KR20100110557A - Plate-fold type spacer for slab reinforcing bar and using method thereof - Google Patents

Abstract

PURPOSE: A spacer for arranging a slab bar and a using method thereof are provided to be easily connect and fix a hanger to the bottom surface of a slab and to secure the coating thickness of a slab bar. CONSTITUTION: A spacer(100) for arranging a slab bar comprises a bent plate(110), horizontal support plates(120), and a reinforcing bar support(130). The bent plate is bent in order to form an insert fitting groove(111) in the bottom. The horizontal support plates are horizontally bent from both ends of the bent plate. The reinforcing bar support is protruded from the top of the bent plate in a longitudinal direction.

Description

Plate-fold type spacer for slab reinforcing bar and using method

The present invention relates to a sheet bending spacer for slab reinforcement, which is completed by appropriately bending a sheet, and a preferred method of using the spacer.

In the construction of the slab spheres in the reinforced concrete structure, the slab reinforcing bar and the slab formwork are spaced at regular intervals by a spacer so that the cover thickness of the reinforcing bar can be sufficiently secured. The construction of the slab is performed in the order of installing the slab formwork, placing the spacer on the slab formwork, and then placing the slab reinforcing bar. It does not perform a function.

On the other hand, after finishing slab concrete by placing slab concrete, ceiling finishing work is performed on the lower surface of the slab.

In the conventional ceiling finishing construction, there is no separate restriction on the height between the lower surface of the slab and the ceiling, and in some cases, it is possible to fix the ceiling with only 5 cm of lumber. However, since 2008, it has been mandatory to install sprinklers on all floors for more than 11 floors of multi-unit houses. For buildings of a certain size and above, a height of 20 cm or more is required as a space for sprinkler installation between the slab bottom surface and the ceiling. The need to fix the ceiling separately has increased.

Recently, the space between the lower surface of the slab and the ceiling is actively used, and air conditioning facilities such as air conditioners are actively buried in the ceiling, and the ceiling must be fixed so that the distance between the lower surface of the slab and the ceiling is kept above a certain height. do.

Conventionally, as a method for connecting the hanger to the lower surface of the slab for ceiling finishing or installation, there was a method of installing the hanger fixing insert in advance in the slab formwork. However, this method was not able to guarantee the accuracy of the insert placement, and it was difficult to apply widely due to the difficulty of slab construction due to the large amount of insert installation and the difficulty of changing the insert position due to the design change.

Therefore, as an alternative to this, there is a method of forming a groove on the bottom of the slab by using a drill or the like and installing an anchor using the groove, but this method requires a lot of time and effort to form the groove, and a grooved slab is formed. The part could be a structurally weak part.

The present invention was developed in order to solve the above-mentioned problems, and at the same time to secure the coating thickness of the slab reinforcement, the slab reinforcement spacer that can easily connect and secure the hanger to the bottom surface of the slab during installation or ceiling construction And to provide a preferred method of using such a spacer.

In order to solve the above problems, the present invention is to be seated in the upper slab formwork, the bent plate portion bent plate material is formed so that the lower portion is inserted into the insert groove; Horizontal support plate portions bent in the horizontal direction at both ends of the lower width direction of the bending plate portion; And a reinforcing bar supporting portion protruding upward from the bent plate portion along the lengthwise direction of the bent plate portion.

In addition, the present invention (a) while installing the slab formwork at the slab construction position, while installing the slab reinforcement sheet bending spacer for the slab reinforcement while seating the horizontal support plate to the slab formwork; (b) reinforcing the slab rebar while placing the slab reinforcing portion of the slab reinforcement sheet bending spacer; (c) pouring slab concrete while purchasing slab reinforcement sheet bending spacers and slab reinforcing bars; (d) demolding the slab formwork; And (e) inserting and inserting an insert into the insert insertion groove of the slab reinforcement sheet bending spacer for providing the slab reinforcement sheet bending spacer.

According to the present invention, the following effects can be expected.

First, since the spacer having an insert insertion groove formed at the bottom is embedded in concrete and integrated, the spacer according to the present invention can easily install the insert for fixing the hanger during the ceiling construction.

Secondly, the spacer according to the present invention can be manufactured and supplied at low cost because it is simply bent form the plate, and can be easily installed on the slab formwork. Accordingly, by using the spacer according to the present invention, it is possible to improve workability and economics in slab construction.

Third, when the slab construction is performed using the spacer according to the present invention, the insert insertion groove can be formed in the form of a rail on the lower surface of the slab, and thus the hanger fixing insert can be installed at a predetermined position so that the ceiling can be hung stably. have.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

1A to 1D illustrate various embodiments of a plate bending spacer 100 for slab reinforcement according to the present invention. The slab reinforcement sheet bending type spacer 100 according to the present invention is characterized in that it is configured to be easily seated on the slab formwork 210 by bending the plate properly.

Specifically, the slab reinforcement plate bending type spacer 100 according to the present invention, the lower plate is bent plate portion 110 is formed to be formed into the insert insertion groove 111; Horizontal support plate portion 120 is bent in the horizontal direction at both ends of the lower width direction of the bending plate portion 110; And a reinforcing bar support part 130 protruding from the bent plate part 110 along the longitudinal direction of the bent plate part 110.

In the present invention, the bending plate 110 is formed by bending the plate to form the lower portion of the insert insertion groove 111, to be produced by bending the plate of the metal material such as iron plate or to the shape of the plate, such as plastic, synthetic resin It can be produced by molding. In the case of using a plate made of metal, additional measures may be taken to prevent corrosion, such as galvanizing the surface. The insert insertion groove 111 is a groove to which the hanger fixing insert 320 is inserted and fixed when the ceiling is installed. The insert inserting groove 111 is a shape in which the hanger fixing insert 320 is inserted and fixed. Any shape may be sufficient as it. 1A to 1D, the insert insertion groove 111 having a dovetail shape of a light beam narrowing edge, which is the most common shape, can be confirmed. The insert insertion groove 111 of the dovetail shape is installed in a manner of turning the insert for fixing the hanger 320 (see Fig. 3). It is preferable to form a dustproof layer 310 on the inner surface (particularly the side) of the insert insertion groove 111 of the bent plate portion, which is noise generated by the collision between the insert insertion groove 111 and the hanger fixing insert 320. · To alleviate and absorb vibrations. The anti-vibration layer 310 may be formed by applying urethane or by attaching anti-vibration rubber, and partially the entire lengthwise direction of the bent plate part 110 as well as the position where the hanger fixing insert 320 is inserted and fixed. It may be formed.

In the present invention, the horizontal support plate portion 120 is a configuration formed by bending in the horizontal horizontal direction at both ends of the lower width direction of the bending plate 110. Since the horizontal support plate 120 is formed as a horizontal plate as described above allows the spacer 100 according to the present invention to be stably installed on the slab formwork 210.

In the present invention, the reinforcing portion 130 is configured to protrude to the upper portion of the bent plate 110 along the longitudinal direction of the bent plate 110, it is configured to support the slab reinforcement (220). The reinforcing portion 130 may be formed as the upper portion of the bent plate portion 110 is continuously bent upward as shown in FIG. 1A, or may be formed as the plate is welded to the upper portion of the bent plate portion 110 as shown in FIG. 1B. . In particular, if the reinforcement portion 130 is formed by continuous bending as shown in FIG. 1A, all components can be formed only by bending, thereby simplifying manufacturing.

Meanwhile, the spacer 100 according to the present invention preferably further includes an end cap 140 as shown in FIGS. 1C and 1D, and the end cap 140 has both longitudinal ends of the bent plate part 110. This configuration is installed to prevent. The end cap 140 serves to protect the insert insertion groove 111 of the bent plate portion. In other words, the spacer 100 according to the present invention is installed on the slab formwork 210 and then used in a manner of embedding in the slab concrete 230, the spacer 100 is open both ends of the longitudinal plate 110 in the longitudinal direction When used in the state that the slab concrete 230 may be introduced into the insert insertion groove 111 of the bent plate portion during the slab concrete pouring process, both ends of the longitudinal direction of the bent plate portion 110 end cap 140 By closing it to block the inflow of the slab concrete 230. The end cap 140 may be installed in a manner of fitting a stopper as in FIG. 1C or may be installed in a manner of folding both ends of the spacer 100 as in FIG. 1D. In particular, in FIG. 1D, it is possible to check a state where the end cap is partially installed by partially cutting both ends of the spacer 100.

2 and 3 illustrate a state in which the slab is constructed by using the spacer 100 according to the present invention, the method of using the spacer 100 according to the present invention will be described with reference to this.

First, while installing the slab formwork 210 in the slab construction position, while installing the horizontal support plate 120 to the slab formwork 210 to install the spacer 100 according to the present invention (step (a)). Spacer 100 can be installed at any time before and after the slab formwork 210 is installed in the slab construction position, and apply a temporary fixing adhesive to the lower surface of the horizontal support plate portion 120 for a stable position of the slab formwork 210 Can be adhesively installed on. In addition, the spacer 100 may be installed while preparing a short length while placing a large number, or may be installed while arranged to form a continuous strip by preparing a long length.

Subsequently, while placing the slab reinforcement 220 to the reinforcing bar support portion 130 of the spacer (step (b)). In FIG. 2, the slab reinforcement 220 in the main stress direction is reinforced to the reinforcing portion 130 in a state in which the spacer 100 is mounted on the slab formwork 210 so as to form a right angle with the slab reinforcement 220 in the main stress direction. You can see that.

Next, while the spacer 100 and the slab reinforcement 220 is embedded, the slab concrete 230 is poured and cured (step (c)). As shown in FIG. 2, the slab concrete 230 is poured while preserving the insert insertion groove 111 as it is.

Finally, after demolding the slab formwork 210 (step (d)), the hanger fixing insert 320 is inserted into the insert inserting groove 111 of the spacer (step (e)). Since the insert insertion groove 111 is preserved as it is, when the slab formwork 210 is demolded, the insert insertion groove 111 is exposed to the outside, whereby the insert 320 for fixing the hanger to the insert insertion groove 111 is shown in FIG. 3. ) Can be inserted and installed. In FIG. 3, the fixing device is installed by turning the hanger fixing insert 320 into the dovetail insert inserting groove 111, and the hanger 330 is screwed to the hanger fixing insert 320. You can check.

On the other hand, when an impact is applied to the slab, noise and vibration may occur between the insert insertion groove 111 and the hanger fixing insert 320. In order to suppress the noise and vibration, the insert insertion groove 111 and the hanger are fixed. It is preferable to form a dustproof layer 310 between the insert 320 to achieve the dustproof effect. The anti-vibration effect is a method using a spacer 100 having a dustproof layer 310 formed in the insert insertion groove 111, or a hanger fixing insert 320 having a dustproof layer 310 formed on an outer surface as shown in FIG. It can be planned by using a method. As described above, the dustproof layer 310 may be formed by urethane coating, dustproof rubber, or the like. In addition, considering that the friction sound or friction vibration between the insert insertion groove 111 and the hanger fixing insert 320 mainly occurs in the side, the dustproof layer 310 is particularly the insert insertion groove 111 and the hanger fixing insert 320. It is preferably formed so as to be located at the contact side of the).

While the invention has been described in connection with the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the spirit of the invention. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

1A to 1D illustrate an embodiment of a sheet bending spacer for slab reinforcement according to the present invention.

2 and 3 illustrate the use of the sheet-bending spacer for slab reinforcement according to the present invention.

<Description of Major Symbols in Drawing>

100: spacer

110: bending plate

111: Insert insert groove

120: horizontal support plate

130: reinforcing bar

140: end cap

210: slab formwork

220: slab rebar

230: slab concrete

310: dustproof layer

320: Hanger fixing insert

330: hanger

Claims (7)

To be installed on the upper slab formwork 210, A bending plate portion 110 in which a plate is bent so that the lower portion is formed into the insert insertion groove 111; Horizontal support plate portion 120 is bent in the horizontal direction at both ends of the lower width direction of the bending plate portion 110; And, A reinforcing bar portion 130 protruding from the bent plate portion 110 along the longitudinal direction of the bent plate portion 110; Plate bending type spacer for slab reinforcement, characterized in that comprising a. In claim 1, The reinforcing bar 130 is formed according to the bending plate portion 110 is continuously bent upwards or formed by welding the plate to the upper portion of the bent plate 110, plate bending type spacer for reinforcement reinforcement . In claim 1, An end cap 140 installed to block both ends of the bent plate 110 in the longitudinal direction; Plate bending type spacer for slab reinforcement, characterized in that further comprises a. The method according to any one of claims 1 to 3, The sheet bending type spacer for slab reinforcement, characterized in that the anti-vibration layer 310 is formed on the inner surface of the insert insertion groove 111 of the bent plate portion. (a) while installing the slab formwork 210 in the slab construction position, while seating the horizontal support plate 120 to the slab formwork 210 for the slab reinforcement according to any one of the preceding claims Installing a plate bending spacer (100); (b) placing the slab while placing the slab reinforcing bars 220 on the reinforcing bars 130 of the slab reinforcing plate sheet-shaped spacer; (c) pouring slab concrete 230 while purchasing the slab reinforcing bar plate-type spacer 100 and the slab reinforcing bars 220; (d) demolding the slab formwork (210); And, (e) inserting and installing a hanger fixing insert 320 in the insert insertion groove 111 of the slab reinforcement sheet bending spacer; Method of using a sheet-bending spacer for slab reinforcement, characterized in that comprising a. In claim 5, The step (a) is the slab reinforcement sheet bending for slab reinforcement, characterized in that the adoption of the slab reinforcement sheet bending spacer 100 is formed in the inner surface of the insert insertion groove 111 of the bending plate portion formed with a dustproof layer 310 Method of using the type spacer. In claim 5, The step (e) is a method of using a sheet-bending spacer for slab reinforcement reinforcement, characterized in that using the hanger fixing insert 320 is formed with a dustproof layer 310 on the outer surface.

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