SU1082372A1 - Apparatus for continuous portional metering of tea leaves - Google Patents

Abstract

DEVICE FOR CONTINUOUS batching TEA ZHSTA comprising a belt feeder with a drive Vesoizmeritel comprising a conveyor belt mounted on the lever weighing device, an adder, a software unit, comparing unit, one input of which is connected to the programming unit, the other - with the adder and output via A control unit is connected to the drives of the feeder and the weight meter, characterized in that, in order to improve the accuracy of the doisier; and increase reliability in operation, it is additionally equipped with a serially connected converter with a cyclic code — a binary code and a binary counter, and an additional adder; the inputs of the latter are connected to a converter; cyclic code — a binary code and a binary counter, and the output to the control unit, the control unit is associated with a binary counter, adders and (L software block, with binary: the counter is connected to the adder, and the converter code cyclic binary code is connected to the weighing instrument. SBoOnpozpai i / ibl eo H SD: A: N3

Description

1 The invention relates to the tea industry and is intended for use in tea preprocessing factories with continuous batching of green brewed and twisted tea leaves. A device for batching tea leaf batching is known, which includes a metering hopper, mounted above the paired M rollers. A disadvantage of the known devices is that due to the poor impact of tea, it is necessary to use special tools (vibrators) to unload it from the bunker, which produce additional mechanical effects on the tea leaf, reducing the quality of the finished product. In addition, the tea loaded into the bunker, with a large load volume, starts to spontaneously heat up, which also reduces the quality of the finished product. The closest to the proposed technical essence and the achieved result is a device for continuous batching of tea leaves, including a belt-fed feeder, a weighing instrument, including a belt conveyor, mounted on a lever weighing device, a software unit, a comparison unit, one input which is connected to the software block, the other to the sum of the torus, and the output through the control block is connected to the drives of the feeder and the weight gauge 2J. Disadvantages of the device are low metering accuracy, which is due to the inertia of the feeder, the ribbon of which continues to move for some time after being stopped by a command from the control unit, while continuing to feed the tea leaf to the weight conveyor, and the flow of the tea leaf on the weighing conveyor belt; low reliability of the device, due to the presence of two alternately operating weighing machines. The purpose of the invention is to improve the metering accuracy and increase the reliability of the device. This goal is achieved by the fact that the device dp continuous batching of tea leaves, including a belt feeder with water, a weighing device that includes a belt conveyor mounted on a lever weighing device, an adder, a program block, a comparator unit, one input of which is connected to a programmable block the other is connected to an adder, and the output through the control unit is connected with the drives of the feeder and the weight meter; the cyclic code is additionally supplied with a serially connected converter one binary and binary counter, and an additional adder, the inputs of the latter are connected to the converter code cyclic code binary and binary counter, and the output to the control unit, the control unit associated with the binary counter, adders and program block, and the binary counter is connected to the accumulator, and the converter the cyclic code — the binary code with the weight measuring device. The drawing shows the block diagram of the device for continuous batching of the tea leaf. The device includes a feeder 1, with a drive, made in the form of a belt conveyor, a weighing device 2 with a drive, including a belt conveyor 3, mounted on a scale weighing device 4, an adder 5, a comparison unit 6, one input of which is connected to the program block 7, the other - with the adder 5, and the output through the control unit 8 is connected with the drives of the feeder 1 and the weight meter 2, the converter 9 is a cyclic code - a binary code connected to the binary counter 10, an additional adder 11, whose inputs are connected to The code 9 is a cyclic code — a binary code and a binary counter 10, and the output is to control block 8, the outputs of which are connected to the inputs of binary counter 10, adder 5, adder 11 and program block 7, and binary counter 10 is connected to adder 5, converter 9 cyclic code — binary code — with a weight measuring device 2. The device operates as follows. Before starting the process of measuring doses, the operator using the software device 7 dials the dose measuring program and gives the command

on start up system. The control unit 8 takes a command to record the indications of the weighing device 2 on the binary counter 10 and from it on the adder 5 and compares the readings of the sum of the matrix 5 with the information from the program unit 7 in the comparison unit 6. If on the conveyor 3 of the weight gauge 2 there is no tea leaf, then the binary counter 10 and the adder 5 fixes the zero weight value, which corresponds to the start of the dose metering process.

At the same time, the control unit 8 initiates a command to start the feeder 1 and the weight meter 2. After a time interval sufficient for filling the conveyor 3 of the weight meters 2 (for a BN-EC type weight meter, the time is 20 seconds), i.e. until the beginning of the unloading, the control unit 8 issues a command to record the readings of the converter 9 cyclic code — the binary code on the binary counter 10, and from it on the adder 5. The readings of the adder 5 are compared with the measured dose in the program block 7. If the weight value recorded by the adder 5 is less than the weight of the measured dose specified in the program block 7, the control unit 8 executes the command to record the readings of the binary counter 10 in the adder 11 and after that the binary counter 10 is given B to its original position, i.e. his readings are reset to zero. After an interval of time sufficient to fill the conveyor 3 with a new portion of tea leaves, the above-described weight fixing operations are repeated and the readings of the adder 5 with the information from program block 7 are compared.

In addition, accumulators of weight are accumulated in adders 5 and 11 with each fixation and comparison operation.

At the moment when the weight value equal to or greater than the specified weight value of the dose measured by the program is recorded in the adder 5, the comparison unit 6 gives the signal to the weighing process control unit 8, which disconnects the adder 5 from the comparison unit 6 and connects additional comparison to block 6

adder 11. In this case, the control unit 8 outputs to the adder 11 a signal that prohibits the recording of the last readings of the binary counter 10 and allowing the additional adder 11 to receive information directly from the converter 9 and the cyclic code is a binary code. At the same time, the control unit 8 resets the binary counter 10 and the adder 5 and stops the feeder 1, thus stopping the delivery of tea leaves to the conveyor 3 of the weight measuring device 2. At this point, the additional adder 11 reads out the weight of the tea leaves from the conveyor 3 of the weight measuring device 2 and according to the indication of the adder 5, before the moment when its readings became equal to or greater than the specified value of the weight of the metered dose. Starting from this moment, the information about the weight quantity of tea leaf, converging from the transport, par 3 of the weight measuring device 2, through the converter 9 is the cyclic code — the binary code directly enters the additional adder 11, the readings of which are compared in block 6 comparison with the information from program block 7. At the moment when the weight value equal to the predicted weight value of the dose measured in accordance with the program is recorded in the adder 11, the control block 8, receiving the corresponding signal from the comparison block 6, stopping ivaet conveyor 3 Vesoizmeritel 2, terminating dozy.Zatem measuring system control unit 8 outputs a signal program unit 7 for metering of the next dose, and an additional adder 11 leads to the initial state.

Thus, the dosing accuracy is increased: due to the fact that the metered dose is adjusted after turning off the feeder 1, when the flow of the tea leaf does not flow to the conveyor 3 of the weight gauge 2, the impact of the inertia of the feeder on the dose metering accuracy is eliminated. At the same time, the tea leaf remaining on the conveyor 3 of the weight gauge 2 by the time it stops is included in the subsequent measured dose.

5 10823726

The reliability of the device is one by one displacement gauge, which is also increased due to the simpler time-consuming performance of the remote

constructions, because instead of a two-transporter in technological measuring instruments and one reversible one.

feeder conveyor, which 5 The annual economic effect from

used in the known device implementation of the proposed device

Wee, in the proposed use will be 20 thousand rubles.

Claims (1)

DEVICE FOR CONTINUOUS PORTIONAL DOSING OF THE TEA SHEET, including a belt feeder with a drive, a weight meter, including a belt conveyor mounted on a lever weighing device, an adder, a program unit, a comparison unit, one input of which is connected to the program unit, βΒοϋ the program , and the output through the control unit is connected to the drives of the feeder and weight meter, characterized in that, in order to increase the accuracy of dosing, and increase reliability in operation, it additionally sleep It is connected in series with the cyclic-to-binary code and binary counter code converter, and an additional 'totalizer', the inputs of the latter are connected to the cyclic-code-binary and binary counter code converter, and the output to the control unit, while the control unit is connected to the binary counter, totalizers and software unit, and the binary counter is connected to the adder, and the cyclic code converter binary is with the weight meter.