KR20090035082A - Supply apparatus of fiber reinforcement - Google Patents

Abstract

An apparatus for supplying fiber reinforced materials is provided to supply the fiber reinforced materials capable of obtaining measurement values correctly as well as labor cost by supplying the fiber reinforced materials through a water supply line to a batch plant. An apparatus for supplying fiber reinforced materials comprises the followings: a tank(10) the fiber reinforced materials and water are inputted with a fixed rate; a water supply line(20) including a ball value(23) putting the water in a water tank(22) to the tank; an underwater pump(30) flowing the fiber reinforced materials to an batch plant; the two batch plant(40) sending the fiber reinforced materials to a mixer; and a connected pipe line(50A, 50B).

Description

[0001] SUPPLY APPARATUS OF FIBER REINFORCEMENT [0002]

The present invention provides an accurate metering value of a fiber reinforcing material used for concrete and a batch plant by using a water input line in a concrete mixer manufacturing process, thereby achieving an accurate metering value of a fiber reinforcing material, And a reduction in labor costs.

Mortar / concrete, which is widely used as a conventional construction material, is inexpensive and has excellent physical properties such as compressive strength, durability and rigidity. However, it has low tensile / flexural strength and impact strength and exhibits small brittleness, .

As a countermeasure for solving the problem of crack generation, a method of reducing the plastic shrinkage and drying shrinkage cracks caused by curing of the concrete and increasing the flexural strength and tensile strength of the concrete, (FRC: Fiber Reinforced Concrete) is actively used. However, the method of injecting fiber reinforcement into such fiber reinforced concrete has been conventionally required to be manually put into a batch plant of a remicon plant, And the additional labor cost is generated.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a fiber reinforcing material which is slurried and supplied to a batch plant through a water input line in a remicon manufacturing process, And to provide a fiber reinforcing material supply device that not only ensures accurate metering values, but also improves the quality of the concrete mixer and reduces labor costs.

In order to achieve the above object, the present invention provides a fiber reinforcing material supplying apparatus comprising: a tank in which a fiber reinforcing material and water are injected at a predetermined ratio to make a fiber reinforcing material slurry; A water supply line including a ball valve for allowing water in the water tank to be introduced into the tank by driving of the pump; A submerged pump for allowing the fiber reinforcing material injected into the tank to be in a slurry state through mixing with water, and for allowing the slurry-form fiber reinforcing material to flow into the batch plant; Two batch plants, which are metering facilities in which a slurry of fibrous reinforcement is introduced through the underwater pump and sent to a concrete manufacturing mixer; And a pipeline line connected to the slurry-reinforced fibrous stiffener in the tank so as to be introduced into the batch plant through a correction pump.

The present invention is characterized in that a ball valve and a butterfly valve are formed in the piping line so that the slurryed fibrous reinforcement inside the tank is introduced into the batch plant and the slurryed fibrous reinforcement introduced into the pipeline line is reintroduced into the tank And a pipeline is provided with a ball valve.

The present invention is characterized in that the ratio of the fibrous reinforcement material to the water of the fibrous reinforcement which flows into the tank and becomes slurry is mixed at 1:50.

The fiber reinforcing material supply device according to the present invention has various excellent advantages as follows.

First, it is advantageous to not only reduce the labor cost but also to secure accurate metering value by supplying the slurry-form fiber reinforcing material to the batch plant through the water input line in the remicon manufacturing process, not by manually feeding the fiber reinforcement in the batch plant have.

Second, by making the fiber reinforcing material slurry, the fiber is uniformly dispersed in the ready-mixed concrete, thereby improving the quality of the ready-made concrete.

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

Fiber Reinforced Concrete (FRC) has been actively used. Fiber reinforced concrete is dispersed in mortar / concrete to increase the tensile strength and crack resistance of concrete and to improve toughness. As a structural composite material, fiber is dispersed and reinforced in a cement matrix, and it is easy to incorporate fibers, which is advantageous in that it can be easily applied to the production of various types of concrete products.

Fiber reinforcing materials used in fiber reinforced concrete are reinforcing materials added to concrete in order to reduce plastic shrinkage and shrinkage cracks caused by curing of concrete and to increase tensile / flexural strength of concrete.

As shown in FIGS. 1 and 2, the fiber reinforcing material supplying apparatus of the present invention includes a tank 10 in which a fiber reinforcing material and water are charged at a predetermined ratio so that the fiber reinforcing material is slurried; A water supply line (20) for allowing water in the water tank (22) to be introduced into the tank (10) by driving the pump (21); An underwater pump 30 for allowing the fiber reinforcing material injected into the tank 10 to be in a slurry state through mixing with water, and for introducing the slurried fiber reinforcing material into the batch plant; And a batch plant 40 which is a weighing facility for introducing slurry-form fiber reinforcement through the underwater pump 30 and sending it to a concrete manufacturing mixer.

A predetermined amount of water is introduced into the tank 10 so that a predetermined amount of water can be introduced into the tank 10 from the water tank 22 by driving the pump 21 The ball valve 23 is controlled.

In the present invention, the batch plant 40 is composed of two, but the number of the batch plants 40 can be changed according to the design.

Piping lines 50A and 50B are respectively formed between the tank 10, the submersible pump 30 and the batch plant 40 so that the slurried fiber reinforcement can flow.

The piping line 50A is connected between the underwater pump 30 and the batch plant 40 so that the slurry fibrous reinforcement can flow from the underwater pump 30 to the batch plant 40, 50B are connected to the piping line 50A adjacent to the batch plant 40 so that the slurry of fibrous reinforcement flowing into the pipeline 50A from the submersible pump 30 can be reintroduced into the tank 10. [ And the tank (10).

A piping line 60 is formed between the piping valve 50A serving as a circulation passage of the fiber reinforcing material and water and the tank 10 so that the fiber reinforcing material is mixed with water and slurried by driving the underwater pump 30 The fiber reinforcing material in the tank 10 and water are flowed into the tank 10 through the piping valve 50A and the piping valve 60 by driving the submerged pump 3, Make it possible to get angry.

The slurry-form fiber reinforcement is loosely disintegrated into individual fibers and is uniformly distributed throughout the water. In order to form such a slurried fiber reinforcement, the ratio of the fiber reinforcement to water is preferably 1:50.

The time until the fibrous reinforcement material and the water are slurried by driving the submerged pump 30 located in the tank 10 depends on the amount of the slurry (fiber reinforcing material and water amount) and the capacity of the underwater motor, When the temperature of the water is high, the slurrying time is shortened. When the water temperature is low, the slurrying time is long. However, in the present invention, The slurrying time according to the capacity (Hp) of the underwater pump and the amount of slurry (ℓ) is measured as shown in Table 1 below.

[Table 1]

The piping lines 50A and 50B are provided with a ball valve 51 and a butterfly valve 50B in the piping line 50A so as to control the inflow of the fiber reinforcing material slurried by the submerged pump 30 into the batch plant 40, And the ball valve 52 is formed in the plumbing line 50B and the fly valve 70, respectively.

The pipe line 50A is provided with a ball valve 51 in the vicinity of the underwater pump 30 so that the fiber reinforcing material slurried by the operation of the underwater pump 30 can flow to the pipe line 50A, The butterfly valve 70 is constructed in the vicinity of the batch plant 40 so that the fibrous reinforcement introduced into the pipeline line 50A through the ON of the batch plant 40 can be introduced into the batch plant 40. [

The slurryed fibrous reinforcement flowing into the batch plant 70 through the piping line 50A is connected to the piping line 50B by the off-off of the butterfly valve 70, The ball valve 52 constituted in the pipe line 50B for controlling the inflow of the water into the tank 10 is regulated in the vicinity of the tank 10 when the inflow to the tank 10 is controlled.

A ball valve 61 is formed on one side of the piping line 60 so that the fibrous reinforcement can flow only when the fiber reinforcing material is slurried.

The circulation operation of the fiber reinforcing material supply apparatus of the present invention constructed as described above will be described as follows. That is, the circulation operation of the fiber reinforcing material supply apparatus according to the present invention flows from the tank 10 to one batch plant 40 by driving the submerged pump 30.

First, the fiber reinforcing material and water are introduced into the tank 10 at a ratio of 1:50, and the water is supplied to the tank 10 from the water tank 22 through the water supply line 20 by driving the pump 21 (S1);

The ball valve 51 constituted in the pipe line 50A is turned off in a state where the fiber reinforcing material and the water are supplied to the tank 10 at a ratio of 1:50 and then the ball valve 51 constituted in the pipe line 60 A second step S2 of slurrying the fiber reinforcing material by causing the underwater pump 30 to be circulated through the piping line 60 by driving the fiber reinforcing material and water in a state that the fiber reinforcing material is turned on in a state where the fiber reinforcing material and the water are turned on.

The submerged pump 30 is driven for the predetermined time to slurry the fiber reinforcing material and then the ball valve 61 constituting the pipe valve 60 turned on for slurrying is turned off and the pipe line 50B The ball valve 51 and the butterfly valve 70 constituted in the piping line 50A connecting the underwater pump 30 and the batch plant 40 are turned off A third step (S3) of injecting the slurry-form fiber reinforcement inside the tank (10) into the batch plant (70);

After the completion of the injection of the slurryed fibrous reinforcement material into the batch plant 70, the butterfly valve 70 is turned off so that the fiber reinforcement material slurried in the batch plant 70 is no longer injected The slurryed fibrous reinforcement introduced into the piping line 50A through the underwater pump 30 is supplied to the tank 10 through the piping line 50B by turning on the ball valve 52 constituted in the piping line 50B. (Step S4).

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, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

1 is a block diagram showing a fiber reinforcing fiber apparatus of the present invention.

2 is a flow chart showing the flow of a fiber reinforcing fiber apparatus of the present invention.

Description of the Related Art [0002]

10: tank 20: water supply line

23, 51, 52, 61: Ball valve 30: Submerged pump

40: batch plant 50A, 50B, 60: piping line

70: Butterfly valve

Claims (3)

A tank 10 into which a fiber reinforcing material and water are injected at a predetermined ratio so that the fiber reinforcing material is slurried; A water supply line (20) comprising a ball valve (23) for allowing water in the water tank (22) to be introduced into the tank (10) by driving the pump (21); An underwater pump 30 for allowing the fiber reinforcing material injected into the tank 10 to be in a slurry state through mixing with water, and for introducing the slurried fiber reinforcing material into the batch plant; Two batch plants 40, which are metering facilities for introducing the slurry-form fiber reinforcement through the underwater pump 30 and sending it to the concrete manufacturing mixer; And And a piping line (50A) (50B) connected to allow the slurryed fibrous reinforcement inside the tank (10) to flow into the batch plant (40) through a quartz pump (30) . 2. The method of claim 1, wherein the ball valve (51) and the butterfly valve (70) are configured in the piping line (50A) so that the slurryed fibrous reinforcement inside the tank (10) , And a ball valve (52) is formed in the piping line (50B) so that the slurried fiber reinforcing material flowing into the piping line (50A) can be reintroduced into the tank (10). The fiber reinforcement material supply apparatus according to claim 1, wherein the ratio of the fiber reinforcement material to the water of the fiber reinforcement material flowing into the tank (10) is 1:50.

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