CN218881677U - Vertical surface protection device for steel structure building construction - Google Patents

Abstract

A vertical surface protection device for steel structure building construction comprises a plurality of vertical rods arranged in parallel along the vertical direction and a plurality of transverse truss arranged in parallel along the transverse direction, wherein the transverse truss is fixedly connected with the vertical rods in a vertical mode to form a vertical surface structure, and a protection net is fixedly arranged on one side of the vertical surface structure. One side of the vertical face structure far away from the protective net is fixedly connected with a plurality of guide rails vertically arranged, and wall attaching supports are arranged on the guide rails and can be attached to the steel structure building. The vertical face protection device for the steel structure building construction is a vertical face structure, can effectively protect the steel structure building construction, has a structure which accords with the construction characteristics of the steel structure building, and more accords with the steel structure building compared with the existing climbing frame; the utility model discloses a facade protector of steel construction building construction compares in current steel construction protector, and degree of automation is higher, and the accessible wall climbs, and it can effectively promote the efficiency of construction, and it has very strong practicality.

Description

Vertical surface protection device for steel structure building construction

[ technical field ] A method for producing a semiconductor device

The utility model relates to a construction field, in particular to facade protector of steel construction building construction.

[ background of the invention ]

The construction protection on the steel structure high-rise building is different from that of a common reinforced concrete structure, and the steel structure high-rise building is that a steel structure beam column is installed firstly, and then a truss floor bearing plate is installed; no protection is required in both processes. Then, pouring concrete on the truss floor support plate; in the concrete pouring process, protection is required; in the prior art, a facade protective net is usually built at the edge of a floor needing pouring. This kind of mode can play the guard action to steel construction building construction, but, its needs dismouting protection network many times, and this can increase the construction volume to a certain extent and reduce the efficiency of construction.

[ Utility model ] content

The utility model aims at solving the above problems, and provide an attachable steel construction climbs and improves the facade protector of the steel construction building construction of efficiency of construction.

In order to solve the problem, the utility model provides a facade protector of steel construction building construction, a serial communication port, it includes a plurality of vertical parallel arrangement's in edge pole setting and a plurality of horizontal truss along horizontal parallel arrangement, horizontal truss with the perpendicular rigid coupling of pole setting and form the facade structure one side of facade structure is fixed and is equipped with the protection network.

Further, the vertical rods and the transverse truss are located in the same vertical plane.

Furthermore, the protective net comprises a plurality of net frames and a net piece, the net frames are fixedly connected to the surface of one side of the vertical face structure, and the net piece is fixedly connected to the net frames.

Furthermore, one side of the vertical face structure, which is far away from the protective net, is fixedly connected with a plurality of guide rails which are vertically arranged, and the guide rails are provided with wall attaching supports which can be attached to the steel structure building.

Furthermore, an upper hanging frame is arranged at the upper part of the guide rail, a lifting hanging point is arranged at the lower part of the guide rail, and an electric hoist is connected between the upper hanging frame and the lifting hanging point.

Furthermore, a hanging point truss is arranged between the guide rail and the lifting hanging point, the hanging point truss is vertically and fixedly connected to the guide rail, and the lifting hanging point is fixedly connected to the hanging point truss.

Furthermore, a protection turning plate is arranged at the lower end of the vertical face structure and is positioned on the side, opposite to the protective screen, of the vertical face structure.

Further, the guide rail is vertically and fixedly connected with the transverse truss.

The beneficial contributions of the utility model reside in that, it has effectively solved above-mentioned problem. The vertical face protection device for the steel structure building construction is a vertical face structure, can effectively protect the steel structure building construction, has a structure which accords with the characteristics of the steel structure building construction, better accords with the steel structure building compared with the existing climbing frame, and has simpler structure, lower cost and easier installation; the utility model discloses a facade protector of steel construction building construction compares in current steel construction protector, and its degree of automation is higher, and the attachable wall climbs, and it can effectively promote the efficiency of construction, and it has very strong practicality, should widely popularize.

[ description of the drawings ]

Fig. 1 is a schematic view of the overall structure.

Fig. 2 is a partially enlarged view of the upper portion of fig. 1.

Fig. 3 is a partially enlarged view of the lower part of fig. 1.

Fig. 4 is a schematic plan view.

Fig. 5 is a side view.

The attached drawings are as follows: the vertical rod 10, the transverse truss 20, the diagonal rod 21, the vertical rod 22, the rectangular frame 23, the protective net 30, the guide rail 40, the wall-attached support 50, the electric hoist 60, the protective turning plate 70, the upper hanging rack 80, the lifting hanging point 90, the facade structure 100 and the hanging point truss 110.

[ detailed description ] embodiments

The following examples are further illustrative and supplementary to the present invention and do not constitute any limitation to the present invention.

As shown in fig. 1 to 5, the vertical surface protection device for steel structure building construction of the present invention includes an upright rod 10, a horizontal truss 20, a protection net 30, a guide rail 40, a wall-attached support 50, and an electric hoist 60. Further, it may also include a guard flap 70.

The upright stanchions 10 are provided with a plurality of upright stanchions which are arranged in parallel and at intervals along the vertical direction. The transverse truss 20 is provided with a plurality of transverse trusses which are arranged in parallel in the transverse direction. The upright stanchions 10 are vertically affixed to the transverse truss 20 to form a facade structure 100.

In this embodiment, the vertical rods 10 and the transverse truss 20 are located in the same vertical plane. The upright rod 10 is made of punched square steel. The transverse truss 20 is a rectangular frame 23 structure, and the inside of the transverse truss is provided with an inclined rod 21 and a vertical rod 22 to form a triangular structure for supporting and reinforcing. The outer rectangular frame 23 of the transverse truss 20 is formed by welding punched square steel, and the inclined rods 21 and the vertical rods 22 on the inner side of the transverse truss 20 are made of square steel and are welded with the outer rectangular frame 23. The two ends of the transverse truss 20, i.e. the outer rectangular frames 23, are fixedly connected between the two opposite side walls of two adjacent vertical rods 10 through bolts, so that the vertical rods 10 and the transverse truss 20 are located in the same vertical plane.

The height of the facade structure 100 can be set according to the needs, and generally, the height of the facade structure is larger than that of a 3-storey building, so that the facade structure is beneficial to safer climbing attached to a wall.

For protection, a protective net 30 is fixed on one side of the facade structure 100. The protective net 30 is located on the side of the facade structure 100 away from the steel structure building, that is, on the outer side of the facade structure 100. The protection net 30 includes a plurality of net frames and net sheets. The frame is a rectangular frame structure, which is fixedly connected to the facade structure 100. The net sheet is fixedly connected to the net frame.

In order to climb along the wall, a plurality of guide rails 40 vertically arranged are fixedly connected to one side of the facade structure 100 away from the protective net 30, and wall-attached supports 50 are arranged on the guide rails 40. The guide rail 40 may be a known guide rail 40. In this embodiment, the guide rails 40 are fixed to the transverse truss 20, and are vertically fixed to the transverse truss 20 by bolts, so that the facade structure 100 can be more stable.

The wall attachment bracket 50 may be a known wall attachment bracket fixedly connected to the guide rail 40 by bolts. The wall attaching support 50 is used for connecting with a steel structure building. The position where the wall attaching support 50 is installed corresponds to the position of each building. I.e., the distance between the upper and lower wall-attached supports 50, is the height of a single building.

For automatic lifting, an electric hoist 60 is provided on the facade structure 100. Specifically, an upper hanger 80 is provided at an upper portion of the guide rail 40, a lifting and hanging point 90 is provided at a lower portion of the guide rail 40, and an electric hoist 60 is connected between the upper hanger 80 and the lifting and hanging point 90.

In this embodiment, the upper hanger 80 is a triangular frame, which is vertically fixed to the lateral direction of the guide rail 40 by bolts, so that the upper hanger 80 is parallel to the transverse truss 20. Likewise, the lifting point 90 is also fixed vertically laterally of the rail 40.

The electric hoist 60 may be a well-known electric hoist, and one end of the electric hoist is connected to the upper hanger 80, and one end of the electric hoist is connected to the lifting point 90. The connection mode of the electric hoist 60 can refer to the known technology.

Further, a suspension point truss 110 is provided between the guide rail 40 and the lifting suspension point 90. The suspension point truss 110 is vertically disposed and vertically fixed to the lateral side of the guide rail 40 by bolts, and the lifting suspension point 90 is vertically fixed to the suspension point truss 110 by bolts.

Because a certain distance is arranged between the vertical face structure 100 and the steel structure building, in order to improve the safety, the lower end of the vertical face structure 100 is provided with a protection turning plate 70. The protection flap 70 is located on the side of the facade structure 100 opposite to the protection net 30. When the wall needs to be attached to climb, the protection turning plate 70 can be folded to be overlapped with the vertical surface structure 100; when the climbing with the wall is not needed and the construction is needed, the protection turning plate 70 can be opened, so that the other end of the protection turning plate 70 is lapped on the steel structure building, and the safety accident caused by the falling of personnel or objects from the space between the steel structure building and the vertical face structure 100 is avoided. The protective flap 70 may be formed using a known flap structure.

From this, just formed the utility model discloses a facade protector of steel construction building construction, this protector are facade structure 100, and it can carry out effectual protection to steel construction building construction, and its structure accords with the characteristics of steel construction building construction, and it compares in current climbing frame more accords with steel construction building, and its structure is simpler, the cost is lower, change in the installation, and it has very strong practicality, should widely popularize.

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 (8)

1. The vertical face protection device for the steel structure building construction is characterized by comprising a plurality of vertical rods (10) which are arranged in parallel along the vertical direction and a plurality of transverse truss frames (20) which are arranged in parallel along the transverse direction, wherein the transverse truss frames (20) are fixedly connected with the vertical rods (10) vertically to form a vertical face structure (100), and a protective net (30) is fixedly arranged on one side of the vertical face structure (100).

2. A facade guard according to claim 1, characterised in that the uprights (10) are in the same facade as the transverse girders (20).

3. The vertical surface protection device for steel structure building construction as claimed in claim 1, wherein the protection net (30) comprises a plurality of net frames and net sheets, the net frames are fixedly connected to one side surface of the vertical surface structure (100), and the net sheets are fixedly connected to the net frames.

4. The vertical surface protection device for steel structure building construction as claimed in claim 1, wherein a plurality of guide rails (40) vertically arranged are fixedly connected to one side of the vertical surface structure (100) far away from the protective screen (30), wall-attached supports (50) are arranged on the guide rails (40), and the wall-attached supports (50) can be attached to the steel structure building.

5. The vertical surface protection device for steel structure building construction as claimed in claim 4, wherein an upper hanger (80) is provided at the upper portion of the guide rail (40), a lifting hanging point (90) is provided at the lower portion of the guide rail (40), and an electric hoist (60) is connected between the upper hanger (80) and the lifting hanging point (90).

6. The vertical surface protection device for steel structure building construction as claimed in claim 5, wherein a hanging point truss (110) is provided between the guide rail (40) and the lifting hanging point (90), the hanging point truss (110) is vertically fixed on the guide rail (40), and the lifting hanging point (90) is fixed on the hanging point truss (110).

7. The vertical surface protection device for steel structure building construction according to claim 1, wherein a protection turning plate (70) is arranged at the lower end of the vertical surface structure (100), and the protection turning plate (70) is positioned at the side of the vertical surface structure (100) opposite to the protection net (30).

8. A facade protector according to claim 4 characterised in that the guide rail (40) is secured vertically to the transverse truss (20).

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