RU1775612C - Device for measuring the level of oil products and water in storage containers - Google Patents

Abstract

Usage: fluid level domain. SUMMARY OF THE INVENTION: both layers of tape 6 in the initial state of the same length are the same; when they are wound on a coil, the inner layer is shifted relative to the outer layer, then a compensator 13 made of elastic material is turned on. 2 ill.

Description

The invention relates to the determination of liquid levels, mainly oil products and water in containers for storage.

A device for measuring the level of oil products and water in storage tanks is known, consisting of a constant level indicator and a serially connected power supply with a grounded terminal, an amplifier light indicator and a sensor containing a measuring ruler, and the sensor is made in the form of a hollow metal housing communicating with the external environment in its upper and lower parts, in which a float with a magnet, mounted for movement inside the housing, and a magnetically controlled contact, are located just connected to the housing, fixed to a measuring ruler made in the form of a flexible tape, with two insulated conductive layers, the input of the amplifier through the first conductive layer connected to the housing, the grounded terminal of the power supply through the second conductive layer connected to the first

the terminal of the magnetically controlled contact, the second (/} swarm terminal of which is connected to the housing.

A disadvantage of the known device is the low reliability of the conductive layer of a layer reinforced with a measuring tape. When the tape is wound around the coil, the inner layer of the tape undergoes deformation in connection with the different diameters of each layer when the tape is placed on the N coil, which leads to the appearance of micro- (JT | cracks and loss of conductivity of the layer. Qs

The aim of the invention is higher. reliability of the device and the manufacturing technology of measuring tape

This goal is achieved by the fact that "w in the device for measuring the level of oil products and water in storage tanks, consisting of a constant level indicator and series-connected power supply with a grounded terminal, a light indicator, an amplifier and a sensor containing a measuring line, wherein the sensor is made in the form of a hollow metal casing, communicating with the external environment in its upper and lower parts, in which a float with a magnet, mounted to move inside the casing, is located a, and a magnetically controlled contact, rigidly connected to the housing fixed to the measuring ruler, made in the form of a flexible tape with two insulated conductive layers, the input of the amplifier through the first conductive layer connected to the housing, the grounded source terminal through the second conductive layer is connected to the first terminal of the magnetically controlled contact, the second terminal of which is connected to the housing, the conductive layers of the measuring line are movable relative to one another, and the device further comprises mpensator length, the inner belt layer is connected to the compensator, connected to the sensor housing.

The claimed technical solution is characterized in that the conductive layers of the measuring tape are made movable relative to each other, and the device further comprises a length compensator, wherein the inner conductive layer of the tape is connected to a length compensator connected to the sensor body via a compensator.

The difference between the claimed solution and the prototype proves compliance with the novelty criterion.

The features distinguishing the claimed device from the prototype are not found in the known technical solutions, therefore, it meets the criteria of the invention with significant differences.

In FIG. 1 schematically shows an apparatus for measuring the level of oil products and water in storage tanks; in FIG. 2 is an example of a design of a compensator.

The device consists of a housing 1, in which there is a float 2 with a permanent magnet 3, a magnetically controlled permanently open contact 4, a dielectric 5, a measuring tape with a conductive base layer bis isolated by a second conductive layer 7, an amplifier of electrical signals 8 , a light indicator 9, a power supply 10, a storage tank 11, and a constant level indicator 12 and a length compensator 13.

A float 2 with a permanent magnet 3 is located in the housing 1. A magnetically controlled permanent open contact A is connected to the housing 1 on the one hand and insulated from the housing 1 on the other and connected to the conductive layer 7 isolated from the base 6 of the measuring tape. The input of the amplifier 8 is connected to the base of the measuring tape 6. The output of the amplifier 8 through the indicator light 9

and a power unit 10 is connected to the mass of the tank 11 and a conductive insulated layer of the measuring tape 7.

The device operates as follows. In the initial state, the float 2 is in the lower position (see Fig.). When the housing 1 is immersed in the fuel, the float 2 with a permanent magnet 3 pops up and closes the magnetically controlled contact A, the indicator light 9 of the device lights up. This indicates the fuel level in the tank, which is marked on the measuring tape by a special indicator 12, located at a constant height A. Height A for

5 of a specific container is determined by special measurement, for example, with a mat stock, the level of mark A is selected on a special plate, each attached to the indicator 12.

0 The desired level is calculated by the formula

Un A - (a + k), where A is the constant of capacity, mm;

a - reading of measuring tape, mm;

5 to - the constant device, mm

The determination of the water level in the tank is carried out in the following sequence. With further immersion of the housing 1, the float 2 with a permanent magnet

0 3 rises to the upper position (not shown in the drawing). The magnetically controlled contact opens and LED 9 goes out. As soon as the end of the housing 1 touches water and since the conductivity of water is higher than that of oil products 5, the second electric circuit closes: housing 1, the base of the measuring tape 6, amplifier 8, LED 9, power supply 10, tank mass 11, water, housing 1 LED lights up a second time.

At this moment, the operator fixes the risk on the basis of measuring tape 6 against pointer 12 (value a). Since in this case there is no constant to the device (to 0), the desired level of water is calculated by the formula

Uh-ah.

The operation of the compensator 13 is as follows. When measuring levels, unwind and wind the measuring tape

0 to a special reel. In this case, both conductive measuring tape layers are located on the coil at different diameters (the diameter of each layer differs by the thickness of the layer).

5 Both the tape measure in the initial state are the same in length. When they are wound on a spool, the inner layer shifts (extends) relative to the outer one. A compensator 13 made of an elastic material is included in the work.

As the measuring tape is unwound, the inner layer becomes shorter. The compensator 13 is contracting.

In FIG. 2 shows an example of a sensor with compensator. Here, in the cavity of the metal housing 1, a float 2 with a permanent magnet 3 is placed. The float is made of coated foam. The float 2 moves along a copper tube which is fixed in the housing 1 by two screws (not shown). A magnetically controlled contact MK-17 is placed in the tube. One of the conclusions of which is fixed in the tube, the other is isolated from it and brought out through the dielectric 5 and screwed to the base of the measuring tape 7 using the screw 14. The compensator 13 is made in the form of a cylinder placed on the sensor housing 1 and is electrically connected to it through spring 15. The inner layer of the measuring tape 6 is attached to the compensator by a screw 16. On kompo0

the cone with two screws 16 is attached an insulator 17 having the shape of a cone. The operation of the device is described above.

A positive effect is achieved due to the fact that the internal stresses between the layers are removed when winding and unwinding the measuring tape on a spool. Thus, the reliability of the conductive layers, the measuring tape is improved, and at the same time, the manufacturability of the tape is improved.

Claims (1)

SUMMARY OF THE INVENTION A device for measuring the level of oil products and water in storage tanks of 5 aBT.CB.bk 1677529, characterized in that, in order to increase the reliability of operation, an additional compensator for changing the length of the inner layer ruler is connected to it, connected on one side to the inner layer of the measuring line, and on the other - with the sensor housing. 0 8 X input ft. h :and and and vds Output W 10 // . Mef / Pelro & Uht Sofa / Fig 2