KR101426879B1 - Powder supply device for constructing shotcrete - Google Patents

Abstract

The present invention relates to a powder supply device for shotcrete construction equipment, and according to the present invention, the powder supply device for shotcrete construction equipment having an accelerator tank storing a powder accelerator thereinto and discharging the powder accelerator through an outlet includes: a main frame fixed horizontally to the outlet of the accelerator tank having a first shaft hole formed on the center thereof, a mounting groove formed on the top surface thereof, and a discharge hole formed to vertically communicate with the mounting groove; a disk mounted on the mounting groove of the main frame having a second shaft hole formed on the center thereof filling the holes formed radially along the outer circumference thereof around the second shaft hole, each filling hole being located on the same line as the discharge hole of the main frame; a rotary shaft disposed to pass through the first shaft hole of the main frame and the second shaft hole of the disk in such a manner as to be rotated by the oil pressure or air pressure to rotate the disk; a compression member bolt-fixed to the main frame on one end thereof to compress the disk against the main frame; and an air pressure nozzle disposed on the compression member to apply air pressure to the powder accelerator filled into the filling holes of the disk and discharge the powder accelerator to the outside through the discharge hole of the main frame. According to the present invention, the powder supply device disposed on the outlet of the powder tank rotates the disk having the plurality of filling holes into which the accelerator of the powder tank is filled and discharges the accelerator filled into each filling hole to the outside by means of the compressed air, thus discharging a given quantity of accelerator to the outside.

Description

POWDER SUPPLY DEVICE FOR CONSTRUCTING SHOTCRETE

The present invention relates to a powder supply apparatus for a shotcrete production apparatus, and more particularly, to a powder supply apparatus for a shotcrete production apparatus, which is provided at an outlet of a powder tank and which is equipped with a plurality of fill- To a powder supply device for a shotcrete production equipment.

Recently, in order to preserve the ground environment and make efficient use of the land, the construction of tunnels and underground spaces in subways, roads, national railways, .

In this way, as a part of underground construction that is becoming larger, it is called "New Austrian Tunneling Method (NATM)" which is mainly used for construction of tunnels, dams or underground structures. The concept is that the main constituent of the tunnel is the surrounding ground and the ground guard is a means to maintain and reinforce the original strength of the ground. It is a stabilized excavation surface stabilization method that stabilizes the excavation surface by stabilizing the tunnel by using the bolts and shotcrete as supporting materials and stabilizing the ground by utilizing the supporting ability of the paper sheet immediately after excavation of the rock.

Shotcrete used as a supporting material of the excavation surface stabilization method is to prevent collapse by reinforcing the rock or the ground. It does not require a separate form, It is a concrete to be sprayed and fixed by pressure. It prevents the relaxation of the ground and maintains the strength of the paperboard. By sharing the load as a concrete arch, it smoothes the excavation surface to prevent stress concentration. , And minimizing rebound and dust generation.

There are two types of shotcrete construction method: dry method and wet method, and wet method can be divided into air pressure type and pump pressure type.

The dry method is a method in which the dried aggregate material is fully dry-blended, then the rapid setting agent is mixed and fed to the spraying device, and the mixed water is fed by pressurized air and sprayed from the nozzle. In this case, the mixed water is mixed with the aggregate in the nozzle, As shown in FIG.

However, the dry method has disadvantages in that the quality control of the material is not constant and the dust and rebound occur frequently because the material management, the mixing ratio, the water supply and the rapid dispensing supply are difficult as compared with the wet method, It is also harder than wet.

In general, the material must be dried before the water is applied. Therefore, when the sand or gravel contains surface water for various reasons, the mixing with cement is completed and it is transported to the work site within a short time. The quality of the shotcrete may deteriorate. Therefore, special attention should be paid to the storage of the material, so that it is not exposed to precipitation and direct sunlight. The inclusion criterion is such that various factors such as mixing time, mixing time, conveying time and waiting time are determined by simple field test according to the performance of the mixer.

On the other hand, the wet method is a method in which water is added and all the materials are well mixed and then supplied to the spraying device and compressed air is injected from the nozzle to spray the sprayed material on the sprayed surface. Since the concrete mixer truck is used for transportation, the management and quality of materials are very advantageous compared to the dry method, and rebound and dust generation are less, while the construction machine is large and the workability is poor.

Because wet shotcrete is sensitively affected by the materials used, formulations, various construction conditions, and casting methods, it is important that the quality of the accelerator, which is an admixture for adhering the concrete to the ground and the conditions of the concrete, The amount of shotcrete and the construction efficiency vary greatly and there are many difficulties in quality control due to the large difference in the construction quality of the shotcrete depending on the characteristics of the putting equipment.

The quick-setting agent used as an admixture of concrete is exemplified by a water-based liquid-phase quick-setting agent and a sodium aluminate-based liquid-phase quick-setting agent. Recently, an alkali-based liquid-phase quick-setting agent used in Europe has been used. These liquid quick-setting admixtures are prepared by conveying the liquid-phase quick-setting admixture from a device for pumping concrete by a pump to a liquid metering pump, mixing it with concrete through a nozzle for liquid quick-setting admixture attached to the injection nozzle, In order to increase the height.

In the case of using the waterglass type liquid quick-setting admixture of the prior art, not only the concrete which is not attached to the construction surface but dropped down, that is, the rebound is increased, the long-term strength is decreased and the shotcrete is decomposed by the groundwater.

In order to solve the problems of liquid water-based quick-setting of water-based liquids, alumina soda-based liquid quick-setting agent is mainly used, but strong alkali is strong as a stimulus, which causes burns or corrosion to the human body. Is reduced.

In addition, since the liquid quick-setting admixture is composed of about 50% of water, the proportion of water in the concrete is increased as the amount of the concrete is increased. Therefore, when the slump is high, it is difficult to construct the concrete slump. Therefore, If the amount of quick-setting is increased, the flowability of the concrete becomes rather large, which makes the construction difficult, which causes many troubles in construction. Recently, the alkaline-free grade quick-setting system, which is recently used, is harmless to the human body and has high long-term strength and thus has an effect of improving durability. However, since it is liquid, it is sensitive to concrete slump, There is a problem that the construction becomes difficult when the usage amount is increased.

In order to overcome such problems, recently, a cement mineral-based quick-setting material having calcium aluminate as a main component, which is a kind of cement constituting minerals, has been developed and applied and widely used.

Since the cement mineral accelerator is a main component, the cement mineral accelerator has a small irritating effect and is less harmful to the human body and has excellent effect of accelerating the condensation so that the amount of rebound is small and the long-term strength is high, thereby enhancing the durability of the tunnel. Since the effect of lowering the ratio of water in concrete is rather low, it has many advantages such that it is excellent in workability in the water part because of its excellent adhesive force, and is insensitive to the slump of concrete.

Despite its many advantages, the cement-based quick-setting agent has a drawback in that it is self-cured when it comes into contact with water. However, in the dry method, the existing system is applied without difficulty. However, in the wet method, special equipment is used. There are many problems in construction such as sensitivity of construction performance, occurrence of confluent pipe clogging, generation of dust and the like.

Special equipment is used to inject powdered fasteners. Because the rapid setting agent is a powder and when it comes into contact with water, it hardens itself. Therefore, the quick-setting admixture is mixed with compressed air in concrete conveyed for injection of shotcrete, Have been developed and used.

Two types of construction systems are applied to the wet shotcrete using the powder type quick-setting type. In the case of concrete, there are two types of pneumatic conveying type in which the concrete is conveyed continuously by compressed air, It is divided into a pump pushing type which pushes concrete by pushing piston.

The pneumatic conveying concrete pouring apparatus is constructed such that a quick-setting confluent pipe is connected to the concrete feeding connection pipe at a certain interval before reaching the injection nozzle of the concrete injection connection pipe at a pressurizing pressure from the air pressure feeding pump, And then the mixture is mixed in the injection connection pipe extending to the injection nozzle. Since the construction speed is low due to the low pressure applied to the special rock bed, the construction period And there is a problem that efficiency is decreased.

The concrete pumping device of concrete conveyed by the pump reaches the compressed air confluent pipe through the concrete conveying pipe and the concrete conveying hose and connects to the one side of the compressed air confluent pipe and is supplied to the compressed air supplied from the air compressing pump When the concrete is dispersed and compressed air is supplied through the transportation hose to reach the quick-setting confluence, the compressed air is mixed with the compressed air containing the quick-setting water fed from the powder feeder, mixed in the concrete transportation hose, Lt; / RTI >

In the case where the compressed air is mixed in the compressed air joining pipe, it is difficult to inject the compressed air containing the quick-setting admixture pipe due to the viscosity of the concrete and the resistance of the conveying pipe in the state where the concrete is being fed, This is to disperse and transport the concrete into the air because the problem of disintegration occurs.

The conventional wet shotcrete pouring apparatus using the cement mineral type rapid setting agent has a problem that the concrete is accumulated in the pipe due to the resistance in the pipe until the conveyed concrete reaches the injection nozzle from the quick-setting confluent pipe, Pressure is generated and moisture contained in concrete or concrete flows back to the quick-setting transportation hose side, and the quick-setting fluid reacts with moisture and condenses to cause frequent coating or clogging in the quick-setting transportation hose and quick- There is a problem that the settlement can not be supplied smoothly.

In order to solve such a problem, Korean Patent Registration No. 10-1076217 (wet shrink construction equipment system equipped with a powder supply device) was developed and applied.

As shown in FIG. 1, the quick-setting tank unit 21 includes a rapid-charge tank 211 in which quick-setting is stored and discharged, a quick-setting tank 211 in which the rapid- And a feeder feeder motor 213 for rotating the feeder feeder 212 and a feeder feeder 212 for feeding the feeder by the pressure and rotation of the dry compressed air.

However, such a conventional quick-setting tank unit has a problem that the amount of the quick-setting tank unit is not constant because the quick-setting dispenser is supplied through the rotating fast-food feeder.

Korean Patent Registration No. 10-1076217

The present invention has been made to solve the above problems and it is an object of the present invention to solve the above problems and to provide a powder tank in which a plurality of filling holes filled in a powder- The present invention also provides a powder supply device for a shotcrete production facility, which can discharge a certain amount of rapid dispenser by discharging the settlement to the outside.

In addition, the present invention provides a pressure plate on the upper surface of the disk to fix the disk to the main frame, thereby preventing the disk from being detached and keeping the airtightness, Another object of the present invention is to provide a powder supply device for a shotcrete construction apparatus which can maintain the filling amount constant.

It is another object of the present invention to provide a powder supply device for a shotcrete production apparatus which can smoothly supply a rapid setting agent to a filling hole by providing a rotating rod on an upper end of a shaft on which a disk is rotated.

According to an aspect of the present invention,

And a rapid setting tank for storing the powder quick-setting admixture and discharging the powder quick-setting admixture through an outlet, wherein the first shaft hole is formed at a central portion of the shotcrete installation hole, A main frame having a seating groove formed on an upper surface thereof and formed with a discharge hole vertically communicating with the seating groove; A second shaft hole is formed at a central portion thereof, and a filling hole is formed radially outwardly around the second shaft hole, wherein each filling hole is provided in the same line as the discharge hole of the main frame A disk that is seated in a seating groove of the main frame; A rotation shaft installed through the first shaft hole of the main frame and the second shaft hole of the disk and rotated by hydraulic pressure or air pressure to rotate the disk; A pressing member having one end fixed to the main frame and pressing the disc to the main frame; And a pneumatic nozzle installed in the pressing member, for applying a pneumatic pressure to the powder quick-set filler filled in the filling hole of the disk, and discharging the powder to the outside through the discharge hole of the main frame.

Here, the powder supply device for the shotcrete construction equipment further includes a speed reducer installed on the rotary shaft to reduce the rotation speed.

Here, the rotating shaft is provided with a rotating bar horizontally at the upper end thereof so that the powder feeder of the quick-setting tank is smoothly filled in the filling hole of the disk.

Here, the pressing member may be formed of a curved plate having the same curvature as that of the seating groove of the main frame, a first plate having an air hole corresponding to the pneumatic nozzle at a central portion thereof; A second plate formed of a rectangular plate, a fixing hole formed at a center thereof to fix the pneumatic nozzle, a fixing hole formed at both sides of the fixing hole, and a bolt fixed to the first plate and the main frame; A compression bolt fastened to the fastening hole of the second plate to press the first plate against the disk; And a spring installed between the first plate and the second plate to provide elasticity to the compression bolt.

Here, the rotary shaft adjusts the discharge rate of the powdery acetic acid powder by controlling the rotational speed of the disk according to the intensity of the air pressure or the hydraulic pressure.

According to the powder supply device for a shotcrete production apparatus of the present invention having the above-described structure, a disk having a plurality of filling holes, which are provided at the discharge port of the powder tank and filled with quick- It is possible to discharge a certain amount of rapid dispenser by discharging the rapid dispenser filled in the dispenser.

According to the present invention, a pressure plate is provided on the upper surface of the disk to fix the disk to the main frame, thereby preventing the disk from being separated from the disk and keeping the airtightness, It is possible to maintain a constant amount of charge.

In addition, according to the present invention, a swing rod is provided at the upper end of the shaft on which the disk rotates, so that the rapid dispenser can be smoothly supplied to the filling hole.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the structure of a pore-setting tank unit in a wet shrinkage construction equipment system having a conventional powder feeder.
FIG. 2 is a perspective view showing a configuration of a powder supply device for a shotcrete construction apparatus according to the present invention.
3 is an exploded perspective view showing the structure of a powder supply device for a shotcrete production apparatus according to the present invention.
FIG. 4 is a cross-sectional view illustrating the configuration of a powder supply device for a shotcrete apparatus according to the present invention.
FIG. 5 is a plan view showing the structure of a powder supply device for a shotcrete production apparatus according to the present invention.
FIG. 6 is an explanatory view for explaining the operation of the powder feeder for shotcrete production equipment according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure of a powder supply device for a shotcrete production apparatus 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.

FIG. 2 is an exploded perspective view showing the construction of a powder feeder for a shotcrete production apparatus according to the present invention, FIG. 3 is an exploded perspective view showing the construction of a powder feeder for a shotcrete production apparatus according to the present invention, And FIG. 5 is a plan view showing the construction of a powder supply device for a shotcrete construction apparatus according to the present invention.

2 to 5, a powder supply apparatus 100 for a shotcrete apparatus according to the present invention includes a main frame 110, a disk 120, a rotating shaft 130, a pressing member 140, And includes a pneumatic nozzle 150 and a speed reducer 160.

First, the main frame 110 is fixed to the outlet 1a of the quick-setting tank 1 horizontally by welding or the like, a first shaft hole 111 is formed at the center, a disk- A groove 113 is formed and one discharge hole 115 communicating with the seating groove 113 in a vertical direction is formed. At this time, it is preferable that the diameter of the discharge hole 115 is equal to or larger than the diameter of the filling hole 123 of the disk 120, which will be described later in order to facilitate quick discharge.

The disk 120 is formed in a disk shape and has a second shaft hole 121 formed at the center thereof and a plurality of filling holes 123 formed radially outwardly around the second shaft hole 121, Each filling hole 123 is provided in the same line as the discharge hole 115 of the main frame 110 and is seated in the seating groove 113 of the main frame 110.

The rotation shaft 130 is installed through the first shaft hole 111 of the main frame 110 and the second shaft hole 121 of the disk 120 and is rotated by hydraulic pressure or air pressure supplied from the outside, 120). The rotating shaft 130 is provided with a rotating rod 131 horizontally at the upper end thereof so that the powder feeder of the rapid-charging tank 1 smoothly fills the filling hole 123 of the disk 120. Here, the rotary shaft 130 adjusts the discharge rate of the powder accelerator by adjusting the rotational speed of the disk 120 according to the pneumatic or hydraulic pressure.

The pressing member 140 includes a first plate 141, a second plate 143, a pressing bolt 145, and a spring 147

The first plate 141 is formed of a curved plate having the same curvature as the seating groove 113 of the main frame 110 and an air hole 141a corresponding to the pneumatic nozzle 150 is formed at the center.

The second plate 143 is formed of a rectangular plate and has a fixing hole 143a at a center of which a pneumatic nozzle 150 to be described later is fixed and a fixing hole 143b And is fixed to the first plate 141 and the main frame 110 by bolts.

The compression bolt 145 is fastened to the fastening hole 143b of the second plate 143 to press the first plate 141 against the disk 120 so that the disk 120 is pressed onto the main frame 110.

The spring 147 is installed on the compression bolt 145 between the first plate 141 and the second plate 143 to provide elasticity to prevent the compression bolt 145 from being released by vibration.

The pneumatic nozzle 150 is welded and fixed to the fixing hole 143a provided in the second plate 143 of the pressing member 140. The pneumatic nozzle 150 is connected to the fixing hole 143a of the pressing plate 143, And externally discharges the air through the discharge hole 115 of the main frame 110. At this time, it is preferable that the pneumatic pressure of the pneumatic nozzle 150 is discharged in a pulsed manner or continuously discharged in accordance with the rotation period of the disk 120.

Meanwhile, the speed reducer 160 is installed on the rotating shaft 130 to reduce the rotating speed.

Hereinafter, the operation of the powder supply apparatus for a shotcrete apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 6 is an explanatory view for explaining the operation of the powder feeder for shotcrete production equipment according to the present invention.

First, when the rotary shaft 130 is rotated by hydraulic pressure or air pressure, the rotary shaft 130 is decelerated to rotate at a constant reduction ratio by the speed reducer 160.

When the rotating shaft 130 rotates, the disc 120 coupled to the rotating shaft 130 rotates. At this time, the disk 120 is filled with the powder filler in the rapid-charging tank 1 in each of the filling holes 123 except the filling hole 123 that is not exposed by the pressing member 140.

In this state, the filling hole 123 is also rotated by the rotation of the disk 120. One of the filling holes 123 filled with the powder quick-setting filler is rotated and moved below the pressing member 140 And is positioned in the same vertical line as the discharge hole 115 of the main frame 110.

Then, the powder quick-setting admixture filled in the filling hole 123 by the air injected by the pneumatic nozzle 150 is discharged to the outside through the discharge hole 115 of the main frame 110.

Then, the filling hole 123 through which the powdery quick-setting admixture is discharged is rotated again, and the powder quick-setting admixture in the quick-setting tank 1 is filled with the powder being discharged from the pressing member 140. At this time, the powdery acetic acid solution is stirred by the rotating rod 131 provided on the rotating shaft 130 and is easily injected into the filling hole 123.

As described above, when the disk 120 is continuously rotated, a certain amount of powder quick-setting material is discharged to the outside through the discharge hole 115 of the main frame 110.

On the other hand, if the rotational speed of the rotating shaft 130 is increased, the rotational speed of the disk 120 also increases, thereby increasing the discharge amount of the powder accelerator.

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. .

1: quick-setting tank 110: main frame
120: Disk 130:
140: compression member 150: pneumatic nozzle
160: Reducer

Claims (5)

And a quick-setting tank for storing the powdery quick-setting material and discharging the powdery quick-setting material through the discharge port,
A main frame fixed horizontally to the discharge port of the quick-setting tank and having a first shaft hole at a central portion thereof, a seating groove formed at an upper surface thereof, and a discharge hole vertically communicating with the seating groove;
A second shaft hole is formed at a central portion thereof, and a filling hole is formed radially outwardly around the second shaft hole, wherein each filling hole is provided in the same line as the discharge hole of the main frame A disk having a diameter equal to or smaller than a diameter of the main frame, the diameter of which is set in a seating groove of the main frame so that the quick-setting can be easily discharged;
A first shaft hole of the main frame and a second shaft hole of the disk, and is rotated by hydraulic pressure or air pressure to rotate the disk, and the powder feeder of the quick-setting tank smoothly flows into the filling hole of the disk A rotating shaft having a rotating rod horizontally disposed at an upper end thereof to fill the powder and adjusting the discharge rate of the powdery acetic acid powder by controlling the rotational speed of the disk according to the strength of the pneumatic or hydraulic pressure;
A first plate formed of a curved plate having the same curvature as the seating groove of the main frame and having an air hole corresponding to the pneumatic nozzle at a central portion thereof and a plate having a rectangular shape, A second plate formed with a fixing hole for fixing the nozzle, a fixing hole formed on both side surfaces of the fixing hole, and bolted to the first plate and the main frame, and a second plate fastened to the fastening hole of the second plate, A pressing member having a compression bolt for pressing the first plate against the disk and a spring provided on the compression bolt between the first plate and the second plate to provide elasticity to compress the disk to the main frame;
Wherein the pneumatic pressure is applied to the powder feeder filled in the filling hole of the disk and discharged to the outside through the discharge hole of the main frame, Nozzle; And
And a speed reducer installed on the rotary shaft for reducing a rotation speed of the powder. delete delete delete delete

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