SU1101319A1 - Device for controlling mouldability of sand - Google Patents

Abstract

1. A DEVICE FOR REGULATING THE FORMABILITY OF A MIXTURE being prepared in a mixer, containing a sample pick-up with a relief spring, a formability sensor having a vibrating channel with transverse peaks of different widths, each of which has a photo sensor connected to the control unit, a metering unit of water supplied to the mixer containing two dosing valves connected to two outlets of the control unit, a mixture supply mechanism to the mixer with an actuator, an alarm unit, characterized in that, in order to increase the output of a quality dual mix It is additionally equipped with a mechanism for directing the mixture flow with an actuator connected to the third output of the control unit, a mechanism for transporting the mixture with an actuator installed with the possibility of transporting the mixture from the mixer outlet to a mechanism for directing the mixture flow. , a mechanism for returning the mixture back to the mixer with a drive connected to the fourth output of the control unit, and the vibrating channel of the formability sensor is additionally equipped with a transverse slit located up to the first tr Ex slots in the course of the mixture intake, a photo sensor mounted under the additional slot and connected to the control unit, the fifth output of the control unit connected to the alarm unit, and the sixth output to the drive of the mixture feed mechanism to the mixer. i 2. The device according to claim 1, characterized in that the control unit (the Mapping consists of five amplifiers, an inverter, an OR circuit, two time delay circuits, the first input of the OR circuit, the inputs of the invertor, the first and the second amplifiers are the inputs of the block and connected to the photosensors, the outputs of the first and second amplifiers are the first and second outputs of the block, the output of the inverter is connected to the second input of the OR circuit, the output of which is connected to the inputs of the time delay circuits and is the fifth output of the block time delay At the input of the third amplifier, the output of which is the sixth output of the block, the outputs of the second time delay circuit are connected to the inputs of the fourth and fifth amplifiers, the outputs of which are the third and fourth outputs of the block, respectively.

Description

The invention relates to the marketing of building materials, and can also be used in the foundry industry.

A device for adjusting Formability is known. a mixture containing a sampler, a formability sensor with a vibrator, a temperature sensor, a water metering device, a control panel, a formability sensor vibration amplitude control unit l, "

The disadvantage of this device is the insufficient yield of high-quality mixture for moldability due to rejecting the mixture at the mixer exit when the overmolded waste mixture arrives at its entrance, since the device cannot lower the humidity of the overwetted mixture and the dry mixture does not leave the mixer when the water supply is too low. mixer due to a drop in water pressure.

The closest in technical essence to the present invention is a device for controlling a mixture of formability, containing a sampler with a discharge spring, a formability sensor, a vibrating channel with three transverse slits of different widths, each of which has a photo sensor connected to the control unit, a water meter, supplied to the mixer containing two dosing valves connected to the two outputs of the control unit, the mechanism for supplying the mixture to the mixer with an actuator, the alarm unit 2.

The disadvantage of this device is the insufficient yield of quality mixture by its capacity due to the production of defective mixture at the mixer exit when the overwetted mixture arrives at its inlet, since the mixture does not allow to lower the humidity of the mixture when preparing the mixture (the mixture constantly moves to its output and enters the conveyor for its further transportation. Further, when the mixture enters the mixer, the poor-quality mixture in the mixer completely pop pushes onto a conveyor belt for further transportation. If an overly dry mixture enters the mixer when there is insufficient water supply to the mixer due to a drop in water pressure, the mixture from the mixer leaves under-humidification, which leads to an increase in scrap.

The purpose of the invention is to increase the yield of quality mixture by formability.

This goal is achieved by the fact that the device, containing a sampler with a discharge spring, a formability sensor, has a vibrating channel with three transverse slots of different widths, under each of which is installed a photo sensor connected to the control unit, a water dosing unit supplied to the mixer, two a metering valve connected to the two outputs of the control unit; a mixture feed mechanism to the mixer with an actuator; blocking alarm; additionally equipped with a mechanism for directing the mixture flow to the actuator connected to the third the output of the control unit, the mechanism for transporting the mixture with a drive installed with the possibility of transporting the mixture from the mixer exit to the mechanism for directing the flow of the mixture, the mechanism for returning the mixture back to the mixer with the drive connected to the fourth output of the control unit a slit located up to the first three slits along the flow of the mixture; a photosensor installed under the additional slit and connected to the control unit; The second output of the control unit is connected to the alarm unit, and the sixth output is connected to the drive of the mixture feed mechanism to the mixer,

The goal is also achieved by the fact that the control unit consists of five amplifiers, an inverter, an OR circuit, two time delay circuits, the first input of the OR circuit, the inputs of the inverter, the first and second amplifiers are block inputs and connected to the photosensors, the outputs of the first and The second amplifiers are the first and second outputs of the inverter output unit connected to the second input of the OR circuit, the output of which is connected to the inputs of the time delay circuit and is the fifth output of the block, the output of the first time delay circuit is connected to the input m third amplifier whose output is the sixth output unit outputs the second time delay circuit connected to the inputs of the fourth and fifth amplifiers, the outputs of which are respectively the third and the fourth output block.

The drawing shows a block diagram of the device for adjusting the moldability of the mixture.

The device consists of a sampler 1 with a discharge spring 2, a formability sensor 3 having a vibratory roll 4 with transverse slots 5-7 of different widths, with the width of each subsequent slit larger than the previous slit, photo sensors 8-10 installed below additional slit 11, installed to the remaining three slits along the flow of the mixture and having the smallest width, a photo sensor 12 installed under the additional slit 11, a dispenser 13 of water supplied to the mixer 14, containing a coarse valve 15 and a valve 16 accurate to water, control unit 17, alarm unit 18, mechanism 19 for guiding the flow of the mixture with the actuator 20, whose input is connected to the output of control unit 17 of the mechanism (conveyor) 21 for transporting the mixture with the actuator 22 from the mixer 14 output to mechanism 19 for directing flow of the mixture, the mechanism. (conveyor) 23 for returning the mixture back to the mixer with a drive 24, the input of which is connected with the output of the control unit 17, which is installed with the possibility of transporting the mixture from the mechanism 19 for directing the flow of the mixture back to the mixer 14. O The worked mixture is fed to the mixer 14 via conveyor 25, and the quality of the mixture is transported for further use by the conveyor 26. The inputs of the control unit 17 are connected to the photosensors 8, 9, 10 and 12, and the outputs to the metering valves 15 and 16. The control unit 17 consists of amplifiers 27 and 28, inversion amplifiers 29-31, time delay circuits 32 and 33, OR circuit 34, inverter 35.

The device works as follows.

The spent mixture enters the conveyor 25 into the mixer 14, where the water coming from the water mains through the valves 15 and 16 mixes and is humidified. From the mixer, the mixture enters the mechanism (conveyor) 21 for transporting the mixture and is transported to mechanism 19 on a signal from the control unit 17, directs the mixture to the conveyor 26 for further transportation (if the formability of the mixture is within the allowable range) or to the mechanism (conveyor) 23 to return the mixture back to the mixer (if the formability of the mixture is than or less than the permissible).

To control the formability of the mixture, the sampler 1 with the discharge spring 2 takes part of the mixture from. output of the mixer 14 and directs it to the tray 4 of the formability sensor 3. Under the action of vibration, the mixture moves along the tray, passes through the slots in the tray, sifting through them blocks the photocells of the photosensors. If the formability of the mixture is high (the moisture content of the mixture is low), the mixture is sifted through slots 5-7 and overlaps the photocells 8-10. Signal

At the inlet of the boosters 30 and 31, the prop gives and they turn on the coarse valve 15 and the valve 16 of the exact metering of water. The water enters the mixer. As the mixture is moistened, the formability of the mixture decreases and it stops sieving through slot 5. A signal appears on photo sensor B and control unit 17 using amplifier 31 turns off the coarse water metering valve 15, reducing the amount of water entering the mixer 14 With a further decrease in formability the mixture stops sieving through the slit 6 and the control unit shuts off the precision metering valve 16. As the formability increases, the mixture begins to sift through the slit 6 and the control unit 17 turns on the valve 16 for precise metering of water. With further increasing the formability of the mixture, the mixture begins to sift through the slit 5 and the control unit turns on the valve 15 for coarse dosing of water, increasing the amount of water supplied and the mixture is adjusted to the required formability.

If the formability of the mixture decreases below the permissible value (this can occur, for example, when a mixture of increased humidity enters the mixer), the mixture stops spilling through the largest gap 7. On the photosensor 10 a signal appears that passes through the inverter 35 OR 34 circuits, time delay circuits 32 and 33, amplifiers 27-29, turns off the mix feed conveyor 25 to the mixer, turns on the drive 24 of the poor mix return mechanism 23 to the mixer, with the time necessary for the quality mix to pass; for transportation) includes a drive 20 of the mechanism 19 for directing the flow of the mixture, which begins to direct the mixture to the mechanism 23. The mechanism 23 returns the mixture back to the mixer. At the same time, the control unit turns on the signaling unit 18, which signals the low-quality mixture leaving the mixer. The mixture leaving the mixer is completely returned to the mixer and stirred again. This process continues until the mixture dries out, its formability becomes within the allowable range and it starts to sift through slot 7. At the same time, the signal on photo sensor 10 disappears. The control unit with the time delay created by the circuit 33 and the poor-quality mixture necessary for passing through the mechanism (conveyor) 21 sends a signal to the actuator 20 of the mechanism 19, which switches and directs the mixture to the conveyor 26 for further transportation.

Claims (2)

1. DEVICE FOR REGULATING THE FORMABILITY OF THE MIXTURE prepared in the mixer, containing a sample sampler with an unloading spring, a formability sensor having a vibratory tray with transverse slots of different widths, under each of which there is a photosensor connected to the control unit, a water dispenser supplied to the mixer containing two a dosing valve connected to two outputs of the control unit, a mixture supply mechanism to the mixer with a drive, an alarm unit, characterized in that, in order to increase the yield of a high-quality mixture according to uemosti it additionally; it is equipped with a mechanism for directing the flow of the mixture with a drive connected to the third output of the control unit, a mechanism for transporting the mixture with a drive installed with the possibility of transporting the mixture from the outlet of the mixer to a mechanism for directing the flow of the mixture, a mechanism for returning the mixture back to the mixer with the drive, connected to the fourth output of the control unit, and the vibrator tray of the formability sensor is additionally equipped with a transverse slit located up to the first three slots along the flow of the mixture, a photosensor mounted under an additional slot and connected to the control unit, the fifth output of the control unit connected to the alarm unit, and the sixth output to the drive of the mixture supply to the mixer. 2. The device according to claim 1, characterized in that the control unit consists of five amplifiers, an inverter, an OR circuit, two time delay circuits, the first input of the OR circuit, the inputs of the inverter, the first and second amplifiers are the inputs of the unit and connected to the photosensors, the outputs of the first and second amplifiers are the first and second outputs of the block, the inverter output is connected to the second input of the OR circuit, the output of which is connected to the inputs of the time delay circuits and is the fifth output of the block, the output of the first time delay circuit is connected to the third input th amplifier vyhodkotorogo the sixth output unit outputs the second time-delay circuit connected to the inputs of the fourth and fifth amplifiers, the outputs of which are respectively the third and the fourth output block. 1PSh19