RU115925U1 - DEVICE FOR MEASURING AND CONTROL OF DIELECTRIC PERMEABILITY OF DIELECTRIC MEDIA - Google Patents

Abstract

A device for measuring and monitoring the dielectric constant of dielectric media, predominantly of a liquid or gaseous state, comprising a housing, in the lower part of which there are capacitor plates forming a sampling probe, isolated from the housing, in which holes are made for entering a dielectric medium and its output through holes in the side wall, and also an electronic measuring and computing unit connected by contacts with capacitor plates and a power source, characterized in that the body is made of metal cylindrical shape with a transverse partition inside, dividing the body into two chambers, each of which is closed with a separate cover with a central hole for access to the chamber cavity , in one chamber are placed capacitor plates isolated from the body, each made of cylindrical shape, which are concentrically and with a gap relative to each other in this chamber and are connected with pin contacts isolated isolated in the ne for connection to the printed circuit board of an electronic measuring and computing unit mounted in another chamber, while the cover on the side of the chamber for placing the electronic measuring and computing unit is made with a sleeve fixed on the cover opposite the central hole for passing the sealed power cable of this unit and removing the information signal, and the cable in the area of entry into the housing is placed in a separate tube inserted into the bushing and fixed against movement in this bushing.

Description

The invention relates to measuring equipment and can be used in industry for measuring and controlling the dielectric constant (dielectric constant) of liquid and gaseous dielectric media, for example, in oil refineries, oil depots, as well as in on-line measurement and control systems, in particular in field conditions ( as an express method), in the retail trade in petroleum products, at gas stations, individually by motorists and in various kinds of technological processes.

The closest analogue to the claimed invention and adopted as a prototype is a device for measuring and controlling the dielectric constant of dielectric media, which is described in the method for measuring and controlling the dielectric constant of dielectric media, protected by patent RU 2251705, G01R 27/26, publ. June 20, 2004

The specified device for measuring and controlling the dielectric constant of dielectric media is made in the form of a monoblock, including both a measuring sensor, which is a plate-shaped cylindrical capacitor operating from high-frequency alternating voltage, and an electronic circuit that processes the measurement results. The results of their processing are displayed using an indicator device, which, together with controls, is also included in the specified monoblock.

This device for measuring the dielectric constant of dielectric media, includes elements in the form of an indication unit, a measuring electronic unit, a sensor, control elements, characterized in that the elements of the device are mechanically and electrically interconnected and are a monoblock in which the indication unit and the measuring electronic unit mounted in one housing. The sensor is a cylindrical plate capacitor, which includes a cylindrical body having a hole in the base for receiving the measured medium, and on the side surface, in the upper part, through holes for air outlet, a cylindrical cup and a cylindrical strut with a gap are installed with a gap the lower part, on the inside, the figured surface, and in the upper part, on the outside - the emphasis, while the sensor contains a ring having the shape of a cylinder in the upper part, and in the bottom the shape of a truncated cone, and which is installed between the sensor housing and the cylindrical column at the level of the through holes, and the lower base is mounted on the stop of the cylindrical column. The sensor includes a central three-stage rod installed with a gap with a stand, connected at the bottom with a cylindrical cup and having different diameters in height, forming a stop in the upper part of the rod, an insulating sleeve mounted in the upper part of the body and mounted on the rod stop.

This device has the following disadvantages:

- it is difficult to use in stationary installations and processes, since the device is designed for single measurements in the presence of the studied control samples;

- the details of the sensor have a complex shape that complicates the technology of their manufacture and the picture of the electric fields inside the capacitor, which in turn complicate the calculations;

- the sensor elements are not sufficiently rigidly fixed, which increases the measurement errors;

- the capacitor plates are placed close to each other, which increases the possibility of rapid clogging of the space between them by mechanical impurities excluding the further functioning of the sample without carrying out preventive measures.

The present invention is aimed at achieving a technical result, which consists in improving operational performance by improving the accuracy of measurements and the reliability of the measurement results while reducing the level of pickups and improving the stability of the output signals during continuous measurement of the dielectric constant of liquid and gaseous dielectric media.

The specified technical result is achieved in that in a device for measuring and controlling the dielectric constant of dielectric liquids of a liquid or gaseous state, comprising a housing, in the lower part of which are placed sampler plates of a capacitor isolated from the housing in which openings are made for introducing the dielectric medium and its output through holes in the side wall, as well as an electronic measuring and computing unit connected by contacts to the capacitor plates and the power source , the casing is made of a metal cylindrical shape with a transverse partition inside, dividing the casing into two chambers, each of which is closed by a separate cover with a central hole for access to the cavity of the chambers, in one chamber are placed capacitor plates made of a cylindrical shape each, which are concentric and with a large gap relative to each other are located in this chamber and are connected with pin contacts isolated secured in the partition for connection to the printed circuit board. a cathodic measuring and computing unit mounted in another chamber, the lid on the side of the chamber for accommodating the electronic measuring and computing unit is made with a sleeve fixed to the lid opposite the central hole to let the unit pass through the cable and seal the information signal, and the cable is in the zone input into the housing is placed in a separate tube inserted into the sleeve and fixed from movement in this sleeve.

These signs are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present invention is illustrated by a specific example of execution, which, however, is not the only possible, but clearly demonstrates the possibility of achieving the desired technical result.

Figure 1 presents a diagram of a device for measuring and monitoring the dielectric constant of dielectric media.

According to the present invention, there is considered the design of a device for measuring and controlling the dielectric constant of dielectric media, a liquid or gaseous state, which, in the idea of an immersion sensor, for example, can be used in the oil refining industry as a portable or stationary device for the operational method of express identification of batches of light oil products in the process their implementation. This sensor is installed in the tank with the oil product stationary and allows you to identify commercial oil product, characteristic only for this type (brand) of product hydrocarbon composition.

The present invention is considered as an example of a petroleum product, but the operation of the device is also preserved in a gaseous medium.

At present, the inability to automate the process of identifying motor fuels when they are sold to the consumer (it is impossible to measure the parameters of the identification and octane numbers without the widespread selection of control samples). The problem to which the invention is directed is the ability to ensure 100% corporate and area quality control of issued certificates by identifying all flows (lots) of motor fuels from the manufacturer to the gas station column without taking control samples of the analyzed product. This problem is solved due to the fact that the immersion sensor (analyzer) includes a shell for the element base and a cylindrical inlet, which are interconnected by a threaded connection into a single module, which is lowered directly into the container with the analyzed product and serves as a measuring and transmitting device. The second part - a device for displaying the results of the obtained data - is made in the form of a crystalline display or computer monitor located in the control room of an enterprise, company or zone certification body (not shown). It is also possible to transmit this information in the form of radio signals and SMS messages.

In General, the invention considers the design of the device, which can be represented in the following execution algorithm:

- the casing is made of a metal cylindrical shape with a transverse partition inside, dividing the casing into two chambers, each of which is closed by a separate cover with a central hole for access to the cavity of the chambers;

- in one chamber, made with side holes, capacitor plates isolated from the body are placed, made of cylindrical shape each, which are concentrically and with a gap relative to each other located in this chamber and connected with pin contacts insulated in the baffle for connecting to the printed circuit board an electronic measuring -computing unit;

- the electronic measuring and computing unit is mounted in another chamber, and the lid on the side of the camera for accommodating the electronic measuring and computing unit is made with a sleeve fixed to the lid opposite the central hole to allow the power cable of this unit to be sealed with a seal and remove the information signal;

- the cable in the zone of entry into the housing is placed in a separate tube inserted into the sleeve and fixed from movement in this sleeve.

The following is a specific implementation of the device according to the present invention.

The device (Fig. 1) includes an electronic measuring and computing unit 1 and a sampling probe 2. All elements of the device are housed in a generally cylindrical body 3 (in a particular embodiment, made of brass to reduce aggressive effects from the side of the oil product), which is inside divided by a transverse partition, dividing the body cavity into two chambers. The components of the electronic measuring and computing unit are mounted in one cylindrical-shaped chamber on the cable supply side 4, and the sampling elements in another chamber, which is closed from the end by a screw cap 5, made with a central hole 6 in the bottom for passing the oil product inlet. On the side wall of the housing at the location of the elements of the inlet holes are made 7 for the exit of the oil product.

In the cavity of the housing in the sample inlet, plates 8 are mounted at a distance from each other, representing a 200 pcf capacitor, these plates are cylindrical in shape, arranged coaxially (along the generatrix of the housing cylinder) to each other and isolated from each other along the end parts in the housing from the side of the partition 9 and covers 5 with a central hole by capralon washers 10. Thus, the capacitor plates are not directly connected to each other, isolated from the body by the indicated washers and can interact only under conditions posredovannogo interaction through a medium (e.g., petroleum), flowing between the plates. Holes 11 are made in the plates for passing the oil product in the direction from the central hole 6 in the cover 5 to the holes 7 in the side wall of the housing to ensure unimpeded flow of the oil when measuring its parameters in a moving stream or when moving an immersion sensor in a stationary tank.

Two metal pins 12, which act as pin contacts, are isolated in the partition wall 9 of the case: one pin is connected rigidly to one plate, the other pin is connected rigidly to another plate through the bushing 13 (for isolation from the case), and the ends of the pins are led through the partition into the cavity another camera and are contacts 14 for communication with electronic components of the electronic measuring and computing unit, made in the form of at least one printed circuit board 15 with a microprocessor or several boards and aspolozhennymi isolation chamber 16, which is closed by a screw cap 17 to avoid penetration of the medium into the cavity of the chamber.

In this cover, a central hole is made for passing the cable / cables 4 to the printed circuit boards 15 of the electronic measuring and computing unit. Cables are passed through the tubular entry in the form of a sleeve 18 made outside the cover, rigidly connected to the cover 17 opposite the hole in it. In the cavity of this sleeve, the cable 4 is sealed with a rubber ring 18, covering the cable and pressing against the wall of the sleeve with simultaneous sealing of the gaps to prevent the penetration of the medium into the cavity of the second chamber through the tubular cable entry. The cable is laid in a tube 19, which is inserted into the cavity of the sleeve until it stops in the seal. Outside, the tube with the cable in the sleeve is fixed with a lock nut 20 or other fasteners to prevent cable movement along the sleeve and the tube with the cable along the sleeve.

The cable may be component and contain power conductors (for example, 9V) 21, connected to an externally located power source, and conductors 22, forming an information channel for communication with the display unit (not shown). Both cores can be made in the form of separate cables.

The device operates as follows.

The claimed device is electronic, automated, designed to measure and control by the direct express method of comprehensive matching of the composition of the fractions of the measured gas and oil products, viscosity up to 10 centistokes, its control sample by dielectric constant. The device allows you to control petroleum products (gasoline of any brand, aviation kerosene, diesel fuel and other hydrocarbon products) for compliance with the reference sample, by the dielectric constant of the tested petroleum products, for example, according to "HEPTAN". The numerical values of the measured values are read directly on the display or computer monitor in arbitrary units.

Before measurement, the following is done. They include the power supply unit and the computer unit in the network (220V). The power switch on the front panel is turned on (“ON” position). The device is immersed in a container with the test fluid. The software allows you to fix the dielectric constant of the measured fluid in arbitrary units at any given time.

Calibrate the device before installing the device in a container. In order to avoid clogging of the sensor with mechanical impurities, all openings intended for the circulation of the measured liquid are closed with a brass grid with a mesh of not more than 1 mm. The claimed immersion sensor has the following advantages and differences relative to the prototype:

- its action to measure the set parameters is continuous, and the absence of the need for control samples takes its operation mode to automatic.

- The element base is moved from a plastic case to a sealed enclosure.

- the central rod is replaced by a plate.

- all plates representing the capacitor of the immersion sensor are made of cylindrical shape, are isolated among themselves by capralon washers and make up a capacity of 200 pcf.

- All sensor nodes are fastened together by screws and covers.

- cable entry for supplying power to the sensor and removing a signal from it is made through a pipe input.

These design features allow you to perform an immersion sensor in an explosion-proof design.

The main advantages of the claimed technical solution of the device for measuring and controlling the dielectric constant of dielectric media are:

- improving the accuracy of measurements;

- reduction of interference levels;

- achieving a high level of stability and improving the quality of the output signals for measuring and controlling the dielectric constant;

- providing the possibility of using the device in a wider field of applications in a wide range of liquid and gaseous dielectric media.

The claimed device for measuring and controlling the dielectric constant of dielectric media was tested positively at several gas stations and received a recommendation for its serial production for its intended use.

Claims (1)

A device for measuring and monitoring the dielectric constant of dielectric media of a predominantly liquid or gaseous state, comprising a housing, in the lower part of which are placed sampler plates of a capacitor isolated from the housing, in which holes are made for introducing a dielectric medium and its output through openings in the side wall, and also an electronic measuring and computing unit connected by contacts to the capacitor plates and a power source, characterized in that the housing is made metal cylindrical shape with a transverse partition inside, dividing the housing into two chambers, each of which is closed by a separate lid with a central hole for access to the cavity of the chambers, capacitor plates isolated from the housing, made of cylindrical shape each, which are concentric and with a gap with respect to each other are located in this chamber and are connected with pin contacts, isolated in isolation in the partition for connection to the printed circuit board of an electronic measuring a computational unit mounted in another chamber, the lid on the side of the chamber for accommodating the electronic measuring and computing unit is made with a sleeve fixed to the lid opposite the central hole for passing the power supply cable sealed by the seal and removing the information signal, and the cable is in the input zone into the housing placed in a separate tube inserted into the sleeve and fixed from movement in this sleeve.