DE2840134C2 - Flow meter based on the positive displacement principle - Google Patents

Description

The invention relates to a flow meter according to the displacement principle with a displacer which can be moved more or less quickly as a function of the flow rate and controls a pulse generator according to its speed of movement for the delivery of measuring pulses with a pulse repetition frequency proportional to the flow rate.
Such flow meters are available in a wide variety of designs. However, their mode of action is the same and the measuring pulses emitted can be used directly for recording or calculating the flow rate.

These known flow meters are pure measuring devices

AS rate, which is used in a wide variety of systems, such as B. water consumption systems, heating systems or the like. To determine and calculate the water consumption or, taking into account the temperature of the flow medium and the heat consumption in the heating circuits.

A wide variety of switching and control valves are also known in such consumer circuits are looped in to continuously adjust the flow rate or to switch it off completely can. The setting of these known switching and control valves can be done manually or via separate Transducers, such as B. thermostats or the like., Are made automatically.

It is the object of the invention to provide a flow meter based on the displacement principle of the type mentioned at the beginning Kind to design so that it also has the function of a known switching or Control valve can run.

This is achieved according to the invention in that the displacer is additionally equipped with a controllable device is coupled to the optional braking and / or acceleration of the displacement movement to the To influence the flow rate.

In consumer circles who used to have a flow meter and a switching or control valve required, is now only the flow meter according to the invention necessary. This only makes the installation easier, the new flow meter is also cheaper to manufacture than a conventional flow meter and a separate switching or control valve.

If the flow meter according to the invention fulfills the function of a switching valve, then the Design so that the controllable device has two switching positions, in one switching position the displacement movement is fully released, while the displacement movement is in the second switch position is completely prevented.

When designing with the function of a control valve, it is provided that the controllable device the braking force and / or acceleration force acting on the displacer can be continuously changed is

In the case of simple consumer groups, an embodiment is sufficient that is characterized in that the ; controllable device is manually adjustable

An automatic influencing of the flow rate is made possible by the fact that the controllable Device is adjustable by means of control signals that can be tapped from a separate external transducer The flow rate then depends, as is required by many consumer groups, on one external measured value.

According to a further embodiment, however, it can also be provided that the controllable device by means of a switching programmer can be set according to a specified switching program. The flow rate can be specified with such a control over a predetermined period of time and after a Change the specified switching program.

A simple automatic setting of the device for decelerating and / or accelerating the Displacement movement is facilitated by the fact that the transducer or the switch programmer is electrical Emits control signals that are transmitted to an electromagnetically adjustable device for braking and / or accelerate the displacement movement.

The structural design of the flow meter according to the invention is according to an advantageous embodiment made so that the displacer is provided with a bearing shaft and that the device coupled to this bearing shaft for decelerating and / or accelerating the displacement movement is The device for decelerating and accelerating the displacement movement can thereby can be installed as an additional device without impairing the internal structure of the flow meter.

A particularly simple embodiment is characterized in that the device for Braking and / or accelerating the displacement movement has a permanent magnet which is non-rotatable is fixed on the bearing shaft, and between the poles of an electromagnet?;, with magnetic core and Coil executes rotary movements This device can thereby deliver electrical measuring pulses take advantage of the fact that when the coil is not energized, the permanent magnet in the coil inductive measurement pulses generated that can be tapped on the coil.

Another advantage of this device results from the fact that the measuring pulses are in addition to the charge an energy store can be used. This energy storage device can then be used in the event of a failure of the mains alternating current can be used to feed the measuring devices of the consumer circuit, etc.

With this flow meter designed in this way, the function of a switching valve can simply be achieved be realized that when the coil is energized, the magnetic field between the poles does not rotate the permanent magnet holds, stops the displacer and blocks the flow through the flow meter

A version of the flow meter, which is particularly suitable for realizing the function of a control valve suitable is, according to one embodiment, characterized in that the device for braking and / or acceleration of the displacement movement has a clutch disc that rotates with the Bearing shaft connected and rotatably mounted in a clutch housing that the clutch disc one Control disk is opposite, which by means of a pot magnet more or less to the clutch disk can be brought up, and that a brake and clutch means between the clutch disc and the control disc is arranged, depending on the set distance between the clutch disc and the Control disc brakes the rotary movement of the displacer more or less. As a braking and Magnetic powder is preferably used here as a coupling agent.

The invention is explained in more detail on the basis of various exemplary embodiments shown in the drawings explained it shows

F i g. 1 schematically shows a first embodiment of a flow meter with an electromagnetic one Device that makes the flow meter usable as a switching valve,

2 schematically shows a second embodiment a flow meter with the function of a control valve and

F i g. 3 schematically a consumer circuit with a flow meter according to the invention for detection and Regulation of the flow rate in this consumer circuit.

The flow meter according to the positive displacement principle is shown in FIG. 1 schematically only the housing OK and the displacer 11 is shown. The housing 10 is provided with an inlet and an outlet through which the Flow meter can be looped into a line. The one flowing through the flow meter Medium sets the rotatably mounted displacer 11 in rotary movements. The speed of the bearing shaft 13 of the displacer 11 depends on the flow rate and is proportional to this.

The bearing shaft 13 is mounted in the housing 10 via the bearing bush 12 and carries on the outer one End non-rotatably a permanent magnet 14. This permanent magnet 14 rotates between the poles 15 and 16 of an electromagnet which comprises the magnetic core 17 and the coil 18. When the The displacer 11 induces the permanent magnet 14 via the Magnetic core 17 measuring pulses in the coil 18, which are then tapped at the coil beginning 19 to ground can. The pulse repetition frequency of these measuring pulses is proportional to the speed of the permanent magnet 14 and thus the flow rate of the flow meter. These measuring pulses can be used to record the flow rate be exploited. At the same time, the measuring pulses can also be used to charge an energy store, z. B. a capacitor, an accumulator or the like.,

can be used to provide a backup power source for feeding the AC power failure To have measuring devices, etc.

The coil 18 of the electromagnet can be energized so that the magnetic field between the poles 15 and 16 the rotary movement of the permanent magnet 14 and thus of the displacer U stops. This becomes the Cut off the flow of the medium through the flow meter. The flow meter also has the Function of a switching valve taken over. The flow of the medium is when the excitation is switched off the coil 18 is released again.

Of course, the influencing can also be carried out in such a way that the size and the direction of the excitation current through the coil IS only a more or less large braking or acceleration force exerts on the permanent magnet 14. In this way, the flow rate of the medium can be continuous change, d. H. reduce or enlarge.

In the flow meter according to FIG. 2, the bearing shaft 13 of the displacer 11 drives a clutch disc 21 in a clutch housing 20. The clutch disk 21 has a control disk 22 opposite, which are raised and lowered by means of a magnetic piston 23 of a solenoid 24 can. The adjusting movement of the magnetic piston 23 depends on the size and direction of the excitation Solenoid 24 dependent. Magnetic powder 25 is located between the clutch disk 21 and the control disk 22 Introduced as a brake and clutch agent. Depending on the set distance between the clutch disc 21 and the control disk 22, a more or less large braking force is exerted on the displacer 11 and so the flow rate is throttled accordingly. This flow meter is therefore mainly suitable for Realization of the function of a control valve.

On the bearing shaft 13, a pulse generator 26 can be attached, which with each revolution of the Bearing shaft 13 emits a measuring pulse. This pulse generator 26 can mechanically be an electrical switch contact operate, but it can also be designed as a permanent magnet for the task of electrical or magnetic measuring pulses are used.

In Fig. 3 shows schematically a consumer circuit of a heating system. The warm heating water flows in via the supply line VL , into which the controllable flow meter sDM according to the invention is looped. A radiator AD represents the consumer from which the cooled heating water flows back to the boiler via the return line RL. Via a thermostat 77? is the temperature at the rsdistor

RD monitors, as the measuring input ME indicates. The control output STA of the thermostat Th is connected to the flow meter z. B. according to FIG. 1 connected. As long as the temperature generated by the radiator RD in the room has not reached the temperature specified on the thermostat Th , there is no control signal on the control output STA. The flow meter releases the flow of the heating water, the measuring pulses corresponding to the flow rate being picked up at the coil 18 and being used to record or calculate the amount of heating water consumed. If the thermostat Th, then it emits a control signal which energizes the coil 18 so that the permanent magnet 14 is held. The flow of heating water through the flow meter is therefore practically prevented. In this case, the flow meter performs the function of a switching valve.

As indicated in FIG. 3, a switching programmer SPG can also send control signals to the flow meter independently of external measured values. The control signals can be given the temporal course of the flow rate if a flow meter according to FIG. 2 are used and the control signals can be changed in size and direction.

It should be mentioned that the invention does not apply to the shown exemplary embodiments of flow meters with rotating displacer and the electromagnetic devices shown for braking and / or acceleration of the displacement movement is limited. The setting of the facility can can also be done manually and by mechanical means. The control signals can also removed from the other devices in a different way and the flow meter to influence the Flow rate are supplied. The controllable flow meter according to the invention can be in the Switch on various consumer circuits, always in addition to the delivery of the flow rate proportional measuring pulses take over the function of a switching or control valve and so in addition to the Influencing the flow rate can be exploited.

With the new flow meter, the flow rate is determined when the displacement movement is decelerated more or less reduced When the displacement movement is accelerated, the On the other hand, the flow rate is increased to a greater or lesser extent. The flow meter can be used as a pump works.

1 sheet of drawings.

Claims (14)

Patent claims: 1. Flow meter based on the positive displacement principle with a displacer that can be moved more or less quickly depending on the flow rate, which, according to its speed of movement, has a pulse generator for the delivery of measuring pulses controls with a pulse repetition frequency proportional to the flow rate, characterized in that that the displacer (11) is also optionally available with a controllable device Deceleration and / or acceleration of the displacement movement is coupled to the flow rate to influence. 2. Flow meter according to claim 1, characterized in that the controllable device has two Has switching positions, the displacement movement being complete in one switching position is released, while in the second position the displacement movement is fully ■ men is prevented. 3. Flow meter according to Anspurch 1, characterized in that the controllable device the braking force and / or acceleration force acting on the displacer (11) can be continuously changed is 4. Flow meter according to one of claims 1 to 3, characterized in that the controllable Device is manually adjustable 5. Flow meter according to one of claims 1 to 3, characterized in that the controllable device can be adjusted by means of control signals which can be tapped or emitted by a separate external transducer (ζ. Β. Thermostat Th) 6. Flow meter according to one of claims 1 to 3, characterized in that the controllable device is adjustable by means of a switching program generator (SPG) according to a predetermined switching program. 7. Flow meter according to claim 5 or 6, characterized in that the transducer (ζ. B. Thermostat Th) or the switching programmer (SPG) emits electrical control signals which act on an electromagnetically adjustable device for decelerating and / or accelerating the displacement movement. 8. Flow meter according to one of claims 1 to 7, characterized in that the displacer (11) is provided with a bearing shaft (13) and that the device for braking and / or acceleration the displacement movement is coupled to this bearing shaft 9. Flow meter according to claim 8, characterized in that the device for braking and / or acceleration of the displacement movement has a permanent magnet (14) which is fixed in a rotationally fixed manner on the bearing shaft (13), and between the poles (15, 16) of an electromagnet with magnetic core (17) and coil (18) executes rotary movements (FIG. 1). 10. Flow meter according to claim 9, characterized in that when the coil (18) is not energized, the Permanent magnet (14) in the coil (18) inductively generates measuring pulses which can be tapped on the coil are. 11. Flow meter according to claim 10, characterized in that the measuring pulses in addition to Charging of an energy store (e.g. a capacitor, an accumulator or similar) can be used are. IZ flow meter according to claim 9, characterized in that when the coil (18) is energized the Magnetic field between the poles (15, 16) holds the permanent magnet (14) non-rotatably, the The displacer (11) stops and blocks the flow through the flow meter 13. Flow meter according to claim 8, characterized in that the device for braking and / or acceleration of the displacement movement has a clutch disc (21) which rotatably connected to the bearing shaft (13) and rotatably mounted in a coupling housing (20), that the clutch disc (21) is opposed to a control disc (22), which by means of a pot magnet more or less can be brought up to the clutch disc (21), and that between the clutch disc (21) and the control disc (22) a brake and clutch means is arranged, which is dependent on the set distance between the clutch disc (21) and the control disc (22) the rotary movement of the displacer (11) brakes more or less (FIG. 2). 14. Flow meter according to claim 13, characterized in that as braking and clutch means Magnetic powder (25) is used