DE1923216A1 - Control device for fluid circuits - Google Patents

Description

Control device for fluid circuits In numerous technical Devices or devices.

In which fluids circulate in lines, it is often important either to measure or to know the flow rate or, if so, this flow rate changes beyond predetermined limits, an alarm or shutdown device trigger.

If If the fluid is used to dissipate heat (cooling device), there is also the requirement of temperature measurement in addition to this requirement to. In this case, the temperature and the flow rate are actually one another related: For example, a temperature increase in the water can indicate that either the device to be cooled is heated while the water flow rate is constant remains, or that the flow rate with constant heat dissipation of the to cooling device.

The corresponding control devices therefore generally have simultaneously on; - a device for controlling the temperature; - a device to control the flow rate.

The devices for measuring the flow rate are generally Space-consuming and sensitive, and elements in the fluid flow are necessary for their operation (Spirals, floats, ludions) inserted, which have a hydrodynamic drag generate in the cycle. In addition, there is a special orientation in all of Ludions required in terms of gravity.

After all, certain fluids are due to their physical properties Properties (impasto fluids, heterogeneous.

Fluids) or chemical properties (corrosive fluids de) the It is not possible to use known devices.

The present invention enables these to be eliminated ser disadvantages mentioned above.

It creates a device for a fluid circuit, which on a Line section of this circuit a first, to the temperature of the outer wall this section has appealing device, characterized in that it has a second device which is separate from the fluid and which has an action allowed to the temperature of said outer wall in a predetermined sense.

The addition of this second device enables the creation a thermal equilibrium with part of the amount of heat that it supplies (or discharges) through the fluid in the line discharged (or supplied) dies is the basic principle of various embodiments of the device according to the invention.

The invention is explained in more detail, for example, with the aid of the figures. FIG. 1 shows the arrangement of the basic device, and FIG. 2 shows an application this device to the temperature control of a fluid and FIG. 3 an application of the device on the measurement of flow rates.

In Figure 1, the channel 1 of the fluid circuit to be controlled is left go through a highly thermally conductive metal block 2, which, for example, made of copper or aluminum.

consists. In or in good thermal contact with this block one arranges an electrical resistance 3, which by means of the rheostat 5 controllable voltage source 4 is fed. Finally, it is preferable to arrange a temperature-sensitive one on the opposite side of the heating resistor Element 6, such as a thermometer, a bimetal strip or a contact thermometer, in good thermal contact with the block.

This device works in the following way: When there is continuous operation in the fluid circuit and a certain one, of course in a certain one If the current flows in the resistor at an interval of values, a state of equilibrium is established between the amount of electricity supplied by the electrical energy and that of the Fluid dissipated amount of heat. The Xetallblock assumes a stable equilibrium temperature which depends on the temperature of the fluid and its flow rate.

If one of these two greats remains firm, one feels that one is on this way, after calibration of the temperature measuring device, it has a device, which conveys a knowledge of the other greats.

A preferred method of operation is to have a temperature reading device with limits of the type of a maximum-minimum thermometer. This is in the Indeed, a procedure which exploited the counter-switching methods peculiar to the method Increase in sensitivity as well as a more convenient application.

this It is possible to set the rheostat 5 so that that, for example, the ar thermometer read at constant fluid flow rate Temperature within normal conditions, especially fluid temperature, in the vicinity of one in the maximum-minimum limits of this thermometer Value is held, which one can choose very narrowly, which makes it possible that the alarm device is triggered in the event of very small changes in temperature and the sensitivity the reading is increased.

A particularly fundamental case is provided by the device according to the invention solved: this is the case of an accidental shutdown of the fluid circuit. at the known devices that trigger an alarm, such as the fluid temperature increases, stalling of the fluid brings the thermometer to ambient temperature and the safety device does not respond.

According to the invention, the standstill of the fluid interrupts the discharge the amount of heat supplied by the heating resistor, the temperature of the metal block increases progressively and the safety device responds.

The tripping threshold can be regulated either by setting the Heat measuring element or preferably by adjusting the flowing in the resistance electric current.

FIG. 2 shows an embodiment of the device with a rule chain.

In the case of Figure 2, it is the temperature of a one To control fluids, which is intended to keep a device at a certain temperature to keep.

The amount of heat carried out by the fluid from the device 9 is over a heat exchanger 8 transferred to a primary fluid, which, for example, from comes from an urban supply network.

The temperature of the secondary fluid is controlled by regulation the flow rate of the primary fluid from the Neßblock 10 with the help of the heat-sensitive Bimetallic element 6, which eats here of the maximum-minimum type, of the electrical Voltage source 11 is fed and via relay 12 that on the primary fluid circuit arranged solenoid valve 7 controls.

The mean operating point can either be controlled by the heat-sensitive Element or selected by regulating the electric current flowing in the resistor will.

In this latter case, for example, the current through the thermosensitive Element can be controlled and the position of the regulating device can be the solenoid valve steer.

Figure 3 shows another embodiment of the invention, which for Measurement of flow rates is intended.

The line in which the fluid flows is of two blocks 2 and 2 12 surrounded. The first block 12 in the direction of flow of the fluid has none temperature resistance, but only a heat-sensitive element 13.

Of the The second block in the direction of flow of the fluid 2 is designed as in the device shown in FIG.

The heat-sensitive elements are, for example, thermocouples.

The first block gives an electrical signal el as a linear function the temperature of the fluid and regardless of the flow rate of the same.

The second block gives a simultaneously on the temperature of the fluid and electrical signal of the form e1 = e1 + related to its flow rate e ab where # 2 reports the part which is based on the stable thermal state The evaluation is based between the heating resistor and the fluid in motion of the two voltages ei and O2 through a.

Opposite circuit in a differential amplifier 14 is therefore a to #e proportional signal occur, which is independent of the temperature of the fluid and is only linked to its flow rate. You give this signal on Voltmeter 11, which is directly calibrated in terms of flow rates.

A particularly simple embodiment for evaluating the in the Temperatures measured on both metal blocks is the two thermocouples to switch directly against each other switch and after possible reinforcement evaluate the voltage received.

The invention is of course not limited to the ones shown and described Embodiments are limited and the person skilled in the art is able to make numerous changes to undertake.

For example, in the previous description, there are several a heat supply through an electrical resistor has been pointed out. It is however, it is clear that this process is to be understood in its broadest sense. In particular this heat can also be supplied by some other means, such as for example a liquid or a gas, which is an auxiliary line of the block 2 interspersed in Figure 1.

You can also replace the heating element with a cooling element, if the temperature range requires it, for example by a coolant, a device using the Peltier effect and the like.

Claims

Claims (8)

Claims 1. Control device for a fluid circuit, which on a line section of this circuit a first, to the temperature of the Outer wall of this section has an appealing device, characterized in that that it has a second device, separate from the fluid, which has an action on the temperature of said outer wall in a predetermined sense. 2. Apparatus according to claim 1, characterized in that the second Device from a conductive wire and a power supply to the same permitting electrical energy source exists. 3. Apparatus according to claim 1, characterized in that the second Device is a device that works with the Peltier effect. 4. Apparatus according to claim 1, characterized in that the second Device consisting of an auxiliary line, the wall of which is in contact with that of the called line, as well as from devices for circulating an auxiliary fluid consists in the same. 5. Apparatus according to claim 1, characterized in that the on the temperature-sensitive device consists of a bimetal strip. 6. device? according to claim 1, characterized in that the the temperature responsive device consists of a thermocouple. 7. The device according to claim 1, characterized in that it has a has auxiliary device responsive to temperature changes, which on a other point of the wall of said line and in thermal contact with the same is arranged and has measuring devices for temperature differences, which of the second device and the auxiliary device were measured. 8. Apparatus according to claim 7, characterized in that the measuring devices consist of a thermoelectric arrangement, the two pairs of bimetal each form the second device and the auxiliary device. L e r s e i t e