KR101435004B1 - Spacer for Deck Plate - Google Patents

Abstract

The present invention relates to a spacer for a deck plate. For this, the spacer for a deck plate is to connect a plate formed on the lower part of a truss girder of the deck plate and having a through-hole to be separated. The spacer comprises a support part made of a metal plate and a synthetic resin body part. Both ends in a width direction of the support part are vertically bent and vertical support parts are formed on both ends of a horizontal part. An insertion hole is formed on the horizontal part. The body part has a screw hole on the lower part. An insertion protrusion is formed to be upward and the body part is inserted into the insertion hole of the support part. The body part is connected by a latching jaw of the insertion protrusion in order for the support part and the body part to be detachable.

Description

A spacer for a deck plate {Spacer for Deck Plate}

The present invention relates to a spacer for a deck plate, and more particularly, to a spacer for a deck plate, which comprises a support portion formed of a metal plate material and a synthetic resin material body portion, wherein the body portion has a screw hole formed at a lower portion thereof, The present invention relates to a spacer for a deck plate which is inserted into an insertion hole of a receiving portion and is engaged with a receiving jaw of the insertion protrusion so that the receiving portion can be attached to and detached from the body portion.

Generally, a reinforced concrete structure is a composite structure that uses a reinforcing bar, which is a tensile material, and concrete, which is a compression material, and is a structure that constitutes most of the building structures.

The reinforced concrete structure is generally constructed by installing a plate, laying concrete, and placing concrete. However, since the installation of the plate, the formation and disassembly of the plate, and the disassembly of the plate, There is a problem that waste resources are generated.

As a solution to this problem, a method of forming a deck plate by combining a truss girder and a plate has been proposed.

However, since the truss girder and the plate are fixed by welding or the like, the plate of the metal material is directly exposed to the lower part of the slab, and the weld part is not good in appearance, and the plate can not be recycled and resources are wasted. In order to form a ceiling finishing material at a later stage, it is required to construct an auxiliary member such as a lantern, so that the air is lengthened and the floor height is lowered. In some cases, the structural stability of the month is not supported, Lt; / RTI >

The present invention relates to a truss girder and a plate which are coupled to each other by using a connecting member, and the plate can be disassembled at a later time. Korean Prior Art Patent No. 10-1237325 and Korean Patent No. 10-1237333, have.

However, the above prior art documents have been accompanied by a structural vulnerability in which the connection of the connection and the truss girder is dependent on a simple fitting method, or is easily accomplished by bending a thin metal plate, which is easily separated by a load or bending the metal plate.

Further, in most cases, insert injection molding of a metal material and a synthetic resin is performed to manufacture a connector, so that the size of the connector can not be modified later, so that the connector can not be flexibly applied flexibly according to circumstances.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for preventing a waste of resources by allowing a plate to be disassembled, The present invention also relates to a spacer for a deck plate which can be easily installed and removed between the members of the spacer to flexibly adapt the size of the spacer according to the situation of a construction site and can be replaced.

A deck plate spacer (not shown) provided below the truss girder TG of the deck plate DP according to the present invention for coupling the plate P having the through holes H to be demolded The spacer S is composed of a receiving part 100 formed of a metal plate and a synthetic resin material body part 200. The receiving part 100 is vertically bent A vertical receiving part 120 is formed at both ends of the horizontal part 110 and an insertion hole 130 is formed in the horizontal part 110. The body part 200 has a through hole 210 The insertion protrusion 220 is formed upward and inserted into the insertion hole 130 of the receiving portion 100 and is engaged with the insertion protrusion 220 of the insertion protrusion 220 , And the receiving portion 100 and the body portion 200 can be attached and detached.

A plurality of insertion holes 130 are formed in the horizontal portion 110 of the receiving portion 100 so that a pair of body portions 200 are coupled.

The insertion hole 130 is formed in the horizontal portion 110 of the receiving portion 100 so that the first insertion hole 131 and the second insertion hole 132 are symmetrical The body portion 200 is formed with a pair of insertion protrusions 220 and 220 'so that the insertion protrusions 220 and 220' are inserted into the first insertion hole 131 and the second insertion hole 220 ' (132), respectively.

The body portion 200 is formed with elasticity forming grooves 230 and 230 'downwardly on the inner lower portion of the insertion protrusions 220 and 220', respectively.

The insertion protrusion 220 of the body part 200 is formed with a locking protrusion 221 protruding to one side from the upper end of the protrusion body 222. The width of the insertion hole 130 of the receiving part 100 (W1) is longer than a width (W2) of the projection body (222) and shorter than a width (W3) of the engagement protrusion (221).

As described above, according to the functional deformation-type deck plate of the present invention, the bolts are screwed into the screw holes of the body through the through-holes of the plate so that the plate can be disassembled, There is an effect that can be prevented.

Therefore, it is possible to shorten the air by shortening the incidental construction procedure according to the construction of the ceiling, and realize a ceiling finish that is structurally stable.

Further, the insertion protrusion is inserted into the insertion hole of the receiving portion, and is engaged with the receiving protrusion of the insertion protrusion, so that the receiving portion and the body portion can be attached and detached, and the size of the spacer can be flexibly changed Can be applied.

In addition, there is an advantage that the receiving part and the body part can be replaced as occasion demands.

Further, it is possible to provide a structurally stable spacer through the bending of the receiving part while enhancing the bonding force between the receiving part and the body part.

1 is a perspective view illustrating a deck plate having a spacer according to an embodiment of the present invention;
2 is a cross-sectional view of a deck plate having spacers according to one embodiment of the present invention.
3 is an enlarged cross-sectional view of a deck plate having spacers according to an embodiment of the present invention.
Figure 4 is a perspective view of a spacer according to various embodiments of the present invention;
5 is an exploded perspective view illustrating a spacer according to an embodiment of the present invention;
6 is a cross-sectional view of a spacer according to an embodiment of the present invention;

Embodiments of the present invention will now be described with reference to the accompanying drawings.

1 to 3, a spacer S for a deck plate according to the present invention is provided on a lower portion of a truss girder TG of a deck plate DP to form a plate P on which a through hole H is formed So as to be releasable by the bolt (B).

As shown in FIG. 4, the spacer S includes a receiving part 100 formed of a metal plate and a synthetic resin material body part 200.

In order to solve this problem, the metal plate material has a thickness of about 1 mm or more to prevent the spacer from being deformed or bent when the metal plate material is made of a thin metal plate because it can not effectively cope with the compressive force due to the concrete load. .

Meanwhile, the receiving portion 100 formed of the metal plate should have a section modulus to effectively cope with the load, and it is preferable that the receiving portion 100 is formed in a stable shape.

For this, the receiving portion 100 is vertically bent at both ends in the width direction, and a vertical receiving portion 120 is formed at both ends of the horizontal portion 110.

However, the conventional spacer is generally manufactured by insert injection method in order to integrate the metal material and the synthetic resin material.

However, since the spacer manufactured by insert injection can not be deformed in size at a later time, the spacer can not be flexibly and flexibly applied to the situation, and even if only the metal material or the synthetic resin part of the spacer is damaged, , There is a problem that resources are unnecessarily wasted.

An insertion hole 130 is formed in the horizontal part 110. The body part 200 is inserted into the insertion hole 130 of the receiving part 100 with the insertion protrusion 220 formed upwardly And is engaged with the engagement protrusion 221 of the insertion protrusion 220 so that the receiving part 100 and the body part 200 can be attached and detached.

That is, as described above, since the receiving unit 100 is assembled and coupled to the body unit 200 in a detachable manner, the receiving unit 10 can be replaced by replacing only the damaged body unit 200 while holding it, It is possible to provide a variable spacer S by replacing only the size of the part 100. [

The vertical portions 120 of the receiving unit 100 are formed as a pair and are provided below the lower reinforcing bars of the truss girder TG and the pair of vertical portions 120 and the lower reinforcing bars are vertical As shown in Fig.

Although the lower reinforcing bar is disposed on the metal portion of the spacer formed of the metal plate, the reinforcing bar is insufficient in resistance against the compressive force and structurally unstable. However, And welded to be perpendicular to the lower reinforcing bar to provide a structurally stable spacer S.

The body portion 200 is formed with a screw hole 210 at a lower portion thereof so that the bolt B passes through the common hole H of the plate P and is screwed .

As a result, after the concrete curing of the plate P is cured, it can be disassembled and is not buried in the slab, so that unnecessary resources can be prevented from being wasted.

In addition, since the plate P is removed from the lower portion of the slab, it is possible to shorten air by simplifying the auxiliary installation procedure according to the construction of the ceiling, and a structurally stable ceiling finishing structure can be realized.

5, a plurality of insertion holes 130 may be formed in the horizontal part 110 of the receiving part 100 to couple the pair of body parts 200 together.

Although the truss girder TG can be manufactured in various shapes, it is generally structurally stable to symmetrically arrange the lower reinforcing bars at the bottom of the pair of lattice materials.

Therefore, a pair of body parts 200 are formed to support each of the lower reinforcing bars in order to prevent waste of unnecessary materials to ensure ease of manufacture and to provide a structurally stable spacer S.

The insertion hole 130 is formed in the horizontal portion 110 of the receiving portion 100 so that the first insertion hole 131 and the second insertion hole 132 are symmetrical The body portion 200 is formed with a pair of insertion protrusions 220 and 220 'so that the insertion protrusions 220 and 220' are inserted into the first insertion hole 131 and the second insertion hole 220 ' (132), respectively.

The pair of insertion protrusions 220 and 220 'of the body part 200 can be structurally stable and the pair of insertion protrusions 220 and 220' .

It is preferable that the insertion holes 130 and the first insertion holes 131 and the second insertion holes 132 of each insertion hole 130 formed in the respective body portions 200 are symmetrically formed.

Thus, eccentricity is prevented from being generated in the longitudinal direction and the width direction of the receiving unit 200, thereby providing a structurally stable spacer S.

Also, it is preferable that the locking protrusions 221 formed on the insertion protrusions 220 and 220 'are also formed symmetrically. That is, the insertion protrusion 220 of the body part 200 is formed with a locking protrusion 221 so as to protrude to one side, and both locking protrusions 221 are formed to be inwardly directed or outward.

Meanwhile, the body portion 200 may be formed with elasticity forming grooves 230 and 230 'downwardly on the inner lower portion of the insertion protrusions 220 and 220', respectively.

The insertion protrusions 220 and 220 'are inserted into the first insertion hole 131 and the second insertion hole 132 of the insertion hole 130, So that it is possible to secure ease of attachment and detachment.

6, the insertion protrusion 220 of the body part 200 is formed with a locking protrusion 221 protruding to one side from the upper end of the protrusion body 222, It is preferable that the width W1 of the insertion hole 130 is longer than the width W2 of the projection body 222 and shorter than or equal to the width W3 of the engagement protrusion 221. [

The width W1 of the insertion hole 130 of the receiving portion 100 is longer than the width W2 of the projection body 222 so that the insertion can be made shorter than the width W3 of the engaging step 221 It is possible to prevent the engagement protrusion 221 from being detached from the insertion hole 130 after the insertion.

However, in the process of inserting the latching jaws 221, since the body portion 200 can be tilted or can be forcedly inserted using the elasticity forming grooves 230 and 230 ' 130 are preferably formed to have a short width W1.

4, the spacer S according to the present invention can be manufactured in various shapes. The spacer S may be formed by forming a pair of the receiving portions 100 and the body portion 200, respectively, It is also possible to form a single body part 200 on the base part 100. A pair of body parts 200 are provided on the base part 100 formed of a single metal plate material for structural stability and ease of work And it is more preferable to couple to both sides.

The above-described spacer for a deck plate according to the present invention is not limited to the above-described embodiment, and can be applied to a deck plate spacer having a conventional knowledge in the art without departing from the gist of the present invention. It is to be understood that the present invention belongs to the scope of protection of the patent claims to the extent that the invention can be variously modified and implemented.

DP: Deck plate TG: Truss girder
P: Plate S: Spacer
H: Through hole 100:
110: horizontal part 120: vertical support part
130: insertion hole 131: first insertion hole
132: second insertion hole 200:
210: screw holes 220 and 220 ': insertion projections
221: latching jaw 222: projection body
230,230 ': Elastic forming groove W1: Width of insertion hole
W2: width of projection body W3: width of engagement jaw

Claims (5)

A deck plate spacer (S) provided below a truss girder (TG) of a deck plate (DP) to bind a plate (P) having a through hole (H)
The spacer S is composed of a receiving part 100 formed of a metal plate and a synthetic resin material body part 200. The receiving part 100 is vertically bent at both sides in the width direction, A vertical receiving portion 120 is formed at both ends of the body portion 200 and the insertion portion 130 is formed in the horizontal portion 110. The body portion 200 is formed with a screw hole 210 in a lower portion thereof The insertion protrusion 220 is inserted upward into the insertion hole 130 of the receiving portion 100 and is engaged with the receiving protrusion 220 of the insertion protrusion 220, 100) and the body part (200) can be attached and detached.
The method according to claim 1,
Wherein a plurality of insertion holes (130) are formed in the horizontal part (110) of the receiving part (100), and a pair of body parts (200) are coupled to each other.
The method according to claim 1,
The insertion hole 130 is formed in the horizontal part 110 of the receiving part 100. The first insertion hole 131 and the second insertion hole 132 are formed symmetrically with respect to the insertion hole 130 The body 200 is formed with a pair of insertion protrusions 220 and 220 'so that the insertion protrusions 220 and 220' are inserted into the first insertion hole 131 and the second insertion hole 132 ' ) Of the deck plate.
The method of claim 3,
Wherein the body part (200) is formed with elasticity forming grooves (230) and (230 ') downwardly on the inner lower side of the insertion protrusions (220) and (220').
The method according to claim 1,
The insertion protrusion 220 of the body part 200 is formed with a locking protrusion 221 protruding to one side of the upper end of the protrusion body 222. The width of the insertion hole 130 of the receiving part 100 W1 is longer than the width W2 of the projection body 222 and is shorter than or equal to the width W3 of the engagement protrusion 221. [

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