KR100330389B1 - Device for filling repair liquid for concrete crack - Google Patents

Abstract

The present invention can be more easily and automatically fill the crack repair injector to reduce the working time and maintenance costs, at the same time to prevent the loss of repair liquid, and also to accurately fill the appropriate amount of repair liquid to improve the reliability of the repair work, in particular The present invention relates to a concrete crack repair liquid filling device which can be used by installing a high-strength elastic member in the injector.

The present invention is a movable iron core (20) that is embedded in the non-ferrous metal barrel 10, to be movable before and after; A spring 30 that is coalesced in the front of the non-ferrous metal barrel 10 and retracts the movable iron core 20; A solenoid 40 wound around the center outer periphery of the non-ferrous metal barrel 10 to advance the movable core 20 to a magnetic field; The discharge port 51 is coupled to the front end of the non-ferrous metal cylinder 10 and the injection hole 2 of the injector 1 is hermetically inserted into the front center thereof. 50); A non-return check valve (60) installed at the rear of the discharge port (51); A piston (70) having a rod (71) embedded in the cylinder (50) and connected to the movable iron core (20) to the rear thereof; A non-return check valve (80) installed at the inlet (52) of the cylinder (50); And an inlet hose 100 connected to the check valve 80 and the repair liquid container 90.

Description

Concrete Crack Repair Liquid Filling Device {DEVICE FOR FILLING REPAIR LIQUID FOR CONCRETE CRACK}

The present invention relates to a concrete crack repair liquid filling device that can automatically and easily fill the repair fluid to the crack repair injector.

In general, cracks occur in concrete structures due to post-hardening process, post-hardening temperature, external pressure change, etc., unless they are completely constructed. Therefore, in order to prevent the progress of such cracks, a repair solution such as an epoxy resin having strong adhesiveness was injected into the crack site using a crack repair injector.

The concrete crack repair injector used to repair the crack of the concrete structure is provided with a fixing plate fixed to the crack part by a protrusion for opening the valve, and an injection hole inserted into the fixing plate and filled with a repair liquid therein. And an elastic member such as a spring and a rubber cord for advancing the piston installed in the cylinder with restoring force, and a check valve built into the inlet to prevent backflow.

In order to repair cracks in the concrete structure with the repair injector configured as described above, the inlet must be coupled to the fixed plate while the repair liquid is filled in the cylinder. The repair liquid filled in the cylinder is injected into the crack while the piston is gradually advanced by the restoring force of the elastic member. do.

However, in the related art, there is an inconvenience in the work that the operator has to pull back the piston rod while filling the injection port of the injector in the maintenance liquid to fill the maintenance liquid, and thus requires a lot of manpower. As a result, the cost of repair increases, and in particular, in the conventional manual suction method, due to the limitation of manpower consumption, the elastic force of the elastic member, which is the pressure source of the injector, is limited to less than or equal to the problem. there was.

In addition, conventionally, as described above, the filling port of the injector needs to be put in the repairing liquid when filling the repairing liquid, so that the repairing liquid is unnecessarily lost to the outside of the injection hole. Due to the excessive charging time, it is not possible to accurately fill the appropriate amount of the repair solution, there was a problem that the reliability of the repair work is lowered.

An object of the present invention is to invent the above-mentioned conventional drawbacks, and to easily and automatically fill the crack repair injector for the repair fluid to reduce the working time and repair costs, at the same time to prevent the loss of repair liquid, and also the appropriate amount It is possible to improve the reliability of the repair work by accurately filling the repair solution of, and in particular to provide a concrete crack repair liquid filling device that can be used by installing a high-strength elastic member in the injector.

In order to achieve the above object, the present invention connects the piston to the movable iron core reciprocating through the solenoid and the spring, and each of the inlets connected to the discharge port and the maintenance liquid container in which the inlet of the injector is hermetically fitted to the cylinder containing the piston, respectively. And a check valve for preventing a backflow at each of the discharge port and the inlet port so that the repair liquid introduced into the cylinder through the inlet port is filled into the injector through the inlet port.

1 is a cross-sectional view showing a structure of the present invention.

2 is an operational state diagram of the present invention.

3a and 3b is a state diagram used in the present invention.

<Code Description of Main Parts of Drawing>

1: injector 2: inlet

10: non-ferrous metal barrel 20: movable iron core

30: spring 40: solenoid

50: cylinder 51: discharge port

52: inlet port 60: check valve

70: piston 71: rod

80: check valve 90: maintenance liquid container

100: inlet hose 110: adjusting screw

Hereinafter, the technical configuration of the present invention according to the accompanying drawings in detail.

Concrete crack repair liquid filling apparatus of the present invention, as shown in Figures 1 to 3, the movable iron core 20 is embedded in the non-ferrous metal barrel 10 to be moved back and forth; A spring 30 that is coalesced in the front of the non-ferrous metal barrel 10 and retracts the movable iron core 20; A solenoid 40 wound around the center outer periphery of the non-ferrous metal barrel 10 to advance the movable core 20 to a magnetic field; The discharge port 51 is coupled to the distal end of the non-ferrous metal barrel 10 and the inlet port 2 of the injector 1 is hermetically inserted into the front center thereof, and the inlet port 52 is in communication with the inlet port 52. ); A non-return check valve (60) installed at the rear of the discharge port (51); A piston (70) having a rod (71) embedded in the cylinder (50) and connected to the movable iron core (20) to the rear thereof; A non-return check valve (80) installed at the inlet (52) of the cylinder (50); And an inlet hose 100 connected to the shock valve 80 and the maintenance liquid container 90, which is a basic feature of the technical configuration.

Here, the screw hole 11 is formed in the rear center portion of the non-ferrous metal cylinder 10, the adjustment screw 110 for adjusting the stroke of the movable iron core 20 is screwed to the screw hole (11). At this time, since the adjustment screw 110 adjusts the moving distance of the movable iron core 20, it is possible to appropriately adjust the filling amount of the repair liquid by using the adjustment screw 110.

As shown in FIG. 1, the movable core 20 maintains a state in which the movable iron core 20 is retracted to the rear of the nonferrous metal cylinder 10 by the spring force of the spring 30.

On the other hand, when power is applied to the solenoid 40 wound around the center outer periphery of the non-ferrous metal barrel 10, the movable iron core 20 is sucked into the center of the solenoid 40 by a magnetic field generated in the non-ferrous metal barrel 10. Since the power is applied to the solenoid 40 in the same state as in FIG. 1, the movable iron core 20 is advanced while compressing the spring 30 as shown in FIG. 2. In this case, when the power applied to the solenoid 40 is cut off, the movable iron core 20 is retracted again by the restoring force of the spring 30.

A socket 120 is screwed into the rear end inner diameter of the cylinder 50, and the tip of the nonferrous metal cylinder 10 is assembled by screwing into the inner diameter of the socket 120, and a rod is formed at the center of the socket 120. A rod hole 121 through which 71 passes is formed.

The internal thread of the discharge hole 51 formed in the front center portion of the cylinder 50 is formed with a female screw screwed to the injection hole 2 of the injector 1. At this time, the male thread is processed on the outer periphery of the injection port 20.

The check valve 60 fitted and fixed to the rear of the discharge port 51 is closed at the suction stroke of the piston 70 and opened at the compression stroke of the piston 70, and in the drawing, the ball 61 is a spring 62. While showing a check valve having a structure that is opened and closed while receiving the elasticity of the embodiment of the present invention, the check valve 60 is found to be configured in a variety of structures.

The piston 70 is reciprocating in conjunction with the movable iron core 20, during the suction stroke of the piston 70, the repair liquid flows into the cylinder 50 through the inlet 52, the piston 70 of the At the time of the compression stroke, the repair liquid introduced into the cylinder 50 is discharged to the discharge port 51. At this time, since the check valve 80 is opened during the suction stroke of the piston 70 as described above, the repair liquid stored in the repair liquid container 90 by the suction force is passed through the inlet hose 100 and the open valve 80. Since the check valve 60 is introduced into the cylinder 50 by the pressure during the compression stroke of the piston 70, the repair liquid introduced into the cylinder 50 is discharged through the open check valve 60. Is discharged.

The check valve 80 fitted and screwed into the inlet 52 is opened at the suction stroke of the piston 70 and closed at the compression stroke of the piston 70. In the drawing, the ball 81 of the spring 82 While showing a check valve having a structure that is opened while receiving elasticity, the check valve 80 in the embodiment of the present invention will be clear that it can be configured in a variety of structures.

The repair liquid 90 is stored in a repair liquid such as a strong adhesive epoxy resin, the inlet hose 100 connected to the check valve 80 is communicated to the repair liquid 90.

On the other hand, Figure 3a and Figure 3b is a view showing the state of use of the present invention, that is, showing the state of filling the repair solution to the concrete repair injector 1 using the present invention, as is well known of the injector 1 The cylinder 3 is screwed to the inlet 2, and the cylinder 3 is built to receive the elasticity of the spring 5, which is an elastic member, to the piston 4. The valve 6 is installed.

In the drawings, reference numeral 21 denotes a spring fixing pin, and 41 denotes a coil support plate.

Referring to the overall operating relationship of the present invention configured as described above in detail.

The piston 70 is reciprocated several times in advance during the initial filling of the refilling fluid, and the refilling fluid is filled in the cylinder 50 as shown in FIG. 3A, and the stroke length of the movable core 20 is adjusted by the adjustment screw 110. Adjust the flow rate of the repair liquid in advance.

In this state, as shown in FIG. 3A, the air inlet 2 of the injector 1 is hermetically coupled to the discharge port 51 of the cylinder 50, and then the power is applied to the solenoid 40. Likewise, the movable iron core 20 moves forward while compressing the spring 30, and at the same time, the piston 70 moves forward.

Since the check valves 60 and 6 are respectively opened and the check valve 80 is closed as shown in FIG. 3B by the advancing pressure of the piston 70, as a result, the repair liquid pushed forward by the piston 70 is It is filled into the injector 1 via the open valve 60, 6.

As shown in FIG. 3B, when the repair liquid is completely filled into the injector 1 by the compression stroke of the piston 70, the inlet 2 of the injector 1 is removed from the outlet 51, and then the inlet of the injector to be charged again is refilled. When the power supply of the solenoid 40 is cut off in this state after being coupled to the discharge port 51, the piston 70 retreats as shown in FIG. 3A by the restoring force of the compressed spring 30, and As the valve 80 opens, the repair liquid flows back into the cylinder 50.

When the power is applied to the solenoid 40 again in the state where the piston 70 is fully retracted, the piston 70 moves forward as described above, and the repair liquid is filled in the injector 1, so that the present invention is filled as described above. While repeating the operation, it is possible to automatically fill the appropriate amount of the repair liquid into the injectors 1.

Therefore, the present invention is easy to automatically fill a small amount of the repair solution to the concrete crack repair injector (1) through the filling device is convenient to repair the repair solution, thereby reducing the manpower, resulting in a repair cost In particular, the present invention can be used to install a high-strength elastic member in the injector (1) to enable a more complete injection of the repair liquid, it is possible to further improve the reliability of the repair work.

In addition, since the present invention can prevent the repair solution from outside the inlet (2) to reduce the loss of unnecessary repair solution as much as possible, and also automatically fill the repair solution to shorten the filling time and can accurately fill the appropriate amount of repair liquid The reliability of the maintenance work can be further improved.

In addition, since the present invention can automatically fill the injector 1 with the filling device through the filling device as described above, that is, it is not a structure for pulling and filling the piston rod as in the prior art, and thus the repairing liquid is directly injected through the inlet 2. Since it is a structure for filling, the piston rod of the injector 1 can be deleted.

As described above, the concrete crack repair liquid filling apparatus of the present invention can automatically fill the crack repair injector more easily and automatically, thereby reducing work time and repair costs, and at the same time preventing loss of the repair liquid, and also injecting an appropriate amount of repair liquid. It is a very useful invention to improve the reliability of the maintenance work by filling the filling accurately.

Claims (2)

A movable iron core 20 embedded in the non-ferrous metal barrel 10 so as to be movable back and forth; A spring 30 that is coalesced in the front of the non-ferrous metal barrel 10 and retracts the movable iron core 20; A solenoid 40 wound around the center outer periphery of the non-ferrous metal barrel 10 to advance the movable core 20 to a magnetic field; The discharge port 51 is coupled to the front end of the non-ferrous metal cylinder 10 and the injection hole 2 of the injector 1 is hermetically inserted into the front center thereof. 50); A non-return check valve (60) installed at the rear of the discharge port (51); A piston (70) having a rod (71) embedded in the cylinder (50) and connected to the movable iron core (20) to the rear thereof; A non-return check valve (80) installed at the inlet (52) of the cylinder (50); And an inlet hose (100) connected to the shock valve (80) and the repair solution container (90). 2. The apparatus for filling concrete crack repair liquid according to claim 1, wherein an adjustment screw (110) for adjusting the stroke of the movable iron core (20) is installed at the rear end of the non-ferrous metal cylinder (10).