CN211973153U - Equipment storage platform - Google Patents

Abstract

The utility model provides an equipment storage platform, which comprises a hanging part, a truss and a storage platform, wherein the hanging part is used for being hung on an anti-collision guardrail of a bridge; the truss is vertically arranged below the hanging piece; the storage table is connected with the lower end of the truss and extends along the horizontal direction; wherein, the storage platform extends along the direction perpendicular to the extending direction of the bridge and the direction departing from the bridge. The utility model provides an equipment storage platform is used for bridge detection, inspection, maintenance and bridge beam supports maintenance, the equipment that the change work needs, it is used for depositing equipment such as oil pump, oil pipe, air compressor machine, high-pressure spray gun, pipeline under pressure power saving equipment to deposit the platform, avoids adopting a large amount of interim engineering to build the quay hole under the bridge or excavate the river course and gives and stop a ship and set up the support, also need not use facilities such as the deep water stake hire ship of ascending a height car or striding, can reduce interim engineering work load by a wide margin, reduction of erection time, reduce engineering cost, the corresponding facility of make full use of bridge, reduce the influence to the bridge floor traffic.

Description

Equipment storage platform

Technical Field

The utility model relates to a bridge detects, inspection, maintenance and reaches bridge beam supports maintenance, changes the technical field of support, in particular to platform is deposited to equipment.

Background

The rubber support is commonly applied to highway bridge supports in China since the 20 th century and the 60 th year, along with the development of bridge construction and the increase of service time, the deformation and the damage of the support are increasingly serious due to the aging of rubber materials, large installation quality deviation and the like, a large number of bridge supports need to be synchronously jacked to a beam body and then are maintained or replaced, and as the rubber support is positioned between the bottom of the beam and an abutment capping beam, a hydraulic jack for jacking is needed to be used during replacement, and an oil pump, an oil pipe and a controller thereof need to be accessed when the equipment is used, and then the equipment such as the oil pump, an air compressor and the like and the controller thereof need to be placed so that the jack jacks the bridge body; maintenance work requires the storage of air compressors, pressure pipes, spray gun equipment for special maintenance materials, high pressure gas pipe pipelines, pressure pipes connecting power supplies or air compressors of self-generating equipment. However, in the prior art, a large amount of temporary engineering is adopted to build a quay hole under a bridge or excavate a river channel to build a support for stopping a ship, and after the quay hole is formed under the bridge or the river channel is excavated, a climbing vehicle or a storage device for a ship for renting a mid-deep water pile is required to be rented, so that the engineering workload is large, the construction period is long, and the engineering cost and the difficulty are high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an equipment storage platform to solve and not deposit equipment such as oil pump, air compressor machine and controller, air compressor machine, pressure pipe, the spray gun equipment of special maintenance material, high-pressure gas-supply pipe pipeline, connection source or from the storage platform of equipment such as the pressure pipe of power generation equipment air compressor machine among the prior art.

In order to solve the technical problem, the utility model provides an equipment storage platform, which comprises a hanging piece used for hanging on an anti-collision guardrail of a bridge; the truss is vertically arranged below the hanging piece; the storage table is connected with the lower end of the truss and extends along the horizontal direction; wherein the storage platform extends in a direction away from the bridge.

Optionally, the equipment storage platform includes a movable table, the movable table is arranged along the extending direction of the bridge, and the movable table is telescopically arranged on the storage table.

Optionally, the equipment storage platform further comprises a guy cable, and two ends of the guy cable are respectively connected with the truss and the storage platform.

Optionally, the equipment storage platform comprises two guys, one end of each guy is arranged at the upper end of the truss, and the other end of each guy is arranged at the side edge of the storage platform.

Optionally, deposit the platform and still include fixed railing and activity railing, fixed railing with the activity railing surrounds deposit the platform, the activity railing be in deposit the platform with between the activity platform.

Optionally, the movable rail is in the form of a side hung door, a sliding door or a folding door.

Optionally, the movable handrail is detachably connected with the fixed handrail.

Optionally, the hanger includes a hanger body and a connecting portion, and the hanger body is detachably connected to the truss through the connecting portion.

Optionally, the hanger body is connected with the connecting portion through a bolt, and the truss is connected with the connecting portion through a bolt.

Optionally, the truss comprises a stairway and a safety fence.

In the utility model, the equipment storage platform comprises a hanging part, a truss and a storage platform, wherein the hanging part is used for hanging on an anti-collision guardrail of a bridge; the truss is vertically arranged below the hanging piece; the storage table is connected with the lower end of the truss and extends along the horizontal direction; wherein the storage platform extends in a direction away from the bridge. The utility model provides an equipment is deposited platform and is used for bridge detection, inspection, maintenance and bridge beam supports maintenance, the equipment of change work, deposit the platform and be used for depositing equipment such as oil pump, air compressor machine, oil pipe, gas-supply pipe pipeline, connection power or the pressure pipe of self-generating equipment air compressor machine and pipe etc. do not have the shore ground under the bridge, perhaps stride in be deep water and be not enough berth ship, perhaps stride in not having the condition of laying equipment such as oil pump, air compressor machine under, need not large-scale high altitude construction car or bridge detection car of ascending a height, only need seal the handing-off in short time and hang the back, can provide the platform as depositing equipment such as oil pump air compressor machine and controller. The method avoids the adoption of a large amount of temporary projects for constructing the lower shore holes of the bridge or excavating the river channel to provide a support for stopping the ship and building the support, and does not need facilities such as a climbing vehicle or a mid-span deepwater pile for renting the ship. The utility model discloses can reduce temporary works work load, reduction of erection time, reduce the corresponding facility of engineering cost, make full use of bridge by a wide margin, reduce the influence to the bridge floor traffic.

Drawings

Those skilled in the art will appreciate that the drawings are provided for a better understanding of the invention and do not constitute any limitation on the scope of the invention. Wherein:

fig. 1 is a schematic view of an equipment storage platform according to an embodiment of the present invention;

fig. 2 is a schematic view of an equipment storage platform suspended from an anti-collision guardrail according to an embodiment of the present invention;

fig. 3 is a schematic view of another angle of the equipment storage platform suspended on the crash barrier according to an embodiment of the present invention;

fig. 4 is a schematic view of a storage table according to an embodiment of the present invention;

fig. 5 is a schematic view of a pendant according to an embodiment of the present invention.

In the drawings:

10-a bridge; 11-anti-collision guard bar; 100-hanging parts; 110-a pendant body; 120-a linking moiety; 200-truss; 300-a storage table; 310-a movable table; 320-fixing the rail; 330-movable railing; 400-stay cable.

Detailed Description

To make the objects, advantages and features of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It is to be noted that the drawings are in simplified form and are not to scale, but rather are provided for the purpose of facilitating and distinctly claiming the embodiments of the present invention. Further, the structures illustrated in the drawings are often part of actual structures. In particular, the drawings may have different emphasis points and may sometimes be scaled differently.

As used in this specification, the singular forms "a," "an," and "the" include plural referents unless the content clearly dictates otherwise. As used in this specification and the appended claims, the term "or" is generally employed in its sense including "and/or" unless the content clearly dictates otherwise. The term "vertical" generally refers to the direction along the weight of an object, the term "vertical" generally refers to a direction coincident with the vertical direction, and the term "horizontal" generally refers to a direction perpendicular to the vertical direction.

The core of the utility model lies in providing an equipment storage platform, the operator seals the traffic through the short time, deposits the platform with equipment and props up the string on the anticollision barrier of bridge, deposits the platform and hangs in the below of pendant for bear equipment such as oil pump, make things convenient for the operator to deposit when carrying out bridge beam supports maintenance and overhaul the equipment that overhauls the correlation.

In the utility model, the equipment storage platform comprises a hanging part, a truss and a storage platform, wherein the hanging part is used for hanging on an anti-collision guardrail of a bridge; the truss is vertically arranged below the hanging piece; the storage table is connected with the lower end of the truss and extends along the horizontal direction; wherein the storage platform extends in a direction away from the bridge. The utility model provides an equipment is deposited platform and is used for bridge detection, inspection, maintenance and bridge beam supports maintenance, the equipment that the change work needs, deposit equipment and pipes such as spray gun equipment, high-pressure gas-supply pipe pipeline, connecting power or the pressure pipe of self-generating equipment air compressor machine that the platform is used for depositing equipment such as oil pump, oil pipe, air compressor machine and controller and special maintenance material. The method avoids the adoption of a large amount of temporary projects for constructing the lower shore holes of the bridge or excavating the river channel to provide a support for stopping the ship and building the support, and does not need facilities such as a climbing vehicle or a mid-span deepwater pile for renting the ship. The utility model discloses can reduce temporary works work load, reduction of erection time, reduce the corresponding facility of engineering cost, make full use of bridge by a wide margin, reduce the influence to the bridge floor traffic.

The following description refers to the accompanying drawings.

Referring to fig. 1 to 5, fig. 1 is a schematic view of an equipment storage platform according to an embodiment of the present invention; fig. 2 is a schematic view of an equipment storage platform suspended from an anti-collision guardrail according to an embodiment of the present invention; fig. 3 is a schematic view of another angle of the equipment storage platform suspended on the crash barrier according to an embodiment of the present invention; fig. 4 is a schematic view of a storage table according to an embodiment of the present invention; fig. 5 is a schematic view of a pendant according to an embodiment of the present invention.

Referring to fig. 1 to 3, an embodiment of the present invention provides an equipment storage platform, including asuspension 100, atruss 200, and astorage platform 300, where thesuspension 100 is used to be suspended on ananti-collision guardrail 11 of abridge 10, the shape and size of thesuspension 100 are adaptively matched according to the shape and size of theanti-collision guardrail 11, in some embodiments, theanti-collision guardrails 11 are anti-collision guardrails on two sides of thebridge 10, theanti-collision guardrails 11 may be steel pipe type anti-collision guardrails, or reinforced concrete wall type anti-collision guardrails, or steel rib combination members, and thesuspension 100 may be adaptively adjusted according to differentanti-collision guardrails 11, and when theanti-collision guardrails 11 of thebridge 10 are different in form, the equipment storage platform replaces thesuspension 100 according to the form of the anti-collision guardrails. Preferably, thehanger 100 is preferably made of a lightweight metal member. Thetruss 200 is vertically arranged below thependant 100, thependant 100 is fixedly connected with the upper end of thetruss 200, and thetruss 200 is perpendicular to the bridge deck of thebridge 10. The storage table 300 is connected to the lower end of thetruss 200 and extends in a horizontal direction; wherein thestorage station 300 extends in a direction away from thebridge 10. In an exemplary embodiment, thestorage platform 300 is parallel to the deck of thebridge 10, perpendicular to the extension direction of thebridge 10, and faces away from thebridge 10. When the installation during equipment storage platform, the traffic is sealed to the short time, and only need seal lane or the pedestrian passageway of one side, the operator withpendant 100,truss 200 and the equipment storage platform of depositingplatform 300 equipment cross artifical or the loop wheel machine hangs down equipment storage platform, install the pendant onanticollision barrier 11,truss 200 is vertical hangs down,deposit platform 300 perpendicular to truss 200 and deviate frombridge 10 setting, so that deposit equipment such as oil pump, air compressor machine and controller thereof, the air compressor machine, the pressure pipe, the spray gun equipment of special maintenance material, high-pressure gas-supply pipe pipeline, equipment and pipes such as the pressure pipe of connecting power supply or self-generating equipment air compressor machine, make things convenient for the operator to draw work such as oil pump oil pipe and high-pressure gas-supply pipe access in bridge bottom or deep water. Of course, the above-mentioned parallel condition should be understood to be a direction slightly deviating from the parallel condition in a broad sense, and similarly, the above-mentioned perpendicular condition should be understood to be a direction slightly deviating from the perpendicular condition, and the parallel condition and the perpendicular condition are the general directions of thetruss 200 and the operation table 300, and the adjustment of applicability according to the actual working condition also belongs to the present invention. It should be noted that fig. 2 and 3 are only used to illustrate the connection form between thesuspension member 100 and thecrash barrier 11, and do not show the form of thetruss 200 in this embodiment.

The utility model provides a pair of equipment storage platform, through setting uppendant 100,truss 200 and depositing a 300, deposit a 300 and be connected and follow the level to extending with the lower extreme oftruss 200 to deposit a 300 along deviating from the direction ofbridge 10 is extended, lays equipment such as oil pump, air compressor machine and controller in depositing a 300, so that the operator takes out the oil pipe of oil pump, the pressure pipe of press, high-pressure gas-supply pipe for oil pipe or pressure pipe can insert in the jack that needs the jacking, maintenance operation pipeline. Under the condition that no shore exists below the bridge, or the span is deep water and is not enough to park a ship, or no oil pump, air compressor and other equipment is placed in the span, a large-scale overhead working climbing vehicle or a bridge detection vehicle is not needed, and the bridge detection vehicle can be used as a platform for storing the oil pump, the air compressor and other equipment and a controller thereof only after being sealed and hung for a short time. The method avoids the adoption of a large amount of temporary projects for constructing the lower shore holes of the bridge or excavating the river channel to provide a support for stopping the ship and building the support, and does not need facilities such as a climbing vehicle or a mid-span deepwater pile for renting the ship. The utility model discloses can reduce temporary works work load, reduction of erection time, reduce the corresponding facility of engineering cost, make full use of bridge by a wide margin, reduce the influence to the bridge floor traffic.

The utility model is suitable for a highway such as overpass, city bridge's support overhauls, reaches the platform that equipment such as oil pump and controller were deposited to maintenance work.

Preferably, the equipment storage platform includes amovable platform 310, themovable platform 310 is disposed along the extending direction of thebridge 10, and themovable platform 310 is telescopically disposed on thestorage platform 300. As shown in fig. 4, in an exemplary embodiment, the extending direction of themovable platform 310 is perpendicular to the extending direction of thestorage platform 300, and thestorage platform 300 is perpendicular to the extending direction of thebridge 10, at this time, themovable platform 310 extends along the extending direction of thebridge 10, specifically, the extending direction of themovable platform 310 extends along one end of the extending direction, and of course, in other embodiments, a person skilled in the art may extend the extending direction of themovable platform 310 along two ends of the extending direction according to actual conditions, and meanwhile, the extending length of themovable platform 310 and the material adopted by themovable platform 310 may also be set according to requirements of the actual conditions. The movable table 310 is telescopically arranged at the lower part of the storage table through a sliding rail, when the storage table is used, an operator draws the movable table 310 out of the lower part of the storage table 300, and the movable table 310 is fixed to move after being drawn out, so that an operator can move and place pipelines such as oil pipes and air pressure pipes, and the pipelines can be conveniently connected.

Preferably, the equipment storage platform further comprises acable 400, and two ends of thecable 400 are respectively connected with thetruss 200 and thestorage platform 300, so as to load thestorage platform 300 and ensure the stability and safety of thestorage platform 300. The load weight of thestorage platform 300 includes the self weight of the equipment storage platform, the weight of the operator, the weight of the oil pump and the controller, and the like, and the total weight is about 200 kg. Those skilled in the art will set the material selection of thecable 400 and the thickness, length, number, etc. of thecable 400 according to the design of the load. Further, with reference to fig. 4, the equipment storage platform includes twoguy cables 400, one end of eachguy cable 400 is disposed at the upper end of thetruss 200, and the other end of eachguy cable 400 is disposed at the side of thestorage platform 300. Of course, the number of theguy cables 400 may be three or four, and theguy cables 400 are added at positions bearing larger loads according to the change of actual loads; the connection position of the two ends of the pullingcable 400 may not be limited, one end of the pullingcable 400 is connected to thetruss 200, and the other end is disposed at any position around thestorage platform 300, or the connection position of the pulling cable is added at a position with a larger load according to actual needs.

Preferably, thestorage station 300 further includes a fixedrail 320 and amovable rail 330, the fixedrail 320 and themovable rail 330 surround thestorage station 300, and themovable rail 330 is located between thestorage station 300 and themovable station 310. With continued reference to fig. 4, in an exemplary embodiment, thestorage platform 300 is a rectangular storage platform, but in other embodiments, the shape and size of the storage platform may be set according to actual conditions, such as a square storage platform, a circular storage platform, or a trapezoidal storage platform. The rectangular storage platform is surrounded by the fixedrail 320 and themovable rail 330, so that the safety of an operator or equipment such as an oil pump in the storage platform is ensured, and the operator or the equipment is prevented from falling down when the equipment storage platform is in high altitude or in a river. Theactivity platform 310 extends from depositing a 200 bottoms along the axial of bridge and stretches out, and stretches out along extending direction's one end,activity railing 330 sets up on the side that rectangleactivity platform 310 extends and stretches out one end, fixedrailing 320 sets up all the other three edges that the platform was deposited to the rectangle to make things convenient for the access of pipelines such as oil pump oil pipe, air compressor machine high-pressure pipe. Preferably, themovable rail 330 is detachably connected to the fixed rail. After the equipment storage platform is installed, equipment such as an oil pump is placed, when an oil pump pipeline is connected, themovable rail 330 is detached from the position connected with the fixedrail 320, and thedetached storage platform 200 is communicated with themovable platform 300 at the detached position of themovable rail 330 so as to lead the oil pump oil pipe and the air compressor pipeline to the positions of a jack, maintenance equipment and the like. Of course, in other embodiments, it is preferable that themovable rail 330 is in the form of a side hung door, a sliding door, or a folding door.

In order to make the equipment storage platform applicable tobridges 10 ofvarious crash barriers 11, it is necessary to provide ahanger 100 which is easy to replace, and whendifferent crash barriers 11 are encountered, thehanger 100 can be conveniently selected according to the shape of thecrash barrier 11, and for this reason, thehanger 100 needs to be optimized, and preferably, thehanger 100 includes ahanger body 110 and a connectingportion 120, and thehanger body 100 is detachably connected to thetruss 200 through the connectingportion 110. More preferably, thependant body 110 and theconnection part 120 are connected by bolts, and thetruss 200 and theconnection part 120 are connected by bolts.

In an exemplary embodiment, please refer to fig. 5, theconnection portion 120 is a steel plate, thependant 100 is detachably connected to thetruss 200 through the steel plate, the upper portion of the steel plate is connected to thependant 100 through a bolt, the lower portion of the steel plate is connected to thetruss 200 through a bolt, at this time, thependant body 100 is spliced to thetruss 200 through theconnection portion 120, when thecrash barrier 11 has different shapes, thependant body 110 only needs to be replaced, and thependant body 110 is spliced to thetruss 200, so as to meet the use requirement. Certainly, in some other embodiments, the connection manner of thependant body 110 and thetruss 200 may be in other forms, for example, thependant body 110 and thetruss 200 are connected by a hook, the lower end of thependant body 110 and the upper end of thetruss 200 are connected by a hook, after the connection, the fastening portion of the hook is fastened, so that the hook is prevented from being disconnected, and safety is ensured, meanwhile, thependant body 110 and thetruss 200 may also be fastened by a buckle manner, and the fastening is performed after the fastening, and the above splicing manner may be any manner as long as the safe connection between thependant body 110 and thetruss 200 can be ensured.

Preferably, thetruss 200 includes a stairway (not shown) and a safety fence (not shown). In fact, thetruss 200 is further provided with a stairway, an operator can enter thestorage platform 200 from the bridge floor of thebridge 10 through the stairway of thetruss 200, and the safety fence arranged on thetruss 200 ensures the safety of the operator when moving on the stairway, and is set according to the walking width of the operator and the necessary moving range.

In summary, in the utility model, the equipment storage platform includes a hanging member, a truss and a storage platform, the hanging member is used to hang on the anti-collision guardrail of the bridge; the truss is vertically arranged below the hanging piece; the storage table is connected with the lower end of the truss and extends along the horizontal direction; wherein the storage platform extends in a direction away from the bridge. The utility model provides an equipment storage platform is used for bridge detection, inspection, maintenance and bridge beam supports maintenance to change the usefulness. When no shore exists below the bridge, or the span is deep water and is not enough to park a ship, or no oil pump, air compressor and other equipment is placed in the span, a large-scale overhead working climbing vehicle or a bridge detection vehicle is not needed, and the bridge detection vehicle can be used as a platform for storing the oil pump, the air compressor and other equipment and a controller thereof only after short-time sealing and hanging. The method avoids the adoption of a large amount of temporary projects for constructing the lower shore holes of the bridge or excavating the river channel to provide a support for stopping the ship and building the support, and does not need facilities such as a climbing vehicle or a mid-span deepwater pile for renting the ship. The utility model discloses can reduce temporary works work load, reduction of erection time, reduce the corresponding facility of engineering cost, make full use of bridge by a wide margin, reduce the influence to the bridge floor traffic.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and any modification and modification made by those skilled in the art according to the above disclosure are all within the scope of the claims.

Claims (10)

1. An equipment storage platform is characterized by comprising

The hanging piece is used for hanging on an anti-collision guardrail of a bridge;

the truss is vertically arranged below the hanging piece; and

the storage table is connected with the lower end of the truss and extends along the horizontal direction;

wherein the storage platform extends in a direction away from the bridge.

2. The equipment storage platform of claim 1 including a movable table disposed along the direction of extension of the bridge, the movable table being telescopically disposed on the storage table.

3. The equipment storage platform of claim 2 wherein the storage station further comprises a fixed railing and a movable railing, the fixed railing and the movable railing surrounding the storage station, the movable railing being between the storage station and the movable station.

4. The equipment storage platform of claim 3 wherein said movable rail is in the form of a side hung, sliding or folding door.

5. The equipment storage platform of claim 3 wherein the movable railing is removably connected to the fixed railing.

6. The equipment storage platform of claim 1 further comprising a guy cable, wherein two ends of the guy cable are connected to the truss and the storage platform, respectively.

7. The equipment storage platform of claim 6, wherein the equipment storage platform comprises two guy wires, one end of each guy wire is arranged at the upper end of the truss, and the other end of each guy wire is arranged at the side of the storage platform.

8. The equipment storage platform of claim 1 wherein said pendant includes a pendant body and a connecting portion, said pendant body being removably connected to said truss by said connecting portion.

9. The equipment storage platform of claim 8 wherein the pendant body is bolted to the attachment portion and the truss is bolted to the attachment portion.

10. The equipment storage platform of claim 1 wherein the truss comprises a stairway and a safety rail.

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