CN211810302U - Integrated support on boarding bridge roof - Google Patents

Abstract

The utility model discloses an integrated support on boarding bridge roof contains the head tree who connects in the roof, connect in the roof, be located the head tree both sides and be the side stand that triangle-shaped arranged with the stand, connect between both sides stand, crossbeam between side stand and head tree, connect gradually in the vertical first outrigger of main, main second outrigger and main third outrigger from bottom to top to and connect gradually in the vertical first outrigger of side and the second outrigger of side stand from bottom to top. The utility model can provide vertical support through the arrangement of the main upright post and the side upright posts, and the triangular arrangement is not influenced mutually, and in addition, the integrity of the integral integrated bracket is facilitated through the connection of the cross beams; different weak current equipment can be correspondingly connected through independent arrangement of the main brackets, so that different installation space requirements are met; the arrangement of the column foundation is beneficial to the rain prevention and seepage prevention of the boarding bridge, and is convenient to adapt to site construction.

Description

Integrated support on boarding bridge roof

Technical Field

The utility model belongs to the building construction field, in particular to integrated support on boarding bridge roof.

Background

In airport construction, a weak current information system in an airport boarding bridge is complex, and a large number of weak current information equipment such as a triangular airplane space marker, a camera, a wireless AP (access point), an operator signal base station, an ADS-B (automatic dependent surveillance-broadcast) system and the like need to be installed at the top of a bridge head of the boarding bridge. Meanwhile, because the top space of the bridge head of the boarding bridge is limited, in order to reduce the occupied space for installation of weak-current equipment as much as possible, reduce the repeated installation of a lightning protection grounding system and reduce the possibility of rainwater leakage of the top plate of the boarding bridge caused by the installation of a plurality of equipment, a mounting support needs to be designed in a pertinence manner.

SUMMERY OF THE UTILITY MODEL

The utility model provides an integrated support on boarding bridge roof for the space is limited when solving the weak current equipment of boarding bridge roof installation, increases lightning protection measure and avoids installing the technical problem such as roof seepage that causes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an integrated support of a boarding bridge roof comprises a main upright post connected to the roof, side upright posts connected to the roof, positioned on two sides of the main upright post and arranged in a triangular shape with the upright post, cross beams connected between the two side upright posts and between the side upright posts and the main upright post, a main first epitaxial support, a main second epitaxial support and a main third epitaxial support which are sequentially connected to the main upright post in the vertical direction from bottom to top, and a side first epitaxial support and a side second epitaxial support which are sequentially connected to the side upright post in the vertical direction from bottom to top;

the main upright post and the side upright posts are detachably connected with the roof through post foundations;

the main first epitaxial support, the main second epitaxial support, the main third epitaxial support, the side first epitaxial support and the side second epitaxial support are detachably connected with the main upright post and the side upright post respectively and correspondingly connected with weak current equipment;

the first extension support, the main second extension support, the main third extension support and the side second extension support are all L-shaped pieces, and the side second extension support is a linear piece.

Furthermore, the height of the main upright post is higher than that of the upright posts on the two sides, and the part, higher than the main upright post, of the main upright post is connected with a main second epitaxial support and a main third epitaxial support; the top end of the side upright post is connected with a camera and a support post thereof, and the height of the top end of the support post is lower than that of the main upright post.

Furthermore, the cross beams are connected to the main upright post and the side upright posts at intervals in the vertical direction, and at least two groups of cross beams are connected with the machine position plates.

Furthermore, the main first extension brackets are connected to the middle part or the middle lower part of the main upright post, and two main first extension brackets are symmetrically connected to two sides of the upright post; the L-shaped transverse part of each main first extension support is detachably connected with the main upright post, and the top end of the vertical part is lower than the top of the side upright post and is connected with corresponding wireless equipment.

Furthermore, the main second external extension brackets are connected to the middle upper part, and two main second external extension brackets are symmetrically connected to two sides of the upright post; the L-shaped transverse part of each main second external extension support is detachably connected with the main upright post, and the top end of the vertical part is lower than the top height of the main upright post and is connected with corresponding antenna equipment.

Furthermore, the main third extension supports are connected to the top of the main upright post, and two main third extension supports are arranged on the main upright post in a right angle; the L-shaped transverse part of each main third extension support is detachably connected with the main upright post, the length of the transverse part is not less than that of the transverse parts of the main first extension support and the main second extension support, and the L-shaped vertical part of each extension support is connected with a lightning rod.

Furthermore, two side first extension supports are connected to each side upright post and distributed in a right angle, and the side first extension supports are parallel to the side upright posts and detachably connected with the side upright posts through transverse connecting rods; the first epitaxial support on the side is connected with a micro-station device.

Further, the second epitaxial support of side is connected with two and the first epitaxial support of two sides on side stand top and every side stand and is the right angle and distributes, and the L shape horizontal portion and the side stand top of the second epitaxial support of side can be dismantled and be connected and horizontal portion length is not less than the first epitaxial support of side apart from the length between the side stand, and the vertical part is connected with the lightning rod.

Furthermore, the column foundation corresponding to the main upright column and the side upright columns is a square or a cylinder, the column foundation is a telescopic or assembled pipe fitting, and the bottom of the column foundation is connected to the inside of the roof and is connected with a main structure beam below the roof; the column foundations can also be fixedly connected through a reinforcing rod.

The beneficial effects of the utility model are embodied in:

1) the utility model can provide vertical support for each support through the arrangement of the main upright post and the side upright post, and the main upright post and the side upright post are arranged in a triangle shape and are not influenced mutually when the weak current equipment is connected with each other;

2) the utility model can correspondingly connect different weak current devices through the independent arrangement of the main first extension bracket, the main second extension bracket, the main third extension bracket, the side first extension bracket and the side second extension bracket, and vertically meet the installation space requirements of different weak current devices;

3) the utility model discloses a setting of column foundation can not destroy original roof structure, does benefit to the rain-proof and the prevention of seepage of aerobridge, and column foundation height-adjustable is convenient for adapt to site operation, and column foundation is connected with dismantling of superstructure and is convenient for install, dismantle and maintain.

In addition, the detachable connection among the components of the utility model is beneficial to the batch prefabrication and the field assembly, and the tubular arrangement is beneficial to the cross-connecting wire of the weak current equipment; additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

Fig. 1 is a front view of a boarding bridge roof integrated bracket;

FIG. 2 is a schematic cross-sectional view of 1-1;

FIG. 3 is a schematic cross-sectional view of 2-2;

FIG. 4 is a schematic cross-sectional view of FIG. 3-3;

FIG. 5 is a schematic cross-sectional view of 4-4;

fig. 6 is a schematic cross-sectional view of 5-5.

Reference numerals: 1-main structural beam, 2-roof, 3-column foundation, 4-main column, 5-side column, 6-cross beam, 7-main first extension bracket, 8-side first extension bracket, 9-side second extension bracket, 10-main second extension bracket and 11-main third extension bracket.

Detailed Description

Taking the installation of a weak current information system in a boarding bridge at an airport as an example, a great number of weak current information equipment which needs to be installed at the top of the head of the boarding bridge are arranged, and in order to reduce the occupied space for installing the weak current equipment as much as possible, reduce the repeated installation of a lightning protection grounding system and reduce the possibility of rainwater leakage of the top plate of the boarding bridge caused by the installation of a plurality of equipment, an integrated bracket is adopted for installation.

As shown in fig. 1, the integrated support of boarding bridge roof 2, including connecting in the head tree 4 of roof 2, connect in roof 2, be located the head tree 4 both sides and be the side stand 5 that the triangle-shaped was arranged with the stand, connect between two side stands 5, crossbeam 6 between side stand 5 and head tree 4, connect in proper order in the vertical main first outrigger 7 of head tree 4 from bottom to top, main second outrigger 10 and main third outrigger 11, and connect in proper order in the vertical first outrigger 8 of side stand 5 and side second outrigger 9 from bottom to top. In the figure, the first, the second and the third correspond to the central line positions of a main upright post 4 and upright posts 5 at two sides respectively.

In this embodiment, the main upright 4 and the side upright 5 are detachably connected to the roof 2 through the column foundation 3. The main first epitaxial support 7, the main second epitaxial support 10, the main third epitaxial support 11, the side first epitaxial support 8 and the side second epitaxial support 9 are detachably connected corresponding to the main upright post 4 and the side upright post 5 respectively and are correspondingly connected with weak current equipment; the first extension bracket, the main second extension bracket 10, the main third extension bracket 11 and the side second extension bracket 9 are all L-shaped pieces, and the side second extension bracket 9 is a linear piece.

In this embodiment, the height of the main upright column 4 is higher than that of the upright columns 5 at two sides, wherein the height of the main upright column 4 is 5300mm, and the height of the upright columns 5 at two sides is 3300 mm; the main upright post 4 and the side upright post 5 have the section specification of D (diameter) 159x6 mm. The higher part of the main upright post 4 is connected with a main second extension bracket 10 and a main third extension bracket 11, the top end of the side upright post 5 is connected with a camera and a supporting column thereof, and the top end of the supporting column is lower than the main upright post 4.

As shown in fig. 2, the cross beams 6 are connected to the main upright 4 and the side upright 5 at intervals, and three sets of cross beams are connected to the top end, the middle part and the bottom of the side upright 5 respectively. The specification of the beam 6 is D (diameter) 89x5mm, and the distance between the three groups of connecting points and the upper surface of the column foundation 3 is 700mm, 1700mm and 3200 mm. And triangular machine position plates are fixedly connected to the lower two groups of cross beams 6.

As shown in fig. 3, the main first extension bracket 7 is connected to the middle or middle lower part of the main upright post 4, and two main first extension brackets 7 are symmetrically connected to two sides of the upright post; the L-shaped transverse part of each main first extension bracket 7 is detachably connected with the main upright post 4, and the top end of the vertical part is lower than the top height of the side upright post 5 and is connected with a corresponding wireless AP. The two side first extension brackets 8 are connected to each side upright post 5, the two side first extension brackets 8 are distributed in a right angle, and the side first extension brackets 8 are parallel to the side upright posts 5 and are detachably connected with the side upright posts 5 through transverse connecting rods; the first lateral extension support 8 is connected with an AAU (architecture) of a small micro station of an operator corridor bridge.

In this embodiment, the main first extension brackets 7 are all made of D (diameter) 60x4mm steel pipes, the length is 800mm, and the upper reverse height is 1000 mm. The bottom end of the epitaxial support is 2200mm away from the upper surface of the column foundation 3. The first lateral extension brackets 8 are all made of D (diameter) 60x4mm steel pipes, and the heights of the first lateral extension brackets are all 1000 mm.

As shown in fig. 4, the side second extension bracket 9 is connected to the top of the side column 5, two side first extension brackets 8 are connected to each side column 5, the two side first extension brackets 8 are distributed at right angles, the L-shaped transverse portion of the side second extension bracket 9 is detachably connected to the top end of the side column 5, the length of the transverse portion is not less than that of the side first extension bracket 8 from the side column 5, and the vertical portion is connected with a lightning rod. In this embodiment, the second lateral extension brackets 9 are made of D (diameter) 60 × 4mm steel pipes, have a length of 800mm and an upper reverse height of 230mm at the outer edge, and are integrally arranged outward.

As shown in fig. 5, the main second extension bracket 10 is connected to the middle upper portion, and two main second extension brackets 10 are symmetrically connected to both sides of the pillar; the L-shaped transverse part of each main second extension support 10 is detachably connected with the main upright post 4, and the top height of the vertical part is lower than the top height of the main upright post 4 and is connected with a corresponding wireless ADS-B antenna. In this embodiment, the main second extension brackets 10 are all made of D (diameter) 60x4mm steel pipes, and have a length of 600mm and an upper reverse height of 500 mm. The bottom end of the extension bracket is 4200mm away from the upper surface of the column base 3.

As shown in fig. 6, the main third outriggers 11 are connected to the top of the main column 4, and two main third outriggers 11 are arranged on the main column 4 at right angles; the L-shaped transverse part of each main third extension bracket 11 is detachably connected with the main upright post 4, the length of the transverse part is not less than that of the transverse parts of the main first extension bracket 7 and the main second extension bracket 10, and the L-shaped vertical part of each extension bracket is connected with a lightning rod. In this embodiment, the main third outriggers 11 are all made of D (diameter) 60x4mm steel pipes, have a length of 800mm and an upper reverse height of 200mm, and are arranged opposite to the main upright posts 4.

In this embodiment, the column base 3 is a rectangular body with a length of 200mm, a width of 200mm, a thickness of 10mm and a height of 600mm, and a cylindrical connecting hole is provided inside the corresponding column body. The main upright post 4 and the side upright posts 5 are connected with the column foundation 3 through threads or bolts. The bottom of the column foundation 3 is connected with the inside of the roof 2 and is connected with the main structure beam 1 below the roof 2; in addition, the column foundations 3 can also be fixedly connected through reinforcing rods.

In the embodiment, the detachable connection among the components is realized through threads, cuffs or connecting plates, and the connection can also be disconnected through spot welding connection and fusing; the joint ensures the sealing performance and is provided with a waterproof strip. And insulating layers are arranged in the components, so that the power utilization safety is ensured.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be considered 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.

Claims (9)

1. The integrated support of the boarding bridge roof is characterized by comprising a main upright post (4) connected to the roof (2), side upright posts (5) which are connected to the roof (2), positioned on two sides of the main upright post (4) and arranged in a triangular manner with the upright posts, a cross beam (6) connected between the two side upright posts (5) and between the side upright posts (5) and the main upright post (4), a main first epitaxial support (7), a main second epitaxial support (10) and a main third epitaxial support (11) which are sequentially connected to the main upright post (4) in the vertical direction from bottom to top, and a side first epitaxial support (8) and a side second epitaxial support (9) which are sequentially connected to the side upright posts (5) in the vertical direction from bottom to top;

the main upright post (4) and the side upright posts (5) are detachably connected with the roof (2) through post foundations (3);

the main first extension bracket (7), the main second extension bracket (10), the main third extension bracket (11), the side first extension bracket (8) and the side second extension bracket (9) are detachably connected corresponding to the main upright post (4) and the side upright post (5) respectively and are correspondingly connected with weak current equipment;

the main upright post (4), the side upright posts (5), the cross beam (6), the main first extension bracket (7), the main second extension bracket (10), the main third extension bracket (11), the side first extension bracket (8) and the side second extension bracket (9) are all tubular pieces, and are internally communicated with and connected with wires of weak current equipment in a penetrating manner;

the first extension support, the main second extension support (10), the main third extension support (11) and the side second extension support (9) are all L-shaped pieces, and the side second extension support (9) is a linear piece.

2. The integrated bracket of a boarding bridge roof of claim 1, characterized in that the height of the main upright post (4) is higher than that of the two side upright posts (5), and a main second extension bracket (10) and a main third extension bracket (11) are connected to the higher part of the main upright post (4); the top end of the side upright post (5) is connected with a camera and a supporting column thereof, and the top end of the supporting column is lower than the height of the main upright post (4).

3. The integrated bracket of a boarding bridge roof of claim 2, characterized in that the cross beams (6) are connected in a vertical direction of the main upright post (4) and the side upright posts (5) at intervals, and at least two groups of the cross beams (6) are connected with the airplane space license plates.

4. The integrated bracket of a boarding bridge roof of claim 2, characterized in that the main first extension bracket (7) is connected to the middle or the middle lower part of the main upright post (4), and two main first extension brackets (7) are symmetrically connected to two sides of the upright post; the L-shaped transverse part of each main first extension bracket (7) is detachably connected with the main upright post (4), and the top end of the vertical part is lower than the top height of the side upright post (5) and is connected with corresponding wireless equipment.

5. The integrated bracket of a boarding bridge roof of claim 4, characterized in that the main second extension bracket (10) is connected to the middle upper part, and the main second extension bracket (10) has two and is symmetrically connected to the two sides of the upright; the L-shaped transverse part of each main second extension support (10) is detachably connected with the main upright post (4), and the top end of the vertical part is lower than the top height of the main upright post (4) and is connected with corresponding antenna equipment.

6. An integrated support of a boarding bridge roof as claimed in claim 5, characterized in that the main third outriggers (11) are connected to the top of the main upright (4), two main third outriggers (11) are arranged at right angles on the main upright (4) and two main third outriggers (11); the L-shaped transverse part of each main third extension bracket (11) is detachably connected with the main upright post (4), the length of the transverse part is not less than that of the transverse parts of the main first extension bracket (7) and the main second extension bracket (10), and the L-shaped vertical part of each extension bracket is connected with a lightning rod.

7. An integrated support of a boarding bridge roof according to claim 2, characterized in that two first lateral outriggers (8) are connected to each side upright (5) and the two first lateral outriggers (8) are arranged at right angles, the first lateral outriggers (8) are parallel to the side uprights (5) and are detachably connected with the side uprights (5) through transverse connecting rods; the first lateral extension bracket (8) is connected with a micro-station device.

8. The integrated bracket of a boarding bridge roof of claim 7, characterized in that the second lateral extension brackets (9) are connected to the tops of the side columns (5), two first lateral extension brackets (8) are connected to each side column (5) and are distributed at right angles, the L-shaped transverse part of each second lateral extension bracket (9) is detachably connected with the top end of each side column (5), the length of the transverse part is not less than the length of the first lateral extension bracket (8) from the side column (5), and the vertical part is connected with a lightning rod.

9. The integrated bracket of a boarding bridge roof of claim 1, characterized in that the column foundation (3) is square or cylindrical corresponding to the main upright post (4) and the side upright post (5), the column foundation (3) is a telescopic or split pipe, and the bottom of the column foundation (3) is connected to the inside of the roof (2) and is connected with the main structural beam (1) below the roof (2); the column foundations (3) can also be fixedly connected through reinforcing rods.

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