KR101428036B1 - Equivalent Equipments for Equipping Reinforcement and Reinforcement Method - Google Patents

Abstract

A reinforcement material supply plate is provided on a front portion of a plastering work in the direction of progress of plastering work. An equalizing angle portion is placed on a continuous surface in the progressing direction of plastering work, The uneven plate was installed, and equally spaced blades were attached parallel to the running direction in a direction perpendicular to the front part of the uniformly uneven plate to constitute a uniform plastering mechanism for supplying equal thickness reinforcing stiffeners.

In addition, the facility reinforcement method using the equilateral fine grooving mechanism for supplying the stiffener to the stiffener by using the equilateral grooving mechanism for supplying the stiffener to the stiffener is simplified.

On the other hand, the middle portion between the central portion and both end portions is bent or the intermediate portion between the both end portions is bent in the shape of the existing facility to be reinforced, and both end supports are composed of reinforcing bars having end enlarged uneven portions. A reinforcing steel reinforcing material filling the reinforcing bars with reinforcing filler material so as to further include a reinforcing material filling material in the chipping parts for the reinforcing bars, As a whole, the effect of improving quality or workability is expected.

Description

Equalized plaster for combined use of reinforcing materials and method for reinforcing facilities using the same

FIG. 1 is a conceptual view of applying a facility reinforcement method using an equally-loaded plastering apparatus for reinforcing material supply of the present invention to a conventional reinforcement target existing facility.

2 is a cross-sectional view taken along line A-A in Fig.

3 is a cross-sectional view taken along line B-B in Fig.

4 is a conceptual view showing the chipping work process of the present invention.

5 is a conceptual view showing the cleaning operation process of the present invention.

6 is a conceptual view showing a primer coating process of the present invention.

7 is a conceptual view showing a rust removal and rust-preventive coating process for an existing reinforcing bar of the present invention.

FIG. 8 is a conceptual view showing an equal plastering work process using an equal plastering mechanism for supplying reinforcement material of the present invention. FIG.

9 is a cross-sectional view taken along the line E-E in Fig.

10 is a cross-sectional view taken along the line G-G in Fig.

FIG. 11 is a conceptual view showing a process of filling a groove filling material in an equally spaced groove formed by a reinforcing material supply equalizing mechanism of FIG.

12 is a conceptual view showing a process of applying a finish coating material on a finishing finish surface of plaster finished.

13 is an enlarged conceptual view showing a reinforcing bar;

DESCRIPTION OF THE REFERENCE NUMERALS

1: Existing facility 3: Crack part

5: old depression 7: existing reinforcing bar

9: deflection curve 11: reinforcing bar embedding part

13: Reinforcement 15: Middle part

17: bent portion 19:

21: Bonding line 23: Reinforcing bar filler

25: chipping face 26: chipping portion for reinforcing bars

27: Primer 29: Stiffener

31: stiffener finish surface 33: finish coating material

35: Dislocated stiffener 37: Breaker

39: scrubber 41: high pressure water

43: Brush 45: Wire brush

47: Anti-rust agent 49: Equalizer for common use of reinforcing materials

51: Stiffener supply plate 53:

55: Evenly spaced blade 57:

58: Handle fastener 59: Handle

61: Equally spaced groove 63: Groove filler

65: plane plaster

The present invention relates to a flat plaster including a bridge, a prismatic facility including a culvert and a waterway, a curved surface facility including a tunnel, and a circular facility including a pipeline. Of the total.

Conventionally, when repairing or reinforcing a facility, inorganic cement mortar or organic resin is used, and skilled artisans directly use a conventional trowel to perform a plastering work, and sprayed cement mortar or resin onto a surface to be repaired Experienced plasterers may also perform plastering work using conventional trowels. These methods are commonly used only by the skill of the plasterer to adjust the pressing pressure applied to the trowel angle and trowel of the trowel bottom by the plasterer In addition, since it is inevitably different from each other, it is inevitably inevitably caused by trowel marks, and the flatness of the untreated surface is lowered. In addition, the unevenness of the uneven surface is not uniform, the amount of the material used is not constant, The problem is .

In case of uniform trowel for equal thickness trowel which is improved by attaching uniformly spaced blade of predetermined height to the planned trowel thickness on the ground surface of trowel for equal thickness of trowel, , It is necessary to prepare the mallets corresponding to the thickness equal to or more than the evenly spaced blade evenly on the base surface of the repair target facility. Therefore, there is a problem in that one preliminary process is additionally added, .

On the other hand, when a load (P) including a vehicle load at the time of traffic, self weight or other overhead load acts on the facility to be repaired and reinforced, a bending moment is generated in the rear portion of the load (P) And a deflection curve due to the deflection D is generated with a predetermined curvature. The curvature of the structural form corresponding to the deflection curve and the structure of the both ends of the support are excellent in adhesion to the concrete surface However, in the case of the reinforcing bars applied to the conventional repairing method, the reinforcing bars are not installed over the entire length of the facility but are limited to a part requiring repair or reinforcement, so that the reinforcing bars are installed. The same as the linear base surface of the structure to be repaired in accordance with the characteristics to be constituted by a thin section The reinforcement effect is reduced because the curvature of the deflection curve is not taken into consideration by using the reinforcement rods including the linear straight deformed reinforcing bars and similarly reinforced reinforcing rods arranged in one direction or both directions and the pulling force is applied to the end portions of the reinforcing rods This is due to the fact that the sheathing of the concrete covering the outer surface of the reinforcing bars is peeled off due to the thin coating of the concrete, and the reinforcing effect is reduced due to the flatness of the structural form of the both ends of the reinforcing bars. .

Also, when the reinforcing bars are fixed, there is a problem that the anchors installed by perforating the existing facilities are used to damage the end portions of the tension parts of the existing facilities which are to be reinforced.

The present invention relates to a reinforcing material supplying plate having a function of supplying a predetermined amount of disturbed reinforcing material in a state of being filled in a predetermined amount so as to be inclined at a predetermined angle outward from a surface to be plastered, And the rear surface portion of the reinforcing material supply plate is provided with a fitting adjustment angle portion which is a bending portion and is provided on the rear surface portion of the fitting adjustment angle portion in parallel with the surface to be plastered, Equipped with a uniform number of blades at a height corresponding to the thickness of the plaster to be planned parallel to the direction of the plastering work in a direction perpendicular to the front surface, .

In addition, the facility reinforcement method using the equally pleated equipment for supplying the reinforcing material and the reinforcing material supply equally shortened the process so as to smooth the plaster to an even thickness was constituted by the above-mentioned method.

On the other hand, if a load (P) including a transit vehicle load, self weight or other overhead load acts on the target facility, bending moment is generated on the back side of the load (P) The end portions of the reinforcing rods at predetermined positions between the center portion and both end portions of the reinforcing rods are applied in a curved shape corresponding to a point at which the deflection curve due to the predetermined curvature is generated. The bending of the reinforcement rods at an angle or the intermediate portion between both ends of the reinforcement rods is bent in the shape of the existing facilities to be reinforced and the both ends of the reinforcing rods are subjected to the tensile force due to deflection acting on the center portion of the existing structure or the middle portion of the reinforcing rods Reinforced existing facilities or reinforced mortar containing concrete to cope effectively The reinforcing bars having end concave and convex portions are formed so as to serve as an anchors in order to increase the pulling force so as to have an excellent adherability to the reinforcing materials including the reinforcing bars.

In addition, in the facility reinforcement method using the above-mentioned equally reinforced reinforcing material grouting mechanism, the reinforcing bars are chipped so that both ends of the reinforcing bars are embedded somewhat deep inside the existing facilities rather than the middle portion, and then the reinforcing bars are bundled and fixed Or by attaching and fixing the reinforcing bars using a tacking reinforcing bar filling material, filling the reinforcing bars with reinforcing bars, reinforcing bar fillers on the reinforcing bars, and coating the primer on the non-reinforcing bars.

With respect to the constitution of the present invention, it is possible to provide a reinforced concrete reinforced concrete structure by reinforcing a reinforced concrete structure with a reinforced concrete reinforced concrete equalizing mechanism, a reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete The reinforcing material supplying method using the equally-equipped flat equipment for reinforcing reinforcing material, which will be described in detail below.

As shown in FIGS. 8 to 11, the present invention has a predetermined length in order to reinforce facilities equally in thickness, and in the front portion of the width corresponding to the finishing operation progressing direction, A reinforcing material supply plate 51 is provided so as to form a stiffener finishing surface 31 of a predetermined thickness by feeding a predetermined amount of disturbed stiffener 35 in a filled state so as to be inclined at an angle, A fitting adjustment angle portion 57 which is a bending portion is provided on the continuous surface of the reinforcing material supply plate 51. An uneven finishing plate 57 is provided on the rear face portion which is one end portion of the fitting adjustment angle portion 57, 53) having a predetermined height and width corresponding to the thickness of the plaster to be planned in parallel with the running direction of the plastering work in a direction perpendicular to the front surface of the uniformly- The reinforcing material supply plate 51 is provided on the rear surface thereof with a knob fixture 58 in a direction perpendicular to the reinforcing material supply plate 51, The equalizing mechanism 49 for equalizing the stiffener supply is configured so that the handle 59 is provided at the end portion of the handle fixture 58 in the direction perpendicular to the finishing operation progressing direction.

The facility reinforcement method using the reinforcing material-supplying equally-fit mechanism for supplying the disrupted reinforcement material 35 using the equally-equipped reinforcing material-supplying equally-fit mechanism 49 and shortening the process so as to have a uniform thickness is described with reference to FIGS. As shown in Fig.

A step of forming a chipping surface 25 by using a conventional breaker 37 or an apparatus having the same function with respect to a surface to be reinforced of the existing facility 1; A step of removing the rust by using a conventional electric brush not marked on the wire brush 45 or the drawing for the rusted portion of the existing reinforcing bar 7 exposed in the depression 5, ) Or a step of spraying high-pressure water (41) on the existing reinforcing bar (7) with rust removed using a conventional washer (39) to clean the existing reinforcing bar (7) A step of applying a rust preventive agent 47 using an ordinary brush 43 or a roller on the outer surface of the existing reinforcing bar 7 from which the rust has been removed; On the reinforcing bars 7, a conventional brush 43 or a roller, A step of applying a primer 27 using a spraying equipment not shown separately; and a step of applying a primer 27 to the old depressed portion 5 on the primer 27 by using a conventional inorganic repair-reinforcing mortar or an organic resin- Filling the filler material 23 up to the height of the conventional chipping surface 25 and spraying the primer 27 using spraying equipment not shown separately on the brush or roller or on the drawing on the reinforcing- A step of applying a reinforcing material 35 dispersed on the primer 27 of the chipping surface 25 and the reinforcing-steel filler 23 to the stiffener finishing material 35 of equal thickness using an equally- A step of forming a surface 31 of the reinforcing member 29 to equalize the thickness of the reinforcing member 29 with a uniform thickness and a step of forming an evenly spaced gap Applying a primer (27) not shown separately on the drawing by using a conventional brush (43) or a roller or a spraying equipment not indicated separately in the drawing on the space portion of the equal interval groove (61) The grooved filler material 63 corresponding to the same material as the reinforcing material 29 is filled up to the height of the stiffener finish surface 31 using a planar fine open mechanism 65 in the space portion on the primer 27 And a spraying device (not shown) on the platen (43), the roller, or the drawing on the plated stiffener (29) corresponding to the unfiltered surface of the groove filling material (63) And a step of applying the finish coating material 33 using the coating material 33 in that order.

As shown in FIGS. 1 and 13, when a load P including a traveling vehicle load, self weight, or other overhead load acts on an existing facility 1 to be reinforced, a load P, A bending moment is generated in the rear surface of the bending portion D and a deflection curve due to the deflection D is generated in a predetermined curvature shape, Both ends of the reinforcing bars 13 are bent at predetermined positions between the center and both ends of the reinforcing bars 13 so as to be directed at a predetermined angle in the direction of the inner surface of the existing facility 1 to be reinforced, And the reinforcing bars 13 are bent at both ends of the reinforcing bars 13 in the central portion of the existing facility 1 to be reinforced or in the middle of the reinforcing bars 13, In order to increase the pulling force so as to have a structural form excellent in adherence to the existing reinforcing material (1) or the reinforcing material (29) including the reinforcing mortar to be reinforced so as to effectively correspond to the tensile force due to the acting deflection (D) (13) having a diameter larger than that of the reinforcement rods (13) to have a role of an anchor and having unevenness formed on the outer surface thereof, can be screwed or welded to be fixed to the end portion of the reinforcement rods (13) having an anchor-shaped end enlarging projecting portion (19).

As shown in FIGS. 1 to 3, a method of constructing a reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete reinforced concrete.

The process of forming the chipping surface 25 by using a conventional breaker 37 or a device having the same function with respect to the surface to be reinforced of the existing facility 1 is performed by a conventional breaker 37, Or both ends of the reinforcing rope 13 are inserted into the inside of the existing facility 1 rather than the intermediate portion 15 for the tension side or the reinforcing target side of the existing facility 1 by using an apparatus having the same function And a step of chipping the reinforcement bars for a predetermined depth and width so as to provide the reinforcing bar chipping parts 26 is added.

The high pressure water 41 is sprayed on the chipping surface 25 or the existing rut 7 with rust to remove the chipping surface 25 or the rutted existing rut 7, The process of cleaning the inner surface of the reinforcing bar chipping portion 26 in which the reinforcing bars 13 are embedded is performed by spraying the high pressure water 41 using a conventional cleaner 39. [

The process of applying the rust preventive agent 47 using a conventional brush 43 or a roller on the outer surface of the existing reinforcing bar 7 after the rust is removed after the rust removal is performed in a subsequent process, The reinforcement rope 13 further includes a reinforcing rope 13 at a portion where the existing reinforcing bars 7 are exposed in the reinforcing rope chipping portion 26 to be tied and tied to the existing reinforcing rope 7 with the tying wire 21 using a conventional binding mechanism And a step of fixing the reinforcing bars 13 by attaching the reinforcing bars 29 to the portions where the existing reinforcing bars 7 are not exposed by using a conventional reinforcing reinforcing bar filling material 23 of the same material as the reinforcing materials 29.

The primer 27 is coated on the existing reinforcing bar 7 coated with the cleaned chipping surface 25 and the rust preventive agent 47 using a conventional brush 43 or a roller or a spraying equipment not indicated separately in the drawing The coating process is performed such that a process of applying the primer 27 is added to the chipping portion 26 for the reinforcing bar in which the reinforcing bars 13 are embedded using a conventional brush 43 or a roller or a spraying equipment not shown separately in the drawing Respectively.

On the other hand, a process of filling a reinforcing-purpose filler 23 including a conventional mortar for repair or reinforcement of an inorganic type or an organic resin to the height of a conventional chipping face 25, with respect to the old depression 5 on the primer 27 Reinforced reinforcing rods 13 and reinforcing rods 13 are formed on the reinforcing rods 7 and the reinforcing rods 13 in the reinforcing rods 13 in the reinforcing bars for reinforcing rods 13, 23) is filled with a reinforcing material-unfolding equalizing mechanism (49) or a conventional flat plastering machine (65).

The process of applying the primer 27 on the reinforcing bar filling material 23 using a conventional brush 43 or a roller or a spraying equipment not shown in the drawings may be carried out by using a chipping for a reinforcing bar 13 A process of applying the primer 27 using a conventional brush 43 or a roller or a spraying equipment not mentioned separately in the drawing is added to the reinforced-cord filler 23 filled in the portion 26. [

As described above, according to the present invention, in order to reinforce the equipments uniformly, the reinforcing material supply plate is provided on the front portion in the plastering direction, A uniform quantity of the blade of equal height corresponding to the thickness of the plaster to be planned in a direction perpendicular to the front face of the uniformly unfinished plate is attached parallel to the direction of the plastering work so as to provide a uniform plaster function So that the quality and the workability for the uniform finishing can be improved at the same time.

In addition, it is expected that both the quality and the workability can be improved by constructing the facility reinforcement method in which the reinforcing material is supplied using the equally pleated equipment for supplying the reinforcing material and the process is shortened so as to have a uniform thickness.

On the other hand, if a load (P) acts on the facility to be reinforced, a bending moment is generated in the rear portion of the load (P) such as the lower portion of the facility, and a deflection curve due to deflection (D) The reinforcing bars are bent so that both ends of the reinforcing bars are oriented at a predetermined angle in the direction of the inner surface of the existing reinforcing object at a predetermined position between the central portion and both ends of the reinforcing bars, The intermediate part between the sections is bent in the shape of the existing facility to be reinforced, and both end supports of the reinforcement rods are provided with reinforcing rods having end concave and convex portions so as to serve as anchors in order to increase the pulling force, So that the effect of improving the quality is expected.

In addition, in the method of reinforcing a facility using the above-mentioned equally reinforced reinforcing material feeding mechanism, the reinforcing bars are chipped so that both ends of the reinforcing bars are embedded in the inside of the existing facilities rather than the middle portion thereof. The method of claim 1, further comprising the step of applying a primer on the unscratched surface of the primer, the existing reinforcing bars and the reinforcing rods by filling the reinforcing rods with the reinforcing rods, An effect that can be improved is expected.

Claims (4)

delete In reinforcing the facade of the facility, A step of forming a chipping surface by using a breaker or a device having the same function as a surface to be reinforced of existing facilities, A step of removing rust by using a wire brush or an electric brush on a rusted portion of an existing reinforcing bar exposed in the old depression after forming the chipping surface, A step of spraying high pressure water on the chipping surface or the existing rut removed from the rust using a scrubber to clean the chipped surface or the rut removed from the rut, Applying a rust preventive agent to the outer surface of the existing reinforcing bar using the brush or roller, Applying a primer onto a conventional reinforcing bar coated with the cleaned chipping surface and rust inhibitor using a brush, roller or spray equipment; Filling the reinforcing bar filling material up to the height of the chipping surface with respect to the old depression on the primer; Applying a primer onto the reinforcing bar filler using a brush, a roller or a spray equipment; A step of finishing the stiffener which is disturbed on the primer of the chipping surface and the reinforcing bar filling material to an even thickness using an equal finishing mechanism for supplying the reinforcement material, Applying a primer onto a space portion of an equally spaced groove formed on the plated reinforcing material using a brush, a roller, or a spraying equipment; Filling the grooved filling material up to the height of the stiffener finishing surface in a space portion on the primer applied to the uniformly spaced grooves by using a flat plastering mechanism; And a step of applying a finish coating material using a brush, a roller, or a spraying equipment on the unfilled material of the groove filling material and the plated reinforcing material, in the order of reinforcing material supplying equally pleating equipment. delete delete

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