KR100964064B1 - Injection materials with nature-friendly functional inorganic matter for cracks, and its crack repair method and apparatus using the materials thereof - Google Patents

Abstract

PURPOSE: A concrete crack repair process using environmentally-friendly functional inorganic grout and an apparatus for the same are provided to widen injection diameter to the crack part and to quickly and rapidly perform repair process. CONSTITUTION: A concrete crack repair process using environmentally-friendly functional inorganic grout comprises: a step of inserting a nozzle part(40) to an insertion hole of a support part(50) to assemble an injection nozzle(30); a step of inclining the injection nozzle with respect to a structure(200) in a predetermined tilt angle and placing the end of the nozzle at a crack site(210); a step of vertically placing the injection nozzle with regard to the structure to close one side of the support to the structure; a step of binding the injection part(20) to back end of the nozzle; and a step of injecting the crack injection material(10) to the crack site.

Description

Injection material with nature-friendly functional inorganic matter for cracks, and its crack repair method and apparatus using the materials

The present invention relates to a concrete crack repair method and apparatus using eco-friendly functional inorganic crack injection material, concrete cracks using eco-friendly functional inorganic crack injection material that can accurately inject the cement-based functional inorganic binder to the cracking site that does not cause soil or groundwater contamination It relates to a repair method and a device thereof.

Concrete structures are widely used as construction materials for semi-permanent structures because of their excellent durability. However, in concrete structures, large and small cracks occur due to various causes such as dry shrinkage of the concrete, floating settlement, bleeding or excessive stress. In addition, when the concrete structure is exposed to the marine environment for a long time, the concrete is eroded by the action of seawater, the reinforcing steel is corroded, and the concrete is cracked and peeled off due to volume expansion, resulting in deterioration of the concrete structure. . In winter, concrete may be damaged due to freezing and thawing, and in the case of long-term exposure to automobile exhaust, neutralization may cause internal reinforcing bars to corrode and concrete to crack or fall off.

Such cracks may affect the structural safety of the structure depending on the location of the cracks, the width and depth of the cracks, and may cause deterioration due to reinforcing steel or deteriorate durability.

In addition to these causes, reinforcing steel may be corroded and concrete may be damaged by neutralizing concrete structures, alkali aggregate reactions, freezing thawing, salting, chemical erosion, factory wastewater and domestic sewage. When the internal reinforcing steel is corroded and the concrete is cracked or dropped due to the above causes, it is necessary to restore it to increase the durability of the structure stably, and crack injection materials for various concrete structures are used in the field. .

The most widely used material for repairing fine cracks is epoxy resin. Epoxy has high compressive strength and tensile strength, can be manufactured with various viscosities, and is widely used as a crack repair and reinforcing material for structures because of its early strength and excellent adhesion.

However, epoxy exhibits great adhesive strength at the initial stage of construction, but because it has heterogeneous properties with concrete in shrinkage and thermal expansion due to drying, the adhesive performance is deteriorated in the long term, resulting in the dropping of new and old concrete bond surfaces. .

In addition, handling is somewhat complicated and proper temperature management is required, and there is a problem in fire resistance in case of fire, and in case of wet surface, it is hard to be hardened, so adhesion strength may be reduced, and dry shrinkage rate, elastic modulus, thermal expansion coefficient and There may be problems such as additional stress or cracking due to the difference in physical properties such as strength. In addition, the unit price is expensive and in the case of a specific epoxy may be harmful to the human body has a very difficult disadvantage of handling.

In addition, conventionally, when injecting a crack injection material such as a grout material to the crack site, the injection nozzle is in close contact with the crack site, and then the crack injection material is injected using this, the conventional injection nozzle (30 ') is shown in FIG. As in, in order to improve the adhesion to the cracks and to prevent the external leakage of the crack injection material and to provide a handle function of the operator, the part in contact with the cracks has a plate shape, and the part connected to the injection part is projected It has a 'T' shape, and when the injection nozzle is in close contact with the cracked area, the cracked part is covered by the contacting part of the injection nozzle, and the maintenance work depends on the intuition of a skilled worker. There was a problem in that it is difficult to accurately inject the crack injection material into the crack portion, such as proceeding.

In addition, in order to solve the above problems, as in Patent Registration No. 0497619, a through-hole is formed in the center, but a stepped body is formed in the inner direction in the middle of the through-hole, and an outward flange around the tip of the through-hole of the main body. In the crack point injection mechanism having a formed structure, there is also an injection mechanism to install a protruding tube that can be introduced into the through hole at the tip of the through hole of the injection device,

As the injection mechanism is such that the projection tube is introduced by the elastic member installed in the through hole, it is difficult to design according to the installation of the elastic member, and the elastic member is exposed to the crack retaining material when the crack injection material is injected. There was a problem that occurred.

In addition, after forming the protrusion on the protrusion pipe, but also to be coupled to the injection mechanism, but because it has to be provided with a separate hole for coupling the protrusion pipe on the stepped seat is formed, the structure of the injection nozzle is complicated, Molding work is very difficult, there was a problem that the cost increases.

In addition, the injection nozzle with the protruding pipe also has a small degree of protruding in consideration of the entire injection nozzle size, so that it is difficult for the operator to secure the field of view (to secure the field of view for the coincidence operation between the cracked portion and the injection nozzle). In the case of this poor tunnel and underground structure, there is a problem in that it is not possible to accurately inject the crack injection material into the crack site using a conventional injection nozzle.

In addition, conventionally, a crack injection material is usually used in Portland cement, but since Portland cement generally has a maximum particle diameter of about 0.1 mm, cracks that can be repaired using ordinary Portland cement are limited.

In other words, the relationship between the crack width and the maximum particle size of the injectable injection material in the crack repair of rock or concrete structures, JK Michel suggests that the maximum particle size of the injection material should be less than or equal to the crack width. The minimum width of the crack that can be repaired by using is about 0.3 mm.

However, considering that the cracks requiring repair are generally 0.4 mm or more in terms of durability and 0.2 mm or more in terms of waterproofing, the conventional ordinary Portland cement-based crack injection materials are not satisfactory in terms of durability but are inadequate in terms of waterproofing. There was this.

The present invention is to solve the above object, the object is to include a functional inorganic binder made of ultra-fine particles, applied to all cracks generated in the structure regardless of the crack width, improve the penetration force by reducing the loss of injection pressure It is to provide a concrete crack repair method and apparatus using an environmentally friendly functional inorganic crack injection material.

It is another object of the present invention to provide concrete crack repairing method and apparatus using eco-friendly functional inorganic crack injection material which can perform repair work quickly and accurately through accurate injection of cracks, and widen the injection radius for cracks. It is.

Another object of the present invention is to increase the adhesive strength of new and old concrete, to improve the durability by crack repair, reinforcement, and concrete using eco-friendly functional inorganic crack injection material that can be restored to prevent the occurrence of rework in advance It is to provide a crack repair method and an apparatus thereof.

Eco-friendly functional inorganic crack injection material according to the present invention is a functional inorganic binder 45 ~ 55wt%, CSA type expander 1 ~ 5wt%, C ₁₂ A ₇ 1 to ₅ wt% of quickener, 0.1 to 0.3 wt% of repairing agent, 35 to 45 wt% of CaCO _{3, and} 0.1 to 0.2 wt% of high fluidizing agent,

The functional inorganic binder is composed of blast furnace slag cement having a hornblende powder having a powder degree of 8,000 cm 2 / g 50 to 80 wt% and the remainder having a powder degree of 8,000 cm 2 / g.

The present invention is a crack repair method for the cracked portion of the structure; A temporary assembly step of temporarily assembling the injection nozzle by inserting the nozzle part into the insertion hole of the support part so that the nozzle tip of the nozzle part protrudes from the support part; Inclining the prefabricated injection nozzle with respect to the structure at a predetermined inclination angle θ, and then positioning the nozzle tip of the protruding nozzle portion at the crack portion; An injection nozzle adhesion step of vertically positioning the injection nozzle with respect to the structure around the nozzle tip positioned at the crack and pushing the support part toward the structure to closely contact one side of the support part with the structure; The injection unit is coupled to the nozzle rear end of the nozzle unit, and the injection step of injecting the crack injection material in the injection unit through the injection nozzle to the crack site.

In addition, the present invention is to create a crack injection material by mixing a functional inorganic binder, CSA-based expansion agent, C ₁₂ A ₇ quickener, repair material, CaCO ₃ , a high fluidizing agent before the pre-assembly step, or between the pre-assembly step and the positioning step A crack injection material generation step, and the filling step of filling the resulting crack injection material in the injection portion further.

As described above, the present invention is provided with a crack injection material having excellent permeability, and thus easily penetrates even minute cracks, thereby making it easier to repair and reinforce the crack of the concrete structure, and to reduce the cost compared to the existing epoxy resin injection method. It is inexpensive and advantageous to cost reduction.

In addition, the crack injection material of the present invention contains a keratin-based mineral powder, which is an environmentally friendly material in the functional inorganic binder, the large amount of far-infrared rays, anions, mineral acids, etc. are released from the crack injection material itself has an effect that has a beneficial effect on the human body.

In addition, in the present invention, since the crack injection material has essentially the same physical properties as that of concrete, there is no additional stress or cracking caused by dry shrinkage or thermal expansion, so that durability is improved, and the adhesion to the concrete structure is improved and its adhesion performance is long. You can keep it for a period.

In addition, the present invention has the advantage that the fire performance is not lowered in the event of a fire, the handling is easy and excellent in workability.

In addition, the present invention has excellent repair / reinforcement effect, it can be used as the injection material when repairing and reinforcing cracks of damaged bridges, tunnels, covering structures and other reinforced concrete structures for civil construction.

In addition, the present invention is so that the nozzle portion of the injection nozzle is projected relative to the support portion, it is possible to ensure the operator's field of view to the crack portion, through which the nozzle portion can be exactly matched to the crack portion.

In addition, the present invention has a number of effects, such as the tip of the protruding nozzle portion is inserted into the support portion at the time of pressing the support portion and the support portion is in close contact with the structure, so that the crack injection material can be injected to the correct position.

1 is an exemplary view showing a configuration according to the present invention, Figure 2 is an exemplary view showing an internal configuration according to the present invention, Figure 3 is an exemplary view showing an installation process of the injection nozzle according to the present invention,

According to the present invention, a crack injection material is formed to include a cement-based functional inorganic binder containing hornblende ore, and the crack injection material is stored in the injection part, and then the cracking part of the concrete structure is cracked by a crack repair device that can easily secure the working field. Precise and rapid injection.

The crack injection material is 45 to 55wt% functional inorganic binder, 1 to 5wt% CSA-based expansion agent, 1 to 5wt% C ₁₂ A ₇ quickener, 0.1 to 0.3wt% repairing material, 35 to 45wt% CaCO ₃ , 0.1 to high fluidizing agent Eco-friendly functional inorganic crack injection material containing 0.2wt%.

The functional inorganic binder is composed of blast furnace slag cement having a hornblende powder having a powder degree of 8,000 cm 2 / g of 50 to 80wt% and the remainder of the powder degree of 8,000 cm 2 / g.

The functional inorganic binder configured as described above is a cement-based functional inorganic material, which is a pollution-free material that does not cause soil or groundwater pollution, and has component characteristics as shown in Table 1 below. In addition, since the powder is high, the hydrated tissue becomes dense, and thus the strength is usually 1.5 times higher than that of Portland cement.

Table 1

As shown in Table 1, the functional inorganic binder is usually different in portland cement and chemical composition. That is, since the functional inorganic binder is ultra-fine particles, the workability may not be secured due to excessively large hydration activity in the early stage, and the components are adjusted to control the initial hydration rate.

In addition, the functional inorganic binder is excellent in fluidity and excellent in long-term strength and initial strength compared to the ordinary portland cement, and therefore when injected into the crack as a crack repair material, the injection property is good, high strength is exhibited and durability is improved. It is provided with a characteristic.

In addition, since the functional inorganic binder has a powder degree of 8000 cm 2 / g and a maximum particle size of about 0.01 mm, it is possible to inject up to a crack having a crack width of 0.03 mm according to Michel's injection ratio. It can be injected and is suitable for both durability and water resistance.

As such, the functional inorganic binder is much finer than portland cement and has a larger spheroidization rate, so that the shear resistance is reduced when used as a crack repair material, thereby reducing the loss of injection pressure, thereby improving penetration and widening the injection radius.

The C ₁₂ A ₇ quickener is a calcium aluminate (mCaO-nAl ₂ O ₃ ) type fastener which is a kind of material used to speed up the setting time of cement.

The repair material is intended to recover when the concrete structure is damaged by cracks and the like, and to recover it, and water-soluble polysaccharides such as cellulose derivatives are mainly used.

The high fluidizing agent is to disperse the cement particles to reduce the amount of use, increase the strength and shorten the curing time, melamine-based, naphthalene-based, polycarboxy clock, lignosulfate-based is used.

As shown in FIGS. 1 to 3, the crack repair apparatus 100 is connected to the injection part 20 filled with the crack injection material 10 and the crack part of the structure 200 connected to the injection part 20. Including the injection nozzle 30 for guiding the crack injection material 10 to 210,

The injection nozzle 30 has a nozzle part 40 having one end connected to the injection part 20 and the other end contacting the crack part 210, and an insertion hole 51 into which the nozzle part 40 is inserted. It is formed in the center and is configured to include a support 50 for supporting the nozzle portion 40 by contacting one side of the flange to the crack portion 210,

The nozzle part 40 is coupled to the insertion hole 51 of the support part so that the nozzle tip 41 protrudes from the support part 50, and the nozzle tip 41 is supported by the nozzle part 41 when one side surface of the flange contacts the crack part. 50) is configured to be inserted into.

At this time, the crack injection material 10 is 5 to 35wt% functional inorganic binder, 1 to 5wt% CSA-based expansion agent, 1 to 5wt% C ₁₂ A ₇ quickener, 0.2wt% repair material, CaCO ₃ 36.6wt%, high fluidizing agent Eco-friendly functional inorganic crack injection material according to the invention containing 0.1 to 0.2wt%.

The injection portion 20 has a coupling portion 21 that is filled / stored in the crack injection material 10 therein, and screwed to the nozzle portion 40 of the injection nozzle.

The nozzle portion 40 of the injection nozzle has a nozzle rear end 43 coupled to the injection portion 20, a nozzle tip 41 in contact with the structure cracking portion 210, the nozzle tip 41 and a nozzle rear end. And a nozzle end 42 located between the nozzles 43, and an injection hole 44 penetrating through the nozzle tip 41, the nozzle stop 42, and the nozzle rear end 43.

The nozzle tip 41 has a tapered shape that gradually widens in the direction of the nozzle end 42, and is formed such that the stepped jaw 45 protrudes from a connection portion (nozzle end end) with the nozzle end 42. .

The nozzle end 42 is positioned between the nozzle tip 41 and the nozzle rear end 43 to integrally connect the nozzle tip and the nozzle rear end.

The nozzle rear end 43 is to be screwed with the coupling portion 21 of the injection portion 20, the thread is formed on the outer surface.

In addition, the nozzle portion 40 is formed such that the outer diameter L1 of the stepped jaw 45 is larger than the outer diameter L2 of the nozzle stop 42.

The support part 50 is a flange 51 having one side contacting the structure crack part 210 and an insertion hole 51 formed to be positioned at the center of the flange 51 to insert / couple the nozzle part 40. The insertion hole 51 may include a first insertion hole 52 having an inner diameter L3 having the same size as an outer diameter L1 of the stepped jaw 45 of the nozzle tip, and the first insertion hole 52. ) And a second insertion hole 53 having an inner diameter L4 of the same size as the outer diameter L2 of the nozzle stop 42.

That is, the first insertion hole 52 and the second insertion hole 53 are provided with a locking jaw 54 by the inner diameter difference, the locking jaw 54 when the nozzle portion 40 is inserted / coupled The stepped jaw 45 of the nozzle tip is contacted to prevent movement of the nozzle 40 and at the same time have a function of fixing the position of the nozzle 40.

In the crack repair apparatus 100 of the present invention configured as described above, when the nozzle rear end 43 of the nozzle unit is first inserted in the direction of the second insertion hole 53 from the first insertion hole 52 of the support part, the nozzle middle end 42 A part of) is in contact with a part of the second insertion hole 53, the stepped portion 45 of the nozzle tip is in contact with a part of the first insertion hole (52).

At this time, the outer diameter L1 of the stepped jaw 45, the inner diameter L3 of the first insertion hole 52, the outer diameter L2 of the nozzle stop 42, and the inner diameter L4 of the second insertion hole 53. Has the same size, so that only a portion of the stepped jaw 45 is inserted or contacted into the first insertion hole 52, and the nozzle end 42 is also not completely inserted into the second insertion hole 53, but only the end portion thereof. The nozzle part 40 and the support part 50 are inserted or contacted to maintain the temporarily coupled state.

As such, when the nozzle part 40 and the support part 50 maintain the temporary coupling state, the nozzle tip 41 of the nozzle part protrudes from the support part 50, and the nozzle rear end 43 is inserted into the second part. It is positioned outside the hole 53 or penetrates through the second insertion hole 53.

The provisional coupling state as described above is to accurately position the nozzle portion 40 in the cracked portion 210 through securing the field of view, and the nozzle tip 41 protruding height in the provisional coupling state is one end of the support 50 and The inclination angle θ formed when the nozzle tip 41 is in contact with the structure at the same time is set within a range having 10 to 50 °.

In addition, when the end of the nozzle portion 40 is positioned perpendicular to the cracked portion in the temporary coupling state as described above, and a force is applied to the cracked portion in the direction of the cracked portion, the nozzle tip 41 is first inserted by the applied force. Into the hole 52, the nozzle end 42 is fitted into the second insertion hole 53 so that the nozzle portion 40 and the support portion 50 are fixedly coupled integrally.

Hereinafter, the crack repair method using the crack injection material and the crack repair apparatus of the present invention will be described.

Figure 3 is an exemplary view showing the installation of the injection nozzle according to the invention, Figure 4 is an exemplary view showing the installation of the present invention, Figure 5 is a block illustration showing a crack repair process according to the present invention. In the present invention, the crack repair method for the crack portion of the structure; A preliminary assembling step of pre-assembling the injection nozzle 30 by inserting and coupling the nozzle part 40 into the insertion hole 51 of the support part 50 so that the nozzle tip 41 of the nozzle part protrudes from the support part; Inclining the prefabricated injection nozzle 30 at a predetermined inclination angle [theta] with respect to the structure 200, and then positioning the nozzle tip 41 of the protruding nozzle portion at the crack portion 210; The injection nozzle 30 is vertically positioned with respect to the structure 200 with respect to the nozzle tip 41 positioned at the crack portion 210, and the support part 50 is pushed in the direction of the structure 200. An injection nozzle adhesion step of bringing the side into close contact with the structure 200; The injection unit 50 is coupled to the nozzle rear end 43 of the nozzle unit, and an injection step of injecting the crack injection material 10 in the injection unit 50 into the crack site 210 through the injection nozzle 30. .

In addition, the present invention is to create a crack injection material by mixing a functional inorganic binder, CSA-based expansion agent, C ₁₂ A ₇ quickener, repair material, CaCO ₃ , a high fluidizing agent before the pre-assembly step, or between the pre-assembly step and the positioning step A crack injection material generation step, and the filling step of filling the resulting crack injection material in the injection portion further.

The preliminary assembling step is a step of coupling the nozzle unit 40 and the support unit 50 in a temporarily coupled state, so that the nozzle tip 41 and a part of the first insertion hole 52 are coupled to the nozzle unit. ) And the nozzle part 40 is inserted into the insertion hole 51 of the support part so that a part of the second insertion hole 53 is coupled, and the injection nozzle 30 is coupled in a temporarily assembled state. At this time, even if the injection nozzle 30 maintains the provisional assembly state, the nozzle unit 40 and the support unit 50 are integrated.

The positioning step is to position the nozzle portion 40 in the crack portion 210 of the structure, as shown in Fig. 3 (a), in the inclined injection nozzle 30 by a predetermined inclination angle (θ) The injection nozzle is positioned so that the nozzle tip 41 comes to the crack 210. In this case, when the injection nozzle is inclined with respect to the structure at an inclination angle θ, the operator's field of view is secured from the support part 50 to the nozzle tip 41 of the injection nozzle, and thus the nozzle of the injection nozzle at the crack portion 210. The tip 41 can be exactly matched. At this time, the inclination angle θ has 10 to 50 degrees.

In addition, the positioning step includes applying the adhesive 220 to the structure cracking portion 210 in which the nozzle tip 41 is located, and then positioning the nozzle tip 41 at the cracking portion 210.

The injection nozzle adhesion step is to fix the position of the injection nozzle 30 by closely fixing the support 50 to the structure 200, as shown in (b) and (c) of Figure 3, inclined injection nozzle 30 is placed perpendicular to the structure 200, and then the support 50 is brought into close contact with the surface of the structure to which the adhesive is applied. At this time, the nozzle portion 40 is exposed to the outside through the support portion 50, the nozzle rear end 43, the nozzle tip 41 into the first insertion hole 52, and the nozzle end 42 is the second It is fully inserted into the insertion hole 53.

When the support 50 is in close contact with the surface of the structure as described above, the support 50 is attached to the surface of the structure by the applied adhesive, so that the position of the entire injection nozzle 30 is fixed. The contact agent is not intended for the complete fixing of the injection nozzle, but for temporarily fixing the injection nozzle for injection of the crack injection material.

As shown in (c) of FIG. 3, the injection step is the coupling part 21 of the injection part 20 to the nozzle rear end 43 exposed to the outside through the support part 50 by the injection nozzle adhesion step. Is screwed, and the crack injection material 10 stored in the injection part 20 is injected into the crack part 210 through the injection hole 44 of the nozzle part. Since the injection of the crack injection material may be performed in the same manner as in the related art, a detailed description thereof will be omitted.

At this time, the crack injection material is 5 to 35wt% functional inorganic binder according to the present invention, 1 to 5wt% CSA-based expander, 1 to 5wt% C ₁₂ A ₇ quickener, 0.2wt% repair material, CaCO ₃ 36.6wt%, high fluidization Eco-friendly functional inorganic crack injection material which consists of 0.1 to 0.2 wt%.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is an exemplary view showing a configuration according to the present invention

2 is an exemplary view showing an internal configuration according to the present invention

Figure 3 is an exemplary view showing the installation of the injection nozzle according to the present invention

Figure 4 is an exemplary view showing an installation state of the present invention

Figure 5 is an exemplary block diagram showing a crack repair process according to the present invention

6 is an exemplary view showing a conventional injection nozzle configuration

DESCRIPTION OF THE REFERENCE NUMERALS

(10): crack injection material (20): injection portion

21: coupling part 30: injection nozzle

40: nozzle part 41: nozzle tip

(42): Nozzle stop (43): Nozzle end

(44): injection hole (45): stepped jaw

50: support part 51: insertion hole

(52): first insertion hole (53): second insertion hole

(54): locking jaw (100): crack repair device

(200): Structure 210: cracked portion

220: glue

Claims (10)

delete delete In the crack repair method using eco-friendly functional inorganic crack injection material and concrete crack repair device; A preliminary assembling step of pre-assembling the injection nozzle 30 by inserting the nozzle part 40 into the insertion hole 51 of the support part 50 such that the nozzle tip 41 of the nozzle repair part 100 protrudes from the support part; Inclining the prefabricated injection nozzle 30 at a predetermined inclination angle [theta] with respect to the structure 200, and then positioning the nozzle tip 41 of the protruding nozzle portion at the crack portion 210; The injection nozzle 30 is vertically positioned with respect to the structure 200 with respect to the nozzle tip 41 positioned at the crack portion 210, and the support part 50 is pushed in the direction of the structure 200. An injection nozzle adhesion step of bringing the side into close contact with the structure 200; Including the injection step of coupling the injection unit 50 to the nozzle rear end 43 of the nozzle unit and injecting the crack injection material 10 in the injection unit 50 to the cracking site 210 through the injection nozzle 30, The crack injection material is 45 to 55wt% functional inorganic binder, 1 to 5wt% CSA-based expansion agent, 1 to 5wt% C ₁₂ A ₇ quickener, 0.1 to 0.3wt% repairing material, 35 to 45wt% CaCO ₃ , 0.1 to high fluidizing agent Crack repair method using an eco-friendly functional inorganic crack injection material, characterized in that the eco-friendly functional inorganic crack injection material containing 0.2wt%. The method according to claim 3; Prior to the preassembly step or between the preassembly step and the positioning step, 45 to 55 wt% functional inorganic binder, 1 to 5 wt% CSA type expander, 1 to 5 wt% C ₁₂ A ₇ quickener, 0.1 to 0.3 wt% repair material, CaCO ₃ A crack injection material generation step of generating a crack injection material 10 by mixing 35 to 45wt%, 0.1 to 0.2wt% of the high fluidizing agent, and a filling step of filling and storing the generated crack injection material in the injection portion 40 Crack repair method using an eco-friendly functional inorganic crack injection material, characterized in that. The method according to claim 3; The inclination angle θ is a crack repair method using an environmentally friendly functional inorganic crack injection material, characterized in that it comprises 10 to 50 °. A crack repair apparatus for crack repair of cracks in structures in a crack repair method using environmentally friendly functional inorganic crack injection material; The crack repair apparatus 100 is connected to the injection portion 20 is filled with the crack injection material 10, and is connected to the injection portion 20 guides the crack injection material 10 to the crack portion 210 of the structure 200 Including injection nozzles 30, The injection nozzle 30 has a nozzle part 40 having one end connected to the injection part 20 and the other end contacting the crack part 210, and an insertion hole 51 into which the nozzle part 40 is inserted. It is formed in the center and is configured to include a support 50 for supporting the nozzle portion 40 by contacting one side of the flange to the crack portion 210, The nozzle portion 40 is coupled to the insertion hole 51 of the support portion so that the nozzle tip 41 of the nozzle portion protrudes from the support portion 50, and the nozzle tip 41 is supported when the flange one side of the crack portion contacts. Concrete crack repair device using an eco-friendly functional inorganic crack injection material, characterized in that configured to be inserted into (50). The method according to claim 6; The nozzle portion 40 of the injection nozzle has a nozzle rear end 43 coupled to the injection portion 20, a nozzle tip 41 whose end is in contact with the structure cracking portion 210, and the nozzle tip 41 and And a nozzle end 42 positioned between the nozzle rear end 43 and an injection hole 44 passing through the nozzle front end 41, the nozzle end 42, and the nozzle rear end 43. The nozzle tip 41 has a tapered shape that gradually widens in the direction of the nozzle end 42, and a stepped jaw 45 protrudes from a connection portion (nozzle tip end) with the nozzle end 42. Concrete crack repair device using eco-friendly functional inorganic crack injection material. The method of claim 7; Concrete crack repair apparatus using eco-friendly functional inorganic crack injection material, characterized in that the outer diameter (L1) of the stepped jaw (45) of the nozzle portion 40 is larger than the outer diameter (L2) of the nozzle stop (42). The method according to claim 6; The insertion hole 51 of the support part includes a first insertion hole 52, a second insertion hole 53 communicating with the first insertion hole 52, and the first insertion hole 52 and the second insertion hole ( Concrete crack repair device using an environmentally friendly functional inorganic crack injection material, characterized in that it comprises a locking step 54 formed by the inner diameter difference of 53). The method according to claim 7 or 9; The outer diameter L1 of the stepped end 45 of the nozzle tip, the inner diameter L3 of the first insertion hole, the outer diameter L2 of the nozzle middle 42, and the inner diameter L4 of the second insertion hole have the same size. Concrete crack repair device using eco-friendly functional inorganic crack injection material.

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