KR101985715B1 - The Distance Maintaining Device of Embedded Conduit in Concrete Slab - Google Patents

Abstract

The present invention relates to an interval maintaining device of an embedded conduit in a concrete slab which prevents stenosis or widening of conduits caused by crowded conduits embedded in a bottom of a reinforcing bar when placing the reinforcing bar, and allows concrete to easily flow into the inside of a groove on which the conduits are mounted in order to easily fix the conduits at regular intervals. According to an embodiment of the present invention, the interval maintaining device of an embedded conduit in a concrete slab improves a structure of a conduit mounted hole on which the conduits are mounted, induces the concrete to easily flow into the regular intervals of the conduits embedded in the bottom when placing the reinforcing bar, prevents separation of the conduits, and easily fixes the conduits.

Description

Technical Field [0001] The present invention relates to a device for maintaining spacing of a conduit in a concrete slab,

The present invention relates to a gap maintaining apparatus for an embedded conduit. More particularly, the present invention relates to a gap maintaining apparatus for an embedded conduit, and more particularly to a gap maintaining apparatus for preventing conduction or expansion of a conduit caused by crowded conduits embedded in a lower portion of a reinforcing bar, The present invention relates to a gap maintaining apparatus for a concrete conduit in a concrete slab in which concrete can easily flow into a predetermined interval of a conduit.

Generally, when a bottom surface of an architectural structure is manufactured, the dies supported by the trench are made, the concrete is laid on the dies, and then the poured concrete is cured to form the slab structure.

The bottom surface of the slab is bound with a transverse reinforcing bar and a longitudinal reinforcing bar by wire, and after the reinforcing bar structure is completed, the conduit is fixed to the bottom of the reinforcing bar structure and then the concrete is laid.

However, in the bottom plate where the conduit is embedded, the reinforcement is complicated, and in the dense area of the conduit, when the concrete is poured, the pressure of the concrete pushes the conduit to cause stenosis or widening of the conduit. Maximum thickness 25mm Concrete aggregate will not pass through the conduit.

As a result, the poured concrete can not be uniformly pushed through the conduits, which creates an empty space when concrete is cured, and it is difficult to repair such an empty space after removing the formwork.

For this reason, there may arise a problem of failure of concrete filling which can not be filled with concrete between the upper reinforcing layer and the lower reinforcing layer or between the reinforcing layer and the slab bottom.

Korean Patent Publication No. 10-2015-0042578

An object of the present invention is to prevent stenosis or widening of a conduit suspended from a lower portion after reinforcement placement and to make the gap between the conduit and the conduit constant to facilitate the fixing of the conduit at a predetermined interval, And to provide a gap maintaining device for a conduit pipe in a concrete slab so that it can flow into the concrete slab.

It is another object of the present invention to provide a gap maintaining apparatus for a concrete conduit in a concrete slab in which concrete can be easily inserted when concrete is laid and the conduits can be more stably fixed from an external force.

In order to achieve the above object,

The apparatus for maintaining spacing of a concrete slab embedding conduit according to a feature of the present invention includes a bottom plate having a predetermined thickness and length and a width at which a conduit pipe can be stowed, a semicircular conduit holding unit having a part of the conduit, A slab in which a hole is formed in a longitudinal direction;

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The bottom plate is formed with at least one binding wire hole for fixing reinforcing bars on both side surfaces thereof. The conduit fitting hole is formed in a semicircular shape. The bottom of the bottom plate has a diameter Is larger than the diameter of the conduit.

Wherein a first inclined projecting surface and a second inclined projecting surface protrude in the longitudinal direction from the conduit fixing hole at the entrance end of the conduit fixing hole, respectively, and the first inclined projecting surface and the second inclined projecting surface are inclined at an angle And the concrete poured on the inclined surface is collided to be introduced into the conduit entry hole,

Wherein the conduit tube is formed with a projection protruding along a longitudinal direction on a lower surface thereof, wherein the conduit tube fitting hole has a concave groove formed at the center of the bottom surface and having a predetermined depth along the longitudinal direction,

And the protruding portion is inserted into the concave groove of the conduit fixing hole when the conduit is inserted along the inclined surface of the conduit fixing hole.

The inner surface of the conduit fixing hole is formed with a urethane foam layer having elastic restoring force along the inner circumference.

According to an embodiment of the present invention, in order to prevent narrowing or widening of a conduit suspended from the lower portion after reinforcing steel reinforcement and to facilitate the fixing of the conduit at a predetermined interval, the interval between the conduit and the conduit is made constant, The effect of allowing the concrete to flow easily and the structure of the groove in which the conduit is embedded is improved so as to prevent the conduit from being easily separated due to the external force when the concrete is laid considering the diameter of the conduits installed at the bottom when the reinforcing rod is laid, It has the effect of stabilizing the mount.

1 is a perspective view showing the construction of an interval maintaining apparatus for an embedded conduit in a concrete slab according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing the construction of a gap maintaining apparatus for a conduit pipe in a concrete slab according to a second embodiment of the present invention. FIG.
FIG. 3 is a perspective view illustrating a configuration of a gap maintaining apparatus for a conduit pipe in a concrete slab according to a third embodiment of the present invention.
4 is a perspective view showing the construction of a gap maintaining apparatus for a conduit pipe in a concrete slab according to a fourth embodiment of the present invention.
FIG. 5 is a perspective view illustrating a configuration of an interval maintaining apparatus for an embedded conduit in a concrete slab according to a fifth embodiment of the present invention. FIG.
6 is a perspective view illustrating a configuration of an interval maintaining apparatus for a conduit pipe in a concrete slab according to a sixth embodiment of the present invention.

Throughout the specification, when an element is referred to as " comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

1 is a perspective view showing the construction of an interval maintaining apparatus for an embedded conduit in a concrete slab according to a first embodiment of the present invention.

The apparatus 100 for holding spaced-apart conduits in a concrete slab according to the first embodiment of the present invention can use various materials such as synthetic resin, and a part of the conduit 102 is connected to a bottom plate 110 having a predetermined thickness and length And a semicircular-shaped conduit fixing hole 120 is formed in the longitudinal direction of the bottom plate 110 at predetermined intervals in the longitudinal direction.

The gap holding device 100 of the embedded conduit in the concrete slab is suspended at the upper portion of the reinforcing steel structure where the transverse reinforcing bars 103 and the longitudinal reinforcing bars 104 are connected to each other at right angles to each other.

One or more binding wire holes 112 for fixing reinforcing bars are formed on both sides of the gap holding device 100 of the embedded conduit in the concrete slab.

The conduit mounting holes 120 are formed at regular intervals in the bottom plate 110 in a semicircular shape in the longitudinal direction, and a portion of the conduit 102 in the form of a cylinder is embedded.

That is, the entire conduit 102 installed in the reinforcing structure inside the slab is installed at a certain interval and a certain length by the spacing device 100 of the plurality of conduits.

In this case, a portion of the conduit 102 is seated in the conduit entry hole 120, and the remaining portion is maintained at a constant length without being stuck in the spacing device 100 of the embedded conduit in the concrete slab.

The outer diameter 105 of the conduit fixing hole 120 is 40 mm and the maximum outer diameter 106 of the conduit for filling the slab is 34.5 mm and the width 107 of the conduit fixing hole 120 is 36 mm.

For reference, a conduit pipe having an outer diameter of 21.3 mm (diameter 16 mm), an outer diameter of 28 mm (diameter 22 mm), and an outer diameter of 34.5 mm (diameter 28 mm) is mainly used in the field.

The gap 108 between the conduit entry hole 120 and the elevation hole in the bottom plate 110 is at least 26 mm because the prescribed size of the aggregate material for concrete (gravel size) is 25 mm at maximum.

The conduit mounting hole 120 is formed in a shape in which longitudinal grooves are formed and the concrete 10 inserted therein is cured by being inserted into the conduit mounting hole 120 and connected to the conduit 102 inserted into the conduit mounting hole 120 It can be made more rigid.

The conduit mounting hole 120 is formed to have a mounting width of about 2 mm so as to be larger than the diameter of the conduit 102 into which the diameter is inserted in a semicircular shape, and stress concentration can be mitigated by a shape close to the circular shape.

The reason for this is to facilitate the insertion of the concrete 10 to be laid.

After the transverse reinforcing bars 103 are laid on the upper part of the conduit pipe 102 and the longitudinal reinforcing bars 104 are laid thereon, the conduit holding device 100 of the present invention is hung below the reinforcing frame structure, And is maintained at a constant interval. The longitudinal reinforcing bars 104 are disposed closer to the outer surface than the transverse reinforcing bars 103 in general. Subsequently, when the concrete 10 is poured and cured, the slab is completed.

FIG. 2 is a perspective view showing the construction of a gap maintaining apparatus for a conduit pipe in a concrete slab according to a second embodiment of the present invention. FIG.

The apparatus 100 for holding spaced-apart conduits in a concrete slab according to the second embodiment of the present invention includes a bottom plate 110 having a predetermined thickness, length and width, a conduit fixing hole 110 formed in the bottom plate 110, A part of the conduit 102 is mounted on the bottom plate 120 and a semicircular-shaped conduit fixing hole 120 is formed in the longitudinal direction on the bottom plate 110 at regular intervals.

The conduit fixing hole 120 forms a cradle member 130 for supporting the conduit 102 when the conduit 102 is inserted into the center of the bottom surface.

The shape of the inlet of the conduit entry hole 120 is a tapered shape that forms an oblique slope 122 and narrows from the top of the inlet end to the bottom. This inclined surface 122 facilitates the inflow of the concrete 10 to be laid.

The seating member 130 includes a seating part 131 having an arc-shaped curved surface on an inner side so as to be closely attached to one side of the outer circumferential surface of the conduit 102, And a fixing table 133 formed between the lower surface of the spring member 132 and the bottom surface of the conduit fixing hole 120.

The conduit mounting hole 120 is seated and supported on the mounting member 130 when the conduit 102 is inserted. It is possible to secure a proper space between the conduit pipe 102 and the conduit fitting hole 120 when the conduit member 130 is inserted into the conduit fitting hole 120 of the conduit pipe 102 and to easily insert the concrete 10 to be inserted There is one advantage.

The apparatus 100 for holding spaced-apart conduits in a concrete slab according to the second embodiment has an additional advantage that it has a more stable mounting effect when applied to a conduit having a medium outer diameter (for example, 28 mm) in the field.

FIG. 3 is a perspective view illustrating a configuration of a gap maintaining apparatus for a conduit pipe in a concrete slab according to a third embodiment of the present invention.

The apparatus 100 for holding spaced-apart conduits in a concrete slab according to the third embodiment of the present invention includes a bottom plate 110 having a predetermined thickness, length and width, A part of the conduit 102 is mounted on the bottom plate 120 and a semicircular-shaped conduit fixing hole 120 is formed in the longitudinal direction on the bottom plate 110 at regular intervals.

The shape of the inlet of the conduit entry hole 120 is a tapered shape that forms an oblique slope 122 and narrows from the top of the inlet end to the bottom. This inclined surface 122 facilitates the inflow of the concrete 10 to be laid.

A urethane foam layer 140 having elastic restoring force is formed on the inner surface of the conduit mounting hole 120 along the inner circumference.

The urethane foam layer 140 has a thickness of 20 탆 to 1,500 탆, an average pore diameter of 20 탆 to 100 탆, and a microcell structure. Preferably, the average pore size may be 20 to 50 mu m. The airtightness, the stability, the flexibility and the impact resistance can be excellent at the average pore diameter in the above range.

The urethane foam layer 140 is formed by mixing a gas for combustion with a foamed mixture comprising 100 parts by weight of a polyol, 15 to 80 parts by weight of an isocyanate, 1 to 10 parts by weight of a surfactant and 0.01 to 5 parts by weight of a catalyst.

The conduit mounting hole 120 is seated on the urethane foam layer when the conduit 102 is inserted and supported by the elastic restoring force.

The conduit 102 can penetrate into the pores of the urethane foam layer 140 when the concrete flows into the conduit entry hole 120 and can be stably fixed to the conduit entry hole 120.

4 is a perspective view showing the construction of a gap maintaining apparatus for a conduit pipe in a concrete slab according to a fourth embodiment of the present invention.

The apparatus 100 for holding spaced-apart conduits in a concrete slab according to the fourth embodiment of the present invention includes a bottom plate 110 having a predetermined thickness, length and width, A part of the conduit 102 is mounted on the bottom plate 120 and a semicircular-shaped conduit fixing hole 120 is formed in the longitudinal direction on the bottom plate 110 at regular intervals.

The conduit mounting hole 120 forms an elastic member for supporting the conduit 102 when the conduit 102 is inserted into the center of the bottom surface and both inner sides thereof.

The shape of the inlet of the conduit entry hole 120 is a tapered shape that forms an oblique slope 122 and narrows from the top of the inlet end to the bottom. This inclined surface 122 facilitates the inflow of the concrete 10 to be laid.

Each of the elastic members 150 includes a seating portion 151 having a curved inner side surface and a curved surface portion so as to be closely contacted to one side of the outer circumferential surface of the conduit 102, And a fixing table 153 formed between one end of the spring member 152 and one surface of the conduit fixing hole 120.

The conduit mounting hole 120 is supported and fixed to the three elastic members 150 when the conduit 102 is inserted. It is possible to secure a proper space between the conduit pipe 102 and the conduit fitting hole 120 when the conduit member 130 is inserted into the conduit fitting hole 120 of the conduit pipe 102 and to easily insert the concrete 10 to be inserted There is one advantage.

The apparatus 100 for holding spaced-apart conduits in a concrete slab according to the fourth embodiment has an additional advantage that it has a more stable holding effect when applied to a conduit having a minimum outer diameter (for example, 21.3 mm) in the field.

FIG. 5 is a perspective view illustrating a configuration of an interval maintaining apparatus for an embedded conduit in a concrete slab according to a fifth embodiment of the present invention. FIG.

The apparatus 100 for holding spaced-apart conduits in a concrete slab according to the fifth embodiment of the present invention includes a bottom plate 110 having a predetermined thickness, length and width, A part of the conduit 102 is mounted on the bottom plate 120 and a semicircular-shaped conduit fixing hole 120 is formed in the longitudinal direction on the bottom plate 110 at regular intervals.

The shape of the inlet of the conduit entry hole 120 is a tapered shape that forms an oblique sloped surface 122 and narrows from the top to the bottom. This inclined surface 122 facilitates the introduction of the concrete to be laid.

The conduit 102 is formed with a protrusion 102a protruding along the longitudinal direction on the lower surface thereof and the conduit fitting hole 120 is formed with a concave groove 124 formed at the center of the bottom surface and having a predetermined depth along the longitudinal direction .

A urethane foam layer 140 having elastic restoring force is formed on the inner surface of the conduit mounting hole 120 along the inner circumference. Since the urethane foam layer 140 is the same as that of the third embodiment, a detailed description thereof will be omitted.

When the conduit 102 is inserted along the inclined surface 122 of the conduit fixing hole 120, the protrusion 102a is fitted in the recessed groove 124 of the conduit fixing hole 120 in an interference fit manner, .

Since the fixing position of the conduit fixing hole 120 is constant, the space between the conduit fixing hole 120 and the conduit 102 is kept constant and the concrete 10 inserted therein can be easily inserted have.

6 is a perspective view illustrating a configuration of an interval maintaining apparatus for a conduit pipe in a concrete slab according to a sixth embodiment of the present invention.

The apparatus for holding spaced-apart conduits 100 in a concrete slab according to the sixth embodiment of the present invention includes a bottom plate 110 having a predetermined thickness, length and width, A part of the conduit 102 is mounted on the bottom plate 120 and a semicircular-shaped conduit fixing hole 120 is formed in the longitudinal direction on the bottom plate 110 at regular intervals.

The first inclined projecting surface 160 and the second inclined projecting surface 162 protrude longitudinally from the conduit fixing hole 120 in the upward direction at the entrance end of the conduit fixing hole 120, respectively.

The first inclined projecting surface 160 and the second inclined projecting surface 162 form an oblique sloped surface 122 and the concrete 10 placed on the formed inclined surface 122 collides with each other, .

The conduit 102 is formed with a protrusion 102a protruding along the longitudinal direction on the lower surface thereof and the conduit fitting hole 120 is formed with a concave groove 124 formed at the center of the bottom surface and having a predetermined depth along the longitudinal direction .

A urethane foam layer 140 having elastic restoring force is formed on the inner surface of the conduit mounting hole 120 along the inner circumference. Since the urethane foam layer 140 is the same as that of the third embodiment, a detailed description thereof will be omitted.

When the conduit 102 is inserted along the inclined surface 122 of the conduit fixing hole 120, the protrusion 102a is fitted in the recessed groove 124 of the conduit fixing hole 120 in an interference fit manner, .

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

10: Concrete 100: Spacing device
102: conduit 102a:
103: transverse reinforcement 104: longitudinal reinforcement
105: outer diameter 106: maximum outer diameter
107: Width 108: Spacing
110: bottom plate 112: binding wire hole
120: conduit mounting hole 122: sloped surface
124: concave groove 130:
131: seat part 132: spring member
133: fixing table 140: urethane foam layer
150: elastic member 151:
152: spring member 153:
160: first inclined projection surface 162: second inclined projection surface

Claims (2)

A bottom plate having a predetermined thickness and length and a width at which the conduit can be mounted; a slab in which a part of the conduit is mounted and a semicircular-shaped conduit fixing hole is formed in the longitudinal direction;
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The bottom plate includes at least one binding wire hole for fixing reinforcing bars on both sides of the bottom plate,
The conduit fixing hole is formed in a semicircular shape, and the diameter of the conduit is larger than the diameter of the conduit so that the conduit and the concrete to be inserted are inserted and cured,
Wherein the first inclined projecting surface and the second inclined projecting surface project in the longitudinal direction from the conduit fixing hole to the entrance end of the conduit fixing hole, respectively, and the first inclined projecting surface and the second inclined- And the concrete poured on the inclined surface is collided to be introduced into the conduit fixing hole,
Wherein the conduit tube is formed with a projection protruding along a longitudinal direction on a lower surface thereof, wherein the conduit tube fitting hole has a concave groove formed at the center of the bottom surface and having a predetermined depth along the longitudinal direction,
Wherein the protruding portion is inserted into the concave groove of the conduit fixing hole when the conduit is inserted along an inclined surface of the conduit fixing hole, so that the protrusion is engaged with the concave groove of the conduit fixing hole.
The method according to claim 1,
Wherein a urethane foam layer having an elastic restoring force is formed on an inner side surface of the conduit fixing hole along an inner circumference of the concrete slab.

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