KR101921544B1 - Fast cure type polyurea composition having structural reinforcement and seismic reinforcing performance, anti-neutralization and high tensile performance, and a spraying device for spraying the same - Google Patents

Abstract

The present invention relates to a spraying apparatus for spraying an ultra fast curing type polyurea composition having structural reinforcement and seismic strengthening performance, prevention of neutralization and high tearing property, and more particularly, to a spraying apparatus for manufacturing a two-pack type polyurea composition, The present invention relates to a spraying device for injecting a polyurea composition having a fast cure rate and a high impact resistance, which is capable of reinforcing the structure of a concrete structure and enhancing the waterproofing performance of a concrete structure by spraying the same on a concrete structure .
The present invention relates to a spraying apparatus for spraying a quick cure type polyurea resin composition attached to a surface of a concrete or cement structure and having structural reinforcement and seismic reinforcement performance and prevention of neutralization and high tearing property, Speed curing type polyurea resin composition having structural reinforcement and seismic strengthening performance, prevention of neutralization and high tensile performance is characterized in that it comprises a homopolyol having at least two hydroxyl groups (-OH) in the molecule, a heteropolyol, a polymer polyol, A polyol (polyol) in which a triole homopolyol, a polytetraethylene ether glycol, and a PHD polyol are blended; A polyisocyanate to which toluene diisocyanate having at least two functional groups (-NCO), a modified TDI and a modified MDI are compounded; A prepolymer polymerized with 40 parts by weight of the polymer polyol and 60 parts by weight of polyisocyanate and having a particle size of 10 to 500 nm; And a two-pack type polyurea composition including a curing agent using a TIN catalyst (Stannous Octoate) in the prepolymer, wherein the prepolymer is prepared by mixing 0.1 to 2.0 parts by weight of a geopolymer and 0.1 to 20 parts by weight of a silicone polymer in 100 parts by weight of a prepolymer, Wherein the two-pack type polyurea composition is pre-heated to 35 ° C to 75 ° C so as to be adhered to the bonding reaction and the surface to be adhered, and is sprayed by applying a pressure of 100 to 4000 psi, Zirconia, barium titanate, aluminum nitride, beryllium oxide, strontium titanate, boron nitride, tungsten carbide, Al2O3, alumina, zirconia, barium titanate, At least one additional composition of TiC, Si3N4-TiC, Si3N4-TiN, TiC-TiN, SiC-SiC fibers is sprayed together with the two- The spraying device 10 for spraying the additional composition with the quick curing type polyurea resin composition is formed so as to be movable at a predetermined temperature for stirring and producing the two-pack type polyurea resin composition , A mobile chamber part 100 comprising a composition reservoir 170 in which the two-pack type polyurea resin composition is stored, and an additional reservoir 190 in which the additional composition is stored; (200) connected to the composition reservoir (170) and the additional reservoir (190) of the mobile chamber part (100) and configured to inject the two-component polyurea composition and the additional composition together into the structure .

Description

TECHNICAL FIELD [0001] The present invention relates to a spraying apparatus for injecting a quick cure type polyurea composition having a structural reinforcement and an anti-seismic reinforcing function, and an anti-neutralization and high tearing performance. spraying device for spraying the same}

The present invention relates to a spraying apparatus for spraying an ultra fast curing type polyurea composition having structural reinforcement and seismic strengthening performance, prevention of neutralization and high tearing property, and more particularly, to a spraying apparatus for manufacturing a two-pack type polyurea composition, The present invention relates to a spraying device for injecting a polyurea composition having a fast cure rate and a high impact resistance, which is capable of reinforcing the structure of a concrete structure and enhancing the waterproofing performance of a concrete structure by spraying the same on a concrete structure .

In recent years, there has been an increasing demand for seismic retrofitting of structures due to aging of structures and strengthening of seismic regulations as well as structural repair and reinforcement due to high strength of existing structures and durability due to environmental problems. In order to improve the repair and reinforcement of existing structural members, seismic retrofitting method or steel plate reinforcement method has been widely used. However, since 1990, FRP The use of reinforced construction methods is increasing. As a result, a method of sealing with a sealing material such as an epoxy resin, a method of injecting a grout material such as an epoxy adhesive, and a method of reinforcing by using a putty material have been developed and used for repairing and reinforcing a structure.

Especially, the repair and reinforcement method using FRP developed in the 1990s has many advantages compared with other materials and construction methods in terms of strength enhancement, durability improvement, and workability enhancement, and it is utilized as a reinforcing method which is the most popular in the present. However, the reinforcing method using the FRP sheet has a problem in that the construction process is simple, but it is difficult to obtain a uniform quality, defects often affect the adhesion performance, and the FRP sheet- The reinforcement performance is determined, and an unnecessary interface due to the adhesive is formed, which causes problems such as deterioration and dropout over time. Further, it is difficult to continuously arrange the FRP, and it is difficult to make the upper layer coating and the lower layer coating finish at the same point, which is disadvantageous in that the FRP discontinuity is present. Currently, most of FRP materials depend on overseas imports and have a huge economic loss, and the raw material of FRP material is also very high, which is a cause of increase in construction cost when repairing and reinforcing the structure.

In addition, the most widely used method among existing structural reinforcement materials and construction methods is to apply epoxy coating to FRP sheet and to wrap it. It is simple and superior in performance compared to other materials and construction methods. However, It is difficult to obtain a uniform quality because the reinforcing performance is determined, and the FRP material itself is mostly dependent on foreign countries, and thus the material cost is high. In addition, since the sheet-like FRP sheet is configured to surround the surface of the structure, a discontinuity surface appears on the surface of the structure, and there is a limitation in the adhesive force due to the use of epoxy and a workload in the construction of the workpiece.

Korean Patent No. 10-1166686

In order to solve the above problems, the present invention provides a two-pack type polyurea composition, which is injected into a concrete structure through an injection device for injecting high pressure, thereby reinforcing the structure of the concrete structure and enhancing the waterproof performance of the concrete structure The purpose.

According to an aspect of the present invention, there is provided an injection device for spraying a quick cure type polyurea resin composition having a structural reinforcement, seismic reinforcement performance, anti-neutralization property, and high tearability, the device being attached to a surface of a concrete or cement structure,

The quick cure type polyurea resin composition attached to the surface of the concrete or cement structure and having structural reinforcement and seismic reinforcement performance, prevention of neutralization and high tearing property is characterized in that a homopolyol having at least two hydroxyl groups (-OH) A polymer polyol in which terpolyol, polymer polyol, alkylronitrie homopolyol, polytetraethylene ether glycol, and PHD polyol are blended;

A polyisocyanate to which toluene diisocyanate having at least two functional groups (-NCO), a modified TDI and a modified MDI are compounded;

A prepolymer polymerized with 40 parts by weight of the polymer polyol and 60 parts by weight of polyisocyanate and having a particle size of 10 to 500 nm;

And a two-pack type polyurea composition formed by including a curing agent using a TIN catalyst (Stannous Octoate) in the prepolymer,

Wherein the prepolymer further comprises 0.1 to 2.0 parts by weight of a geopolymer and 0.1 to 20 parts by weight of a silicone foam stabilizer in 100 parts by weight of a prepolymer and wherein the two-pack type polyurea composition has a two-pack type polyurea composition in an amount of 35 And the mixture is sprayed by applying a pressure of 100 to 4000 psi to the surface of the two-pack type polyurea composition. When spraying the applied surface of the two-pack type polyurea composition, silica, stearic acid, At least one further composition of at least one of barium titanate, aluminum nitride, beryllium oxide, strontium titanate, boron nitride, tungsten carbide, Al2O3-TiC, Si3N4-TiC, Si3N4-TiN, TiC- TiN, SiC- Sprayed together with the liquid polyurea composition and applied to the surface to be bonded,

In addition, the injection device 10 for injecting the extra-high-speed curing type polyurea resin composition and the additional composition,

A composition reservoir 170 in which the two-pack type polyurea resin composition is stored, and an additional reservoir 190 in which the additional composition is stored A movable chamber part 100 comprising:

(200) connected to the composition reservoir (170) and the additional reservoir (190) of the mobile chamber part (100) and configured to inject the two-component polyurea composition and the additional composition together into the structure .

According to the present invention, a two-pack type polyurea composition is prepared and injected into a concrete structure through an injection device for high-pressure injection, thereby providing an effect of reinforcing the structure of the concrete structure and enhancing the waterproofing performance of the concrete structure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of an injection device for injecting high-speed pressure-fast cure polyurea compositions having structural reinforcement and seismic reinforcement performance, prevention of neutralization and high tensile strength on a surface to be adhered.

Hereinafter, the composition and composition ratio of the composition of the spraying apparatus for spraying the ultra-fast curing type polyurea composition having the structural reinforcement and seismic reinforcement performance of the present invention and the prevention of neutralization and high tensile performance will be described in detail.

The quick cure type polyurea composition having the structural reinforcement and the seismic strengthening performance, the prevention of neutralization and the toughening performance of the present invention is mainly prepared by preparing a two-pack type polyurea composition through a prepolymer and a curing agent formed by polymerization of a high molecular polyol and a polyisocyanate .

The prepolymer is formed by polymerization of a high molecular polyol and a polyisocyanate. The high molecular polyol is a homopolyol having at least two hydroxyl groups (-OH) in the molecule, a heteropolyol, a polymer polyol, an alkylronitrate homopolyol, Characterized in that at least two polyols among the polytetraethylene ether glycol and the PHD polyol are formed at a certain ratio.

For example, a combination of a homopolyol and a heteropolyol, or a combination of a homopolyol, a polymer polyol, and a PHD polyol in a ratio of 2: 2: 6 or the like.

The polyisocyanate is characterized in that toluene diisocyanate having at least two functional groups (-NCO) in the molecule and at least two or more materials of modified TDI and modified MDI are compounded in a certain ratio.

For example, the combination of toluene diisocyanate and modified TDI or modified TDI and modified MDI are mixed and formed at a ratio of 4: 6 or the like.

Therefore, the polymer polyol and the material selected from the polyisocyanate are polymerized at a predetermined ratio to form a prepolymer.

The polymerization ratio of the prepolymer is, for example, polymerized by polymer polyol 4: polyisocyanate 6 or 40 parts by weight of high molecular polyol based on 100 parts by weight of polyisocyanate and 60 parts by weight of polyisocyanate.

The curing agent is a material to be added to the prepolymer, and is characterized by adding either a TIN catalyst (Stannous Octoate) or an amine catalyst.

Therefore, a two-pack type polyurea composition is produced by adding a curing agent to the prepolymer.

Wherein the two-pack type polyurea composition is preheated to a temperature of 35 ° C to 75 ° C so as to cause a bonding reaction when adhered to the adherend surface, and is injected at a high pressure of 100 to 4000 psi by using the impregnation phenomenon.

The prepolymer is a liquid having a viscosity.

The prepolymer is characterized in that it is combined with the geopolymer so that the geopolymer of the polymer strengthens the binding of the molecular structure of the prepolymer.

The prepolymer further includes at least one of a silicone foam stabilizer, a phosphorus compound and a halogen compound to control flame retardancy, density distribution rate and flowability, and further comprises 0.1 to 20 parts by weight based on 100 parts by weight of the prepolymer .

The prepolymer may further comprise any one of polyol, triol, tetralol, and polyamine.

The polyfunctional material may further include 0.1 to 30 parts by weight based on 100 parts by weight of the prepolymer.

The polyfunctional substance is used for facilitating bonding of two-component types having different properties, and is characterized in that bonding of the prepolymer and the curing agent is smoothly performed.

Wherein the prepolymer further comprises an ultraviolet stabilizer and a pigment, wherein the ultraviolet stabilizer is further included in an amount of 0.1 to 10 parts by weight based on 100 parts by weight of the prepolymer, and 0.1 to 10 parts by weight of the pigment is contained based on 100 parts by weight of the prepolymer .

The ultraviolet light stabilizer and the pigment are further included, so that they are resistant to ultraviolet rays to improve problems such as yellowing and coloring and to stabilize them.

The prepolymer may be at least one selected from the group consisting of silica, alum, perlite, clay, feldspar, silica, silicon carbide, silicon nitride, alumina, zirconia, barium titanate, aluminum nitride, beryllium oxide, strontium titanate, boron nitride, tungsten carbide, Al2O3- (Additional composition) of at least one of Si3N4-TiC, Si3N4-TiN, TiC-TiN, and SiC-SiC fibers.

The ceramic powder (additional composition) selected from at least one of the above may further include 10 to 50 parts by weight based on 100 parts by weight of the prepolymer.

Since the ceramic powder (additional composition) is included in the prepolymer, the thickness of the coating film can be economically ensured, and the ceramic powder (additional composition) during the curing can be subjected to expansion and contraction to prevent cracking due to curing.

Further, even after the coating film is formed, cracks due to temperature and elongation and shrinkage can be partially attained, and the effect of increasing the compressive strength is provided structurally.

The reference weight portion of the prepolymer may vary depending on the site of use depending on the respective components when preparing the two-pack type polyurea composition.

Wherein the two-pack type polyurea composition is at least one selected from the group consisting of silica sand, talcum, perlite, clay, feldspar, silica, silicon carbide, silicon nitride, alumina, zirconia, barium titanate, aluminum nitride, beryllium oxide, strontium titanate, boron nitride, tungsten carbide, At least one ceramic powder (additional composition) out of TiC, Si3N4-TiC, Si3N4-TiN, TiC-TiN and SiC-SiC fibers is mixed at the time of injection onto the adherend surface.

In other words, when the two-pack type polyurea composition is sprayed, it is possible to use silica, alum, perlite, clay, feldspar, silica, silicon carbide, silicon nitride, alumina, zirconia, barium titanate, aluminum nitride, beryllium oxide, strontium titanate, boron nitride, At least one ceramic powder (additional composition) among tungsten carbide, Al2O3-TiC, Si3N4-TiC, Si3N4-TiN, TiC-TiN and SiC-SiC fibers is simultaneously sprayed together to be applied to the adherend surface.

Since the ceramic powder (additional composition) is included in the two-pack type polyurea bond structure, it is possible to economically ensure the thickness of the coating film and to prevent cracking due to curing due to the expansion and contraction of the ceramic powder .

Further, even after the coating film is formed, cracks due to temperature and elongation and shrinkage can be partially attained, and the effect of increasing the compressive strength is provided structurally.

Also, the two-pack type polyurea composition may be prepared by selecting at least one fiber sheet of a grid-like carbon fiber sheet, a glass fiber sheet, an aramid fiber sheet, and a basalt fiber sheet, And is characterized in that the structural reinforcement and the seismic strengthening performance are improved.

As a method for securing the structural stability and seismic performance enhancement by applying the two-pack type polyurea of the present invention together with the fiber sheet to the adhered surface of the structure requiring a high strength over the tensile strength of the two-pack type polyurea bond, The two-pack type polyurea composition is resistant to a moment in a combined direction other than a certain direction such as a shear force or a torsional stress and is resistant to multi-directional combined seismic loads generated when an earthquake occurs Provides a possible effect.

FIG. 1 is an exploded view of a two-pack type polyurea composition according to the present invention. FIG. 1 is a perspective view of an injection device according to an embodiment of the present invention. A movable chamber part (100) formed to maintain a constant temperature for agitating the polyurea composition;

The two-part polyurea composition prepared in the mobile chamber part 100 by stirring and mixing and stored in the composition reservoir 170 of the mobile chamber part 100 and the additional composition stored in the additional reservoir 190 of the mobile chamber part 100 (200) formed by spraying together a two-pack type polyurea composition and an additional composition on the structure to apply the same to a structure or a structure requiring seismic resistance at a predetermined thickness.

The mobile chamber part (100) is characterized in that a two-pack type polyurea composition is prepared and stored for spraying a two-pack type polyurea composition onto an adherend.

The movable chamber part 100 is formed with a conveying wheel 20 so that it can be easily moved to a site of use, so that the movable chamber part 100 can be easily loaded on a vehicle and can be easily moved to a site by the user.

The movable chamber part 100 is formed by adhering the heat insulating material and the heat insulating material inside the movable chamber part 100 so as not to be influenced by the external temperature, thereby preventing the curing of the two-pack type polyurea composition in summer, .

In the present invention, the insulation and the insulating material are not shown in the drawings.

Specifically, as shown in the drawing, the movable chamber part 100 includes a chamber 110 configured to store the agitated composition through each of the mixture and the agitator, and to facilitate the movement of the movable chamber part 100;

A first reservoir (120) formed at one side of the chamber for storing the polymer polyol;

A second reservoir 130 formed at one side of the first reservoir to store the polyisocyanate;

A third reservoir 140 formed at one side of the second reservoir to store the prepolymer polymerized with the polyol and the polyisocyanate;

A fourth reservoir 150 formed at one side of the third reservoir for storing the curing agent;

An agitator 160 formed below the third and fourth reservoirs 140 and 150 so that the prepolymer stored in the third reservoir 140 and the curing agent stored in the fourth reservoir 150 can be stirred;

A composition reservoir 170 formed at one side of the agitator to store the two-pack type polyurea composition formed by stirring through the agitator 160;

A heating means (171) formed around the composition storage tank to provide a predetermined temperature through the control unit (180) to prevent a curing phenomenon of the two-pack type polyurea composition stored in the composition reservoir (170);

A first high-pressure pump 172 formed above the composition reservoir 170 to inject high-pressure two-component polyurea compositions stored in the composition reservoir 170 toward the branch event 200;

The amount of the polymer polyol in the first reservoir 120 and the amount of the polyisocyanate in the second reservoir 130 to the third reservoir 140 are controlled so that the prepolymer in the third reservoir and the polyisocyanate in the fourth reservoir 150 Controls the heating amount of the heating means 171, controls the rotation speed of the stirrer 160, controls the pressure of the first and second high pressure pumps 172 and 191, controls the amount of the curing agent supplied to the stirrer 160, And a control unit (180) formed on one side of the chamber (110)

An additional reservoir 190 formed at one side of the movable chamber part 100 to store additional composition to be sprayed upon injection through the spray nozzle 200;

A second high pressure pump (191) formed on one side of the additional reservoir (190) to move the additional composition stored in the additional reservoir (190) to the minute event side;

And a plurality of transfer wheels (192) formed under the chamber (110) so that the movable chamber part (100) can be mounted on a vehicle, or can be easily mounted on a vehicle or moved to a work site side.

The chamber 110 includes a plurality of reservoirs 120, 130, 140, and 150, an agitator 160, and an additional reservoir 190.

The chamber 110 is characterized in that an insulating and anti-icing agent is formed on the inner wall of the chamber 110 so that the chamber 110 does not undergo internal changes due to external temperature changes.

The first reservoir 120 is located at one side of the chamber 110 and stores the polymer polyol.

The second reservoir 130 is formed at one side of the chamber 110, more specifically, at one side of the first reservoir 120 to store the polyisocyanate.

The polymer polyol in the first storage tank 120 is transferred to the lower side of the first storage tank 120 so as to be moved toward the third storage tank 130 in accordance with the amount of the polymer polyol supplied from the controller 180, And a solenoid valve that operates in accordance with the operation of the solenoid valve is formed.

The polyisocyanate in the second reservoir 130 is transferred to the lower side of the second reservoir 130 so as to be moved toward the third reservoir 140 according to the amount of the polyisocyanate supplied from the controller 180, And a solenoid valve that operates according to the control is formed.

The third reservoir 140 stores a prepolymer formed by polymerizing the polymer polyol supplied from the first reservoir 120 and the polyisocyanate supplied from the second reservoir 130.

The polymerization of the prepolymer is mixed in one transport pipe when the polyol and polyisocyanate are provided in the first storage tank 120 and the second storage tank 130 side.

The fourth reservoir 150 is characterized in that a curing agent for preparing a two-pack type polyurea composition is stored.

A solenoid valve is formed below the third and fourth storage tanks 140 and 150 so that a transport pipe is formed to move the prepolymer and the curing agent to the side of the agitator 160 and is operated under the control of the controller 180 .

The stirrer 160 is for mixing the prepolymer supplied from the third reservoir 140 and the curing agent supplied from the fourth reservoir 150 and is stirred and mixed by a rotating rotary blade.

At this time, a plurality of rotary blades are formed and are uniformly stirred.

The composition reservoir 170 is for storing a two-pack type polyurea composition mixed and manufactured through an agitator 160, and the composition reservoir 170 is formed at one side of the chamber 110.

The heating means 171 is formed around the composition reservoir 170 so that a predetermined temperature set in the controller 180 is maintained so that the two-pack type polyurea composition stored in the composition reservoir 170 is not cured by the curing phenomenon. .

The first high-pressure pump 172 is for compressing the air for spraying the two-pack type polyurea composition stored in the composition reservoir 170 at a high pressure onto the deposition surface through the spray phenomenon 200. The first high- Pressure polyurea composition is injected together with the two-pack type polyurea composition by causing high-pressure air in the composition reservoir 170 to operate the particulate matter 200 through the composition reservoir 170. [

The control unit 180 controls the solenoid valves formed in the first, second, third, and fourth reservoirs 120, 130, 140, and 150, respectively, so that the amount of each composition to be supplied is controlled.

Further, the stirring time and the stirring rotation speed in the stirrer 160 are controlled.

It is also possible to control the first high-pressure pump 172 to generate high-pressure air to be provided inside the composition reservoir 170 and the second high-pressure pump 191 to generate high-pressure air to be provided inside the additional reservoir 190 .

Further, the temperature of the heating means 171 formed around the composition reservoir 170 can be set and controlled automatically.

The additional reservoir 190 is configured to store a composition for jet mixing with a two-pack polyurea composition that is sprayed onto the adherend surface, wherein the additional reservoir 190 is comprised of a silica, a quartz, a perlite, a clay, At least one of Al 2 O 3 -TiC, Si 3 N 4 -TiC, Si 3 N 4 -TiN, TiC-TiN, SiC-SiC fibers, silicon nitride, alumina, zirconia, barium titanate, aluminum nitride, beryllium oxide, strontium titanate, boron nitride, tungsten carbide, Or more of the ceramic powder (additional composition) is stored.

The additional reservoir 190 may be formed at one side of the chamber 110.

The second high pressure pump 191 is for compressing the air for injecting high pressure of the additional composition stored in the additional reservoir 190 and generates high pressure air through the second high pressure pump 191 into the additional reservoir 190 The polyurea composition is mixed with the two-component polyurea composition so as to be sprayed at a high pressure through the spraying event (200).

The transfer wheels 192 are formed in the lower portion of the chamber 110 to move the chamber 110.

By forming the conveying wheels 192, the operator can easily move the chamber 110, and can be easily moved by being loaded on the vehicle.

The partial event 200 is characterized in that a connection is made between the composition reservoir 170 and the additional reservoir 190 via a flexible tube, and a two-pack type polyurea composition moving at high pressure on the composition reservoir 170 side Characterized in that an additional composition moving in the reservoir (190) at high pressure is formed to spray onto the surface to be coated.

The two-pack type polyurea composition and the additional composition are characterized in that the injection amount is adjusted through a regulating part 220 formed at one side of the branching event (200).

Specifically, as shown in the figure, the dispense event 200 includes a dispense button 210 for dispensing a two-pack type polyurea composition;

An injection amount regulator 220 formed at one side of the branch event 200 to control the injection amount of the two-pack type polyurea composition;

An additional injection amount regulating portion 230 formed at one side of the branching event for regulating the injection amount of the additional composition;

And an injection pressure regulating unit 240 for regulating the injection pressure of the injector 200.

The injection button 210 is configured to inject the two-part polyurea composition and the additional composition at high pressure when the operator presses the injection button 210 to apply the two-component polyurea composition to the adherend surface .

The injection amount regulator 220 is for regulating the injection amount of the two-pack type polyurea composition and is formed at one side of the branch case 200.

The injection amount regulator 220 is connected to the controller 180 and is automatically controlled or manually controlled by the operator according to the field conditions.

The additional injection amount regulator 240 is for regulating the injection amount of the additional composition, and is formed at one side of the branch event.

The additional injection amount adjusting unit 240 may be connected to the controller 180 to be automatically controlled or manually adjustable according to the situation of the operator.

The injection pressure regulator 230 is connected to the composition reservoir 170 having the high pressure air by the first high pressure pump 172 and the second high pressure pump 191 and the branch event 200 within the additional reservoir 190 And the injection pressure regulating unit 230 is formed at one side of the branch event 200. The injection pressure regulating unit 230 is provided at a downstream side of the branch pipe 200,

The injection pressure regulator 230 may be connected to the controller 180 and may be automatically controlled through the controller 180 or manually adjustable according to the use site of the operator.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10: Injection device
20: Feed wheel
100: movable chamber part
110: chamber 120: first storage tank
130: second storage tank 140: third storage tank
150: fourth storage tank 160: stirrer
170: Composition reservoir 171: Heating means
172: first high-pressure pump 180:
190: additional reservoir 191: second high pressure pump
192: feed wheel 200: minute event
210: injection button 220: injection amount control unit
230: additional injection amount regulator 240: injection pressure regulator

Claims (11)

A spraying device for spraying an ultra fast curing type polyurea resin composition attached to a surface of a concrete or cement structure and having structural reinforcement and seismic reinforcement performance, prevention of neutralization and high tensile performance, comprising:
Speed curing type polyurea resin composition which is attached to the surface of the concrete or cement structure and has structural reinforcement and seismic reinforcement performance, prevention of neutralization and high tensile performance,
A high molecular polyol in which a homopolyol having at least two hydroxyl groups (-OH) in the molecule, a heteropolyol, a polymer polyol, an alkylonitrile homopolyol, a polytetraethylene ether glycol, and a PHD polyol are blended; A polyisocyanate to which toluene diisocyanate having at least two functional groups (-NCO), a modified TDI and a modified MDI are compounded; A prepolymer polymerized with 40 parts by weight of the polymer polyol and 60 parts by weight of polyisocyanate and having a particle size of 10 to 500 nm; And a two-pack type polyurea composition formed by including a curing agent using a TIN catalyst (Stannous Octoate) in the prepolymer,
Wherein the prepolymer further comprises 0.1 to 2.0 parts by weight of a geopolymer and 0.1 to 20 parts by weight of a silicone foam stabilizer in 100 parts by weight of a prepolymer and wherein the two-pack type polyurea composition has a two-pack type polyurea composition in an amount of 35 And the mixture is sprayed by applying a pressure of 100 to 4000 psi to the surface of the two-pack type polyurea composition. When spraying the applied surface of the two-pack type polyurea composition, silica, stearic acid, At least one further composition of at least one of barium titanate, aluminum nitride, beryllium oxide, strontium titanate, boron nitride, tungsten carbide, Al2O3-TiC, Si3N4-TiC, Si3N4-TiN, TiC- TiN, SiC- Sprayed together with the liquid polyurea composition and applied to the surface to be bonded,
The injection device (10) for injecting the additional curing composition and the quick cure type polyurea resin composition,
A composition reservoir 170 in which the two-pack type polyurea resin composition is stored, and an additional reservoir 190 in which the additional composition is stored A movable chamber part 100 comprising:
(200) connected to the composition reservoir (170) and the additional reservoir (190) of the mobile chamber part (100) and configured to inject the two-component polyurea composition and the additional composition together into the structure Wherein the polyurea composition has a structure reinforcing and anti-seismic reinforcement, and the polyurea composition has an anti-neutralization property and a high tearing property.
delete delete The method according to claim 1,
The pre-
Characterized in that 0.1 to 30 parts by weight of a polyfunctional material such as triol or tetralol or polyamine is further contained. The spraying device for injecting a rapid curing type polyurea composition having structural reinforcement, seismic reinforcing performance, anti-neutralization and high tearing performance.
The method according to claim 1,
The pre-
0.1 to 10 parts by weight of an ultraviolet light stabilizer and 0.1 to 10 parts by weight of a pigment are sprayed on the surface of the polylactic acid composition.
delete delete The method according to claim 1,
The two-pack type polyurea composition is a two-
Characterized in that at least one or more fiber sheets of a carbon fiber sheet, a glass fiber sheet, an aramid fiber sheet and a basalt fiber sheet in the form of a grid are adhered to the adhered surface when applying the spray on the adhered surface, and then the two-part type polyurea composition is applied A spraying device for spraying an ultra fast curing type polyurea composition having structural reinforcement and seismic reinforcement performance, prevention of neutralization and high tensile performance.
delete The method according to claim 1,
The movable chamber part (100)
A chamber 110 for storing the agitated composition through each mixture and a stirrer, and configured to facilitate movement of the movable chamber part 100;
A first reservoir (120) formed at one side of the chamber for storing the polymer polyol;
A second reservoir 130 formed at one side of the first reservoir to store the polyisocyanate;
A third reservoir 140 formed at one side of the second reservoir to store the prepolymer polymerized with the polyol and the polyisocyanate;
A fourth reservoir 150 formed at one side of the third reservoir for storing the curing agent;
An agitator 160 formed below the third and fourth reservoirs 140 and 150 so that the prepolymer stored in the third reservoir 140 and the curing agent stored in the fourth reservoir 150 can be stirred;
A composition reservoir 170 formed at one side of the agitator to store the two-pack type polyurea composition formed by stirring through the agitator 160;
A heating means (171) formed around the composition storage tank to provide a predetermined temperature through the control unit (180) to prevent a curing phenomenon of the two-pack type polyurea composition stored in the composition reservoir (170);
A first high-pressure pump 172 formed above the composition reservoir 170 to inject high-pressure two-component polyurea compositions stored in the composition reservoir 170 toward the branch event 200;
The amount of the polymer polyol in the first reservoir 120 and the amount of the polyisocyanate in the second reservoir 130 to the third reservoir 140 are controlled so that the prepolymer in the third reservoir and the polyisocyanate in the fourth reservoir 150 Controls the heating amount of the heating means 171, controls the rotation speed of the stirrer 160, controls the pressure of the first and second high pressure pumps 172 and 191, controls the amount of the curing agent supplied to the stirrer 160, And a control unit (180) formed on one side of the chamber (110)
An additional reservoir 190 formed at one side of the movable chamber part 100 to store additional composition to be sprayed upon injection through the spray nozzle 200;
A second high pressure pump (191) formed on one side of the additional reservoir (190) to move the additional composition stored in the additional reservoir (190) to the minute event side;
Further comprising a conveyance wheel (192) formed at a lower portion of the chamber (110) so as to facilitate the movement of the movable chamber part (100) in the vehicle, or the movement of the movable chamber part (100) An injection device for injecting an ultra fast cure type polyurea composition having an anti-seismic performance, anti-neutralization and high tensile properties.
The method according to claim 1,
The minute event (200)
A spray button 210 for spraying the two-pack type polyurea composition;
An injection amount regulator 220 formed at one side of the branch event 200 to control the injection amount of the two-pack type polyurea composition;
An additional injection amount regulating portion 230 formed at one side of the branching event for regulating the injection amount of the additional composition;
And an injection pressure regulating unit 240 for regulating the injection pressure of the spray nozzle 200 for spraying the ultra fast curing type polyurea composition having anti-neutralization property and high tearing property. Jetting device.

Images