KR20220033153A - Gondola for tower maintenance work - Google Patents

Abstract

The present invention relates to a gondola for tower work, which is provided to be stably moved up and down along the outer circumference or inner space of a tower and perform work for the exterior or inner space of the tower. According to the present invention, the gondola is installed to move up and down along a pylon (12) of a bridge, a post (13) including a blade column of a wind turbine, or a vertical space inside a building including a lift pit or courtyard, which extend upward to a predetermined height, while being suspended by a wire rope (41). The gondola comprises: a first lift unit (21) connected to the wire rope (41) to move up and down along a part of the outer circumference of the post (13) or a part of the inner circumference of the vertical space while a worker is on board; a second lift unit (22) disposed opposite to the first lift unit (21) to move up and down along the rest of the outer circumference of the post (13) or the rest of the inner circumference of the vertical space; and a chain means (50) detachably interconnecting the lift unit (21) and the second lift unit (22) along the outer circumference of the post (13) or the inner circumference of the vertical space.

Description

Gondola for tower maintenance work

The present invention relates to a gondola for tower work, and more particularly, to a gondola for tower work that is provided not only to be stably raised and lowered along the outer periphery or inner space of the tower, but also to work the exterior or inner space of the tower as a whole. .

In general, the gondola for tower work is for the inspection or maintenance of towers such as the pylon of a bridge or the post of a wind power generator, and a worker and work tools are usually mounted on a cage-type elevating lift connected to a wire rope. , on the lifting lift, a support roller that rolls while supporting the outer wall of the tower, a winding device for winding or unwinding a wire rope, and a safety device for preventing a fall, etc. are provided.

However, although the conventional gondola for tower work has a structure in which it is raised and lowered by riding on the outer wall of the tower, it is not provided in the form of a round or rectangular rim depending on the cross-sectional shape of the tower, but in the form of a square box of a certain size corresponding to one side of the tower. Therefore, there is a problem in that it is impossible to work on the entire circumference of the tower at once in the process of ascending and descending.

In some cases, a single-body gondola is provided so that it can work as a whole around the outer wall of the tower. There is a limit in easily coping with the safety risks and concerns about the operation or damage of the device due to torsion or deformation of the device due to the different driving speed or angle from the outside.

Korean Patent Publication No. 10-2014-0002751 (2014. 01. 08)

The present invention is to solve the above-described problems, and the present invention is to combine or separate the two lifting lifts by a simple structure so that the outer periphery or inner space of the tower can be worked as a whole as well as each lifting lift individually It is to provide a gondola for tower work that can be used separately to easily cope with a specific location or environment.

According to a feature of the present invention, the pylon 12 of the bridge extending upward to a certain height in a state of being suspended by the wire rope 41 or the post 13 including the blade column of the wind power generator or the elevating pit or the inside of the building including the courtyard In the gondola provided to be able to ascend and descend along the vertical space of;

a first lift unit 21 connected to the wire rope 41 and capable of elevating along a part of the outer periphery of the post 13 or a part of the inner perimeter of the vertical space while the operator is on board;

a second lift unit 22 disposed opposite to the first lift unit 21 and capable of elevating along the remainder of the outer circumference of the post 13 or the remainder of the inner circumference of the vertical space;

The first lift unit 21 and the second lift unit 22 are detachably mutually connected to each other along the outer circumference of the post 13 or the inner circumference of the vertical space by the lift units 21 and 22. a chain means 50 for connecting;

There is provided a gondola for tower work, characterized in that it includes a winder (30) connected to the first lift unit (21) and the second lift unit (22) to wind or unwind the wire rope (41). .

According to another feature of the present invention, the chain means (50) is composed of a pair of connecting bars (51) extending to a certain length, and a plurality of guide rollers (52) mounted on the connecting bar (51), ;

A first frame hole 56 coupled to the first lift unit 21 side and a second frame hole 57 coupled to the second lift unit 22 side are formed between the guide rollers 52 . A gondola for tower work is provided.

According to another feature of the present invention, the winder (30) is a tower, characterized in that it is rotatably coupled by a hinge shaft (34) in a state located on one upper side of each of the lift units (21, 22). A work gondola is provided.

According to the present invention as described above, the post 13 by the first lift unit 21 and the second lift unit 22 interconnected by the chain means 50, or vertical such as the elevating pit or courtyard of the building. There is an advantage in that it is possible to work as a whole by performing a minimum lifting and lowering running around the perimeter of the space, thereby providing convenience in work, and at the same time greatly reducing work time and operation of the device.

In addition, in the present invention, by separating the chain means 50 to release the binding state of the first lift unit 21 and the second lift unit 22, independent use is possible, and thereby each lift in a specific working environment There is an advantage that can be applied in an optimal state by using the units 21 and 22 individually.

In addition, in the chain means 50 of the present invention, the first and second frame holes 56 and 57 are formed between the guide rollers 52 so that the two lift units 21 and 22 are coupled to each other to firmly maintain the left and right binding. By excluding up-and-down restraints in one state, the frames F1 and F2 of each lift unit 21 and 22 are inserted on each of the frame holes 56 and 57, so that it is possible not only to firmly maintain the binding state but also for each lift Even if the driving environment of the units 21 and 22 is different and a difference in driving speed or vertical position occurs, it is not constrained by the chain means 50 , so there is an advantage that a stable lifting operation is possible.

In addition, according to the present invention, as the winder 30 is mounted in a rotatable coupling structure on the upper portions of the lift units 21 and 22, the post 13 such as the pylon 12 of the bridge installed at an angle to be inclined can be raised and lowered. There is an advantage in that the operation of the device can be smoothly performed by maintaining the winder 30 at an appropriate angle with respect to the tensile direction of the wire rope 41 at this time.

1 is an installation state diagram showing an embodiment of the present invention;
2 is an enlarged view according to FIG. 1
3 is a plan view according to an embodiment of the present invention;
4 is an exploded view according to FIG. 3
5 is an exploded perspective view showing a partial configuration of the present invention;
6 is an enlarged view taken along part A of FIG. 3
7 is an operation state diagram according to an embodiment of the present invention;

The objects, features and advantages of the present invention described above will become more apparent through the following detailed description. Hereinafter, it will be described based on the accompanying drawings.

1 to 7 show a preferred embodiment of the present invention. 1 and 2, the gondola 20 of the present invention is installed so that maintenance work can be performed by elevating on the post 13 such as the pylon 12 of the bridge as shown. As described above, in the case of the pylon 12 of the bridge, the upper plate 11 on which the running path is formed on the pier 10 is coupled, and the posts 13 extend upward from both sides of the upper plate 11 to support it. In addition, the present invention forms a pylon 12 converging into one at the top part, and in addition, the present invention is a vertical space of a building such as a post 13 such as a blade column of a wind power generator, a lifting pit in which an elevator is installed, or a courtyard inside a building. Tower work is possible.

Specifically, in the gondola 20 of the present invention, the first lift unit 21 and the second lift unit 22 are interconnected by a chain means 50 or each lift unit 21 and 22 are used individually. Each of the lift units 21 and 22 is similar to the prior art by installing a rope support 40 on the upper end of the pylon 12 to elevate each of the lift units 21 and 22 by means of a wire rope 41. A winder 30 for winding the wire rope 41 and safety means 31 for preventing loosening due to overload or slip in the lifting process are mounted on the lift units 21 and 22 side. will become

In addition, each of the lift units 21 and 22 is provided in the form of a cage of a certain area to form a space for an operator to board or to load work tools, and to move in contact with the wall surface of the post 13 on one side. A lifting wheel 27 is mounted, and a moving wheel 29 is provided on the floor to facilitate transportation on the ground.

Here, the lifting wheel 27 is made up of a plurality of vertically arranged with a difference in the degree of protruding laterally so as to be easily contacted and supported in the inclined state of the post 13, or the wall surface of the internal space when working in the internal space of a building. It is natural that it can be installed on the other side of each lift unit 21 and 22 so as to be in contact with the .

As described above, the gondola 20 of the present invention is provided in a structure in which two lift units 21 and 22 are interconnected by a chain means 50, so that the left and right imbalance in the elevating process compared to the case of being provided as a single unit Smooth operation is possible by preventing operational difficulties or device deformation or damage, and if necessary, it can be easily assembled and disassembled at the site, so it is possible to work by changing it to a compact structure.

For example, on the side of the leg portion L from which each post 13 of the pylon 12 is individually extended, the first lift unit 21 and the second lift unit 22 are coupled to the circumference of the post 13 as a whole. It may be provided in a state coupled to each other by the chain means 50, and in the head portion H of the pylon 12 to which the posts 13 are combined, the respective lift units 21 and 22 are separated from the ground. After that, any one can be individually raised and lowered, which will be described with reference to FIGS. 3 and 4 as follows.

As shown in Figures 3 and 4, the gondola 20 of the present invention is provided in the form of a square ring to surround the perimeter of the square post 13 as a whole, so that the perimeter of the post 13 can be worked as a whole during the elevating process. As such, it is manufactured by interconnecting the first lift unit 21 and the second lift unit 22, each in the shape of a digwan, by means of a chain means (50).

Specifically, the first lift unit 21 includes a first main lift 23 provided in a rectangular cross-sectional shape and a first auxiliary lift 24 extending at both ends of the first main lift 23 to a predetermined length. As a result, the second lift unit 22 is provided with a second main lift 25 and a second auxiliary lift 26 to form a shape corresponding to the first lift unit 21. , each of the auxiliary lifts 24 and 26 is detachably coupled to the main lifts 23 and 25 by fastening bolts, etc., so that they can be assembled and disassembled in the field.

Each of these lift units 21 and 22 allows the operator to work around the post 13 as a whole by the main lifts 23 and 25 and the auxiliary lifts 24 and 26 communicating therewith, and each of the main lifts The winders 30 are mounted on both ends on the 23 and 25, and the inner surfaces of the main lifts 23 and 25 and the auxiliary lifts 24 and 26 are in contact with the wall surface of the post 13 for rolling motion. The elevating wheel 27 that becomes the mounted one.

Here, the first auxiliary lift 24 and the second auxiliary lift 26 are detachably interconnected at their ends by a chain means 50 , and the detailed configuration and coupling state of the chain means 50 . 5 to 7 and the like will be described as follows.

5, the chain means 50 includes a pair of connecting bars 51 disposed on both left and right sides, and a plurality of guide rollers 52 disposed adjacent to each other in parallel between the connecting bars 51. The guide roller 52 is rotatably provided by a rotating shaft 53 installed through the connecting bar 51 and is detachably coupled to the connecting bar 51 at the same time. The rotating shaft 53 may be provided with a bolt that can be fastened by a nut 54 .

In addition, each of the guide rollers 52 is formed by removing a portion of a cylindrical body having a predetermined diameter to form a chamfered groove 55, thereby, as shown in FIG. 6, the chain means 50 is two adjacent guides. A first frame hole 56 and a second frame hole 57 to which the respective lift units 21 and 22 are coupled are formed by the roller 52 , and the first auxiliary lift is formed in the frame holes 56 and 57 . 24 and the frames F1 and F2 of the second auxiliary lift 25 are fitted respectively.

The chain means 50 makes it possible to easily operate even if the driving states of the respective lift units 21 and 22 are different, which will be described with reference to FIG. 7 as follows.

As shown in Fig. 7, in a typical pylon 12, two posts 13 are extended to be inclined at a certain angle. The second lift unit 22 acts on each of the lift units 21 and 22 according to the winding angle or driving force transmission of the winder 30 or the inclination direction of the post 13 due to the position difference of the wire rope 41. Due to the difference in tensile force of the wire rope 41, a difference in running speed or running height is generated accordingly.

However, in the present invention, the two lift units 21 and 22 are inserted into the frame holes 56 and 57 by the chain means 50 and the two lift units ( 21 and 22) are not mutually constrained, and it is possible to move up and down in a state that is easily shifted in the vertical direction according to each driving condition.

In addition, the present invention is rotatably coupled by a hinge shaft 34 on the upper portion of each of the lift units 21 and 22, on which the winder 30 is mounted. For this purpose, each of the lift units 21 and 22 and Brackets 32 and 33 coupled to each other by the hinge shaft 34 protrude from the winder 30 side. The rotational structure of the winder 30 can easily adjust the angle of the winder 30 according to the inclination angle of the inside and the outside of the post 13 which is inclined at a certain angle or the installation position of the wire rope 41. Not only this, it is possible to maintain the winding operation by the winder 30 in an optimal state.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

12: Pylon 13: Post
20: gondola 21: first lift unit
22: second lift unit 23: first main lift
24: first auxiliary lift 25: second main lift
26: second auxiliary lift 30: winder
31: safety device 40: rope support
41: wire rope 50: chain means
51: connecting bar 52: guide roller
56: first frame ball 57: second frame ball

Claims (3)

It is possible to ascend and descend along the vertical space inside the building including the pylon 12 of the bridge, which extends upward to a certain height in a state of being suspended by the wire rope 41, or the post 13 including the blade column of the wind power generator, or the lifting pit or courtyard. In the gondola provided to do;
a first lift unit 21 connected to the wire rope 41 and capable of elevating along a part of the outer periphery of the post 13 or a part of the inner periphery of the vertical space while the operator is on board;
a second lift unit 22 disposed opposite to the first lift unit 21 and capable of elevating along the remainder of the outer circumference of the post 13 or the remainder of the inner circumference of the vertical space;
The first lift unit 21 and the second lift unit 22 are detachably connected to each other by the lift units 21 and 22 so as to be connected as a whole along the outer circumference of the post 13 or the inner circumference of the vertical space. a chain means 50 for connecting;
The gondola for tower work, characterized in that it comprises a winder (30) connected to each of the first lift unit (21) and the second lift unit (22) to wind or unwind the wire rope (41).
According to claim 1, wherein the chain means (50) is composed of a pair of connecting bars (51) extending to a predetermined length, and a plurality of guide rollers (52) mounted on the connecting bar (51);
A first frame hole 56 coupled to the first lift unit 21 side and a second frame hole 57 coupled to the second lift unit 22 side are formed between the guide rollers 52 A gondola for tower work.
The method according to claim 1 or 2, wherein the winder (30) is rotatably coupled by a hinge shaft (34) in a state in which it is positioned on an upper side of each of the lift units (21, 22). Gondola for tower work.

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