KR20210007502A - Construction method for upper equipment basis drying system of steel frame grill girder in remodeling place - Google Patents

Abstract

The present invention provides a dry construction method for an upper equipment foundation of a steel frame grid beam at a remodeling site, which can construct a PC foundation module on the upper portion of the steel frame grid beam such that there is no dust scattering, ultra-short-term construction is possible, and smoothness is ensured. The dry construction method for the upper equipment foundation of the steel frame grid beam at the remodeling site according to an appropriate embodiment of the present invention comprises the steps of: (a) manufacturing, in a factory, a PC foundation module which has a unit horizontal length, a unit vertical length and a predetermined thickness, and in which a block-out portion formed to be concavely recessed at a set position of the horizontal side and the vertical side, a nut joint plate fixedly disposed on the upper surface of the block-out portion, and a coupling nut joined to the lower surface of the nut joint plate are installed; (b) installing a steel frame reinforcement beam on the upper portion of the steel frame grid beam for installation of the PC foundation module; (c) arranging the PC foundation module sequentially on the upper surface of the steel frame reinforcement beam by lifting the PC foundation module after carrying the PC foundation module into the remodeling site; (d) placing a module connection plate on the block-out portions facing each other between closely arranged PC foundation modules to arrange the module connection plate on the upper surface of the nut joint plate, inserting a level adjustment bolt into the nut joint plate, and then assembling the closely arranged PC foundation modules by screw-coupling the bolt to a corresponding coupling nut; (e) adjusting the horizontal smoothness of the PC foundation module by operationally rotating the level adjustment bolt, and then installing a grouting blocking bar between the upper surface of the steel frame reinforcement beam and the lower surface of the PC foundation module; and (f) performing cement grouting in a gap between the closely arranged PC foundation modules and on the block-out portion.

Description

Construction method for upper equipment basis drying system of steel frame grill girder in remodeling place}

The present invention relates to a dry construction method for constructing an equipment foundation on the upper part of a steel frame beam, and in particular, there is no generation of scattering dust, an ultra-short air is possible, and a PC base module on the upper part of the steel frame beam so as to obtain smoothness. It relates to a dry construction method for the basic equipment of the steel frame beam upper part of the renovation site so that this can be constructed.

In order to install the equipment base at the renovation site, the existing concrete pouring method used a construction method in which a pump car was placed on a narrow site outside the building and then concrete was poured into the steel frame beam using a boom. In this case, there is a risk of the pump overturning and external damage due to the boom. To improve this, a mobile concrete hopper can be used, but there is no hopper equipment that can be mounted on the existing grid beam. In addition, if large-sized equipment is arranged to expand the range of the grid beam removal, the construction cost/air will be greatly affected. In addition, when concrete is placed on site, limits are generated in the division of the surrounding clean room due to the influence of concrete waste in the pipe and scattering dust caused by installation and dismantling of temporary materials. In addition, air delay occurs due to field work such as formwork installation, reinforcement reinforcement, pouring and curing, so it is inevitably inefficient for a method that requires ultra-short air.

Therefore, as a high-tech renovation project, there is a need for a method of constructing the equipment base with ultra-short air without generating scattering dust on the steel frame beam.

As a background technology of the present invention, as Korean Patent Registration No. 10-1549032,'a device and method for carrying in an H-beam structure for construction of a grid beam type clean room, and a method for installing the same' has been proposed. In the above background art, the H-beam structure can be easily moved and transported on the lattice through the driving means, the carrying means and the temporary means. However, the above background technology does not present a rapid assembly method for an access follower (equipment basis) or a technical alternative to horizontal leveling adjustment.

As another background technology of the present invention, as Korean Patent Registration No. 10-1814038,'a structure including a hollow slab in a double lattice beam and a construction method thereof' is proposed. The above-described background technology is for omitting the work of the protruding beam, and forming the slab at the same height as the beam to improve structural strength and reduce the load. However, this background technology has to undergo deck plate construction, reinforcement, concrete pouring and curing at the site, so it is difficult to apply it to clean room renovation sites that require very short air due to long air.

Korean Patent Registration No. 10-1549032 Korean Patent Registration No. 10-1814038

The present invention provides a dry construction method based on the equipment on the upper part of the steel frame so that the PC basic module can be installed on the upper part of the steel frame so that there is no generation of scattering dust, the ultra-short air is possible, and the smoothness is secured. Has its purpose.

The dry construction method based on the upper equipment of the steel frame beam at the renovation site according to a suitable embodiment of the present invention includes (a) having a unit horizontal length, a unit vertical length, and a certain thickness, but concave at each set position of the horizontal and vertical sides. Manufacturing a PC basic module at a factory in which a concave block-out portion, a nut joint plate fixedly disposed on the upper surface of the block-out portion, and a fastening nut connected to the lower surface of the nut joint plate are installed; (b) installing a steel frame reinforcing beam on an upper portion of the steel frame beam for installation of the PC basic module; (c) after carrying the PC basic module to the renovation site, lifting weights and sequentially placing it on the upper surface of the steel frame reinforcing beam; (d) Place the module connection plate on the upper surface of the nut joint plate by placing the module connection plate on the block-out part facing each other between the PC basic modules arranged adjacent to each other, and insert the level adjustment bolts into the nut joint plate respectively, and then the corresponding fastening nut A step of connecting and assembling the PC basic modules disposed in close proximity to each other by screwing them in; (e) after adjusting the horizontal smoothness of the PC base module by rotating the level adjustment bolt, installing a grouting barrier between the upper surface of the steel frame reinforcement beam and the lower surface of the PC base module; (f) performing cement grouting on the oil gap and block-out portion formed between adjacent PC base modules.

In addition, the dry construction method based on the upper equipment of the steel frame beam at the renovation site according to another embodiment of the present invention includes (a) having a unit horizontal length, a unit vertical length, and a certain thickness, but concave at each set position of the horizontal and vertical sides. Manufacturing at a factory a PC basic module in which a block-out portion formed so as to be recessed, a nut joint plate fixedly disposed on the upper surface of the block-out portion, and a fastening nut connected to the lower surface of the nut joint plate are installed; (b) installing a steel frame reinforcing beam on an upper portion of the steel frame beam for installation of the PC basic module; (c) after carrying the PC basic module to the renovation site, lifting weight and sequentially arranging the upper surface of the steel reinforcing beam on which the anti-fall plate for both module synthesis is installed on the upper surface; (d) Each L-shaped module connection angle is placed on the upper surface of the nut joint plate by placing an L-shaped module connection angle on the block-out part facing each other between the PC basic modules arranged adjacent to each other, and the level adjustment bolt is connected to one end of the module connection angle and the nut. Connecting and assembling the PC basic modules disposed adjacent to each other by inserting each plate and then fastening the corresponding fastening nut screw and bolting the other ends of the module connection angle to each other; (e) after adjusting the horizontal smoothness of the PC base module by rotating the level adjustment bolt, installing a grouting barrier between the upper surface of the steel frame reinforcement beam and the lower surface of the PC base module; (f) performing cement grouting on the oil gap and block-out portion formed between adjacent PC base modules.

In addition, in order to prevent the PC basic module from falling off, the PC basic module is further provided with a PC basic module detachment prevention plate bonded to the center of the upper surface of the steel reinforcing beam between the facing block out portions.

In addition, a round head bolt in point contact with the upper surface of the steel reinforcing beam is further installed at the lower end of the level adjustment bolt.

According to the dry construction method of the base equipment on the steel frame beam at the renovation site of the present invention, since the PC base module is mass-produced at the factory and assembled and installed at the site, there is no generation of scattering dust on the top of the PC base module, and the construction period is shortened. You can increase the effect. In addition, level adjustment bolts are installed to ensure smoothness on the finished surface of the PC basic module.

Therefore, it can be usefully applied to the steel frame beam of a high-tech renovation project, which is an ultra-short-term renovation site for upper equipment foundation work that requires clean room operation.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1A to 7B are related to the dry construction method of the base of the upper equipment of the steel frame beam of the renovation site of the present invention,
1A is a plan view of a PC basic module applied to the construction method of the present invention,
Figure 1b is a side view of Figure 1a,
2A is a plan view in which a steel reinforcing beam is installed in a steel grid beam,
Figure 2b is a side of Figure 2a,
Figure 2c is a state diagram of the PC basic module is arranged in the steel reinforcement beam,
Figure 3a is an enlarged view of the connection between both PC basic modules arranged on the steel reinforcement beam,
3B is a perspective view of the module connection plate,
Figure 3c is an enlarged view of the main part in which the round head bolt is installed on the level adjustment bolt, and is a state diagram before and after the inclination,
Figure 4 is an enlarged view of the connection between both PC basic modules arranged on the steel reinforcement beam, and is a state diagram in which cement grouting is installed,
Figure 5 is a plan view of Figure 4,
Figure 6 is an enlarged view of the connection between the two PC basic modules to which the fastening nut is modified and applied in Figure 4,
Figure 7a is a partial exploded view as a modified example of the connection between both PC basic modules for the synthesis between the steel reinforcement beam and the PC basic module,
Figure 7b is an assembly state diagram of Figure 7a.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

PC basic module production

First, as shown in Figs. 1a and 1b, the PC base module 10 is made of precast concrete (PC) at the factory.

The PC basic module 10 has a unit horizontal length (L1), a unit vertical length (L2), and a predetermined thickness (T). In this embodiment, the PC basic module 10 has a rectangular shape in which the unit horizontal length L1 is longer than the unit vertical length L2. The PC basic module 10 is formed with a block-out portion 102 concavely recessed at each set position on the horizontal and vertical sides. In the present embodiment, the PC basic module 10 includes three block-out portions 102 on a horizontal side and two vertical sides, but the present invention is not limited thereto.

The nut joint plate 104 is fixedly arranged on the upper surface of the block-out part 102. The nut joint plate 104 is supported by a support muscle 12 embedded in the body side of the PC base module 10. In addition, a fastening nut 106 embedded in the body side of the PC basic module 10 is bonded and installed on the lower surface of the nut bonding plate 104. The fastening nut 106 is installed for fastening the level correction bolt 110 of FIG. 3A to be described later.

At this time, as shown in FIG. 3A, when the fastening nut 106 is short, the cylindrical sleeve 14 is embedded and installed under the fastening nut 106. As shown in Fig. 6, when the fastening nut 106 is long, the cylindrical sleeve 14 is not required.

PC basic module Yangjung

Then, for the installation of the PC basic module 10, as shown in Figs. 2a and 2b, a steel reinforcing beam 21 is installed on the upper part of the steel frame beam 20.

Then, after carrying the PC basic module 10 to the renovation site using a dedicated transport truck, it is lifted with a crane and sequentially disposed on the upper surface of the steel reinforcing beam 21 as shown in FIG. 2C.

At this time, in order to prevent the PC basic module 10 disposed on the steel reinforcing beam 21 from falling off, the PC basic module anti-falling plate 22 is located in the center of the upper surface of the steel reinforcing beam 21 as shown in FIGS. 4 and 5. It is preferable to be further joined and installed. The PC base module drop-out prevention plate 22 may be installed between the block-out portions 102 and 102 facing each other.

PC Between basic modules Assembly

Then, the PC basic modules 10 and 10 arranged in close proximity as shown in FIG. 4 are connected and assembled to each other. At this time, by placing the module connection plate 108 in the block-out portions 102 and 102 facing each other between the PC basic modules 10 and 10 arranged close to each other, and arranged on the upper surface of the nut joint plate 104 and 104, After inserting the level adjustment bolts 110 into the nut joint plate 104, respectively, the PC basic modules 10 and 10 are connected and assembled by screwing them into the corresponding fastening nuts 106.

At this time, in order to adjust the assembly error, the module connection plate 108 is formed with one round bolt hole 108a and the other one long bolt hole 108b as shown in FIG. 3B.

Here, a round head bolt 112 in point contact with the upper surface of the steel reinforcing beam 21 at the lower end of the level adjustment bolt 110 may be further installed and used. This is preferably applied when the fastening nut 106 has a length smaller than the thickness of the PC basic module 10 minus the depth of the block-out part 102. When the round head bolt 112 is installed at the bottom of the level adjustment bolt 110 in this way, even if the level adjustment bolt 110 is inclined by a certain angle (θ) as shown in FIG. 3C, the round head bolt is rotated to the center of rotation (Z). (112) is always in point contact with the upper surface of the steel reinforcement beam (21), it is possible to smoothly perform the horizontal smoothness adjustment.

Adjustment of horizontal smoothness of PC basic module

Then, by rotating the level adjustment bolt 110 as shown in Figure 4 to adjust the horizontal smoothness of the PC basic module (10). When the level adjustment bolt 110 is rotated, the height of the PC basic module 10 is adjusted so that the overall smoothness between the PC basic modules 10 can be adjusted.

Thereafter, a grouting block 120 is installed between the upper surface of the steel frame beam 20 and the lower surface of the PC basic module 10. The grouting barrier 120 may be made of rubber or foam.

Conduct cement grouting

Then, cement grouting 130 is performed on the oil gap G formed between the PC basic modules 10 and 10 arranged in close proximity as shown in FIG. 4 and the block-out part 102.

As described above, according to this construction method, since the PC basic module 10 is mass-produced in a factory and assembled and installed in the field, there is no generation of scattering dust and the effect of shortening the period can be increased. In addition, the level adjustment bolt 110 may be installed to ensure smoothness on the finished surface of the PC basic module 10.

Therefore, it can be suitably applied to the renovation site of the basic construction of the upper equipment requiring clean room operation. That is, it can be usefully applied to steel frame beams of high-tech renovation projects that require ultra-short air.

On the other hand, for the synthesis of the steel frame beam 20 and the PC basic module 10 in the present construction method, as shown in Figs. 7a and 7b, a combined anti-fall plate 22a, L-shaped module connection angles 108a, 108a ) May be applied.

The module combination anti-fall plate (22a) is installed to cope with the PC base module drop-out prevention plate (22), and the module connection angles (108a, 108a) are installed to cope with the module connection plate (108).

Accordingly, in the lifting step of the PC basic module, the PC basic module 10 is sequentially disposed on the upper surface of the steel frame beam 20 on which the module combination anti-fall plate 22a is installed. At this time, the module combination anti-fall plate 22a has a higher length than that of the PC basic module anti-fall plate 22.

In addition, by placing the respective module connection angles (108a, 108a) on the block-out portions (102 and 102) facing each other between the PC basic modules (10 and 10) arranged in close proximity in the assembly step between the PC basic modules Arranged on the upper surface of (104 and 104), and after inserting the level adjustment bolt 110, one end of the module connection angle (108a) and the nut joint plate (104), respectively, and then screwed to the fastening nut (106) and At the same time, by fastening the other end of the module connection angle 108a with a mutual bolt 140 and a nut 142, the PC basic modules 10 and 10 arranged in close proximity are connected and assembled with each other.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and variations of the invention, but is limited by the claims appended below.

10: PC basic module
102: block out part
104: nut joint plate
106: tightening nut
108: module connection plate
108a: module connection angle
110: level adjustment bolt
120: grouting block
130: cement grouting
20: steel frame beam
21: steel frame reinforcement beam
22: PC basic module dropout prevention plate
22a: Anti-fall plate for both module synthesis

Claims (4)

(a) A block-out part 102 and a block-out part 102 that have a unit horizontal length (L1), a unit length (L2), and a certain thickness (T), and are concavely formed at the set positions of the horizontal and vertical sides. A step of manufacturing a PC basic module 10 in which a nut joint plate 104 fixedly disposed on the upper surface of the nut joint plate 104, and a fastening nut 106 joined to the lower surface of the nut joint plate 104 are installed at a factory;
(b) installing a steel reinforcing beam 21 on the upper part of the steel frame beam 20 for installation of the PC basic module 10;
(c) after carrying the PC basic module 10 to the renovation site, lifting it and sequentially placing it on the upper surface of the steel reinforcing beam 21;
(d) Place the module connection plate 108 on the block-out portions 102 and 102 facing each other between the PC basic modules 10 and 10 arranged in close proximity, and arrange it on the upper surface of the nut joint plate 104 and 104 And, after inserting each of the level adjustment bolts 110 to the nut joint plate 104, and screwed to the fastening nut 106, the steps of connecting and assembling the PC basic modules 10 and 10 arranged close to each other;
(e) After adjusting the horizontal smoothness of the PC basic module 10 by rotating the level adjustment bolt 110, grouting is prevented between the upper surface of the steel reinforcing beam 21 and the lower surface of the PC basic module 10 Installing the base 120;
(f) performing cement grouting 130 on the oil gap and block-out portion 102 formed between the PC basic modules 10 and 10 arranged in close proximity; of a renovation site comprising: Dry construction method for the basic equipment on the upper part of the steel frame beam. (a) A block-out part 102 and a block-out part 102 that have a unit horizontal length (L1), a unit length (L2), and a certain thickness (T), and are concavely formed at the set positions of the horizontal and vertical sides. A step of manufacturing a PC basic module 10 in which a nut joint plate 104 fixedly disposed on the upper surface of the nut joint plate 104, and a fastening nut 106 joined to the lower surface of the nut joint plate 104 are installed at a factory;
(b) installing a steel reinforcing beam 21 on the upper part of the steel frame beam 20 for installation of the PC basic module 10;
(c) after carrying the PC basic module 10 to the refurbishment site, lifting it and placing it sequentially on the upper surface of the steel reinforcing beam 21 on which the module synthesis and fall-out prevention plate 22a is installed on the upper surface;
(d) Each of the L-shaped module connection angles 108a and 108a are positioned in the block-out portions 102 and 102 facing each other between the PC basic modules 10 and 10 arranged in close proximity, and the nut joint plate 104 and 104), and after inserting the level adjustment bolt 110, one end of the module connection angle 108a and the nut joint plate 104, respectively, screw-fasten the nut 106 and connect the module at the same time. Connecting and assembling the PC basic modules 10 and 10 arranged close to each other by bolting the other ends of the angle 108a to each other;
(e) After adjusting the horizontal smoothness of the PC basic module 10 by rotating the level adjustment bolt 110, grouting is prevented between the upper surface of the steel reinforcing beam 21 and the lower surface of the PC basic module 10 Installing the base 120;
(f) performing cement grouting 130 on the oil gap and block-out portion 102 formed between the PC basic modules 10 and 10 arranged in close proximity; of a renovation site comprising: Dry construction method for the basic equipment on the upper part of the steel frame beam. The method of claim 1,
In order to prevent the PC base module 10 from falling off, a PC base module drop-out prevention plate 22, which is bonded to the center of the upper surface of the steel reinforcing beam 21, is further installed between the facing block-outs 102 and 102. Dry construction method based on the upper equipment of the steel frame beam at the renovation site, characterized in that it is. The method according to claim 1 or 2,
Dry construction method based on the upper equipment of the steel frame beam at the renovation site, characterized in that a round head bolt 112 in point contact with the upper surface of the steel frame reinforcing beam 21 is further installed at the bottom of the level adjustment bolt 110 .

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