KR101691489B1 - Pipe module and construction method thereof - Google Patents

Abstract

According to the present invention, a pipe module (A) to install a pipe of a building comprises: the pipe (100); a frame (200) where the pipe (100) is held; a pipe fixing unit (300) formed on the frame (200); and a lift connection unit (500) connecting the pipe module to a lift wire (2) to lift the pipe module (A), wherein a plurality of pipe modules (A) are coupled to be installed. According to the present invention, the pipe is easily installed in a site using a modular individual pipe module which is preliminarily treated in a factory. More specifically, the present invention enables the pipe module to be manufactured in the factory through the frame supporting the pipe and the pipes such as an air conditioning pipe and a water supply pipe, enabling the pipe modules manufactured in the factory to be transferred to the site to be assembled in order to simplify a complex pipe assembling process, thereby reducing process time.

Description

PIPE MODULE AND CONSTRUCTION METHOD THEREOF [0002]

The present invention relates to a piping module and piping module for a factory and an architectural structure, and more particularly, to a piping module and a piping module that can simplify a site work and shorten the air by constructing a piping using a factory- And a method of installing the piping module.

Generally, piping facilities such as plants and factories are provided with support rods for supporting pipes when installing piping such as air-conditioning piping and water supply piping.

That is, the piping is installed by repeating the process of installing the piping support and connecting the piping of the air conditioning piping and the water supply piping to the supporting platform.

In this case, since the support is installed and each pipe is installed after each, there is a problem that the process time is long and the working efficiency is low.

It is an object of the present invention to provide a piping module and piping module installation method that can easily install piping in the field by using a modularized individual piping module manufactured at a factory. .

Another object of the present invention is to provide a piping module and a piping module installation method that can shorten a construction period by minimizing field work.

It is still another object of the present invention to provide a piping module and a piping module installation method that can prevent a safety accident in the field by minimizing installation work by using a piping module and minimize the input of construction manpower.

In order to solve the above problems, the present invention relates to a piping module (A) for piping construction of a building, comprising: a piping (100); A frame 200 on which the pipe 100 is mounted; A pipe fixing part 300 formed on the frame 200; And a lift connection part (500) superimposed on a lift line (2) for the piping module (A), and a plurality of piping modules (A) are assembled and installed.

The frame 200 includes a vertical frame 210 installed along the longitudinal direction of the pipe 100; And a horizontal frame 220 coupled with the vertical frame 210. The pipe fixing portion 300 may be formed on the horizontal frame 220. [

The pipe fixing part 300 includes a large diameter pipe fixing part 310; And a small-diameter pipe fixing part (320). The large-diameter piping fixing part 310 includes a pipe mounting part 311 coupled with the horizontal frame 220; And a lid part 312 for preventing the pipeline 100 from being separated from the pipeline mounting part 311 and a flow prevention part 313 for preventing the flow of the pipeline 100 .

The pipe mounting portion 311 includes a lower plate 311a coupled to the transverse frame 220; A cradle 311c on which the piping 100 is mounted; And a supporting portion 311b which is spaced apart from the lower plate 311a by a predetermined distance.

The small diameter pipe fixing part 320 includes a small diameter pipe connection part 321 coupled to the horizontal frame 220 and a small diameter pipe connection part 321 for preventing the pipe 100 from being separated from the small diameter pipe connection part 321, And a small diameter fastening portion 323 for preventing the flow of the piping 100, which includes the bore cap portion 322.

The installation of the piping module comprises: a piping module manufacturing step of manufacturing the piping module (A); A piping module stacking step of stacking the piping module (A) on the hypothetical frame (400), including a piping module conveying step of conveying the piping module (A); And a piping module moving step of moving the piping module A using the hypothesis frame 400.

Thereafter, a piping module lifting step of lifting the piping module A and a piping module fixing step of fixing the piping module A are installed.

The hypothetical frame 400 includes a bogie frame 410 having a wheel 440 for moving at a lower end thereof; A lift frame 420 supporting the frame 200 and supported by the bogie frame 410; And a lift adjusting device 430 connected to the lift frame 420 and the lift frame 420 to adjust the height of the lift frame 420.

The height of the bogie frame 410 is higher than the height of the lift frame 420. The lift control device 430 has one end connected to the bogie frame 410 and the other end connected to the lift frame 420 Connected.

The lift control device 430 includes a body portion 431 in which the pulley 435 is housed; An upper ring portion 432 formed on the upper side of the body portion 431; And a lower ring portion 434 formed at a lower portion of the body portion 431. The lower ring portion 434 has one end coupled to the lower ring portion 434 and the other end connected to the outer side of the body portion 431 And a chain (433)

It is preferable that the height of the lower annular portion 434 varies according to the driving of the chain 433.

The lower ring 434 is connected to the lift frame 420 and the upper ring 432 is connected to the bogie frame 410 so that the upper ring 432 is connected to the lift frame 420. As the chain 433 is driven, It is preferable that the height of the first electrode 420 varies.

Lifting the lift frame 420 by providing a load to the other end of the chain 433; And adjusting the height of the frame 200 by varying the height of the lift frame 420. [0034] FIG.

The pipe module fixing step may include: mounting the frame 200 on a fixing frame 230 supporting the frame 200; And connecting the fixed frame 230 and the frame 200 to each other.

According to the present invention, piping can be easily installed in the field by using individual piping modules modularized in a factory.

According to the present invention, it is possible to minimize the field work and shorten the construction period.

According to the present invention, a simplified installation work using the piping module is performed, thereby preventing a safety accident on site and minimizing the input of construction manpower.

1 is an installation cross-sectional view of a piping module according to an embodiment of the present invention;
2 is a perspective view of a piping module connected to a lift line in accordance with an embodiment of the present invention;
3 is a perspective view of a piping module according to an embodiment of the present invention;
4 is a cross-sectional view of a piping fixture according to an embodiment of the present invention;
5 is a perspective view of a piping installation according to an embodiment of the present invention.
6 is a sectional view of a small-diameter pipe fixing section according to an embodiment of the present invention;
7 is a perspective view of a hypothetical frame according to an embodiment of the present invention;
FIG. 8 is an exploded perspective view of a hypothetical frame according to an embodiment of the present invention; FIG.
9 is a sectional view of a lift control device coupled to a bogie frame and a lift frame in accordance with an embodiment of the present invention.
10 is a sectional view of a lift control device according to an embodiment of the present invention;
11 is a cross-sectional view of a piping module mounted on a hypothetical frame in accordance with an embodiment of the present invention.
12 is a longitudinal sectional view of a hypothetical frame according to an embodiment of the present invention in which a piping module is lifted.
13 is a sectional view of a piping module according to an embodiment of the present invention.
14 is a cross-sectional view of a piping module installed according to an embodiment of the present invention;

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings, in which like reference numerals designate like or corresponding parts throughout the several views, A duplicate description will be omitted.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

Hereinafter, a piping module according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

 The piping module according to the present invention includes a piping 100, a frame 200 on which the piping 100 is mounted, a piping fixing part 300 formed on the frame 200, and a lift connection part 500 (Fig. 3) .

 That is, the pipeline 100 is fixed to the frame 200 by using the pipe fixing unit 300 and the lift line 2 provided with the lifting means is connected to the lift connection part 500 formed on the frame 200 in a ring- So that the user can carry out the loading and unloading operations.

In the conventional piping installation work, a lot of field work such as assembling a frame to be installed for each piping in the field and fixing the piping on the frame has been demanded. However, in the piping construction using the piping module according to the embodiment of the present invention The pipe installation process can be completed simply by positioning the piping module manufactured at the factory at the piping formation position and connecting each module, so that the field work can be simplified and the construction period can be shortened.

 A frame 200 of a piping module according to an embodiment of the present invention includes a vertical frame 210 installed along a longitudinal direction of a pipe 100; And a horizontal frame 220 combined with the vertical frame 210. The pipe fixing part 300 is preferably formed on the horizontal frame 220. [

 In this case, since the frame 200 is formed with the lattice-like structure of the vertical frame 210 and the horizontal frame 220, when the plurality of pipes 100 are supported, It can be safely supported.

 Also, the piping module can be safely transported and installed in the lifting process for transporting and installing the piping module.

The pipe fixing part 300 includes a large diameter pipe fixing part 310 and a small diameter pipe fixing part 320, The large diameter pipe fixing part 310 includes a pipe mounting part 311 coupled to the transverse frame 220 and a cover part 312 for preventing the pipe 100 from being separated from the pipe mounting part 311 And a flow prevention portion 313 for preventing the flow of the pipe 100. [

In this case, it is possible to stably fix the large-diameter piping (diameter 300 mm or more) and the small-diameter piping (diameter 300 mm or less) to the horizontal frame 220 by using the large-diameter piping fixing portion 310 and the small- have.

In addition, the large-diameter pipeline fixing part 310 provided in the horizontal frame 220 is provided with the flow prevention part 313 so that noise is not generated in vibration and shock generated when the piping is used, and damage to the piping can be prevented .

The piping mounting portion 311 includes a lower plate 311a coupled to the horizontal frame 220, a mounting table 311c on which the piping 100 is mounted and a mounting table 311c spaced apart from the lower plate 311a by a predetermined distance And a supporting portion 311b which can be supported.

In this case, since the piping mounting portion 311 is bolted to the upper portion of the horizontal frame 220, it is easy to install the piping mounting portion 311, and the position of the piping can be secured using the supporting portion 311b .

The small diameter piping fixing part 320 includes a small diameter wick 321 and a small diameter wick 322 for preventing the separation of the piping 100 mounted on the small wick spout 321, , And includes a small diameter portion 343 to prevent the flow of the piping 100. [

In this case, since the small-diameter pipe fixing portion 320 is assembled with the constitution of the small-diameter small-diameter portion 321 and the small-diameter lid portion 322, the installation of the pipe can be performed quickly and easily.

In addition, by fixing the piping by using the small diameter portion 323, the stable connection can be maintained even under pressure or vibration generated when the small diameter piping is used, and noise can be prevented.

Hereinafter, a method of installing a piping module using the piping module according to an embodiment of the present invention will be described.

A method of installing a piping module using a piping module according to an embodiment of the present invention includes a piping module manufacturing step for manufacturing the piping module A, a piping module carrying step for carrying the piping module A, A step of moving the piping module A to move the piping module A using the hypothetical frame 400; a step of lifting the piping module A to lift the piping module A; And a pipe module fixing step of fixing the module (A).

In this case, since the piping 100 and the frame 200 are modularized and brought into the site, it is possible to shorten the piping installation time of the building and minimize the installation error of the piping installation.

In addition, since the piping construction using the piping module is performed only by the temporary frame 400, no additional equipment is required when installing the piping module in the field, and construction cost can be reduced by minimizing the construction workforce.

The hypothetical frame 400 is provided with a wheel 440 for moving at the lower end thereof and supports the frame 200 and a lift frame 420 and a bogie frame 410 supported by the bogie frame 410 And a lift adjusting device 430 connected to the lift frame 420 to adjust the height of the lift frame 420.

In this case, since the wheel 440 and the lift adjusting device 430 are installed in the hypothetical frame 400, the piping module A can be carried and the piping module A can be lifted.

Specifically, the bogie frame 410 includes a vertical frame 412, a vertical frame 411, and a vertical frame 413, which are formed to have a plurality of layer structures, respectively, in association with the horizontal frame 411 .

Further, the bogie frame 410 has a structure including a frame engaging portion 414 for engaging with the lift frame 420.

The lift frame 420 is coupled to the pair of lift transverse frames 421 and the lift vertical frame 422 and the lift vertical frame 422 is inserted into the frame engaging portion 414 provided on the outer side of the horizontal frame 411 And is combined with the bogie frame 410 in a structure in which the bogie frame 410 is formed.

Therefore, the lift frame 420 is configured to be inserted into the frame engaging portion 414 coupled to the side portion of the truck frame 410 by the combination of the lift transverse frame 421 and the lift vertical frame 422, It is easy to combine and disassemble with the frame 410.

It is preferable that the height of the bogie frame 410 is higher than the height of the lift frame 420 and one end of the lift adjusting device 430 is connected to the bogie frame 410 and the other end thereof is connected to the lift frame 420 .

In this case, since the height of the bogie frame 410 is higher than that of the lift frame 420, the pipe module A is supported by the bogie frame 410 and is transported.

That is, the lift frame 420 and the lift adjusting device 430 are configured to receive a load only when lifting the piping module.

  In addition, since the lift control device 430 is coupled to the bogie frame 410, the lift frame 420 is supported and lifted by the bogie frame 410 without a separate support.

The lift adjusting device 430 includes a body portion 431 in which the pulley 435 is received and an upper ring portion 432 formed on the upper side of the body portion 431. The lower ring portion 431, And a chain 433 having one end coupled to the lower ring portion 434 and the other end exposed to the outside of the body portion 431 around the pulley 435. When the chain 433 is driven It is preferable that the height of the lower annular portion 434 changes.

In this case, the lift adjusting device 430 is structured such that the height of the chain is adjusted by the attraction force, thereby facilitating the operation and management of the bogie frame.

The lift adjusting device 430 is coupled to the lift frame 420 and the lift frame 420 so that the lift adjusting device 430 can be installed and dismounted when assembling and disassembling the lift frame 420 and the bogie frame 410, Disassembly becomes easy.

The lower ring 434 is connected to the lift frame 420 and the upper ring 432 is connected to the bogie frame 410 so that the lower ring 434 is connected to the lift frame 420. As the chain 433 is driven, It is preferable that the height changes.

In this case, since the lift control device 420 and the lift control device 430 are coupled to the lift frame 420 and the bogie frame 410, it is easy to attach and detach the equipment.

The piping module lifting step may include lifting the lift frame 420 by providing a load to the other end of the chain 433 and adjusting the height of the frame 200 by changing the height of the lift frame 420 .

In this case, since the load providing method for lifting is performed only by driving the chain, it is possible to perform work by the human force and the work speed is fast.

The piping module fixing step preferably includes the step of mounting the frame 200 on the upper portion of the fixed frame 230 supporting the frame 200 and connecting the fixed frame 230 and the frame 200 .

In this case, it is possible to simplify the installation process of the piping module A by installing the fixing frame 230 at the corner of the lifted piping module A and fixing it by bolting.

 In addition, since the installation height of the piping module A can be adjusted by using the washer and the height adjusting plate when the fixed frame 230 is coupled, the installation error can be minimized.

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 or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

A: Piping module 1: Building floor
100: piping 200: frame
210: vertical frame 220: horizontal frame
230: fixed frame 300: pipe fixing part
310: Large diameter pipe fixing part 320: Small diameter pipe fixing part
400: Hypothesis frame 410: Balance frame
420: lift frame 430: lift adjusting device
440: Wheels

Claims (12)

A method of constructing a piping module (A) for piping construction of a building floor (1)
The piping module (A)
A piping 100;
A frame 200 on which the pipe 100 is mounted;
A pipe fixing part 300 formed on the frame 200; And
And a lift connection part (500) for connection with the lift line (2) for the amount of the piping module (A)
A piping module manufacturing step of manufacturing the piping module (A);
A piping module carrying step of carrying the piping module (A);
A piping module mounting step of mounting the piping module (A) on the mounting frame (400);
A piping module moving step of moving the piping module (A) using the hypothetical frame (400);
A piping module lifting step of lifting the piping module (A);
And a piping module fixing step of fixing the piping module (A)
In the hypothetical frame 400,
A bogie frame 410 provided with a wheel 440 for moving at a lower end thereof;
A lift frame 420 supporting the frame 200 and supported by the bogie frame 410; And
And a lift control device 430 coupled to the lift frame 420 to adjust the height of the lift frame 420,
The height of the bogie frame 410 is higher than the height of the lift frame 420,
One end of the lift adjusting device 430 is connected to the bogie frame 410 and the other end is connected to the lift frame 420,
The lift adjusting device 430
A body portion 431 in which the pulley 435 is received;
An upper ring portion 432 formed on the upper side of the body portion 431;
A lower ring portion 434 formed at a lower portion of the body portion 431; And
And a chain 433 having one end coupled to the lower ring portion 434 and the other end exposed to the outside of the body portion 431 around the pulley 435,
Wherein a height of the lower ring portion (434) varies with driving of the chain (433).
The method according to claim 1,
The frame (200)
A vertical frame 210 installed along the longitudinal direction of the pipe 100; And a transverse frame (220) coupled with the longitudinal frame (210)
Wherein the pipe fixing part (300) is formed on the horizontal frame (220).
3. The method of claim 2,
The piping fixing part 300 includes:
A large diameter pipe fixing part 310; And
And a small-diameter pipe fixing portion (320).
The large-diameter pipe fixing part 310
A piping mount (311) coupled with the transverse frame (220); And a lid part (312) for preventing the pipeline (100) from being separated from the pipeline mounting part (311)
And a flow prevention part (313) for preventing the flow of the pipe (100).
The method of claim 3,
The pipeline mounting portion 311 includes:
A lower plate 311a coupled to the transverse frame 220;
A cradle 311c on which the piping 100 is mounted; And
A support 311b for supporting the cradle 311c spaced apart from the lower plate 311a by a predetermined distance;
Wherein the piping module comprises a plurality of piping modules.
The method of claim 3,
The small-diameter pipe fixing portion 320,
A small diameter cap 321 coupled to the horizontal frame 220 and a small cap cover 322 for preventing the piping 100 from being separated from the small cap pipe mount 321 ,
(323) for preventing the flow of the piping (100) from flowing out of the piping (100).
delete delete delete delete The method according to claim 1,
The lower ring portion 434 is looped with the lift frame 420,
The upper ring portion 432 is coupled with the bogie frame 410,
Wherein a height of the lift frame (420) varies with driving of the chain (433).
The method according to claim 1,
The piping module lifting step includes:
Lifting the lift frame 420 by providing a load to the other end of the chain 433; And
Adjusting a height of the frame 200 by changing a height of the lift frame 420;
Wherein the piping module comprises a plurality of piping modules.
12. The method of claim 11,
The piping module fixing step includes:
Mounting the frame (200) on a fixed frame (230) supporting the frame (200); And
And connecting the frame (200) to the stationary frame (230).

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