CS239462B1 - Connection for water dosing control in decoring drum - Google Patents

Abstract

The solution is used in technology from the forming operation to the breaking operation and cooling the castings in the knockout the drum in which it is variable during transport delays and change of product range cast molds. Dosing control water is corrected by the opening time of the dosing device valve control and regulation member to provide the necessary cooling molding mixture and castings at the same time maintaining the moisture of the molding mixture at the outlet from the knock-out drum within a specified range. The essence is the involvement of the tact transmitter lines to delay input delay to the correction input the member and the reading input of the counter member connected further by the readout output to the input into the correction term of the correction term member it is connected to selective with its correction output reader input and correction a control and regulating member input, wherein the control and regulating member is the start input dosing connected to delay output and the actuator output is connected to the control coil dispensing valve.

Description

(54) Wiring for controlling water dosing into the drum

The solution is used in the process line from the molding operation to the casting and chilling operation of the casting drum, in which there are variable delays during transport and a change in the range of casting molds is made. Water dispensing control is accomplished by correcting the dispensing valve opening time by the control and regulating member, thereby ensuring the necessary cooling of both the molding composition and the castings while maintaining the molding composition moisture at the outlet of the knockout drum within a specified range. The essence is to connect the clock bar transmit member to the delay member of the delay member, to the comparator input of the correction member, and to the count input of the count member connected further to the counter output of the correction member member that is connected to the select member of the count member and the correction. the input of the control and regulating element, wherein the control and regulating element is connected to the delay output by the metering start input and connected to the actuating coil of the metering valve by the action output.

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BACKGROUND OF THE INVENTION The present invention relates to a circuit for controlling the dosing of water into a knockout drum. The prior art uses a regulator located at the water supply to the drum to adjust the corresponding water flow to match the output of the drum so that the molding composition castings 1 are cooled and the molding composition moisture coming from the drum is kept within the specified limits. Other known connections utilize a metering valve at the water inlet of the extractor drum with an evaluation member that is connected to the moisture and temperature sensors of the molding composition at the outlet of the extruder drum, or the exhaust air temperature of the extruder drum or inlet mold temperature before entering knockout drum. According to the evaluated data, the water dosage is regulated.

The disadvantage of the first devices is that they do not meet where the working cycle of the molding machine is irregular and the range of molds is variable. The disadvantage of the other devices is the considerable time difference between the occurrence of the control deviation and the change of the water dosing.

These drawbacks are eliminated by a circuit for controlling the dosing of the water into the thrashing drum using the water dosing valve and the bar clock transducer according to the invention, characterized in that the bar clock transmitting member is connected to the delay input of the delay member, the comparison input of the correction member and the counter. input of counting member. The counter member is connected by a counting output to a correction term correction input which is coupled by its correction output to a select member of the count member and to a correction input of the control member. The actuator is connected to the delay output via the dosing start input and connected to the actuating coil of the dosing valve by the action output. The control and regulating element consists of a time-dependent circuit with an adjustable time constant. The correction term is comprised of at least two time normals, comparison circuits of the time normal pulse frequency and the clock cycle transmit element, and memory circuits of the achieved correction degree. The counter member comprises at least two pulse counters. The delay element consists of a set of time relays and at least one counter of the molds of the same assortment. The advantage of the circuitry according to the invention is that it does not comprise sensors for measuring the temperature of the inlet system of the castings in the molds prior to entering the die drum, nor apparatus and sensors for evaluating the state of the molding mixture or exhaust air at the outlet of the die drum. failure rate and increase service life and more sensitive regulation of water dosing into the drum.

An exemplary circuit for controlling the dosing of water to the shear drum is shown in the drawing of the circuit diagram.

As can be seen from the drawing, the circuit for controlling the dosing of water into the thrashing drum consists of a transmit member of the line pulse 6 connected both to the voltage source 2 and longer to the delay input 5.2 of the delay member 2, to the comparator input 2? a metering valve X whose control coil 12 is connected both to the power supply 2 and to the actuator output X of the control unit X whose metering start input 42 is connected to the delay output 51, and correction input X2 is connected to correction output 2 | _The correction element 2 is connected to the select input 22 of the counting member 2 by its longer correction output 21 and its correction time input 23 is connected to the counter output 31 of the counting member 2. the delay element 2 is connected separately to the power supply 2 * S1 and the control element X is formed by a time-dependent circuit with an adjustable time constant. Correction member 2 is formed by at least two time standard, the difference comparator circuit the pulse frequency and time standard transmitting member 6, clock line, and a memory circuit made water correction amount, the counter member 2 ^e d by at least two pulse counters. The delay element 2 d ^e consists of a set of time relays and at least one counter of the molds of the same assortment.

The connection function for controlling the dosing of water into the drum is as follows.

At the beginning of the molding or when the cast product range is to be cast, the basic time constant of the time-dependent circuit is made at the control and regulating element.

With each molded mold, the state of the molded mold counter of the same range of castings is gradually increased at the delay member 2. The filling of the counter corresponds to the state in which the first mold produced is ejected onto a conveyor whose speed of mold transport is independent of the line cycle. The first of the time relay system of the delay member 2 is started by the transmit member of the line 2 clock. · After the time for which the time relay is set, the delay output is activated. 51 and as a result the action output 41 of the control and regulating member 2 is closed, thereby opening the metering valve 1 for supplying water to the knockout drum. Limitation of the opening time of the metering valve χ is provided by a correction member 6 with a decoupling member J which corrects the set time constant of the time-dependent control and regulation member χ. The correction is made on the basis of the difference in the actual conveying time of the casting mold into the knocking drum compared to the determined molding cycle. If the line clock starts to decelerate, the timing difference between the timing pulse rate 2 and the clock pulse transducer 2 in the comparison circuit 2 increases in the pulse difference until it reaches the set value. By means of this comparison circuit, the memory circuit of the achieved correction stage is adjusted. At the same time, this comparator circuit is reset and the next pulse counter of the counting member J is started, while the preceding counters remain in operation. In the event of a continuous line clock delay, the following memory circuit is adjusted in the same way simultaneously with the corresponding pulse counter of the counting member 2.

If the number of memory circuits reset from the initial state reaches a specified number, the time-constant of the time-dependent control circuit χ is corrected. The opening time of the metering valve X is corrected. After the time-dependent circuit of the control and regulating member 2 has been depressed, the water supply to the exclusion drum is terminated. The entire water dosing process as described further repeats periodically depending on the pulse of the link bar 2 transmit member.

The delay member 2 serves to determine the appropriate moment of opening of the metering valve χ with respect to the transport delay between the mold casting and its delivery to the thrashing drum, the mold maker of the same casting range being set to values corresponding to the number of pulses ejects to a conveyor whose speed of mold transport is already independent of the line clock transmitter. Upon reaching the set number of pulses of the link bar 2 of the casting mold or change of the cast casting range, a timing relay is set whose setting corresponds to the mold passage time on the conveyor at a speed independent of the line clocking transducer 6. After the set time interval has elapsed, a signal from the delay output 51 of the delay member 2 applied to the dosing start input 42 of the control and regulating member 2 gives an impulse to start it.

The control and regulating member 2 serves to control the opening time of the metering valve χ. the time-dependent circuit with adjustable time constant is set manually according to the cast casting assortment and for a regular molding rhythm. The set time constant of the time-dependent circuit of the control and regulating member 2 is corrected by means of the correction element Ji by the signal applied from the correction output 21 to the correction input 43 of the control and regulating member 2. and a control member 2 which switches the actuator output 41 to open the metering valve χ.

The correction member 2 serves to correct the time constant of the time-dependent circuit of the control and regulating member 2a and the comparison circuit of the correction member 2 is supplied with pulses at a regular time from a time normal whose frequency is set to a predetermined forming clock. In the comparison circuit of the correction member 2, the pulses of the link pulse transmit member 2 are subtracted from these pulses. When the pulse count difference reaches a preset number, a signal is sent, which is registered by the respective memory circuit of the correction element 2, while at the same time the comparison circuit of the correction element 2 is reset and the next comparison cycle occurs. The number of memory circuits of the correction member 2 which are reset from the initial state is

239462 4 »The memory circuits are reset to their initial state either after resetting the whole number of panel circuits so that the next memory circuit is reset by the previous counter resetting of the counter of the counting element J, or counting the set number of pulses of the counter of counting member J belonging to the given parallel circuit of the correction member J.

Citation J serves to limit the duration of the correction in relation to the appropriate number of forms for which water dose correction is required. The pulses of the link clock transmit member 3 supplied to the counter input of the count member J are counted by the individual pulse counters of the count member J. The order in which the individual counters of the count member J are actuated is reset by control signals supplied from the correction output 21 of the correction member. member J to the selective input JJ. If the counter J is not reset during the counting of the counter member J by the signal applied to the counter input J of the counter member J, on the other hand, after the counter counter J has been filled, the counter signal J of the counter member J is input. the corresponding memory circuit of the achieved correction stage of the correction member J is reset.

The wiring for controlling the dosing of water into the drum can advantageously be used on all drums, regardless of the length of the drum and the time of filling of the cartridge through the drum. Moreover, it is highly variable in terms of the number of molds and the mode of transport between the casting section with the drum. These influences are respected by appropriate setting of individual members and is therefore universal.

Claims (5)

SUBJECT OF THE INVENTION 1. A circuit for controlling the dosing of water into a thrashing drum, by using a water dosing valve and a line clock transmit member, characterized in that the line clock transmit member (6) is connected to the delay input (52) of the delay member (5) to the comparator input. (22) a correction member (2) and a counting input (32) of a counting member (3) connected longer by the output (31) to input a correction time (24) of the correction member (2) connected to the correction output (21) a select input (34) of the counting member (3) and a correction input (44) of the control and regulating member (4), wherein the control and regulating member (4) is connected to the delay output (51) and the action output (41) connected to the control coil (12) of the metering valve (1). Connection according to Claim 1, characterized in that the control and regulating member (4) is a time-dependent circuit with an adjustable time constant. 3. Connection according to claim 1, characterized in that the correction element (2) is formed by at least two time norms, comparison circuits of the time normal pulse frequency and the clock cycle transmit member (6) and the parallel correction stage achieved by the parallel circuit. Connection according to Claim 1, characterized in that the counter member (3) is formed by at least two pulse counters. 5. Connection according to claim 1, characterized in that the delay element (5) consists of a set of time relays and at least one counter of the molds of the same product range.