CN217175617U - Combined supporting device for overhanging scaffold - Google Patents

Abstract

The utility model belongs to the building engineering field especially relates to a scaffold frame combination strutting arrangement encorbelments. The device comprises an I-beam, a frame column, a support rod and a connecting piece, wherein the connecting piece is divided into a first connecting piece, a second connecting piece and a third connecting piece, the I-beam is connected with the frame column through the first connecting piece to enable the I-beam to be perpendicular to the frame column and to be parallel to the ground, the frame column is connected with the support rod through the second connecting piece, the support rod is installed between the second connecting piece and the third connecting piece, and the third connecting piece is moved to drive the support rod to adjust the length and move, so that the device is enabled to be in a stable triangular state to be used for supporting a building. The device is convenient to install and simple to operate, and the selected manufacturing materials are visible everywhere, so that the labor cost and the manufacturing cost can be greatly reduced; the problem that the construction of the overhanging scaffold at the large-section frame column part at the external corner of the frame structure is difficult is effectively solved; the combined supporting system can ensure that the device can be repeatedly used, saves materials and is convenient for a user to install and dismantle.

Description

Scaffold frame combination strutting arrangement encorbelments

Technical Field

The utility model belongs to the building engineering field especially relates to a scaffold frame combination strutting arrangement encorbelments.

Background

In the construction engineering at the present stage, the construction mode of the overhanging scaffold provides a method for solving the problem that the scaffold cannot be directly constructed on the ground for the smooth construction of a high-rise building, and the overhanging scaffold has the advantages of simple structure, convenience in construction, safety, raw material saving and the like.

When the I-shaped steel beam of the cantilever scaffold meets the components such as the shear wall, a construction method of passing through the shear wall is mostly adopted, however, when the I-shaped steel beam meets the frame column with the large section at the corner of the structure, the section of the frame column is large, the diameter of the longitudinal steel bar is large, and the longitudinal steel bar is distributed densely, so that the I-shaped steel beam cannot pass through. The i-shaped steel beam at the external corner part is an important component, so that a cantilever scaffold combined supporting system at the external corner part needs to be researched to solve the problems and provide guarantee for the safety and smoothness of engineering projects.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model belongs to the building engineering field especially relates to a scaffold frame combination strutting arrangement encorbelments.

The utility model adopts the technical proposal that: the utility model provides a scaffold frame combination strutting arrangement encorbelments, includes frame post, I-beam, bracing piece and connecting piece, its characterized in that: the connecting piece includes first connecting piece, second connecting piece and third connecting piece, the frame post passes through first connecting piece, second connecting piece respectively with the I-beam with the bracing piece is connected, the I-beam with the bracing piece passes through the third connecting piece is connected, the I-beam with the frame post is connected perpendicularly just the I-beam is parallel with ground.

Furthermore, the first connecting piece and the second connecting piece are respectively provided with a first fixing plate and a second fixing plate, and one sides of the first fixing plate and the second fixing plate are connected with the frame columns.

Further, a fixing sliding groove is formed in the opposite side of the side, connected with the frame column, of the first fixing plate, a fixture is mounted on the fixing sliding groove, the fixture can move and/or be fixed on the fixing sliding groove, and the I-beam can be fixed on the opposite side of the side, connected with the fixing sliding groove, of the fixture.

Further, a rotating shaft is arranged on the opposite side of the side, connected with the frame column, of the second fixing plate, a connecting rod is arranged on the rotating shaft, the supporting rod can be mounted on the connecting rod, and the rotating shaft can rotate to adjust the position of the supporting rod.

Further, the third connecting piece is provided with a fixing ring, the fixing ring is arranged on the I-shaped beam, and the fixing ring can adjust the size and move and/or fix on the I-shaped beam.

Further, still be provided with the second connecting rod on the third connecting piece, the both ends of bracing piece with the second connecting rod with the connecting rod is connected to be fixed the frame post with between the I-beam.

Furthermore, the supporting rod is provided with an adjusting buckle, and the adjusting buckle can be matched with the fixing ring to move and/or fix so as to adjust the length of the supporting rod.

The utility model has the advantages and positive effects that: the utility model provides a combined supporting device of an overhanging scaffold, which is convenient to install and simple to operate, and the selected manufacturing materials are visible everywhere, thereby greatly reducing the labor cost and the manufacturing cost; the problem that the construction of the overhanging scaffold at the large-section frame column part at the external corner of the frame structure is difficult is effectively solved; the combined supporting system can ensure that the device can be repeatedly used, saves materials and is convenient for a user to install and dismantle.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first connecting member according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a second connecting member according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a third connecting member according to an embodiment of the present invention;

in the figure:

1. i-beam 2, frame column 3 and support rod

4. A first connecting piece 5, a second connecting piece 6 and a third connecting piece

41. First fixing plate 42, fixed chute 43 and clamp

51. Second fixing plate 52, rotary shaft 53, connecting rod

61. Fixing ring 62 and second connecting rod

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings in conjunction with the following embodiments. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. In addition, in the following description, descriptions of technologies of well-known structures are omitted so as to avoid unnecessarily obscuring the concepts of the present invention.

Embodiments of the present invention will be described below with reference to the accompanying drawings.

As shown in fig. 1, the embodiment of the present invention comprises an i-beam 1, a frame column 2, a support rod 3 and a connecting member, wherein the connecting member comprises a first connecting member 4, a second connecting member 5 and a third connecting member 6.

The frame column 2 is a main vertical supporting structure which bears the load transmitted by the beam and the plate in the frame structure and transmits the load to the foundation, the I-beam 1 and the support rod 3 are respectively arranged at two ends of the frame column 2 through connecting pieces, wherein the I-beam 1 is connected with the frame column 2 through the first connecting piece 4, and the I-beam 1 is vertically arranged at the top end of the frame column 2 through the first connecting piece 4, so that the I-beam 1 is parallel to the ground; the second connecting piece 5 connects the support rod 3 with the frame column 2; the first connecting piece 4 and the second connecting piece 5 are fixed on the frame column 2 in a bolt connection mode, the connecting pieces can be stably fixed on the frame column 2 in the bolt connection mode, and the device can be detached to be reused and save materials.

Preferably, the first connecting member 4 includes a first fixing plate 41, a fixing chute 42 and a clamp 43, wherein the first fixing plate 41 is mounted on the frame post 2 by bolt connection, the fixing chute 42 is mounted on the first fixing plate 41 at the side opposite to the side where the first fixing plate 41 is connected to the frame post 2, the fixing chute 42 is composed of two sections of slide rails arranged in parallel, and the clamp 43 can be mounted on the slide rails so that the clamp 43 can move or be fixed on the fixing chute 42; the other side of the fixture 43 is used for fixing the I-beam 1, so that the I-beam 1 is connected with the frame column 2 through the first connecting piece 4; the moving of the clamp 43 in the fixed sliding groove 42 drives the position adjustment of the I-beam 1, so that the connection between the I-beam 1 and the frame column 2 is facilitated, and the position adjustment of the I-beam 1 by a user is facilitated, so that the building can be supported better.

Preferably, the second link 5 includes a second fixing plate 51, a rotation shaft 52 and a connecting rod 53, wherein the second fixing plate 51 is mounted on the frame post 2 by bolt coupling, the rotation shaft 52 is mounted on the second fixing plate 51 at an opposite side of a side of the second fixing plate 52 coupled to the frame post 2, the connecting rod 53 is mounted on the rotation shaft 52 by welding, and the connecting rod 53 is rotated and fixed in cooperation with the rotation shaft 52; the support rod 3 is a support steel pipe, and the support rod 3 can be mounted on the connecting rod 53 to adjust the position of the support rod 3 in cooperation with the rotation and fixation of the rotating shaft 52.

Preferably, the third connecting member 6 comprises a fixing ring 61 and a second connecting rod 62, the fixing ring 61 can be adjusted in size to fix and move on the i-beam 1; both ends of the support rod 3 can be fixed between the connecting rod 53 and the second connecting rod 62; in the moving process of the fixing ring 6, the length of the supporting rod 3 can be adjusted by the adjusting device of the supporting rod 3, and the rotating shaft 52 can rotate to drive the connecting rod 53 to rotate to match with the movement of the fixing ring 61 and the supporting rod 3, so that the combined supporting device of the cantilever scaffold always keeps a right-angled triangle shape; this mode makes the device keep stable structure always, has improved the support dynamics.

Example 1:

installing a first connecting piece 4 and a second connecting piece 5 on the top end and the bottom of the frame column 2 respectively by using bolts, wherein the first connecting piece 4 is provided with a first fixing plate 41, a fixing sliding groove 42 and a clamping apparatus 43, and the second connecting piece 5 is provided with a second fixing plate 51, a rotating shaft 52 and a connecting rod 53; the I-beam 1 is arranged on the first connecting piece 4, the third connecting piece 6 is arranged at the other end of the I-beam, wherein the third connecting piece 6 comprises a fixing ring 61 and a second connecting piece 62, and the supporting rod 3 is arranged between the second connecting piece 5 and the third connecting piece 6, so that the installation of the embodiment is completed.

After the installation is finished, the position of the fixing ring 61 and the length of the supporting rod 3 are adjusted, and meanwhile, the rotating shaft 52 is driven to rotate so as to drive the connecting rod 53 to rotate, so that a triangular stable structure is always kept among the supporting rod 3, the frame column 2 and the I-beam 1, and the triangular stable structure is used for supporting a building.

The device is convenient to install and simple to operate, and the selected manufacturing materials are visible everywhere, so that the labor cost and the manufacturing cost can be greatly reduced; the problem that the construction of the overhanging scaffold at the large-section frame column part at the external corner of the frame structure is difficult is effectively solved; the combined supporting system can ensure that the device can be repeatedly used, saves materials and is convenient for a user to install and dismantle.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (7)

1. The utility model provides a scaffold frame combination strutting arrangement encorbelments, includes frame post, I-beam, bracing piece and connecting piece, its characterized in that: the connecting piece includes first connecting piece, second connecting piece and third connecting piece, the frame post passes through first connecting piece, second connecting piece respectively with the I-beam with the bracing piece is connected, the I-beam with the bracing piece passes through the third connecting piece is connected, the I-beam with the frame post is connected perpendicularly just the I-beam is parallel with ground.

2. A scaffold assembly support device of claim 1, wherein: the first connecting piece and the second connecting piece are respectively provided with a first fixing plate and a second fixing plate, and one sides of the first fixing plate and the second fixing plate are connected with the frame columns.

3. A scaffolding props up assembly as claimed in claim 2, in which: the side, opposite to the side where the first fixing plate is connected with the frame column, of the first fixing plate is provided with a fixing sliding groove, a clamp is mounted on the fixing sliding groove and can move and/or be fixed on the fixing sliding groove, and the side, opposite to the side where the clamp is connected with the fixing sliding groove, of the first fixing plate can fix the I-beam.

4. A scaffolding props up assembly as claimed in claim 2, in which: the opposite side of one side of the second fixing plate, which is connected with the frame column, is provided with a rotating shaft, a connecting rod is arranged on the rotating shaft, the supporting rod can be arranged on the connecting rod, and the rotating shaft can rotate to adjust the position of the supporting rod.

5. A scaffold assembly support device that encorbelments of claim 4, wherein: the third connecting piece is provided with solid fixed ring, gu fixed ring sets up on the I-beam, gu fixed ring adjustable size is in move and/or fix on the I-beam.

6. A scaffold assembly support device of claim 5, wherein: still be provided with the second connecting rod on the third connecting piece, the both ends of bracing piece with the second connecting rod with the connecting rod is connected to be fixed the frame post with between the I-beam.

7. A scaffold frame combination strutting arrangement encorbelments of claim 5 or 6 characterized in that: the support rod is provided with an adjusting buckle, and the adjusting buckle can be matched with the fixing ring to move and/or fix so as to adjust the length of the support rod.

Images