KR100986727B1 - Apparatus and the method for impregnating glass fibre reinforcements with resins by using a vacuum chamber - Google Patents

Abstract

PURPOSE: A vacuum impregnation apparatus and method for fiber reinforcements are provided to completely impregnate an impregnation agent in fiber reinforcements because air pockets or bubbles do not remain in the fiber reinforcements. CONSTITUTION: A vacuum impregnation apparatus comprises a vacuum chamber(110), an impregnation agent storing container(130), a vacuum suction unit(140), and an impregnation agent collecting container(150). The impregnation agent storing container is connected to one side of the vacuum chamber through a pipe(132) and the vacuum suction unit is connected to the other side of the vacuum chamber through a pipe(144). The vacuum suction unit comprises a pump which creates vacuum pressure inside the vacuum chamber to eliminate internal air and draw the impregnation agent in the vacuum chamber from the impregnation agent storing container. The impregnation agent collecting container collects the impregnation agent discharged from the vacuum chamber using the vacuum suction unit.

Description

Textile reinforcing material vacuum impregnation device and method {APPARATUS AND THE METHOD FOR IMPREGNATING GLASS FIBRE REINFORCEMENTS WITH RESINS BY USING A VACUUM CHAMBER}

The present invention relates to an apparatus and a method for impregnating an epoxy resin (hereinafter referred to as "impregnating material") in a fiber reinforcement for structurally reinforcing a concrete structure, and more particularly made of a small structure that can be used on the job site In addition, fine air, air pockets or residual bubbles do not remain inside the fiber reinforcement, so that the fiber reinforcement can be completely impregnated with 100% impregnated material. The recovered residual impregnation material is not only reusable, but also contaminates the environment and environment. The present invention relates to a fiber reinforcing material vacuum impregnation device and method which effectively prevents pollution and prevents exposure of an impregnating material during operation, thereby greatly improving work stability.

In general, concrete structures such as beams, slabs and columns serve to support loads such as bending, compression, and buckling. These concrete structures are repaired and reinforced because they cannot maintain the design strength due to defects such as cracks, etc., and reinforcement works using fiber reinforcement materials such as carbon fiber or glass fiber, which are suitable for lightening the concrete structure and shortening the construction period. Is doing.

The process of reinforcing construction using fiber reinforcement on the aged concrete structure is as follows.

First, perform defect repair work on impregnated parts such as cracks, irregularities, etc. formed on the surface of concrete structure to be reinforced, and remove foreign materials such as dust or paint on the reinforcement surface. Clean up.

The primer is applied to the reinforcement surface arranged in this manner so that the fiber reinforcement described later is attached well. And the impregnating material is first applied to the site where the primer is applied using a brush or a roller for application, and such impregnating material serves to support the compressive force like concrete after being impregnated into the fiber reinforcing material.

After the impregnating material is applied as described above, the fiber reinforcing material is attached, and the fiber reinforcing material serves to support the tensile force such as reinforcing bar in the concrete attachment surface.

After the fiber reinforcing material is attached, the surface of the fiber reinforcing material is pressed by using a pressing roller. In this process, the primary reinforcing material is impregnated in the fiber reinforcing material and the remaining air in the fiber reinforcing material is removed.

After removing the remaining air or air bubbles in the fiber reinforcement as described above, the impregnating material is applied to the fiber reinforcing material as in the case of the first application of the impregnating material, and curing is completed to complete the reinforcement work using the fiber reinforcing material.

In the surface reinforcing work of the concrete structure, in the conventional fiber reinforcement method, the worker unfolds the fiber reinforcement material at the work site, applies the impregnation material to the surface by manpower, impregnates it inside, and attaches it to the repair part of the concrete structure. In a way.

However, such a conventional problem is that the impregnating material with the manpower in the workplace, the complete impregnation of the impregnating material in some of the fiber reinforcement material, even if the impregnated material impregnated small fine air bubbles remain to effect the reinforcement of the fiber reinforcement material It did not show 100%.

In particular, when air pockets, for example, micro-air bubbles, etc. remain in the impregnating material, the stress of the concrete structure is concentrated in such air pockets, so that the first of the reinforcement parts has a problem.

In the conventional method, there is a method of attachment through vacuum, but it is very difficult to make a vacuum state according to a structure in a construction site, and it is difficult to work realistically, and there are many problems due to the method not used at all.

In addition, the conventional fiber reinforcing material impregnation device, the device configuration is complicated, large and used independently in a separate workplace or factory, it is difficult to immediately use in the field, there was a lot of inconvenience in the maintenance of the device after the impregnation work .

In addition, such a conventional large fiber reinforcing material impregnation device is difficult to impregnate 100% impregnated material in the fiber reinforcement cut in accordance with the repair portion of the concrete structure, it is difficult to recover the impregnated material from the device after use, harden the device occurs Or maintenance through cleaning was difficult.

An object of the present invention is to solve the conventional problems as described above, the structure of the device is simple to use, easy to use, excellent mobility in the field, easy to impregnate the fiber reinforcement, as well as cleaning the device and It is to provide a fiber reinforcement vacuum impregnation device and method suitable for field use due to simple maintenance.

And another object of the present invention can be 100% to exclude all the air pockets remaining in the fiber reinforcement can improve the quality of the reinforcing effect, can greatly increase the working speed through the reduction of working time, impregnating material Not only can greatly reduce the pollution of the workplace and surroundings due to, and to provide a fiber reinforcing material vacuum impregnation apparatus and method that can reduce the work cost, and greatly improve the work safety.

In order to achieve the above object, the present invention provides a device for impregnating a fiber reinforcement, comprising: a vacuum chamber having a space contained therein; An impregnating material storage container connected to one side of the vacuum chamber through a pipe having an opening / closing valve and containing an impregnating material therein; It is connected to the other side of the vacuum chamber through a pipe provided with an opening and closing valve, after applying the vacuum pressure to the inside of the vacuum chamber to remove the internal air, the impregnating material from the impregnating material storage container by the vacuum pressure into the interior of the vacuum chamber Vacuum suction means having a pump to be introduced; And an impregnating material recovery container mounted on the front pipe of the vacuum suction means and recovering the impregnating material discharged from the vacuum chamber by the vacuum suction means after the fiber reinforcing material is impregnated inside the vacuum chamber. Provided is a fiber reinforcing material vacuum impregnation device, characterized in that the impregnation is made in the fiber reinforcement under the atmosphere, and configured to recover and reuse the impregnant remaining after the impregnation.

And the present invention is preferably the vacuum chamber, the vacuum suction means and the impregnating material recovery container is disposed on the table top of a certain height from the floor of the workplace, the impregnating material storage container is installed on the floor of the workplace under the table, the vacuum suction By the operation of the means, the impregnating material storage container is supplied with the impregnating material upwardly through a pipe to the vacuum chamber on the table, and when the impregnating material is recovered, the impregnating material storage container is recovered by gravity drop from the vacuum chamber to the impregnating material storage container. The reclaimer container is equipped with a return tube having an opening / closing valve extending from the impregnant recovery container to the impregnating material storage container at an upper position of the impregnating material storage container so that the impregnating material can be gravity-dropped from the impregnating material recovery container to the impregnating material storage container. It provides a fiber reinforcing material vacuum impregnation device, characterized in that to be recovered.

In addition, the present invention preferably the vacuum chamber is made of a rectangular box-shaped casing formed a space containing the impregnating material therein, the upper portion of the casing is positioned to seal the inner space of the casing to the outside, A pipe extending from the impregnating material storage container is connected to one bottom surface of the casing to form an impregnating material inlet, and a cover opposite to the impregnating material inlet is connected to a pipe connected to the impregnating material recovery container at an upper side thereof to impregnating material outlet. It provides a fiber reinforcing material vacuum impregnation device, characterized in that to form a.

And the present invention preferably the impregnating material recovery container has a cylindrical body, the upper portion of the body is provided with a lid to seal the inner space of the body against the outside, the vacuum chamber on one side of the upper side of the body Pipes connected to the impregnating material outlet of the connection is connected, the pipe connected to the vacuum suction means is connected to the other side of the upper side of the body, the recovery pipe leading to the impregnating material storage container is connected to the bottom surface of the body, one side of the body The present invention provides a fiber reinforcing material vacuum impregnation device, characterized in that a transparent window is formed to visually check the remaining amount of the impregnating material.

In another aspect, the present invention preferably provides a fiber reinforcing material vacuum impregnation device, characterized in that the pipe connecting the vacuum chamber and the impregnating material recovery container is equipped with a transparent gauge that can visually check the presence or absence of air pockets in the impregnating material.

In order to achieve the above object, the present invention, in the method of impregnating a fiber reinforcement, the impregnating material storage container containing the impregnating material on one side is connected through a pipe provided with an opening and closing valve, the other side is a vacuum pressure in the inner space Disposing the fiber reinforcement material in an inner space of the vacuum chamber to which the vacuum suction means to be provided is connected through a pipe having an on / off valve; Operating the vacuum suction means to form an inside of the vacuum chamber in a vacuum state, and removing the air pocket from the embedded fiber reinforcement material; Impregnating a fiber reinforcing material by providing an impregnating material from the impregnating material storage container into the vacuum chamber; And recovering and reusing the impregnating material remaining in the vacuum chamber after the impregnation of the fiber reinforcing material.

Also preferably, the step of removing the air pocket from the fiber reinforcing material is closing the on / off valve of the pipe connected to the impregnating material storage container, opening the on / off valve of the pipe connected to the vacuum suction means, the vacuum containing the fiber reinforcing material A fiber reinforcing material vacuum, characterized in that to cover the top of the casing of the rectangular box shape of the chamber to seal the inner space of the casing to the outside, and to operate the pump of the vacuum suction means to maintain the interior of the vacuum chamber in a vacuum atmosphere Provide impregnation method.

And preferably, the step of impregnating the fiber reinforcing material is opening and closing valve of the pipe connected to the impregnating material storage container, by moving the impregnating material of the impregnating material storage container into the vacuum chamber by the vacuum pressure inside the vacuum chamber; After filling the inside of the vacuum chamber with the impregnating material, the closing valve of the pipe connected to the impregnating material storage container, and by operating the vacuum suction means for a certain time to maintain the interior of the vacuum chamber in a vacuum atmosphere It provides a fiber reinforcing material vacuum impregnation method.

In addition, the present invention preferably recovering and reusing the impregnating material is to stop the operation of the vacuum suction means to restore the interior of the vacuum chamber to atmospheric pressure, by opening the on-off valve of the pipe connected to the impregnating material storage container side table The impregnating material is recovered by dropping the impregnating material in the reverse direction from the vacuum chamber disposed at a certain height to the impregnating material storage container installed at the floor of the workplace. Part of the impregnating material which is transferred to the vacuum suction means side through the impregnating material outlet of the vacuum chamber during the impregnation process is In the front pipe of the vacuum suction means, the impregnated material recovery container provided at a predetermined height on the table is recovered, and the impregnated material contained in the impregnated material recovery container is gravity-generated through a recovery tube having an opening / closing valve extending downward to the impregnated material storage container. Is to be moved down into the impregnating material storage container and reused. Provided is a fiber reinforcing material vacuum impregnation method.

According to the present invention, the structure of the device is simple, easy to use, excellent in mobility in the field, the impregnation of the fiber reinforcement can be easily made, and the cleaning and maintenance of the device is simple, suitable for field use.

In addition, according to the present invention 100% of all the air pockets remaining in the fiber reinforcement can be excluded to enhance the quality of the reinforcement effect, the working time is greater than the manpower impregnation work of about 30㎡ per day by two workers It can shorten and mass production of fiber reinforcement.

In particular, according to the present invention, when applying the reinforcing method using a fiber reinforcement of two or more ply (ply), the impregnation treatment of a plurality of fiber reinforcement at a time irrespective of the number of reinforcing layers of the fiber reinforcement, for example, 1 ply, 2 ply, 3 ply This makes it possible to continuously apply multiple reinforcement of the fiber reinforcement, and can eliminate the problem of air pockets during the impregnation of the fiber reinforcement.

When the fiber reinforcing material impregnated by the present invention is attached to the repair portion of the concrete structure, the work time required for removing air from the conventional fiber reinforcement material is unnecessary, thereby greatly increasing the repair work speed of the site concrete structure. It becomes possible.

In addition, according to the present invention, in the conventional manpower impregnation operation, the contamination of the workplace and the environmental pollution due to the impregnating material was severe, but when using the present invention, it is possible to greatly reduce the pollution of the workplace and surrounding environment due to the impregnation material The effect can be obtained.

In addition, due to the recovery and recycling of the impregnating material, the cost of the impregnated material can be reduced compared to the conventional manpower impregnation work, and the manpower cost related to the impregnation work can be greatly reduced.

In addition, the human body has been exposed to harmful environments, such as the impregnated material is absorbed through the respiratory and skin of the worker during the work, but according to the present invention the worker is not directly exposed to the impregnated material can be obtained an excellent effect that greatly improves the work safety. .

1 is a process configuration diagram showing the fiber reinforcing material vacuum impregnation device according to the present invention as a whole.
Figure 2 is an external perspective view of the fiber reinforcing material vacuum impregnation device according to the invention as a whole.
Figure 3 is an exploded perspective view showing a fiber reinforcing material vacuum impregnation device according to the present invention.
4 is an operation explanatory diagram of a fiber reinforcing material vacuum impregnation device according to the present invention.
Figure 5 is a flow chart showing a step of vacuum reinforcing material fiber impregnation method according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The fiber reinforcing material vacuum impregnation apparatus 100 according to the present invention has a vacuum chamber 110 having a space in which the fiber reinforcing material S is contained as shown in FIG. 1.

As shown in FIGS. 2 and 3, the vacuum chamber 110 includes a rectangular box-shaped iron casing 112 having a space in which the impregnating material 120 is contained. When the cover 114 is positioned at the top of the cover to cover the cover 114 on the casing 112, the inner space of the casing 112 is sealed to the outside.

And the one side bottom surface (112a) of the casing 112 is connected to the pipe 132 extending from the impregnating material storage container 130 described later to form an impregnating material inlet 116a, the impregnating material inlet An opposite side cover 114 of 116a is connected to a pipe 144 connected to the impregnating material recovery container 150 to the upper side to form an impregnating material outlet 116b.

That is, in the vacuum chamber 110 having the above structure, the impregnating material 120 is introduced into the inside through the impregnating material inlet 116a formed on the bottom surface, and the impregnating material outlet 116b provided at the upper side of the cover 114 is provided. The impregnating material 120 is discharged to the outside through.

And the fiber reinforcing material vacuum impregnation apparatus 100 according to the present invention is connected through a pipe 132 having an opening and closing valve 132a on one side of the vacuum chamber 110, the impregnating material 120 is contained therein Impregnating material storage container 130 is provided.

Such impregnating material storage container 130 is made of a general upper open type cylindrical structure, the impregnating material 120 is contained therein, such impregnating material 120 is the main material (122a) and the hardening material (122b) Are mixed with each other to be contained inside the barrel in the form of a liquid resin, one side of the pipe 132 is provided with an on-off valve 132a is connected to the impregnating material inlet 116a of the vacuum chamber 110 And supply the impregnating material 120 into the vacuum chamber 110.

In addition, the fiber reinforcing material vacuum impregnation device 100 according to the present invention after applying the vacuum pressure to the inside of the vacuum chamber 110 to remove the internal air, the impregnating material 120 from the impregnating material storage container 130 by the vacuum pressure ) Is provided with a vacuum suction means 140 to be introduced into the interior of the vacuum chamber 110, such a vacuum suction means 140 includes a vacuum pump 142 that operates by power supply to generate a vacuum pressure The inlet side is connected to the impregnating material outlet 116b of the vacuum chamber 110 through a pipe 144 provided with an opening / closing valve 144a.

In addition, the present invention includes an impregnating material recovery container 150 for recovering the impregnating material 120 from the front pipe of the vacuum suction means 140. The impregnating material recovery container 150 is impregnated with the fiber reinforcing material (S) in the interior of the vacuum chamber 110, the impregnation material 120 is discharged from the vacuum chamber 110 by the vacuum suction means 140. ) Is to recover.

As shown in Figure 3, the impregnating material recovery container 150 has a cylindrical body 152, the upper portion of the body 152 is provided with a lid 154, the inner space of the body 152 Is sealed against the outside.

In addition, a pipe 144 leading to the impregnating material outlet 116b of the vacuum chamber 110 is connected to one side upper side of the body 152 of the impregnating material recovery container 150, and the other side of the body 152 is vacuumed. Pipe 144 is connected to the suction means 140 is connected.

As such, when the pipe 144 is connected to the upper portion of the body 152 side of the impregnation material recovery container 150, when the vacuum suction means 140 is operated to generate a vacuum pressure, the impregnation material recovery container 150 A vacuum pressure is applied to the inside of the vacuum chamber 110 through the vacuum pressure, and a part of the impregnating material 120 is moved from the vacuum chamber 110 to the vacuum suction means 140 by the vacuum pressure. The impregnation material recovery container 150 is passed through, and the impregnation material 120 is contained in the impregnation material recovery container 150 by its own weight.

At this time, the impregnating material 120 is contained in the height of the pipe 144 of the impregnated material recovery container 150, the height of the impregnated material 120 to the height of the pipe 144 or more. ) Is contained therein, the vacuum pressure of the vacuum suction means 140 does not reach the vacuum chamber 110, the impregnating material 120 is introduced into the vacuum suction means 140 through the pipe 144 to vacuum The pump 142 may be broken.

Therefore, since the height of the impregnating material 120 contained in the impregnating material recovery container 150 must be maintained below the height of the pipe 144 of the impregnating material recovery container 150, the mounting of the pipe 144 must be performed. The height is preferably formed on the upper side of the body 152 of the impregnated material recovery container 150.

And a recovery pipe 158 leading to the impregnating material storage container 130 is connected to the bottom surface of the body 152 of the impregnating material recovery container 150, and the opening and closing valve 158a is also mounted to the recovery pipe 158. It is.

In addition, one side of the body 152 of the impregnating material recovery container 150 is formed with a transparent window 160 for visually checking the remaining amount of the impregnating material 120 so that the impregnating material contained in the impregnating material recovery container 150 ( The amount of 120 can be easily grasped and the operator can grasp the opening / closing valve 158a of the recovery pipe 158 at any time.

On the other hand, the present invention is equipped with a transparent gauge 170 that can visually check the presence or absence of air pockets in the impregnating material 120 on one side of the pipe 144 connecting the vacuum chamber 110 and the impregnating material recovery container 150. It is.

Through such a transparent gauge 170, the operator can easily visually determine whether the air pocket is included in the impregnating material 120 is passed from the vacuum chamber 110 to the impregnating material recovery container 150.

The vacuum chamber 110, the vacuum suction means 140, and the impregnating material recovery container 150 configured as described above are disposed on the table 180 having a predetermined height from the floor of the workshop 182, and the impregnating material storage container 130 is disposed. ) Is installed in the workplace floor 182 below the table 180.

Therefore, when the vacuum suction means 140 operates, the impregnating material storage container 130 supplies the impregnating material 120 upwardly through the pipe 132 to the vacuum chamber 110 above the table 180, and impregnates it. When the ash 120 is collected, the impregnation material 120 moves downward from the vacuum chamber 110 to the impregnation material storage container 130 while the operation of the vacuum suction means 140 is stopped. The impregnated material recovery container 150 may be reused by moving the impregnated material 120 collected therein to the impregnated material storage container 130 through a recovery pipe 158 in a gravity drop type.

As shown in FIG. 4, the fiber reinforcing material vacuum impregnation device 100 according to the present invention configured as described above includes a plurality of fiber reinforcing materials S to be impregnated in the vacuum chamber 110 and the vacuum chamber ( Close the cover 114 of 110.

Then, the closing valve 132a of the pipe 132 connected to the impregnating material storage container 130 is closed, and the opening and closing valve 144a of the pipe 144 connected to the vacuum suction means 140 is opened, and then the vacuum suction means ( 140).

Therefore, a vacuum pressure is formed in the vacuum chamber 110, and all the internal air is removed by the vacuum suction means 140, and there are no air pockets in the fiber reinforcement S as well as in the vacuum chamber 110. You will not.

As such, when the on-off valve 132a of the pipe 132 connected to the impregnating material storage container 130 is opened in the state where the vacuum pressure is applied to the inside of the vacuum chamber 110, the impregnating material in the impregnating material storage container 130 ( 120 is moved upward into the vacuum chamber 110 by riding the pipe 132, filled in the interior of the vacuum chamber 110 is impregnated in the fiber reinforcement (S) located therein.

As such, when the impregnation material 120 is filled in the vacuum chamber 110, the on-off valve 132a of the pipe 132 connected to the impregnation material storage container 130 is closed to further impregnation material 120. The vacuum pressure applying operation by the vacuum suction means 140 is continued for a certain period of time while maintaining the inflow of the gas is not made, through this process there is no air inside the vacuum chamber 110 , No air pocket is formed in the fiber reinforcement (S) is not formed in the impregnation operation is made good, and as a result, no air pocket is formed in the fiber reinforcement (S) made impregnation.

This impregnation operation is 100% complete in the state in which the impregnating material 120 is filled in the interior of the vacuum chamber 110, in this process vacuum suction through the impregnating material outlet 116b of the vacuum chamber 110 Part of the impregnating material 120 to the side of the means 140 is recovered through the impregnating material recovery container 150 provided in the front pipe 144 of the vacuum suction means 140 to prevent the flow into the vacuum suction means 140. In addition, damage to the vacuum suction means 140 is prevented.

When the impregnation operation of the fiber reinforcing material (S) is completed, the operation of the vacuum suction means 140 is stopped. When the operation of the vacuum suction means 140 is thus stopped, the vacuum from the inside of the vacuum chamber 110 is prevented. Since the state is released, it is easily recovered to an atmospheric pressure state, and the impregnating material 120, which has been filled in the vacuum chamber 110, is opened by opening and closing the valve 132a of the pipe 132 connected to the impregnating material storage container 130. It is recovered by falling in the reverse direction from the chamber 110 to the impregnating material storage container 130, and the inside of the vacuum chamber 110 is emptied cleanly. Then, the cover 114 of the vacuum chamber 110 is opened to take out the fiber reinforcing material (S) that has been impregnated and used for reinforcing the concrete structure.

Hereinafter, the fiber reinforcing material vacuum impregnation method 200 according to the present invention will be described step by step with reference to FIG. 5.

In the fiber reinforcing material vacuum impregnation method 200 according to the present invention, the step (S1) is first placed in the internal space of the vacuum chamber 110.

As described above with reference to FIGS. 2 and 3, the vacuum chamber 110 used in such a step S1 has an impregnating material storage container 130 containing an impregnating material 120 at one side thereof, and opens / closes a valve 132a. ) Is connected via a pipe 132, and the other side is connected to the vacuum suction means 140 for applying a vacuum pressure to the internal space through a pipe 144 provided with an on-off valve 144a, rectangular box type The cover 114 is opened from the casing 112, and a plurality of fiber reinforcements S to be impregnated therein and the cover 114 is closed.

Next, the vacuum suction means 140 is operated to form the inside of the vacuum chamber 110 in a vacuum state, and a step S2 of removing the air pocket from the embedded fiber reinforcement S is performed.

As such, the step (S2) of removing the air pocket from the fiber reinforcement (S) is to close the on-off valve 132a of the pipe 132 connected to the impregnating material storage container 130, the pipe connected to the vacuum suction means (140) After opening and closing the valve 144a of 144, the pump 142 of the vacuum suction means 140 is operated.

Therefore, the inside of the vacuum chamber 110 is maintained in a vacuum atmosphere, all the internal air is removed, there is no air pocket in the fiber reinforcement (S).

Next, a step S3 of impregnating the fiber reinforcement S is provided by providing the impregnation material 120 into the vacuum chamber 110 from the impregnation material storage container 130.

In this step (S3) is to open and close the valve 132a of the pipe 132 connected to the impregnating material storage container 130, the opening of such a valve 132a to the vacuum pressure inside the vacuum chamber 110. The impregnating material 120 of the impregnating material storage container 130 moves upward into the vacuum chamber 110, and the impregnation operation of the fiber reinforcing material S is filled by filling the interior of the vacuum chamber 110 with the impregnating material 120. Let this be done.

In addition, after the impregnation of the fiber reinforcement (S) as described above, the step (S4) of recovering and reusing the impregnating material 120 remaining in the vacuum chamber 110 is made.

In this way, the step (S4) of recovering and reusing the impregnating material 120 stops the operation of the vacuum suction means 140 to restore the interior of the vacuum chamber 110 to atmospheric pressure, and thus, the vacuum chamber 110. After recovering to atmospheric pressure, the on-off valve 132a of the pipe 132 connected to the impregnating material storage container 130 side is opened.

Therefore, since the vacuum chamber 110 is disposed at a predetermined height on the table 180 and is located at a position higher than the impregnating material storage container 130 installed on the floor of the workplace 182, the impregnating material 120 is removed from the vacuum chamber 110. It is dropped in the reverse direction by gravity toward the impregnation material storage container 130 and is recovered. Through the recovery process, the interior of the vacuum chamber 110 is emptied of the impregnating material 120 except for the fiber reinforcement material S impregnated.

Meanwhile, a part of the impregnating material 120 that is transferred to the vacuum suction means 140 through the impregnating material discharge port 116b of the vacuum chamber 110 in the impregnation process is a table (the front pipe 144 of the vacuum suction means 140). It is recovered through the impregnating material recovery container 150 provided at a predetermined height on the 180.

In addition, the impregnated material 120 contained in the impregnated material recovery container 150 is impregnated by gravity drop type through the recovery pipe 158 provided with the on-off valve 158a because the impregnated material 120 contained in the impregnated material recovery container 130 is higher. It is reused by moving downward to the storage container 130.

As described above, the fiber reinforcing material vacuum impregnation device 100 and the method 200 according to the present invention are made of a small and simple structure that can be used in a reinforcement work site of a concrete structure and can be easily operated. Do.

In addition, since the present invention maintains the interior of the vacuum chamber 110 in a vacuum state, it is possible to exclude all air pockets remaining in the fiber reinforcement (S) 100% to enhance the reinforcement effect of the concrete structure, worker 2 The phosphorus standard can significantly shorten the working time than the workforce impregnation work of about 30㎡ per day, it is possible to mass-produce high quality fiber reinforcement (S).

In particular, according to the present invention, when applying the reinforcement method of the concrete structure using two or more ply fiber reinforcement (S), regardless of the number of reinforcing layers of the fiber reinforcement (S), for example, 1 ply, 2 ply, 3 ply Since the impregnation treatment of a plurality of fiber reinforcing material (S) is possible, it becomes possible to continuously attach multiple reinforcement of the fiber reinforcing material (S), when impregnating the fiber reinforcing material (S), it is possible to eliminate the problem of air pockets.

And when the present invention is attached to the fiber reinforcement (S) made the impregnation work to the repair portion of the concrete structure, the work time for the exclusion of the air pocket from the conventional fiber reinforcement (S) becomes unnecessary, and repair work of the site concrete structure The speed can be greatly increased.

In addition, the present invention was a serious pollution of the workplace and the environmental pollution due to the impregnating material 120 during the conventional manpower impregnation work, but when using the present invention greatly contaminated the workplace and the surrounding environment due to the impregnating material 120 It is possible to reduce, due to the recovery and recycling of the impregnating material 120 can achieve a reduction in the impregnation material cost than the conventional manpower impregnation operation, it is possible to significantly reduce the manpower costs associated with the impregnation operation.

In addition, the present invention has been exposed to harmful environments such as the impregnation material 120 is absorbed through the respiratory and skin of the worker during the conventional manpower work, but according to the present invention the worker is not directly exposed to the impregnation material 120 It is also possible to obtain an excellent effect of greatly improving safety.

An embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Accordingly, such improvements and modifications are within the scope of the present invention as long as they are obvious to those skilled in the art.

100 ...... Textile reinforcing material vacuum impregnation device
110 ............ vacuum chamber 112 ...... casing
112a ..... Bottom 114 ....... Cover
116a ..... Impregnation Inlet 116b ...... Impregnation Outlet
120 ...... Impregnated material 122a .....
122b ...... Hardener 130 ...... Impregnation Storage Container
132,144 ..... Piping 132a, 144a, 158a ..... Valves
140 ...... Vacuum suction means 142 ...... Vacuum pump
150 ...... Recovering impregnated material 152 ...... Body
154 ...... Land 158 ...... Recovery Tube
160 ...... transparent window 170 ...... transparent gauge
180 ...... Table 182 ...... Workshop Floor
200 ...... Fiber reinforcement method Vacuum impregnation method S ...... Fiber reinforcement material
S1 ...... Placement of the fiber reinforcement in the interior space of the vacuum chamber
S2 ...... Step of removing air pocket from fiber reinforcement
S3 ...... Impregnating the fiber reinforcement
S4 ...... Recovering and reusing impregnating material

Claims (9)

In the apparatus for impregnating a fiber reinforcement,
A vacuum chamber having a space in which the fiber reinforcement is contained;
An impregnating material storage container connected to one side of the vacuum chamber through a pipe having an opening / closing valve and containing an impregnating material therein;
It is connected to the other side of the vacuum chamber through a pipe provided with an opening and closing valve, after applying the vacuum pressure to the inside of the vacuum chamber to remove the internal air, the impregnating material from the impregnating material storage container by the vacuum pressure into the interior of the vacuum chamber Vacuum suction means having a pump to be introduced; And
An impregnating material recovery container mounted on the front pipe of the vacuum suction means and collecting impregnated material discharged from the vacuum chamber by the vacuum suction means after impregnation of the fiber reinforcement in the vacuum chamber; The fiber reinforcing material vacuum impregnation device, characterized in that the impregnation is made under the fiber reinforcement, and configured to recover and reuse the impregnant remaining after the impregnation. According to claim 1, wherein the vacuum chamber, the vacuum suction means and the impregnating material recovery container is disposed on the table top of a certain height from the floor of the workplace, the impregnating material storage container is installed on the floor of the workplace under the table, the vacuum suction means In the operation of the impregnating material storage container is impregnated material is supplied to the vacuum chamber of the upper table through the pipe to move upward, when the impregnated material is recovered from the vacuum chamber to the impregnating material storage container by gravity drop type, the impregnated material The recovery container is equipped with a recovery tube having an opening / closing valve extending from the impregnating material recovery container to the impregnating material storage container at an upper position of the impregnating material storage container so that the impregnating material is gravity-dropped from the impregnating material recovery container to the impregnating material storage container. Fiber reinforcing material vacuum impregnation device, characterized in that to be recovered. According to claim 2, wherein the vacuum chamber is made of a rectangular box-shaped casing formed a space for impregnating material therein, a cover is located on the upper portion of the casing to seal the inner space of the casing against the outside, A pipe extending from the impregnating material storage container is connected to one bottom surface of the casing to form an impregnating material inlet, and an opposite cover of the impregnating material inlet is connected to a pipe connected to the impregnating material recovery container to an upper side thereof to form an impregnating material outlet. Fiber reinforcing material vacuum impregnation device, characterized in that to form. According to claim 2, The impregnating material recovery container has a cylindrical body, the upper portion of the body is provided with a lid to seal the inner space of the body to the outside, one side of the upper side of the vacuum chamber A pipe connected to the impregnating material outlet port is connected, and a pipe connected to the vacuum suction means is connected to the other side of the upper side of the body, and a recovery pipe leading to the impregnating material storage container is connected to the bottom surface of the body, while at one side of the body Fiber reinforcing material vacuum impregnation device, characterized in that the transparent window is formed that can visually check the remaining amount of the impregnating material. 5. The fiber reinforcing material vacuum impregnating device according to claim 4, wherein the pipe connecting the vacuum chamber and the impregnating material recovery container is equipped with a transparent gauge for visually checking the presence or absence of an air pocket in the impregnating material. In the method of impregnating a fiber reinforcement,
On one side, the impregnating material storage container containing the impregnating material is connected through a pipe with an opening / closing valve, and on the other side, a vacuum suction means for applying a vacuum pressure to the inner space is connected to the inner space of the vacuum chamber connected through the pipe with an opening / closing valve. Disposing a fiber reinforcement;
Operating the vacuum suction means to form an inside of the vacuum chamber in a vacuum state, and removing the air pocket from the embedded fiber reinforcement material;
Impregnating a fiber reinforcing material by providing an impregnating material from the impregnating material storage container into the vacuum chamber; And
Recovering and reusing the impregnating material remaining in the vacuum chamber after the impregnation of the fiber reinforcement; Fiber reinforcing material vacuum impregnation method comprising a. The method of claim 6, wherein the step of removing the air pocket from the fiber reinforcing material is to close the on-off valve of the pipe connected to the impregnating material storage container, open the on-off valve of the pipe connected to the vacuum suction means, and then the vacuum chamber containing the fiber reinforcing material Covering the upper cover of the casing made of a rectangular box of the sealing the inner space of the casing to the outside, by operating the pump of the vacuum suction means to maintain the interior of the vacuum chamber in a vacuum atmosphere, characterized in that the vacuum impregnation Way. The method of claim 6, wherein the impregnating of the fiber reinforcing material opens the on / off valve of the pipe connected to the impregnating material storage container, and moves the impregnating material of the impregnating material storage container into the vacuum chamber by the vacuum pressure inside the vacuum chamber, After filling the inside of the vacuum chamber with the impregnating material, and closes the opening and closing valve of the pipe connected to the impregnating material storage container, by operating the vacuum suction means for a predetermined time to maintain the interior of the vacuum chamber in a vacuum atmosphere, characterized in that the Fiber reinforcement vacuum impregnation method. The method of claim 6, wherein the step of recovering and reusing the impregnating material comprises stopping the operation of the vacuum suction means to restore the interior of the vacuum chamber to atmospheric pressure, and opening and closing the valve on the table connected to the impregnating material storage container. The impregnating material is recovered by dropping the impregnating material in the reverse direction from the vacuum chamber disposed at a certain height to the impregnating material storage container installed on the floor of the workplace. Gravity drops through the collecting pipe having an on-off valve extending downwardly into the impregnating material storage container, and the impregnating material recovery container provided at a predetermined height on the table from the front pipe of the suction means. In this way, the material is moved downward to the impregnating material storage container for reuse. Fiber reinforcement vacuum impregnation method.

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