CN214656339U - High altitude drainage pipe installation device - Google Patents

Abstract

The utility model relates to a high altitude drainage pipe installation device relates to the field of the installation technique of high altitude drain pipe, and it includes steel portal, artificial frame operation platform, drain pipe place the platform and conveyer, the one end of steel portal is used for being connected with the steel box roof beam, the unsettled setting of the other end, artificial frame operation platform and drain pipe place the platform and connect in steel box roof beam below, conveyer includes hoist engine, wire rope and gyro wheel, the hoist engine is connected with the steel box roof beam, wire rope's one end and the output shaft of hoist engine, gyro wheel interval distribution just connects in artificial frame operation platform and drain pipe place the platform top. This application has the effect of the high altitude installation of being convenient for carry on the drain pipe.

Description

High altitude drainage pipe installation device

Technical Field

The application relates to the field of mounting technology of high-altitude drain pipes, in particular to a high-altitude drain pipe mounting device.

Background

The high-altitude drain pipe is installed by taking the advantages of simple structure, low cost, high construction efficiency and high safety as much as the attention of constructors, is widely applied to the projects of crossing rivers, straits and canyons, needs to adjust, install and fix the drain pipe joints at bridge positions, and simultaneously designs the high-altitude transportation of partial components.

The application number is CN 201820069212.9's patent discloses a steel box girder exempts from drain pipe built-in drainage system, includes the bridge floor and evenly arranges the water inlet on the bridge floor, still includes water drainage tank, inside steel box girder was arranged in to water drainage tank, vertically laid in the bridge both sides along the bridge, was located the below of bridge floor, the water inlet is arranged in water drainage tank top.

In view of the above-mentioned related art, the inventor believes that the installation of the drain pipe of the through arch bridge is difficult to operate.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the installation of the drain pipe in high altitude, the application provides a high altitude drain pipe installation device.

The application provides a high altitude drainage pipe installation device adopts following technical scheme:

the utility model provides a high altitude drainage pipe installation device, includes steel door frame, artifical frame operation platform, drain pipe place the platform and conveyer, the one end of steel door frame is used for being connected with the steel box roof beam, the unsettled setting of the other end, artifical frame operation platform and drain pipe place the platform and connect in steel box roof beam below, conveyer includes hoist engine, wire rope and gyro wheel, the hoist engine is connected with the steel box roof beam, wire rope's one end and the output shaft of hoist engine, gyro wheel interval distribution, and connect in artifical frame operation platform and drain pipe place the platform top.

Through adopting above-mentioned technical scheme, steel portal plays the effect of supporting and connecting drainage pipe place the platform. During the use, put the drain pipe on drain pipe place the platform's gyro wheel to be connected wire rope and drain pipe, open the hoist engine again, the hoist engine drives wire rope and removes, and wire rope drives the drain pipe and removes on the gyro wheel, thereby transports the drain pipe to the preinstallation position, thereby is convenient for carry out the high altitude installation of drain pipe.

Optionally, the steel portal includes girder and otic placode, the otic placode is connected in the girder top, the one end that is close to the steel box girder of girder is equipped with the stock, the stock runs through the girder to be connected with the steel box girder.

Through adopting above-mentioned technical scheme, the stock makes to be connected girder and steel box girder to realize being connected of steel door frame and steel box girder.

Optionally, the steel portal is provided with a reinforcing member, the reinforcing member is made of elastic materials, one end of the reinforcing member is connected with one end of the girder in a suspension manner, and the other end of the reinforcing member penetrates through the lug plate to be connected with the anchor rod.

Through adopting above-mentioned technical scheme, the reinforcement has increased the connection steadiness of girder and steel case roof beam.

Optionally, a plurality of suspenders are arranged below the steel box girder, the suspenders are arranged in a group in pairs and are opposite to each other, the number of the suspenders is even, one end of each suspender is connected with the steel box girder, and the other end of each suspender is connected with the drain pipe placing platform.

Through adopting above-mentioned technical scheme, the jib can realize being connected of drain pipe place the platform and steel box girder, jib simple to operate to be convenient for carry on drain pipe place the platform's connection.

Optionally, a cross brace is arranged between two adjacent suspension rods on the same side.

Through adopting above-mentioned technical scheme, the bridging can reduce the jib and produce the phenomenon of rocking, has increased the connection stability of jib.

Optionally, the idler wheel comprises a plurality of first rotating wheels and a plurality of second rotating wheels, the number of the first rotating wheels is even, the first rotating wheels are in a group in pairs and are vertically arranged on two sides of the manual frame operation platform relatively, and the first rotating wheels are connected to the manual frame operation platform; the second rotating wheel is horizontally and rotatably connected to the drain pipe placing platform.

Through adopting above-mentioned technical scheme, the gyro wheel makes the contact between drain pipe and the drain pipe place the platform become rolling friction from sliding friction for the removal process that the drain pipe obtained is more smooth and easy.

Alternatively, the diameter of the roller is gradually increased from the center to both ends.

By adopting the technical scheme, the diameter of the second roller is gradually increased from the center to the two ends, so that the contact between the roller and the drain pipe can be increased, and the stability of the drain pipe on the roller is improved; can also be used as a guardrail to increase the safety of the drain pipe placing platform during working.

Optionally, a guardrail is arranged at the edge of the manual frame operation platform.

Through adopting above-mentioned technical scheme, the guardrail can increase the security of personnel during operation on artifical frame operation platform.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the drain pipe can be conveyed to a pre-installation position by arranging the drain pipe placing platform and the conveying device, so that the drain pipe can be conveniently installed at high altitude;

2. by arranging the reinforcing member, the connection stability of the main beam and the steel box girder can be improved;

3. through setting up the bridging, can reduce the jib and produce the phenomenon of rocking, increase the connection stability of jib.

Drawings

FIG. 1 is a schematic overall structure diagram of an aerial drainage pipeline installation device according to an embodiment of the present application.

Description of reference numerals: 1. a steel box girder; 2. a steel portal; 21. a main beam; 22. an ear plate; 3. a manual frame operating platform; 31. a horizontal bar; 32. a vertical rod; 4. a drain pipe placement platform; 5. a conveying device; 51. a winch; 52. a wire rope; 53. a roller; 531. a first rotating wheel; 532. a second rotating wheel; 6. an anchor rod; 7. a reinforcement; 8. a boom; 9. a hoisting ring; 10. a scissor support; 11. fixing the rod; 12. a support frame; 121. a connecting rod; 122. a support bar; 13. and (4) a guardrail.

Detailed Description

The present application is described in further detail below with reference to fig. 1. The embodiment of the application discloses high altitude drainage pipe installation device. Referring to fig. 1, high altitude drainage pipe installation device includes steel portal 2, manual frame operation platform 3, drain pipe place the platform 4 and conveyer 5, steel portal 2 includes integrated into one piece's girder 21 and otic placode 22, otic placode 22 is vertical to be located girder 21 top, the one end that is close to steel box girder 1 of girder 21 is equipped with stock 6, the unsettled setting of the other end, stock 6 runs through girder 21, and be connected with steel box girder 1, thereby realize being connected of steel portal 2 and steel box girder 1. Be equipped with reinforcement 7 on the steel portal 2 in order to increase the connection steadiness of girder 21 and steel box girder 1, reinforcement 7 is the steel strand wires in this embodiment, and reinforcement 7 is made by elastic material, and the one end of reinforcement 7 is connected with the unsettled one end of girder 21, is equipped with integrated into one piece's rings 9 on the otic placode 22, and the other end runs through rings 9 and is connected with stock 6.

Artifical frame operation platform 3 and drain pipe place the platform 4 and connect in 1 below of steel box girder, and 1 below of steel box girder is equipped with a plurality of jibs 8, and jib 8 has a plurality ofly in this embodiment, and 8 two liang of a set of relative settings of jib, jib 8 are even number, 8 one end of jib and 1 bolted connection of steel box girder, the other end and 4 bolted connection of drain pipe place the platform. In order to reduce the shaking phenomenon of the hanging rods 8, the two adjacent hanging rods 8 on the same side are connected with a cross brace 10 through bolts, and the cross brace 10 increases the connection stability of the hanging rods 8.

The conveying device 5 comprises a winch 51, a steel wire rope 52 and rollers 53, the winch 51 is connected with the steel box girder 1, one end of the steel wire rope 52 is connected with an output shaft of the winch 51, and the rollers 53 are distributed at intervals and connected above the manual frame operation platform 3 and the drain pipe placing platform 4. The roller 53 includes a plurality of first rotating wheels 531 and a plurality of second rotating wheels 532, the number of the first rotating wheels 531 is even, in this embodiment, there are two first rotating wheels 531, and there are two second rotating wheels 532. Two liang a set ofly of first rotation wheel 531, and relative vertical setting in the both sides of artifical frame operation platform 3, threaded connection has dead lever 11 on artifical frame operation platform 3, and the dead lever 11 outside is located to the gyro wheel 53 cover, and rotates with dead lever 11 to be connected. Be equipped with a plurality of support frames 12 on drain pipe place the platform 4, support frame 12 rotates the wheel 532 one-to-one with the second, and support frame 12 includes connecting rod 121 and two bracing pieces 122, and two bracing pieces 122 are just to vertical setting, and connecting rod 121 passes through the bearing and connects between two bracing pieces 122, and the second rotates the horizontal coaxial cover of wheel 532 and locates the connecting rod 121 outside, just rotates with connecting rod 121 and be connected. The diameter of the second roller 53 is gradually increased from the center to both ends. The diameter of the second roller 53 is gradually increased from the center to both ends, so that the contact of the roller 53 with the drain pipe can be increased, and the stability of the drain pipe on the roller 53 can be increased.

Artifical frame operation platform 3 is the horizontal frame who is formed by thirteen horizontal poles 31 and two vertical pole 32 welding, and vertical pole 32 interval sets up in the both ends of horizontal pole 31, and there is guardrail 13 vertical pole 32 edge of keeping away from horizontal pole 31 through bolted connection, and guardrail 13 can increase the security of personnel during operation on artifical frame operation platform 3.

The implementation principle of the high-altitude drainage pipeline installation device in the embodiment of the application is as follows: when the main beam 21 is fixed by using the anchor rods 6, one end of each fixing piece is connected with the cantilever end of the main beam 21, and the other end of each fixing piece penetrates through the hanging ring 9 on the lug plate 22 and is connected with the top end of each anchor rod 6.

And one end of the suspender 8 is connected below the main beam 21 by using a bolt, the other end of the suspender 8 is connected with the drain pipe placing platform 4 or the manual frame operating platform 3, and the two suspenders 8 on the same side of the drain pipe placing platform 4 are connected with the cross brace 10 by using bolts.

When the drainage pipe placing platform is used, the drainage pipe is placed on the roller 53 of the drainage pipe placing platform 4, the steel wire rope 52 is connected with the drainage pipe, the winch 51 is opened, the winch 51 drives the steel wire rope 52 to move, the steel wire rope 52 drives the drainage pipe to move on the second rotating wheel 532 and the first rotating wheel 531, the drainage pipe is conveyed to a pre-installation position, and therefore high-altitude installation of the drainage pipe is facilitated. The high-altitude drainage pipeline installation device has the effect of facilitating high-altitude installation of the drainage pipe.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a high altitude drainage pipe installation device, its characterized in that, includes steel portal (2), artificial frame operation platform (3), drain pipe place the platform (4) and conveyer (5), the one end of steel portal (2) is used for being connected with steel box girder (1), and the unsettled setting of the other end, artificial frame operation platform (3) and drain pipe place the platform (4) and connect in steel box girder (1) below, conveyer (5) include hoist engine (51), wire rope (52) and gyro wheel (53), hoist engine (51) are connected with steel box girder (1), the one end of wire rope (52) and the output shaft of hoist engine (51), gyro wheel (53) interval distribution just connects in artificial frame operation platform (3) and drain pipe place the platform (4) top.

2. The high altitude drainage pipe installation device according to claim 1, wherein the steel portal frame (2) comprises a main beam (21) and an ear plate (22), the ear plate (22) is connected above the main beam (21), an anchor rod (6) is arranged at one end of the main beam (21) close to the steel box girder (1), and the anchor rod (6) penetrates through the main beam (21) and is connected with the steel box girder (1).

3. The high altitude drainage pipeline installation device according to claim 2, wherein the steel portal frame (2) is provided with a reinforcing member (7), the reinforcing member (7) is made of elastic material, one end of the reinforcing member (7) is connected with the suspended end of the main beam (21), and the other end of the reinforcing member penetrates through the lug plate (22) and is connected with the anchor rod (6).

4. The high altitude drainage pipeline installation device according to claim 1, wherein a plurality of hanging rods (8) are arranged below the steel box girder (1), the hanging rods (8) are arranged in pairs in a group, the number of the hanging rods (8) is even, one end of each hanging rod (8) is connected with the steel box girder (1), and the other end of each hanging rod is connected with the drainage pipeline placing platform (4).

5. The overhead drainline installation apparatus as claimed in claim 4, wherein a scissor brace (10) is provided between two adjacent booms (8) on the same side.

6. The high altitude drainpipe installation device as claimed in claim 1, wherein the roller (53) comprises a plurality of first rotating wheels (531) and a plurality of second rotating wheels (532), the number of the first rotating wheels (531) is even, the first rotating wheels (531) are arranged in pairs and are vertically arranged on two sides of the manual frame operating platform (3), and the first rotating wheels (531) are connected to the manual frame operating platform (3); the second rotating wheel (532) is horizontally and rotatably connected to the drain pipe placing platform (4).

7. The aerial drainline installation apparatus as claimed in claim 6, wherein the diameter of the roller (53) increases from the center to the ends.

8. The overhead drainline installation apparatus as claimed in claim 1, wherein a guardrail (13) is provided at the edge of the manual frame work platform (3).

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