DE454847C - Device for electrically displaying or registering fluctuations in a liquid level or pressure fluctuations in a line by changing the impedance of one or more induction coils in the circuit of the display device by means of metallic bodies, the movement of which corresponds to the change in the liquid level - Google Patents

Description

Device for electrical display or registration of fluctuations in a liquid level or pressure fluctuations in a line due to change the impedance of one or more in the circuit of the display device Induction coils by means of metallic bodies, the movement of which changes the Corresponds to the liquid level. The invention relates to devices which electrically at any distance the fluctuations in the liquid level in a kettle or other container or changes in the flow a liquid through a pipe.

There are already devices of this type are known in which the electrical Indicates or records fluctuations in the liquid level or pressure fluctuations in the liquid line by changing the impedance of one or more of the circuit the display device located induction coils is effected. It's also beautiful known, the change in the impedance7 of the induction coils due to the change in position metallic bodies cause their movement to change the liquid level is equivalent to. The device geel device in äß i of the invention Z differs differs from the previously known devices of this type essentially in that the moving metal body is not magnetic and has the shape of a sleeve, which is arranged in the induction coil or around the induction coil. It it has been shown that the disadvantage of using magnetic bodies occurs that the device in the same position of the metal body opposite the induction coil shows different values depending on whether the metal body moved towards or away from the bobbin. This drawback becomes in the invention completely eliminated by using a non-magnetic metal body, so that in each case, regardless of the movement of the lethal body, an exact Display takes place.

The device according to the invention can be used for this at will be able to display or register movements at a certain distance to cause a piston moved by pressure changes in a line or movements a component of a device or the rotational movement of a shaft or a Ship rudder and the like, with the position of the shield corresponding to these Movements changed "= would have to be grounded.

If the device for displaying and registering the fluctuations the liquid level in a boiler, BFehäl-'er o. The like. Is used and There is only one coil, so you can use the non-magnetic metal sleeve have them operated by a swimmer or train you as a swimmer yourself, which one preferably is arranged in a room, which in connection with the liquid container stands so that the float opposite the coil accordingly : the falling and rising of the liquid level is moved and the corresponding Changes can be read on the display or registration instrument. These Instruments can be sized so that you can measure the amount of liquid in tons, liters or according to the height in meters or inches or in any other desired measure can read.

If the device is used to measure the flow in a pipe, As with the known liquid meters, it consists mainly of one U-shaped tube, whose two interconnected legs or Containers containing mercury or some other liquid and with the two sides a device creating a pressure difference in the line. With this arrangement, both or only one department of the U-shaped container with: an induction coil, and the non-magnetic metal shell can be in the shape of a swimmer. A department is waiting with the liquid one side of a retaining edge or the like inserted into the pipeline in connection, while the other compartment with: the liquid on the other side of this storage edge connected is.

The drawings show several exemplary embodiments of the Subject of the invention, namely: Fig. I a section through a device, which is preferably suitable when there are small fluctuations in a liquid medium to be displayed or recorded.

Fig.2 is a section through another embodiment, which is preferably Used when large fluctuations in the fluid level are displayed or recorded should be.

Fig. 3 is a partial step through one embodiment of a Device used to measure a flowing liquid: where a part of the section is shown on a reduced scale.

Fig. 4 is a diagram showing the electrical connections between of the device and the associated display or recording instrument, and Fig.5 shows a switching device to improve the zero position: of the instrument.

The device according to Fig. I is particularly for displaying changes Can be used in the water level of a steam boiler and the like. It consists of a chamber i, which through two nozzles 2 and 3 at the top and bottom with: the steam and the water space of a boiler not shown in the drawing stands. In the middle of the chamber extends over a larger or smaller Part of the length of a tube 4 made of any suitable material, e.g. B. off Bronze. The pipe q. has a hole, which is on or on both ° ends. can be open to the outside air, and which in the places where it passes through the chamber walls, is sealed. To this pipe 4. around is a float 5, which carries a metal sleeve 6, preferably in Shape of a copper pipe that fits easily around the pipe 4. so that it can be used for small Changes in the fluid level already respond.

In the bore of the tube 4 is an inhibiting coil 7, such that it is covered by the copper sleeve 6 when the float is in its lowest position as shown in Fig. i. The parts can, however, also be arranged in this way be that the coil 7 is covered by the sleeve 6 'when the liquid occupies its highest position. The liquid level in the chamber i is always be the same as the water level in the kettle, and the float 5 will as a result assume a position dependent on the water level at any moment. the Inhibitor coil 7 is therefore depending on: the position of the float more or less covered by the copper pipe 6, and the length of the uncovered coil 7 depends on the current level of the water level in the boiler. Terminals 8, on which .die ends of the escapement coil 7 are connected, are in a connection socket 9 and are powered by an AC or intermittent or pulsating DC power source tied together. Parallel to these terminals 8 is a display or registration device, z. B. a voltmeter switched. The instrument not shown in Fig. I can be set up at any distance from .the device itself. the Voltage on the two terminals 8 is adjusted according to the up and down movement of the float 5, which are caused by the change in the liquid level, change. The changes in the water level in chamber i and consequently also in that With a suitable calibration, the boiler can therefore use the voltmeter directly from this can be read. The calibration can be in inches, in part, or in any other system of measurement. The diameter of the escapement coil 7 is such that @ that they Drilling the bronze pipe 4 not completely filling in, so a Air flow through the tube can rise and cool the coil well. if it is desirable to display large changes in a liquid level or To register, the device can more expediently in the form shown in Fig Kind to be built. The device shown here consists of a foot part i o, which can consist of metal or some other suitable substance and mercury or some other suitable liquid i i contains, in which an iron pipe 12 so immersed that a small space between the lower end of the pipe-Lind the bottom of the chamber 13 formed in the foot is present. The tube 12 contains preferably at its upper end an inhibiting coil 14 .. From which the mercury i i is in the lower part of the tube 12 a float 15 is carried, which is attached to the escapement coil can slide up and down and so the voltage at the terminals 16 of the inhibitor coil in the previously described way changes. The clamps are in turn connected to a power source and connected to a display or registration device. That part of the room 13, which lies above the mercury surface, has a connection 17, through which a connection is established between the space 13 and the container whose content is to be measured. In general, the level of mercury will be in the chamber 13 and in the tube 12 will be the same, namely this state will be occur when. the container whose liquid level is to be measured is empty. But when this container is filled, the pressure on the surface of the mercury decreases as a result of the increasing height of the liquid in the container, so that the mercury in the tube 12 rises until the difference in the level of the Mercury inside and outside the. Tube through the column of liquid in the container is balanced. The mercury rising within the tube 12 takes the Schwiminer 15 with it, which now has the escapement coil 14. to a greater extent covers. The voltage at the terminals 16 is changed as a result, and it can can be read on the reading instrument not shown in the drawing, which in turn is based on any suitable system of measurement, e.g. B. by liters or tons or altimeters, can be calibrated.

When the device is used to measure a flowing current should be, the effective component can be seen in the manner shown in Fig.3 to be ordered. In this case the device consists of a main part 18, in which two chambers i g and ao are present, which are below at their lower end a partial wall 21 are in communication with one another. The chambers 19, 20 contain Mercury or other suitable liquid 22, the level of which is usually will be on the same level in both departments. The upper part of the chambers i9, 2o is set up so that a connection with the two sides of a storage edge 23 or a similar device which forms a pressure difference can. The retaining edge 23 is located in the pipeline 2.1, through which the to Measuring liquid or gas stream flows. The tube 24 and the retaining edge 23 are shown in the upper part of Fig. 3 on a smaller scale than the lower ones Parts. The space 19 is through a line 25 on one side of the storage edge 23 with, the pipe 2.1_ in connection, while the chamber 2o on the other side of the retaining edge 23 through a tube 26 with. the line 24 is in communication.

In one of the two chambers 1g and 20, for. B. in chamber 2o, an inhibiting coil 27 is provided, which is surrounded by a metal sleeve 28. Latter acts like a swimmer and is worn by the O_uecksilber in such a way that at the occurrence of a pressure difference on both sides of the in line 2.1. switched on Reservoir edge 23, the mercury in one chamber 20 will rise higher than in the other ig and here the metal sleeve 28 is moved so that it the inhibitor coil 27 more or less covers and in this way the tension at their poles and consequently also changes the other display instrument in the manner indicated above.

Of course, you can also provide two inhibiting coils, in each of them Chamber i9 and 20 one so that the change in impedance for any change the liquid level is reached twice. With this arrangement the sensitivity is the gate direction is larger because it responds to smaller fluid changes, than would otherwise be the case.

The sensitivity of the device can also be increased by using a sleeve, which consists of two or more concentrically arranged Pipes is made, if necessary above and below the annular Space between two adjacent pipes or between the inner and outer pipe can be closed alone. Thereby .the buoyancy of the assembled Rohres increased. The impedance is increased by using more than one Sleeve, and the particular way a sleeve makes a major change the electrical conditions of the circuit than can be achieved with a sleeve. the As a result, the measuring device also has smaller changes in the liquid level than would otherwise be the case.

FIG. 4 is a circuit which indicates the electrical connection between the active device, which is shown schematically here and is provided with the reference numeral 31, with the display or recording instrument 29 and the power source 30 . The circuit contains some resistance 32 until the inhibitor coil is turned on in series.

The effective device shown in Fig. 2 can also be used for others Purposes are used, e.g. B. to display the draft of a ship. In one In such cases two devices are used, one in front and the other rear. There can also be another device on both sides of the ship to indicate what position it is in.

If extra precision is required, it may be necessary a smaller change in the voltage and frequency of the electric current bring about. For this purpose, the circuit diagram shown in Fig. 4 can be used in can be modified in such a way that an auxiliary coil 33 is switched on in the circuit, which has an inductance of known value. Before reading the indicator, the switches 34 are switched to this auxiliary coil 33 and the reading is carried out. If the reading is above and below the known reading, which is present when the electrical power supply is correct, the fault will be noted and the subsequent reading with the coil 31 improved accordingly.

Claims (4)

PATENT CLAIMS: i. Device for electrical display or registration of fluctuations in a liquid level or of pressure fluctuations in one Line by changing the impedance of a. or more in the circuit of the display device located induction coils by means of metallic bodies, the movement of which the Corresponds to change in the liquid level, characterized in that the moving metallic body (6 or 15) is non-magnetic and has the shape of a sleeve, which are arranged in the induction coil or around the induction coil (7 or 14) is. 2. Apparatus according to claim i, characterized in that the induction coil (7) surrounding tube (4) at one or both ends for the purpose of cooling against the outside air is open and the sleeve (6) through a round to the tube (4) and the float (5) wrapped around the coil (7) is actuated. 3. Device according to Claim i, wherein the induction coil (14) is enclosed in a tube, which in an open, containing mercury or other liquid Immersed container, the mentioned container with the interior of the liquid container, whose fluid level is to be measured, is in communication, characterized in that, that the non-magnetic metal sleeve (15) has the shape of a float, which carried by the mercury (i i) and slide over the induction coil (14) can to thereby change the voltage at the terminals (16) of the coil, the various elements are arranged so that the liquid level to be measured balanced by the mercury difference inside and outside the tube (12) will. 4. Apparatus according to claim i for displaying the flow rate of a liquid through a pipeline which, with a device that creates a pressure difference, z. B. a baffle is provided, characterized in that within a Room (18) two communicating, with mercury or another suitable Fluid-filled compartments (19, 20) are present, which are on either side the device (23) creating the pressure difference with the liquid line (24) are connected, the rising or falling of the liquid in the communicating Chambers (i9, 2o) one or more magnetic metal sleeves (28), which are in the liquid swim, move opposite the induction coil (27) and in this way its inductance and accordingly also change the voltage on their terminals, with the different Elements like this. are arranged that the pressure difference created by flowing through a liquid to be measured or a gas to be measured in the line (24) arises from the difference in the liquid level in the two chambers (i9, 2o) is balanced.