JP3300762B2 - Method for repairing deteriorated concrete, electrode body and electrode panel used in the method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for decomposing and removing harmful substances of existing concrete deteriorated by salt damage, neutralization, etc. by utilizing electroosmosis, electrolysis and electrophoresis during electrokinetic phenomena. The present invention also relates to a method for repairing an existing concrete structure deteriorated due to salt damage, neutralization and the like, an electrode body and an electrode panel used in the method.

[0002]

2. Description of the Related Art Conventionally, as a method for repairing salt-damaged concrete in which salt has penetrated into existing concrete, the salt-damaged concrete is mechanically destroyed and removed, repaired with mortar containing no salt, and the concrete surface is shielded from salt. The salt damaged concrete was rehabilitated by coating with a highly reactive resin.

[0003]

However, in the above-mentioned conventional restoration method, it is difficult to measure the amount of salt infiltrated into the concrete, and when the salt penetration is deep and reaches near the reinforcing bar, the concrete is rejected. There is a problem that it is impossible to remove all of them, and further, the strength of the concrete structure is reduced.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem. Instead of mechanically removing salt-damaged concrete, salt in existing concrete structures is converted into an electroosmotic effect during electrokinetic phenomena. Repairing non-destructively degraded existing concrete by decomposing and removing it using electrolysis and electrophoresis, regenerating concrete neutralized with alkaline water, and protecting rebar in a plated state And an electrode body and an electrode panel used in the method.

[0005]

SUMMARY OF THE INVENTION According to the present invention, one or a plurality of short conductive wires having a sharp end portion at a predetermined interval are tied to one or more conductive wires and bound and fixed. Then, each of the sharp portions is radially protruded, and the whole is subjected to zinc plating or zinc painting to form an electrode wire having the sharp portion as a discharge terminal, and a plurality of the electrode wires having a predetermined interval. Forming the electrode body in a mesh-like manner, and making each sharp part of the electrode body contact the surface of the existing concrete deteriorated by salt damage and neutralization, fixing the electrode body to the existing concrete surface, In addition, while the electrode body is connected to the anode side of the DC power supply, a water retention mat is provided on the electrode body and fixed by contacting the existing concrete surface, and the water retention mat is made to retain electrolysis water. Existing existing Check the position of the reinforcing bar inside the REIT and make a hole, connect the reinforcing bar to the cathode side of the DC power supply, or, if there is no reinforcing bar inside the existing concrete, cut a groove in the existing concrete. Burying a conductive wire in the groove and filling the mortar, connecting the conductive wire to the cathode side of the DC power supply, and then applying a DC voltage from the DC power supply to the electrode body and the reinforcing bar or the conductive wire. Thus, an electric field having a high current density is generated by discharging from the sharp parts, and the electrolytic water in the water retention mat is wetted with the cement part in the existing concrete by the electroosmotic action during the electrokinetic phenomenon, and the reinforcing steel of the cathode is used. Or, when it reaches the conductive wire, electrolysis occurs at the same time, and the salt present in the pores in the concrete becomes chlorine ions, which are discharged out of the concrete system by electrophoresis, and Um hydroxyl group in the vicinity of the reinforcing bars or conductive wire is a cathode with electro-osmotic water (OH ^-), and the reproduces the neutralized concrete with a high alkaline water about pH 12, Zinc plated or painted to the electrode body The above problem has been solved by adopting a method in which zinc ions are formed by electrolysis and adhere to the reinforcing bar by electrophoresis to protect the reinforcing bar or the conductive wire in a plated state.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail with reference to the drawings. As shown in FIG. 1, one or more conductive wires 1 made of iron, copper, or the like have a predetermined interval. Then, one or a plurality of short conductive wires 3 made of iron, copper, or the like having a sharp end 2 are bound and fixed, and each sharp end 2 is radially protruded in one side direction. Zinc plating or zinc coating is applied to form an electrode wire 4 having the sharp portion 2 as a discharge terminal. Further, as shown in FIG. 2, a plurality of the electrode wires 4 are combined in a mesh at a predetermined interval. To form the electrode body 5. In FIG. 1, each sharp portion 2 is radially projected in one direction, but may be radially projected in multiple directions. Preferably, it is recommended to project radially in one direction.

As shown in FIG. 3, the electrode main body 5 having the above-mentioned structure is arranged such that each sharp portion 2 of the electrode main body 5 comes into contact with the surface of the existing concrete 6 which has been deteriorated by salt damage or neutralization. The main body 5 is fixed to the surface of the existing concrete 6 by fixing means (not shown) such as rivets, and the electrode main body 5 is connected to the anode side of the DC power supply P.

Then, a water retention mat 7 having a high water retention property formed of a fiber material such as a nonwoven fabric on the outer surface of the electrode body 5 is fixed to the existing concrete 6 surface by fixing means (not shown) such as rivets. The water retention mat 7 can be brought into contact with the surface of the existing concrete 6 through the mesh portion of the electrode body 5.

The water retention mat 7 is impregnated with water for electrolysis. As the water for electrolysis, for example, fresh water, alkali-reduced water or magnetized water is used. The water for electrolysis preferably has a small cluster of water. In particular, magnetized water has small water clusters and therefore a large unit surface area, and therefore has the ability to increase the number of chlorine ions in contact, and is excellent as electrolysis water used in the method of the present invention.

On the other hand, the position of the reinforcing bar 8 inside the deteriorated existing concrete 6 is confirmed, a hole is made with a drill or the like, and a connection fitting (not shown) such as a self-tapping screw is embedded in the reinforcing bar 8. , And the cathode side of the DC power supply P is connected thereto.

The DC voltage from the DC power source is applied to the electrode body 5.
In FIG. 3, each sharp portion 2 of the electrode wire 4 of the electrode body 5 is provided so as to radially protrude from the conductive wire 1 in the direction of the existing concrete 6 inside (one side). By touching the existing 6 concrete surfaces,
Since the electric field having a high current density is generated by discharging from each of the sharp parts 2 toward the reinforcing bar 8, the electrolyzing water in the water retaining mat 7 on the anode side is subjected to the electroosmotic action during the electrokinetic phenomenon, so that the existing concrete is discharged. The wetted portion of the cement in 6 reaches the reinforcing bar 8 of the cathode.

The sharper the tip of the electrode is, the easier it is for the lines of electric force to gather, and the electric field near the electrode becomes very strong, so that the conductive wire 1 comes into contact with the existing concrete 6 surface inside (one side). From each sharp part 2 to the reinforcing bar 8 of the cathode
The electrolysis water permeates into the existing concrete 6 without being hindered by the gravel and coarse aggregate in the existing concrete 6 due to the electroosmotic action during the electrokinetic phenomenon, and at the same time, Electrolysis occurs, and the salt present in the pores in the concrete becomes chlorine ions and is discharged out of the concrete system by electrophoresis. On the other hand, sodium becomes a hydroxyl group (OH ⁻ ) in the vicinity of the reinforcing bar 8 serving as a cathode together with electroosmotic water, and concrete neutralized with alkaline water having a high pH of about 12 is regenerated, and zinc plated or coated on the electrode body 5 is coated. Is converted to zinc ions by electrolysis, adheres to the surface of the reinforcing bar 8 by electrophoresis, and the reinforcing bar 8 is protected in a plated state by zinc ions.

The method for retaining the water for electrolysis in the water retaining mat 7 is optional. However, if the existing concrete 6 is a vertical or inclined wall surface, the electric water for electric field flows below the water retaining mat 7 over time. It is recommended to use a sprinkler to inject water at regular intervals to keep water and replenish it.

FIG. 4 is a longitudinal sectional view showing another embodiment of the present invention. In the embodiment shown in FIG. 3, a water retention mat 7 is provided on the outer surface of the electrode main body 5. The ones
The electrode body 5 is arranged on the outer surface of the water retention mat 7 and
Each sharp part 2 penetrates the water retention mat 7 and the water retention mat 7
And each of the sharp portions 2 is formed so as to come into contact with the existing concrete 6 surface. Since almost the entire surface of the water retention mat 7 shown in FIG. 4 is in contact with the existing concrete 6, the permeability of the electrolytic water to the existing concrete 6 is good, and the concrete repairing efficiency is good.

Since each sharp portion 2 of the electrode wire 4 constituting the electrode body 5 is different from FIG. 3 even if it protrudes radially from the conductive wire 1 in multiple directions, the reinforcing bar 8 of the cathode is only on the inner side. Since each of the sharp portions 2 protruding outward can also be strongly discharged in the direction of the reinforcing bar 8 of the cathode to produce an electric field having a high current density, it can be sufficiently used in the method of the present invention. That is, in this case, as shown in a longitudinal sectional view showing still another embodiment of the present invention in FIG. 5, only the sharp parts 2 protruding inward penetrate the water retention mat 7 and the water retention mat is provided. 7
Each of the sharp portions 2 is used as it is, except that the sharp portions 2 are brought into contact with the surface of the existing concrete 6 and are projected inward.

The electrode wires 4 constituting the electrode main body 5 are provided with a plurality of conductive wires 1 at a predetermined interval and a sharp end 2
A plurality of short conductive wires 3 may be bound to project the respective sharp portions 2 radially in multiple directions, and the barbed wire 9 sold by zinc plating may be used as it is. When the electrode body 5 is formed by using the barbed wire 9, each sharp portion 2 protrudes radially in multiple directions, but since the reinforcing bar 8 of the cathode is located only on the inner side, the outer side is formed. Each of the sharp portions 2 protruding in the direction can strongly discharge in the direction of the reinforcing bar 8 of the cathode to produce an electric field having a high current density, and thus can be sufficiently used in the method of the present invention. In the case where the barbed wire 9 is used, as shown in a longitudinal sectional view showing still another embodiment of the present invention in FIG. 6, only the sharp portions 2 protruding inward penetrate the water retention mat 7. Then, the sharp portions 2 are made to protrude toward the inner side surface of the water retention mat 7 so that the sharp portions 2 are brought into contact with the surface of the existing concrete 6, and the sharp portions 2 except for protruding inward are used as they are.

As shown in FIG. 7, the electrode main body 5 uses a wire mesh 11 which is sold by combining conductive wires 10 in a mesh shape, and has a predetermined interval in one side direction of the wire mesh 11. The short conductive wire 3 having a sharp tip 2
A book or a plurality of books are bound and projected radially,
It is also possible to use a zinc-plated or zinc-coated one as a whole. The method of use in this case is the same as that shown in FIGS. In addition, unlike the case of FIG. 7, even if the sharp portion 2 radially protrudes from the conductive wire 10 in multiple directions, since the rebar 8 of the cathode is only on the inner side, each of the sharp portions 2 protruding outward. However, since the electric field having a high current density can be generated by strongly discharging in the direction of the reinforcing bar 8 of the cathode, it can be sufficiently used in the method of the present invention. The method of use in this case is the same as that shown in FIG.

The deteriorated existing concrete 6
When there is no reinforcing bar inside, as shown in FIG. 8, a narrow groove 12 having a width of about the blade of a concrete cutter is cut into the surface of the existing concrete 6, and a conductive wire 13 is embedded in the groove 12, and a direct current is inserted into the groove. Connect the cathode side of the power supply P to the mortar 14
By using the conductive wire 13 as a cathode, the same effect as in the case where the reinforcing bar 8 is provided can be obtained. In addition, even if the restoration of the deteriorated concrete is completed, the conductive wire 13 is buried without being removed. Also in this case, similarly to the above, the zinc plated or coated on the electrode body 5 becomes zinc ions by electrolysis, adheres to the surface of the conductive wire 13 by electrophoresis, and the conductive wire 13 is protected in a plated state with zinc ions. .

The zinc-plated zinc or painted zinc applied to the electrode body 5 used in the method for repairing deteriorated concrete of the present invention gradually disappears with the progress of the repair work. Zinc plating or zinc painting is required.

FIG. 9 is a front view showing still another embodiment of the present invention, in which a water retention mat 7 is disposed on the outer surface of the electrode body 5 and the electrode body 5 and the water retention mat 7 are attached. The electrode panel 16 is mounted and fixed integrally to the frame 15. The electrode panel 16 is used by attaching a mounting frame 15 to an existing concrete 6 surface with an anchor bolt or the like. By using the electrode panel 16, it is possible to prepare in advance a number of electrode panels 16 that conform to the shape of the existing concrete surface 6 such as a flat plate or a curved shape according to the construction site, and it is possible to shorten the construction period. Along with
Construction is also easy. Since the operation of the electrode panel 16 is the same as that shown in FIG. 3, the description will be omitted.

FIG. 10 is a front view showing still another embodiment of the present invention. The electrode panel 16 shown in FIG.
In FIG. 10, a water retention mat 7 is provided on the outer surface of the electrode body 5, but in FIG.
And each of the sharp portions 2 protruding inwardly of the electrode body 5 penetrates the water retention mat 7 so that the water retention mat 7
The water retaining mat 7 and the electrode main body 5 are integrally mounted and fixed on a mounting frame 17 by protruding toward the inner side of the electrode panel 1.
8 is assumed. The electrode panel 18 in FIG. 10 is used by attaching the mounting frame 17 to the existing concrete 6 surface with anchor bolts or the like, similarly to the electrode panel 16 in FIG. By using the electrode panel 18, it is possible to prepare in advance a number of electrode panels 18 that match the shape of the existing concrete 6 surface such as a flat plate or a curved shape depending on the construction site, and it is possible to shorten the construction period. In addition, construction becomes easy. The operation of the electrode panel 18 is the same as that shown in FIG.

[0022]

The present invention is as described above. Therefore, instead of mechanically removing the salt-damaged concrete impregnated with salt as in the prior art, the electroosmotic action, electrolysis and electrophoresis during the electrokinetic phenomenon are performed. By utilizing the action to decompose and remove the salt in non-destructively degraded concrete, it is possible to regenerate concrete neutralized with alkaline water, so there is no need to remove it mechanically as in the past, Degraded concrete can be repaired with an extremely simple device, and the internal reinforcing steel can be protected in a plated state.

[Brief description of the drawings]

FIG. 1 is a side view of an electrode wire used in the method of the present invention.

FIG. 2 is a front view of an electrode body used in the method of the present invention.

FIG. 3 is a longitudinal sectional view showing an embodiment of the method of the present invention.

FIG. 4 is a longitudinal sectional view showing another embodiment of the method of the present invention.

FIG. 5 is a longitudinal sectional view showing still another embodiment of the method of the present invention.

FIG. 6 is a longitudinal sectional view showing still another embodiment of the method of the present invention.

FIG. 7 is a front view showing another embodiment of the electrode body used in the method of the present invention.

FIG. 8 is a longitudinal sectional view showing an embodiment of the present invention in a case where existing concrete is unstretched in the method of the present invention.

FIG. 9 is a partially cutaway front view showing an electrode panel used in the method of the present invention.

FIG. 10 is a front view showing another embodiment of the electrode panel used in the method of the present invention.

[Explanation of symbols]

1 conductive wire, 2 sharp part, 3 short conductive wire, 4
Electrode wire, 5 electrode body, 6 existing concrete,
7 Water retention mat, 8 Reinforcing bar, 9 Barbed wire, 1
0 conductive wire, 11 wire mesh, 12 grooves, 13 conductive wire, 14 mortar, 15 mounting frame, 16 electrode panel, 17 mounting frame, 18 electrode panel.

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) E04G 23/02 C04B 41/60 C23F 13/00

Claims (17)

(57) [Claims] A single or a plurality of short conductive wires each having a sharp end at a predetermined interval are bound and fixed to one or a plurality of conductive wires, and each of the sharp portions is radiated. To form an electrode wire with the sharp portion as a discharge terminal, and to form an electrode body by combining a plurality of the electrode wires at a predetermined interval in a mesh shape. The electrode body is fixed to the existing concrete surface by forming and making each sharp portion on the inner surface side of the electrode body contact the surface of the existing concrete deteriorated by salt damage and neutralization, and fixing the electrode body to the existing concrete surface. While connected to the anode side of the DC power supply, a water retention mat is arranged on the outer surface of the electrode body,
The water retention mat is brought into contact with the existing concrete surface through the mesh of the electrode body and fixed, and the water retention mat is made to retain electrolysis water.Furthermore, the position of the reinforcing steel inside the deteriorated existing concrete is confirmed and a hole is made. Then, the rebar is connected to the cathode side of the DC power source, and then a DC voltage from the DC power source is applied to the electrode body and the rebar, thereby discharging from the sharp portions to form an electric field having a high current density. The water for electrolysis in the water retention mat reaches the rebar of the cathode while moistening the cement part in the existing concrete due to the electroosmotic action during the electrokinetic phenomenon, and at the same time, electrolysis occurs and exists in the pores in the concrete. Salt is converted to chloride ions and discharged out of the concrete system by electrophoresis.Sodium is added to the hydroxyl group near the rebar as the cathode together with electroosmotic water. (OH
⁻ ), The concrete neutralized with alkaline water having a high pH of about 12 is regenerated, and the zinc plated or coated on the electrode body becomes zinc ions by electrolysis, adheres to the reinforcing steel bar by electrophoresis, and becomes plated. A method for repairing degraded concrete, characterized by protecting a reinforcing bar. 2. A method according to claim 1, wherein one or more short conductive wires having a sharp end at a predetermined interval are bound to one or a plurality of conductive wires and fixed to each other. To form an electrode wire with the sharp portion as a discharge terminal, and to form an electrode body by combining a plurality of the electrode wires at a predetermined interval in a mesh shape. The electrode body is fixed to the existing concrete surface by forming and making each sharp portion on the inner surface side of the electrode body contact the surface of the existing concrete deteriorated by salt damage and neutralization, and fixing the electrode body to the existing concrete surface. While connected to the anode side of the DC power supply, a water retention mat is arranged on the outer surface of the electrode body,
The water retention mat is brought into contact with the existing concrete surface through the mesh of the electrode body and fixed, and the water retention mat is made to retain electrolytic water. Further, when there is no reinforcing steel inside the deteriorated existing concrete, the surface of the existing concrete is A narrow groove is engraved from the groove, a conductive wire is buried in the groove and filled with mortar, and the conductive wire is connected to the cathode side of the DC power supply. By applying the wire to the wire rod, it discharges from each of the sharp parts to create an electric field with a high current density, and the water for electrolysis in the water retention mat wets the cement part in the existing concrete due to the electroosmotic action during the electrokinetic phenomenon. While reaching the conductive wire of the cathode, electrolysis occurs at the same time, the salt existing in the pores in the concrete becomes chlorine ions, The sodium is converted into a hydroxyl group (OH ⁻ ) in the vicinity of the conductive wire which is a cathode together with the electroosmotic water, and the concrete neutralized with alkaline water having a high pH of about 12 is recycled together with the electroosmotic water. A method for repairing degraded concrete, characterized in that zinc plated or coated on an electrode body is converted into zinc ions by electrolysis and adheres to the conductive wire by electrophoresis to protect the conductive wire in a plated state. 3. A single or a plurality of short conductive wires, each having a sharp end at a predetermined interval, are bound and fixed to one or more conductive wires, and the sharp portions are radially connected. To form an electrode wire with the sharp portion as a discharge terminal, and to form an electrode body by combining a plurality of the electrode wires at a predetermined interval in a mesh shape. While forming, the water retention mat is brought into contact with the surface of the existing concrete deteriorated due to salt damage and neutralization and fixed,
And the electrode body is arranged on the outer surface of the water retention mat, and each sharp portion on the inner surface side penetrates the water retention mat and protrudes toward the inner surface side of the water retention mat. While contacting and fixing the existing concrete surface, water for electrolysis is retained in the water retaining mat, the position of the reinforcing steel inside the deteriorated existing concrete is confirmed, and a hole is made. Side, and then applying a DC voltage from the DC power source to the electrode body and the rebar, thereby discharging from each of the sharp portions to create an electric field with a high current density, and the water for electrolysis in the water retaining mat is interfacial. Due to the electroosmotic action during the electric phenomenon, the cement part in the existing concrete reaches the reinforcing bar of the cathode while wetting, and at the same time, electrolysis occurs, and the salt existing in the pores in the concrete becomes chlorine ion. When it is turned on, it is discharged by electrophoresis out of the concrete system, and sodium is added to the hydroxyl group (OH
⁻ ), The concrete neutralized with alkaline water having a high pH of about 12 is regenerated, and the zinc plated or coated on the electrode body is converted to zinc ions by electrolysis and adheres to the rebar by electrophoresis to form a plated state. A method for repairing degraded concrete, characterized by protecting a reinforcing bar. 4. A single or a plurality of short conductive wires each having a sharp end and having a predetermined interval are bound and fixed to one or a plurality of conductive wires, and each of said sharp portions is radiated. To form an electrode wire with the sharp part serving as a discharge terminal, and to form an electrode body by combining a plurality of the electrode wires at a predetermined interval in a mesh form. The water retention mat is fixed to the surface of the existing concrete that has been formed and deteriorated due to salt damage and neutralization, and the electrode main body is disposed on the outer surface of the water retention mat, and the sharp portions on the inner surface side are formed. By penetrating the water retention mat and projecting toward the inner surface side of the water retention mat, the projecting sharp portions are brought into contact with the existing concrete surface and fixed, and the water retention mat is allowed to retain electrolysis water. Inside of existing concrete When there is no rebar, a narrow groove is carved from the surface of the existing concrete, a conductive wire is buried in the groove and mortar is filled, and the conductive wire is connected to the cathode side of the DC power supply. By applying a DC voltage from the DC power source to the electrode body and the conductive wire, electric discharge is generated from the sharp portions to create an electric field having a high current density, and the electrolyzing water in the water retention mat is electroosmotic during the electrokinetic phenomenon. Due to this, the wetted cement part in the existing concrete reaches the conductive wire of the cathode, and at the same time, electrolysis occurs, and the salt existing in the pores in the concrete becomes chlorine ions, and electrophoresis action outside the concrete system. in drained, sodium hydroxyl in the vicinity of the conductive wire is the cathode with electro-osmotic water (OH ^-), and the concrete was neutralized with a high alkaline water about pH12 And the zinc plated or coated on the electrode body is converted to zinc ions by electrolysis and adheres to the conductive wire by electrophoresis to protect the conductive wire in a plated state. How to repair concrete. 5. A single or a plurality of short conductive wires having a sharp tip at a predetermined interval at one or more conductive wires are bound and fixed, and each of said sharp portions is radiated. The electrode body is formed by applying zinc plating or zinc coating to the whole to provide electrode wires with the sharp portions serving as discharge terminals, and combining a plurality of the electrode wires at a predetermined interval in a mesh form. At the same time, a water retention mat is provided on the outer surface of the electrode body, and the electrode body and the water retention mat are integrally mounted and fixed to a mounting frame to form an electrode panel. The water retention mat is brought into contact with the surface of the existing concrete deteriorated by salt damage and neutralization through the sharp part and the mesh to fix the electrode panel, and the electrode body is connected to the anode side of the DC power supply, while the water retention mat is electrolyzed. Keep the water, and before Check the position of the reinforcing steel inside the deteriorated existing concrete, make a hole, connect the reinforcing steel to the cathode side of the DC power supply, and then apply the DC voltage from the DC power supply to the electrode body and the reinforcing steel. By doing so, an electric field having a high current density is created by discharging from each of the sharp parts, and the water for electrolysis in the water retention mat is electro-osmotic during the electrokinetic phenomenon, thereby wetting the cement part in the existing concrete to form the cathode. At the same time, the steel reaches the rebar and undergoes electrolysis.The salt present in the pores in the concrete becomes chlorine ions and is discharged out of the concrete system by electrophoresis.Sodium along with electroosmotic water is near the rebar as the cathode. Hydroxyl group (OH
⁻ ), The concrete neutralized with alkaline water having a high pH of about 12 is regenerated, and the zinc plated or coated on the electrode body is converted to zinc ions by electrolysis and adheres to the rebar by electrophoresis to form a plated state. A method for repairing degraded concrete, characterized by protecting a reinforcing bar. 6. A single or a plurality of short conductive wires each having a sharp end at a predetermined interval between one or more conductive wires are bound and fixed, and each of said sharp portions is radiated. The electrode body is formed by applying zinc plating or zinc coating to the whole to provide electrode wires with the sharp portions serving as discharge terminals, and combining a plurality of the electrode wires at a predetermined interval in a mesh form. At the same time, a water retention mat is provided on the outer surface of the electrode body, and the electrode body and the water retention mat are integrally mounted and fixed to a mounting frame to form an electrode panel. The water retention mat is brought into contact with the surface of the existing concrete deteriorated by salt damage and neutralization through the sharp part and the mesh to fix the electrode panel, and the electrode body is connected to the anode side of the DC power supply, while the water retention mat is electrolyzed. Keep the water, and before When there is no reinforcing steel inside the deteriorated existing concrete, a narrow groove is carved from the surface of the existing concrete, a conductive wire is embedded in the groove and mortar is filled, and the conductive wire is connected to the cathode side of the DC power supply. And then applying a DC voltage from the DC power source to the electrode body and the conductive wire, thereby discharging from each of the sharp parts to create an electric field having a high current density, and the water for electrolysis in the water retention mat is interfacial. Due to the electroosmotic action during the electric phenomena, the cement part in the existing concrete reaches the conductive wire of the cathode while wetting, and at the same time, electrolysis occurs, and the salt existing in the pores in the concrete becomes chlorine ions, the outside of the system is discharged by electrophoresis action, sodium hydroxyl in the vicinity of the conductive wire is the cathode with electro-osmotic water (OH ^-), and the high of about pH12 Along with regenerating concrete neutralized with alkaline water, zinc plated or coated on the electrode body becomes zinc ions by electrolysis, adheres to the conductive wire by electrophoresis, and protects the conductive wire in the plated state. A method for repairing degraded concrete, characterized in that: 7. A single or a plurality of short conductive wires each having a sharp end at a predetermined interval between one or a plurality of conductive wires are bound and fixed, and each of said sharp portions is radiated. The electrode body is formed by applying zinc plating or zinc coating to the whole to provide electrode wires with the sharp portions serving as discharge terminals, and combining a plurality of the electrode wires at a predetermined interval in a mesh form. In addition, the electrode body is disposed on the outer surface of the water retention mat, and each sharp portion on the inner surface side penetrates the water retention mat and protrudes toward the inner surface side of the water retention mat. And an electrode panel formed integrally with the mounting frame to form an electrode panel, and further contact each sharp portion protruding toward the inner surface side of the water retention mat and the electrode body with the surface of existing concrete deteriorated due to salt damage and neutralization. To fix the electrode panel Is connected to the anode side of the DC power supply, while the water retention mat is made to retain the water for electrolysis, and furthermore, the position of the reinforcing steel inside the deteriorated existing concrete is confirmed, and a hole is made. Side, and then applying a DC voltage from the DC power source to the electrode body and the rebar, thereby discharging from each of the sharp portions to create an electric field with a high current density, and the water for electrolysis in the water retaining mat is interfacial. Due to the electroosmotic action during the electric phenomenon, the cement part in the existing concrete reaches the reinforcing bar of the cathode while wetting, and at the same time, electrolysis occurs, and the salt existing in the pores in the concrete becomes chlorine ions, and The sodium is discharged out of the system by electrophoresis, along with electroosmotic water.
⁻ ), The concrete neutralized with alkaline water having a high pH of about 12 is regenerated, and the zinc plated or coated on the electrode body is converted to zinc ions by electrolysis and adheres to the rebar by electrophoresis to form a plated state. A method for repairing degraded concrete, characterized by protecting a reinforcing bar. 8. One or a plurality of short conductive wires each having a sharp end at a predetermined interval are bound and fixed to one or a plurality of conductive wires, and each of said sharp portions is radiated. The electrode body is formed by applying zinc plating or zinc coating to the whole to provide electrode wires with the sharp portions serving as discharge terminals, and combining a plurality of the electrode wires at a predetermined interval in a mesh form. In addition, the electrode body is disposed on the outer surface of the water retention mat, and each sharp portion on the inner surface side penetrates the water retention mat and protrudes toward the inner surface side of the water retention mat. And an electrode panel formed integrally with the mounting frame to form an electrode panel, and further contact each sharp portion protruding toward the inner surface side of the water retention mat and the electrode body with the surface of existing concrete deteriorated due to salt damage and neutralization. To fix the electrode panel Is connected to the anode side of the DC power supply, while the water retention mat retains the water for electrolysis, and when there is no reinforcing steel inside the deteriorated existing concrete, a narrow groove is cut out from the surface of the existing concrete. A mortar is filled with a conductive wire inside, and the conductive wire is connected to the cathode side of the DC power supply. Thereafter, a DC voltage from the DC power supply is applied to the electrode body and the conductive wire, thereby forming the sharpened wires. Discharge from the part to create an electric field with a high current density, and the electrolyzing water in the water retention mat reaches the conductive wire of the cathode while wetting the cement part in the existing concrete by the electroosmotic action during the electrokinetic phenomenon. Electrolysis occurs, and the salt present in the pores in the concrete is converted into chloride ions, which are discharged out of the concrete system by electrophoresis. Hydroxyl in the vicinity of the conductive wire is the cathode with permeability (OH ^-), and the reproduces the neutralized concrete with a high alkaline water about pH 12, Zinc plated or painted to the electrode body becomes zinc ion by electrolysis A method for repairing degraded concrete, wherein the conductive wire is protected in a plated state by attaching to the conductive wire by electrophoresis. 9. The method according to claim 1, wherein the electrode wire is a barbed wire. 10. A conductive wire of a metal mesh formed by combining conductive wires in a mesh shape, wherein one or a plurality of short conductive wires each having a constant interval and a sharp end portion are bound. The method for repairing degraded concrete according to any one of claims 1 to 8, wherein the method is to radially protrude and to perform galvanization or zinc coating on the whole. 11. A single or a plurality of short conductive wires each having a sharp end at a predetermined interval between one or more conductive wires are bound and fixed, and each of said sharp portions is radiated. To form an electrode wire having the sharp portion as a discharge terminal by applying zinc plating or zinc coating on the whole, and combining the electrode wires in a mesh shape with a predetermined interval. The electrode body used for the method of repairing deteriorated concrete. 12. The electrode body used in the method for repairing deteriorated concrete according to claim 11, wherein the electrode wire is a barbed wire. 13. A conductive wire of a wire mesh formed by combining conductive wires in a mesh form, and one or a plurality of short conductive wires having a sharp end at a fixed interval are bound and fixed. An electrode body for use in a method for repairing degraded concrete, wherein each of the sharp portions is projected radially and zinc plating or zinc coating is applied to the whole. 14. One or a plurality of short conductive wires having a sharp tip at a predetermined interval are bound and fixed to one or a plurality of conductive wires, and the sharp portions are radially connected. The electrode body is formed by applying zinc plating or zinc coating to the whole to provide electrode wires with the sharp portions serving as discharge terminals, and combining a plurality of the electrode wires at a predetermined interval in a mesh form. An electrode panel for use in a method for repairing degraded concrete, wherein a water retention mat is provided on an outer surface of the electrode body, and the electrode body and the water retention mat are integrally mounted and fixed on a mounting frame. 15. A single or a plurality of short conductive wires each having a sharp end at a predetermined interval are bound and fixed to one or a plurality of conductive wires, and the sharp portions are radially connected. The electrode body is formed by applying zinc plating or zinc coating to the whole to provide electrode wires with the sharp portions serving as discharge terminals, and combining a plurality of the electrode wires at a predetermined interval in a mesh form. In addition, the electrode body is disposed on the outer surface of the water retention mat, and each sharp portion on the inner surface side penetrates the water retention mat and protrudes toward the inner surface side of the water retention mat. And an electrode panel used in a method for repairing degraded concrete, wherein the electrode panel is integrally fixed to a mounting frame. 16. The electrode panel used in the method for repairing deteriorated concrete according to claim 14, wherein the electrode wire is a barbed wire. 17. A single or a plurality of short conductive wires having a sharp end portion at a constant interval are bound to a wire mesh conductive wire formed by combining conductive wires in a mesh shape. The electrode panel used in the method for repairing degraded concrete according to claim 14 or 15, wherein the sharpened portions are radially projected, and the whole is coated with zinc plating or zinc coating.