KR200375843Y1 - Spacer - Google Patents

Abstract

A first bending member having a first receiving groove, a first horizontal portion extending in a horizontal direction from one end of the first bending member, and a first upward protrusion extending upwardly from an end of the first horizontal portion; The vertical support member includes a second bending member having a second receiving groove for receiving the other side of the plate, a second horizontal portion extending in a horizontal direction from one end of the second bending member, and an end of the second horizontal portion. A second vertical support member having a second upwardly protruding portion extending upwardly from the second vertical support member and one end thereof connected to an end of the first upward protrusion of the first vertical support member, the other end of which is connected to the second vertical support member; 2 the first flexure member and the second flexure member are connected to an end of the protrusion, and include a connecting member positioned across the width of the flat plate above the flat plate. The wire mesh is coupled to one end and the other end of the flat plate respectively, and the wire mesh is positioned on the connection member supported by the first vertical support member and the second vertical support member, thereby installing the wire mesh at a desired position inside the concrete. It is possible to maintain the coating thickness of the upper main root of the wire mesh as a whole, to strengthen the strength of the slab, low material costs, can be quickly bonded to the top of the deck plate, construction Simple method has the effect that even unskilled people can easily construct.

Description

Spacer {Spacer}

The present invention relates to a spacer, and more particularly to a spacer coupled to the top of the deck plate.

In general, slab construction using deck plate is to arrange the deck plate by the desired area and install wire mesh on it and increase concrete to increase the strength of the slab's tension, compression and bending moment. .

However, in order to increase the strength of the slab, it is necessary to lay concrete thickly, and also the wire mesh needs to be installed inside the slab. In addition, according to the building code, in order to maintain the strength of the concrete, the distance between the surface of the concrete and the wire mesh is to maintain about 2-3 cm. In this case, in order to make a thick slab, it is necessary to install the wire mesh at a desired position. .

Therefore, in this case, in order to install the wire mesh in a desired position inside the slab, spacers have been installed between the deck plate and the grid-shaped wire mesh, and these spacers have an upper spacer placed on the top of the deck plate, and a bottom of the deck plate. There is a lower spacer positioned at.

These conventional spacers, however, are all made of sheet material and are fitted to the top or bottom of the deck plate or joined by welding.

Therefore, the conventional spacer has a problem that the construction cost and construction time is long due to the input of additional labor costs for welding, and requires skilled labor. In addition, since the conventional spacer is made of a galvanized steel sheet, there is a problem that the material cost increases when the spacer is formed into a plate.

The present invention has been proposed in order to solve the above problems, the purpose of the structure is a wire-type structure, so the material cost is low, without the need for additional work for construction such as welding quickly coupled to the top of the deck plate In addition, since the construction method is simple, even an unskilled person can easily install, and to provide a top spacer that can be installed in a short time the slab having a solid strength.

Spacer according to the present invention for achieving the above object, the first bending member having a first receiving groove for receiving one side of the plate, and the first horizontal extending from the one end of the first bending member in the horizontal direction A first vertical support member having a portion, a first upward protrusion extending upwardly from an end of the first horizontal portion, a second bent member having a second receiving groove for receiving the other side of the plate, and the second A second vertical support member having a second horizontal portion extending in a horizontal direction from one end of the bending member, a second upward protrusion extending upwardly from an end of the second horizontal portion, and one end of the first vertical supporting member It is connected to the end of the first upward projection, the other end is connected to the end of the second projection of the second vertical support member, across the width of the plate above the plate Including a connecting member located, the first bending member and the second bending member is coupled to one end and the other end of the flat plate of the deck plate, respectively, supported by the first vertical support member and the second vertical support member The wire mesh is positioned on the connection member, the wire mesh can be installed at a desired position in the interior of the concrete, it is possible to maintain the coating thickness of the upper main root of the wire mesh as a whole, it is possible to strengthen the strength of the slab It is done.

In addition, the spacer according to the present invention for achieving the above object, the first bending member having a first receiving groove for receiving one side of the plate, and the first extending in the horizontal direction from one end of the first bending member A first vertical support member having a first horizontal portion, a first upwardly protruding portion extending upwardly from an end of the first horizontal portion, and the same side surface as the flat plate It has a 2nd bending member which has a 2nd receiving groove which accommodates, a 2nd horizontal part extended in the horizontal direction from the one end of the said 2nd bending member, and a 2nd upward protrusion extended upward from the end of the said 2nd horizontal part. A second vertical support member, and one end thereof is connected to an end of the first upward protrusion of the first vertical support member, and the other end thereof is connected to an end of the second upward protrusion of the second vertical support member; Including a connecting member formed in the longitudinal direction of the plate from above the plate, to one end of the plate of the deck plate The first flexural member and the second flexural member are coupled to each other, and a wire mesh is positioned on the connection member supported by the first vertical support member and the second vertical support member. It can be installed in a desired position, it is possible to maintain the coating thickness of the upper main root of the wire mesh as a whole, it characterized in that the strength of the slab can be firmly.

In addition, in the spacer according to the present invention for achieving the above object, the connecting member is further provided with an upward protrusion protruding upwards, when the wire mesh is installed on top of the connecting member, forming a wire mesh Reinforcing bar is caught by the upper protrusion, it is characterized in that the position of the wire mesh can be easily fixed.

In addition, in the spacer according to the present invention for achieving the above object, one end of the connecting member is connected to the end of the first upward protrusion, the other end is connected to the end of the second upward protrusion, Spacer spaced upward from the flat plate by a predetermined height, characterized in that the up and down curved portion is formed.

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

1 to 6 show a spacer according to an embodiment of the present invention, Figure 1 is a perspective view of a spacer according to an embodiment of the present invention, Figure 2 is a front view of the device shown in Figure 1, 3 is a plan view of the device shown in FIG. 1, FIG. 4 is a side view of the device shown in FIG. 1, and FIGS. 5 to 6 are views showing a state of use of the device shown in FIG.

1 to 4, the spacer 100 according to an embodiment of the present invention is composed of a single wire, The first bending member 10, the first vertical supporting member 20, the second bending member 30, the second vertical supporting member 40, and the connecting member 50 are formed.

The first bending member 10 has a first receiving groove 11 for receiving one side of the flat plate (2).

The first vertical support member 20 extends upwardly from an end of the first horizontal portion 21 and the first horizontal portion 21 extending in a horizontal direction from one end of the first bending member 10. It has the 1st upward protrusion part 22. FIG.

The second bending member 30 has a second receiving groove 31 for receiving the other side of the plate (2).

The second vertical support member 40 extends upwardly from the end of the second horizontal portion 31 and the second horizontal portion 31 extending in the horizontal direction from one end of the second bending member 30. It has a 2nd upward protrusion part 32. FIG.

The connecting member 50 extends from the end of the first upward protrusion 22 of the first vertical support member 20 to the end of the second upward protrusion 32 of the second vertical support member 40, It is located across the width of the plate 2 above the plate 2.

Spacer 100 according to an embodiment of the present invention having the configuration as described above is used as follows.

First, the method of fixing the spacer 100 to the flat plate 2 according to the present embodiment, the mechanism of retaining the bonding thereof, and the slab construction procedure will be described.

First, as shown in FIGS. 5 to 6, when the deck plate 1 is arranged by a desired area, the flat plate 2 is positioned on the deck plate 1.

At this time, one side of the plate 2 is inserted into the first receiving groove 11 formed in the first bending member 10 of the spacer 100 according to the present embodiment, and then the second bending member The other side of the plate 2 is fitted into the second receiving groove 31 formed in the 30.

In more detail, the spacer 100 according to the present embodiment takes the form of a single strand, so that the first accommodating groove 11 of the first bending member 10 is formed on one side of the flat plate 2. When fitted to the second receiving groove 31 of the second bending member 30 is located about 1cm above the other side of the plate (2).

Thereafter, when the second bending member 30 is pressed downward to fit the second receiving groove 31 to the other side of the plate 2, due to the inherent elasticity of the wire, Since the restoring force to return to the shape of the spacer 100 is maintained firmly coupled to both sides of the flat plate (2).

In particular, since the spacer 100 is coupled at both sides of the flat plate 2 in the present embodiment, the spacer 100 may resist the horizontal force applied to the spacer 100 during the slab construction, and thus the flat plate may also be used during the slab construction. It maintains its position firmly on the flat plate 2 without being separated from (2).

In this case, the connection member 50 is supported by the first vertical support member 20 and the second vertical support member 40, and the first upward protrusion 22 and the first upward protrusion 22 are formed from the upper surface of the flat plate 2. Since the two spaced apart upwards by the height of the upper projection (42) is positioned in the horizontal direction with the flat plate (2), when the slab construction, the wire mesh 3 is installed on the upper portion of the connecting member (50).

In this case, after installing the wire mesh 3 on the connecting member 50 in order to increase the strength of the tension, compression and bending moment of the slab, the concrete (4) may be laid.

At this time, since the connecting member 50 is positioned across the width of the flat plate 2 above the flat plate 2, when the wire mesh 3 is installed on the connecting member 50 as above, The longitudinal direction of the connecting member 50 and the grid of the wire mesh 3 are inclined with each other.

Therefore, since the portion where the connecting member 50 is in contact with the wire mesh 3 increases, as a result, the connecting member 50 can more firmly support the wire mesh 3.

In particular, the spacer 100 according to the present embodiment is installed on both sides of the upper plate 2 of the T-shaped flange of the deck plate 1, so that even if a horizontal force is applied from the left and right sides, it is not detached firmly Since it is installed on the deck plate (1), the wire mesh (3) is installed on the upper part and the workers step on it, even if the work does not deform.

Hereinafter, a spacer 200 according to another preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

7 illustrates a spacer 200 according to another embodiment of the present invention.

As shown in FIG. 7, in the spacer 200 according to another embodiment of the present invention, the first bending member 210 and the second bending member 230 are coupled to the same side of the flat plate 2.

Hereinafter, the same components as in the exemplary embodiment of the present invention use the same reference numerals, and a detailed description thereof will be omitted, and only differences from the exemplary embodiment will be described.

In another embodiment, the second bending member 230 is coupled to the same side as the side of the flat plate to which the first bending member 210 is coupled.

In addition, one end of the connection member 250 is connected to an end of the first upward protrusion 222 of the first vertical support member 220, and the other end of the connection member 250 is connected to the second vertical support member 240. It is connected with the end of the 2nd upward protrusion part 242, and is formed in the longitudinal direction of the said flat plate 2 above the said flat plate 2. As shown in FIG.

Spacer 200 according to another embodiment of the present invention having the configuration as described above, as shown in Figure 8, since only one side of the flat plate 2, it is easy to install, the connecting member ( Since the upper protrusion 251 is formed on the upper portion of the 250, when the slab construction, the wire mesh 3 is installed on the upper portion of the connecting member 250.

Hereinafter, a spacer 300 and 400 according to another preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, the same components as in one embodiment and the other embodiments of the present invention use the same reference numerals, and a detailed description thereof will be omitted, and only differences from the above-described embodiments and other embodiments will be described.

9 to 10 show a perspective view of a spacer (300, 400) according to another embodiment of the present invention.

In the spacers 300 and 400 according to another embodiment of the present invention, the connecting members 50 and 250 are further provided with upward protrusions 351 and 451 protruding upward, respectively.

Therefore, when the slab is constructed, when the wire mesh 3 is installed on the connecting members 50 and 250, the reinforcing bars constituting the wire mesh 3 are caught by the upper protrusions 351 and 451. The position of (3) can be easily fixed.

Hereinafter, a spacer 500 and 600 according to another preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, the same components as in one embodiment and the other embodiments of the present invention use the same reference numerals, and a detailed description thereof will be omitted, and only differences from the above-described embodiments and other embodiments will be described.

10 to 11 illustrate perspective views of spacers 500 and 600 according to another embodiment of the present invention.

In the spacers 500 and 600 according to another embodiment of the present invention, one end of each of the connecting members 50 and 250 is connected to an end of the first upward protrusion 22, and the other end thereof is the second upper portion. It is connected to the end of the protrusion 42, spaced upward from the flat plate 2 by a predetermined height, and is further provided with a vertical bending portion (510, 610) in the vertical direction.

Therefore, when the slab is constructed, when the wire mesh 3 is installed on the connection members 50 and 250, the reinforcing bars constituting the wire mesh 3 are caught by the upper and lower bent portions 510 and 610, thereby forming a wire mesh. The position of (3) can be easily fixed.

As described above, according to the spacer according to the present invention, since the structure is a wire type, the material cost is low, and can be quickly coupled to the upper portion of the deck plate without the need for additional work for construction, such as welding, the construction method is simple Therefore, even unskilled workers can be easily installed, and the slab having a solid strength can be constructed in a short time.

The present invention has been described with reference to the embodiments shown in the accompanying drawings, which are exemplary, and those skilled in the art will appreciate that various modifications and equivalent embodiments thereof are possible. Therefore, the true scope of the present invention should be defined only by the appended claims.

1 is a perspective view of a spacer according to an embodiment of the present invention

FIG. 2 is a front view of the apparatus shown in FIG. 1

3 is a plan view of the apparatus shown in FIG.

4 is a side view of the apparatus shown in FIG. 1;

5 to 6 are views showing the state of use of the device shown in FIG.

7 is a perspective view of a spacer according to another embodiment of the present invention

8 is a view showing the state of use of the device shown in FIG.

9 to 10 are perspective views of a spacer according to another embodiment of the present invention

<Explanation of symbols for the main parts of the drawings>

10 1st bending member 11 1st accommodating groove

20 First vertical support member 21 First horizontal portion

22 1st upward protrusion part 30 2nd bending member

31 Second receiving groove 40 Second vertical supporting member

41 2nd horizontal part 42 2nd upward protrusion part

50 connector 100 spacer

200 spacer

Claims (4)

A first bending member having a first receiving groove for receiving one side of the plate; A first vertical support member having a first horizontal portion extending in a horizontal direction from one end of the first bending member and a first upward protrusion extending upwardly from an end of the first horizontal portion; A second bending member having a second receiving groove for receiving the other side of the plate; A second vertical support member having a second horizontal portion extending in a horizontal direction from one end of the second bending member and a second upward protrusion extending upwardly from an end of the second horizontal portion; And One end thereof is connected to an end of the first upward protrusion of the first vertical support member, and the other end thereof is connected to an end of the second protrusion of the second vertical support member, and the width of the plate above the flat plate. Including; connecting member positioned across the The first bending member and the second bending member are coupled to one end and the other end of the flat plate of the deck plate, respectively, and a wire mesh on the connection member supported by the first vertical support member and the second vertical support member. And the wire mesh can be installed at a desired position in the interior of the concrete, and can maintain the coating thickness of the upper main root of the wire mesh as a whole, thereby strengthening the strength of the slab. A first bending member having a first receiving groove for receiving one side of the plate; A first vertical support member having a first horizontal portion extending in a horizontal direction from one end of the first bending member and a first upward protrusion extending upwardly from an end of the first horizontal portion; The same side as the plate A second bending member having a second receiving groove for receiving; A second vertical support member having a second horizontal portion extending in a horizontal direction from one end of the second bending member and a second upward protrusion extending upwardly from an end of the second horizontal portion; And One end thereof is connected to an end portion of the first upward protrusion of the first vertical support member, and the other end thereof is connected to an end portion of the second upward protrusion of the second vertical support member, the upper end of the plate being Including; connecting member formed in the longitudinal direction, including, At one end of the flat plate of the deck plate The first flexural member and the second flexural member are coupled to each other, and a wire mesh is positioned on the connection member supported by the first vertical support member and the second vertical support member. Spacer can be installed in a desired position, the overall thickness of the upper main root of the wire mesh can be maintained, the spacer characterized in that the strength of the slab can be strengthened. The method according to claim 1 or 2, wherein the connecting member, It is further provided with an upward projection protruding upwards, When the wire mesh is installed on the upper portion of the connecting member, the reinforcing bar forming the wire mesh is caught on the upper projection, the spacer characterized in that the position of the wire mesh can be easily fixed. The method of claim 1 or 2, wherein the connection member, One end thereof is connected to an end of the first upward protrusion, and the other end thereof is connected to an end of the second upward protrusion, and is spaced upwardly by a predetermined height from the flat plate, and has a vertical bend in a vertical direction. Spacer.