KR20200000417U - Device to support tendons for concrete slab - Google Patents

Abstract

The present invention is to provide a tension member fixing device for the concrete slab to be able to independently stabilize the tension material to be independently independent on the slab, and also to stably fix the reinforcing bars intersected with the tension material.
To this end, the present invention is a body erected on the bottom of the concrete slab; A plurality of seating grooves formed side by side at the top of the body to seat a plurality of tension members; Bind protrusions are provided on both sides of the body, respectively, the binding protrusions are coupled to both sides of the binding line traversing the upper side of the tension member, and the front and rear of the body for mounting and mounting the reinforcing bars are crossed with the tension member The front rebar mounting portion and the rear rebar mounting portion are configured to be formed respectively.

Description

Device to support tendons for concrete slab

The present invention relates to a tension member fixing device for concrete slab, and more particularly to a tension member fixing device for concrete slab for stably fixing the tension material for increasing the slab strength.

In order to reduce the weight of the concrete slab and at the same time to increase the strength of the steel wire tension material is disposed to be disposed, it should be provided with a fixing device for fixing it so that the tension material does not flow during the embedding.

To this end, Patent No. 10-1175484 proposes 'a long span post-tension hollow slab and its construction method using a buoyancy-preventing hollow module and bar tension chair arrangement,' as shown in Figures 1 to 3 as its structure. Similarly, the concrete includes a hollow module 1 including a light material 11, a buoyancy preventing transverse reinforcing bar 12, a fixed longitudinal reinforcing bar 13, and a bar chair 14;

In the hollow module (1), the lightweight member (11) is provided in a form in which a plurality of rows in parallel to form a row in the longitudinal direction; The anti-buoyancy transverse reinforcing bar 12 has a bent shape so that the convex portion 120 and the concave portion 121 are alternately formed in a zigzag, and the plurality of horizontal rebars are placed adjacent to each other in the hollow module 1. The upper portion of the lightweight member 11 is disposed in the transverse direction so that each convex portion 120 is wrapped; The fixed longitudinal reinforcing bars 13 are arranged so as to span the plurality of buoyancy preventing transverse bars 12 in the longitudinal direction while the buoyancy preventing transverse bars 12 are arranged in plurality in the longitudinal direction at intervals. Is coupled with the buoyancy preventing rebar 12; The bar chair 14 is assembled to the concave portion 121 of the buoyancy-resistant horizontal reinforcing bar 12 to support the longitudinal tension member 2, but consists of an upright rod member, the lower end of the buoyancy-resistant rebar 12 It consists of a vertical member 141 and a rod member that is assembled to the concave portion 121 of the) is arranged in the transverse direction at the top of the vertical member 141 is coupled and one or both ends of the transverse direction buoyancy prevention horizontal rebar ( 12) is configured to include a horizontal member 142 is assembled and coupled;

The longitudinal tension member 2 is inserted into the side surface of the vertical member 141 to have a structure in which a plurality of concave curved U-shaped fastening portions 15 are formed so as to surround the outside of the longitudinal tension member 2. .

However, this structure is a structure in which the chair 14 fixing the longitudinal tension member 2 is fixed to the anti-buoyancy horizontal rebar 12, the buoyancy-resistant transverse steel 12 and the fixing bell on the slab 100 Since the bar chair 14 is fixed to the anti-buoyancy transverse bar 12 after the rebar 13 is in the reinforcement state, the longitudinal tension member 2 must be reinforced, so that the structure must be coupled to the anti-buoyancy transverse bar 12. Has

Therefore, the conventional bar chair 14 can be independent of the slab 100 independent of the buoyancy preventing transverse reinforcing bars 12 and can not be fixed to the longitudinal tensioning material 2, the construction is very complicated.

In other words, the bar chair 14 is assembled to the anti-buoyancy transverse bar 12 while both the buoyant anti-rebar 12 and the fixed longitudinal reinforcing bar 13 are placed, and then the longitudinal tension member 2 is fitted to fix the bar chair 14. Therefore, the process is very complicated, poor construction, and there is also a problem that the work efficiency is much lowered.

In addition, the longitudinal tension material (2) is easily detached from the fastening portion 15 during the concrete casting, thereby carrying the possibility of poor construction.

Therefore, the present invention is to solve this problem of the prior art, for the concrete slab to be able to freely independently on the slab to stably fix the tension member and also to stably reinforce the reinforcing bars intersected with the tension member. To provide a tension fixing device.

The tension member fixing device for concrete slab according to the present invention,

In the fixing device for fixing the tension material embedded in the concrete slab,

The fixing device

A body standing on the bottom of the concrete slab;

A plurality of seating grooves formed side by side at the top of the body to seat a plurality of tension members;

Bind protrusions are provided on both sides of the body are coupled to both sides of the binding line across the upper side of the tension member.

The body is provided with a plurality of binding holes for binding the tension member by wires, and the front and rear reinforcing bars for mounting and mounting the reinforcing bars intersected with the tension member in front and rear of the body. The mounting portion is formed, respectively, the height of the front reinforcing bar and the rear reinforcing bar is formed differently.

The present invention has the advantage that the work efficiency is very high because the construction of the slab is very easy and efficient because it can be mounted as well as fixing the tension member in the self-supporting state in the slab.

In addition, the tension material can be fixed to the present invention by the wire, there is an advantage that eliminated the possession of construction failure.

1 to 3 are views for explaining a conventional technical structure,
Figure 4 is a view showing the structure of the present invention.
Figure 5 is a view showing a structure in which the tension material is fixed to the present invention.
Figure 6 is a view showing a state in which reinforcement is fixed to the present invention.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

Figure 4 is a view showing the structure of the present invention, Figure 5 is a view showing a structure in which the tension material is fixed to the present invention, Figure 6 is a view showing a state in which the rebar is fixed to the present design, the body 200 It is provided with a bottom support portion 210 to maintain a stable state to stand up from the bottom of the slab, the bottom support portion 210 is formed to extend further outward from the lower side of the body 200.

In the upper side of the body 200, a plurality of seating grooves 220 are formed side by side in the transverse direction of the body 200 so that the plurality of tension members 300 in the longitudinal direction, such a seating groove 220 is a steel wire or the like. The tension member 300 will have the form of a semi-circle so that the lower portion can be seated.

In addition, the binding protrusions 230 are formed at both sides of the body 200, that is, at both sides in the lateral direction, at the site where the seating groove 220 is formed, and the tension member 300 is attached to the binding protrusions 230. Both sides of the binding line 240 for binding and fixing so as not to be separated from the seating groove 220 is bound.

 In addition, a plurality of penetrating binding holes 250 are formed in the body 200, and the binding holes 250 and the tension member 300 are connected to each other by wires to fix them.

Reinforcing bars 260, 261, 270, 271 are formed on the front and rear of the body 200, respectively, such reinforcing bars 260, 261, 270, 271 are formed in pairs at intervals from the front and rear of the body 200, respectively. do.

That is, when reinforcing the rebar 400 in the transverse direction so as to intersect with the tension member 300 is mounted on the rebar mounting portion (260, 261, 270, 271) it is possible to be stable reinforcement.

Reinforcing bars (260, 261) (270, 271) formed in the front and rear, respectively, the height is different, the reinforcing bars (260, 261) of the front is located at about 30mm from the lower portion of the body 200, Reinforcing bar portion 270, 271 is in the position of about 40mm from the lower end of the body 200 will be able to reinforce the height of the reinforcement 400 is different.

It describes the state of use of this invention.

As shown in FIG. 5, in a state in which the body 200 is placed on the slab so that the plurality of seating grooves 220 face in the lateral direction, the tension member 300 is placed and placed in the seating groove 220, and then the ties 240. Tie one side of the binding to the binding protrusion 230, and bind the binding line 240, one side of which is bound across the upper side of the tension member 300, and then pull the other side to the binding protrusion 231 to bind the tension member (300). ) Is not allowed to escape.

Such a binding method is a method of binding by one binding line 240 in a state in which all the tension members 300 are seated in the plurality of seating grooves 220, and in order to independently bind the tension members 300, the body 200. The binding hole 250 formed in the use is used.

To this end, the wire is inserted into the binding hole 250, and then the upper side of one tension member 300 is wound in one direction and inserted into the same binding hole 250 again, so that the wires cross each other at the upper side of the tension member 300 again. After winding in the form of X ', the binding holes 250 may bind both ends of the wire.

Then, one tension member 300 is fixed to the body 200 by tying in a 'X' shape.

In addition, the reinforcing bars (260, 261) (270, 271) formed on the front and rear of the body 200, respectively, so as to cross the tension member 300, that is, the rebar (400) in the transverse direction is seated and placed.

That is, as the conventional reinforcement of the reinforcing bars and then fixing the fixing device for fixing the tension member to the reinforcing bars, the tension member is not fixed to the fixing device again, in the present invention, the tension member in the state in which the fixing device is first placed on the slab ( 300) and the reinforcement (400) by fixing at a time, the construction is very easy.

200 body 210 bottom support
220: settling groove 230,231: binding protrusion
240: binding line 250: binding hole
260,261,270,271: Rebar placement
300: tension member 400: rebar

Claims (3)

In the fixing device for fixing the tension material embedded in the concrete slab,
The fixing device
A body standing on the bottom of the concrete slab;
A plurality of seating grooves formed side by side at the top of the body to seat a plurality of tension members;
A tension member fixing device for the concrete slab, characterized in that consisting of; binding protrusions are provided on both sides of the body, respectively, the binding protrusions are coupled to both sides of the binding line across the upper side of the tension member. The tension member fixing device for concrete slab according to claim 1, wherein the body has a plurality of binding holes for binding the tension member by a wire. According to claim 1, The front and rear of the body is formed with a front reinforcing bar and a rear reinforcing bar for seating and mounting the reinforcing bars are crossed with the tension member, respectively, the front reinforcing bar and the rear reinforcing bar Tension material fixing device for a concrete slab, characterized in that the height is formed differently.

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