KR101216593B1 - Mixed branch pipe for shotcrete construction equipment - Google Patents

Abstract

PURPOSE: A mixing branch pipe for shotcrete construction equipment is provided to uniformly mix shotcrete with an accelerator by increasing the stay time of the shotcrete and the accelerator. CONSTITUTION: A mixing branch pipe for shotcrete construction equipment comprises a first main body(110), an inclined mixing pipe(120), and a second main body(130). The main body is tapered, and the top and bottom thereof are open. The bottom end of the first main body is installed on the side surface of the bottom end of the inclined mixing pipe. The top and bottom of the inclined mixing pipe are open. The inclined mixing pipe has a compressed air inlet(121) and an accelerator inlet(123). The second main body is tapered, and the top and bottom thereof are open. The bottom end of the second main body is installed on the top end of the inclined mixing pipe.

Description

MIXED BRANCH PIPE FOR SHOTCRETE CONSTRUCTION EQUIPMENT}

The present invention relates to a shotcrete factory cost mixing branch pipe, and in detail, the main body is formed in a tapered shape, and after the inclined pipe is formed at the center, vortices are generated in the inclined pipe by introducing compressed air and a fastener. To increase the residence time of the fastener and the concrete due to the tapered shape, and the mixture of the shotcrete at the factory cost of the shotcrete to make the mixing of the fastener and the concrete evenly.

Recently, the construction of tunnels and underground spaces has increased and the cross-sectional area has been increased in subway, road, national railway and high-speed railway construction to preserve the ground environment for the necessity of expansion of social infrastructure and the efficiency of the use of the land. Is in the trend of becoming.

As such, the construction method mainly used for tunnel construction, dam construction or underground structure construction as part of the enlarged underground construction is called the New Austrian Tunnelling Method (NATM). Constructed according to the principle of ground behavior, which is judged according to the reality, not the back, and it is the concept that the main constituent of the tunnel is the surrounding ground and the ground hole is the means to maintain and reinforce the original strength of the ground. It is an excavation surface stabilization method that stabilizes the excavation surface by maintaining the stability of the tunnel by using the bolt and shotcrete as support material and stabilizing the ground by maximizing the support capacity of the base immediately after rock excavation.

Shotcrete used as a support material of the excavation surface stabilization method as described above is a work to prevent collapse by reinforcing rock or ground, without the need for a separate formwork of pneumatics and pumps on the ground excavated using shotcrete equipment It is concrete that is sprayed and fixed by pressure. It prevents the ground from loosening, maintains the strength of the original ground, and distributes the load as a concrete arch to smooth the excavated surface to prevent stress concentration, thus securing strength early and improving adhesion to the excavated rock. In addition, the ability to minimize rebound and dust generation is required.

There are two types of shotcrete construction methods, a dry method and a wet method, and the wet method can be further divided into air pump and pump pump.

In the dry method, the dry aggregate is sufficiently dry, and then the fastener is mixed and supplied to the injector to be injected into the injector, and compressed air is sprayed from the nozzle. The blended water is then mixed with the aggregate in the nozzle to the construction surface. Spray is fixed at high speed.

However, the dry method has the disadvantages that the material management, compounding ratio, water supply and the supply of fasteners are difficult compared to the wet method, so that the quality control of the material is not constant and dust and rebounds are high, resulting in a high cost of material loss. Also difficult compared to wet.

In general, the material should be dry in the absence of water, so if sand or gravel contains surface water for various reasons, the mixing with the cement is completed and if it is not transported to the working location within a short time, solidification begins. The quality of shotcrete may be degraded. Therefore, special precautions should be taken in the storage of materials, so that they should not be exposed to precipitation and direct sunlight. Depending on the performance of the mixer, the content criteria allow several factors, such as mixing time, post-mixing transport and waiting time, to determine the extent to which work is not significantly affected by simple field experiments.

On the other hand, the wet process uses a concrete batching plant when mixing materials by adding water to mix all the materials well, supplying them to the injector, applying compressed air at the nozzle to increase the spraying speed, and spraying and fixing to the construction surface. In addition, because the concrete mixer truck is used for transportation, the material management or quality maintenance is relatively advantageous compared to the dry method, and has the advantage of low rebound and dust generation, while the construction machine is large and the workability is poor.

Since wet shotcrete is sensitively influenced by the materials used, the formulation, the various construction conditions, and the casting method, the wet shotcrete is rebounded according to the quality of the accelerator and the concrete, which are admixtures for fastening concrete and attaching it to the ground. The quantity and construction efficiency are severely changed and the quality of shotcrete has a lot of difference in the construction quality of shotcrete due to the characteristics of the casting equipment.

The fasteners used as admixtures for concrete as mentioned above include water glass-based liquid quickeners and sodium aluminate-based liquid quickeners, and recently, alkali-free liquid quickeners used in Europe have been used. These liquid quickeners transfer liquid quickeners from the equipment for pumping concrete to the pumps to the liquid metering pump, mix them with the concrete through the liquid quickener injection nozzle attached to the injection nozzle, and inject compressed air into the spraying pressure. It is being constructed in a way that raises the level.

In the case of using the water glass-based liquid fastener of the prior art, not only the concrete that is not attached to the construction surface, that is, there are many rebounds, as well as the long-term strength is reduced and the shotcrete is decomposed by the groundwater, and its use has been regulated.

At present, sodium aluminate-based liquid quickener is mainly used to solve the problem of water glass liquid quickener. However, it is strong alkali, which has strong irritation due to strong irritation and burns or corrosion to the human body. There was a problem that is reduced.

Moreover, since the liquid quickener consists of about 50% of water, the more water is used, the higher the proportion of water in concrete, which makes construction difficult when the slump is high. Therefore, it is difficult to manage the concrete slump as low as possible. In the case of construction in the case of increasing the amount of fasteners rather than increase the flow of concrete has a problem that the construction is difficult, causing a lot of problems in the construction. Alkali-free fasteners, which have recently been used, are harmless to humans and have long-term strength, which enhances durability.However, in the case of liquid phase, as described above, they are sensitive to concrete slump and have a weak coagulation effect. Therefore, there was a problem that the construction is difficult when increasing the usage.

In order to overcome such a problem, a cement mineral-based fastener mainly composed of calcium aluminate, which is a kind of cement-constituting mineral, has been widely used.

Since cement mineral fasteners are mainly composed of cement minerals, they are less irritating and less harmful to the human body and have good condensation promoting effects, resulting in less rebounding and higher long-term strength, which increases the durability of tunnels. As the ratio of water in concrete is lowered, it has an excellent adhesive force, so it is not only excellent in workability in water, but also insensitive to slump of concrete.

As mentioned above, despite the many advantages of cement mineral fasteners, the dry process is applied to existing systems without any difficulty due to the disadvantage that it hardens itself upon contact with water. However, special equipment is used in the wet process. There are many problems in construction such as sensitivity of construction performance, blockage of conduit and dust generation.

Special equipment is used to inject powdery fasteners. Because the fastener is powder and hardens itself when it comes in contact with water, it is mixed by spraying the fastener with compressed air inside the concrete that is transported for shotcrete spraying. Device has been developed and used.

The wet shotcrete casting using powder type fastener is applied two kinds of construction systems according to the pressure feeding method. In the case of concrete conveying, it is a pneumatic type that continuously transfers to compressed air, and generally similar to concrete pump cars. It is divided into pump pumping type which pushes concrete by piston.

The pneumatic concrete pouring device combines the fastener confluence pipe in a predetermined section before reaching the spray nozzle of the concrete spray pipe by the pressure of the air pressure pump, and connects the fastener connector of the powder supply device. It is a device to mix in the injection connection pipe which extends to the injection nozzle after inserting the compressed air formed in the compression pump containing the pressure. The construction period is low because the construction speed is low because the construction speed is low. There was a problem that it was longer and less efficient.

The pump-feeding concrete pouring device reaches the compressed air confluence pipe through the concrete transport pipe and the concrete transport hose through the concrete conveying pump, connected to one side of the compressed air confluence pipe to the compressed air supplied from the air compression pump After dispersing concrete and reaching the fastener confluence through the transport hose under the pressure of compressed air, it is joined with the compressed air containing the fastener discharged from the powder supply device, and mixed in the concrete transport hose. Sprayed through.

Here, mixing the compressed air in the compressed air confluence pipe is difficult to input the compressed air containing the fastener in the fastener confluence pipe due to the viscosity of the concrete and the resistance of the transport pipe when the concrete is being conveyed, as well as uneven mixing. It is to disperse concrete into the air and to transport it because of the problem of degradation.

The wet shotcrete pouring apparatus using the cement mineral fastener of the prior art is high in the fastener confluence pipe as the concrete accumulates due to the resistance in the pipe at the stage until the conveyed concrete reaches the spray nozzle in the fastener confluence pipe. Pressure is generated and the water contained in concrete or concrete flows back to the fastener transport hose side, and the fastener reacts with water to condense, causing frequent coating or clogging in the fastener transport hose and the fastener confluence pipe. There was a problem that payment is not supplied smoothly.

In addition, the pressure of the compressed air containing the fastener, which is supplied to the fastener confluence pipe, the maximum pressure applied in the pipe to alleviate the pulsation phenomenon in which the material supply is temporarily stopped when the two pistons of the concrete pressure pump are alternated with each other. Although it has been formed and overcomed by a small amount, there is a problem that the coating phenomenon or the clogging phenomenon occurs due to the instantaneous concrete backflow phenomenon as the pressure change is further increased due to the pulsation phenomenon with a large pressure change. .

In order to solve this backflow phenomenon, there is a method of increasing the pressure of the compressed air mixed with the quick-setting admixture fed into the quick-setting confluent pipe. However, there is a limit of the capacity of the air compressing pump. The dehumidifying effect is lowered, moisture is introduced, the quick-setting agent hardens in the hose, and the flow rate is increased to separate the material from the extension hose and the mixing efficiency is lowered. there was.

In the concrete pumping section of the wet shock concrete construction equipment system with powder supply device, filed with Korean Patent Registration No. 10-1076217, compressed air is used to smoothly supply concrete and improve the mixing efficiency of powder. A rear end injector to be injected, a front injector to which compressed air is injected to increase the pressure at which the concrete mixed with the fastener is dispersed at the nozzle, and to reduce pulsation and uniformity, and is installed between the rear injector and the front injector The Y-shaped tube which supplies the fastener from the powder supply unit is installed, but when the rear injector is used, the material is clogged and the compressed air is not supplied smoothly. And material mixing is uneven.

In order to solve this problem, Korean Patent Registration Publication No. 10-1156663 (concrete pumping unit structure with composite pipe and shear injector in shotcrete construction equipment) was developed and applied.

As shown in FIG. 1, the concrete pumping unit A2 having a composite pipe and a shear injector in the shotcrete construction equipment has a front end coupled to a pumping pump A1, and a rear end of the concrete dispersion having a spray nozzle A31 formed therein. A pressure feed pipe 1 coupled to the portion A3; It is installed in the pressure feed pipe (1) in the direction of the pressure pump (A1) and crushes the concrete, compressed air is injected to facilitate the supply of the fastener and improve the mixing efficiency of the powder, is added to the concrete adhesion force A composite Y tube (2) into which a fastening agent is introduced to improve the strength and accelerate the strength development by rapid curing; Shear injector (3) installed at the distal end of the pressure feed pipe (1) is sprayed with compressed air in order to increase the pressure that the concrete mixed with the fastener is dispersed in the concrete dispersion (A3) and to reduce the pulsation and uniform mixing (3) It consists of

The composite Y tube (2) is a structure in which the size of the diameter is maintained by a predetermined length in the center and the diameter is reduced at both ends in order to temporarily retain the concrete to be mixed and sent out the fasteners, and the pressure feed pipe (1) Two compressed air rear ends coupled to both ends and constituting a main body, and compressed air introduced into the side of the main body casing, and having compressed air introduced therein and having a drawing angle 221 of 20 to 90 ° and symmetrical with each other at 180 °. Inlet pipe 22, and the compressed air after the end inlet pipe 22 is installed in a 10 to 20cm front end in a right angle direction is composed of a fastener inlet pipe 23, the fastener is introduced.

However, in the conventional shotcrete construction equipment, the composite Y pipe, that is, the composite Y pipe having the shear pump and the concrete injector structure, that is, the mixed pipe, has a compressed air rear end pipe and a fastener inlet pipe in a straight main body casing. In this case, the fastener and the concrete are accelerated in the main body casing because they are installed to be symmetrical and inclined with two compressed air rear end pipes in a straight main body casing. There is this.

(Advanced technology 1) Domestic Patent Registration Publication 10-1076217 (Advanced Technology 2) Domestic Patent Registration Publication No. 10-1156663

The present invention is to solve the above problems, the main body is formed in the shape of a taper, the inclined tube is formed in the center, and then the compressed air and the fastener in the inclined tube by introducing the vortex in the inclined tube, taper The purpose of the present invention is to provide a cost-effective mixing plant for shotcrete at the factory cost that increases the residence time of the fastener and concrete due to the shape so that the mixing of the fastener and the concrete is evenly performed.

According to an aspect of the present invention,

Receiving concrete from the ready-mixed concrete pump and pushes the concrete by two pistons, the pumping pipe for pumping the concrete discharged from the pumping pump, the pressure pipe and the first connecting hose is connected, The mixing branch pipe which mixes concrete with concrete and pressurizes the concrete mixed with the fastener, and the injection which is connected by the said mixing branch pipe and the 2nd connection hose, and sprays the concrete mixed with the fastener by compressed air In the shotcrete construction equipment comprising a nozzle, the mixing branch pipe, the upper and lower surfaces are formed in a cylindrical shape, the lower end is wider, the first body is formed in a narrower toward the top; An inclined mixing tube having an upper and lower sides formed in an open cylindrical shape, a lower end of the first body having a predetermined slope on a lower side thereof, a compressed air inlet formed on a lower side thereof, and a fastener inlet formed on an upper side thereof; And the upper and lower surfaces are formed in an open cylindrical shape, the upper end is wider, is formed in a narrower toward the lower end, the lower end is characterized in that consisting of the second body is installed with a predetermined inclination with the inclined mixing tube.

Here, the first main body has a first inclined surface is formed on the upper surface to be coupled to the inclined mixing tube having a predetermined inclination.

Here, the first inclined surface is formed 5 ~ 80 °.

Here, the inclined mixing pipe is formed with a second inclined surface so that the second body can be installed perpendicular to the ground.

Here, the second inclined surface is formed 5 ~ 80 °.

Here, the compressed air inlet of the inclined mixing tube is formed in the same line as the longitudinal center line of the inclined mixing tube, the upper end is wider to diffuse the compressed air, the narrower toward the lower end is formed.

Here, the fastener inlet of the gradient mixing tube is formed so that the end thereof extends into the gradient mixing tube.

Here, the fastener inlet of the inclined mixing pipe is formed in the same line as the longitudinal center line of the second body.

Here, the lower surface of the second body has the same diameter as the upper surface of the first body.

Here, the diameter of the inclined mixing tube is equal to the diameter of the upper surface of the first body and the lower surface of the second body.

According to the present invention shotcrete factory cost mixing branch pipe configured as described above, the main body is formed in a tapered shape, the inclined pipe is formed in the center, and then vortex is generated in the inclined pipe by introducing compressed air and a fastener in the inclined pipe. In order to increase the residence time of the fastener and the concrete due to the tapered shape, the mixture of the fastener and the concrete may be evenly made.

1 is a view showing the structure of a concrete pumping unit having a composite pipe and a shear injector in a conventional shotcrete construction equipment.
Figure 2 is a perspective view showing the configuration of the shotcrete factory cost mixing branch pipe according to the present invention.
3 is a cross-sectional view showing the configuration of the shotcrete factory cost mixing branch pipe according to the present invention.
4 is a view showing the shotcrete factory cost mixing branch pipe installed in the shotcrete construction equipment according to the present invention.

Hereinafter, the structure of the shotcrete factory cost mixing branch pipe according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

Figure 2 is a perspective view showing the configuration of the shotcrete factory cost mixing branch pipe according to the present invention, Figure 3 is a cross-sectional view showing the configuration of the shotcrete factory cost mixing branch pipe according to the present invention, Figure 4 is a shotcrete according to the present invention It is a drawing showing that the mixing cost of branch pipe is installed in shotcrete construction equipment.

2 to 4, the shotcrete factory cost mixing branch pipe 100 according to the present invention includes a first main body 110, an inclined mixing tube 120, and a second main body 130. .

First, the first body 110 is formed of a metal casing, the upper and lower surfaces are formed in an open cylindrical shape, the lower end is wider, is formed in a narrower toward the upper end. Here, the first main body 110 has a first inclined surface 111 is formed on the upper surface to be coupled to the inclined mixing pipe 120 to be described below with a predetermined inclination, the angle (θ1) of the first inclined surface 111 It has 5 to 80 degrees, preferably 35 degrees so that the vortices are generated most smoothly.

In addition, the inclined mixing pipe 120 is formed in a cylindrical casing of the upper and lower surfaces of the metallic material, the lower end of the first body 110 is installed with a predetermined slope on the lower side, the compressed air inlet 121 on the lower surface Is formed, the fastener inlet 123 is formed on the upper side. Here, the diameter Φ 2 of the gradient mixing tube 120 is the same as the upper diameter Φ 1 of the first body 110 and the lower diameter Φ 3 of the second body 130.

In addition, the inclined mixing pipe 120 is the inclined surface 125 is formed so that the second body 130 is installed perpendicular to the ground, the angle (θ2) of the second inclined surface 125 is 5 ~ 80 ° It is desirable to have 35 ° so that the discharge can be made smoothly.

In addition, the compressed air inlet 121 of the inclined mixing pipe 120 is formed in the same line as the longitudinal center line (C1) of the inclined mixing pipe 120, the upper end is wide to spread the compressed air, the narrower toward the lower end The fastener inlet 123 of the inclined mixing pipe 120 is formed in the same line as the longitudinal center line C2 of the second body 130. Here, the fastener inlet 123 of the inclined mixing pipe 120 is formed so that its end is extended into the inclined mixing pipe 120 to facilitate the mixing of the fastener.

On the other hand, the second body 130 is formed in a cylindrical casing of the upper and lower surfaces with a metal casing, the upper end is wider, narrower toward the lower end is formed, the lower end and the ground on the upper surface of the inclined mixing pipe 120 It is installed vertically. Here, the lower surface diameter Φ 3 of the second body 130 is the same as the upper surface diameter Φ 1 of the first body 110.

Meanwhile, the shotcrete factory cost mixing branch pipe 120 according to the present invention is installed in the shotcrete construction equipment 10 as shown in FIG. 4.

That is, the shotcrete factory cost mixing branch pipe 100 according to the present invention receives the concrete from the ready-mixed concrete, and the first connection hose 13 to the pressure feed pipe 12 connected to the pressure feed pump 11 for pushing the concrete with two pistons. The lower end of the first body 110 is connected to the upper end of the first body 110, and the upper end of the second body 120 is connected to the injection nozzle 15 by the second connection hose (14).

Hereinafter, the operation of the shotcrete factory cost mixing branch pipe according to the present invention will be described in detail with reference to the accompanying drawings.

5 is an explanatory diagram for explaining the vortex action of the shotcrete factory cost mixing branch pipe according to the present invention.

When the concrete is pressurized through the first body 110, the pressure is increased along the first body 110, and the concrete is pressed into the inclined mixing pipe 120.

Then, the concrete pushed into the inclined mixing pipe 120 generates a vortex by the inclination, and is more rapidly fed by the compressed air introduced through the compressed air inlet 121.

Subsequently, the concrete is moved along the inclined mixing pipe 120, and the quickener supplied through the quickener inlet 123 is vortexed by the inclined and mixed with the concrete.

Then, the concrete mixed with the fastener is discharged through the second body 130, because the second body 130 has a tapered shape, the bottleneck phenomenon increases the residence time of the fastener and concrete, thereby Due to this, the mixing of the quickener and the concrete is made more smoothly.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

10: shotcrete construction equipment 11: pressure pump
12: pressure feed pipe 13: the first connection hose
14 second connection hose 15 injection nozzle
110: first body 111: the first slope
120: inclined mixing pipe 121: compressed air inlet
123: fastener inlet 125: second slope
130: second body

Claims (10)

Receiving concrete from the ready-mixed concrete pump and pushes the concrete by two pistons, the pumping pipe for pumping the concrete discharged from the pumping pump, the pressure pipe and the first connecting hose is connected, The mixing branch pipe which mixes concrete with concrete and pressurizes the concrete mixed with the fastener, and the injection which is connected by the said mixing branch pipe and the 2nd connection hose, and sprays the concrete mixed with the fastener by compressed air In shotcrete construction equipment comprising a nozzle,
The mixing branch pipe,
A first body having an upper and lower surfaces formed in an open cylindrical shape, the lower body being wider and narrower toward an upper end thereof;
An inclined mixing tube having an upper and lower sides formed in an open cylindrical shape, a lower end of the first body having a predetermined slope on a lower side thereof, a compressed air inlet formed on a lower side thereof, and a fastener inlet formed on an upper side thereof; And
The upper and lower sides are formed in an open cylindrical shape, the upper end is wider, the narrower toward the lower end is formed in the form, the shotcrete factory cost, characterized in that consisting of the second main body is installed with a predetermined inclination and the inclined mixing pipe Mixing branch. The method of claim 1,
The first body,
Shotcrete municipal factory cost mixing branch, characterized in that the first inclined surface is formed on the upper surface to be coupled to the inclined mixing pipe with a predetermined inclination. The method of claim 2,
The first slope is,
Shotcrete factory cost mixing branch, characterized in that formed in 5 ~ 80 °. The method of claim 1,
The inclined mixing tube,
Shotcrete municipal factory cost mixing branch, characterized in that the second inclined surface is formed so that the second body is installed perpendicular to the ground. The method of claim 4, wherein
The second slope is,
Shotcrete factory cost mixing branch, characterized in that formed in 5 ~ 80 °. The method of claim 1,
Compressed air inlet of the inclined mixing pipe,
Shotcrete municipal factory cost mixing branch is formed in the same line as the longitudinal center line of the inclined mixing pipe, the upper end is wider, the narrower toward the lower end to diffuse compressed air. The method of claim 1,
The fastener inlet of the inclined mixing pipe,
Shotcrete factory cost mixing branch characterized in that the end is formed extending into the inclined mixing pipe. The method of claim 1,
Compressed air inlet of the inclined mixing pipe,
Shotcrete municipal factory cost mixing branch is formed in the same line as the longitudinal center line of the second body. The method of claim 1,
The lower surface of the second body,
Shotcrete factory cost mixing branch pipe, characterized in that the same diameter as the upper surface of the first body. The method of claim 9,
The diameter of the gradient mixing tube,
Shotcrete factory cost mixing branch pipe, characterized in that the same as the diameter of the upper surface of the first body and the lower surface of the second body.

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