DE1959801C - Liquid level indicator - Google Patents

Description

959 801

The invention relates to a liquid cell that is very large and a high level indicator in which the level of the liquid has electrical power requirements. is displayed by means of an electrical signal, which The invention is based on the object of providing a signal for immersion in the liquid of a liquid level indicator of the input! » mentioned * ί a heating device hexed thermistor generates S design to further develop that when using _r becomes. of a small, tightly built, resilient,

There are various types of cheap and easy to manufacture electrical thermistors Liquid level indicators for various purposes, extended display area under continuous known, which have the advantage that the display of the liquid level is made possible, device removed from the liquid container, the 10 of which has a low electrical power requirement. ?! Fluid levels are displayed as necessary, arranged as necessary and only less can be judged through use. Such FlUsslgkeitsstandatueiger movable parts Difficulties due to declining z. B. to display the liquid content in uses are essentially reduced. / a fuel tank of a motor vehicle. 15 triggers that the thermistor is made as an elongated element

In one type of construction, a thermistor is used as a transmitter, which can be pivoted about an axis and which works on the principle that a float is arranged in such a way that the a liquid immersed thermistor has a different longitudinal section of the thermal conductivity immersed in the liquid than in the non-immersed transistor depending on the level of the liquid in the stand in which the cooling effect of the liquid is for- ao container.

falls. That way, any wear and tear that occurs with

Here it is known a number of thermo-potentiometers are excluded and inevitable To arrange mistors in a fixed arrangement to the container in a continuous display with a small difference in level, which, however, achieves mistor, which has a low power requirement it only has a step-by-step display of the water level.

can be enough. In a further embodiment of the invention is

In another known design, it is seen that a counterweight is a variable one Numerous thermistor is used, which is perpendicular to the load in an upward direction on the float extends and exerts the height of the liquid container. This changes the swimmer himself its resistance to the extent to which the 30 depth of immersion in the liquid corresponds to the Thermistor is immersed in the liquid, from the level of the liquid in the container. Through his is pending. This thermistor is equipped with an elec- tric swiveling suspension that changes the float Irish indicator, allowing the thermistor to be immersed in the with a continuous display of changes in fluid depending on the immersion depth of the the liquid level. 35 floats.

The only thermistor must, however, since it has one embodiment of the thermistor

Semicircular shape over the entire height of the liquid container. In another execution route must be relatively large and required approximate form, it is provided that the thermistor from hence a relatively large electrical line. 40 does not exist.

It is also known to display liquid. In a preferred embodiment, there is a

to use a float who is seen with the thermistor from one moving over Moving liquid level in the liquid container. The core extending its length consists with which The float can be pivotably mounted in the liquid on a longitudinal surface, a covering made of a thermistor container and connected to a variable material on which two one-on-one resistance or potentiometers are connected, and one that is separate and extending in the longitudinal direction where swimmers are arranged depending on changes in the ladder and on this surface Liquid level different resistance values opposite surface of the core is an in Selecting a heater vortiometer extending on the variable resistance or pot lengthwise direction viewed in an electrical display 50.

lie in a circle. The known types with swimming In the drawing are exemplary embodiments of

mern and variable resistances or potentiometer liquid level indicators according to the invention dartiometers are not only involved in the structure, but rather. In the drawing is the also have the disadvantage that wear and tear on the F i g. 1 a schematic sectioned side

Potentiometer unavoidable during operation 55 looks at a liquid level indicator, are. In the aforementioned encoders with thermistors F i g. 2 is a sectional side view of another

such wear problems do not exist. In the case of another embodiment,

However, two examples of their use have hitherto been shown. 3 is an enlarged view of the encoder of FIG

to accept partial limitations. Used device according to FIG. 2,

if small thermistors are used, a continuous 60 Fig. 4 is a section along the line 4-4 in Fig. 3, nual measurement of the level in the liquid fi g. 5 is a view in the direction of arrows 5-5 in FIG

container cannot be reached, but only a stepped F i g. 4 seen

wise measurement, with a finely graded measurement a F i g. 6 a graph of the characteristics of a thermal

considerable additional work due to the required mistor material, which is used in the encoder requires a large number of thermistors. At the 65 and

Turn of only one thermistor, which has a continuous- F i g. 7 a schematic circuit diagram of the display

Liche display of the liquid level in the tank circle of the system according to Fi g. 1. possible, the disadvantage must be accepted. A liquid container 12 is a liquid

1 959 601 3

Level indicator 10 assigned, which results in a transmitter 14 and mistors 20 in the liquid by the

a Meäkreie 16 comprises. In the design bowl, the cooling effect of the liquid greeted a

lat the liquid carbon level indicator to display the speaking increase in the resistance of the thermal

Fuel contents of a fuel tank eints mistors 20, so that the current through the display device Motor vehicle determined. 9 30 is reduced to the lowest value when the

The transmitter 14 is completely immersed in the liquid in the liquid container 12, the thermistor 20 and consists of a float 18 ″ which is immersed. The display device 30 is calibrated so that a thermistor 20 and a heating resistor 22, with the smallest current flowing through them in the illustration in F1 g. 1 by the therm it is shown that the liquid container 12 according to 20 is covered. Is filled in io to be described.

Thus, the resistance of the thermistor 20 changes. An accurate reading on the display device 30 will be

depending on the amount of liquid that In achieves by the fact that the submerged part of the thermo

the liquid container 12 is present. These mistors 20 in direct proportion to the liquid

Changes in resistance are dependent on the measurement level. This can be done through appropriate display

circle 16 detected, which is calibrated to the liquid 15 and balancing of the float 18 and his

display level in the liquid container 12. In the counterweight 28 are effected. The unit

Exemplary play 1st the swimmer 18 has a weight and dimensions of the swimmer 18 and Pin 26 mounted on a support 24, which with that of the counterweight 28 are chosen so that the Container 12 is half immersed in the liquid, for example by welding, float 18,

bunde η is. The float 18 carries a counter-ao when the liquid container 12 is halfway; with flU

weight28, the purpose of which will be explained later. When liquid is filled. The thermistor 20 is on the

the embodiment according to FIG. 1 has attached the Ther-Schwimmer 18 so that it is halfway in

mistor 20 semicircular shape and is with which the liquid is submerged when the float

Float 18 connected so that it is partially immersed in the 18 half in the liquid. There- Liquid of the liquid container 12 is immersed as after causes the symmetrical arrangement of the thermostat

is. The special type of attachment of the thermistor 20 that it is in direct dependence on the

Mistors 20 on float 18 itself is not critical, liquid level is immersed in the liquid.

this can be done, for example, by a suitable A modified embodiment of the liquid

Adhesive done. The ability level indicator 10 is shown in FIG. 2 to 5 shown. The measuring circuit 16 includes a display device 30 and 30. In this case the thermistor 20 'is in the form of a

a battery 32. The display device 30 is a conventional right angle of two perpendicular to each other

Fuel clock as used in motor vehicles standing legs. The thermistor formed in this way

is, and is calibrated in volume units. The 20 'works in the same way as the semicircular

Battery 32 is a circuit through the indicator-shaped thermistor 20 of the first embodiment,

30 through a conductor 34, which is through an insulating sleeve 35 d. that is, the thermistor 20 'is immersed in the liquid in

36 is guided into the liquid container 12, the direct ratio to the liquid level in the

Thermistor 20, a conductor 38 to support 24 is formed. Liquid container 12 is immersed in this. This The support 24 lies above the liquid container 12 is immersed by lifting and pivoting

in bulk. A second current path leads from the battery to the float 18 under the influence of the itself

rie 32 through a conductor 40, which by means of an insulating 40 causes changing liquid level,

sleeve 42 is guided into the liquid container 12, as shown in FIG. 4 shows the thermistor 20 'is composed of

the heating resistor 22 and the conductor 38 to a core 44 and a covering attached to it

Support 24. 46, two ladders 48 and 50 resting on deck 46 If the liquid level is arranged in the liquid container, and the heating resistor 22. The

ter 12 is very low, so is the largest part 45 core 44 must be designed so that it is slimmer

of thermistor 20 above the liquid. The shape is rigid enough and is thermally conductive as well

Heating resistor 22 and the current through the thermometer its surface is electrically insulating. For the

mistor 20 increase the temperature of the thermistor. Core 44, nickel can be used. Will nickel

This heating effect is used in the immersed part for the core 44, so a nickel oxide

of the thermistor 20 the cooling effect of the liquid 50 coating 52 formed by oxidation around the core

opposite. When the liquid level is low, the 44 must be electrically insulated.

the position of the float 18 in the dash-dot The coating 46 consists of a thermistor-adjusted position in FIG. 1 is only a substance that is placed on the one surface of the core 44 on a small part of the thermistor 20 in the liquid. The usual technique of immersed so that most of the thermistor 20 55 printed circuit board such as the sieve becomes a high temperature. As the thermistor printing process, used to make the covering 46 20 to be fastened to the core 44 in the exemplary embodiment made of a material. The thermistor works, which has a negative temperature coefficient for the lining 46, can be positive or negative, it provides a tive drag coefficient at low fuel levels. One material small resistance, which is in series with the an 60 with negative drag coefficient by the pointing device 30 is located. The large current in the display device curve in FIG. 6 shown. A suitable Ther-30 causes a display on the display device 30 that the material for the covering 46 consists of the same the liquid container 12 is almost empty. Molar amounts of manganese oxide, cobalt oxide and

If the liquid level rises in the zinc oxide liquid container. Usual thermistor materials can 12, the float 18 rises and enters the 65 to be used; for example, in the fully extended position, whereby the extent of the above-mentioned material zinc oxide can be replaced by nickel immersion of the thermistor 20 in the liquid oxide or copper oxide, is enlarged. The increased immersion of the Ther- In F i g. 6 is the resistance versus temperature

i 959 8Oi

applied. Two temperatures T ₁ and T ₂ are shown with dashed lines. Temperatures below T ₁ and temperatures above T ₂ do not significantly affect the resistance of the thermistor material

The heating resistor 22 is arranged on the opposite surface of the core 44 in a thermally conductive connection with the covering 46. The electric current flowing through the heating resistor 22 causes the coating 46 to be heated. This heating causes the temperature of the coating 46 in the part that is not immersed in the liquid to rise above temperature T ₂ , during which it is immersed in the liquid remaining part of the coating 46, as a result of the cooling of the liquid, maintains a temperature below T 1. This heating could also take place in another way, but resistance heating is advantageous because it ensures a compact structure and an effective mode of operation. ao

If the heating resistor 22 receives current, the resistance of the covering 46 between the conductors 48 and 50 corresponds approximately to the resistance of the covering 46 at a temperature above T _t . This is the case because the resistance of the lining 46 at temperatures above T _{2 is} considerably lower than at temperatures below T ₁ . As with all resistors, the actual resistance depends on its length, in this case on the length of the thermistor 20 'which is not immersed in the liquid. Since the resistance of the lining 46 increases as its non-immersed portion decreases, the resistance of the lining 46 is directly proportional to the length of the portion of the lining 46 immersed in the liquid. Other influences that determine the resistance of the lining 46 such as width and thickness , are either constants or can be neglected in terms of their effect.

Figures 3 and 5 show the connections of the thermistor 20 '. The conductor 48 is connected to the display device 30 via a terminal 54 and the conductor 50 via a terminal 56 to ground. As a result, the resistance formed by the coating 46 is placed between the display device 30 and ground. The heating resistor 22 is connected to the battery 32 via a terminal 58 and to ground via the terminal 56.

Fig. 7 shows schematically the liquid level indicator 10 '. The display device in this case consists of two coils 60 and 62. The current through the coil 60 and thus the display of the display device depends on the resistance of the coating 46, which is directly proportional to the liquid level in the liquid container 12. For each liquid level in the liquid container 12 there is a corresponding amount of immersion of the thermistor 20 'and thus a corresponding resistance of the coating 46, and since the resistance of the coating 46 determines the display of the display device 30, an indication of the liquid level is hereby created when that Display device is calibrated in liquid units.

Claims (5)

Patent claims: 1. Liquid level indicator, in which the level of the liquid by means of an electrical Signal is indicated by the immersion in the liquid of one of a heating device heated thermistor is generated, thereby characterized in that the thermistor (20) is formed as an elongated element on one around an axis (26) pivotably mounted float (18) is arranged such that the into the Liquid immersed length of the thermistor depending on the level of the liquid is in the container (12). 2. Liquid level indicator according to claim 1, characterized in that a counterweight (28) exerts a variable load in the upward direction on the float (18). 3. Liquid level indicator according to claim 1 or 2, characterized in that the thermistor (2 ©) has a semicircular shape. 4. Liquid level indicator according to claim 1 or 2, characterized in that the thermistor (24) ') consists of two legs at right angles to one another. 5. Liquid level indicator according to one of claims 3 and 4, characterized in that the thermistor (20, 20 ') consists of a core (44) with one longitudinal surface of which a covering (46) made of a thermistor material is connected, on which two of each other separate, longitudinally extending conductors (48, 50) are arranged, and a heating device (22) extending in the longitudinal direction is provided on the surface of the core opposite this surface. 1 sheet of drawings