KR101876447B1 - Concrete repair method - Google Patents

Abstract

The present invention relates to a renovation work for improving and repairing damaged roads due to deterioration, aging, an external impact, and the like. More specifically, the present invention relates to a method of modifying concrete, which comprises modifying a functional concrete powder material, particularly powdered sulfur, powder latex, and the like, in modifying roads. Therefore, the present invention improves durability by improving mechanical characteristics such as compressive strength, shortens curing time, and enables quick repair, thereby preventing hinderance of traffic flow.

Description

{CONCRETE REPAIR METHOD} CONCRETE REPAIR METHOD CONTAINING FUNCTIONAL POWDER MATERIAL USING MICROWAVE

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a repair method for improving and repairing damaged roads due to deterioration, aging, external impact, and the like. More particularly, the present invention relates to a method for repairing roads, The present invention relates to a concrete refurbishing method that improves durability by improving mechanical properties such as compressive strength and shortens a curing time to enable rapid refurbishment so as not to interfere with traffic flow.

Sulfur is one of the nonmetallic elements and natural sulfur exists, but it occurs mostly in desulfurization process of crude oil and natural gas.

There have been many studies to utilize the sulfur generated in desulfurization process of crude oil and natural gas as a simple industrial waste rather than to treat it as industrial waste.

In particular, recently, a modified sulfur concrete technique using sulfur as a binder instead of or in combination with cement has been developed and used.

Such prior art is the " Modified Sulfur Concrete Mixing Method ", No. 10-1282369,

In the conventional art, there is provided a method of manufacturing a mobile mixer, comprising the steps of injecting concrete and reforming sulfur into a mobile mixer and mixing them firstly, discharging concrete mixed through a mobile mixer through a chute, mixing the mixed concrete with the concrete introduced into the external mixer, and discharging the mixed concrete into the outlet of the external mixer. The method of claim 1, further comprising the steps of: So as to be smoothly mixed with each other.

Also, as a prior art, there is a " sulfur concrete composition ", registered patent No. 10-1592162,

In the prior art, 10 to 40% by weight of sulfur polymer binder, ferronickel slag (FNS)

0 to 80% by weight of the coarse aggregate, 0 to 60% by weight of the ferronickel slag (FNS) fine aggregate, and 0 to 90% by weight of the sand.

Further, as a prior art, there is a registered trademark 10-1160422 " modified sulfur polymer and a concrete composition containing the same "

The prior art discloses a modified sulfur polymer synthesized by polymerizing a phenolic compound or a thioester compound together with sulfur and a di-cyclopentadiene to provide a modified sulfur polymer having excellent long-term storage stability and workability, and excellent mechanical strength such as bending strength and compressive strength And a technique capable of securing a modified sulfur polymer is proposed.

However, the physical properties of sulfur are dissolved at a temperature of 119 ° C or higher and solid at room temperature. In addition, there is a drawback that the flash point is 207 ° C and the spontaneous ignition temperature is 245 ° C, which leads to difficulties in being used in various industrial fields such as construction materials, and various techniques for improving these drawbacks However, it is difficult to control the reaction on the physical properties of sulfur, and it has a disadvantage in that it can not be solidified due to rapid solidification at room temperature.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

The method of claim 1 or 2, further comprising: cutting the damaged portion of the road; placing the concrete on the cut portion; and curing the concrete to cure the concrete. The present invention aims to provide a method for remodeling a concrete containing a functional powder material capable of exhibiting mechanical properties of sulfur such as shortening of curing time and improvement of compressive strength.

In particular, the powder of the functional powder contained in the concrete is freeze-dried, and the coating material is coated on the freeze-dried door material to prevent stickiness of the powder to maintain the powder state, It is another purpose to provide a concrete renovation method.

In order to achieve the above-mentioned object, the concrete remodeling method of the present invention

A cutting step of cutting a broken portion of the road;

A pouring step of pouring a concrete containing a functional powder material into a cut damaged portion;

A curing step of curing the concrete through a repair device which generates microwaves spaced from the upper part of the concrete pouring part;

, ≪ / RTI >

The functional powder material contained in the concrete is lyophilized and then coated and mixed with the concrete.

As described above, according to the concrete renovation method of the present invention,

It is used for repairing concrete damaged by road aging, deterioration and external impact. It consists of a cutting step for cutting the damaged part cleanly, a pouring step for pouring concrete into the broken part, and a curing step for curing the poured concrete By mixing the modifier containing the functional powder material with the concrete used, the durability can be improved by improving the mechanical properties such as compressive strength, and the curing time can be shortened to shorten the traffic control time.

Particularly, the powder material to be used at this time is powdery sulfur, powder latex and the like, which is coated with a coating agent to solve the problem that the powder materials are adhered to each other by the viscosity, and accordingly, Effect.

1 is a block diagram of a concrete remodeling method according to the present invention;
FIG. 2 is a schematic view of a maintenance device
3 and 4 are views showing a modification example of the maintenance apparatus according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

While the present invention has been described in connection with certain embodiments, it is obvious that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the drawings, the same reference numerals are used for the same reference numerals, and in particular, the numerals of the tens and the digits of the digits, the digits of the tens, the digits of the digits and the alphabets are the same, Members referred to by reference numerals can be identified as members corresponding to these standards.

In the drawings, the components are expressed by exaggeratingly larger (or thicker) or smaller (or thinner) in size or thickness in consideration of the convenience of understanding, etc. However, It should not be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the term " comprising " or " consisting of ", or the like, refers to the presence of a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

As shown in FIG. 1, the concrete remodeling method (S) according to the present invention is for improving and repairing a damaged part of a road, and includes a cutting step (100) for cutting a damaged part of a road, A pouring step (200) for pouring the concrete frame for improvement and maintenance, and a curing step (300) for curing and curing the poured concrete.

More particularly, the cutting step 100 is for smoothing the damaged part. The method of cutting the broken surface of the concrete physically through the machine and flattening the broken part of the concrete, and dissolving the microwave and heat to dissolve the concrete, Can be used.

At this time, when the microwave is used, the maintenance device A of the curing step 300 described below may be used, and the scope of the right should not be limited.

After the mold is installed on the part where the cutting is completed, the concrete is laid and reinforced.

At this time, according to the present invention, by mixing a functional powder material, particularly a modifier such as powdery sulfur or powder latex, to the concrete, the physical properties of the powder material are manifested to improve the mechanical properties such as compressive strength to improve durability, It has an effect of shortening the time.

In particular, sulfur tackiness occurs on the outside due to physical properties, and sulfur is strongly cohesive to each other, so that it is very difficult to powder it, and when it is mixed with concrete, sulfur may not be mixed uniformly .

Accordingly, after the sulfurization of the sulfur is completed, the present invention is coated with a coating agent to coat the particles of the sulfur powder to block the cohesion between them.

Therefore, as the cohesion of sulfur is weakened, the sulfur content is more uniformly distributed in the concrete when the sulfur powder, more precisely the coated sulfur powder is mixed with the concrete, so that the compressive strength of the concrete part to be laid is uniformly expressed. And has the feature of improving the completeness.

In addition, even if powder materials of different materials such as latex are used, they are coated to prevent them from sticking to each other.

After the concrete is poured in this way, the concrete improvement and curing step is completed through the improvement and repair work of the road.

Since the operator can not directly enter the poured concrete at this time, the present invention cures and cures the concrete through the repairing device (A).

The maintenance apparatus A includes a pair of legs A1 provided with a wheel H at a lower end thereof, a working unit A2 connecting the pair of legs A1, And a diverging member provided on the surface of the road for emitting a microwave to the surface of the road.

More specifically, the leg portion A1 has a distance corresponding to the width of the road to be constructed, and the leg portion A1 is provided so as to be movable in the longitudinal direction of the road.

In this case, in order to more accurately perform the linear motion, a rail is provided in the longitudinal direction of the width of the road, and the wheel H is mounted on the rail so that the wheel H can be moved. However, .

The working part A2 is connected to the upper part of the leg part A1 so as to be spaced apart from the upper surface of the road. A diverging member is coupled to the working part A2, To the road surface.

In addition, the diverging member is slidably movable along the working part (A2) to radiate microwaves to the entire road to cure the poured concrete more effectively.

Furthermore, when the width is small, the diverging member A3 may be directly coupled to the end portion thereof so as to radiate a microwave to the separate handle portion A6 (see FIG. 2 (B)).

3 shows a modification according to the present invention,

The working unit and the diverging member can be easily detachably coupled through the lock unit, and Fig. 3 relates to such a lock unit.

The locking unit K includes a first locking member K10, a second locking member K20 seated on the first locking member K10, and a second locking member K20 provided on the first locking member K10, And a locking member K30 for coupling the member K10 and the second locking member K20 to each other.

The first locking member K10 and the second locking member K20 are provided in the working unit and the diverging member and are provided at positions that can correspond to one or both sides of the working unit and the diverging unit, And the following description is based on FIG. 3 for ease of explanation.

Describing each configuration again in more detail,

The first locking member K10 is formed with a coupling portion K11 to which the second locking member K20 can be seated and coupled.

The coupling portion K11 may be formed in a step shape having a side surface and a bottom surface.

A pressing hole K111 is formed on the lower end surface of the coupling fixture K11.

A pressing member K12 provided on the first locking member K10 is partially protruded through the pressing hole K111,

More specifically, the pressing member K12 includes a pressing protrusion K121 partially exposed through the pressing hole K111 and a lower end of the pressing protrusion K121 inserted thereinto And a pressed casing (K122) for allowing the pressing protrusion (K121) to move up and down.

The pressing casing K122 is further provided with a first elastic body K123 which is in close contact with a lower end surface of the pressing protrusion K121 and is capable of applying an elastic force upward in the pressing protrusion K121.

When the pressing projection K21 of the second locking member K20 to be described later presses the pressing projection K121, the pressing projection K121 descends to enter the first locking member K10, And the casing K122 is configured to be slidable within the first lock member K10.

It is obvious that a separate passage is formed inside the first locking member K10 for the sliding movement of the pressed casing K122. The first magnet K13 and the second magnet K124 So that the pressed casing K122 slides in the first lock member K10.

More specifically, inside the lower end surface of the first locking member K10, or more precisely, the first locking member K10 connecting the imaginary extension line downward along the side surface of the coupling portion K11, A first magnet K13 is provided and a second magnet K124 is provided on one side of the pressed casing K122 or in the direction of the first magnet K13.

Further, the first magnet K13 and the second magnet K124 are configured to exert attractive force with each other.

Therefore, the pushing protrusion K121 is partially exposed through the pushing-in hole K111, so that the pushing casing K122 does not slide, The first magnet K13 pulls the second magnet K124 so that the pressed casing K122 can be slidably moved so that the pressed casing K122 can be slidably moved by pressing the pressing protrusion K121, In the direction of the first magnet K13.

When the pressed casing K122 moves in the direction of the first magnet K13, the pushing protrusion K122a formed at the lower end of the pressed casing K122 operates the locking member K30, Is inserted into the locking groove K23 of the second locking member K20 to fix the second locking member K20.

More specifically, a separate space is formed at the lower end of the first magnet K13 and the second magnet K124, and the push projection K122a is positioned in the space.

That is, the push projection K122a protrudes from the lower end of the pressed casing K122 in one direction, that is, in the direction of the locking member K30. In this case, it is preferable that the length of the push projection K122a is adjusted so that the end of the push projection K122a does not exceed the first magnet K13.

When the pressed casing K122 slides in the direction of the first magnet K13 by the above operation, the pressing protrusion K121 smoothly slides over the imaginary boundary line of the first magnet K13, At this time, the locking member K30 is pressed and operated.

Before describing the locking member K30, when the locking member K20 is tilted against the second locking member K20,

The second locking member K20 has a locking groove K23 formed at one side thereof and a pressing projection K21 provided at a lower portion thereof. When the second locking member K20 is seated in the coupling fixing portion K11, the pressing projection K21 is naturally pressed And has a structure that is inserted in the hole K111 to press the press protrusion K121 partially exposed through the press-through hole K111,

The locking groove K23 has a structure in which the locking bar K33 of the locking member K30 to be described later is inserted.

The locking member K30 is provided inside the first locking member K10 and more specifically inside the side of the coupling portion K11,

As shown in the drawing, a connecting bar K32 provided to be rotatable with respect to a rotation axis K35, a push bar provided at a lower end of the connecting bar K32 so as to be hinged by a first hinge axis K34, And a locking bar K33 hinged to the upper end of the connecting bar K32 via a second hinge axis K36.

Therefore, the push bar K31 and the locking bar K33 are slidable in opposite directions by the rotation of the connecting bar K32 with respect to the rotation axis K35.

As a result, when the pressed casing K122 moves in the direction of the first magnet K13, the push projection K122a pushes the push bar K31, And protrudes from the side of the first locking member K11 and is inserted into the locking groove K23 of the second locking member K20 so that they can be fixed to each other.

A locking device for locking the locking bar K33 more securely is characterized in that a partition wall K22 is formed in the locking groove K23 of the second locking member K20, And a fourth magnet K243 is provided at an end of the second pulling member K24.

Further, a third magnet (K331) to which attraction force with the fourth magnet (K243) is applied is further provided at an end of the locking bar (K33).

Therefore, when the locking bar K33 is inserted into the locking groove K23, the third magnet K331 at the end of the locking bar K33 and the fourth magnet K243 of the second pulling member K24 It is possible to prevent the locking bar K33 from falling out of the locking groove K23 by arbitrarily attempting to avoid falling by the attraction force.

In this case, when the locking bar K33 is separated from the locking groove K23 in the absence of the partition wall K22, 4 magnet (K243) is attached.

As described above, the first locking member K10 and the second locking member K20 are firmly fixed to each other, and the operation of separating them from each other will be described.

First, in order to separate them from each other, the safety device provided in the second lock member K20 described above must be released (an operation of moving the third magnet K331 and the fourth magnet K243 away from each other).

As described above, the second locking member K20 is further provided with a second pulling member K24.

The second pulling member K24 includes a second pulling cord K241 and a second pulling clip K242 and a fourth magnet K243 provided on the second pulling cord K241.

More specifically, the second pulling cord K241 is located on the opposite side of the locking groove K23 with respect to the partition wall portion K22, and has a fourth magnet K243 and a second pulling ring K242 .

At this time, the second pulling ring K242 protrudes to the outside of the second lock member K20.

Therefore, in order to release the safety device, the user pulls the second pulling ring K242, and by this operation, the fourth magnet K243 moves away from the third magnet K331 so that no attractive force acts on each other.

The locking bar K33 must be detached from the locking groove K23 in order to separate the second locking member K20 from the first locking member K10,

The first locking member K10 of the present invention is further provided with a first pulling member K15 for solving this problem.

The first pulling member K15 is similar to the second pulling member K24 and has a first pulling cord K151 fixed to the pressed casing K122 at one end and having a first pulling ring K152 at the other end, .

The first pulling collar K152 is configured to be exposed to the outside of the first lock member K10.

Therefore, when the user pulls the first pulling ring K152, the first magnet K13 and the second magnet K124 gradually separate from each other. When the pressing projection K121 is positioned in the pressing hole K111, The pressing protrusion K121 rises due to the elastic force of the one elastic body K123 and comes in contact with the pressing protrusion K21 located in the pressing hole K111 to be partially exposed in the pressing hole K111 The second locking member K20 can not be lifted only by the elastic force of the elastic body K123, but this is one of the separating processes, in which the second locking member K20 is pulled by the first locking member K15 while pulling the first pulling member K15, (K10)). ≪ / RTI >

Further, the second elastic body K37 is provided at one side of the push bar K31 (in the direction opposite to the push projection K122a) to push the push bar K31 toward the push projection K122a, So that the bar K33 is retracted from the locking groove K23 and is again located inside the first locking member K10.

In addition, although the respective operations have been separately described for the sake of convenience of explanation, the respective operations occur simultaneously in conjunction with each other, and the scope of the rights should not be construed to be limited.

4 shows another modification according to the present invention,

And a corner fastener 16 for connecting the leg portion A1 with a corner of the mounting portion.

The corner fastener 16 is bent and connected at a predetermined angle corresponding to the angle of engagement of the leg portion A1 with the working portion A2 and is connected to the mounting portions 11 of the leg portions A1, And a pair of fitting portions 16a to be inserted into the fitting portion 16a.

At this time, both legs A1 and A2 are cut in an oblique shape so as to be joined in a polygonal shape. Due to a machining error or the like, between the legs A1 and the ends of the working part A2 And there is a problem that the microwave or the concrete is accurately installed due to the movement due to such a gap.

The corner fastener 16 includes a guide groove 16b formed in the longitudinal direction of one of the fitting portions 16a and a shaft member 17 slidingly coupled to the guide groove 16b, When the leg portion A1 and the working portion A2 are engaged with each other, the leg portion A1 is moved to the corner portion of the corner fastener 16 together with the shaft member 17, And a sealing pad 18 which is in close contact with a coupling gap between the working part A2 and the working part A2.

The guide groove 16b is a groove formed in the front surface (or rear surface) of one of the fitting portions 16a and guides the movement of the shaft member 17 and the sealing pad 18. [

The shaft member 17 is engaged with the guide groove 16b and is movable along the longitudinal direction of the guide groove 16b. To the corner of the corner fastener (16), and also functions as a shaft which becomes the center of the left and right pivotal movement of the sealing pad (18).

The sealing pads 18 provide airtightness by filling the clearance between the legs A1 and the work A2 and are formed in a bag shape of a flexible material having a predetermined elastic force so as to be inflated and retracted, An air cell 18a filled with air is formed in the empty space.

When the corner fastener 16 having such a structure is used, due to a machining error occurring when the ends A1 and A2 of the working part A2 are slit- The sealing pad 18 is moved and rotated to the corner of the corner fastener 16 so that the sealing pad 18 is fixed at the correct position and angle, It is possible to close the coupling gap between the working part A1 and the working part A2.

The sealing pad 18 is pressurized inward when the leg portion A1 and the working portion A2 are engaged with each other so that the air inside the air cell 18a is expanded while being pushed to the edge, And the sealing gap between the working portions A2 is covered and the sealing pad 18 expands in the defect gap to completely seal the coupling gap to ensure airtightness.

While the present invention has been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and alternative arrangements, Should be interpreted as belonging to.

S: Concrete remodeling method 100: Cutting step
200: Placing step 300: Curing step
A: Maintenance apparatus A1: Leg
A2: working part A3: diverging member
H: Wheel A4: Auxiliary connecting member

Claims (4)

A cutting step (100) for cutting a broken portion of the road;
A pouring step (200) for pouring a concrete containing a functional powder material into a cut part of the broken part;
A curing step (300) for curing the concrete through a repair device (A) generating microwaves spaced from the upper part of the concrete poured area;
, ≪ / RTI >
The functional powder material contained in the concrete is coated on the concrete after being lyophilized,
The maintenance apparatus (A) used in the curing step
A pair of legs A1 having a wheel moving along both sides of the road, a work A2 connected to an upper portion of the pair of legs A1 so as to be spaced apart from the upper surface of the road, And a diverging member (A3) provided under the working unit (A2) for diverting the microwave to the surface of the road,
The concrete is cured by exposing the microwave to the surface of the poured concrete,
In the working portion A2,
In order to detachably couple the working portion (A2) and the diverging member (A3)
A first locking member K10 provided on the working portion A2 or the diverging member A3 and a second locking member K20 provided on the diverging member or the working portion to be seated on the first locking member K10, And a locking unit K provided on the first locking member K10 and composed of a locking member K30 for fixing the first locking member K10 and the second locking member K20 to each other,

The first locking member (K10)
And a pressing member K12 which is partially exposed to the lower end surface of the coupling portion K11 and has a push projection K122a formed on one side thereof, , ≪ / RTI >

The second locking member K20 includes a locking protrusion K21 for forming a locking groove K23 and pressing the upper portion of the pressing member K12 when the locking member K20 is seated on the coupling fixing portion K11,

The locking member K30
A connection bar K32 provided inside the first locking member K10 and rotatably provided through a rotation axis and a connection bar K32 hinged to the lower end of the connection bar K32 to be positioned in the end direction of the push projection K122a And a locking bar K33 hinged to the upper end of the connecting bar K32 and protruding to the side of the coupling fixing part K11,
When the second locking member K20 presses the pressing member K12, the first magnet K13 provided to the first locking member K10 and the second magnet K124 provided to the pressing member K12 The pushing member K12 moves in the first magnet direction K13 so that the push projection K122a pushes the push bar K31 and the locking bar K32 rotates by the rotation of the connecting bar K32, (K33) is inserted into a locking groove (K23) provided in the second locking member (K20) to fix the first locking member (K10) and the second locking member (K20). The method according to claim 1,
Wherein the diverging member (A3) is slidably movable along the working part (A2). 3. The method of claim 2,
Wherein the pair of legs (A1) are separated from each other by a width of a road to be constructed. The method according to claim 2 or 3,
Wherein a rail is provided in a longitudinal direction of a rim of the road to be installed, and the wheel (h) of the maintenance device is mounted on the rail and linearly moved.

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