KR20180111330A - Multi-stage supporter for reinforcing bar - Google Patents

Abstract

The present invention relates to a multi-stage rebar pedestal. More specifically, the present invention provides a multi-stage reinforcing bar, adjusting spacing between upper and lower sides which are arranged in a lattice form inside a slab when the slab is installed, and then fixes the same, and including: a floor base to allow concrete to be leveled evenly; a base fixed to an upper portion of a floor support unit; a pair of supports vertically installed on both sides of the base; a lower bracket disposed on a lower side of the support; a lower bracket which is seated in front of the lower bracket and supports vicinity of the lower bracket; and an upper bracket disposed on an upper side of the support to support the upper side.

Description

Multi-stage supporter for reinforcing bars

More particularly, the present invention relates to a multi-stage steel reinforcing pedestal, more particularly, to a method of constructing a multi-stage steel reinforcing pedestal, in which slabs are arranged in a lattice form at the time of constructing slabs, The present invention relates to a multi-stage reinforced concrete pedestal.

Generally, in order to construct a building, a formwork (Euroform) is installed, a reinforcing bar is placed so that the concrete slab wall can hold an external load, and concrete is laid and cured to form a corresponding layer. Repeat to complete the building.

The reinforcing bars are generally arranged in a lattice shape intersecting a pair of the reinforcing bars. The reinforcing bars thus intersected are either an upper portion arranged at the center of the formwork or a lower portion arranged at a lower portion at a proper interval from the upper portion arranged at the upper portion of the formwork By embedding them in concrete in their respective states, they can serve as a skeleton of the slab, thereby greatly improving durability.

A reinforcing bar is used to support the reinforcing bar so that the reinforcing bars support the reinforcing bars to keep the spacing without contacting the form floor while maintaining the spacing.

A conventional reinforcing bar supporting the reinforcing bars as described above is disclosed in Patent Registration No. 1220235 (name: reinforcing bar) to support the upper portion intersecting the upper portion, or the upper and lower reinforcing bars Patent Registration No. 914045 (name: reinforced bar) is disclosed and widely used.

However, the conventional reinforcing bar material is made of synthetic resin (plastic), which is a chemical material, and cracks are generated in concrete buildings due to the presence of concrete and affinity members. Also, since the reinforcing bar is vulnerable to heat, In addition to the damage, it is becoming the main culprit that adversely affects the global environment.

In addition, the reinforcing bar made of synthetic resin is light in weight, and when the concrete is overturned due to the pressure when the concrete is laid, it is very difficult to construct it immediately during the operation.

In addition, cracks due to absence of affinity with concrete easily disintegrate the building even at a small scale of earthquakes frequently occurring in various parts of the world, thereby making it difficult to achieve the purpose of improving the durability of buildings.

In addition, the thickness of the slab is configured differently in order to prevent the vibration and the interlayer noise according to the usage place of the building in the modern times. The conventional reinforcing bar supports the upper and lower portions only at the predetermined position, It is necessary to produce a separate reinforcing bar having different fixing heights in the vicinity of the upper and lower portions, resulting in an increase in production cost.

In addition, in order to grasp the appropriate height at which the concrete is poured, a separate level rod is fixed to the upper part, thereby increasing the work time.

The present invention has been devised in order to solve the above-mentioned problems, and it is an object of the present invention to prevent the generation of noxious gas during a fire by allowing a rebar pedestal to withstand high temperatures, And the operator can easily grasp the height of the concrete pouring to provide a flat concrete slab.

The present invention is configured as follows to achieve the above object. That is, the present invention relates to a method of manufacturing a base, comprising: a bottom support portion formed by forming a round bar in a square shape; a base fixed to the top support portion and having a hole penetrating the top portion, the spiral being formed on the outer periphery, A support having a lower end inserted into the hole and a nut fastened to the upper surface of the base and fixed to the lower surface of the base, respectively, and a pair of holes are formed through the support, A lower bracket in which a first fixing nut is disposed at an upper portion and a concave release preventing groove is formed at an upper portion thereof, a lower bracket that is seated in the release preventing groove and is provided to support a vicinity of the lower portion, A support surface is formed on the upper surface so as to support the upper surface of the upper surface, and a hole is formed in the bottom surface so as to penetrate the pair of supports And the upper bracket is provided with a second lift nut at the upper portion of the hole and a second fixing nut at the lower portion thereof.

The support is composed of an upper support and a lower support, which are divided into upper and lower parts, and a connection socket which is helically connected to the upper and lower supports.

Further, the four corners of the bottom receiving portion are formed with horizontal adjusting bolts that are screwed together.

The upper bracket may include a stopper installed on both sides of the upper bracket to prevent the upper portion of the upper bracket from being detached from the outer side.

And a level rod is mounted on the bottom surface of the upper bracket to be lifted and fixed by a spiral thread fastened to the nut.

As described above, according to the present invention, the reinforcing bar is formed of a metal, so that it is strong against high heat, but it has the effect of preventing overturning at the time of concrete pouring by its own weight.

In addition, since only the upper portion of the upper bracket can be installed or the vicinity of the upper portion and the lower portion can be installed at the same time, the upper and lower brackets lift and lower along the spiral of the support, There is an effect that can be adjusted at an appropriate interval in the vicinity.

In addition, by forming the horizontal adjustment bolts at the four corners of the floor support, the reinforcing bars installed on the irregular floor can be adjusted with the horizontal adjustment bolts to achieve a horizontal state.

Further, by forming the stoppers on both sides of the upper bracket, there is an effect of preventing a phenomenon that the upper side is deviated to both sides and is released.

In addition, by forming a level rod capable of adjusting the height on the upper bracket, the working time is shortened and the leveling method in which the same level of concrete is laid flat can be achieved.

Also, the reinforced concrete block is made of round bar and the concrete to be laid is wrapped around the entire reinforced concrete block, so that cracks are prevented from being generated with a strong adhesive force by the affinity, so that the effect suitable for seismic design can be exhibited.

1 is a perspective view showing a reinforcing bar according to the present invention;
FIG. 2 is a perspective view of a reinforcing bar according to the present invention,
Fig. 3 is a perspective view showing a state of supporting the upper and lower portions according to the present invention,
Fig. 4 is a front view in a state of supporting the upper and lower portions according to the present invention
Fig. 5 is a side view of a state in which the upper and lower portions are supported and supported according to the present invention
6 is a perspective view showing a state where the leveling device according to the present invention is installed;

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

1 to 5, a reinforcing bar 1 according to the present invention includes a floor support 10, a base 20 fixed to the top of the floor support 10, A pair of supports 30 vertically installed on both sides of the lower bracket 40 and a lower bracket 40 fastened to the lower side of the support 30 and a lower bracket 50 seated in front of the lower bracket 40, And an upper bracket 60 which is screwed on the upper side of the support 30.

The bottom support unit 10 is constructed to be able to stand on the floor of the mold so that the round bar is formed in a rectangular shape and has a space therein. The reason for the formation of such a round bar is that the concrete to be laid flows into the outside and the inside of the concrete so that the concrete can be firmly adhered.

A plate body having a screw hole 12 is fixed to the four corners of the bottom receiving portion 10 by welding and the screw hole 12 and the horizontal adjusting bolt 11 are screwed together. When the horizontal adjustment bolt 11 is rotated, the lower end of the horizontal adjustment bolt 11 can be exposed to the outside and the height can be adjusted by the bottom support portion 10. Thus, when the formwork bottom is not flat, The horizontal state of the pedestal 1 can be adjusted.

The base 20 is fixed to an upper portion of the floor receiving portion 10 so as to be spaced apart from a lower portion of the floor receiving portion 10 and is preferably spaced apart from the upper center of the floor receiving portion 10 The pair of support rods 21 are fixed by welding and the upper portion of the support rods 21 and the base 20 are firmly fixed by welding so that the base 20 is separated from the floor support portion 10 having a space therein Thereby securing a space in which the lower side nut 34 for fixing the support 30 to be described later is accommodated.

Here, it is preferable that the pair of support rods 21 are formed in a "front" shape in which the front and rear sides of the base are respectively hooked and bent back and forth so as to be fixed in the right position.

In addition, a pair of holes 22 penetrating the upper portion of the base 20 are formed at appropriate intervals to insert and fix the supports 30, respectively.

The support 30 is formed of a circular bar having a spiral on its outer periphery so that the lower ends of the pair of supports 30 are inserted into the holes of both sides of the base 20, And a nut 34 which is in close contact with the upper portion is fastened to maintain an upright state in the base 20. [

Here, when the support 30 is formed long, it takes more time than necessary to install and fix the upper and lower brackets 40 and 60 to be described later, It is preferable that the support 30 is divided into an upper portion and a lower portion so as to constitute an upper support 31 and a lower support 32. [

In order to connect the divided upper and lower supports 31 and 32, a connection socket 33 having a spiral formed inside the body having a relatively long length is formed.

When the upper and lower supports 31 and 32 are fastened to the connection socket 33 having the length, the length of the entire support 30 can be adjusted by being able to move up and down by the length thereof .

The lower bracket 40 is disposed below the pair of supports 30 so that the upper bracket 40 is formed with a hole 42 through which the support 30 is inserted, And a first lifting nut 43 that is helically connected to the lower bracket 30 is disposed to adjust the installation position of the lower bracket 40 and to prevent it from falling arbitrarily. And a first fixing nut (44) for tightly fixing the base (40) to the support (30).

The lower bracket 40 is formed with a detachment prevention groove 41 formed at one end thereof with an upper portion recessed therein so that the lower bracket 40 is provided with a detachment prevention groove 41, 50 are seated.

In addition, since the lower vicinity 110 is seated at the center of the lower support 50, it is possible to dispose the lower vicinity 110 away from the form bottom, and in particular, the lower bracket 40 So that even when the external force generated when the concrete is pushed pushes the vicinity of the lower portion 110, it is caught by the pair of lower brackets 50, .

The lower bracket 40 configured as described above is moved to a proper position by the spiral-coupled first lift nut 43 and the lower bracket 40 is fixed to the lower bracket 40 by the first fixing nut 44, So that the height of the underside 110 bound to the bottom can be adjusted.

The upper bracket 60 is arranged on the upper side of the pair of supports 30 to support the upper side 120 so that the upper bracket 60 is formed into an " 61 are formed on the upper surface of the base plate 120 and a hole 62 is formed on the bottom surface so that the pair of supports 30 pass through.

The upper bracket 60 is fastened to the support 30 by a second lift nut 63 at the lower part of the hole in the same manner as the lower bracket 40, So that the upper bracket 60 can be raised and lowered to an appropriate position according to the support 30. Thus, the height of the upper roots 120 can be adjusted.

The reason why the upper surface 120 is seated on the bearing surface 61 having a narrow width is that when the upper surface 120 is in contact with a wide bottom surface of the upper bracket 60, The adhesive force of the adhesive layer is lowered, and the adhesive layer is firmly fixed using an area having a relatively small contact area so as to overcome this.

A stopper 70 is formed on both sides of the upper bracket 60. The stopper 70 comes into contact with the upper surface 120 that is seated on the bearing surface 61 near the upper surface and restrains the upper surface 120 from deviating outward due to the pressure at the time of pouring concrete will be.

Meanwhile, a level rod 80 is installed at the central portion of the upper bracket 60 so that the height of the concrete can be easily grasped.

A level hole 65 is formed at the center of the upper bracket 60 which is coupled with the spiral and the level rod 65 is provided with a level rod 80, And a level rod fixing nut 66 to be fastened is fixed to adjust the height of the level bar 60.

6, a leveling unit 90 is installed on the bottom surface of the base 20 or the upper bracket 60 so that the horizontal state of the reinforcing bar 1 can be visually recognized by observing the movement of the bubble. Can be installed.

Therefore, if the reinforcing bar 1 is not horizontal as a result of checking the leveling unit 90, the horizontal adjusting bolts 11 provided at the four corners of the floor receiving unit 10 can be raised and lowered to be used in a horizontal state.

The rebar pedestal 1 according to the present invention constructed as described above can be formed of a metal having a high weight and high resistance against heat so as to prevent the concrete from being overturned arbitrarily to the concrete pouring pressure and to prevent the generation of toxic gas in the event of a fire, (1) It is possible to prevent the cracks in the building by the adhesion force (affinity) with the concrete by forming the space by using the round bar so that it penetrates every corner of the pedestal (1) The height of the reinforcing bars 110 and 120 can be easily adjusted and the height of the concrete pouring can be adjusted to the level bar 80 mounted on the reinforcing bar 1, The height of the upper and lower brackets 60 and 40 can be adjusted independently of the thickness of the slab formed to be different from each other. More can be installed by a bracket (40), which will consider the durability of the building can provide useful staging rebar reinforcement bracket that can be reinforced in multiple stages.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

Reinforced pedestal: 1 Floor rest: 10
Horizontal adjustment bolts: 11 Base: 20
Supporting Rod: 21 Support: 30
Upper support: 31 Lower support: 32
Connection socket: 33 Lower bracket: 40
Release prevention groove: 41 1st lift nut: 43
First fixing nut: 44 Base: 50
Upper bracket: 60-side bearing side: 61
Second lift nuts: 63 Second retaining nuts: 64
Stopper: Level 70 Stick: 80
Level: 90

Claims (5)

A bottom support part having a round bar formed into a square shape;
A base fixed to the upper portion of the floor receiving portion and formed with holes penetrating the upper portion on both sides;
A support having spiral ribs formed on its outer periphery and having lower ends inserted into a pair of holes formed in the base, and a nut fastened to the spiral are respectively disposed and fixed on the upper and lower surfaces of the base;
A pair of support brackets, and a pair of support brackets, the support brackets being formed in a pair, each of the support brackets having a hole, a first lift nut disposed at a lower portion of the hole, a first fixing nut disposed at an upper portion thereof, ;
A bottom support positioned in the release preventing groove to support the vicinity of the bottom;
And a second lift nut is disposed on the upper portion of the hole so that the pair of supports penetrate the bottom surface of the support surface. And an upper bracket having a second fixing nut disposed at a lower portion thereof.
The method according to claim 1,
Wherein the support is composed of an upper support and a lower support which are divided into upper and lower parts, and a connection socket which is helically engaged with the upper and lower supports.
The method according to claim 1,
Wherein a horizontal adjustment bolt is formed on the four corners of the bottom support portion so as to be screwed to adjust a horizontal state of the bottom support portion.
The method according to claim 1,
And a stopper installed on both sides of the upper bracket to prevent the upper side from being deviated outwardly.
The method according to claim 1,
And a level rod which is lifted and fixed by a spiral thread engaged with a nut is formed on a bottom surface of the upper bracket.

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