KR20120065622A - Method of transfer heavy structure and device therof - Google Patents

Abstract

PURPOSE: An apparatus and a method for transferring heavy weight objects are provided to improve safety and workability when heavy weight objects are entered and installed inside a plant, and to prevent personnel accidents due to rollover of the heavy weight objects or damage of the heavy weight objects during transferring. CONSTITUTION: An apparatus and a method for transferring heavy weight objects(100) comprises a main body(110), a sub body(120), supporting units(130), and lifting units(140). The main body is installed to be horizontally moved along a pair of rails parallelly installed on the ground. The sub body is inserted and installed in the upper part of the main body to be moved upward and downward. At least one of the supporting units is arranged in the upper part of the sub body at predetermined intervals. The lifting units are arranged in both left and right sides of the main body at a predetermined position. The lifting units vertically move the sub body.

Description

Heavy load structure transfer device and its transfer method {METHOD OF TRANSFER HEAVY STRUCTURE AND DEVICE THEROF}

The present invention relates to a heavy load structure transfer device and a transfer method thereof, and more specifically, a heavy load structure for quickly and safely transferring to a position to install a heavy load structure used in the plant (Plant) It relates to a transfer apparatus and a transfer method thereof.

In general, a heavy load structure used in a plant, that is, a heavy load structure such as an electrical panel is installed in the plant.

When the heavy load structure is loaded, conventionally, a plurality of pipes are arranged at the bottom of the inlet of the plant, the heavy load structure is placed on the pipe, and then loaded into the plant through the rolling conveyance. .

However, such a conventional carry-in method is excessively consumed manpower and work time, there is a problem that the personnel accidents due to the burnout of the heavy load structure and the overturning of the heavy load structure due to the unstable movement method.

In addition, in the prior art, when the installation of the heavy load structure introduced into the plant (Plant) moved to the state in which the pipe pipe is installed in the lower portion of the heavy load structure, additional safety equipment is required due to the instability of the center of gravity, and also roller There was a problem that a lot of noise due to the friction of J-Skid.

The present invention is to solve the problems described above, it is to increase the safety and workability when bringing in and install the heavy load structure into the plant interior, characterized in that to reduce the labor and work time An object of the present invention is to provide a heavy structure conveying apparatus and a conveying method thereof.

In order to achieve the above and other objects of the present invention, according to an embodiment of the present invention, the main body and the movable body installed horizontally along a pair of rails installed parallel to each other on the ground, from the upper portion of the main body An auxiliary body capable of being inserted, a support means provided at least one spaced apart from the upper part of the auxiliary body by a predetermined interval, and lifting means for moving the auxiliary body to a predetermined position on both left and right sides of the main body; Provided is a heavy load structure conveying apparatus, characterized in that.

The main body is provided on the pair of rails, the left and right frames linearly reciprocating along the rails, and a pair of connecting frames between the left and right frame upper predetermined position is the pair of left and right frames It is installed spaced apart a predetermined interval along the width direction of the, the pair of connecting frame is characterized in that coupled to the other end of the connection bracket, one end is coupled to the upper predetermined position on both sides of the left, right frame.

The auxiliary body includes a pair of auxiliary frames having a lattice structure which is inserted into the pair of left and right frames so as to be movable from the top, and the longitudinal direction of the auxiliary frame at a predetermined position on the pair of auxiliary frames. According to the present invention, a pair of support frames are installed parallel to each other at a predetermined interval, and the connection plates are coupled to lower ends of both ends of the pair of support frames.

The support means is provided with at least one or more spaced apart a predetermined interval in the longitudinal direction at a predetermined position on the upper surface of the pair of support frame and comprises a coupling member consisting of upper and lower coupling members, the support bar is inserted between the coupling ends Characterized in that.

Still another object of the present invention is to move a heavy load structure to position the heavy load structure up to the front of the plant by using a transport crane, and to transport the heavy load structure located in front of the plant A conveying device moving step of moving the device, a lifting step of lifting a heavy load structure to a conveying device, a carrying-in step of sliding the heavy load structure into the plant along a rail, and the plant; Provided is a heavy load structure transfer method comprising a heavy load structure transfer and seating step of transferring and seating a heavy load structure at a position to install a heavy load structure loaded therein.

In accordance with an embodiment of the present invention, the apparatus for transporting a heavy load structure and a method of transporting the same have improved safety and workability when the heavy load structure is carried in and installed into the plant, and the heavy load structure is damaged or unloaded during transport. There is an effect that can prevent the occurrence of personnel accidents due to the overturning of the heavy structure.

In addition, it is possible to transfer the high-loaded structure to a place to be installed more quickly using a transfer device has the effect of reducing the labor and work time.

1 is a perspective view of a heavy load structure transport apparatus according to an embodiment of the present invention.
2 is an exploded perspective view of the heavy load structure shown in FIG.
3 is a front view of the heavy load structure shown in FIG.
4 is a block diagram schematically showing a method for transporting a heavy load structure according to one embodiment of the present invention.
5 is a state diagram used to transfer the heavy-loaded structure using the heavy-loaded structure transporting device shown in FIG.

Hereinafter, with reference to the accompanying drawings, a heavy load structure transfer device and a transfer method according to a preferred embodiment of the present invention will be described in detail. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a perspective view of a heavy load structure transport apparatus according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the heavy load structure shown in Figure 1, Figure 3 is a front view of the heavy load structure shown in Figure 1 4 is a block diagram schematically showing a method for transporting a heavy load structure according to an exemplary embodiment of the present invention, and FIG. 5 is used to transport the heavy load structure using the heavy load structure transport device shown in FIG. 1. State of use.

1 to 3, the heavy load structure conveying apparatus 100 according to an embodiment of the present invention is the main body 110, auxiliary body 120, support means 130, elevating Means 140.

The main body 110 is installed to be horizontally moved along a pair of rails 20 installed in parallel with each other on the ground.

As such, the main body 110 is provided on the pair of rails 20, the left and right frames 112a and 102b linearly reciprocating along the rails 20 and the upper left and right frames 112a and 112b. The connection frame 114 is provided to be spaced apart by a predetermined interval along the width direction of the left and right frames 112a and 112b between predetermined positions.

At this time, the pair of connection frame 114 is coupled to the other end of the connection bracket 116, one end of which is coupled to both ends of the upper and left sides of the right frame (112a, 112b) predetermined position on both sides.

Here, a plurality of through holes 116a are formed in one side surface of the other end of the connection bracket 116 to pass along the thickness direction, and a pair of connection frames 114 are provided at both ends of the other end of the connection bracket 106. It is preferable to be coupled by bolts and nuts so that they can be disassembled and assembled.

In addition, a plurality of wheels 30 are provided below the left and right frames 112a and 112b of the main body 110 so that the main body 110 can be moved along the rail 20 installed on the ground. have.

In addition, both ends of the lower end of the connecting frame 114 and both ends of the connecting frame 114 are coupled to reinforce the strength of the connecting frame 114 having both ends coupled between the pair of left and right frames 112a and 112b. One side of the left, right frame (112a, 112b) is preferably a 'b' shaped reinforcement bracket 118 is coupled.

At this time, one side of the reinforcing bracket 118 coupled to the lower surface of the connection frame 114 is preferably coupled to the lower surface of the connection frame 114 by bolts, nuts so as to be disassembled and assembled.

The auxiliary body 120 includes a pair of left and right auxiliary frames 122a and 122b having a lattice structure which is installed to be movable from the top along the longitudinal direction of the pair of left and right frames 112a and 112b. The pair of left and right auxiliary frames 122a and 122b includes a pair of support frames 124 installed in parallel to each other at predetermined intervals along the length direction of the auxiliary frames 122a and 122b at predetermined positions.

At this time, the connecting plate 126 is attached to the lower surface of both ends of the pair of support frames 124 so that the support frame 124 can be detachably attached to a predetermined position on the upper surface of the pair of auxiliary frames 122a and 122b. The coupling frame 126 is coupled to the upper surfaces of the auxiliary frames 122a and 122b by bolts and nuts, thereby supporting the support frame 124 of the auxiliary frames 122a and 122b. It is attached to the upper surface detachably.

In addition, the upper engaging portion 119 is provided at a predetermined position on one side of the left and right frames 112a and 112b of the main body 110, and the left and right auxiliary frames 122a and 122b of the auxiliary body 120 are provided. A lower catching portion 128 is provided at a predetermined lower side of the side, which is to install a lifting means 140 to be described later.

The support means 130 is provided with at least one or more spaced apart from each other at a predetermined interval on the upper portion of the auxiliary body 120, and supports the heavy load structure 10 lifted by the moving device 100.

The support means 130 has at least one coupler 132 provided at least one spaced apart from each other along a longitudinal direction at a predetermined position on the upper surface of the pair of support frames 124, and both ends are inserted between the coupler 132. It consists of a support bar 134 to be coupled.

Here, the coupling sphere 132 is made of symmetrical with each other in the shape of the 'U' or 'c' shape made of upper and lower coupling members (132a, 132b) coupled through the bolt, nut, upper and lower coupling On the left and right sides of the members 132a and 132b, extension portions 136 having through holes 136a formed at predetermined positions are formed to protrude.

At this time, the lower coupling member 132b is fixedly coupled to the upper surface of the support frame 124 by welding and fastening means.

In addition, at the outer circumferential surface of the support bar 134, a binding hole 138 such as a wire rope or a chain for connecting the heavy load structure 10 to the support bar 134 is formed along at least the longitudinal direction of the support bar 134. One or more are provided.

Lifting means 140 is provided at both the left and right sides of the main body 110 in a predetermined position to move the auxiliary body 120, such, the lifting means 140 is a known technique and a detailed description thereof will be omitted. do.

Hereinafter, a method of transferring the heavy load structure using the heavy load structure transfer device made as described above will be described.

4 to 5, the heavy load structure transfer method according to an embodiment of the present invention to move the heavy load structure 10 to the front of the plant (S10) and the moved heavy load The transport device moving step (S20) to lift the water structure (10), the step of lifting the heavy load structure 10 in the transfer device (S30), and the lifted heavy load structure 10 plant (Plant) is carried out including the step (S40), and the step of transporting and seating (S50) to the position to install the loaded heavy load structure (10).

Moving the heavy load structure (S10) is moved to the front of the plant (Plant) to install the heavy load structure 10 using the transport crane to position.

Transfer device moving step (S20) moves the heavy load structure transport device to lift the heavy load structure (10) located in front of the plant (Plant).

In the heavy load structure lifting step (S30), the heavy load structure 10 is lifted by the conveying device moved to lift the heavy load structure 10.

In the heavy load structure importing step (S40), the heavy load structure lifted by the conveying device is slid into the plant along a rail installed on the ground.

In the transport and seating step (S50), the heavy load structure is moved and seated at a position to install the heavy load structure carried into the plant.

Therefore, the heavy load structure transfer device and the transfer method according to the present invention as described above improves safety and workability when the heavy load structure is loaded and installed into the plant (Plant).

In addition, it is possible to transfer the high-loaded structure to a place to be installed more quickly using a transfer device has the effect of reducing the labor and work time.

Although the preferred embodiments of the present invention have been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention It can be understood that it is possible.

100: transfer unit 136: extension
110: main body 136a: through hole
112a, 112b: left. Right frame 138: Binding
114: connecting frame 140: lifting means
116: connecting bracket
118: reinforcement bracket
119: upper locking part
120: auxiliary body
122a, 122b: left and right subframe
124: support frame
126: connecting plate
128: lower locking part
130: support means
132: coupler
132a: upper coupling member
132b: lower coupling member
134: support bar

Claims (5)

A main body installed horizontally along a pair of rails installed in parallel with each other on the ground;
An auxiliary body installed to be movable from an upper portion of the main body;
At least one support means spaced apart from each other at an upper portion of the auxiliary body; And
And a lifting means for moving the auxiliary body to the left and right sides of the main body at predetermined positions on both sides of the main body.
The method according to claim 1, wherein the main body,
A pair of connecting frames between the left and right frames provided on the pair of rails and linearly reciprocating along the rails, and a pair of connecting frames between predetermined positions on the left and right frames. Are installed at predetermined intervals,
The pair of connection frame is a high-load structure transport device, characterized in that coupled to the other end of the connection bracket one end is coupled to a predetermined position on both sides of the left, right frame.
The method of claim 2, wherein the auxiliary body,
A pair of left and right sub-frames having a lattice structure inserted into the pair of left and right frames so as to be movable from the top, and a length of the sub-frame at predetermined positions on the pair of left and right sub-frames Including a pair of support frames are installed parallel to each other spaced apart by a predetermined distance along the direction,
High load structure transport device, characterized in that the connection plate is coupled to the lower end of both ends of the pair of support frames.
The method according to claim 3, The support means,
At least one or more spaced apart a predetermined interval along a longitudinal direction at a predetermined position on the upper surface of the pair of support frames, and comprises a coupler consisting of upper and lower coupling members, and support bars into which both ends are inserted and coupled between the coupler. Heavy load structure transfer device.
Moving the heavy load structure up to the front of the plant using the transport crane;
A transfer device moving step of moving a transfer window to lift a heavy load structure positioned in front of the plant;
A heavy load structure lifting step of lifting the heavy load structure into a transfer device;
An import step of sliding the heavy load structure into the plant along a rail; And
And a heavy load structure transfer and seating step of transporting and seating the heavy load structure at a position to install the heavy load structure carried into the plant.

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