold needs to be removed, and the scaffold is not easy to directly transport due to the weight of the scaffold.

Based on this, a modular movable telescopic scaffold is proposed.

Disclosure of Invention

The invention aims to provide a modularized movable telescopic scaffold, which is convenient to construct and disassemble scaffolds with different heights and different lengths by arranging a telescopic module and a vertical rod connecting piece, so that the construction time is shortened, and the construction period is shortened; the universal wheels are arranged at the lower ends of the vertical rods at the bottommost parts, so that the scaffold is convenient to transfer.

In order to achieve the above purpose, the invention provides a modularized movable telescopic scaffold, which comprises one or more telescopic modules, wherein each telescopic module comprises a plurality of vertical rods and movable connectors sleeved on the vertical rods, a cross rod is arranged between every two adjacent vertical rods, two ends of each cross rod are connected to the movable connectors, inclined rods are arranged between every two adjacent vertical rods, and two ends of each inclined rod are connected to the movable connectors through inclined rod connectors.

Preferably, the cross rod is detachably connected with the movable connector, the inclined rod is detachably connected with the inclined rod connector, the inclined rod connector is detachably connected with the movable connector, and the vertical rod is detachably connected with the movable connector through bolts; the cross rod, the vertical rod, the inclined rod, the movable connector and the inclined rod connector are provided with pin holes matched with the bolts.

Preferably, the vertical bars comprise 5A-type vertical bars and 4B-type vertical bars, and the A-type vertical bars and the B-type vertical bars are arranged in a staggered manner in three rows.

Preferably, the movable connector comprises a hollow column structure arranged in the middle and four connecting blocks connected with the periphery of the column structure, the movable connector comprises a common connector and a special connector, and the height of the special connector is different from that of the common connector.

Preferably, the diagonal connector is provided with a left U-shaped grooving structure and a right U-shaped grooving structure which are arranged in a staggered mode, the grooved section of the left U-shaped grooving is conical-like, and the grooved section of the right U-shaped grooving is square.

Preferably, a plurality of telescopic modules are connected through a vertical rod connector.

Preferably, the vertical rod connector comprises two or more than two common connectors and connecting rods arranged between the adjacent common connectors.

Preferably, universal wheels are inserted into the lower ends of the vertical rods of the telescopic membrane groups at the bottommost end, and the universal wheels are self-locking universal wheels.

Preferably, the cross bar, the vertical bar and the diagonal bar are all provided with various sizes.

Therefore, the modularized movable telescopic scaffold has the following beneficial effects:

(1) Through setting up flexible module, be convenient for build the scaffold frame of not co-altitude, only need utilize the montant connector to connect a plurality of flexible modules can obtain the scaffold frame of not co-altitude, easy operation.

(2) Through setting up A type montant, B type montant and crisscross laying, cooperation simultaneously uses movable connector and horizontal pole, realizes the flexible function of scaffold frame through the reciprocates of movable connector on the montant.

(3) The diagonal rods and the diagonal rod connectors are arranged, so that diagonal supports are added between the upper cross rod and the lower cross rod, the structure of the diagonal rod is more stable, and the diagonal rod can bear enough load.

(4) Through set up the universal wheel at the montant lower extreme of bottommost, connect through the mode of pegging graft, the operation of being convenient for utilizes the self-locking mechanism of universal wheel simultaneously, is convenient for accomplish the removal and the fixed of scaffold frame.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

Fig. 1 is a schematic view of the structure of a vertical rod of an embodiment of a modular movable and telescopic scaffold according to the present invention, wherein (a) is a vertical rod of 1500mm and (b) is a vertical rod of 2000 mm;

fig. 2 is a schematic structural diagram of a vertical bar connector according to an embodiment of the modularized movable and telescopic scaffold of the present invention, wherein (a) is a 1500mm vertical bar connector and (b) is a 2000mm vertical bar connector;

fig. 3 is a top view of a moveable connector of an embodiment of a modular moveable telescoping scaffold of the present invention;

fig. 4 is a schematic structural diagram of a movable connector of an embodiment of a modular movable and telescopic scaffold according to the present invention, wherein (a) is a common connector and (b) is a special connector;

fig. 5 is a schematic view of a cross bar structure of an embodiment of a modular movable and telescopic scaffold according to the present invention;

fig. 6 is a schematic view of a diagonal connector of an embodiment of a modular movable and telescopic scaffold according to the present invention;

fig. 7 is a two-dimensional view of a scaffold with a cross bar dimension of 900mm and a vertical bar dimension of 2000mm for one embodiment of a modular movable and telescoping scaffold of the present invention;

fig. 8 is a three-dimensional view of a scaffold with a cross bar dimension of 900mm and a vertical bar dimension of 2000mm for one embodiment of a modular movable and telescoping scaffold of the present invention;

fig. 9 is a three-dimensional contracted view of a scaffold with a cross bar size of 900mm and a vertical bar size of 2000mm according to an embodiment of the modular movable and telescopic scaffold of the present invention;

fig. 10 is a two-dimensional view of a scaffold of 900mm rail size and 2000mm vertical bar plus diagonal in an embodiment of a modular movable and telescoping scaffold of the present invention;

FIG. 11 is a three-dimensional view of a modular, movable, telescoping scaffold embodiment of the present invention having a cross bar dimension of 900mm and a vertical bar dimension of 2000mm plus diagonal bars;

fig. 12 is a fragmentary view of the diagonal rods of one embodiment of a modular movable telescoping scaffold of the present invention;

fig. 13 is a perspective view of a diagonal member fully engaged with an embodiment of a modular movable telescoping scaffold of the present invention;

fig. 14 is a view showing a scaffold horizontal overlap of the same telescoping module structure of an embodiment of a modular movable telescoping scaffold according to the present invention;

fig. 15 is a vertical overlap view of a scaffold of the same telescoping module structure of an embodiment of a modular movable telescoping scaffold of the present invention;

fig. 16 is a vertical connection diagram of different telescopic module structures of an embodiment of a modular movable telescopic scaffold according to the present invention;

fig. 17 is a schematic view of a gimbaled scaffold of an embodiment of a modular movable and telescopic scaffold of the present invention;

reference numerals:

1. a vertical rod; 2. a movable joint; 3. a cross bar; 4. a diagonal rod; 5. a diagonal rod connector; 6. a vertical rod connector; 7. and a universal wheel.

Detailed Description

The technical scheme of the invention is further described below through the attached drawings and the embodiments.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention.

The invention provides a modularized movable telescopic scaffold, which comprises one or more telescopic modules, wherein the telescopic modules are connected through vertical rod connectors 6, and the telescopic modules are connected together through the vertical rod connectors 6 to realize the splicing at different heights. As shown in fig. 2, the vertical bar connector 6 includes two or more common connectors and a connecting bar disposed between the adjacent two common connectors. As shown in fig. 17, the lower end of the vertical rod of the bottommost telescopic membrane group is inserted with a universal wheel 7, the universal wheel 7 is a self-locking universal wheel, and the universal wheel 7 is connected in an inserted manner, so that the operation is convenient, and meanwhile, the movement and the fixation of the scaffold are convenient to complete by utilizing the self-locking mechanism of the universal wheel 7.

The flexible module includes a plurality of montants 1 and cover establish the movable connector 2 on the montant, and montant 1 contains 2000mm montants, 1500mm montants, 1000mm montants, 500mm montants, and wherein every size montant all has two kinds of different project organization. As shown in FIG. 1, the vertical bars comprise 5A-type vertical bars and 4B-type vertical bars, the A-type vertical bars and the B-type vertical bars are arranged in a staggered manner in three rows, and the vertical bars are matched with the movable connectors to move up and down through the vertical bars which are arranged in a staggered manner. As shown in fig. 3, the movable connector 2 includes a hollow cylinder structure disposed in the middle and four connection blocks connected to the periphery of the cylinder structure, and as shown in fig. 4, the movable connector 2 includes a general connector and a special connector, and the kinds of the movable connectors used specifically are selected according to the construction requirements. The height of the special connector is different from that of the common connector, and the movable connector 2 moves up and down, so that the whole scaffold is driven to complete the telescopic function.

Be provided with horizontal pole 3 between two adjacent montants 1, horizontal pole 3 structure is as shown in fig. 5, and wherein horizontal pole 3 contains 300mm horizontal pole, 600mm horizontal pole, 900mm horizontal pole. Both ends of the cross rod 3 are connected to the movable connector 2, an inclined rod 4 is arranged between the upper cross rod 3 and the lower cross rod 3, the inclined rod 4 comprises various sizes, and the inclined rod is selected according to different building requirements. The both ends of diagonal bar 4 are connected on movable connector 2 through diagonal bar connector 5, and as shown in fig. 6, diagonal bar connector 5 sets up two U type slotted structures dislocation sets about, and the grooved tangent plane of left side U type is conical, and the grooved tangent plane of right side U type is square, and the setting of this shape is convenient for connect, has increased the bearing diagonal through diagonal bar 4 for between two upper and lower horizontal poles 3, makes its structure more stable, can bear sufficient load.

The cross rod 3 is detachably connected with the movable connector 2, the inclined rod 4 is detachably connected with the inclined rod connector 5, the inclined rod connector 5 is detachably connected with the movable connector 2, and the vertical rod 1 is detachably connected with the movable connector 2 through bolts; the cross rod 3, the vertical rod 1, the inclined rod 4, the movable connector 2 and the inclined rod connector 5 are provided with pin holes which are matched with the bolts.

Examples

The telescopic modular scaffold with the cross bar size of 900mm and the vertical bar size of 2000mm is shown in fig. 7, the three-dimensional expansion view is shown in fig. 8, and the three-dimensional contraction view is shown in fig. 9.

Each scaffold is composed of 5 2000mm A structural supports, 4 2000mm B structural supports, 2000mm vertical rods, movable connectors and a plurality of 900mm transverse rods, and the telescopic function of the scaffold is realized by the up-and-down movement of the movable connectors. When needing to expand, need several staff to pull out all around, can realize the expansion of scaffold frame, reach the preset position and be that the staff is required manual installation cylinder bolt, need the staff to demolish the cylinder bolt when needing the shrink to hang the scaffold frame through the staff oneself or through the crane and realize the shrink of scaffold frame through gravity.

In order to make the telescopic modular scaffold structure more stable, make it bear sufficient load to satisfy the design requirement of scaffold, install the bearing diagonal between two upper and lower crossbars additional, make its structure more stable, install the bearing diagonal of different sizes at the telescopic modular scaffold that the crossbeam size is 900mm telescopic modular scaffold, montant size is 2000mm, the two-dimensional diagram is as shown in fig. 10, the three-dimensional diagram is as shown in fig. 11.

In order to enable the modular scaffold to be more convenient to overlap, the modular scaffold with the vertical rod size of 2000mm is connected with diagonal rods of different sizes through diagonal rod connectors respectively, so that the modular scaffold is integrated with the scaffold, and the diagonal rod connectors on the 4B structure supports are not connected with the diagonal rods, so that the scaffold is convenient to expand and contract. The transverse rods are fully unfolded during the lap joint, the inclined rods are not fully lap joint as shown in fig. 12, and the scaffold is fully lap joint as shown in fig. 13.

In order to meet the length and width requirements and within the design requirement range, every two telescopic scaffolds can be connected through transverse rods with different size parameters (such as 300mm transverse rods, 600mm transverse rods, 900mm transverse rods and the like) or the modular scaffolds are lapped with transverse rods and vertical rods with different sizes to enable the scaffolds to meet the lap joint size requirements, diagonal rod connectors can be additionally arranged on the movable connectors, diagonal support rods are additionally arranged between the two scaffold connecting rods, and the horizontal connection diagram of the diagonal support rods is shown in fig. 14.

In order to meet the length and width requirements, a plurality of modularized scaffolds can be connected through transverse rods with different sizes, diagonal rods can be additionally arranged at the connecting positions for supporting the modular scaffolds for structural stability, and meanwhile, in order to meet the length and width requirements, the modular scaffolds can be connected with vertical rods with the same size structure of the modularized scaffolds through the transverse rods with different sizes, so that the requirements of different sizes are met.

In order to meet the height requirements of the lap joint, after a group of telescopic modular scaffolds is selected, the same modular scaffold and cross bars with various sizes and the vertical bars with structures with the same size as the same modular scaffold are used for lap joint, and after the length and width requirements of the telescopic modular scaffolds with the same group of modules or different vertical bar sizes and the vertical bars with various sizes and cross bars with the size requirements are lapped at the upper end of the base scaffold, the lower ends of the telescopic modular scaffolds are connected with the top ends of the base modular scaffolds in an inserted manner, the telescopic modular scaffolds are connected through the cross bars with different sizes, and under the condition of meeting the height, different structures meeting the requirements can be arranged at the top ends of the vertical bars by moving connectors, and the cross bars are additionally arranged, so that the size requirements of the scaffold lap joint with different heights and the full strength requirements are met.

A vertical connection of the lap is shown in fig. 15. At the lap joint, although the distance between the two crossbars of the lap joint is increased from 500mm to 1000mm, the lap joint requirement of the scaffold is met, and simultaneously, diagonal rods with enough required size can be added at the lap joint for supporting in order to make the scaffold structure more stable. If the lap joint height requirement is 3000mm, two movable connectors with different structures, namely 115mm and 245mm, are additionally arranged at the top end of the scaffold at the upper end of the lap joint height requirement, and the connection words are carried out through corresponding cross rod diagonal rods to meet the strength height requirement. The scaffold at the upper end thereof is lapped with the connectors of the above two scaffolds and the corresponding diagonal rods as shown in fig. 16.

Therefore, the modularized movable telescopic scaffold disclosed by the invention is convenient to build and disassemble the scaffolds with different heights and different lengths by arranging the telescopic modules and the vertical rod connecting pieces, so that the construction time is shortened, and the construction period is shortened; the universal wheels are arranged at the lower ends of the vertical rods at the bottommost parts, so that the scaffold is convenient to transfer.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention and not for limiting it, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that: the technical scheme of the invention can be modified or replaced by the same, and the modified technical scheme cannot deviate from the spirit and scope of the technical scheme of the invention.

Claims (8)

1. A modular movable telescopic scaffold, characterized in that:

including one or more flexible module, flexible module includes that a plurality of montants and cover are established movable connector on the montant is provided with the horizontal pole between two adjacent montants, the both ends of horizontal pole are all connected on the movable connector, upper and lower adjacent two be provided with the diagonal bar between the horizontal pole, the both ends of diagonal bar are in through diagonal bar connector connection on the movable connector.

2. A modular movable and telescopic scaffold according to claim 1, wherein: the cross rod is detachably connected with the movable connector, the inclined rod is detachably connected with the inclined rod connector, the inclined rod connector is detachably connected with the movable connector, and the vertical rod is detachably connected with the movable connector through bolts; the cross rod, the vertical rod, the inclined rod, the movable connector and the inclined rod connector are provided with pin holes matched with the bolts.

3. A modular movable and telescopic scaffold according to claim 2, wherein: the vertical bars comprise 5A-type vertical bars and 4B-type vertical bars, and the A-type vertical bars and the B-type vertical bars are arranged in a staggered manner in three rows.

4. A modular movable and telescopic scaffold according to claim 3, wherein: the movable connector comprises a hollow cylinder structure arranged in the middle and four connecting blocks connected with the periphery of the cylinder structure, the movable connector comprises a common connector and a special connector, and the height of the special connector is different from that of the common connector.

5. A modular movable and telescopic scaffold according to claim 4, wherein: the diagonal bar connector is provided with a left U-shaped grooving structure and a right U-shaped grooving structure which are arranged in a staggered mode, the tangential plane of the left U-shaped grooving is conical-like, and the tangential plane of the right U-shaped grooving is square.

6. A modular movable and telescopic scaffold according to claim 1, wherein: the telescopic modules are connected through vertical rod connectors.

7. A modular movable and telescopic scaffold according to claim 6, wherein: the vertical rod connector comprises two or more than two common connectors and connecting rods arranged between the adjacent common connectors.

8. A modular movable and telescopic scaffold according to claim 7, wherein: the lower end of the vertical rod of the telescopic membrane group at the bottommost end is inserted with a universal wheel, and the universal wheel is a self-locking universal wheel.