RU2006014C1 - Indicator of equal pressure of two media - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: indicator has flat flexible diaphragm 1 placed between base surfaces of two parts 2 and 3 of split housing. Base surface of part 2 is flat and that of part 3 is concave. Electric contact member 6 is made in the form of flexible resilient rod provided with screw 7 and passed through central hole in flat base surface for interaction with diaphragm. Screw 7 is free to move inside cylindrical bushing 8 secured rigidly in part 2 by means of nut 9 and insulated electrically therefrom by spacers 10. Housing is hermetically sealed by plug containing capillary tube 11 with electric conductor 12 passed through. Capillary tube 11 is connected with input 13 for feeding indicator with counterpressure and for output of electrical circuit. Indicator is connected with medium to be tested via pipe union 14. Pressure of medium under test presses diaphragm against flat base surface and makes it close circuit with electric contact rod 6. Feed of counterpressure forces diaphragm from flat base surface and straightened contact rod thus breaking electric circuit. Then counterpressure is slowly reduced and its value is registered at the moment of repeated closure of electric circuit. EFFECT: improved accuracy. 2 cl, 1 dwg

Description

 The invention relates to measuring equipment, to the class of devices for measuring the difference in the values of two high static pressures using elastically deformable elements of the membrane type.

 The invention can be used in experimental, metrological stands, and also as a high-precision relay in systems for measuring and monitoring high pressures of chemical plants, refrigeration units, pneumatic mechanisms.

 There are conditions when the high pressure of a certain aggressive medium located in a vessel can only be measured indirectly, i.e., using a counterbalancing counterbalance system.

 Known devices for measuring the pressure difference of the investigated medium and back pressure systems containing a flat elastic membrane separating these media, placed in the housing so that its deflection at one-sided high pressures is limited by the supporting surface. The minimum difference or equality of the pressures of two media in the devices is determined by the position occupied by the membrane. The position of the membrane is monitored, for example, by means of an inductive displacement transducer connected to the membrane or by a signal of membrane closure and an electrical contact located in isolation in the housing.

 The disadvantages of the known devices is that they are complex in design, require the use of additional special equipment. During operation, the accuracy of monitoring the neutral position of the membrane is reduced due to the deterioration of its elastic properties with multiple versatile deflection from high pressures.

 The closest technical solution, selected as a prototype, is an indicator of the equality of the pressures of two media (zero indicator), containing a flat elastic membrane separating two media located between the supporting surfaces of the detachable housing, limiting the free deflection of the membrane electrical contact element "floating" type installed with the possibility of interaction with the membrane and made in the form of a rigid rod with shoulders, spring-loaded inside a cylindrical guide sleeve having a longitudinal section a stepped profile and placed electrically insulated in the housing, while one of the said supporting surfaces has a concave spherical profile and is located on the side of the electrical contact element, and the other is flat. The end of the guide sleeve with the protruding working end of the electrical contact rod faces the membrane and forms the central part of the spherical bearing surface.

Under the influence of one-sided pressure of the medium under study, the membrane bends, closing and drowning the contact pin inside the guide sleeve, and lies on a concave supporting surface. With a slow increase in backpressure, the membrane moves away from the supporting surface and opens with the electrocontact rod, which is pushed out until it rests with the shoulders in the bottom of the guide sleeve. The pressure equality of the two media is fixed by the signal of the opening of the electrical contact element with the membrane, and the pressure of the medium under study is determined from the ratio:
P _and = P _p - P _m (t), where P _and - pressure of the medium under study;
R _p - back pressure;
P _m (t) is a correction that takes into account the elasticity of the membrane when the electrical contact is closed, depending on the temperature (found experimentally).

 The disadvantages of the known device: there is instability in controlling the position of the membrane, which is due to the fact that when the pressures of the two media are equalized, the hard contact rod, resting on the shoulders against the bottom of the guide sleeve, does not always exactly take its initial position. This can be caused by poor cleanliness of the mating surfaces of the bottom of the guide sleeve and the shoulders of the rod, but most often by the ingress of microparticles between them. Changing the control position of the contact rod relative to the membrane leads to a distortion of the initial readings of the device. In addition, this is facilitated by the fact that the membrane under the influence of one-sided pressure of the medium under investigation bends to the maximum, taking the form of a concave supporting surface, this leads to a change in its elasticity over time.

 The concave spherical supporting surface located on the side of the electrical contact element must be machined together with the end face of the cylindrical guide sleeve carrying the electrical contact rod, this is extremely difficult technologically, in the case of a mismatch between the protruding end face of the sleeve and the spherical supporting surface, a significant deformation of the central part of the membrane will occur, and therefore, a decrease in the reliability of the device. Repeated deformation of the central part of the membrane can lead to its notching, which is especially dangerous when working with an aggressive environment. The device in question does not have the ability to tune to the necessary relative position of the membrane and the contact rod.

 The aim of the invention is to increase the reliability of determining the equality of pressure of two media by increasing the stability of the control position of the membrane, in addition, facilitating the setup of the device.

 This goal is achieved by the fact that in the indicator of equality of pressure of two media containing a flat elastic membrane located between the supporting surfaces of the detachable housing, one of which has a concave profile, and the other is a flat, contact element installed with the possibility of interaction with the membrane and placed along the axis the guide sleeve, rigidly fixed in the housing and electrically insulated from it, according to the invention, the contact element is made in the form of a flexible elastic rod, a flat supporting erhnost placed side electric contact element and is provided with a central hole, in addition, electrical contact element is provided with a screw mounted movably along the bushing axis, and said central hole is formed with a minimum size sufficient to freedom of movement inside the electric contact element.

 The implementation of the electrical contact element in the form of a flexible elastic rod (hair) allows you to eliminate the mating surfaces inherent in the electrical contact element of the "floating" type and more stably control the position of the membrane, since the working end of the flexible electrical contact rod in a straightened state will always more accurately occupy the original position, which helps to increase reliability of the device.

 Placing a flat supporting surface on the side of the electrical contact element eliminates the deflection of the membrane when applying one-sided pressure of the test medium, and the excess back pressure when searching for the neutral position of the membrane is usually insignificant, thus the elastic properties of the membrane remain unchanged, which helps to increase the reliability of the device during long-term operation.

 The implementation of the Central hole in the supporting surface with a minimum size sufficient only for the free movement of the electrical contact rod, also eliminates the deformation of the membrane and its confirmation by one-sided pressure of the investigated medium. All these factors contribute to increasing the reliability of determining the equality of pressures of two media.

 The movement of the electrical contact element relative to the membrane using a screw allows you to configure the device to the optimal correction value, taking into account the elasticity of the membrane.

 Comparison of the claimed technical solution with the prototype allows us to conclude that it meets the criterion of "novelty."

 Comparison of the claimed technical solution not only with the prototype, but also with other solutions known from the scientific and technical literature, did not reveal the features that distinguish it from the prototype, which ensures that the claimed technical solution meets the criterion of "significant differences".

 The drawing shows a longitudinal section of an indicator of equality of pressure of two environments.

 The indicator comprises a flat elastic membrane 1 clamped with a preload between a flat supporting surface with a central hole of the detachable body part 2 and the concave surface of the part 3. The membrane preload is provided by an annular groove and a protrusion 4, which also create a tightness of the cavity membrane. The coupler of the detachable parts of the housing is carried out by the flanges 5. The electrical contact element 6 is made in the form of a flexible elastic rod (hair). One end is soldered into screw 7, and the other is passed through a central hole in a flat supporting surface to ensure interaction with the membrane. In this case, the screw 7 is installed with the possibility of moving along small threads inside the guide sleeve 8, made in the form of a cylinder, rigidly fixed in part 2 of the housing by a nut 9 and insulated from it by gaskets 10 from the medium. The supporting surfaces on both sides of the membrane limit its free deflection within the zone of elastic deformation. The central part of the membrane and the working end of the electrical contact rod (hair) are tinned with silver to ensure reliable electrical contact. The central hole in the flat supporting surface is covered with an insulating layer. The housing 2 is hermetically closed by a stopper with a capillary 11, in which an electric conductor 12 is laid. The capillary 11 is connected to an electric input 13, through which backpressure is supplied to the indicator. Part 3 of the detachable housing is equipped with a fitting 14 connecting the indicator to the test medium.

 The position of the contact element of the indicator is determined until complete assembly at maximum pressure from the medium under study. To do this, through the nozzle 14 under the membrane, a unilateral pressure of up to 10 MPa is supplied from the cylinder, which presses the membrane to a flat supporting surface. Then, a screw 7 to the membrane smoothly leads the contact pin 6 until a circuit signal appears, after which the pressure is released. Further, the indicator is hermetically closed by a plug 11 and connected to the back pressure system through the electrical input 13. The pressure correction taking into account the elasticity of the membrane at the moment of its opening with the electrical contact element is determined empirically. To do this, a counter-pressure is slowly applied to the indicator until an open circuit signal appears. The back pressure value at the moment of opening is fixed by a micromanometer. The temperature dependence of the correction obtained is determined by similar measurements when placing the indicator in a thermostat with a changing temperature, and the fitting 14 must always be connected to the atmosphere. The measurements obtained determine the dependence of the correction to pressure, taking into account the elasticity of the membrane on temperature at the time of opening of the electrical circuit, which can be expressed in graphical form.

The indicator works as follows. Through the fitting 14, the indicator is connected to a system containing the test medium. The pressure P _{and the} membrane are pressed against a flat supporting surface. The electrical contact rod is closed to the membrane 1. Through the electrical input 13 back pressure is applied until the membrane 1 comes off a flat supporting surface and a straightened electrical contact rod 6. The electrical circuit will open. Then the back pressure is slowly reset and when a new circuit is closed, it is fixed by a deadweight tester.

The pressure of the test medium is determined from the ratio
P _and = P _p - P _m (t), where P _and - pressure of the medium under study;
R _p - back pressure;
P _and (t) - correction to pressure, taking into account the dependence of the membrane elasticity on temperature at the moment of opening of the electric circuit.

 Thus, the use of the inventive device in comparison with the prototype will improve the quality and reliability of pressure measurements of the test medium and reduce the error in determining the equality of the pressures of the two media to a level close to the sensitivity limit, which in the devices reached values of ± 10-20 Pa. During long-term operation of the indicator, a high level of stability of control of the position of the membrane is maintained. Changing the profile of the supporting surfaces and the use of a new type of electrical contact element simplifies the design and improves the manufacturability of the proposed indicator of the equality of the pressures of the two environments. (56) Lavrechenko G.K., Valyakin V.N. Study of phase equilibria in three-component refrigerant solutions with immiscibility in liquid phases "Refrigeration and technology." Rep. interuniversity. scientific and technical collection, 1985, no. 40, p. 46-53, fig. 3.

Claims (2)

 1. INDICATOR OF EQUAL PRESSURE OF TWO MEDIA, comprising a flat elastic membrane located between the flat and concave supporting surfaces of the detachable housing, and an electrical contact element installed in the guide sleeve with the possibility of mechanical interaction with the membrane, while the guide sleeve is rigidly fixed in the housing and is electrically isolated from him, characterized in that, in order to increase reliability, the contact element is made in the form of a flexible elastic rod connected at one end to the housing, and flat I abutment surface located on the side casing member and the electrical contact is formed with a central opening with a movable electric contact element therein.  2. The indicator according to claim 1, characterized in that the connection of the elastic rod with the housing is made through the inserted screw installed coaxially with the guide sleeve inside it, and the guide sleeve is threaded.