DE2718868A1 - Liquid or gas pressure regulating system - uses measurement of power absorbed by compressor motor to indicate instantaneous pressure of fluid - Google Patents

Abstract

The system is designed to regulate non atmospheric pressures which are created or maintained by at least a motor (7) driven pump (3). The system has a device for controlling the pumps motor, and a circuit which automatically measures the load (absorbed power) of the pump motor during its operation. The load measurement is used for indirect measurement of the instantaneous pressure state in a pressure container (1). The system has a valve which is designed to limit the pressure difference from atmospheric. This valve is actuated by the load measuring circuit. A further circuit is used to stop the pump by mechanical or electrical decoupling of the motor from the pump.

Description

DESCRIPTION: Pressure regulating device

The invention relates to a device for controlling the produced or maintained by at least one powered pump, Pressure deviating from atmospheric pressure in a vessel or vascular system for gaseous and / or liquid media.

In the numerous already known devices of the above designated type such as pressure or suction air generation systems, hydraulic Brake systems for vehicles, etc. has hitherto generally been the use of membrane pressure switches and controls are common. These have a relatively large space requirement and require especially if a high response accuracy is required, a corresponding one Expense.

The invention is based on the object of a control of the pump drive in the case of an establishment of the type mentioned at the beginning by others, with less effort connected, but at least the same requirements in terms of accuracy to enable sufficient means of response, adjustability and functional reliability.

According to the invention, this task is achieved by the load (power consumption) of the pump drive while the pump is running as an indirect measure for the respective Pressure state in the Gef.5E or vascular system automatically measuring Device for controlling the pump drive solved.

To the deviation of the pressure from atmospheric pressure not over a To let the predetermined value increase, can by the load measuring device a pressure limiting valve provided on the vessel or vascular system can be actuated. Another means for the same purpose can be to stop the pump by switching off or uncoupling the pump drive device is provided be that by the load measuring device at a certain measured value is operated.

The used for the automatic measurement of the load on the pump, for controlling the pump drive device can be based on many principles work. A number of exemplary embodiments are the subject of the subclaims. An electrical variable (e.g. current, voltage, frequency or Phase) supplied by the device as a control variable.

The pump can be any of a rotating electrical machine Type driven pump or, for example, one by an electromagnet driven diaphragm pump or one of a prime mover completely different Type e.g. a diesel engine or another Internal combustion engine be driven pump. In any case, the pump drive is possible with the help of the available, as a rule electrical control variable in a manner known per se, directly or indirectly controllable.

Which is an indirect measure of the pressure in the vascular or vascular system The load on the pump can also be performed using an in addition to a main pump arranged smaller auxiliary pump with a special drive can be measured. Also a The measured value obtained from such an auxiliary pump or its drive represents an indirect one Measure of the pressure state in the vessel. As such a small auxiliary pump on the pressure state has relatively little influence, it can also at standstill the main pump is left lukewarm, so that the measurement of its load Regardless of the operating status of the main pump, one as a control and / or display variable suitable indirect measured value for the pressure state in the vessel or

Vascular system supplies.

The invention is exemplified below with reference to the drawing explained in more detail.

It shows schematically and in a simplified representation Fig. 1 the Principle of an exemplary embodiment of a device according to the invention, in which the Pump each time a specified limit value is reached the pressure in the vessel is turned off; 2 shows a device with a pressure limiting valve, which is actuatable by the load measuring device; 3 shows an example of a circuit for controlling a vibrating armature pump by one on the field coil as a measure for whose power consumption tapped electrical control variable and with display of the Pressure conditions during pumping operation; 4 shows an example of the recovery the load-dependent speed change of an electrical one driving a pump Universal motor; Fig. 5 shows an example of the use of one on the shaft rotating electric drive machine of the pump arranged alternating current or Pulse generator as a transducer to determine the phase lag of the prime mover compared to the mains phase as a measure of the load on the pump; Fig. 6 shows an example an embodiment with an additional auxiliary pump.

In the schematic representation in FIG. 1, it may be, for example be a compressed air system. In the vessel 1, which on the one hand via a line 2 is connected to an air pump 3 with suction port 4 and on the other hand Via a line socket 5, in which there is a shut-off element 6, consumers can be connected, a specified overpressure should be maintained. For this purpose, the pump 3 is coupled to a drive 7, for example an electric one Drive connected via a line 8 to a control logic 9 and via a line 10 is connected to a device 11 for measuring its power consumption, which a measure of the load on the pump and thus of the during operation of the pump represents the pressure prevailing in the vessel 1. The device 11 can be via a line 12 be connected to a display device 13, which are calibrated in pressure values can. The device 11 is also connected to the control logic 9 via a line 14 connected to which, in turn, a switch 16 is connected via a line 15, the arbitrary or automatically, e.g. time-dependent (periodically) for the purpose of starting of the pump drive can be operated.

The shutdown of the pump drive takes place by means of the control logic depending on the achievement of a certain value of the power consumption, which by means of the device is measured.

FIG. 2 shows an embodiment that is somewhat modified compared to FIG. 1, in which the control logic 9 via a line 24 with a pressure limiting valve to be controlled by it 25 is connected. To start up the pump 3, there is a switching device here 26 is provided for the arbitrary or automatic activation of the pump drive 7 serves. The pump drive 7 can in this embodiment without interruption run through during the entire operating time, while that of the control logic 9 depending on the power consumption of the pump drive and thus the Load on the pump measuring device 11 controls the pressure relief valve 25 so, that a predetermined pressure limit deviation from atmospheric pressure is not exceeded will.

In the circuit diagram of FIG. 3, an alternating current source is used 27, the solenoid 28 of the pump, which is designed as a vibrating armature pump, is a device fed according to the invention. A line leads from a tap 28 'of the solenoid to a threshold switch 29, which on the one hand has a display device 13 and on the other hand a control logic 9 controls. The control logic 9 is used to input a line 30 to control controllable electric valve 31, e.g.

can be a transistor, thyristor, triac or a relay.

The control logic 9 is also provided with a timer 32 with reset connected via a reset line 35. This Timer can be a Threshold switch with resistor-capacitor network for determining the time interval or a frequency divider that is generated by a counting pulse from the AC network is actuatable.

In the circuit according to FIG. 4, a direct or alternating current source is used 41 a universal motor 42 driving the pump is operated in its drive circuit again, as in FIG. 3, a controllable electrical valve 31 is located. With the universal motor 42, a speed sensor 43 is connected, which influences the control logic 9, which in turn controls the controllable electrical valve 31 via a line 45. Here, too, the control logic 9 is connected to a timer 32, which is connected to a reset line 33 is additionally provided. By entering the "pump off signal" on the reset input of the, for example, designed as an integrated timer circuit The timer that switches the pump on at the time it is switched off becomes the timer the pump is reset so that the time interval is repeated at this point in time starts and lasts until the pump is switched on again.

According to FIG. 5, an alternating current network 50 becomes a rotating electrical system Drive machine 51 operated the pump, in whose circuit in turn a controllable electrical valve 31 is located, which is controlled by a control logic 9, which with a timer 35 with or without reset can be connected. the Control logic 9 is arranged here by one on the shaft of the drive machine 51 AC or pulse generator 52 influenced via a phase comparison stage 53, which is the phase lag of the prime mover compared to the mains phase as a measure determined for the load on the pump. The phase comparator 53 may, for example, be a Be a threshold switch, the supply voltage of which is the mains voltage or a part of this and that generated by the alternating current or pulse generator 52 AC voltages or pulses is controlled.

The compressed air system according to FIG. 6 is the same as with those previously described Plant a vessel 1 on the one hand via a line 2 with an air pump 3 with suction nozzle 4 connected, while on the other hand via a pipe socket 5, in which there is a shut-off device 6 is located, consumers can be connected. The pump 3 is with a drive 7 coupled. In the embodiment described here, there is an additional Line 60 to the vessel 1 is an additional small auxiliary pump 61 with suction nozzle 62 connected. The auxiliary pump 61 is provided with a pump drive 63, the relatively low performance here as an indirect measure of the respective pressure state the vessel 1 measured automatically by a device 64 and used to control the Drive 7 of the main pump 3 is used.

While the pump 3 only runs temporarily, the drive 63 of the small Auxiliary pump 61 run continuously. One to which the load of the auxiliary pump 61 constantly Measuring device 64 connected display device 65 can therefore in pressure values calibrated, serve to constantly display the pressure prevailing in the vessel 1. 66 is a control logic influenced by the device 64, which is used to control the The main pump 3 is operated via its drive 7, with which it is connected via a line 67 is connected. This takes place as a function of the data provided by the device 64 measured load of the auxiliary pump 61. This control can be intermittent or but also steadily, in that the main pump 3 is operated faster or slower, happen. 68 is a signal generator which is also used to influence the control logic 66 or switch that may be provided to intermittently or operate the auxiliary pump to control in continuous operation.

Limit the possibilities for using and carrying out the invention does not apply to the details described and illustrated here in detail. In this way, in particular in the vessel 1, negative pressure can also be maintained instead of overpressure will. There are also devices for measuring the load other than those described (Power consumption) of the pump drive while the pump is running as indirect Measure for the respective pressure state in the vessel or vascular system conceivable, for example Arrangements of magnetic probes in the area of the magnetic field of a electric pump drive that is not directly connected to the pump drive need to be. These include e.g. Hall generators, Hall field probes, magnetic controllable resistors (field plates), coils with a magnetic core and in general Coils with or without a core. It has been found that such arrangements are very sensitive on load-dependent and thus as an indirect measure of the pressure state in the vessel suitable changes in the magnetic fields of electric pump drives, in particular with oscillating armature pumps, react.

Claims (21)

Device for regulating the of at least one powered pump produced or maintained at atmospheric pressure different pressure in a vessel or vascular system for gaseous and / or liquid Media, characterized by the load (power consumption) of the pump drive while the pump is running as an indirect measure for the respective pressure state in The device for controlling the pump drive that measures the vessel or vascular system automatically. 2. Device according to claim 1, characterized in that a provided on the vessel or vascular system pressure relief valve through which the load measuring device is operable. 3. Device according to claim 1 or 2, characterized in that one to stop the pump by switching off or uncoupling the pump drive Serving device can be actuated by the device measuring the load. II. Device according to one of claims 1 to 3 with electrical Power drive of the pump, characterized in that the load measuring Device an in Dependence on the voltage drop across a ohmic, inductive, capacitive or temperature or voltage-dependent resistance or a combination this type of resistance is working device. 5. Device according to one of claims 1 to 3 with a pump drive serving rotating electrical machine, characterized in that the Load measuring device a measuring the speed change of the machine Device is. 6. Device according to one of claims 1 to 3 with a pump drive serving electrical asynchronous machine, characterized in that the load measuring device a device measuring the change in the slip value of the machine is. 7. Device according to one of claims 1 to 3 with a pump drive Serving electrical synchronous machine, characterized in that the load measuring device a device measuring the change in the load angle of the machine is. 8. Device according to one of claims 1 to 3 or. 6 or. 7, characterized marked that the the power consumption measuring device controlled as a function of the (phase) lag angle change of the machine is. 9. Device according to one of claims 1 to 4, characterized in that that a transductor or magnetic amplifier as an inductive resistor in the circuit the electric drive of the pump is arranged, the voltage drop the one Function of the load representing the measured value. 10. Device according to one of claims 1 to 4, characterized in that that in the circuit of the electric drive of the pump the primary winding of a transformer (or autotransformer) provided as an inductive resistor is arranged, on whose secondary winding (resp. Partial winding in an autotransformer) which is a function of the load forming variable (current or voltage) is tapped as a measured value. 11. Device according to one of claims 1 to 4, characterized in that that the voltage drop across the inductance, which is a function of the load or the inductances of the electric drive of the pump or the voltage drop forms the measured value on parts of it. 12. Device according to one of claims 1 to 11, characterized in that that at least one of the inductances of the electric drive of the pump as Transformer (or autotransformer) is formed on its secondary winding (or partial winding in an autotransformer) serving as a measured value, a function the electrical quantity representing the load is tapped. 13. Device according to one of claims 1 to 12, characterized by one or more arranged in the circuit of the electric drive of the pump controllable or non-controllable rectifiers, the latter in conjunction with one transistor used for control. 14. Device according to one of claims 1 to 13, characterized in that that a timer that switches on the pump as one of the operating AC voltage the pump drive synchronized frequency divider or decade counter formed is. 15. Device according to one of claims 1 to 14, characterized in that that a timer that switches on the pump at the time the pump is switched off is reset (for example by entering the "pump off signal" on the reset input of an integrated timer circuit), so that in each case to this Time the time interval of the timer begins again and continues until the next turn on the pump lasts. 16. Device according to one of claims 1 to 15, characterized in that that in addition to a main pump, an additional, smaller auxiliary pump with a special Drive is connected to the vascular system or vascular system and that the measurement of the Load only takes place on the auxiliary pump or its drive. 17. Device according to claim 16 or one of the preceding, characterized marked that the auxiliary pump is constantly running, so that the measurement of its load a continuous, independent of the operating status of the main pump, as a control and / or display variable supplies a suitable measured value. 18. Device according to one of claims 16 or 47, characterized in that the automatic Measurement of the load, the variable forming the measured value obtained by controlling different response thresholds downstream threshold switches is used both for switching the drive of the main pump on and off. 19. Device according to claim 1, characterized in that a electrical display or recorder to one of the load on the pump drive dependent device delivering measured value is connected. 20. Device according to one of claims 1 to 4, characterized in that that when using a rotating electrical AC machine as a pump drive the change in their phase lag angle against the line voltage as a measure is used for the load on the pump. 21. Device according to one of claims 1 to 4 with a pump drive serving electrical machine, characterized in that the load A device (power consumption) measuring the change of the magnet or magnetic materials of the stationary and / or moving parts of the pump drive generated or influenced magnetic field measuring device.