KR101922324B1 - Ceiling lift up construction method - Google Patents

Abstract

The present invention provides a ceiling lift-up construction method in which construction cost due to removal of scaffolding is reduced, air is shortened as a modular construction method, and existing ceilings are attempted to be changed due to renovation work of existing buildings.
A ceiling lift-up construction method according to an embodiment of the present invention includes: performing perforation position reference point work on an upper layer slab and then puncturing the upper layer slab at each reference point using a perforation equipment; Placing a lifting jack on a jack base supporting frame for each jack position, disposing a hydraulic power pack on a top layer slab for driving control of the lifting jack; Inserting the lifting wire through the hole and connecting one end to the lifting jack and the other end to the lifting frame after installing the lifting frame on the lower layer slab; The lifting jack is driven to control the lifting height of the lifting frame, and the ceiling is repaired and constructed.

Description

{Ceiling lift up construction method}

The present invention relates to a ceiling lift-up construction method, and more particularly, it relates to a method of constructing a ceiling lift-up construction method, in which a construction cost is reduced by eliminating a scaffold construction, air is shortened as a modular construction method, To a ceiling lift-up construction method.

Existing ceiling construction is constructed by installing a scaffold at the bottom of the ceiling, so many construction works are required and the possibility of safety accidents is high. That is, a fan filter unit (Fan Filter Unit), a method of using a scaffold for demolishing and reinstalling the M / B, was used. In this case, there is a risk of falling due to scaffold installation and disassembly and long- Different scaffold height adjustment work is needed from time to time, and worker's input is increased, which increases construction cost.

Therefore, it is required to reduce the risk of falling by ground work to secure safety and reduce construction cost.

As a background of the present invention, Korean Unexamined Patent Publication No. 2002-0021662, an 'indoor lifting device' has been proposed. The boom is fixed to a ceiling frame of a factory structure by coupling a rotary shaft to one end of the boom. The end of the boom is fixed to a ceiling frame of a factory structure, So that the lifting device is constructed so that the object is transported and transported in the space by the combination of the rotational motion of the boom about the rotational axis and the linear motion of the hoist in the boom. Therefore, it can be applied to lifting and transportation of working load in a space where installation of a large-capacity crane or the like is difficult due to a low ceiling such as a factory or workplace.

However, the background technology of the electron can not proceed with the ceiling construction while lifting the lift frame from the floor, and there is a problem that the ceiling can not be recycled when the ceiling is changed due to the renovation work of the existing building.

Korean Unexamined Patent Publication No. 2002-0021662

The present invention provides a ceiling lift-up construction method in which the construction cost due to removal of scaffolding is reduced, air is shortened as a modular construction method, and existing ceilings are attempted to be changed due to renovation work on existing buildings. .

A ceiling lift-up construction method according to an embodiment of the present invention includes: performing perforation position reference point work on an upper layer slab and then puncturing the upper layer slab at each reference point using a perforation equipment; Placing a lifting jack on a jack base supporting frame for each jack position, disposing a hydraulic power pack on a top layer slab for driving control of the lifting jack; Inserting the lifting wire through the hole and connecting one end to the lifting jack and the other end to the lifting frame after installing the lifting frame on the lower layer slab; The lifting jack is driven to control the lifting height of the lifting frame, and the ceiling is repaired and constructed.

A ceiling lift up construction method according to another embodiment of the present invention includes: performing perforation position reference point work on an upper layer slab, then puncturing the upper layer slab at each reference point using a perforating machine; Placing a lifting jack on a jack base supporting frame for each jack position, disposing a hydraulic power pack on a top layer slab for driving control of the lifting jack; Inserting the lifting wire through the hole and connecting one end to the lifting jack and the other end to the lifting frame after installing the lifting frame on the lower layer slab; The lifting frame is moved back to the retracted position by driving the lifting jack again after re-arranging the system sealing mounted on the lifting frame, then driving the lifting jack again to lower the lifting frame and performing the inter-column sealing And a ceiling is built up and expanded.

Further, the lifting frame comprises: an H-shaped steel material which is arranged on the same plane in longitudinal and transverse directions and bonded to each other; A plurality of lifting rings joined to the H-shaped steel for balanced lifting of the lifting frame; A square pipe arranged in the longitudinal direction on the upper surface of the H-shaped steel material and disposed in a direction perpendicular to the H-shaped steel material and arranged at regular intervals; A structural plywood placed on the upper surface of the square pipe; A vibration proof rubber pad seated on the upper surface of the structural plywood and fixed to the square pipe side; And a plurality of rotating wheels provided on the lower surface of the H-shaped steel for moving the lifting frame.

The hypothetical frame for jack support comprises a pair of H beams arranged in parallel, a lower coupling plate joined to both lower ends of the pair of H beams, and an upper coupling plate joined to both ends of the pair of H beams .

According to the ceiling lift-up method of the present invention, since the lifting jack is driven in the upper layer and the lift frame located on the lower layer connected with the lifting jack via the wire is raised, ceiling work can be performed, The cost of construction due to removal of scaffold construction is reduced.

In addition, as a modularization method, there is no need to assemble and disassemble a scaffold as in the prior art, and air is shortened, and the existing ceiling can be recycled even when changing the ceiling according to the renovation work of existing buildings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a schematic system configuration diagram for implementing a ceiling lift-up method according to the present invention;
FIGS. 2 to 19 are views showing a ceiling lift-up construction procedure in remodeling according to an embodiment of the present invention. FIG.
FIG. 20A is a perspective view of a jack-fixing frame for jack support according to the present invention; FIG.
Fig. 20B and Fig. 20C are views of the installation position of the jack-supporting temporary frame for use in the present invention, viewed from different positions. Fig.
21A is a partial structural view of a lifting frame according to the present invention.
Fig. 21B is a configuration diagram of a lifting ring portion of a lifting frame according to the present invention; Fig.
Figure 21c is a side view of Figure 21b.
FIG. 22 to FIG. 26 are flowcharts of a ceiling lift-up construction in a new construction according to another embodiment of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

The configuration of a system for a ceiling lift-up method according to the present invention will be described with reference to Fig.

As shown in FIG. 1, a lifting jack 18 is mounted on the upper frame slab 12 for ceiling work while being supported by a temporary frame 16. The lifting jacks 18 are installed at four locations for safe lifting of the lifting frame 100, but they may be installed at more than one lifting jack. The lifting jack 18 is a known structure driven by hydraulic pressure, and has a structure in which a hollow piston cylinder is used and clamps are provided on upper and lower sides for repeatedly clamping the wire.

The lower layer slab 13 is provided with a lifting frame 100 which is connected to the lifting jack 18 via a lifting wire 22. At this time, the lifting wire 22 is inserted through the perforated position in the upper layer slab 12 and then connected to the lifting frame 100. Therefore, the lifting frame 100 can be lifted via the lifting wire 22 by driving the lifting jack 18, and the ceiling construction work can be performed according to the lifted position. The lifting frame 100 has a structure for providing structural safety, mobility and dustproofness, which will be described later.

The ceiling construction using the ceiling lift-up construction system constructed as above is divided into a remodeling case and a stretching case.

<Ceiling remodeling work>

Describe ceiling lift-up construction method when ceiling remodeling work is carried out.

First, the piercing position reference point work and slab piercing are done in the upper layer.

3, the upper slab 12 is provided with perforations 12a (see FIG. 3) for every reference point P by using the perforating equipment 14 as shown in FIG. 3, ). The perforation 12a is provided to be the same as the number of pulling-up points for pulling up the lifting frame 100 to be described later. The diameter of the perforation 12a is sufficient to allow the lifting wire 22 to pass sufficiently. In this embodiment, the perforations 12a are formed at four places of the upper layer slab 12, but they may be more. The lifting wire 22 is preferably made of stranded wire.

Then, the installation of the jack base supporting frame 16, the lifting jack 18 and the hydraulic power pack 20 is carried out.

5, the lifting jack 18 is mounted on the jack receiving supporting frame 16, and the lifting jack 18 (see FIG. 5) The hydraulic power pack 20 is disposed on the upper-layer slab 12 for drive control of the upper slab 12. [ The hydraulic power pack (20) has a pump and a control panel for supplying the pressurized oil necessary for driving the lifting jack (18). The lifting jack 18 is thus connected to the hydraulic power pack 20 via hydraulic lines and electrical signal control lines.

The jack supporting pedestal frame 16 includes a pair of H beams 161 and 161 arranged side by side as shown in Figs. 20A to 20C, lower connecting plates 162 and 162 bonded to both ends of a lower portion of a pair of H beams 161 and 161, And upper connection plates 163 and 163 bonded to both ends of the upper portions of the H beams 161 and 161 of the first and second H beams 161 and 161, respectively. The jack-supporting hypothetical frame 16 is fixed to the upper-layer slab 12 through anchor bolts 165 installed on the lower connecting plates 162 and 162. The spacing of the pair of H beams 161,161 allows the lifting wire 22 to be inserted sufficiently.

6, after the lifting frame 100 is installed on the lower layer slab 13, the lifting wire 22 is inserted through the hole 12a, one end is connected to the lifting jack 18, To the lifting frame (100).

As shown in FIGS. 21A to 21C, the lifting frame 100 includes an H-shaped steel material 101 which is arranged on the same plane in the longitudinal direction and the transverse direction and bonded to each other, A plurality of pulling rings 102 joined to the steel material 101, a rectangular pipe 103 arranged longitudinally on the upper surface of the H-shaped steel material 101 and arranged in a direction perpendicular to the H- An anti-vibration rubber pad 105 which is seated on the upper surface of the structural plywood 104 and fixed to the side of the square pipe 103, And a plurality of rotating wheels 106 installed on the lower surface of the lifting frame 100 for moving the lifting frame 100. Here, the structural plywood 104 and the anti-vibration rubber pad 105 are fixed by a screw 107 screwed to the square pipe 103.

Then, the lifting jack 18 is driven to pull up the lifting frame 100 to the lower tier and the operation of dismounting the lower tier tier 121 of Fig. 1 and the step plate of Fig. 9 Conduct. The low-rise tall lantern 121 supports the mold bar or seal in each pipe as a secondary lantern.

Then, the lifting jack 18 is driven again as shown in Fig. 10 to re-raise the lifting frame 100 to the higher and higher tiers, and the high-tier lifter 123 shown in Fig. 1 is dismantled as shown in Fig. 11 Perform work. The high-rise high-rise lane 123 supports each pipe in the slab as the primary lunar stage.

Then, the lifting jack 18 is driven again to lower the lifting frame 100 as shown in FIG. 12, and thereafter, work for lifting and lowering the sealing between the pillars and the system as shown in FIG. 14 is performed . Here, the system sealing refers to a fan filter unit, a ceiling finishing material, or the like, which is laid on the ceiling.

15, the lifting jack 18 is driven again to raise the lifting frame 100 to the retry position. After the lifting jack 18 is connected to the lifting jack 18 as shown in FIG. 16, The lifting frame 100 is lowered. Thereafter, as shown in FIG. 18, the column-to-column sealing is performed to complete the operation as shown in FIG.

Here, since the structural plywood 104 and the anti-vibration rubber pad 105 are installed in the lifting frame 100, no noise is generated during the re-arrangement of the sealing. Also, the lifting frame 100 can be easily moved to a neighboring working position without being affected by the entire weight of the lifting frame 100 by installing the rotary wheel 106.

<New construction of ceiling>

On the other hand, the ceiling lift-up construction method is explained when the ceiling is newly constructed.

First, a perforation 12a is formed for each reference point at the time of construction of the upper slab 12. Here, the perforation 12a is formed when the unillustrated tube (sleeve) is previously embedded and the concrete of the upper layer slab 12 is poured. Thereafter, the installation of the jack base supporting frame 16, the lifting jack 18 and the hydraulic power pack 20 are sequentially performed.

This is the same method as the remodeling construction and the detailed description is omitted.

Thereafter, as shown in FIG. 22, the lifting frame 100 is lifted up to the retreat position by rearranging the lifting frame 100 and lifting the lifting jack 18 again as shown in FIG. Here, the system sealing refers to a fan filter unit, a ceiling finishing material, or the like, which is laid on the ceiling.

Then, as shown in FIG. 24, the lifting frame 100 is lowered as shown in FIG. 25 by driving the lifting jack 18 again after connecting the normal month to the system sealing. Thereafter, as shown in Fig. 26, there is performed an operation of performing sealing between the columns.

In this way, the ceiling construction can be shortened in comparison with the remodeling construction, thereby shortening the sealing work time.

As described above, according to the present method, since the scaffold construction is not used, the construction cost is reduced, the air is shortened as a modularization method, and the existing ceiling can be recycled when the ceiling is changed according to the existing building renovation work.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

16: Hybrid frame for jack base
18: Lifting jack
22: lifting wire
100: Lifting frame

Claims (4)

(a) performing a perforation position reference point operation on the upper layer slab 12, and then performing a perforation 12a on the upper layer slab 12 at each reference point using the perforation equipment 14;
(b) After installing the jack-supporting hypothetical frame 16 at each position of the perforation 12a, the lifting jack 18 is installed in the jack-supporting temporary frame 16, and for the drive control of the lifting jack 18 Placing the hydraulic power pack (20) in the upper layer slab (12);
(c) After the lifting frame 100 is installed on the lower layer slab 13, the lifting wire 22 is inserted through the hole 12a, one end is connected to the lifting jack 18 and the other end is connected to the lifting frame 100 );
(d) repairing the ceiling while driving the lifting jack (18) to control the lifting height of the lifting frame (100);
The lifting frame (100) comprises: an H-shaped steel material (101) arranged on the same plane in longitudinal and transverse directions and bonded to each other; A plurality of lifting rings (102) joined to the H-shaped steel (101) for balanced lifting of the lifting frame (100); A square pipe 103 arranged longitudinally on the upper surface of the H-shaped steel material 101 and arranged in a direction perpendicular to the H-shaped steel material 101 and arranged at regular intervals; A structural plywood (104) seated on the upper surface of the square pipe (103); An anti-vibration rubber pad 105 mounted on the upper surface of the structural plywood 104 and fixed to the side of the square pipe 103; And a plurality of rotating wheels (106) installed on the lower surface of the H-shaped steel material (101) for moving the lifting frame (100). (a) forming a perforation (12a) for each reference point at the time of construction of the upper slab (12);
(b) After installing the jack-supporting hypothetical frame 16 at each position of the perforation 12a, the lifting jack 18 is installed in the jack-supporting temporary frame 16, and for the drive control of the lifting jack 18 Placing the hydraulic power pack (20) in the upper layer slab (12);
(c) After the lifting frame 100 is installed on the lower layer slab 13, the lifting wire 22 is inserted through the hole 12a, one end is connected to the lifting jack 18 and the other end is connected to the lifting frame 100 );
(d) After lifting the system seal on the lifting frame 100, the lifting jack 18 is driven again to raise the lifting frame 100 to the retracted position. After lifting the lifting frame 100, And lowering the lifting frame 100 and performing ceiling sealing between the pillars,
The lifting frame (100) comprises: an H-shaped steel material (101) arranged on the same plane in longitudinal and transverse directions and bonded to each other; A plurality of lifting rings (102) joined to the H-shaped steel (101) for balanced lifting of the lifting frame (100); A square pipe 103 arranged longitudinally on the upper surface of the H-shaped steel material 101 and arranged in a direction perpendicular to the H-shaped steel material 101 and arranged at regular intervals; A structural plywood (104) seated on the upper surface of the square pipe (103); An anti-vibration rubber pad 105 mounted on the upper surface of the structural plywood 104 and fixed to the side of the square pipe 103; And a plurality of rotating wheels (106) installed on the lower surface of the H-shaped steel material (101) for moving the lifting frame (100). delete 3. The method according to claim 1 or 2,
The jack supporting pedestal frame 16 includes a pair of H beams 161 and 161, lower connecting plates 162 and 162 bonded to both ends of a pair of H beams 161 and 161, a pair of H beams 161 and 161 And upper connection plates (163, 163) joined to both ends of the upper portion.

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