KR100812128B1 - Pipe unit for steel beam structure and the lifting method thereof - Google Patents

Abstract

A pipe unit for a steel beam structure and a lifting method thereof are provided to reduce lifting cost of a pipe and a suspension device by lifting a steel beam together with the pipe unit. A pipe unit for a steel beam structure includes a pair of pipe supports(10), a plurality of pipes(20), a pair of steel plates, a plurality of upper channels(30), and a plurality of coupling pads. The pair of pipe supports are installed opposite to each other. The pipes are loaded in a space partitioned by lower channels(12) and guide rails of the pair of pipe supports. The pair of steel plates are coupled with both sides of the pipes respectively and control longitudinal motion of the pipes by coupling nuts with a plurality of second long bolts respectively. An upper and a lower flanges(32,34) of the upper channel have through holes(32a,34a,32b,34b) to pass the guide rail and a first long bolt(16). The coupling pad is installed at an upper part of the upper channel by coupling a nut with a coupling bolt.

Description

PIPE UNIT FOR STEEL BEAM STRUCTURE AND THE LIFTING METHOD THEREOF}

1 is a perspective view schematically illustrating a state in which a steel plate installed at both ends of a pipe in a steel beam pipe unit according to an embodiment of the present invention is removed;

2 is an enlarged perspective view showing an enlarged main portion of FIG. 1;

3 is a perspective view schematically illustrating a state in which an iron plate is fixed using long bolts at both ends of a pipe unit to prevent movement of a pipe loaded during transportation of a steel beam pipe unit according to an embodiment of the present invention;

4 is a perspective view schematically showing a state in which a pipe unit is fixedly installed on a steel frame beam according to an embodiment of the present invention;

5 is a cross-sectional view of the main part in FIG. 4;

<Explanation of symbols for the main parts of the drawings>

10: pipe support 12: lower channel

12a: upper flange 12b: lower flange

14: guide rail 16: first long bolt

16a: Nut 20: Pipe

30: upper channel 32: upper flange

32a: through hole 32b: through hole

34: Lower Flange 34a: Through Hole

34b: Through hole 40: Iron plate

42: second long bolt 42a: nut

50: coupling pad 52: tightening bolt

52a: nut 60: steel beam

60a: bottom flange 60b: top flange

62: lifting lug 62a: through hole

100: pipe unit

The present invention relates to a steel beam unit and a pipe lifting method using the same, and more particularly, to a steel beam pipe unit and a lifting method that can shorten the lifting time of the pipe pipe, and can reduce the lifting cost.

In general, in the construction of steel structures, after constructing steel structures first, cast concrete mortar for each floor to build slabs, and then cure for a certain period of time, then tie a plurality of pipes for pipes and use the tower crane for each floor. The pipes needed for the construction were lifted and stored on the slab floor, and these pipes were used for the piping work.

However, a method of tying a plurality of pipes for lifting and lifting a pipe vipe required for each floor by using a tower crane is to securely bundle and hold a plurality of pipes for lifting, and to lift the pipes while not lifting. Not only does the pipe fall to the bottom causing a safety accident, but there is also a problem that the lifting cost of the pipe can not be reduced, and also by storing pipes lifted in each floor on the slab floor, the work of other workers There was a problem that interfered with.

The present invention has been made to solve the above various problems, and an object of the present invention is to provide a pipe unit for a steel beam and the lifting method that can reduce the pipe lifting time and cost.

Another object of the present invention is to manufacture a pipe unit in which the pipe is loaded by pre-processing the pipe required for the construction of each layer of the steel structure and fixed to the steel beam to lift together with the pipe unit at the time of lifting the steel beam lifting unit price of the pipe unit To provide a steel beam unit and a lifting method for reducing the steel beam.

Another object of the present invention is to provide a pipe support as a plumbing pipe suspension device.

Still another object of the present invention is to provide a pipe unit for a steel beam beam and a lifting method which can be used for piping work by lowering the pipe to the floor only when the pipe unit installed in the steel beam of the steel structure so as not to disturb the work of the worker To provide.

In order to achieve the above object, the present invention provides a pair of pipe supports 10 installed to face each other at a predetermined interval, and a lower channel 12 of the pipe support 10 installed to face each other at a predetermined interval. Through holes are drilled in the upper and lower flanges, respectively, so that the plurality of pre-machined pipes 20 loaded in the space defined by the guide rails 14 and the guide rails installed in the lower channels of the pipe supports can pass therethrough. At the same time, through holes are drilled in the upper and lower flanges so that the first elongated bolts respectively installed in parallel to each other on the outside of the guide rail installed in the lower channel can pass through the first elongated bolts. By means of a nut threaded into the threaded portion of the first elongated bolt through a through hole drilled into the upper and lower flanges, respectively. An upper channel positioned abutting on an upper portion of the pipe to restrain movement of the pipe mounted on a lower channel of an if support, and abutting at both ends of the plurality of pipes mounted on the lower channel of the pipe support, respectively. As the nuts are fastened to a plurality of second elongated bolts respectively passing through the pipes, a pair of steel plates restricting longitudinal movement of the pipes may be installed, and the upper channel may be installed on the lower flange of the steel beam. Symmetrical with respect to the longitudinal center of the upper channel so as to be fitted to a pair of fastening bolts respectively installed at a predetermined distance from the longitudinal center of the upper channel, respectively, on top of the upper channel by nuts which are screwed to the fastening bolts. It is characterized by consisting of a bonding pad of the iron plate material to be installed.

Hereinafter, a steel beam pipe unit according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view schematically showing a state in which a steel plate installed at both ends of a pipe is removed from a steel beam pipe unit according to an embodiment of the present invention, and FIG. 2 is an enlarged perspective view showing an enlarged main part in FIG. 3 is a perspective view schematically illustrating a state in which an iron plate is fixed using long bolts at both ends of a pipe unit to prevent movement of a pipe loaded during transportation of a steel beam pipe unit according to an embodiment of the present invention; 4 is a perspective view schematically illustrating a state in which a pipe unit is fixedly installed on a steel beam according to an embodiment of the present invention, and FIG. 5 is a cross-sectional view of main parts of FIG. 4.

1 to 5, the steel beam pipe unit 100 according to an embodiment of the present invention is a pair of pipe support 10 installed to face each other at a predetermined interval, and face each other at a predetermined interval A plurality of pre-processed pipes 20 loaded in a space partitioned by the lower channel 12 and the guide rail 14 of the pipe support 10 and the lower channel of the pipe support 10 Through holes 32a and 34a are perforated in the upper and lower flanges 32 and 34 so that the guide rails 14 installed in 12 can pass therethrough, and at the same time, the upper flange 12a of the lower channel 12. Through holes 32b and 34b are respectively provided in the upper and lower flanges 32 and 34 so that the first elongated bolts 16, which are respectively installed in parallel to each other on the outside of the guide rail 14 provided on the upper surface, can pass therethrough. Perforated and the first elongated bolts 16 are Lower part of the pipe support 10 by means of a nut 16a which penetrates through the through holes 32b and 34b respectively drilled into the lower flanges 32 and 34 and is screwed into the threaded portion of the first elongated bolt 16. An upper channel 30 abutting and fixed to an upper portion of the pipe 20 to regulate movement of the pipe 20 loaded on the channel 12, and on a lower channel 12 of the pipe support 10. As the nuts 42a are respectively fastened to a plurality of second elongated bolts 42 respectively contacting both ends of the plurality of pipes 20 mounted on the plurality of pipes 20 and penetrating the plurality of pipes 20, respectively. The pair of steel plates 40 restricting the longitudinal movement of the pipe 20 and the upper channel 30 may be installed on the lower flange 60a of the steel beam 60, respectively. While being symmetrical about the longitudinal center and at a constant distance from the longitudinal center of the upper channel 30 And a coupling pad 50 made of steel plate, which is installed on the upper channel 30, respectively, by nuts 52a which are fitted to a pair of fastening bolts 52 installed apart from each other and are screwed to the fastening bolts 52. It is.

The pipe support 10 has a U-shaped lower channel 12 and a pair of guides, each of which has a lower portion welded perpendicularly to the upper flange 12a of the lower channel 12 and are parallel to each other at a predetermined distance from each other. And the lower part is welded to the upper and lower flanges 12a and 12b of the lower channel 12, respectively, outside the lower channel 12 on which the rail 14 and the pair of guide rails 14 are welded. At the same time, it is composed of a pair of first elongated bolts 16 provided in parallel with respect to the pair of guide rails 14, respectively.

Since the pipe support 10 is used as a pipe suspension device for plumbing without being separated from the steel beam, there is no need to separately fix the suspension device, thereby reducing the labor cost of fixing the suspension device.

A support pad 51 is attached to a lower portion of the coupling pad 50 so that a lower portion which is not in contact with the upper surface of the lower flange 60a of the steel beam 60 is in contact with the support pad 51.

In the drawing, reference numeral 62 denotes a lifting lug installed below the upper flange 60b of the steel beam 60, and a through hole 62a is formed in the center thereof so as to fit a lifting ring of a tower crane (not shown). have.

Next, the lifting method, operation and effects of the steel beam pipe unit 100 according to an embodiment of the present invention configured as described above will be described.

First, the steel beam beam mounting step on the steel frame base to place the steel beam 60 on the steel frame holder not shown,

 After the steel beam mounting step, the hydraulic lifter (or forklift) is positioned at the lower portion of the steel beam 60 in the longitudinal direction, and a pair of pipe supporters 10 are placed at a predetermined interval on the lifter, and the pair of pipes The pipe is mounted between the supporters 10, the upper channel 30 is fitted to be fixed by the nut 16a, and the iron plate 40 is placed on both sides of the mounted pipes 20 to penetrate the pipe 20. Assembling the pipe unit for the steel beam beam, in which the nuts 42a are fastened to the plurality of second elongated bolts 42, respectively,

After the steel beam pipe unit assembly step, the upper surface of the upper channel 30 of the steel beam pipe unit 100 of the present invention by lifting up the pipe-mounted steel beam pipe unit 100 using a hydraulic lifter A pipe unit lifting step of positioning the lower surface of the lower flange 60a of the steel beam 60;

After the pipe unit lifting step, the coupling beam 50 attached to the lower flange of the steel beam to the pair of fastening bolts 52 installed symmetrically with each other at a distance from the longitudinal center of the upper channel 30, the steel beam A steel beam and pipe unit joining step of abutting on both side lower flanges 60a of 60 to be fixed with nuts 52a,

After the steel beam and pipe unit coupling step, the lifting ring of the tower crane not shown is coupled to the through-hole 62a formed in the lifting lug 62 installed under both upper flanges 60b of the steel beam 60, respectively. The steel beam beam is installed by the tower crane to the installation position of the steel beam beam 60 to install the steel beam beam 60 is coupled to the pipe unit.

In an embodiment of the present invention, it is described that one pipe unit is coupled to the steel beam, but more preferably, two pipe units are coupled to the steel beam as shown in FIG. 4.

Pipe unit 100 for steel beams according to an embodiment of the present invention in the space partitioned by the lower channel 12 and the guide rail 14 of the pair of pipe support 10 installed to face each other at a predetermined interval. A plurality of pre-machined pipes 20 to be loaded are loaded, and the guide rails 14 and the outside of the guide rails 14 which are installed at regular intervals on the upper flange 12a of the lower channel 12 are loaded. The first elongated bolts 16 are installed in the upper and lower flanges 32 and 34 of the upper channel 30 and the lower bolts 16 are fixed to the upper and lower flanges 32 and 34 of the lower channel 12. Inserted into the through holes 32a, 34a, 32b, 34b, respectively, the upper channel 30 is pushed down on the pipe 20 mounted on the lower channel 12 of the pipe support 10 to the first Fix the pipe 20 by screwing the nut 16a to the elongated bolt 16.

In addition, after the iron plate 40 abuts on both ends of the pipe 20 in the longitudinal direction, respectively, through holes (not shown) formed on one of the iron plates 40, through holes of the pipe 20 and Since the nuts 42a are screwed into the threaded portions of the plurality of second elongated bolts 42 respectively passing through holes formed in the other iron plate 40, the lower channel 12 of the pipe support 10 and A plurality of pipes 20 loaded in the space partitioned by the guide rails 14 can prevent the pipe 20 from moving in the longitudinal direction during transportation or lifting, thereby preventing the occurrence of a safety accident.

In this way, the steel pipe unit 100 for the steel beam of the present invention is processed in advance for the pipe 20 for the pipes required for the construction of the steel structure to produce a pipe unit 100 to the lower flange (60a) of the steel beam (60) When the fixed beam is lifted, the steel beam beam is lifted by the tower crane (not shown) together with the steel beam pipe unit 100 of the present invention to lift the pipe unit 100 necessary for the plumbing work on each floor. Suspending to the lower flange (60a) of the (60), not only can reduce the lifting cost of the pipes 20 required for the plumbing of each layer, but also the pipes 20 required for the plumbing of each layer Since it is suspended from the lower flange 60a of the steel beam 60 in the form of (100), the steel beam pipe unit 100 of the present invention is not left on the floor of the work site, and does not interfere with the worker's work. In one piping operation, the steel beam unit 100 for the steel beam installed on the lower flange 60a of the steel beam beam 60 of the steel structure by using a hydraulic lifter or a chain block to the floor of the work site of the present invention The steel pipe unit 100 for beam disassembly can be used for piping by lifting the pipe 20 can shorten the pipe piping time of the steel structure.

In the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, by those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, in the present invention, the pipes required for the construction of floors in steel structures are processed in advance, and a pipe unit is manufactured by using the pipe support of the present invention, and the pipe unit is fixed to the steel beams to lift the steel beams. In addition to reducing the lifting cost of the pipe and the lifting device lifting cost by lifting the pipe unit together, the pipe unit installed on the steel beam is lowered to the floor only during the piping work so as not to disturb the worker's work. There is an effect of providing a pipe unit for a steel beam and a lifting method thereof that can be used for work.

Claims (5)

delete A pair of pipe supports 10 installed to face each other at a predetermined interval, A plurality of pre-processed pipes 20 to be loaded in a space partitioned by the lower channel 12 and the guide rail 14 of the pair of pipe supports 10, As the nuts 42a are respectively fastened to a plurality of second elongated bolts 42 respectively contacting both ends of the plurality of pipes 20 and penetrating the plurality of pipes 20, respectively, A pair of iron plates 40 for regulating longitudinal movements, Through holes 32a and 34a are respectively drilled in the upper and lower flanges 32 and 34 so that the guide rails 14 installed in the lower channel 12 of the pipe support 10 can pass therethrough. Through holes 32b and 34b in the upper and lower flanges 32 and 34 so that the first elongated bolts 16 installed in parallel to each other on the outside of the guide rail 14 installed in the channel 12 can pass therethrough. ) Are drilled, respectively, and the first elongated bolt 16 penetrates through the through holes 32b and 34b drilled into the upper and lower flanges 32 and 34, respectively. An upper part contacted and fixed to the upper part of the pipe 20 to restrict movement of the pipe 20 loaded on the lower channel 12 of the pipe support 10 by a nut 16a which is screwed into the threaded portion of the pipe support 10. Channel 30, The upper channel 30 is symmetrical with respect to the longitudinal center of the upper channel 30 so that the upper channel 30 of the pipe support 10 can be installed on the lower flange 60a of the steel beam 60, respectively. Of iron plate material respectively installed on the upper portion of the upper channel 30 by a nut 52a which is fitted to a pair of fastening bolts 52 installed at a predetermined distance from the center of the longitudinal direction, and joined to the fastening bolts 52. Pipe unit for steel beams, characterized in that composed of a coupling pad (50). The pipe support 10 is a U-shaped lower channel 12, the lower portion is welded perpendicular to the upper flange 12a of the lower channel 12, and at the same time apart from each other in parallel A pair of guide rails 14 provided respectively, and a pair of guide rails 14 perpendicular to the upper and lower flanges 12a and 12b of the lower channel 12 outside the lower channel 12 to which the pair of guide rails 14 are welded. And a pair of first elongated bolts 16 and the first elongated bolts 16 which are respectively welded to the lower part and installed in parallel with respect to the pair of guide rails 14, respectively. The lower channel 12 of the pipe support 10 by a nut 16a which penetrates through the through holes 32b and 34b respectively drilled into 32 and 34 and is screwed into the threaded portion of the first elongated bolt 16. On top of the pipe 20 to fix the pipe 20 mounted on the Steel beam pipe unit, characterized in that consists of an upper channel 30, which is fixed in contact. The lower flange of the steel beam (60) of claim 2 or 3, wherein the coupling pad (50) contacts a lower portion of the steel beam (60) that is not abutted with an upper surface of the lower flange (60a). A steel beam pipe unit, characterized in that the supporting pads 51 are attached as much as the thickness of 60a. Steel beam beam mounting step on the steel frame holder to place the steel beam (60) on the steel frame holder, After the steel beam mounting step, the hydraulic lifter is positioned on the lower portion of the steel beam 60 in the longitudinal direction, and the pair of pipe supporters 10 are placed at a predetermined interval on the lifter, and the pair of pipe supporters 10 are disposed. Mount a plurality of pipes in between, the upper channel 30 is sandwiched and fixed with a nut 16a, and a plurality of second plates penetrating the pipe 20 by placing the iron plate 40 on both sides of the mounted pipe 20. The nut 42a is fastened to the elongated bolts 42, respectively, and the pipe unit assembly step for controlling the longitudinal movement of the pipe 20, After the steel beam pipe unit assembly step, using the hydraulic lifter to lift the pipe-mounted steel beam pipe unit 100, the upper surface of the upper channel 30 of the steel beam pipe unit 100 of the present invention to the steel frame A pipe unit lifting step of placing the lower surface of the lower flange 60a of the beam 60; After the pipe unit lifting step, the coupling beam 50 attached to the lower flange of the steel beam to the pair of fastening bolts 52 installed symmetrically with each other at a distance from the longitudinal center of the upper channel 30, the steel beam A steel beam and pipe unit joining step of abutting on both side lower flanges 60a of 60 to be fixed with nuts 52a, After joining the steel beam and the pipe unit, the tower crane by coupling the lifting ring of the tower crane to the through-hole 62a formed in the lifting lug 62 installed under both upper flanges 60b of the steel beam 60, respectively. The lifting method of the steel beam pipe unit consisting of a steel beam beam installation step of lifting the steel frame beam 60 to the installation position by installing the steel beam (60) coupled with the pipe unit.

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