CN210067390U

CN210067390U - Operating platform for high-altitude construction

Info

Publication number: CN210067390U
Application number: CN201920510707.5U
Authority: CN
Inventors: 张安; 蔡昭辉; 王雪朝; 李夫强; 占进军; 陈康; 张治博; 刘子木; 葛澄; 张旭宁
Original assignee: China State Construction Engineering Corp Ltd CSCEC; China Construction Sixth Engineering Division Co Ltd
Current assignee: China State Construction Engineering Corp Ltd CSCEC; China Construction Sixth Engineering Division Co Ltd
Priority date: 2019-04-15
Filing date: 2019-04-15
Publication date: 2020-02-14
Anticipated expiration: 2029-04-15

Abstract

The utility model discloses an operating platform for high-altitude construction, which comprises a framework, a bottom plate, a wind-proof plate and a turning plate; the framework is a cuboid; the bottom plate is arranged at the bottom of the framework, and the inside of the bottom plate is hollowed into a concave shape; the windproof plates are arranged on the side faces of the framework and comprise a first windproof plate, a second windproof plate, a third windproof plate, a fourth windproof plate and a fifth windproof plate, a gap is formed between the fourth windproof plate and the fifth windproof plate, and doors are arranged on the second windproof plate and the third windproof plate; the turning plate is connected with the bottom plate, and when the turning plate is closed, the turning plate covers the space of the hollowed part close to the fourth windproof plate and the fifth windproof plate. The safety of personnel who can guarantee high altitude construction avoids welding spark to splash all the day, promotes welding impression and entity quality.

Description

Operating platform for high-altitude construction

Technical Field

The utility model relates to an engineering construction field especially relates to an operation platform for high altitude construction.

Background

Along with the continuous development of urbanization, super high-rise buildings are more and more.

The high-altitude butt welding of the upper and lower section outer frame columns is a difficult problem in super high-rise building construction, and under the premise that the requirements for construction progress and construction quality of building engineering are higher and higher nowadays, the problem of high-altitude butt welding of the upper and lower section outer frame columns is solved in order to guarantee the safety of construction progress and constructors.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the embodiment of the utility model provides an expect to provide an operation platform for high altitude construction, can guarantee the personnel's safety of high altitude construction, avoid welding spark to splash all the way, promote welding impression and entity quality.

The technical scheme of the utility model is realized like this:

the embodiment of the utility model provides an operation platform for high altitude construction, include: the windproof structure comprises a framework, a bottom plate, a windproof plate and a turnover plate; wherein,

the framework is a cuboid;

the bottom plate is arranged at the bottom of the framework, and the inner part of the bottom plate is hollowed into a concave shape;

the windproof plates are arranged on the side faces of the framework and comprise a first windproof plate, a second windproof plate, a third windproof plate, a fourth windproof plate and a fifth windproof plate, the first windproof plate, the fourth windproof plate and the fifth windproof plate are arranged oppositely, a gap is formed between the fourth windproof plate and the fifth windproof plate, the second windproof plate and the third windproof plate are arranged oppositely, and doors are arranged on the second windproof plate and the third windproof plate;

the turning plate is connected with the bottom plate, and when the turning plate is closed, the turning plate covers the space of the hollowed part close to the fourth windproof plate and the fifth windproof plate.

Optionally, the dimensions of the skeleton are 2.8m (length) x 2.8m (width) x 1.8m (height); the dimensions of the hollowed-out portion are: 1.2m (length) × 2.0m (width); the dimensions of the door are: 1.2m (width) × 1.8m (height); the size of the voids is 1.2m (long) × 1.8m (high); the size of the flap is 1.2m (length) × 0.8m (width).

Optionally, the skeleton includes the main frame and maintains the skeleton, and the main frame is No. 8 channel-section steels, maintains the skeleton and is 20 square steels.

Optionally, the framework further comprises a hoisting framework, and the hoisting framework is L75 × 5 equilateral angle steel.

Optionally, the skeleton still includes supporting framework, and supporting framework sets up between the main skeleton that second windproof plate and fourth windproof plate, third windproof plate and fifth windproof plate correspond for promote the stability that is used for the operation platform of high altitude construction.

Optionally, the bottom plate is a patterned steel plate, and the thickness of the patterned steel plate is 2.5 mm; the bottom plate is connected with the framework through spot welding.

Optionally, the first windproof plate, the second windproof plate, the third windproof plate, the fourth windproof plate and the fifth windproof plate are all color steel plates, and the thickness of each color steel plate is 0.5 mm.

Optionally, first prevent wind board, second prevent wind board, third prevent wind board, fourth prevent wind board and fifth prevent wind board and skeleton all are connected through length for 25 mm's self tapping nail.

Optionally, the door comprises 20 square steels and various steel sheets, and the door all passes through hinge connection with second wind-break plate and third wind-break plate.

Optionally, the flap is connected to the bottom plate via a shaft.

The embodiment of the utility model provides an operation platform for high altitude construction, include: the windproof structure comprises a framework, a bottom plate, a windproof plate and a turnover plate; wherein the size of the framework is a cuboid with the size of 2.8m (length) multiplied by 2.8m (width) multiplied by 1.8m (height); the bottom plate is arranged at the bottom of the cuboid, the inner part of the bottom plate is hollowed into a concave shape, and the size of the hollowed part is 1.2m (length) multiplied by 2.0m (width); the windproof plates are arranged on the side faces of the cuboid and comprise a first windproof plate, a second windproof plate, a third windproof plate, a fourth windproof plate and a fifth windproof plate, the first windproof plate, the fourth windproof plate and the fifth windproof plate are arranged oppositely, a gap with the size of 1.2m (length) multiplied by 1.8m (height) exists between the fourth windproof plate and the fifth windproof plate, the second windproof plate and the third windproof plate are arranged oppositely, and doors with the size of 1.2m (width) multiplied by 1.8m (height) are arranged on the second windproof plate and the third windproof plate; the turning plate is connected with the bottom plate, the size of the turning plate is 1.2m (length) multiplied by 0.8m (width), and when the turning plate is closed, the turning plate covers the space of the hollowed part close to the fourth windproof plate and the fifth windproof plate. That is to say, the embodiment of the utility model provides an among the technical scheme, operation platform comprises skeleton, bottom plate and wind-proof plate a semi-enclosed space, can guarantee that personnel can not receive the influence of strong wind when high altitude construction to guarantee the personnel safety of high altitude construction, avoid welding spark to splash all the way, promote welding impression and entity quality. Meanwhile, the bottom plate is connected with the turning plate, so that the operation platform is convenient to mount when the turning plate is opened; when the turning plate is closed, the high-altitude construction is convenient.

Drawings

Fig. 1 is a schematic structural diagram of an operation platform for high-altitude construction according to an embodiment of the present invention;

fig. 2 is a schematic bottom view of an operation platform for high-altitude construction according to an embodiment of the present invention;

fig. 3 is a schematic side view of an operation platform for high altitude construction according to an embodiment of the present invention, the operation platform being located along a third wind-proof plate;

fig. 4 is a side view schematic structural diagram of the operating platform for high altitude construction provided by the embodiment of the utility model along one side of the fourth wind guard and the fifth wind guard.

Detailed Description

In order to illustrate embodiments of the present invention or technical solutions in the prior art more clearly, the following description will be made in conjunction with the accompanying drawings in embodiments of the present invention to describe the technical solutions in the embodiments of the present invention clearly and completely, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Also, unless explicitly described, the word "comprise" and variations such as "comprises" or "comprising", will be understood to imply the inclusion of stated elements but not the exclusion of any other elements.

In the embodiments of the present invention, the various components are described by "first", "second", "third", "fourth", "fifth", and the like, but these components should not be limited by these terms. These terms are only used to distinguish one component from another. Also, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

In addition, the following embodiments of the present invention can be executed independently, and also can be executed by combining with each other between the embodiments, and the embodiments of the present invention do not specifically limit this.

The following describes in detail the operating platform for high-altitude construction provided by the embodiment of the present invention.

Fig. 1 is a schematic structural diagram of an operation platform for high-altitude construction provided by an embodiment of the present invention. This operation platform adopts the girder steel that the next floor has installed as the atress support in-service use, bears operation platform's dead weight and construction load, and operation platform includes: skeleton, bottom plate, wind-proof board and turn over the board.

Specifically, the framework is a cuboid. As shown in fig. 1, the framework includes a main framework 10 and a maintenance framework 11, the main framework 10 forms an outer frame of a cuboid, and the main framework 10 is a No. 8 channel steel. The maintenance framework 11 is arranged between the main frameworks 10 and used for supporting the main frameworks 10, and the maintenance framework is made of 20 square steels. Alternatively, the dimensions of the skeleton are 2.8m (length) x 2.8m (width) x 1.8m (height).

Furthermore, the framework also comprises a hoisting framework (not shown in fig. 1), and the hoisting framework is L75 × 5 equilateral angle steel. The hoisting framework can be used for installing and dismantling the operation platform.

Optionally, the skeleton still includes support chassis 12, and support chassis 12 sets up between the main skeleton that second windproof plate 32 and fourth windproof plate 34, third windproof plate 33 and fifth windproof plate 35 correspond for promote the stability that is used for the operation platform of high altitude construction, compensatied between fourth windproof plate 34 and the fifth windproof plate 35 because have the problem that the skeleton wholeness that the space caused reduces.

The support frame 12 may be a channel 8, 1.14m in length.

In addition, the main framework 10, the maintenance framework 11, the hoisting framework and the supporting framework 12 can be welded to form a framework, and the processing technology is simple and is easy to operate by workers.

Fig. 2 is a schematic view of a bottom view structure of an operation platform for high-altitude construction according to an embodiment of the present invention. The bottom plate 21 is arranged at the bottom of the cuboid, the inner part of the bottom plate 21 is hollowed into a concave shape, and optionally, the size of the hollowed part is 1.2m (length) × 2.0m (width).

Optionally, the bottom plate 21 is a patterned steel plate, and the thickness of the patterned steel plate is 2.5 mm. The bottom plate 21 is connected with the framework through spot welding, so that the whole operating platform is firmer and more durable, and the safety performance of the operating platform is improved.

The turning plate 50 is connected with the bottom plate 21, and specifically, the turning plate 50 and the bottom plate 21 can be connected through a shaft, so that the turning plate 50 can be flexibly opened and closed, and the installation of the operation platform when the operation platform is connected with the box column cannot be influenced. The size of turning over board 50 is 1.2m (length) × 0.8m (width), when turning over board 50 and closing, turn over board 50 and cover the space that the hollowed part is close to fourth wind shield 34 and fifth wind shield 35 for the hole of 1.2m (length) × 1.2m (width) is left to the bottom of cuboid, for 1.2m box post provides and passes through the space, be the construction operation space around 1.2m box post, and can prevent welding spark splash when turning over board 50 and closing, avoid causing great pollution to the environment.

The windproof plate is arranged on the side face of the cuboid and comprises a first windproof plate 31, a second windproof plate 32, a third windproof plate 33, a fourth windproof plate 34 and a fifth windproof plate 35. Fig. 3 is a side view schematic diagram of the operation platform for high altitude construction provided by the embodiment of the present invention along one side of the third wind-proof plate. Fig. 4 is a side view schematic structural diagram of the operating platform for high altitude construction provided by the embodiment of the utility model along one side of the fourth wind guard and the fifth wind guard.

As can be seen from fig. 1 and 3, the second wind guard 32 and the third wind guard 33 are disposed opposite to each other, and the second wind guard 32 and the third wind guard 33 are each provided with a door 40 having a size of 1.2m (width) × 1.8m (height), and the door 40 serves as a passage.

Further, door 40 comprises 20 square steels and various steel sheets, and door 40 all passes through hinge connection with second windproof plate 32 and third windproof plate 33 to guarantee that door 40 can normally open and close, but this flexibility ratio that needs to guarantee the hinge, otherwise is difficult to realize opening and closing of door, uses the hinge of machine oil brush once every 3-5 days, because the field raise dust is great, pay attention to the dust in the clearance slit, in order to avoid causing the machine to damage.

It can be understood that the embodiment of the utility model provides an operation platform for high altitude construction's that an edge second is prevent wind board one side looks at the schematic structure drawing and is similar with the structure of fig. 3, for the sake of brevity, no longer redundantly describes here.

As can be seen from fig. 1 and 4, the first wind guard plate 31 is disposed opposite to the fourth wind guard plate 34 and the fifth wind guard plate 35, a gap with a size of 1.2m (long) × 1.8m (high) exists between the fourth wind guard plate 34 and the fifth wind guard plate 35, and when the flap 50 is opened, a 1.2m box-type column can pass through the gap and the hollowed part of the bottom plate 21, which is convenient for the installation of the operation platform.

Optionally, the first windproof plate 31, the second windproof plate 32, the third windproof plate 33, the fourth windproof plate 34 and the fifth windproof plate 35 are all color steel plates, and the thickness of each color steel plate is 0.5 mm.

The first windproof plate 31, the second windproof plate 32, the third windproof plate 33, the fourth windproof plate 34 and the fifth windproof plate 35 are connected with the framework through self-tapping nails with the length of 25 mm.

It should be noted that the steel plate according to the embodiment of the present invention must have a certification, must not decay and deform seriously, and must ensure a thickness. The framework is made of Q235 grade steel with moderate mechanical property, and the material of the framework is in accordance with the corresponding regulation of carbon structural steel (GB/T700) and is not required to have cracks and serious corrosion. Meanwhile, the steel plate and the framework need to be maintained, if corrosion deformation occurs, the steel plate and the framework need to be stopped to be used in time for maintenance and replacement.

It is supplementary to need, the embodiment of the utility model provides a 20 square steels mentioned can choose for use construction waste to accomplish reduce cost, nevertheless need notice 20 square steels's quality, can not have the problem that the corrosion warp, in case discover the condition that the corrosion warp, should stop to use immediately and maintain the maintenance, the renewal part.

The embodiment of the utility model provides an operation platform for high altitude construction, include: the windproof structure comprises a framework, a bottom plate, a windproof plate and a turnover plate; wherein the size of the framework is a cuboid with the size of 2.8m (length) multiplied by 2.8m (width) multiplied by 1.8m (height); the bottom plate is arranged at the bottom of the cuboid, the inner part of the bottom plate is hollowed into a concave shape, and the size of the hollowed part is 1.2m (length) multiplied by 2.0m (width); prevent wind the board setting in the side of cuboid, prevent wind board, third wind-proofing board, fourth wind-proofing board and fifth wind-proofing board including first wind-proofing board, second, first wind-proofing board sets up with fourth wind-proofing board and fifth wind-proofing board relatively. A gap with the size of 1.2m (long) multiplied by 1.8m (high) is arranged between the fourth windproof plate and the fifth windproof plate, the second windproof plate and the third windproof plate are oppositely arranged, and doors with the size of 1.2m (wide) multiplied by 1.8m (high) are arranged on the second windproof plate and the third windproof plate; the turning plate is connected with the bottom plate, the size of the turning plate is 1.2m (length) multiplied by 0.8m (width), and when the turning plate is closed, the turning plate covers the space of the hollowed part close to the fourth windproof plate and the fifth windproof plate. That is to say, the embodiment of the utility model provides an among the technical scheme, operation platform comprises skeleton, bottom plate and wind-proof plate a semi-enclosed space, can guarantee that personnel can not receive the influence of strong wind when high altitude construction to guarantee the personnel safety of high altitude construction, avoid welding spark to splash all the way, promote welding impression and entity quality. Meanwhile, the bottom plate is connected with the turning plate, so that the operation platform is convenient to mount when the turning plate is opened; when the turning plate is closed, the operation space of workers is increased so as to facilitate high-altitude construction, spark direct falling during welding is avoided, dangerousness is reduced, and the turning plate is more green and environment-friendly.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. An operation platform for high-altitude construction, comprising: the windproof structure comprises a framework, a bottom plate, a windproof plate and a turnover plate; wherein,

the framework is a cuboid;

the windproof plates are arranged on the side faces of the framework and comprise a first windproof plate, a second windproof plate, a third windproof plate, a fourth windproof plate and a fifth windproof plate, the first windproof plate, the fourth windproof plate and the fifth windproof plate are arranged oppositely, the second windproof plate and the third windproof plate are arranged oppositely, doors are arranged on the second windproof plate and the third windproof plate respectively, and a gap is formed between the fourth windproof plate and the fifth windproof plate;

2. The work platform of claim 1, wherein said framework has dimensions of 2.8m (length) x 2.8m (width) x 1.8m (height); the dimensions of the hollowed-out part are as follows: 1.2m (length) × 2.0m (width); the dimensions of the door are: 1.2m (width) × 1.8m (height); the size of the voids is 1.2m (long) x 1.8m (high); the size of the flap is 1.2m (length) × 0.8m (width).

3. The operation platform of claim 2, wherein the skeleton comprises a main skeleton and a maintenance skeleton, the main skeleton is No. 8 channel steel, and the maintenance skeleton is 20 square steel.

4. The operation platform of claim 3, wherein the framework further comprises a hoisting framework, and the hoisting framework is L75 x 5 equilateral angle steel.

5. The operation platform of claim 4, wherein the framework further comprises a supporting framework, and the supporting framework is arranged between the main frameworks corresponding to the second windproof plate and the fourth windproof plate, and the third windproof plate and the fifth windproof plate, and is used for improving the stability of the operation platform for high-altitude construction.

6. The operation platform according to claim 2, wherein the bottom plate is a pattern steel plate with a thickness of 2.5 mm; the bottom plate is connected with the framework through spot welding.

7. The operations platform of claim 2, wherein the first, second, third, fourth, and fifth windshields are color steel plates each having a thickness of 0.5 mm.

8. The work platform of claim 2 or 7, wherein the first, second, third, fourth and fifth wind shields are connected to the frame by self-tapping nails 25mm in length.

9. The work platform of claim 2, wherein the door is made of 20 square steel and color steel plates, and the door is connected to the second and third windbreak plates by hinges.

10. An operation platform according to claim 2, characterized in that the flap is connected to the base plate by a shaft.