JP4017047B2 - Reinforcing fiber supply method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
TECHNICAL FIELD The present invention relates to a reinforcing fiber supply device for supplying concrete and mortar reinforcing fibers to a ready-mixed concrete manufacturing facility.
[0002]
[Prior art]
FIG. 5 illustrates the steel fiber supply operation in the mobile concrete material kneading apparatus. In this figure, the steel fiber is supplied onto the belt conveyor together with the coarse aggregate and the cement fine aggregate, and together with water in the continuous mixer. Kneaded. In this case, an apparatus of this kind is used in which steel fibers are dispersed and homogenized, and then a certain amount is automatically supplied onto the belt conveyor.
[0003]
In addition to steel, fibers for reinforcing concrete and mortar are also available in stainless steel and polypropylene. Rocking, disk swing, and wire mesh drums are used to supply these fibers to production equipment for ready-mixed concrete. Rotary, centrifugal, vibration, and drum rotation types are known. In the case of a continuous mixer, a drum rotating type has been generally used. In this drum rotating type apparatus, needle-like protrusions are provided on the inner peripheral surface of the rotating drum, and steel fibers are disposed on the inner peripheral surface of the drum. Disperse with protrusions.
[0004]
Then, the supply amount of the steel fiber is adjusted by adjusting the drum rotation speed and the gap between the discharge ports to keep the supply amount per unit time constant, and the supply amount is managed from the supply time of the steel fiber.
[0005]
[Problems to be solved by the invention]
Reinforcing fibers of concrete and mortar differ in shape, weight, and material depending on the product. For this reason, it is difficult to obtain good dispersibility for each fiber product, and fiber balls are often generated. The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an apparatus capable of always obtaining good fiber dispersibility regardless of the shape, weight, and material of a fiber product that reinforces concrete and mortar. It is in.
[0006]
[Means for Solving the Problems]
-1st invention (refer FIG.1 and FIG.2)
Containers that store fibers used to reinforce concrete and mortar, and continuously discharge vibrations while dispersing fibers, and
A vibration motor that applies vibration to the container;
An inverter circuit for driving the vibrator;
A controller for controlling the inverter circuit;
A measuring instrument for measuring the fiber discharged from the container;
An electric transporter that transports the fibers discharged from the container to the weighing device;
Have
The controller controls the optimal target frequency corresponding to the dispersibility of the container-housing fibers by operating the cursor on the display on which each fiber list is displayed, and the frequency described in the cursor row corresponding to the container-housing fibers. Set by selecting
Applying the target frequency to the inverter circuit to match the frequency of vibration applied from the vibration motor to the container with the target frequency;
When the amount of fiber indicated by the output of the measuring device reaches the measuring target, the energizing path of the transporter is opened.
It is characterized by that.
Second invention (see FIGS. 1 and 2)
Containers that store fibers used to reinforce concrete and mortar, and continuously discharge vibrations while dispersing fibers, and
A vibration motor that applies vibration to the container;
An inverter circuit for driving the vibrator;
A controller for controlling the inverter circuit;
A regenerative braking brake connected to the inverter circuit;
A measuring instrument for measuring the fiber discharged from the container;
An electric transporter that transports the fibers discharged from the container to the weighing device;
Have
The controller controls the optimal target frequency corresponding to the dispersibility of the container-housing fibers by operating the cursor on the display on which each fiber list is displayed, and the frequency described in the cursor row corresponding to the container-housing fibers. Set by selecting
Applying the target frequency to the inverter circuit to match the frequency of vibration applied from the vibration motor to the container with the target frequency;
Gradually raise the target frequency given to the inverter circuit, then maintain the target frequency,
Immediately before the fiber amount indicated by the output of the measuring instrument reaches the measuring target, the target frequency is decreased and the vibration motor is decelerated and stopped.
Synchronize with the deceleration stop of the vibration motor to start the operation of the brake to stabilize the fiber discharge amount of the container,
When the amount of fiber indicated by the output of the measuring device reaches the measuring target, the energizing path of the transporter is opened.
It is characterized by that.
-3rd invention (refer FIG.1 and FIG.2)
Containers that store fibers used to reinforce concrete and mortar, and continuously discharge vibrations while dispersing fibers, and
A vibration motor that applies vibration to the container;
An inverter circuit for driving the vibrator;
A regenerative braking brake connected to the inverter circuit;
A measuring instrument that receives fibers discharged from the container, measures the amount of fibers received, and discharges the received fibers when vibration is continuously applied;
An electric vibrator that applies vibration to the weighing instrument;
A drive circuit for driving the vibrator;
A controller for controlling the inverter circuit and the drive circuit;
An electric belt conveyor that conveys the fibers discharged from the container to a weighing device;
Have
The controller controls the optimal target frequency corresponding to the dispersibility of the container-housing fibers by operating the cursor on the display on which each fiber list is displayed, and the frequency described in the cursor row corresponding to the container-housing fibers. Set by selecting
Giving the target frequency to the inverter circuit to match the frequency of vibration applied from the vibration motor to the container with the target frequency;
Before starting up the target frequency given to the inverter circuit, close the energization path of the belt conveyor, then gradually raise the target frequency given to the inverter circuit,
Next, immediately before the fiber amount indicated by the output of the meter reaches the metering target, the target frequency is decreased and the vibration motor is decelerated and stopped.
Start the brake operation in synchronization with the deceleration stop of the vibration motor, stabilize the fiber discharge amount of the container,
When the amount of fiber indicated by the output of the weigher reaches the weighing target, open the belt conveyor energization path,
Apply the target frequency to the drive circuit to match the frequency of vibration applied from the vibrator to the meter with the target frequency, and discharge the fiber from the meter at high speed.
It is characterized by that.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 3 is a side view of the mobile concrete material kneading apparatus. Reference numeral 100 denotes a concrete material supply chassis, and reference numeral 120 denotes a concrete material kneading chassis. On the chassis 100 side, reference numeral 1000 is a horizontal silo for storing fast-curing cement, reference numeral 1002 is a screw feeder for cement, reference numeral 1004 is a hopper for storing aggregate (sand and gravel), reference numeral 1006 is sand, Each belt conveyor using sand is shown.
[0008]
Reference numeral 10 denotes a container for storing steel fibers, and reference numeral 1008 denotes a crane. The crane transfers the delivered cement, aggregate, and steel fibers into the silo 1000, the hopper 1004, and the container 10. On the chassis 120 side, reference numeral 18 denotes a measuring instrument, and the measuring instrument 18 receives the steel fiber conveyed from the container 10 and measures it.
[0009]
Reference numeral 1200 represents a forced biaxial mixer, which mixes the cement, aggregate, steel fiber, water, and admixture to produce ready-mixed concrete. The kneaded water is stored in the tank 130 and the admixture is stored in the tank 132, and the ready-mixed concrete in the mixer 1200 is discharged from the feeder 1202. Reference numeral 1204 indicates an operation room.
[0010]
In FIG. 1, an operation panel 11, a color display 13, and a controller 16 are provided in an operation room 1204, and the operation panel 11 and the color display 13 are connected to the controller 16. The manager of the concrete material kneading enters the operation room and operates the operation panel 11 while checking the display on the display 13.
[0011]
Inverter circuits 14 and 26, a switch 28 and a measuring instrument 18 are connected to the controller 16, and a regenerative braking type brake 22 is provided in the inverter 14. A vibration motor 12 is connected to the inverter circuit 14, and the container 10 is driven to vibrate by the vibration motor 12. Further, a vibration motor 24 is connected to the inverter circuit 26, and the measuring instrument 18 is driven to vibrate by the vibration motor 24.
[0012]
Further, the switch 28 is inserted into the energization path of the motor 29, and the motor 29 is a drive source for the belt conveyor 20. The container 10 is driven to vibrate to disperse the steel fibers and discharge them onto the belt conveyor 20. The belt conveyor 20 conveys the steel fibers to the measuring device 18, and the measuring device 18 measures the conveyed steel fibers. Then, the weighed steel fibers are discharged by being driven by vibration.
[0013]
In FIG. 2, the processing procedure of the controller 16 is described using a flowchart, and the operation of the present apparatus will be described below based on this flowchart. The manager of the concrete material kneading operates the operation panel 11 while confirming the display 13 to set a target value of the vibration frequency for the container 10 (step 1600).
[0014]
For example, the list display of FIG. 4 is displayed on the display 13, and the administrator operates the operation panel 11 to move the cursor 1300 to the corresponding list row and select a target vibration frequency (high dispersion frequency). When the target frequency is selected, the switch 28 is closed and the operation of the belt conveyor 20 is started (step 1612), and the vibration motor 12 is also started (step 1608).
[0015]
The vibration frequency of the container 10 is gradually increased (preferably S-shaped), and is maintained thereafter when the target frequency is reached (step 1602). The steel fibers in the container 10 are well separated when the container 10 is driven to vibrate at a target frequency, discharged onto the belt conveyor 20, and conveyed into the meter 18. The metering output of the meter 18 is monitored by the controller 16 and 90% of the steel fiber has been transported into the meter 18 by a predetermined amount (adjustable within the range of 0% to 100%). Is confirmed from the weighing output (YES in step 1603), the inverter circuit 14 is instructed to decelerate and stop the vibration of the container (10) (step 1604).
[0016]
At the same time, the operation of the brake 22 is also started (step 1610). When the vibration frequency of the container 10 decreases, the weight load generates an improper vibration component and the container 10 tends to swing greatly, but the brake 22 effectively suppresses this. For this reason, the vibration frequency of the container 10 follows the target value accurately and decreases, and the discharge amount of the steel fiber is stabilized. Meanwhile, the weighing can be performed accurately.
[0017]
Further, when it is confirmed from the measurement output that a predetermined appropriate amount of steel fibers has been conveyed into the measuring device 18 (YES in step 1605), the switch 28 is opened and the belt conveyor 20 is stopped ( Step 1606). Finally, the measuring device 18 is driven to vibrate at a target frequency by the vibration motor 24 (step 1614).
[0018]
Since the meter 18 vibrates at an optimal frequency, the steel fibers in the meter 18 are quickly and efficiently discharged. As described above, since the container 10 is driven to vibrate at an optimum frequency according to the steel fiber, good fiber dispersibility is always obtained regardless of the shape, weight, and material of the fiber, and a fiber ball is generated. Therefore, it is possible to improve the quality of the cast concrete.
[0019]
Furthermore, since the vibration drive of the container 10 is soft-started and decelerated and stopped, and abnormal vibration components are absorbed by braking when decelerating and stopping, the steel fiber is stably conveyed despite the change in vibration frequency. Is called. For this reason, the measurement of the steel fiber is accurately performed, and as a result, the quality of the cast concrete can be further improved.
[0020]
In addition, since the measuring device 18 is also oscillated and driven at an optimum frequency, the operation speed of the apparatus is increased and a larger amount of ready-mixed concrete can be produced.
[0021]
【The invention's effect】
According to the present invention, since the fiber container is driven to vibrate at an optimum frequency corresponding to the fiber, good fiber dispersibility can always be obtained regardless of the shape, weight, and material of the fiber. Therefore, it is possible to improve the quality of the cast concrete.
[Brief description of the drawings]
FIG. 1 is a configuration explanatory diagram of an embodiment.
FIG. 2 is a flowchart illustrating a processing procedure according to the embodiment.
FIG. 3 is a side view of the mobile concrete material kneading apparatus.
FIG. 4 is an explanatory diagram of a target frequency setting screen.
FIG. 5 is an explanatory diagram of a steel fiber supply operation in a mobile concrete material kneading apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Container 11 Operation panel 12 Vibration motor 13 Color display 14 Inverter circuit 16 Controller 18 Weighing device 20 Belt conveyor 22 Brake 24 Vibration motor 26 Inverter circuit 28 Switch 29 Motor 1204 Operation room

Claims (3)

Containers that store fibers used to reinforce concrete and mortar, and continuously discharge vibrations while dispersing fibers, and
A vibration motor that applies vibration to the container;
An inverter circuit for driving the vibrator;
A controller for controlling the inverter circuit;
A measuring instrument for measuring the fiber discharged from the container;
An electric transporter that transports the fibers discharged from the container to the weighing device;
Have
The controller controls the optimal target frequency corresponding to the dispersibility of the container-housing fibers by operating the cursor on the display on which each fiber list is displayed, and the frequency described in the cursor row corresponding to the container-housing fibers. Set by selecting
Applying the target frequency to the inverter circuit to match the frequency of vibration applied from the vibration motor to the container with the target frequency;
When the amount of fiber indicated by the output of the measuring device reaches the measuring target, the energizing path of the transporter is opened.
Reinforcing fiber supply method characterized by that. Containers that store fibers used to reinforce concrete and mortar, and continuously discharge vibrations while dispersing fibers, and
A vibration motor that applies vibration to the container;
An inverter circuit for driving the vibrator;
A controller for controlling the inverter circuit;
A regenerative braking brake connected to the inverter circuit;
A measuring instrument for measuring the fiber discharged from the container;
An electric transporter that transports the fibers discharged from the container to the weighing device;
Have
The controller controls the optimal target frequency corresponding to the dispersibility of the container-housing fibers by operating the cursor on the display on which each fiber list is displayed, and the frequency described in the cursor row corresponding to the container-housing fibers. Set by selecting
Applying the target frequency to the inverter circuit to match the frequency of vibration applied from the vibration motor to the container with the target frequency;
Gradually raise the target frequency given to the inverter circuit, then maintain the target frequency,
Immediately before the fiber amount indicated by the output of the measuring instrument reaches the measuring target, the target frequency is decreased and the vibration motor is decelerated and stopped.
Synchronize with the deceleration stop of the vibration motor to start the operation of the brake to stabilize the fiber discharge amount of the container,
When the amount of fiber indicated by the output of the measuring device reaches the measuring target, the energizing path of the transporter is opened.
Reinforcing fiber supply method characterized by that. Containers that store fibers used to reinforce concrete and mortar, and continuously discharge vibrations while dispersing fibers, and
A vibration motor that applies vibration to the container;
An inverter circuit for driving the vibrator;
A regenerative braking brake connected to the inverter circuit;
A measuring instrument that receives fibers discharged from the container, measures the amount of fibers received, and discharges the received fibers when vibration is continuously applied;
An electric vibrator that applies vibration to the weighing instrument;
A drive circuit for driving the vibrator;
A controller for controlling the inverter circuit and the drive circuit;
An electric belt conveyor that conveys the fibers discharged from the container to a weighing device;
Have
The controller controls the optimal target frequency corresponding to the dispersibility of the container-housing fibers by operating the cursor on the display on which each fiber list is displayed, and the frequency described in the cursor row corresponding to the container-housing fibers. Set by selecting
Giving the target frequency to the inverter circuit to match the frequency of vibration applied from the vibration motor to the container with the target frequency;
Before starting up the target frequency given to the inverter circuit, close the energizing path of the belt conveyor, then gradually raise the target frequency given to the inverter circuit,
Next, immediately before the fiber amount indicated by the output of the meter reaches the metering target, the target frequency is decreased and the vibration motor is decelerated and stopped.
Start the brake operation in synchronization with the deceleration stop of the vibration motor, stabilize the fiber discharge amount of the container,
When the amount of fiber indicated by the output of the weigher reaches the weighing target, open the belt conveyor energization path,
Apply the target frequency to the drive circuit to match the frequency of vibration applied from the vibrator to the meter with the target frequency, and discharge the fiber from the meter at high speed
Reinforcing fiber supply method characterized by that.

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