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 bent cap operation platform device

[ technical field ] A method for producing a semiconductor device

The utility model relates to a construction field, in particular to adjustable bent cap operation platform device.

[ background of the invention ]

In the construction process of the bent cap, I-shaped steel is usually adopted as a main bearing structure. In the prior art, the i-beam is generally cut according to the construction size in a first construction site, then is hoisted to a second construction site (a site for constructing a cover beam), and is welded and installed in the second construction site; after the I-steel operation platform is constructed on site, the bent cap formwork can be placed on the I-steel operation platform, and subsequent bent cap pouring operation and the like can be carried out. After the construction of the bent cap is completed, the I-shaped steel needs to be dismantled again, and at the moment, the I-shaped steel needs to be cut and dismantled. This kind of mode not only is unfavorable for improving the efficiency of construction, is unfavorable for the reuse of I-steel raw and other materials moreover.

[ Utility model ] content

The utility model aims at solving the above problem, and provide an adjustable bent cap operation platform device that can assemble in advance and can carry out size adjustment and reuse.

In order to solve the problems, the utility model provides an adjustable bent cap operation platform device, which is characterized in that the adjustable bent cap operation platform device comprises a first beam body and a plurality of second beam bodies, wherein the first beam body is fixedly provided with a plurality of first connecting plates distributed along the length direction of the first beam body, and the first connecting plates are provided with one or more first bolt holes; a second connecting plate is arranged at the end part of at least one end of the second beam body, and one or more second bolt holes are 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 adjusting the first connecting plate and the second connecting plate which are connected with the bolts at different positions.

The beam structure further comprises a third beam body, wherein third connecting plates are fixedly arranged on the end parts of two ends of the third beam body respectively, and one or more third bolt holes are formed in each third connecting plate; a plurality of fourth connecting plates distributed along the length direction of the second beam body are fixedly arranged on the second beam body, and one or more fourth bolt holes are formed in each fourth connecting plate; the third beam body can be vertically and detachably connected between the second beam bodies through bolts, 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.

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

Furthermore, the first beam body, the second beam body and the third beam body can be detachably connected through bolts to form a rectangular frame structure, the first beam body and the third beam body are parallelly spaced, and the second beam body is parallelly spaced.

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

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

Further, the third connecting plate and the third beam body are fixed through welding; and 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.

Furthermore, a plurality of fifth bolt holes communicated with the first bolt holes are formed in the first beam body.

Furthermore, a plurality of sixth bolt holes communicated with the fourth bolt holes are formed in the second beam body.

The beneficial contributions of the utility model reside in that, it has effectively solved above-mentioned problem. The utility model discloses an adjustable bent cap operation platform device includes the first roof beam body, the second roof beam body, and pre-installation has connecting plate and bolt hole on the 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 preassemble out the overall structure of required size at first scene, then hoist and mount to the second scene install can, thereby 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. The utility model discloses an adjustable bent cap operation platform device has characteristics such as simple structure, functional practicality, commonality are strong, and it can improve the efficiency of construction greatly to but reuse, it has very strong practicality, should widely popularize.

[ description of the drawings ]

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

Fig. 2 is a partially enlarged view of fig. 1.

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

Fig. 4 is a partially enlarged view of fig. 3.

Fig. 5 is a partially enlarged view of fig. 3.

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

[ detailed description ] embodiments

The following examples are further to explain and supplement the present invention, and do not constitute any limitation to the present invention.

As shown in fig. 1-5, the adjustable bent cap operation platform device of the present invention is a rectangular frame structure, which includes a first beam 10 and a second beam 20 that can be detachably connected. The first beam 10 and the second beam 20 are connected through the bolt 40, and the relative position of the first beam and the second beam can be adjusted, so that different size requirements can be met. Further, the multi-direction adjustable multi-beam structure can further comprise a third beam body 30, the third beam body 30 is connected with the second beam body 20 through a bolt 40, and the relative position of the third beam body 30 and the second beam body can be adjusted, so that multi-direction size adjustment can be carried out, and the universality is further improved.

A plurality of first connecting plates 50 distributed along the length direction of the first beam 10 are fixedly arranged on the first beam. One or more first bolt holes are formed in the first connecting plate 50. The shape of the first connecting plate 50 is not limited, in this embodiment, the first connecting plate 50 may be a rectangular steel plate, the first beam 10 may be an i-beam, and the first connecting plate 50 and the first beam 10 are fixedly connected by welding.

Further, the first connecting plate 50 is welded to the flange plate of the first beam 10, and fifth bolt holes are respectively formed at positions of the first beam 10 corresponding to the first bolt holes, so that the bolts 40 can be conveniently connected to the second beam 20 by passing through the first connecting plate 50 and the flange plate of the first beam 10.

The number and the distance between the first connection plates 50 may be set as required, and the embodiment does not limit the number and the distance.

A second connecting plate 60 is disposed on an end of at least one end of the second beam 20. One or more second bolt holes are formed in the second connecting plate 60. The shape of the second connecting plate 60 is not limited, in this embodiment, the second connecting plate 60 may be a rectangular steel plate, the second beam 20 may be an i-beam, and the second connecting plate 60 and the second beam 20 are fixedly connected by welding. The position of the second bolt hole corresponds to the hollow portion of the second beam 20, so that the bolt 40 can be conveniently installed.

The second beam 20 may be detachably connected to the first beam 10 by a bolt 40 perpendicularly thereto, and the position of the second beam 20 with respect to the first beam 10 may be adjusted by adjusting the bolt 40 to connect the first connecting plate 50 and the second connecting plate 60 at different positions.

In some embodiments, as shown in fig. 1 and fig. 2, 2 first beams 10 and 2 second beams 20 may constitute the adjustable capping platform device:

as shown in fig. 1 and 2, two ends of each of the 2 second beams 20 are respectively provided with a second connecting plate 60, and two ends of each of the second connecting plates are respectively vertically connected with the first beam 10 through bolts 40, so as to form a rectangular frame structure: the 2 first beam bodies 10 are spaced apart from each other in parallel, the 2 second beam bodies 20 are detachably connected between the 2 first beam bodies 10, and the distance of the spacing between the second beam bodies 20 can be adjusted by connecting the bolts 40 to the first connecting plate 50 and the second connecting plate 60 at different positions, thereby adjusting the size of the operation platform device. The adjustable bent cap operation platform device with the structure has the advantage that the size in one direction can be adjusted.

Further, as shown in fig. 3 to 5, in order to facilitate adjustment of the size of the operation platform device in multiple directions and further improve the versatility, a third beam 30 may be further included.

As shown in fig. 3 to 5, third connecting plates 70 are respectively fixed to both end portions of the third beam 30. One or more third bolt holes are respectively formed in the third connecting plate 70. The shape of the third connecting plate 70 is not limited, in this embodiment, the third connecting plate 70 may be a rectangular steel plate, the third beam body 30 is an i-shaped steel, and the third connecting plate 70 and the third beam body 30 are fixedly connected by welding. The position of the third bolt hole corresponds to the hollow portion of the third beam 30, so that the bolt 40 can be conveniently installed.

As shown in fig. 3 to 5, in order to facilitate the detachable connection and the adjustment of the relative position between the second beam 20 and the third beam 30, a plurality of fourth connecting plates 80 are fixed on the second beam 20 and distributed along the length direction thereof. One or more fourth bolt holes are formed in the fourth connecting plate 80. The shape of the fourth connecting plate 80 is not limited, in this embodiment, the fourth connecting plate 80 may be a rectangular steel plate, the second beam body 20 may be an i-shaped steel, and the fourth connecting plate 80 and the second beam body 20 are fixedly connected by welding.

Further, as shown in fig. 3 to 5, the fourth connecting plate 80 is welded to the flange plate of the second beam 20, and sixth bolt holes are respectively formed at positions of the second beam 20 corresponding to the fourth bolt holes, so that the bolts 40 can be conveniently connected to the third beam 30 through the fourth connecting plate 80 and the flange plate of the second beam 20.

As shown in fig. 3 to 5, the third beam 30 can be vertically detachably connected between the second beams 20 by bolts 40, and the size of the operation platform device can be adjusted by adjusting the bolts 40 to connect the fourth connecting plate 80 and the third connecting plate 70 at different positions to adjust the position of the third beam 30 relative to the second beam 20.

In some embodiments, as shown in fig. 3 to 5, 1 first beam 10, 2 second beams 20, and 1 third beam 30 may constitute the adjustable capping platform device:

one end of each of the 2 second beam bodies 20 is provided with a second connecting plate 60; the 2 second beam bodies 20 are respectively vertically connected with the first beam body 10 through bolts 40, and the 1 third beam body 30 is respectively vertically connected between the 2 second beam bodies 20 through bolts 40, so as to form a rectangular frame structure: the first beam body 10 and the third beam body 30 are spaced in parallel, and 2 second beam bodies 20 are spaced in parallel; the second beam 20 is detachably connected to the first beam 10, and the distance between the second beam 20 and the first connecting plate 50 and the second connecting plate 60 at different positions is adjusted by connecting the bolts 40, so that the size of the operation platform device can be adjusted. When the distance between the second beam bodies 20 is adjusted, the third beam body 30 with a proper size is selected, and the third beam body 30 is detachably connected between the second beam bodies 20; by connecting the bolts 40 to the fourth connecting plate 80 and the third connecting plate 70 at different positions, the distance between the first beam 10 and the third beam 30 can be adjusted, thereby adjusting the dimension of the operation platform device in the other direction. The adjustable bent cap operation platform device of this kind of structure all can be adjusted to size all around, and its suitability is very strong, can satisfy most scene user demand.

The utility model discloses an adjustable bent cap operation platform device is through pre-installing connecting plate and bolt hole on first roof beam body 10, second roof beam body 20 and third roof beam body 30, during the use, can require adjusting bolt 40's hookup location according to the size to can pre-install out required size overall structure at first scene, then hoist and mount to the second scene install can, thereby can improve the efficiency of construction greatly. After the use, the bolts 40 can be detached to separate the first beam 10, the second beam 20 and the third beam 30 without damage, so that the next recycling is facilitated.

While the invention has been described with reference to the above embodiments, the scope of the invention is not limited thereto, and the above components may be replaced with similar or equivalent elements known to those skilled in the art without departing from the concept of the invention.

Claims (10)

1. The utility model provides an adjustable bent cap operation platform device which characterized in that, it includes:

the first beam body (10) is fixedly provided with a plurality of first connecting plates (50) distributed along the length direction of the first beam body, and one or more first bolt holes are formed in each first connecting plate (50);

the end part of at least one end of the second beam bodies (20) 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 detachably connected with the first beam body (10) through a bolt (40) in a vertical mode, and the position of the second beam body (20) relative to the first beam body (10) can be adjusted through connecting a first connecting plate (50) and a second connecting plate (60) at different positions through adjusting the bolt (40).

2. The adjustable decking apparatus defined in claim 1 further comprising:

the beam comprises a third beam body (30), wherein the end parts of two ends of the third beam body (30) are respectively fixedly provided with a third connecting plate (70), and the third connecting plate (70) is respectively provided with one or more third bolt holes;

a plurality of fourth connecting plates (80) distributed along the length direction of the second beam body (20) are fixedly arranged on the second beam body, and one or more fourth bolt holes are formed in each fourth connecting plate (80);

the third beam body (30) can be vertically and detachably connected between the second beam bodies (20) through bolts (40) and the position of the third beam body (30) relative to the second beam body (20) can be adjusted by adjusting the bolts (40) to connect a fourth connecting plate (80) and a third connecting plate (70) at different positions.

3. The adjustable decking beam operating platform apparatus defined in claim 1,

the first beam bodies (10) and the second beam bodies (20) can be detachably connected into a rectangular frame structure through bolts (40), the first beam bodies (10) are spaced in parallel, and the second beam bodies (20) are spaced in parallel.

4. The adjustable decking beam operating platform apparatus defined in claim 2,

the first beam body (10), the second beam body (20) and the third beam body (30) can be detachably connected into a rectangular frame structure through bolts (40), the first beam body (10) and the third beam body (30) are spaced in parallel, and the second beam body (20) is spaced in parallel.

5. The adjustable decking beam operating platform apparatus defined in claim 2,

the first beam body (10), the second beam body (20) and the third beam body (30) are I-shaped steel.

6. The adjustable decking apparatus defined in claim 1,

the first connecting plate (50) and the first beam body (10) are fixed through welding;

the second connecting plate (60) and the second beam body (20) are fixed through welding.

7. The adjustable decking beam operating platform apparatus defined in claim 2,

the third connecting plate (70) and the third beam body (30) are fixed through welding;

the fourth connecting plate (80) and the second beam body (20) are fixed through welding.

8. The adjustable decking beam operating platform apparatus defined in claim 5,

the first connecting plate (50) is welded on a 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 bent cap operation platform device of claim 1, characterized in that a plurality of fifth bolt holes communicated with the first bolt holes are arranged on the first beam body (10).

10. The adjustable bent cap operation platform device of claim 2, characterized in that a plurality of sixth bolt holes communicated with the fourth bolt holes are arranged on the second beam body (20).

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