KR20190129189A - Lifting System - Google Patents

Abstract

According to the present invention, indoor lifting equipment for a prefabricated steel frame structure (12) includes: a hook (100) supporting a steel frame structure (12); a vertical frame (200) equipped with the hook (100); and a support part (300) supporting the vertical frame (200). The vertical frame (200) includes: a first vertical frame (210) combined with the support part (300); a second vertical frame (220) guided by the first vertical frame (210) to be withdrawn; and a third vertical frame (230) guided by the second vertical frame (230) to be withdrawn. According to the present invention, a heavy steel frame structure can be lifted indoors without a separate crane.

Description

Indoor lifting equipment of prefabricated steel structure and construction method of pipe rack structure using it {Lifting System}

The present invention relates to indoor lifting equipment. More specifically, the present invention relates to an indoor lifting equipment of a prefabricated steel frame structure employing a multi-stage extension structure to lift up a heavy structure such as a steel frame structure in an indoor space in which crane utilization is difficult, and a construction method of a pipe rack structure using the same.

In the construction of heavy-weight indoor structures such as pipe rack structures, a method of completing the structure by installing a pre-assembled structure on a support pillar is used to shorten the air and reduce the difficulty of construction on site.

However, in order to install such a prefabricated heavy steel structure on the support pillar, it is required to lift up the steel structure. In the related art, as shown in FIG. 1, assembling a crane indoors to lift up the steel structure, the interior construction is finished. When the crane is dismantled and discharged from the indoor space has been used.

However, since the indoor assembly crane 1 is very expensive and takes a long time to order and carry equipment, the construction cost is increased and it is difficult to manage the construction schedule.

The present invention was derived to solve the problems of the conventional indoor crane, the object of the present invention is to lift the indoor structure of the prefabricated steel structure that can lift up the heavy steel structure in the room without using a separate crane and It is to provide a construction method of the pipe rack structure using the same.

Another object of the present invention is to provide a method of constructing an indoor lifting equipment of a prefabricated steel frame structure and a pipe rack structure using the same to increase the lifting efficiency by synchronizing a plurality of indoor lifting equipment and to safely lift a heavy weight structure. have.

Another object of the present invention is to install a pipe rack structure using a pre-assembly structure to shorten the construction period, to reduce the difficulty of construction site and to minimize the risk of safety accidents indoor lifting equipment of the prefabricated steel structure It is to provide a construction method of the pipe rack structure using the same.

According to an aspect of the present invention, the indoor lifting equipment for lifting the prefabricated steel structure 12, the hook 100 for supporting the steel structure 12; A vertical frame 200 on which the hook 100 is mounted; And a support part 300 supporting the vertical frame 200, wherein the vertical frame 200 comprises: a first vertical frame 210 coupled to the support part 300; A second vertical frame 220 guided to and drawn out by the first vertical frame 210; And a third vertical frame 230 which is guided to the second vertical frame 230 and drawn out.

In this case, the hook 100 is formed in the third vertical frame 230, the hook 100, the steel frame support portion 110 for supporting the steel structure (12); And a clamp 120 preventing the detachment of the steel structure 12 mounted on the steel support 110.

In addition, the steel support 110 is formed to protrude toward the front (a), the clamp 120 is formed on the upper surface of the steel support 110, the position can be changed to the front (a) and rear (b) It may be an indoor lifting equipment.

In addition, a first hydraulic jack 310 for driving the first vertical frame 210; A second hydraulic jack 320 driving the second vertical frame 220; And a third hydraulic jack 330 for driving the third vertical frame 230. The indoor lifting equipment may further include a third hydraulic jack 330.

In addition, the first hydraulic jack 310 lays down or stands the first vertical frame 210, and the second hydraulic jack 320 moves the second vertical frame 220 from the first vertical frame 210. Withdraw or withdraw, the third hydraulic jack 330 may be an indoor lifting equipment, characterized in that withdraw or withdraw the second vertical frame 230 from the second vertical frame 220.

In addition, a horizontal frame 400 which is mounted to the support part 300 and supports the vertical frame 200 together with the support part 300, the horizontal frame 400 is the support part 300 It may be an indoor lifting equipment, characterized in that it is withdrawn or withdrawn from.

In addition, the horizontal frame 400 is a front horizontal frame 410 formed in one pair of the support portion 300; And a rear horizontal frame 420 formed as a pair on the other side of the support part 300.

In addition, it may be an indoor lifting equipment, characterized in that it further comprises; a fourth hydraulic jack 340 to draw out or pull in the horizontal frame 400 from the support 300.

In addition, the moving unit 500 for moving the support 200 may be an indoor lifting equipment further comprises.

According to another aspect of the present invention, in a method for constructing a pipe rack structure (10) using an indoor lifting equipment, the pipe rack structure (10) comprises a plurality of support columns (11); And a steel structure 12 supported by the support pillar 11, wherein the first step of positioning the steel structure 12 pre-assembled under the plurality of support pillars 11 installed in the field (S100); A second step (S200) of lifting the steel frame structure (12) using the indoor lifting equipment; And a third step (S300) of coupling the steel structure structure 12 to the support column 11. A method of constructing a pipe rack structure is provided.

In this case, the second step (S200) may include a moving step of moving to the steel structure 12 in a state in which the vertical frame 200 is folded with respect to the support part 300; A standing step (S220) of standing the vertical frame 200 by using the first hydraulic jack 310; A binding step of placing the steel structure structure 12 on the steel support portion 110 and binding the steel structure structure 12 by adjusting the position of the clamp 120 (S230); And a first drawing step (S240) for drawing out the second vertical frame (220) from the first vertical frame (210) by using the second hydraulic jack (320). And a second drawing out step (S250) for drawing out the third vertical frame 230 from the second vertical frame 220 by using the third hydraulic jack 330. It may be a method of construction.

In addition, the horizontal frame withdrawal step (S221) for withdrawing the horizontal frame 400 from the support unit 200 by using the fourth hydraulic jack 340 after the standing step (S220); It may be a method of constructing a pipe rack structure.

According to the present invention there is an effect that can be lifted up in a heavy steel structure in the room without using a separate crane.

According to the present invention by synchronizing a plurality of indoor lifting equipment to increase the lifting efficiency, there is an effect that can safely lift a heavy weight structure.

According to the present invention by constructing a pipe rack structure using a pre-assembled structure there is an effect that can shorten the construction period, reduce the difficulty of the construction site and minimize the risk of safety accidents.

1 is a view showing a conventional indoor lifting crane.
Figure 2 is a front view of the indoor lifting equipment according to an embodiment of the present invention.
Figure 3 is a side view of the indoor lifting equipment according to an embodiment of the present invention.
Figure 4 is a view showing a state in which the indoor lifting equipment folded in accordance with an embodiment of the present invention.
5 is a view showing a state in which the indoor lifting equipment is standing in accordance with an embodiment of the present invention.
Figure 6 is a view of the hook portion of the indoor lifting equipment according to an embodiment of the present invention.
7 is a view showing a state in which the front horizontal frame of the indoor lifting equipment is retracted and withdrawn according to an embodiment of the present invention
8 to 14 is a view showing a method for constructing a pipe rack structure using the indoor lifting equipment according to an embodiment of the present invention.

An embodiment of an indoor lifting equipment of a prefabricated steel frame structure and a construction method of a pipe rack structure using the same according to the present invention will be described in detail with reference to the accompanying drawings, and in the following description with reference to the accompanying drawings, the same or corresponding configuration Elements are given the same reference numerals and redundant description thereof will be omitted.

In addition, terms such as first and second used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as the first and second components. no.

In addition, the coupling does not only mean the case where the physical contact is directly between the components in the contact relationship between the components, other components are interposed between the components, the components in the other components Use it as a comprehensive concept until each contact.

The present invention relates to indoor lifting equipment for lifting indoors heavy structures, such as prefabricated steel structures.

The concept of steel structure in the present invention is defined as a concept including all the weight lifting in the room.

According to another embodiment of the present invention, the indoor lifting equipment includes a hook 100 supporting the steel structure 12, a vertical frame 200 on which the hook 100 is mounted, and a support 300 supporting the vertical frame 200. , A horizontal frame 400 supporting the vertical frame 200 together with the support part 300 and a moving part 500 for moving the support part 200 together with the support part 300 (FIGS. 2 and 3). .

The vertical frame 200 is guided to the first vertical frame 210 coupled to the support 300, the second vertical frame 220 and the second vertical frame 220 guided to the first vertical frame 210. And a third vertical frame 230 drawn out (FIG. 2).

Since the indoor lifting equipment should lift the steel structure 12, the hook 100, which will be described later, is mounted on the steel structure 12 while the second vertical frame 220 and the third vertical frame 230 are retracted. By pulling out the second vertical frame 220 and the third vertical frame 230, it is possible to lift the steel structure 12.

Here, the third vertical frame 230 refers to a frame that is positioned highest when the plurality of frames of the multi-stage structure are pulled out, and the second vertical frame 220 may include a first vertical frame 210 coupled to the support part 300. As a frame positioned between the third vertical frames 230, it may be composed of a plurality of frames.

The first vertical frame 210 may be hinged with respect to the support 300 to lie down or stand up. In this case, the volume of the indoor lifting equipment in the indoor space can be minimized, thereby ensuring the convenience of movement.

The vertical frame 200 may be driven by a hydraulic jack.

Indoor lifting equipment according to an embodiment of the present invention is the first hydraulic jack 310 to drive the first vertical frame 210, the second hydraulic jack 320 and the third vertical frame to drive the second vertical frame 220. It may include a third hydraulic jack 330 for driving the 230 (Figs. 2, 3).

In this case, the first hydraulic jack 310 lays down or stands the first vertical frame 210, and the second hydraulic jack 320 draws or draws the second vertical frame 220 out of the first vertical frame 210. The third hydraulic jack 330 may draw out or draw in the second vertical frame 230 from the second vertical frame 220.

The horizontal frame 400 may be withdrawn or drawn from the support 300 (FIG. 7).

The horizontal frame 400 includes a front horizontal frame 410 formed as a pair on one side of the support part 300 and a rear horizontal frame 420 formed as a pair on the other side of the support part 300 (FIG. 7).

When the horizontal frame 400 is pulled out, since the supporting area is widened, it is possible to secure a higher supporting force.

In detail, when the first vertical frame 210 is lying on the support part 300, the front vertical frame 410 or the rear horizontal frame 420 in the direction in which the first vertical frame 210 is laid out is pulled out so that the vertical frame ( It is possible to support the load provided with the 200 lying down.

In addition, when the height of the vertical frame 200 is increased by drawing out the second vertical frame 220 and the third vertical frame 230, the front horizontal frame 410 and the rear horizontal frame 420 are extended to extend the support area. This prevents the conduction of equipment.

Indoor lifting equipment according to an embodiment of the present invention may further include a fourth hydraulic jack 340 for drawing or withdrawing the horizontal frame 400 from the support 300 (FIG. 7).

The hook 100 is preferably formed on the third vertical frame 230 which is positioned at the highest level as a structure for supporting the steel structure 12 (FIG. 2).

The hook 100 may include a steel support 110 for supporting the steel frame structure 12 and a clamp 120 for preventing the steel frame structure 12 from being mounted on the steel frame support 110 (FIG. 6). .

In this case, the steel support 110 is formed to protrude toward the front (a), the clamp 120 is formed on the upper surface of the steel support 110 is characterized in that the position can be changed to the front (a) and rear (b).

Since the widths of the steel structures 12 supported by the hook 100 are different, the positions of the clamp 120 can be changed according to the width of the steel structures 12 so that the steel structures 12 mounted on the steel support 110 can be changed. It is possible to firmly bind).

The moving part 500 substantially moves the indoor lifting equipment overall configuration by moving the support part 200.

The moving part 500 may be formed on the horizontal frame 400 as well as the support part 200.

In this case, it is possible to move the support part 200 even when the horizontal frame 400 is drawn out.

Indoor lifting equipment according to an embodiment of the present invention has a multi-stage structure of three or more stages due to the withdrawal of the second vertical frame 220 and the third vertical frame 230.

In this case, in order to ensure the structural safety of the drawn vertical frame 200 may be further included a pin fixing portion or a ratchet (Ratchet) fixing portion which is inserted into the connection to each vertical frame 200 to fix the position.

Indoor lifting equipment according to an embodiment of the present invention is formed on the third vertical frame 230, may further include a hook moving unit 130 for raising or lowering the hook (100). Accordingly, the height of the hook 100 can be variably adjusted within the range of the third vertical frame 230, thereby obtaining the effect of finely adjusting the height of the steel frame structure 12.

Hereinafter, a method of constructing the pipe rack structure 10 using the indoor lifting equipment according to an embodiment of the present invention will be described.

Pipe rack structure according to the present invention forms a plurality of support pillars (11) at the construction site, install the steel structure 12 pre-assembled in the factory, etc. in the support column (11) and then install the facilities such as pipes to the steel structure Proceed by installing.

In this case, the steel structure 12 is lifted using the indoor lifting equipment according to the present invention to a predetermined height of the support pillar 11.

Specifically, a method for constructing a pipe rack structure includes a first step (S100) of placing the steel frame structure 12 pre-assembled under the plurality of support pillars 11 constructed on-site, the steel frame structure 12. It may include a second step (S200) for lifting using the lifting equipment and a third step (S300) for coupling the steel structure 12 to the support pillar (11).

In this case, the second step S200 is a vertical frame using the first hydraulic jack 310 and a moving step S210 for moving the steel frame structure 12 in a state in which the vertical frame 200 is folded with respect to the support part 300. Standing step (S220) to stand 200, the steel structure 12 is mounted to the steel support 110, and the binding step of adjusting the position of the clamp 120 to bind the steel structure 12 (S230) And a third withdrawal step S240 and a third hydraulic jack 330 to withdraw the second vertical frame 220 from the first vertical frame 210 using the second hydraulic jack 320. It may include a second withdrawal step (S250) for withdrawing 230 from the second vertical frame 220.

In addition, after the standing step (S220) may further include a horizontal frame withdrawal step (S221) for withdrawing the horizontal frame 400 from the support unit 200 using the fourth hydraulic jack 340.

In this case, if the horizontal frame 400 of either the front horizontal frame 410 or the rear horizontal frame 420 is already drawn for movement in the lying state of the vertical frame 200, the front horizontal frame that is not drawn out The process of drawing out the frame 410 or the rear horizontal frame 420 is sufficient.

Indoor lifting equipment according to the present invention coupled to the steel structure 12 in the second step (S200) may be a plurality (12).

In order to lift the steel frame structure structure 12 using a plurality of indoor lifting equipments, it is required to synchronize the plurality of indoor lifting equipments so that the plurality of indoor lifting equipments may be uplifted or downlifted while maintaining the same height.

To this end, the present invention may further include a tuning unit 600 for synchronizing a plurality of indoor lifting equipment.

In addition, the indoor lifting equipment according to an embodiment of the present invention may further include a load measuring unit 700 for measuring in real time the load on the hook 100.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

100: hook
200: vertical frame
300 support part
400: horizontal frame
500: moving part
600: synchronization
700: load measuring unit

Claims (12)

In the indoor lifting equipment for lifting the prefabricated steel structure 12,
A hook 100 supporting the steel structure 12;
A vertical frame 200 on which the hook 100 is mounted; And
Includes; Support portion 300 for supporting the vertical frame 200,
The vertical frame 200 is
A first vertical frame 210 coupled with the support part 300;
A second vertical frame 220 guided to and drawn out by the first vertical frame 210; And
And a third vertical frame (230) guided to the second vertical frame (230) and drawn out.
The method of claim 1,
The hook 100 is formed on the third vertical frame 230,
The hook 100,
Steel frame support portion 110 for supporting the steel structure (12); And
Indoor lifting equipment comprising a; clamp (120) to prevent the separation of the steel structure structure (12) mounted on the steel support (110).
The method of claim 2,
The steel support 110 is formed to protrude toward the front (a),
The clamp 120 is formed on the upper surface of the steel support 110, indoor lifting equipment, characterized in that the position can be changed to the front (a) and rear (b).
The method of claim 3,
A first hydraulic jack 310 driving the first vertical frame 210;
A second hydraulic jack 320 driving the second vertical frame 220; And
Indoor lifting equipment further comprises; a third hydraulic jack (330) for driving the third vertical frame (230).
The method of claim 4, wherein
The first hydraulic jack 310 lays down or stands the first vertical frame 210,
The second hydraulic jack 320 draws out or draws in the second vertical frame 220 from the first vertical frame 210,
The third hydraulic jack (330) is indoor lifting equipment, characterized in that withdrawal or withdraw the second vertical frame (230) from the second vertical frame (220).
The method of claim 5,
A horizontal frame 400 mounted to the support part 300 and supporting the vertical frame 200 together with the support part 300;
The horizontal frame 400 is indoor lifting equipment, characterized in that withdrawal or withdrawal from the support (300).
The method of claim 6,
The horizontal frame 400 is
A front horizontal frame 410 formed as a pair on one side of the support part 300; And
Indoor lifting equipment comprising ;; rear horizontal frame (420) formed in pairs on the other side of the support (300).
The method of claim 7, wherein
A fourth hydraulic jack 340 which draws out or draws in the horizontal frame 400 from the support part 300;
Indoor lifting equipment further comprising.
The method of claim 8,
A moving part 500 for moving the support part 200;
Indoor lifting equipment further comprising.
In the method for constructing the pipe rack structure 10 using the indoor lifting equipment of claim 9,
The pipe rack structure 10
A plurality of support pillars 11; And
Includes; steel structure 12 is supported by the support pillar 11,
A first step (S100) of positioning the steel structure structure (12) pre-assembled under the plurality of support pillars (11) installed in the field;
A second step (S200) of lifting the steel frame structure (12) using the indoor lifting equipment; And
The third step (S300) for coupling the steel structure 12 to the support pillar (11);
Method for constructing a pipe rack structure comprising a.
The method of claim 10,
The second step (S200) is
A moving step of moving the vertical frame 200 to the steel frame structure 12 in a folded state with respect to the support part 300;
A standing step (S220) of standing the vertical frame 200 by using the first hydraulic jack 310;
A binding step of placing the steel structure structure 12 on the steel support portion 110 and binding the steel structure structure 12 by adjusting the position of the clamp 120 (S230); And
A first drawing step (S240) of drawing out the second vertical frame (220) from the first vertical frame (210) by using the second hydraulic jack (320); And
A second drawing step (S250) of drawing out the third vertical frame 230 from the second vertical frame 220 by using the third hydraulic jack 330;
Method for constructing a pipe rack structure comprising a.
The method of claim 11,
After the standing step (S220) using the fourth hydraulic jack 340, the horizontal frame withdrawal step (S221) for withdrawing the horizontal frame 400 from the support unit 200; further comprising a pipe How to build a rack structure.

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