CN217128986U - Adjustable bent cap operation platform device - Google Patents

Abstract

An adjustable bent cap operation platform device comprises a first beam body and a plurality of second beam bodies, wherein a plurality of first connecting plates distributed along the length direction of the first beam body are fixedly arranged on the first beam body, and first bolt holes are formed in the first connecting plates; a second connecting plate is arranged at the end part of at least one end of the second beam body, and a second bolt hole is formed in the second connecting plate; the second beam body can be detachably connected with the first beam body through bolts in a vertical mode, and the position of the second beam body relative to the first beam body can be adjusted through connecting the first connecting plate and the second connecting plate at different positions through adjusting bolts. The utility model discloses a pre-installation connecting plate and bolt hole on first roof beam body, the second roof beam body, during the use, can require adjusting bolt's hookup location according to the size to can pre-install out the overall structure of required size, and then can improve the efficiency of construction greatly. After the use, the bolt can be detached to separate the first beam body and the second beam body without damage, so that the next recycling is facilitated.

Description

Adjustable cover beam operating platform device

【Technical field】

The utility model relates to the field of building construction, in particular to an adjustable cover beam operating platform device.

【Background technique】

During the construction of the cover beam, I-beam is usually used as the main load-bearing structure. In the prior art, the I-beam is usually cut according to the construction size in the first construction site, and then hoisted to the second construction site (the construction site of the cover beam), and welded and installed at the second construction site; After the on-site construction of the steel beam operating platform is completed, the cover beam formwork can be placed on it and the subsequent cover beam pouring operations can be carried out. When the construction of the cover beam is completed, the I-beam needs to be removed again, and the I-beam needs to be cut and removed at this time. This method is not only not conducive to improving the construction efficiency, but also is not conducive to the reuse of I-beam raw materials.

【Content of utility model】

The utility model aims to solve the above problems, and provides an adjustable cover beam operating platform device which can be pre-assembled and can be adjusted and reused in size.

In order to solve the above problems, the utility model provides an adjustable cover beam operating platform device, which is characterized in that it includes a first beam body and a plurality of second beam bodies, and a plurality of second beam bodies are fixed on the first beam body. A first connecting plate distributed along its length direction, the first connecting plate is provided with one or more first bolt holes; the end of at least one end of the second beam body is provided with a second connecting plate, the One or more second bolt holes are provided on the second connecting plate; the second beam body can be detachably connected to the first beam body vertically through bolts, and the second beam body at different positions can be connected by adjusting the bolts. A connecting plate and a second connecting plate adjust the position of the second beam body relative to the first beam body.

Further, it also includes a third beam body, the two ends of the third beam body are respectively fixed with a third connecting plate, and the third connecting plate is respectively provided with one or more third bolt holes ; the second beam body is fixedly provided with a number of fourth connecting plates distributed along its length direction, and the fourth connecting plate is provided with one or more fourth bolt holes; the third beam body can pass through The bolts are vertically and detachably connected between the second beam bodies, and the position of the third beam body relative to the second beam body can be adjusted by adjusting the bolts to connect the fourth connecting plate and the third connecting plate at different positions.

Further, the first beam body and the second beam body can be detachably connected to a rectangular frame structure through bolts, the first beam bodies are spaced in parallel, and the second beam bodies are spaced in parallel.

Further, the first beam body, the second beam body, and the third beam body can be detachably connected to a rectangular frame structure through bolts, the first beam body and the third beam body are spaced in parallel, and the second beam body is spaced in parallel. Parallel spacing.

Further, the first beam body, the second beam body, and the third beam body are I-beams.

Further, the first connecting plate and the first beam body are fixed by welding; the second connecting plate and the second beam body are fixed by welding.

Further, the third connecting plate and the third beam body are fixed by welding; the fourth connecting plate and the second beam body are fixed by welding.

Further, the first connecting plate is welded on the flange plate of the first beam body; the fourth connecting plate is welded on the flange plate of the second beam body.

Further, the first beam body is provided with a plurality of fifth bolt holes penetrating through the first bolt holes.

Further, the second beam body is provided with a plurality of sixth bolt holes that pass through the fourth bolt holes.

The beneficial contribution of the present invention is that it effectively solves the above problems. The adjustable cover beam operating platform device of the utility model comprises a first beam body and a second beam body, and the first beam body and the second beam body are pre-installed with connecting plates and bolt holes, and can be used according to size requirements. By adjusting the connection position of the bolts, the overall structure of the required size can be pre-installed on the first site, and then hoisted to the second site for installation, thereby greatly improving the construction efficiency. After use, the first beam body and the second beam body can be separated without damage by removing the bolts, so as to facilitate the next reuse. The adjustable cover beam operating platform device of the utility model has the characteristics of simple structure, practical function and strong versatility, which can greatly improve the construction efficiency, can be reused, has strong practicability, and should be vigorously promoted.

【Description of drawings】

Figure 1 is a schematic structural diagram of the present invention.

FIG. 2 is a partial enlarged view of FIG. 1 .

Fig. 3 is another structural schematic diagram of the present invention.

FIG. 4 is a partial enlarged view of FIG. 3 .

FIG. 5 is a partial enlarged view of FIG. 3 .

The first beam body 10 , the second beam body 20 , the third beam body 30 , the bolts 40 , the first connecting plate 50 , the second connecting plate 60 , the third connecting plate 70 , and the fourth connecting plate 80 .

【Detailed ways】

The following examples are further explanations and supplements to the present utility model, and do not constitute any limitation to the present utility model.

As shown in FIGS. 1 to 5 , the adjustable cover beam operating platform device of the present invention has a rectangular frame structure, which includes a first beam body 10 and a second beam body 20 that are detachably connected. The first beam body 10 and the second beam body 20 are connected by bolts 40, and their relative positions can be adjusted to meet different size requirements. Further, it may further include a third beam body 30, the third beam body 30 and the second beam body 20 are connected by bolts 40, and their relative positions can be adjusted, so that multi-directional size adjustment can be performed, and further Improve versatility.

A plurality of first connecting plates 50 distributed along the length direction of the first beam body 10 are fixedly arranged on the first beam body 10 . The first connecting plate 50 is provided with one or more first bolt holes. The shape of the first connecting plate 50 is not limited. In this embodiment, a rectangular steel plate can be selected for the first connecting plate 50, an I-beam is selected for the first beam body 10, and the first connecting plate 50 and the The first beam body 10 is fixedly connected by welding.

Further, the first connecting plate 50 is welded to the flange plate of the first beam body 10 , and fifth bolts are respectively provided at the positions of the first beam body 10 corresponding to the first bolt holes. In this way, it is convenient for the bolts 40 to pass through the first connecting plate 50 and the flange plate of the first beam body 10 to be connected with the second beam body 20 .

The number of the first connecting plates 50 and the distance from each other can be set according to requirements, which are not limited in this embodiment.

At least one end of the second beam body 20 is provided with a second connecting plate 60 . The second connecting plate 60 is provided with one or more second bolt holes. The shape of the second connecting plate 60 is not limited. In this embodiment, a rectangular steel plate can be selected for the second connecting plate 60, an I-beam is selected for the second beam body 20, and the second connecting plate 60 and the The second beam body 20 is fixedly connected by welding. The position of the second bolt hole should correspond to the hollow part of the second beam body 20 , so that the bolt 40 can be easily installed.

The second beam body 20 can be vertically and detachably connected to the first beam body 10 through bolts 40, and can be connected by adjusting the bolts 40 to connect the first connecting plate 50 and the second connecting plate 60 at different positions. The position of the second beam body 20 relative to the first beam body 10 is adjusted.

In some embodiments, as shown in FIGS. 1 and 2 , two first beam bodies 10 and two second beam bodies 20 can form an adjustable cover beam operating platform device:

As shown in Figures 1 and 2, the two second beam bodies 20 are respectively provided with second connecting plates 60 at both ends, and the two ends are respectively connected vertically with the first beam body 10 through bolts 40, thereby forming a rectangular frame structure: The two first beams 10 are spaced parallel to each other, the two second beams 20 are parallel to each other, and the two second beams 20 are detachably connected between the two first beams 10 by connecting different bolts 40 to each other. With the first connecting plate 50 and the second connecting plate 60 at the positions, the distance between the second beams 20 can be adjusted, thereby adjusting the size of the operating platform device. The adjustable cover beam operating platform device of this structure can only be adjusted in size in one direction.

Further, as shown in FIG. 3 to FIG. 5 , in order to facilitate the adjustment of the dimensions of the operation platform device in multiple directions and further improve the versatility, it may further include a third beam body 30 .

As shown in FIGS. 3 to 5 , third connecting plates 70 are respectively fixed on both ends of the third beam body 30 . The third connecting plate 70 is respectively provided with one or more third bolt holes. The shape of the third connecting plate 70 is not limited. In this embodiment, the third connecting plate 70 can be selected from rectangular steel plates, the third beam body 30 can be selected from I-beam, and the third connecting plate 70 is connected to the The third beam body 30 is fixedly connected by welding. The position of the third bolt hole should correspond to the hollow part of the third beam body 30 , so that the bolt 40 can be easily installed.

As shown in FIGS. 3 to 5 , in order to facilitate the detachable connection and adjustment of the relative positions between the second beam body 20 and the third beam body 30 , a plurality of beams distributed along the length direction are fixed on the second beam body 20 . the fourth connecting plate 80. The fourth connecting plate 80 is provided with one or more fourth bolt holes. The shape of the fourth connecting plate 80 is not limited. In this embodiment, the fourth connecting plate 80 can be selected from a rectangular steel plate, the second beam body 20 can be selected from I-beam, and the fourth connecting plate 80 and the The second beam body 20 is fixedly connected by welding.

Further, as shown in FIGS. 3 to 5 , the fourth connecting plate 80 is welded to the flange plate of the second beam body 20 , and the fourth bolt hole in the second beam body 20 corresponds to the fourth bolt hole. Sixth bolt holes are respectively provided at the positions of 1 and 2 , so that the bolts 40 can pass through the fourth connecting plate 80 and the flange plate of the second beam body 20 to be connected with the third beam body 30 conveniently.

As shown in FIGS. 3 to 5 , the third beam body 30 can be vertically and detachably connected to the second beam body 20 through bolts 40 , and the fourth connection at different positions can be connected by adjusting the bolts 40 . The plate 80 and the third connecting plate 70 are used to adjust the position of the third beam body 30 relative to the second beam body 20, thereby adjusting the size of the operation platform device.

In some embodiments, as shown in FIGS. 3 to 5 , one first beam body 10 , two second beam bodies 20 and one third beam body 30 can form an adjustable cover beam operating platform device:

One end of the two second beam bodies 20 is respectively provided with a second connecting plate 60; Connected between the two second beam bodies 20 to form a rectangular frame structure: the first beam body 10 and the third beam body 30 are spaced in parallel, and the two second beam bodies 20 are spaced in parallel; the second beam body 20 Removable connection with the first beam body 10, by connecting the bolts 40 to the first connecting plate 50 and the second connecting plate 60 at different positions, the distance between the second beam bodies 20 can be adjusted, thereby adjusting the operation Dimensions of the platform unit. After the distance between the second beam bodies 20 is adjusted, select a third beam body 30 of suitable size, and detachably connect the third beam body 30 between the second beam bodies 20; by connecting the bolts 40 to different positions The distance between the first beam body 10 and the third beam body 30 can be adjusted, thereby adjusting the size of the operation platform device in the other direction. The size of the adjustable cover beam operating platform device of this structure can be adjusted around the device, and its applicability is very strong, which can meet the needs of most scenarios.

The adjustable cover beam operating platform device of the present invention is pre-installed with connecting plates and bolt holes on the first beam body 10, the second beam body 20 and the third beam body 30. When in use, the bolts 40 can be adjusted according to size requirements. Therefore, the overall structure of the required size can be pre-installed at the first site, and then hoisted to the second site for installation, thereby greatly improving the construction efficiency. After use, the first beam body 10 , the second beam body 20 , and the third beam body 30 can be separated without damage by removing the bolts 40 , so as to facilitate the next reuse.

Although the present utility model is disclosed through the above embodiments, the scope of the present utility model is not limited thereto. Without departing from the concept of the present utility model, the above components can be formed by similar or equivalent elements known to those skilled in the art. replace.

Claims (10)

1. An adjustable cover beam operating platform device is characterized in that, it comprises: a first beam body (10), on which a plurality of first connecting plates (50) distributed along its length direction are fixedly arranged, and one or more first bolt holes are arranged on the first connecting plates (50); a plurality of second beam bodies (20), at least one end is provided with a second connecting plate (60), and the second connecting plate (60) is provided with one or more second bolt holes; The second beam body (20) can be vertically and detachably connected to the first beam body (10) by means of bolts (40), and can be connected to the first connecting plates (10) at different positions by adjusting the bolts (40). 50) and the second connecting plate (60) to adjust the position of the second beam body (20) relative to the first beam body (10). 2. The adjustable cover beam operating platform device according to claim 1, characterized in that it further comprises: The third beam body (30), the two ends of the third beam body (30) are respectively fixed with third connecting plates (70), and the third connecting plates (70) are respectively provided with one or more Multiple third bolt holes; The second beam body (20) is fixedly provided with a plurality of fourth connecting plates (80) distributed along the length direction thereof, and the fourth connecting plate (80) is provided with one or more fourth bolt holes; The third beam body (30) can be vertically and detachably connected between the second beam bodies (20) by means of bolts (40), and the fourth connection at different positions can be connected by adjusting the bolts (40). The plate (80) and the third connecting plate (70) adjust the position of the third beam body (30) relative to the second beam body (20). 3. The adjustable cover beam operating platform device according to claim 1, wherein, The first beam body (10) and the second beam body (20) can be detachably connected to a rectangular frame structure through bolts (40), the first beam bodies (10) are spaced parallel to each other, and the second beam body The bodies (20) are spaced in parallel. 4. The adjustable cover beam operating platform device according to claim 2, wherein, The first beam body (10), the second beam body (20), and the third beam body (30) can be detachably connected to a rectangular frame structure through bolts (40). The three beam bodies (30) are spaced in parallel, and the second beam bodies (20) are spaced in parallel. 5. The adjustable cover beam operating platform device according to claim 2, characterized in that, The first beam body (10), the second beam body (20), and the third beam body (30) are I-beams. 6. The adjustable cover beam operating platform device according to claim 1, wherein, The first connecting plate (50) and the first beam body (10) are fixed by welding; The second connecting plate (60) and the second beam body (20) are fixed by welding. 7. The adjustable cover beam operating platform device according to claim 2, wherein, The third connecting plate (70) and the third beam body (30) are fixed by welding; The fourth connecting plate (80) and the second beam body (20) are fixed by welding. 8. The adjustable cover beam operating platform device according to claim 5, characterized in that, The first connecting plate (50) is welded on the flange plate of the first beam body (10); The fourth connecting plate (80) is welded to the flange plate of the second beam body (20). 9 . The adjustable cover beam operating platform device according to claim 1 , wherein the first beam body ( 10 ) is provided with a plurality of fifth bolt holes penetrating through the first bolt holes. 10 . 10 . The adjustable cover beam operating platform device according to claim 2 , wherein the second beam body ( 20 ) is provided with a plurality of sixth bolts passing through the fourth bolt holes. 11 . hole.

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