VALVE CONTROL METHOD AND DEVICE

Abstract

A method and the device are used to control valves. The valves are arranged in the region of lines for a fluid. At least one first valve is in the form of a control valve arranged in the region of a primary line. At least one second valve is in the form of a switching valve. At least one branch is arranged downstream of the control valve in the region of a direction of flow. At least two secondary lines extend downstream of the branch. Each secondary line has one of the switching valves. The valves are connected to a control unit which coordinates the function of the valves.

Claims

1-15. (canceled)

16. A valve control device, comprising: a plurality of lines for a fluid, including a primary line and at least one secondary supply line; a plurality of valves arranged in a region of the lines, wherein at least two of the valves are switching valves arranged in a region of the primary line, wherein at least one of the plurality of valves is a closed-loop control valve arranged in the at least one secondary supply line, wherein the plurality of lines includes at least one branch arranged downstream of the at least one closed-loop control valve in a direction of flow, and at least two secondary lines that extend downstream of the at least one branch, wherein the plurality of valves further includes at least one switching valve in each secondary line; and a control unit that controls function of the plurality of valves, wherein the valves of the plurality of valves are connected to the control unit so as to form at least one closed-loop control circuit.

17. The device according to claim 16, wherein the valves are designed to control superheated steam, saturated steam, heat transfer fluid and/or refrigeration transfer fluid.

18. The device according to claim 16, wherein the valves are arranged in a region of a tire heating press.

19. The device according to claim 16, further comprising a feed for a parallel supply of a fluid arranged downstream of the at least one closed-loop control valve.

20. The device according to claim 19, wherein the plurality of valves includes a switching valve arranged in a region of the parallel supply.

21. The device according to claim 17, wherein the arrangement of the valves and the control unit for at least one closed-loop control circuit are combined to form a combination of a P-closed-loop control system and a sequential PI or PID closed-loop control system.

22. The device according to claim 16, further comprising at least one assigned sensor for each closed-loop control circuit.

23. The device according to claim 22, wherein the sensor is a temperature sensor.

24. The device according to claim 16, wherein the control unit includes a closed-loop controller for implementing a P and/or PI and/or PID closed-loop control system for controlling states of the valves.

25. A method for controlling valves, wherein valves are arranged in a region of lines for a fluid, wherein the fluid is supplied to an assigned closed-loop control circuit through at least one primary line in each case and influences a closed-loop control variable of the closed-loop control circuit, the method comprising the steps of: directly or indirectly capturing actual values of the closed-loop control variable in a respective closed-loop control circuit using a sensor; determining a difference between the actual value of the closed-loop control variable and a desired value; controlling the valves assigned to the closed-loop control circuit in a closed-loop manner based on the closed-loop control variable; actuating the valves with a control unit so that the fluid flows through the lines in which the respective valves are arranged according to the valve states, wherein at least two switching valves are respectively arranged in a primary line and at least one closed-loop control valve is arranged in at least one secondary supply line and at least one switching valve is respectively arranged in a respective secondary line branching off from the secondary supply line: actuating the valves arranged in the primary lines to be opened or closed; opening at least one of the valves arranged in a secondary line; and actuating the closed-loop control valve in a further step to adjust volumetric flow of the fluid flowing through the secondary supply line so. that the volumetric flow of the fluid through the secondary supply line is added to the volumetric flow of the fluid through at least one primary line for at least one closed-loop control circuit.

26. The method according to claim 25, including determining the closed-loop control circuit with a greatest difference between the desired value and the actual value, and subsequently opening only the at least one valve assigned to the determined closed-loop control circuit and arranged in a secondary line.

27. The method according to claim 25, including actuating valve states of the valves arranged in the primary lines using a P closed-loop control system, and actuating the valve state of the at least one closed-loop control valve arranged in the secondary supply line using a PI or a PID closed-loop control system.

28. The method according to claim 25, including carrying out closed-loop temperature control of closed-loop control circuits.

29. A heating press for vulcanizing tires, comprising: at least two assemblies; and a valve control device according to claim 16 arranged to control the heating of the at least two assemblies.

Description

[0049] Exemplary embodiments of the invention are schematically illustrated in the drawings, in which:

[0050] FIG. 1 shows a simplified circuit diagram for using a closed-loop control valve and a plurality of switching valves, and

[0051] FIG. 2 shows a circuit diagram according to FIG. 1 with additional details relating to the control unit/the closed-loop controllers of the device.

[0052] FIG. 1 schematically illustrates a circuit diagram of a valve control device (1) according to the invention. The valve control device (1) has a central control unit (2). The valve control device (1) also has four primary lines (3). In this case, one primary line (3) in each case connects an assigned closed-loop control circuit (4) to a central supply device for a fluid (5).

[0053] A valve (6) in the form of a switching valve is respectively arranged in the region of the primary lines (3) and should be opened and closed with the aid of the control unit (2). If the respective valve (6) is open, the fluid flows through the respective primary line (3) into the respective closed-loop control circuit (4).

[0054] In addition to the primary lines (3), a secondary supply line (7) branches off from the central supply device of a fluid (5) and branches into four secondary lines (8). Each of the secondary lines (8) opens into a respective primary line (3) at a summation point (9). A secondary line (8) is therefore assigned to each of the closed-loop control circuits (4).

[0055] A valve (6) in the form of a switching valve is respectively arranged in the region of the secondary lines (8). Each of the valves (6) arranged in the region of the secondary lines (8) can be individually actuated with the aid of the control unit (2), with the result that said valves should be opened and closed.

[0056] A valve (6) in the form of a closed-loop control valve (10) is arranged in the region of the secondary supply line (7). The closed-loop control valve (10) can be actuated with the aid of the control unit (2), with the result that the volumetric flow of the fluid through the secondary supply line (7) can be adjusted in a range between the volumetric flow present when a closed-loop control valve (10) is completely closed and the volumetric flow present when a closed-loop control valve (10) is completely open.

[0057] A defined additional volumetric flow of the fluid can therefore be initiated in each of the primary lines (3) at the summation point (9) by actuating the valves (6) in the secondary lines (8) and the closed-loop control valve (10) in the secondary supply line (7).

[0058] At least one sensor (11) is arranged in the region of the closed-loop control circuits (4) in a manner assigned to each closed-loop control circuit (4) and can be used to directly or indirectly capture the closed-loop control variable present in the region of the closed-loop control circuit (4).

[0059] The measured values captured with the aid of the sensors (11) can be evaluated with the aid of the control unit (2), with the result that the closed-loop control circuits are controlled in a closed-loop manner with the aid of the control unit (2) by actuating the valves (6, 10).

[0060] The main channels (3) and the additional channels (8) are integrated in a block (12) produced from stainless steel, for example.

[0061] In addition to FIG. 1, FIG. 2 shows the structure and the functional relationship of elements of the control unit (2) using the example of a valve control device (1) designed to control the temperature of heating circuits in a closed-loop manner.

[0062] The control unit (2) has a closed-loop controller (13), for example in the form of a PLC closed-loop controller module.

[0063] A heat exchanger (14) is respectively arranged in the region of the closed-loop control circuits (4) which are in the form of heating circuits. The condensate is discharged to a condensate container (16) in the form of a condensate flask via a condensate run-off (15). The condensate discharge (17) leads away from the condensate container (16).

[0064] The temperature of the condensate can be captured in the region of a condensate container (16) with the aid of a respective temperature sensor (11) or temperature probe.

[0065] The temperature measured values from the temperature sensors (11) can be read with the aid of the control unit (2) and can be transmitted to the closed-loop controller (13).

[0066] An explanation of the principles according to the invention is given below using the example of an application for tire heating presses. As a result, inexpensive multiplex closed-loop control of the temperature in a plurality of heating circuits is provided according to the invention.

[0067] Various heating circuits are required for the external heating of the tire heating press. Depending on the customer requirement or in order to reduce the risks to the installation manufacturer, 2 to 8 closed-loop control circuits are used for each press. The closed-loop control circuits for each cavity in detail are by way of example:

1. Heating plate at the top
2. Heating plate at the bottom

3. Mold

[0068] 4. Lower mold shell
5. Special solutions for further heating circuits.

[0069] The individual heating circuits are supplied with the heat-conducting fluid via the main channels and thus heat the respective component/assembly of the heating press.

[0070] The temperature of the heating circuits is captured with the aid of temperature sensors and is compared with the respective desired value by the control unit. The basic closed-loop control of the heating circuit temperatures is carried out, with the aid of a P or PI closed-loop control system implemented with the closed-loop controller, by opening and closing the valves in the main channels.

[0071] An additional closed-loop control system can be connected to this basic closed-loop control system via the additional channels. In one embodiment of the invention, this additional closed-loop control system is provided by a PID closed-loop control system which is implemented with the closed-loop controller and specifies the actuation of a closed-loop control valve in order to control the volumetric flow of the heat-conducting fluid in the secondary supply line.

[0072] In one embodiment of the invention, the heating circuit with the greatest difference between the desired value and the actual value is respectively determined and is approximated by connecting the additional closed-loop control system.

[0073] As a result, a PID closed-loop control system is superimposed on the basic closed-loop control system (on/off closed-loop control) in a respective heating circuit.

[0074] In this case, use is made of PID closed-loop controllers whose requirement for precise closed-loop control is guaranteed. However, the invention also considers meeting the objective of sufficiently accurate closed-loop control with concessions with the aid of a PI or P closed-loop controller. The fundamental character of the slow closed-loop press control is the delay time caused by the large mass of the body and the temperature to be controlled in a closed-loop manner.

[0075] In one exemplary embodiment of the invention, four closed-loop control circuits which operate according to the principle of on/off closed-loop control were created in a valve bank. Each closed-loop controller has its own software closed-loop control circuit. A subroutine in the closed-loop control program always selects the closed-loop control circuit having the greatest closed-loop control deviation. The PID closed-loop controller is connected to the selected closed-loop control circuit at the summation point in order to reduce temperature differences. This is carried out in the change of the heating circuits depending on requirements.