KR101912508B1 - Injection nozzle equipment spraying grouting materials in low and midium pressure - Google Patents

Abstract

The present invention relates to a low-pressure mixed injection nozzle device for spraying a grouting material, and more particularly, to a low-pressure mixed injection nozzle device for spraying a grouting material, in which a grounding work is carried out before a soil- It is possible to reduce the consumption of the grouting material by spraying the grouting material at the medium and low pressure by mixing the grouting material at the injection nozzle portion so that the existing grouting portion is not broken and to change the grouting re-mixing ratio quickly according to the ground environment Pressure mixing injecting nozzle apparatus is connected to a drive shaft of a perforator head and is connected to a mixing pipe for supplying a mixed solution and an ecommerce injecting hole to be connected to a connecting pipe supplied from the mixed solution supplying unit and the ecommean supplying unit of the perforator, And a rod portion A water jet opening communicating with the high-pressure water pipe on the main surface, a bit for forming a hole in the ground at the tip of the rod, and a spray nozzle connected to the rod and the bit to mix the mixture and the eco- Wherein a spray hole is formed at the upper and lower ends of the spray nozzle unit so as to be coupled to the rod and the bit, and a spray hole is formed in the upper part of the spray nozzle to spray the mixed liquid and the eco-mixture, And a support member installed on the center of the bottom of the hollow pipe so that the elastic spring is seated thereon. The support member is mounted on the elastic spring portion and moves upward and downward And an adjustment cap for opening and closing the discharge hole.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a low-pressure mixed injection nozzle apparatus for spraying a grouting material,

The present invention relates to a low-pressure mixed injection nozzle device for spraying a grouting material, and more particularly, to a low-pressure mixed injection nozzle device for spraying a grouting material, in which a grounding work is carried out before a soil- It is possible to reduce the consumption of the grouting material by spraying the grouting material at the medium and low pressure by mixing the grouting material at the injection nozzle portion so that the existing grouting portion is not broken and to change the grouting re-mixing ratio quickly according to the ground environment Pressure mixed injection nozzle apparatus for spraying a grouting material capable of spraying a low-pressure mixed injection nozzle apparatus.

In general, the grouting method is a method of injecting a chemical solution into the gap of soil or rock by using an injection pump or the like. It is used to reinforce the grounding force of the soft ground during the river embankment or subway construction, It is used for the purpose of cracks formed and reinforcement of copper, prevention of settlement of breakwaters and seawalls.

This grouting method has the effect of injecting the grouting material to the ground, enhancing the grounding force of the ground by cementation of the ground, and decreasing the coefficient of permeability to improve the water repellency. Thus, the reinforcement and order of the ground, foundation pile formation, , Reinforcement of structures, reinforcement of tunnels, and acceptance of cars.

In connection with such a technique, in the prior art patent registration No. 109388, as shown in Fig. 1, the cement grouting reinforcing apparatus according to the cement grouting has a cement passage 14, an air passage 15 and a cut- A cement injection nozzle 13 connected to the cement passage 14 is formed at the lower end of the piercing rod 10 and a piercing rod 11 is formed at a lower end of the piercing rod 10, An air injection nozzle 17 connected to the air passage 15 is formed on the lower side of the nozzle body 10 and an air passage 15 and a cutting water passage 16, Wherein the cement spraying nozzle is formed horizontally in the same horizontal direction as the air spraying nozzle in a circumferential direction spaced from a lower end of the piercing rod to a predetermined upper portion, The cement spraying nozzle 13 and the air spraying nozzle 17 It is configured to be made of cement and air is ejected in the same line.

As described above, the grouting method expands the ground when the grouting material is continuously injected at a high pressure or consumes the grouting material more than necessary, thereby increasing the construction cost and damaging the existing grouting portion.

Further, there is a problem that the ratio of the grouting material can not be adjusted quickly according to the ground environment.

Korean Patent Registration No. 109388.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for grouting grouting work in which a groundwater is flowing, It is possible to reduce the consumption of the grouting material without damaging the existing grouting portion by spraying the grouting material at the medium and low pressure by re-mixing and to provide the grouting material which can quickly change the grouting material ratio according to the ground environment Pressure mixing injecting nozzle device during the spraying operation.

In order to achieve the above object, according to the present invention, there is provided a pneumatic dispenser, comprising: a rod unit coupled to a driving shaft of a puncher head and having a mixed liquid injection port and an ecommerce injection port formed in a double pipe form to communicate with a mixed liquid supply unit of the perforator and a connection pipe supplied from an eco- A water jet opening communicated with the high-pressure water pipe; a bit for forming a hole in the ground at the front end of the rod; a jet nozzle connected to the rod and the bit to mix the mixture and the eco- Wherein the injection nozzle unit is provided with a threaded portion to be connected to the rod portion and the bit at the upper and lower ends thereof, and a spray hole is formed in the upper portion of the outer periphery by mixing the mixed liquid and the eco- A step portion is formed on the outer periphery and a discharge hole is formed on the outer periphery of the bottom portion A supporting member provided at the center of a bottom portion of the hollow pipe and the hollow pipe; and a support cap disposed on the center portion of the support member so as to be seated on the elastic spring portion and moved upward and downward to open and close the discharge hole. Pressure mixed injection nozzle apparatus according to the present invention.

In addition, the injection holes of the injection nozzle unit are formed at two or more different positions on the surfaces facing each other, and the interval is 70 mm.

In addition, a through hole is formed in the central portion so as to allow the support member to pass therethrough, and a urethane foam layer capable of absorbing the shock is formed in the hemispherical inner portion. And a packing member is provided.

The upper end of the support member may further include a guide plate having an elastic force so as to guide the mixed liquid and the eccentric to the inside of the discharge hole and the adjustment cap formed at the bottom of the hollow pipe.

The support member is further provided with a mixing fan member which is rotated by a pressure of the mixture injection port of the rod portion and the injection port of the eccentricity injection port.

Another object of the present invention is to provide a mixed solution (A) comprising 45 to 50% by weight of sodium silicate and 50 to 55% by weight of water, 45 to 50% by weight of the mixed solution (A) 55% by weight based on the total weight of the grouting material.

(A) mixed with 45 to 50% by weight of sodium silicate and 50 to 55% by weight of water and 52 to 55% by weight of the mixed solution (A) with 40 to 43% by weight of eco- By weight.

As described above, the grouting material of the present invention and the medium-low-pressure mixed injection nozzle device spraying the grouting material of the present invention mix grout mixing at the injection nozzle section to spray the grouting material at a medium and low pressure so that the existing grouting is not broken, It is possible to prevent bulging and to save the consumption amount of the grouting material, and to change the grouting material ratio quickly according to the ground environment.

1 is a cross-sectional view showing a ground improvement and strengthening apparatus using conventional cement grouting.
FIG. 2 is a schematic view showing a grouting material of the present invention and a middle-low-pressure mixed injection nozzle device for spraying the same.
3 is an exploded perspective view of the medium / low pressure mixed injection nozzle device of the present invention.
4A and 4B show an embodiment of the medium / low pressure mixed injection nozzle device of the present invention.
5A is another embodiment showing the jet nozzle unit of the present invention.
Figure 5b is an embodiment of Figure 5a.
6 is another embodiment of the adjustable cap of the present invention.
7A and 7B show another embodiment of the support member of the present invention.
Fig. 8 shows a support member of the present invention.
FIGS. 9A, 9B and 9C are explanatory views showing a grouting material and a middle-low-pressure mixed injection nozzle device for spraying the same.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

As shown in FIGS. 2 to 3, the intermediate low-pressure mixed injection nozzle apparatus 1 of the present invention is connected to a driving shaft of a perforator head and is connected to a mixing liquid supply unit 110 of the perforator, A water injection opening 20 communicating with the high pressure water pipe on the outer circumferential surface of the rod portion 10; A bit 30 which forms a hole in the ground and a jet nozzle 30 which is connected between the rod 10 and the bit 30 to mix the mixed liquid and the eco- Pressure mixed injection nozzle device 1 wherein the injection nozzle part 40 has threaded parts 42-24 and 42-2 so as to be connected to the rod part 10 and the bit 30 at the upper and lower ends, -3, a spray hole 42-5 for spraying a mixed liquid and an eco-mixture is formed at the upper part of the outer periphery, a step portion 42-4 is formed on the outer periphery of the inner lower central portion, and a bottom portion 42-6 A supporting member 45 provided at the center of the bottom portion 42-6 of the hollow pipe 42 so that the elastic spring 45-2 is seated on the outer periphery of the hollow pipe 42, And an adjusting cap 46 for opening and closing the discharging hole 42-8 by moving up and down the supporting member 45 through the central portion of the supporting member 45 and being seated on the elastic spring portion 45-2, Is installed.

As described above, in the middle-low-pressure mixed injection nozzle apparatus 1 of the present invention, when the soft ground and the bad ground are reinforced during the civil engineering work, the rod portion 10 provided with the bit device 30 at the tip is combined with the drive shaft of the perforator head portion, A mixed solution inlet port 12 of the rod section 10 communicating with the connection pipe supplied to the mixed solution supply section 110 of the perforator and the efferent supply section 120 for forming grooves in the perforation hole after the perforation hole is formed The mixed liquid and the equiment are mixed in the injection nozzle unit 40 when supplied to the inside of the injection nozzle unit 40 through the injection port 14 and deformed into a graphite material, And the back surface of the perforation hole is grouted to reinforce the soft ground and the defective ground.

In this case, it is preferable that the injection nozzle unit 40 is rotated upwards by about 10 mm and sprayed. The ecome is not an ordinary cement but an eco-friendly cement. Even when overheating, .

The mixture liquid and the equiment supplied to the mixture liquid supply unit 110 and the ecommerce supply unit 120 of the perforator are injected into the mixed liquid injection port 12 and the eccentric injection port 14 of the rod unit 10, As shown in FIG. 4A, the initial pressure of the mixed liquid and the equiment injected through the injection ports 12 and 14 of the rod portion 10 is set to a medium pressure (4-8 kg / cm 2) The mixed liquid and the mixture injected through the injection ports 12 and 14 of the rod section 10 are discharged through the discharge hole 42-8 of the injection nozzle section 40 and the constant (4 to 8 kg / cm 2) is supplied to the regulating cap 46 provided inside the injection nozzle unit 40 as shown in FIG. 4B, And the discharge hole 42-8 of the discharge nozzle unit 40 is closed by the urging force of the spray nozzle unit 40 are mixed and injected into the perforation hole by the injection hole 42-5 of the injection nozzle unit 40. [

The mixing liquid and the equiment are mixed by the control cap 46 provided in the injection nozzle unit 40 so that the mixture liquid and the equiments to be supplied at medium and low pressure are mixed with each other to form the graining material in the injection nozzle unit 40 It is possible to quickly change the mixing ratio of the mixed liquid and the ecome according to the ground environment because it is sprayed through the spray hole (42-5), and it is possible to inject the droplet by the rotary spray method at medium and low pressure, The grout can be precisely grooved on the back surface of the perforation hole, and the yield of the drilling is greatly improved compared to the existing grouting method.

As described above, the grouting material mixed with the mixed liquid and the constituent is injected into the rear surface of the perforation hole through the injection hole 42-5 of the injection nozzle unit 40, The portion 40 is rotated and injected, and is rotated upward at intervals of about 10 mm.

A plurality of spray holes 42-5 may be formed on the outer periphery of the spray holes 42-5 of the spray nozzle portion 40 for spraying the grouting material on the back surface of the perforation holes, 5A, the injection holes 42-5 of the injection nozzle unit 40 are formed at two or more different positions on the mutually facing surfaces, and the intervals are set to 70 mm desirable.

That is, as shown in FIG. 5B, the injection holes 42-5 of the injection nozzle unit 40 can be injected at positions corresponding to each other, but the grouting material can be widely applied to the inner surface of the perforation hole, The gap between the lower spray hole 42-5 of the spray nozzle unit 40 and the upper spray hole 42-5 corresponding to the lower spray hole 42-5 is spaced by 70 mm so as to be injected and injected so that the consumption of the grouting material is saved, So that it is possible to stably apply the coating solution, and the yield of the coating solution can be increased.

As described above, the mixing liquid and the equiment supplied to the inside of the injection nozzle unit 40 open and close the discharge hole 42-8 of the injection nozzle unit 40 in accordance with the pressure, and control to mix the mixture liquid and the ekomen As shown in FIG. 6, the cap 46 is seated on the step portion 42-4 of the injection nozzle portion 40 and is formed in a hemispherical shape 46-2 so as to mix the mixed liquid and the eccentric portion, A through hole 46-3 is formed to allow the support member 45 to pass therethrough and a urethane packing member 46-4 capable of absorbing impact is provided in the hemisphere 46-2 desirable.

That is, it is possible to precisely concentrate the pressures discharged from the mixed solution injection port 12 and the ecommerce injection port 14 of the rod part 10, and to adjust the pressure of the adjustment cap 46, Is formed in a hemispherical shape (46-2) so as to be seated on the step portion (42-4) of the injection nozzle portion (40) and to mix the mixed liquid and the equiment, A through hole 46-4 is formed in the elastic member 45-2 of the support member 45 so as to be cushioned and restored. The inner peripheral surface of the hemispherical mold 46-2 has a hemispherical shape A urethane packing member 46-4 is provided inside the hemispherical mold 46-2 so as to prevent the regulating cap 46 from being damaged, so that the regulating cap 46 is protected from the impact, The through hole 46-4 through which the support member 50 is inserted can be sealed.

When the pressure supplied from the mixed liquid inlet 12 of the rod portion 10 and the eccentric injection port 14 is lower than the intermediate low pressure, 7a and 7b so as to guide the mixed liquid and the eco-com to the inside of the regulating cap 46 at a medium or low pressure, An exhaust hole 42-8 formed in the bottom portion 42-6 of the pipe 42 and a guide plate member 45-4 having elasticity to guide the inside of the adjustment cap 46 .

The mixed liquid and the equiment are rapidly mixed into the injection nozzle member 40 at medium and low pressure through the mixed solution injection port 12 of the rod portion 10 and the eccentric injection port 14 as described above, 8, the support member 45 is provided with a mixed liquid inlet port 12 of the rod section 10 and a mixing fan member (not shown) which is rotated by pressure injected through the eccentric injection port 14 45-6) are further provided.

9A, 9B, and 9C, the medium / low-pressure mixed injection nozzle apparatus 1 of the present invention is coupled to the drive shaft of the perforator head unit and is supplied from the mixed liquid supply unit 110 and the ecommerce supply unit 120 of the perforator, A water injection port 20 communicating with the high-pressure water pipe is provided on the outer circumferential surface of the rod portion 10 in which the mixed solution injection port 12 and the echo injection port 14 are formed in the form of a double pipe so as to communicate with the connection pipe, (10) is provided with a bit (30) for forming a perforation in the ground. The bit (30) is connected between the rod (10) and the bit (30) to mix the mixed liquid and the eco- (40).

At this time, the injection nozzle unit 40 is provided with threaded portions 42-2 and 42-3 so as to be connected to the rod portion 10 and the bit 30 at the upper and lower ends, and a mixed liquid and an eco- And a hollow pipe 42-4 having a discharge hole 42-8 is formed on the outer periphery of the bottom portion 42-6. 42); A support member 45 installed at the center of the bottom portion 42-6 of the hollow pipe 42 to receive the elastic spring 45-2 and the support member 45 penetrate the center portion of the elastic pipe 45- 2 to move upward and downward to open and close the discharge hole 42-8.

In the medium / low-pressure mixed injection nozzle apparatus 1 of the present invention constructed as described above, the car-receiving grouting operation is performed before the earthworks operation is performed in the ground water or on the ground with water, or the existing grouting operation is moved to a place A hole 30 is formed by the bit 30 provided at the tip of the rod portion 10 while the rod portion 10 is pivoted and then grouting is performed in the perforation hole so that the mixed solution supply portion 110 of the perforator and the eco- The mixed liquid and the equiment supplied to the mixing unit 120 are injected into the mixed solution injection port 12 and the eccentric injection port 14 of the rod unit 10 and supplied to the inside of the injection nozzle unit 40 to be mixed therein. Since the initial pressure of the mixed liquid and the equiment injected through the injection ports 12 and 14 of the rod portion 10 is supplied at a pressure lower than the medium and low pressure (4-8 kg / cm 2) ) Of the discharge hole (4 to 8 kg / cm 2) supplied through the injection ports (12, 14) of the rod section (10) and supplied through the inlet (12, 14) (4 to 8 kg / cm 2) supplied to the regulating cap 46 provided in the injection nozzle unit 40 and the ejection holes 42-8 of the injection nozzle unit 40 The mixed liquid and the eco-mixture are mixed in the injection nozzle unit 40 and injected into the perforation hole by the injection hole 42-5 of the injection nozzle unit 40. As a result, It is possible to prevent the ground from rising and to save the consumption amount of the grouting material, and to change and provide the grouting material ratio quickly according to the ground environment.

As described above, the grouting material fed to the medium / low pressure mixing injecting nozzle apparatus 1 of the present invention and mixed and injected therein is composed of a mixed liquid (A) in which 45 to 50% by weight of sodium silicate and 50 to 55% ) 45 to 50% by weight and eco-ment (eco-friendly cement) 50 to 55% by weight.

(Cement) is supplied to the injection nozzle unit 40 of the medium-low pressure mixing injecting nozzle apparatus 1 by mixing the mixed liquid A mixed with sodium silicate and water and the environmentally friendly cement paste, and then grouting the inside of the hole (A) is composed of 45% by weight or less of sodium silicate and 55% by weight or more of water and 100% by weight of mixture (A) is mixed with 100% by weight of the mixture, And more than 50% by weight of sodium silicate is mixed with 100% by weight of water in an amount of 50% by weight or more of the mixed liquid (A) to form an injection nozzle portion 40, (A) mixed with 45 to 50% by weight of sodium silicate and 50 to 55% by weight of water is a most preferable mixing ratio because the spray hole 42-5 of the spray nozzle 42-5 is clogged or solidified in the spray nozzle part 40, And the mixed liquid (A) 45 Be made by mixing a 50% by weight of cement and eco (green cement) 50 to 55% by weight is preferred.

The eco-friendly cement (eco-ments) is eco-generated when it is overheated using eco-ments produced by the reinforced concrete, as in the case of general soil.

As described above, when the cement mixed with the mixed solution (A) is generally used, the reaction rate is slow and the quality is low and the application range may be limited. However, the reaction rate and the reaction rate The quality can be improved.

(A) 40 to 50% by weight of sodium silicate and 50 to 55% by weight of water is mixed with the mixed solution (A) 40 to make it possible to solidify quickly when the groundwater in the ground is rapidly formed when such grouting material is injected into the perforation hole. To 43% by weight of eco-cement (eco-friendly cement) 52 to 55% by weight and 2 to 5% by weight of crude coagulant to be solidified within about 30 seconds to 1 minute.

1: medium and low pressure mixed injection nozzle device
10: rod part 12: mixture liquid inlet
14: Ekomen filling hole
20: Water nozzle
30: bit
40: injection nozzle part
42: hollow pipe 42-2, 42-3:
42-5: Injection hole 42-4:
42-6: Bottom 42-8: Exhaust hole
45: Support member 45-2: Elastic spring
45-4: induction plate member 45-6: mixing fan member
46: Adjustable cap

Claims (7)

delete delete A rod portion coupled to a driving shaft of a perforator head and having a mixed solution injection port and an eccentric injection port formed in a double pipe shape so as to communicate with a mixed solution supply portion of the perforator and a connection pipe supplied from an ecofriend supply portion;
A water jet opening communicated with the high-pressure water pipe on an outer circumferential surface of the rod portion;
A bit for forming a hole in the ground at the tip of the rod;
And a jet nozzle unit connected between the rod unit and the bit to mix the mixed liquid and the eco-
The injection nozzle unit
A screw hole is formed at the upper and lower ends of the shaft so as to be connected to the rod and the bit, and a spray hole is formed at the upper part of the outer periphery by mixing the mixed liquid and the eco-ment. A hollow step is formed on the outer periphery of the inner lower center, With a pipe;
A support member installed at the center of the bottom of the hollow pipe to receive an elastic spring;
Wherein the support member is mounted on the elastic spring portion to move upward and downward to open and close the discharge hole.
The method of claim 3,
Wherein the injection holes of the injection nozzle unit are formed at two or more different positions on opposite sides of each other and have a gap of 70 mm.
The method of claim 3,
A through hole is formed in the central portion so as to allow the support member to pass therethrough and a urethane packing member capable of buffering impact is formed in the hemispherical inner portion, And a nozzle for supplying the mixed gas to the nozzle.
The method of claim 3,
Wherein the support member is further provided with a guide plate having an elastic force so as to induce a mixed liquid and an ecommerce into the discharge hole and the adjustment cap formed at the bottom of the hollow pipe, Injection nozzle device.
The method of claim 3,
Wherein the support member is further provided with a mixing fan member which is rotated by a pressure injected through the mixed solution injection port of the rod portion and the injection port of the eccentricity.

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