KR100467863B1 - Direct-boring grouting apparatus - Google Patents

Abstract

The present invention is an improvement of the direct hole grouting device introduced in the Utility Model Registration No. 255662 of the applicant, A chemical injection pipe 1 is mounted to the first grouting rod 41, the first grouting rod 41 The second grouting rod 51 is fastened to the lower end of the c), and the chemical liquid injection control valve 61 and the check valve 71 are mounted on the second grouting rod 51, and the second grouting rod 51 It is characterized in that the boring bite 81 is fastened to the bottom.

Description

Direct-boring grouting apparatus

The present invention is an improvement of the direct hole grouting device introduced in the Utility Model Registration No. 255662 of the applicant, more specifically, the hole of the inner pipe of the chemical liquid injection control valve is blocked by the steel ball fired from the chemical injection pipe A After the support is formed in the inner pipe of the chemical liquid injection control valve, the chemical liquid mixing space between the chemical liquid injection pipe and the chemical liquid injection control valve is sufficiently secured, and a permanent magnet is mounted on the inner pipe so that the steel ball blocks the hole of the inner pipe. It does not deviate from the inner pipe, and the chemical liquid injection control valve and the check valve can be mounted on both the second grouting rod relates to a direct hole grouting device that reduced the number of configurations of the grouting rod.

The straight hole grouting device introduced in the applicant's utility model registration No. 255662 (registered on November 15, 2001) includes a lower grouting rod fastened with a boring bite, an intermediate grouting rod fastened with the lower grouting rod, and the lower A check valve disposed at an upper end of the grouting rod and embedded in the intermediate grouting rod, a chemical liquid injection control valve disposed at the top of the check valve and embedded in the intermediate grouting rod, an upper grouting rod fastened to the intermediate grouting rod, And an injection tube mounted to the upper grouting rod and a projectile coupled to a lower end of the injection tube.

However, the conventional direct hole grouting device as described above has the disadvantage that the projectile interferes with the mixing of the chemicals A and B in the space where the chemicals A and B are mixed, and the volume of the mixing space is small.

Accordingly, an object of the present invention is the hole of the inner pipe of the chemical liquid injection control valve is blocked by the steel ball fired from the chemical liquid injection tube, the support is formed in the inner pipe of the chemical liquid injection control valve A chemical liquid injection tube and chemical liquid injection control The chemical liquid mixing space between the valve is sufficiently secured, to provide a straight hole grouting device that can increase the mixing ratio of the chemicals A and B.

Another object of the present invention is that the permanent magnet is mounted on the inner pipe of the chemical liquid injection control valve, so that the steel ball does not deviate from the inner pipe of the inner pipe when the grouting operation is performed by tilting the boring bite to a position higher than the grouting rod. To provide a perforated grouting device.

Still another object of the present invention is to provide a perforated grouting device that can reduce the number of grouting rods and reduce production costs.

Figure 1 is a half cross-sectional view showing a direct hole grouting apparatus according to the present invention

Figure 2 is a cross-sectional view showing a direct hole grouting apparatus according to the present invention

3 is a cross-sectional view taken along the line B-B of FIG.

Figures 4a and 4b is a half cross-sectional view showing an example in which the elastic rubber and the spring steel pipe is mounted on the A chemical liquid injection tube to prevent clogging of the A chemical liquid injection port

Figure 4c is a half sectional view showing an example in which the opening and closing valve is mounted on the A chemical liquid injection tube to prevent clogging of the injection hole

5 and 6 are cross-sectional views for explaining the operation of the perforated grouting apparatus according to the present invention

* Description of Signs of Main Parts of Drawings *

1: A chemical solution injection tube 41: the first grouting rod

51: second grouting rod 61: chemical liquid injection control valve

71: check valve 81: boring bite

One example of a straight hole grouting apparatus according to the present invention for achieving the above object is A drug injection pipe is mounted to the first grouting rod, the second grouting rod is fastened to the bottom of the first grouting rod, The chemical spray injection valve and the check valve is mounted to the second grouting rod, and the boring bite is fastened to the lower end of the second grouting rod.

The chemical A injection tube is composed of an upper tube and a lower tube fastened to the lower end of the upper tube, the outer diameter is smaller than the inner diameter of the first grouting rod B chemical solution between the chemical A injection tube and the inner peripheral surface of the first grouting rod Characterized in that the B chemical solution supply passage that can pass through is formed.

The upper tube has a hollow portion through which the A drug liquid can pass, a spiral portion is formed on the lower outer circumferential surface, a bent portion and a protrusion having a cut surface are formed on the outer circumferential surface so that the B chemical can pass, and an O-ring is mounted on the upper tube. It is characterized by.

The lower tube has a hollow portion, a spiral portion is formed on the inner circumferential surface of the upper end, a tumbler is disposed on the hollow portion, a steel ball is disposed on the lower portion of the tumbler, and an O-ring is formed on the inner circumferential surface to fix the steel ball. It is disposed, and characterized in that a plurality of A chemical liquid injection port is formed in the middle portion.

An example in which the means for preventing the blockage of the A chemical liquid injection port is mounted on the A chemical liquid injection tube is characterized in that a thin elastic rubber is disposed on the outer circumferential surface of the lower tube of the A chemical liquid injection tube to cover the A chemical liquid injection hole.

Another example in which the means for preventing the blockage of the chemical injection hole is mounted on the chemical injection pipe is characterized in that the lower pipe of the chemical injection pipe is mounted with a spring steel tube coated with elastic rubber on the inner side thereof to cover the chemical injection hole. It is done.

Another example in which the means for preventing clogging of the A chemical liquid injection port is mounted to the A chemical liquid injection tube is characterized in that the opening and closing valve is mounted to the A chemical liquid injection port of the A chemical liquid injection tube.

The chemical liquid injection control valve is characterized in that it consists of an inner pipe which can block the chemical liquid injection port of the second grouting rod, and a spring supporting the inner pipe pipe and the lower end is supported by the check valve.

The inner pipe has a hollow portion through which perforated water can pass, and a plurality of supports are formed at an upper end thereof so that the supports are supported on the locking jaws of the second grouting rod, and the hollow portions are sealed by steel balls fired from the A chemical injection tube. A seating groove is formed at an upper end of the hollow part, and a permanent magnet is embedded in the bottom of the seating groove, and a plurality of O-rings are formed on the outer circumferential surface to seal between the inner circumferential surface of the second grouting rod and the outer circumferential surface of the inner pipe. It is disposed, characterized in that the spring mounting portion is formed at the bottom.

The check valve is characterized by consisting of a pipe pipe for supporting the spring of the chemical liquid injection control valve, a steel ball mounted in the pipe pipe, a spring for supporting the steel ball, and a support plate for supporting the spring.

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

1 and 2, in the direct hole grouting apparatus according to the present invention, A drug injection tube 1 is mounted on the first grouting rod 41, and the second grouting rod 41 is disposed on the lower end of the first grouting rod 41. The grouting rod 51 is fastened, the chemical liquid injection control valve 61 and the check valve 71 are mounted on the second grouting rod 51, and the boring bite 81 is disposed at the lower end of the second grouting rod 51. ) Is fastened.

The A drug solution injection tube 1 is composed of an upper tube 11 and a lower tube 21 fastened to the lower end of the upper tube 11, as shown in FIG. The B chemical liquid supply passage 32 is formed between the chemical chemical A injection tube 1 and the inner circumferential surface of the first grouting rod 31 to allow the chemical B to pass through, which is smaller than the internal diameter d of the first grouting rod 31.

The upper tube 11 has a hollow portion 12 through which A chemical liquid can pass, and a spiral portion 13 is formed on the lower outer peripheral surface, and a cut surface 15 to allow the B chemical liquid to pass through the outer peripheral surface (see FIG. 3B). Is formed with an additional portion 14, the O-ring 17 is mounted on the top.

Referring to FIG. 3, when the supplemental part 14 is attached to the protrusion 33 formed on the inner circumferential surface of the first grouting rod 31, the A chemical liquid injecting tube 1 is mounted in the first grouting rod 31. , The three surfaces of the gushing portion 14 are cut to have the cutting surface 15, so that the B chemical liquid supply passage 32 between the cutting surface 15 of the grating portion 14 and the inner circumferential surface of the first grouting rod 31. Is formed. Therefore, the puncture water injected during the puncture through the B drug solution supply passage 32 and the B drug solution injected during the grouting operation may pass.

In addition, when the A chemical solution injection tube 1 is supported by the protrusion 33 of the first grouting rod 31 by the additional part 14, the lower end of the A chemical solution injection tube 1 and the second grouting rod Chemical liquid mixing space (S) between the chemical liquid injection port 42 formed in the (41) is wider than the conventional direct hole grouting device, it is possible to secure the space occupied by the projectile in the conventional direct hole grouting device, A chemical solution and B The mixing ratio of the chemical liquid is significantly improved over the conventional direct hole grouting apparatus.

The lower tube 21 has a hollow portion 22, a spiral portion 23 is formed on the inner peripheral surface of the upper end, a tumbler 24 is disposed on the hollow portion 22, the tumbler 24 Steel balls 25 are disposed at the lower portion, O-rings 26 are disposed on the inner circumferential surface to fix the steel balls 25, and a plurality of A chemical liquid injection holes 27 are formed in the middle portion thereof.

The A chemical liquid injection port 27 is expanded from the inner circumferential surface toward the outer circumferential surface, so that when the B chemical liquid solidifies and blocks the A chemical liquid injection port, the A chemical liquid injection hole can be easily penetrated by the injection pressure of the A chemical liquid. In addition, it is possible to prevent the B chemical liquid from flowing into the A chemical liquid injection tube through the A chemical liquid injection port 27 in the same manner as in the following embodiments. This is because the chemical B, which is generally cement mortar, coagulates quickly when mixed with the chemical A, and thus the chemical B is introduced into the lower tube of the chemical A injection tube through the injection of the chemical A injection hole. will be.

Referring to FIG. 4A, in the first embodiment, a thin elastic rubber 28 is disposed on the outer circumferential surface of the lower tube 21 of the A chemical injection tube 1 so as to cover the A chemical injection hole 27. At this time, the elastic rubber 28 should be fixed to the top by an adhesive or clamp (30). When fixed by the clamp, the groove 29 is formed on the outer circumferential surface of the lower tube 21 to prevent the clamp 30 from protruding from the outer circumferential surface of the lower tube 21.

In the first embodiment, the elastic rubber 28 is extended by the injection pressure of the A chemical solution when the injection of the chemical drug A as shown in Figure 4a so that the chemical drug injection port 27 is opened, A chemical solution A When the injection is stopped, the lower end of the elastic rubber 28 by the restoring force of the elastic rubber 28 again closes the A chemical liquid injection port 27, so that the elastic rubber 28 can block the A chemical liquid injection port 27. .

Referring to FIG. 4B, in the second embodiment, a spring steel tube 32 coated with an elastic rubber 31 on an inner side thereof is mounted on the lower tube 21 of the A chemical liquid injection tube 1 so that the A chemical liquid injection hole 27 is provided. By covering the, opening and closing part 33 formed integrally with the spring steel pipe 32 covers the A chemical liquid injection port 27.

The opening and closing part 33 of the connecting portion 34 is integrally connected to the spring steel pipe 32, the circular portion 35 connected to the connecting portion 34 covers the A chemical liquid injection port 27.

Accordingly, in the spring steel pipe 32 according to the second embodiment, the circular portion 35 of the opening and closing part 33 is opened at the A chemical liquid injection port 27 by the injection pressure of the chemical liquid A when the chemical liquid A is injected. When the injection of the is stopped, the circular portion 35 of the opening and closing portion 33 again closes the A chemical liquid injection port 27 by the restoring force of the spring steel.

Referring to Figure 4c, the third embodiment is a grouting liquid injection hole opening and closing valve 36 of the grouting tube introduced in the Utility Model No. 224733 (registered on March 9, 2001) of the applicant A A liquid injection tube (1) When the A chemical solution is injected into the A chemical injection hole 27, the opening is opened by the injection pressure of the A chemical liquid, and the B chemical liquid is prevented from flowing into the A chemical liquid injection tube through the A chemical liquid injection port 27. Can be.

A chemical liquid injection hole 27 is formed by tapping the spiral so that the screw formed on the outer circumferential surface of the open / close valve 36 is fastened. In addition, since the configuration and operation of the on-off valve 36 is described in detail in Utility Model No. 224733, a detailed description thereof will be omitted.

1 and 2, the second grouting rod 51 has a hollow portion 53 formed thereon, and an upper male spiral portion 54 fastened to the lower female spiral portion 44 of the first grouting rod 41. ) Is formed, the inner diameter of the male portion 54 is smaller than the inner diameter of the body portion 55, the locking jaw 56 is formed at the lower end of the male portion 54, a plurality of chemicals in the body portion 55 The injection hole 52 is formed, and the female spiral part 57 is formed in the lower end.

1 and 2, the chemical liquid injection control valve 61 supports an inner pipe pipe 62 capable of blocking the chemical liquid injection port 52 of the second grouting rod 51 and the inner pipe pipe 62. The lower end is composed of a spring (70) supported by the check valve (71).

The inner pipe 62 has a hollow portion 63 through which a perforated water can pass, and a plurality of supports 64 are formed at an upper end thereof, so that the supports 64 are fastened to the second grouting rod 51. And a seating groove 65 formed at an upper end of the hollow portion 63 so that the hollow portion 63 may be sealed by the steel ball 25 fired from the A chemical solution injection tube 1. A permanent magnet 67 is embedded in the lower portion of the groove 65 and a plurality of O-rings 68 on the outer circumferential surface to seal between the inner circumferential surface of the second grouting rod 51 and the outer circumferential surface of the inner pipe pipe 62. This is arranged, and the spring mounting portion 69 is formed at the lower end.

Therefore, the inner pipe pipe 62 is secured by the support 64, the chemical liquid mixing space (S) between the A chemical liquid injection pipe 1 and the inner pipe pipe 61 can be secured wider than the conventional straight hole grouting device. .

In the chemical liquid injection control valve 61 configured as described above, the inner pipe pipe 62 is supported by the spring 70, and the upper end is supported by the locking jaw 56 of the second grouting rod 51 so that the chemical liquid injection is not possible. At this time, the inner tube pipe 62 blocks the chemical liquid injection port 52 of the second grouting rod 51, the chemical A is injected through the chemical A injection pipe 1, and the chemical B is injected from the first grouting rod 41. Steel ball mounted on the A chemical liquid injection pipe 1 when the chemical liquid A is injected through the chemical supply path 32 so that the mixture of the chemical A and the chemical B is injected through the chemical liquid injection port 52 of the second grouting rod 51 ( 25 is fired from the A chemical injection tube 1 by the injection pressure of the chemical liquid A to seal the hollow portion 63 of the inner pipe 62, so that the internal pipe 62 is closed by the pressure of the mixture. The chemical liquid injection hole 52 of the second grouting rod 51 is opened while the elastic force of the second grouting rod 51 is lowered, thereby lowering the mixture of the second grouting rod 51. It may be injected through the chemical liquid injection port 52.

The check valve 71 includes a pipe tube 72 for supporting the spring 70 of the chemical liquid injection control valve 61, a steel ball 73 mounted in the pipe pipe 72, and the steel ball 73. It is composed of a spring (74) for supporting and a support plate (75) for supporting the spring (74).

The supporting plate 75 is formed with a plurality of configurations 76 so that the perforated water used during the drilling operation can pass therethrough, and is supported by the boring bite 81.

The operation of the perforated grouting apparatus according to the present invention configured as described above will be described with reference to FIGS. 5 and 6.

As shown in FIG. 5, the boring water supplied through the B chemical liquid supply passage 32 between the first grouting rod 41 and the A chemical liquid injection tube 1 while the boring bite 81 drills the ground, The perforated water is supplied to the second grouting rod 51 and the boring bite by pushing the steel balls 73 of the check valve 71 mounted on the grouting rod 51 to open the pipe tube 72 of the check valve 71. Ejected via 81. When the ground drilling work is completed and the supply of the drilling water is stopped, the steel balls 73 block the pipe 72 by the restoring force of the spring 74 of the check valve 71 that has been compressed.

As shown in FIG. 6, when the chemical liquid is supplied to the B chemical liquid supply passage 32 and the A chemical liquid injection tube 1 of the first grouting rod 41, the chemical liquid A injection tube 1 is caused by the pressure of the chemical A liquid. The steel ball 25 mounted on the gas is discharged from the A chemical liquid injection tube 25 by the tumbler 24 to block the inner pipe pipe 62 of the chemical liquid injection control valve 61, thereby preventing the chemical A and the chemical B. By the pressure of the mixture of the inner pipe pipe 62 of the chemical liquid injection control valve 61 to overcome the elastic force of the spring 70 and lowers, the chemical liquid injection port 52 of the second grouting rod 51 is opened to the chemical liquid mixture is the chemical liquid It is injected through the injection port 52. At this time, after the chemical A and the chemical B is sufficiently mixed in the chemical liquid mixing space S between the chemical liquid injection tube 1 and the chemical liquid injection control valve 61, the chemical liquid injection port 52 of the second grouting rod 51 is used. It can be sprayed through.

The perforated grouting apparatus according to the present invention described above is intended to explain the spirit of the present invention, and those skilled in the art will be able to modify or change the present invention without departing from the claims of the present invention. For example, in the case of the chemical liquid injection control valve 61, it is possible to apply the inner pipe 62 without the support 64, as in the conventional direct hole grouting device. Accordingly, it will be appreciated that such simple design modifications also belong to the present invention.

As described above, the direct hole grouting device according to the present invention is blocked by the hole of the inner pipe of the chemical liquid injection control valve by the steel ball emitted from the chemical injection pipe, A support is formed in the inner pipe of the chemical liquid injection control valve A A sufficient amount of chemical liquid mixing space between the chemical liquid injection tube and the chemical liquid injection control valve is provided, so that the mixing ratio of the chemical liquid A and the chemical liquid B can be increased, and a permanent magnet is mounted on the inner pipe of the chemical liquid injection control valve, so that the height of the boring bite Even when the grouting operation is inclined to a position higher than the grouting rod, the steel ball does not deviate from the inner pipe of the inner pipe, and thus the production cost can be reduced by reducing the number of grouting rods.

Claims (10)

delete delete delete A chemical liquid injection tube 1 consisting of an upper tube 11 and a lower tube 21 fastened to the lower end of the upper tube 11 is mounted to the first grouting rod 41, and the first grouting rod 41. The second grouting rod 51 is fastened to the lower end of the c), and the chemical liquid injection control valve 61 and the check valve 71 are mounted on the second grouting rod 51, and the second grouting rod 51 In the boring bite grouting device, characterized in that the lower boring bite 81 is fastened, The lower tube 21 has a hollow portion 22, a spiral portion 23 is formed on the inner peripheral surface of the upper end, a tumbler 24 is disposed on the hollow portion 22, the tumbler 24 Steel ball 25 is disposed at the lower portion, O-ring 26 is disposed on the inner circumferential surface to fix the steel ball 25, a plurality of A chemical liquid injection port 27 is formed in the middle portion Direct hole grouting device. The method of claim 4, wherein The outer periphery of the lower tube (21) of the chemical drug injection pipe (1) is a straight hole grouting device, characterized in that a thin elastic rubber 28 is disposed to cover the chemical drug injection port (27). The method of claim 4, wherein The lower pipe 21 of the A chemical injection pipe 1 is mounted with a spring steel pipe 32 coated with an elastic rubber 31 on an inner surface thereof to cover the A chemical injection hole 27, characterized in that the straight hole grouting Device. delete delete A chemical injection tube 1 is mounted to the first grouting rod 41, and the second grouting rod 51 is fastened to the lower end of the first grouting rod 41, and to the second grouting rod 51. A chemical liquid injection control valve 61 and a check valve 71 are mounted, and a boring bite 81 is fastened to a lower end of the second grouting rod 51. The chemical liquid injection control valve 61 supports the inner pipe pipe 62 capable of blocking the chemical liquid injection port 52 of the second grouting rod 51 and the inner pipe pipe 62, and has a lower end connected to the check valve 71. In the perforated grouting device composed of a spring 70 supported, The inner pipe 62 has a hollow portion 63 through which a perforated water can pass, and a plurality of supports 64 are formed at an upper end thereof, so that the supports 64 are fastened to the second grouting rod 51. And a seating groove 65 formed at an upper end of the hollow portion 63 so that the hollow portion 63 may be sealed by the steel ball 25 fired from the A chemical solution injection tube 1. A permanent magnet 67 is embedded in the lower portion of the groove 65 and a plurality of O-rings 68 on the outer circumferential surface to seal between the inner circumferential surface of the second grouting rod 51 and the outer circumferential surface of the inner pipe pipe 62. Is disposed, the straight hole grouting device, characterized in that the spring mounting portion 69 is formed at the bottom. delete