CN217400285U - Be used for reinforced (rfd) device of hydraulic engineering overflow weir - Google Patents

Abstract

The utility model relates to a device for reinforcing a hydraulic engineering overflow weir, which belongs to the technical field of hydraulic engineering repair devices, and aims to solve the problems that the work amount of the existing work platform which is built higher than the overflow weir is large, the construction difficulty and cost are increased, and the installation, the building in place, the building and the dismantling of the work platform which is built higher than the overflow weir at the weir top need a large amount of manpower and mechanical equipment, the whole appearance is huge, the weight is heavier, the transportation and the lifting installation are inconvenient, and the construction cost is increased, the utility model discloses the supplementary hydraulic engineering overflow weir reinforcement of mainly used consolidates going on of work.

Description

Be used for reinforced (rfd) device of hydraulic engineering overflow weir

Technical Field

The utility model belongs to the technical field of hydraulic engineering patching device, concretely relates to be used for reinforced (rfd) device of hydraulic engineering overflow weir reinforcement.

Background

The reinforcement of the overflow weir of the hydraulic engineering is a common engineering in the construction of the hydraulic engineering, and relates to a plurality of related engineering such as power cables, telecommunication, water supply, water drainage, heat power, rain sewage, pipeline installation, horizontal and vertical transportation of gas and concrete, and the like. The existing common construction methods comprise two methods, one is to build an operation platform higher than an overflow weir on the weir top, and the other is to build a temporary road by bypassing the overflow weir during construction so as to facilitate transportation of material equipment required in construction. The working platform higher than the overflow weir is built on the weir top, the construction work of the site for building the working platform is large, the required operating space is large, the working area is large, the whole overflow weir is built, the construction period is long, the material and material consumption is large, and the movement is inconvenient; and the material equipment required in the temporary road transportation construction is constructed by bypassing the overflow weir in the construction, so that the on-site transportation amount is obviously increased, a large amount of time and cost are required, the construction period is prolonged, and the construction cost is improved.

At present, an operation platform higher than an overflow weir is built on a weir top, and material equipment required in temporary road transportation construction is built by bypassing the overflow weir, so that the following problems are found in the construction process by two construction methods:

1. the construction amount of the operation platform higher than the overflow weir is large, so that the construction difficulty and cost are increased;

2. the material equipment required in temporary road transportation construction is built by bypassing the overflow weir, so that the time and the cost are high;

3. the operation platform higher than the overflow weir is built on the weir top, the material equipment required in the temporary road transportation construction is built by bypassing the overflow weir, a large amount of manpower and mechanical equipment are needed for installation in place, construction and dismantling of the operation platform and the material equipment, the whole appearance is huge, the weight is heavier, the operation platform is not convenient to transport, hoist and mount, and the construction cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides a device for reinforcing the overflow weir of the hydraulic engineering, which aims to solve the problems existing in the background technology;

a device for reinforcing a hydraulic engineering overflow weir comprises a top support frame, an I-beam slide, an electric hoist lifter, two side support frames and two support plates, wherein the top support frame is arranged above the overflow weir, the bottom of the top support frame is contacted with the top of the overflow weir, the two side support frames are oppositely arranged on two sides of the top support frame, the bottom of each side support frame is contacted with the ground where the overflow weir is positioned, the I-beam slide sequentially passes through one side support frame, the top support frame and the other side support frame, the I-beam slide is detachably connected with the inner tops of the top support frame and the two side support frames, the electric hoist lifter is arranged on the I-beam slide, the electric hoist lifter can slide along the length direction of the I-beam slide, one support plate is arranged between each side support frame and the top support frame, one end of each supporting plate is detachably connected with one side supporting frame, and the other end of each supporting plate is detachably connected with the top supporting frame;

furthermore, two universal wheels are mounted at the bottom of the top supporting frame, and two universal wheels are mounted at the bottom of each side supporting frame;

furthermore, the side support frame comprises an upper frame body and a lower frame body, the upper frame body is arranged on the lower frame body, and the upper frame body is detachably connected with the lower frame body through a plurality of bolts;

the lower frame body comprises an I-shaped reinforcing beam, two first supporting columns and two first flange plates, the I-shaped reinforcing beam is arranged between the two first supporting columns, each end of the I-shaped reinforcing beam is fixedly connected with the lower part of one first supporting column, the bottom of each first supporting column is provided with a universal wheel, and the top of each first supporting column is provided with one first flange plate;

the upper frame body comprises an upper frame, a first supporting plate connecting beam, a first sliding beam mounting plate and two second flange plates, the upper frame comprises two support legs and a top cross beam, the top end of each support leg is fixedly welded with one end of the top cross beam, the bottom end of each support leg is provided with one second flange plate, each second flange plate is arranged corresponding to one first flange plate, the first supporting plate connecting beam is arranged between the two support legs in the upper frame, each end of the first supporting plate connecting beam is fixedly connected with the lower part of one support leg, the first sliding beam mounting plate is arranged below the top cross beam, each end of the first sliding beam mounting plate is fixedly connected with the upper part of one support leg, a plurality of connecting stand columns are arranged between the first sliding beam mounting plate and the top cross beam, the top end of each connecting stand is fixedly connected with the lower surface of the top cross beam, the bottom end of each connecting stand is fixedly connected with the upper surface of the first sliding beam mounting plate, one end of the supporting plate is detachably connected to the first supporting plate connecting beam, the I-beam slide way is detachably mounted on the lower surface of the first sliding beam mounting plate, and each first flange is detachably connected with one second flange through a plurality of bolts;

furthermore, the top support frame comprises a top support frame, a second sliding beam mounting plate and two second support plate connecting beams, the top support frame comprises two support legs and a top transverse plate, the top end of each support leg is welded and fixed with one end of the top transverse plate, the bottom end of each support leg is provided with a universal wheel, the second sliding beam mounting plate is arranged below the top transverse plate, each end of the second sliding beam mounting plate is fixedly connected with the upper part of one support leg, a plurality of support upright posts are arranged between the second sliding beam mounting plate and the top transverse plate, the top end of each support upright post is fixedly connected with the lower surface of the top transverse plate, the bottom end of each support upright post is fixedly connected with the upper surface of the second sliding beam mounting plate, each second support plate connecting beam is arranged at one side of the top support frame, and one end of each second support plate connecting beam is fixedly connected with the lower part of one support leg in the top support frame, the other end of the supporting plate is detachably connected to the second supporting plate connecting beam;

furthermore, two ends of the lower surface of the supporting plate are respectively provided with a hanging groove, the supporting plate is hung on a second supporting plate connecting beam or a first supporting plate connecting beam through the hanging grooves, and a layer of anti-skid rubber is attached to the upper surface of the supporting plate;

furthermore, one side of each supporting plate is provided with a guardrail, and the lower part of the guardrail is detachably connected with one side of the supporting plate through a bolt;

furthermore, the outer side of each guardrail is provided with a U-shaped frame, each support leg in the U-shaped frame is vertically arranged on one upright post in each guardrail, each support leg in the U-shaped frame is fixedly connected with one upright post in each guardrail, a fixed pulley is installed on the lower surface of a middle cross beam of the U-shaped frame, a transmission rope is lapped on the fixed pulley, and one end of the transmission rope is hung with a loading barrel.

Compared with the prior art, the utility model following beneficial effect has:

the utility model provides a device for reinforcing and reinforcing a hydraulic engineering overflow weir, which solves the load problem of transporting building materials by installing an electric hoist lifter on an I-shaped beam slide way, has simple forming, easy operation and low manufacturing cost, and can adjust the size of the I-shaped beam slide way according to the load requirement, the side support frame in the device is of a split structure, a lower frame with proper height can be replaced according to the actual height of a weir body, the universality of the device is increased, two ends of the I-shaped beam slide way in the device can extend out of two side support frames, the goods can be conveniently lifted, the goods transportation range is enlarged, a support plate is arranged between the side support frame and a top support frame in the device, construction materials such as mortar and the like can be placed on the support plate, the contact between the construction materials and the overflow weir is avoided, meanwhile, people can also be supplied to walk, and detachable guardrails are arranged at two sides of the support plate, on the one hand, the assembly is convenient, on the other hand, the safety of pedestrians can be improved, and the trolley assemblies are arranged on the guardrails, so that lifting tools and small auxiliary repairing materials can be used, and the guardrail is very convenient.

Drawings

Fig. 1 is a schematic view of the main view of the present invention:

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic side view of the top support according to the present invention;

fig. 4 is a schematic front view of the middle support plate of the present invention;

fig. 5 is a schematic side view of the guardrail of the present invention;

in the figure, a side support frame 1, a first support column 11, a first flange 12, a second flange 13, a 14 upper frame, a 15I-shaped reinforcing beam, a first support plate connecting beam 16, a first sliding beam mounting plate 17, a top support frame 2, a 21 top support frame, a second support plate connecting beam 22, a second sliding beam mounting plate 23, an I-shaped beam slideway 3, an electric hoist lifter 4, a support plate 5, a hanging groove 51, antiskid rubber 52, a guardrail 6, a U-shaped frame 7, a fixed pulley 8 and a carrying bucket 9 are arranged on the side support frame.

Detailed Description

The first embodiment is as follows: referring to fig. 1 to 5 for explaining the present embodiment, the present embodiment provides a device for reinforcing a hydraulic engineering overflow weir, the device comprising a top support frame 2, an i-beam chute 3, an electric hoist lifter 4, two side support frames 1 and two support plates 5, the top support frame 2 is disposed above the overflow weir, the bottom of the top support frame 2 contacts the top of the overflow weir, the two side support frames 1 are oppositely disposed at both sides of the top support frame 2, the bottom of each side support frame 1 contacts the ground where the overflow weir is located, the i-beam chute 3 sequentially passes through one side support frame 1, the top support frame 2 and the other side support frame 1, the i-beam chute 3 is detachably connected at the inner top of one top support frame 2 and the two side support frames 1, the electric hoist lifter 4 is mounted on the i-beam chute 3, and the electric hoist lifter 4 can slide along the length direction of the I-beam slide rail 3, a supporting plate 5 is arranged between each side supporting frame 1 and the top supporting frame 2, one end of each supporting plate 5 is detachably connected with one side supporting frame 1, and the other end of each supporting plate 5 is detachably connected with the top supporting frame 2.

In this embodiment, the electric hoist lifter 4 can slide along the length direction of the I-beam slide 3, so that the goods after being lifted are transported to each station on the device, the convenience of material transportation is improved, each part in the device is detachably connected, the transportation and the assembly are convenient, and meanwhile, the height of each part can be automatically adjusted according to the height of the repaired weir body.

The second embodiment is as follows: the present embodiment is described with reference to fig. 1 to 5, and the present embodiment further defines the top support frame 2 according to the first embodiment, in which two universal wheels are mounted on the bottom of the top support frame 2, and two universal wheels are mounted on the bottom of each side support frame 1. Other components and connection modes are the same as those of the first embodiment.

So set up, can improve the mobility of device through increasing the universal wheel.

The third concrete implementation mode: the present embodiment is described with reference to fig. 1 to 5, and the present embodiment further defines the side support frame 1 according to the second embodiment, in which the side support frame 1 includes an upper frame body and a lower frame body, the upper frame body is disposed on the lower frame body, and the upper frame body and the lower frame body are detachably connected through a plurality of bolts;

the lower frame body comprises an I-shaped reinforcing beam 15, two first supporting columns 11 and two first flange plates 12, the I-shaped reinforcing beam 15 is arranged between the two first supporting columns 11, each end of the I-shaped reinforcing beam 15 is fixedly connected with the lower portion of one first supporting column 11, the bottom of each first supporting column 11 is provided with a universal wheel, and the top of each first supporting column 11 is provided with one first flange plate 12;

the upper frame body comprises an upper frame 14, a first support plate connecting beam 16, a first sliding beam mounting plate 17 and two second flange plates 13, the upper frame 14 comprises two support legs and a top cross beam, the top end of each support leg is welded and fixed with one end of the top cross beam, the bottom end of each support leg is provided with one second flange plate 13, each second flange plate 13 is arranged corresponding to one first flange plate 12, the first support plate connecting beam 16 is arranged between the two support legs in the upper frame 14, each end of the first support plate connecting beam 16 is fixedly connected with the lower part of one support leg, the first sliding beam mounting plate 17 is arranged below the top cross beam, each end of the first sliding beam mounting plate 17 is fixedly connected with the upper part of one support leg, a plurality of connecting upright posts are arranged between the first sliding beam mounting plate 17 and the top cross beam, the top end of each connecting upright post is fixedly connected with the lower surface of the top cross beam, the bottom of every connection stand is connected with the last fixed surface of a sliding beam mounting panel 17, and the one end of backup pad 5 can be dismantled and connect on a backup pad tie-beam 16, and I-beam slide 3 demountable installation is on the lower surface of a sliding beam mounting panel 17, and every ring flange 12 is connected with a ring flange 13 through a plurality of bolt dismantlements. Other components and connection modes are the same as those of the first embodiment.

The fourth concrete implementation mode: referring to fig. 1 to 5, the present embodiment is described, and the present embodiment is further limited to the top support frame 2 described in the third embodiment, in which the top support frame 2 includes a top support frame 21, a second sliding beam mounting plate 23 and two second support plate connecting beams 22, the top support frame 21 includes two legs and a top cross plate, the top end of each leg is welded and fixed to one end of the top cross beam, the bottom end of each leg is mounted with a universal wheel, the second sliding beam mounting plate 23 is disposed below the top cross plate, each end of the second sliding beam mounting plate 23 is fixedly connected to the upper portion of one leg, a plurality of support columns are disposed between the second sliding beam mounting plate 23 and the top cross plate, the top end of each support column is fixedly connected to the lower surface of the top cross plate, the bottom end of each support column is fixedly connected to the upper surface of one second sliding beam mounting plate 23, every No. two backup pad tie-beams 22 set up in one side of top sprag frame 21, and the lower part fixed connection of the one end of every No. two backup pad tie-beams 22 and a stabilizer blade in the top sprag frame 21, and the other end of backup pad 5 can be dismantled and connect on No. two backup pad tie-beams 22. Other components and connection modes are the same as those of the third embodiment.

The fifth concrete implementation mode: referring to fig. 1 to 5, the present embodiment is described, and the present embodiment further defines the support plate 5 according to the fourth embodiment, in the present embodiment, two hanging grooves 51 are respectively formed at two ends of the lower surface of the support plate 5, the support plate 5 is hung on a second support plate connecting beam 22 or a first support plate connecting beam 16 through one hanging groove 51, and a layer of anti-skid rubber 52 is attached to the upper surface of the support plate 5. The other components and the connection mode are the same as those of the fourth embodiment.

So set up, backup pad 5 through the mode overlap joint of hanging the dress between top sprag frame and collateral branch strut, improved stability on the one hand, on the other hand has simplified the step of installation, at the attached anti-skidding rubber 52 in backup pad 5's top, can play skid-proof effect.

The sixth specific implementation mode is as follows: the present embodiment is described with reference to fig. 1 to 5, and the present embodiment further defines the supporting plate 5 according to the fourth embodiment, in the present embodiment, one side of each supporting plate 5 is provided with a guardrail 6, and the lower part of the guardrail 6 is detachably connected with one side of the supporting plate 5 by bolts. The other components and the connection mode are the same as the fifth embodiment mode.

By the arrangement, the safety of the device is improved.

The seventh embodiment: the present embodiment is described with reference to fig. 1 to 5, and the present embodiment further defines the guardrail 6 of the fourth embodiment, in the present embodiment, an outside of each guardrail 6 is provided with a U-shaped frame 7, each leg of the U-shaped frame 7 is vertically disposed on one upright post of the guardrail 6, each leg of the U-shaped frame 7 is fixedly connected with one upright post of the guardrail 6, a fixed pulley 8 is installed on a lower surface of a cross beam in the U-shaped frame 7, a driving rope is lapped on the fixed pulley 8, and a loading bucket 9 is hung on one end of the driving rope. Other components and connection modes are the same as those of the sixth embodiment.

So set up, through fixed pulley 8 and year thing bucket 9, can carry out the handling to miniature instrument and coating once, satisfied the work demand of each station.

The present invention has been disclosed in the above embodiments, but not limited to the present invention, and any person skilled in the art can make some changes or modifications to the equivalent embodiments without departing from the technical scope of the present invention, and any simple modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments will still belong to the technical scope of the present invention.

Principle of operation

When the utility model is used, each part is firstly assembled according to the connection relation in the first to seventh embodiment modes, the lower frame with proper height is selected according to the height of the weir body when the assembly is carried out, after the device is carried, the universal wheel is locked or the stop block is adopted to carry out the movement of the limiting and preventing device, the worker climbs to the top of the weir body through the ladder and moves to the supporting plate 5 of the device to repair the area of the top of the weir body which needs to be repaired, the assistant worker transports some heavier repairing materials to the supporting plate 5 through the electric hoist and slides to the station of the worker along the horizontal direction of the beam body, meanwhile, the worker can hoist some small tools and coatings to the supporting plate 5 through the fixed pulleys 8 at the two sides of the supporting plate 5, after the repair of a repairing area is finished, the limiting device of the universal wheel can be loosened or the stop block at the two sides of the universal wheel can be taken away to enable the device to move freely, the pushing device can be used for pushing the device to the next repairing area, and in the process, a worker only needs to stand on the supporting plate 5, so that the movement of the upper weir body and the lower weir body is repeatedly carried out.

Claims (7)

1. The utility model provides a be used for reinforced (rfd) device of hydraulic engineering overflow weir reinforcement which characterized in that: the device comprises a top support frame (2), an I-beam slide way (3), an electric hoist lifter (4), two side support frames (1) and two support plates (5), wherein the top support frame (2) is arranged above an overflow weir, the bottom of the top support frame (2) is contacted with the top of the overflow weir, the two side support frames (1) are oppositely arranged at two sides of the top support frame (2), the bottom of each side support frame (1) is contacted with the ground where the overflow weir is positioned, the I-beam slide way (3) sequentially passes through one side support frame (1), the top support frame (2) and the other side support frame (1), the I-beam slide way (3) is detachably connected at the inner tops of the top support frame (2) and the two side support frames (1), the electric hoist lifter (4) is arranged on the I-beam slide way (3), and the electric hoist lifter (4) can slide along the length direction of the I-beam slide way (3), a supporting plate (5) is arranged between each side supporting frame (1) and the top supporting frame (2), one end of each supporting plate (5) is detachably connected with one side supporting frame (1), and the other end of each supporting plate (5) is detachably connected with the top supporting frame (2).

2. The apparatus of claim 1, wherein the reinforcing means comprises: two universal wheels are installed at the bottom of the top supporting frame (2), and two universal wheels are installed at the bottom of each side supporting frame (1).

3. The apparatus of claim 2, wherein the reinforcing means comprises: the side supporting frame (1) comprises an upper frame body and a lower frame body, the upper frame body is arranged on the lower frame body, and the upper frame body is detachably connected with the lower frame body through a plurality of bolts;

the lower frame body comprises an I-shaped reinforcing beam (15), two first supporting columns (11) and two first flange plates (12), the I-shaped reinforcing beam (15) is arranged between the two first supporting columns (11), each end of the I-shaped reinforcing beam (15) is fixedly connected with the lower portion of one first supporting column (11), the bottom of each first supporting column (11) is provided with a universal wheel, and the top of each first supporting column (11) is provided with one first flange plate (12);

the upper frame body comprises an upper frame (14), a first support plate connecting beam (16), a first sliding beam mounting plate (17) and two second flange plates (13), the upper frame (14) comprises two support legs and a top cross beam, the top end of each support leg is welded and fixed with one end of the top cross beam, the bottom end of each support leg is provided with one second flange plate (13), each second flange plate (13) is arranged corresponding to one first flange plate (12), the first support plate connecting beam (16) is arranged between the two support legs in the upper frame (14), each end of the first support plate connecting beam (16) is fixedly connected with the lower part of one support leg, the first sliding beam mounting plate (17) is arranged below the top cross beam, each end of the first sliding beam mounting plate (17) is fixedly connected with the upper part of one support leg, a plurality of connecting columns are arranged between the first sliding beam mounting plate (17) and the top cross beam, the top end of each connecting upright post is fixedly connected with the lower surface of the top cross beam, the bottom end of each connecting upright post is fixedly connected with the upper surface of a sliding beam mounting plate (17), one end of each supporting plate (5) is detachably connected onto a supporting plate connecting beam (16), the I-beam slide rail (3) is detachably mounted on the lower surface of the sliding beam mounting plate (17), and each flange plate (12) is detachably connected with one second flange plate (13) through a plurality of bolts.

4. A device for reinforcing a hydraulic engineering overflow weir according to claim 3, wherein: the top support frame (2) comprises a top support frame (21), a second sliding beam mounting plate (23) and two second support plate connecting beams (22), the top support frame (21) comprises two support legs and a top transverse plate, the top end of each support leg is welded and fixed with one end of the top transverse plate, a universal wheel is mounted at the bottom end of each support leg, the second sliding beam mounting plate (23) is arranged below the top transverse plate, each end of the second sliding beam mounting plate (23) is fixedly connected with the upper part of one support leg, a plurality of support upright columns are arranged between the second sliding beam mounting plate (23) and the top transverse plate, the top end of each support upright column is fixedly connected with the lower surface of the top transverse plate, the bottom end of each support upright column is fixedly connected with the upper surface of the second sliding beam mounting plate (23), and each second support plate connecting beam (22) is arranged on one side of the top support frame (21), one end of each second support plate connecting beam (22) is fixedly connected with the lower part of one support leg in the top support frame (21), and the other end of each support plate (5) is detachably connected to the second support plate connecting beam (22).

5. A device for reinforcing a hydraulic engineering overflow weir according to claim 4, wherein: the anti-skidding support plate is characterized in that two ends of the lower surface of the support plate (5) are respectively provided with a hanging groove (51), the support plate (5) is hung on a second support plate connecting beam (22) or a first support plate connecting beam (16) through the hanging groove (51), and a layer of anti-skidding rubber (52) is attached to the upper surface of the support plate (5).

6. A device for reinforcing a hydraulic engineering overflow weir according to claim 5, wherein: one side of each supporting plate (5) is provided with a guardrail (6), and the lower part of each guardrail (6) is detachably connected with one side of each supporting plate (5) through a bolt.

7. The apparatus of claim 6, wherein the reinforcing means comprises: the outer side of each guardrail (6) is provided with a U-shaped frame (7), each support leg in the U-shaped frame (7) is vertically arranged on one upright post in the guardrail (6), each support leg in the U-shaped frame (7) is fixedly connected with one upright post in the guardrail (6), a fixed pulley (8) is installed on the lower surface of a middle cross beam of the U-shaped frame (7), a transmission rope is lapped on the fixed pulley (8), and one end of the transmission rope is hung with a loading barrel (9).

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