UA92629C2 - Strain indicator for liquid density volumetric-weight measuring device and liquid density volumetric-weight measuring device on its basis - Google Patents

Abstract

The invention relates to control-measuring equipment. Strain indicator for volumetric-weight liquid density measuring device and volumetric-weight liquid measuring device on its basis include flow-sensitive pipe, strain indicator and measuring device. Strain indicator includes sensitive spring element with glued tensiometric transformers, flexible elastic pipe that is tightly connected to outlet of inlet pipeline and to inlet of flow-sensitive pipe, inlet means for connection connected to outlet of inlet pipeline and rigidly connected to fixed with respect to earth support, and outlet means for connection rigidly connected to flow-sensitive pipe. Each of sensitive elements is connected to means for connection at outside of flexible pipe. The outlets of tensiometric transformers are connected to inputs of measuring device and strain indicator is deformed under effect of weight of flow-sensitive pipe. Flexible pipe is arranged as silphon that is rigidly attached to its ends to means for connection. Each of sensitive elements is arranged as rigid beam that is rigidly connected to those means for connection, at that the beams are arranged along the silphon and have possibility to prevent deformation of tension-indicator in vertical direction at elongation or compression of silphon. Technical result of the invention is in increase of accuracy of measurement.

Description

27. The meter according to item 26, which differs in that it is hermetically connected to it by a third inner passage diameter of the second bellows, made with the possibility of hermetically connecting its outlet end to the outlet water and flow-sensitive pipe equal to the diameters of the openings of the inlet pipeline . pipeline. 28. The meter according to any of paragraphs 26 or 27, which 35. The meter according to item 33, which differs in that the input and output means that the flow-sensitive pipe has an open output connection have a second pair of holes, diameter end. which are equal to the diameters of the holes of the outlet pipe 36. The meter according to item 35, which differs from that of the wire and the flow-sensitive pipe and which are made of the outlet hole of the flow-sensitive pipe by the arrangement of their mutual alignment with the holes entered below the inlet opening of the first strain gauge - of a pipeline and a flow-sensitive pipe, and ca. the second bellows is hermetically attached with its 37. The meter according to any of paragraphs 19-36, which ends in the holes of the second pair in the specified means, differs in that the beams contain connection concentrators. voltage in the form of sections with a reduced cross-section 29. The meter according to any of paragraphs 26-28, which is a cross-section in which strain gauges are pasted, differs in that the inner surface of the second converter. the bellows is covered with a lining made of polymer material 38. The meter according to any of paragraphs 19-37, which from the material. differs in that it contains a flexible elastic co- 30. The meter according to any of paragraphs 26-29, which vent, which is fixed on the means of connection and differs in that it contains one beam, locates and closes the space between them. valve between the first and second bellows. 39. The meter according to any of paragraphs 19-38, which is 31. The meter according to any of paragraphs 26-29, which differs in that it is immovable relative to the ground, and differs in that the axis of the first and second sylph-support for it is a pipeline. during manufacture are parallel, and the first 40. The meter according to any of paragraphs 19-39, which strain gauge contains two beams located on differs in that at least one bellows on both sides of the first and second bellows is equipped with a pressure sensor based on additional along them and symmetrically relative to the plane of the strain gauge transducers, made of mo- due to their axes or planes of symmetry, their ability to respond to changes in the pressure of a liquid of a universal location. bellows bellows, and the measuring device has a ka- 32. The meter according to any of paragraphs 19-24, which took into account the pressure of the liquid, the entrance of which differs in that it contains two beams, the connected outputs of the specified additional strain gauges are located on both sides of the first bellows of the parallel converters. 41. The meter according to any of paragraphs 19-40, which refers to both of them. differs in that at least one bellows or 33. The meter according to any of paragraphs 19-24, 32, which flow-sensitive pipe is equipped with a temperature sensor - differs in that the flow-sensitive pipe is ture, and the measuring device has a straight channel. temperature of the liquid, to the input of which is connected 34. The meter according to item 33, which differs in that the output of the temperature sensor. that the outlet end of the flow-sensitive pipe is equipped with

The invention relates to the control and measuring AS. USSR Mo1073620 (МПК: 501М9/20, techniques, namely, volume and weight meters, publ. 15.02.84, Byul. Mob) known OVVGR, which measures liquids (hereinafter referred to as OVVGR) and strain gauges - includes a flow-sensitive a pipe that is connected to the spigots for their work, and can be found through a pipeline using a flexible spring. displacement transducer, dyna passing through pipelines. associated with the initial ferrodynamic transformation

The general principle of measurement in such cases is a probe and a secondary device. systems is based on the known dependence of weight on this device, the abrupt displacement of a pipeline of fixed volume with a liquid suspended on a spring in a flow-sensitive pipe is measured against the density of this liquid. The indicated section of the tube thickness from the density of the substance under study. During the operation, the position of the flow-sensitive pipe is usually connected to the inlet pipeline by a flexible elastic element, and it usually changes in space, and the flexible pipe is called a flow-sensitive pipe. The second end of significant deformations, which leads to a significant direct flow-sensitive pipe can be exposed to the influence on the position of the flow-sensitive pipe, and ot- or connected with the continuation of the pipeline also on the result of measurement, pressure and temperature- by one flexible elastic element. In another, the flow of liquid in the pipeline boils. In addition, at riant, the flow-sensitive pipe can have an O-shaped application of a rubber cuff as a flexible elastic form, and then its output end is connected to the second element, an additional error appears, which is a flexible elastic element with the extension of the pipe, associated with by a long relaxation time (on the order of the pipeline, which is located at an angle to the inlet - 10s), residual deformation and inhomogeneity of the pipeline or parallel to it. cuff material and which reaches 2905.

In A.S. USSR Mo1245941 (МПК с01М9/02, рху and from the bottom of the flow-sensitive pipe, that is, there are publ. 23.06.87, Byul. 27) described ОВВГР, which corresponding components of density measurement errors consists of a flow-sensitive pipe connected from a liquid that is practically not susceptible no compensation, flexible rubber main pipeline is taken into account. with cuffs, main and additional strain gauges. Thanks to the application of the strain gauge and the strain gauge are made of separate parts and the strain gauges are sensitive strain gauges that are subject to assembly and disassembly, to perform abraders, it became possible to reduce the movement of the soluti accurately coaxial arrangement of the pipe flow-sensitive pipe in space. However, due to the water and the flow-sensitive pipe, it is impossible. In the event that the strain gauge transducers used misalignment in the location of the main one are directly in the supports, which are connected to the same pipeline and flow-sensitive pipe, as well as two, the forces acting on them are relatively small, and the fastening elements of the rubber cuff lead to the meter has low sensitivity. In addition to non-uniform deformations of the cuff and subsequent go, it is not devoid of the above-described indeterminate influence of temperature and pressure on the device, associated with the imperfection of the rubber measurement results. At the same time, the size of the error is the cuff. that the measurement will change after each one

From the same document, the strain gauge, assembly and disassembly of the device is known. which contains strain gauge transducers and implements the task with the possibility of installing a stationary OVVGR and a strain gauge to perform resistance relative to the ground and deformation under the influence of its operation, which allow to reduce the error of the weight of the flow-sensitive pipe. The disadvantage of such ten- density measurement due to the reduction or gauge is, as noted above, insufficient compensation of the components of the error caused by the influence of sensitivity. flow temperature and pressure in the pipeline on

The closest to the devices that claim to ensure the position of the flow-sensitive pipe, based on a set of features, are the strain gauge and the manufacturability of the device and the convenience of the renies based on it OVVGR, described in the article on its maintenance. Valuha M.V. and Kovalyukha S.V. "Coal grinding The task set for a strain gauge for a tube-cone mill of a new generation, at OVVGR is solved by the fact that the known strain gauge and control device", Kyiv, "Zenergetichika, which includes at least one sensitive rod and electrification", Language, 2001, pp. 53-54. element equipped with at least two

The specified strain gauge includes one sensitive elastic element in the form of a membrane glued to its deformation-sensitive surface, strain gauge transducers, a flexible elastic tube glued to its deformation-sensitive surface, made with the possibility of a sealed surface with strain gauge transducers, flexible connection to the outlet of the inlet pipeline and an elastic pipe in the form of a rubber cuff, to the inlet of the flow-sensitive pipe with a coaxial design with the possibility of hermetic connection by moving adjacent holes, the inlet device is connected to the outlet of the inlet pipeline and to the inlet of the pan, made with the possibility of connection to the current-sensitive pipes with coaxial placement of the inlet pipeline and rigid connection holes, and the input means of connecting the sensor to the support fixed relative to the ground, and the output elements, made with the possibility of connecting means made with the possibility of rigid connection to the input outlet rigid connection pipe to the flow-sensitive pipe, the conduit, which performs the role of a stationary relative to the ground, and each of the specified sensitive elements of the ground support, and the output means of rigid connection is connected with the specified means of connecting the sensitive elements from the outside to the flow-sensitive pipe, a flexible pipe, and the strain gauge is made of possible moreover, the membrane is attached to the indicated zas- to deform under the influence of the weight of the flow parts of the connection from the outside of the flexible pipe to the perpendicular pipe, the following improvements have been made: to it, and the strain gauge is made with the possibility of de- - the flexible pipe is made in the form of a bellows; formed under the influence of the weight of the flow-sensitive - the bellows is rigidly attached to its ends - the pipe. we to the specified means of joining with the coaxial

OVVGR includes this strain gauge, flow-sensing by the arrangement of holes at the ends; the left pipe, which is rigidly connected to the output - each of the indicated sensitive elements of the connection means, and the measuring device, connected in the form of a rigid beam, rigidly connected to the specified connection means; connected to the inputs of the measuring device. - beams are located along the bellows;

The measurement error of such a stack meter is made with the possibility of preventing denovites about 1.595 and is caused, mainly, by the formation of the strain gauge in the vertical direction by the above-mentioned elastic imperfections when stretching or compressing the bellows. rubber flexible pipe, including, by changing it Making a flexible pipe in the form of a bellows shape and elastic properties with a change in temperature allows to reduce the errors associated with the elastic tour and pressure in the pipeline, which ultimately affects the imperfections of flexible pipes made of polymer mana position of the flow sensitive pipe. materials, such as a long relaxation time, left

Significant angular movements of the flow-sensitive forge, deformation and heterogeneity of the elastic properties of the pipe under the influence of the specified harmful factors of curvature, since the bellows is devoid of these regrettable changes in the corresponding strain gauge signals: it responds almost instantly to the transducers, which are located on the membrane, and has no residual deformation deformation, its elastic properties are the same both along and around - two beams, each of which is similar to the described lo axis, its diameter practically does not depend on the above one beam and which are located symmetrically to the pressure inside, it is capable of elastic bending. At the second plane; due to this, it is also capable of being elastically compressed and stretched - two beams, located above and below, are aligned, which in this case is a disadvantage, but such, the background, and the flat surfaces on which it is glued that its consequences can be significantly reduced, specifically strainometric transducers, parallel to the axis of the sim, that the bellows is rigidly attached to the phone and perpendicular to the vertical plane, with the ends to the indicated means of attachment, which rigidly passes through the bellows, which corresponds to the tensors connected to each other located along the parallelogram-type sensor, created background with rigid beams, which significantly limits the specified beams and means of connection. the possibility of stretching and compressing the bellows. Both options have increased sensitivity,

The rigid attachment of the ends of the bellows to the indication of the forces created in the beams for the tied means of connection with the coaxial arrangement, respectively, the moment of force created by the opening of the holes at the ends excludes the randomness of the flow-sensitive pipe relative to the bending zone of the bellows position at least relative to the means lock, or its weights act in the very zone of bending of the beams, which joins and thus reduces the indeterminate allows to receive significant signals when compared to the influence of temperature and pressure on the result of measurable linear and angular deformations of the beams. bathing It should be noted that the beams, on the one hand,

The design of the sensitive elements in the form of a joist should be made so rigid that in the thin beams rigidly connected to the specified means, the range of measured values of the density of the liquid of the connection allows to significantly reduce the magnitude and linear deformations of the load cell. their linear and angular deformations and, accordingly, only small, so that due to the mismatch of parts of the strain gauges, the values of linear and angular displacements of the flow sensor could be underestimated. On the other hand, the beams of the flux pipe, which, in turn, reduces the effect, should not be too rigid, so as not to deform undesirable factors on the position of the flow-sensitive mation of their parts, on which the strain gauge pipes are glued, and therefore on the measurement result, since the converters, were sufficient to measure their position of the flow-sensitive pipe is almost non-signals with sufficient accuracy in the specified range and, moreover, it is almost always co-zone. spring with bellows axis and flow direction. The above examples do not exhaust

Execution of beams with the possibility of prevention are all possible options for the execution of beams. The action of the deformation of the strain gauge in the vertical direction, the surfaces on which the strain gauges are pasted when stretching the bellows means that the transducers may not be flat, the strain gauge bones and their location are chosen as such, the transducers may be different so that the pressure in the liquid and its temperature, which create the principle of action, as well as in terms of sensitivity, that there may be forces that to one degree or another stretch the or physical ages in the vertical direction, i.e., such fractions (temperature and pressure), which are undesirable, the formation would be caused only by the weight of the influence on the measurement result, of the flow-sensitive pipe, which means a reduction of the strain gauge transducers can be up to certain - measurement errors due to the exclusion of its non-symmetric measure with respect to the components mentioned above, caused by the influence of pressure and temperature - first level Erhni, etc. It is important only to kill. quality of beams, their configuration and location, and

An example of such a design of the beams is one side arrangement of the strain gauge transducers, which is located on the side of the bellows and which is designed to be such that the pressure in the liquid and its two identical strain gauge transducers, adhesive temperature, which create forces that in therefore, the beams parallel to each other's surfaces stretch or compress the bellows to different degrees on the most sensitive to deformation planes, which did not lead to deformation of the plane passing through the bellows axis of the strain gauge in the vertical direction. between the specified strain gauges of the transducer - In the generalized version described above, we are parallel to the specified flat surfaces, at the end of the strain gauge, the task of the invention is to solve - which are glued, and at the same distance from them with any circular shape of the bellows, in that (hereinafter - the first plane). With the location of such a number - conical. In the case of a bellows of a cylindrical strain gauge so that the first plane of the shape with an internal passage diameter, which was perpendicular to a vertical plane equal to the diameters of the openings of the inlet pipeline, passes through the axis of the bellows (further - the second fruit and the flow-sensitive pipe is significantly increased in thickness), elongation is indicated bellows due to the laminar flow due to the absence of obstructions, the increase in pressure causes elongation and inhomogeneities at the joints of adjacent openings of the bending of the beam parallel to the first plane, and, accordingly, the random component of the measurement error decreases. react to these deformations in the same way, and this reaction can be compensated, for example, by including, according to the invention, the input and output means of the strain gauge transducers in the Witts bridge. equals the diameters of the openings of the inlet pipeline and

Other examples of the implementation of beams according to the flow-sensitive pipe and which are made with the possibility of them with this invention are the following: mutual alignment with the openings of the inlet pipe

line and flow-sensitive pipe, respectively, and force- The above-described improvements and specific vari- phone is hermetically attached with its ends to the anti performance of a strain gauge with one bellows opening of the indicated means of connection. In this case, the means of actually connecting a strain gauge with two bellows can be completely used for the input and output. perform the role of flanges, which have the indicated pair A strain gauge with two bellows can contain holes and which can be attached, with a sealed you only one beam that is located between the bellows sealing holes, respectively, to the input flanges. In one of the options, the axes of the bellows lie in the pipeline and the flow-sensitive pipe so that one plane, in particular, is parallel to each other, and the holes in the connecting flanges are aligned, the beam has two identical strain gauges, which ensures a single flow direction and in the feeder, pasted on the most sensitive to deformation to a greater degree reduces the random component of error- planes parallel to each other beam surfaces, which ki measurements, especially when the bellows is cylin- parallel to the plane passing through the axis of the sidric. lfons between the indicated strain gauges

Further improvement of the strain gauge according to the plows, and at the same distances from them. And the invention consists in the fact that the inner surface of the beam must be rigid enough for the bellows to be covered with a lining made of polymer to ensure minor linear and angular transitions. This also helps to increase the laminar displacement of parts of the strain gauge. capacity of the flow and reduction of the random component Strain gauge with two bellows, the axes of which, measurement errors. for example, lie in the same plane, may contain

In one of the specific implementation options, two beams, similar to those described above for one sensor, rigid beams can be attached to the bellows and located on both sides from the side to the means of connecting intermediate or fastening bellows and symmetrically relative to the plane, which are straight elements for the conditions that all connections flow through the axes of the bellows (the strain gauges are parallel enough rigid and such that, even of the hologram type), or the planes of symmetry, whether they are collapsible, ensure the unambiguity of the location of the bellows. This practically excludes the assembly with preservation of the stiffness of the bellows bending strain gauge with an increase in the pressure inside as a whole, the concentricity of the bellows holes, the coaxial bellows and, therefore, the undesirable effect of the change in pressure on the adjacent bellows openings and the input error measurement holes. pipeline and flow-sensitive pipe. In one of the best options, a load cell with

The best option for performing beams with two bellows can be four beams, the sensor is to manufacture them as a single whole with a pair of symmetrically covered with respect to the plane, connecting rooms. This provides the largest passing through the axis of the bellows. stiffness of the load cell as a whole, the largest con- These examples do not exhaust all possible options, the curvature of the holes in the means of connection and the largest nansion of the beams. In fact, along with the high operational characteristics due to the factors described above for the strain gauge with the absence of the need to disassemble it - one bellows, bellows can be to a certain extent - assembly, ease of maintenance and high degree of difference, the axes of the bellows can be manufacturability. crossed to a certain extent, which corresponds to the absence of

It is better when using two identical supports of the plane in which they both lie, the angle between the beams that are located on both sides of the plane in which the axes of the bellows lie, if such a bellows is parallel, during manufacture, to the axis of the bellows, and the vertical in a plane parallel to the axes of the background and symmetrically relative to the axis of the bellows and which, bellows, may differ to a certain extent from respectively, equally prevent significant stretching. But at the same time, it is necessary that the amount of guvation of the bellows and be equally deformed by the beams, their configuration and location, as well as the stretching of the bellows under the action of pressure and/or the arrangement of strain gauge transducers on peratures, which can be compensated by the described them, are such that the pressure in liquid and its temperature in the above way. ra, which create forces that in one way or another

The variants of the strain gauge described above stretch or compress the bellows along the yoke, allowing for its further improvement, which did not lead to deformation of the strain gauge, is that it additionally contains a second one in the vertical direction. a bellows, rigidly attached by its ends to the It is advisable that in all the above-mentioned variants of the means of connection with the coaxial layout of the execution of the strain gauge, the beams should be contained by conceding its holes at the ends and made with tension monitors in the form of areas with reduced ductility of the hermetic connection to the exit of the ШЙ cross-section, in which strain gauge-like flow-sensitive pipes are pasted, and to the entrance of the exit, river transducers. This is what makes it possible to obtain the pipeline, and the input and output means to connect significant levels of signals from them with relatively small deviations made with the possibility of connecting and angular movements, respectively. To protect parts of the strain gauge from accidental connection to the O-shaped outlet and other external influences, a flow-sensitive pipe is provided. This improvement makes it possible to fasten on the means of flexible connection to expand the functionality of the strain gauge casing, which closes the space between them and, namely, the possibility of its use on the road due to flexibility and elasticity, almost no leaks in the pipeline, that is, when any angle between causes additional problems with measurement error. input and output pipelines. Since the deformation of the strain gauge is caused by the weight of the flow-sensitive pipe, which depends on the density of the liquid, the input means of connection is moved due to the creation of the OVVGR. above, its implementation with the possibility of a consequent connection, which is obtained due to rigid attachment to the immovable relative to the earth - the creation of the strain gauge according to this invention, with the same support. In the specific and most common difference, the strain gauge creates the prerequisites for the option of performing such a motionless relative to the ground in order to obtain this technical result, and in the MLI, the support can be the input and/or output itself. , for this purpose. appropriate measures have been taken. Additional technical results and advantages that

Further improvement of the load cell is obtained due to further improvements and any of the above-described implementation options are specific implementation options of OVVGR, which means that on the surface of at least one bellows it is the load cell itself and described above, equivalently glued at least one additional strain-metal those described above relative to the strain gauge transducer, made with the possibility of ka and understandable to a specialist in this field. response to the fluid pressure inside the bellows and In addition, in one of the specific options, the connection to the measuring device. According to the invention, such a flow-sensing device makes it possible to take into account the effect of pressure on the re-pipe has an open outlet end. This creates the measurement results, in particular, by means of a schematic OVVGR of the final type and, in particular, excludes compensations. any effect on the flow sensitive tube of the elements

Another improvement that allows the attack from the side of the open end. to hide the effect of temperature on the measurement results. In an alternative specific variant of the measurement, there is the equipment of the bellows or bellows of the ОВВГР according to the invention of the outlet with temperature sensors, the outputs of which can also be connected to the measuring device. The resolving device connected to it allows taking into account the influence of the temperature on the measurement results, in particular, the connection of its output end to the output by means of circuit compensation. pipeline. This allows you to create OVVGR. about-

The problem set in this invention is of a rolling type, while the influence of flow-sensing communication

OVVGR is solved by the fact that in the well-known measuring pipe with a weakening output pipeline, which includes a flow-sensitive pipe, the strain gauge is equipped with a decoupling bellows. In the best case, the measuring device, and the strain gauge in the case of the flow-sensitive pipe is straight, containing at least one sensitive elastic element, which eliminates its deviation under the influence of the flow rate, is equipped with at least two affixed to the liquid. its strain-sensitive surfaces are sensitive to strain. In another specific version of their implementation by transducers, a flexible elastic pipe, according to the invention, the output hole of the flow pipe with the possibility of hermetic connection to the sensitive pipe is located below the inlet outlet of the inlet pipeline and to the inlet of the flow hole of the strain gauge, which allows to provide a sensitive pipe with coaxial placement of adjacent, convenient draining of liquid from the device when the holes are blocked, and an input means of connecting the sensitive pipeline. elements, made with the possibility of a rigid In the alternative direct flow-sensitive connection to a support stationary relative to the ground and a pipe, the version of the OVVGR flow-sensitive to the outlet of the inlet pipeline and the outlet means the pipe has an O-shape, while the measuring- rigid connection of the sensitive elements to the field device has the second inputs, similar to the first ones of the current-sensitive pipe, and each of the specified inputs, and the meter additionally contains a similar - at least one sensitive element is connected to the first, the second strain gauge, the input means by the specified means of connection from the outside of the flexible connection of the second strain gauge is similar to the pipe, the outputs of the strain gauge transducers the output of the connection means of the first strain gauge is connected to the inputs of the measuring device, and the end is rigidly connected to the flow-sensitive pipe, the strain gauge is made with the possibility of deformation, the output means of the connection of the second strain gauge is under the influence of the weight of the flow-sensitive pipe, which is similar to the input the following improvements are being made to the means of attachment: the first strain gauge is made with the possibility - a flexible pipe is made in the form of a bellows; connection to the output pipeline, and the outputs - the bellows is rigidly attached to its end - its strain gauge transducers are connected to us to the specified means of connection with the coaxial second outputs of the measuring device. This variation is the arrangement of its holes at the ends; ant corresponds to the pass-through version of the OVVGR with two - each of the specified sensitive elements is made of strain gauges in the case of the location of the input and inline in the form of a rigid beam; output pipelines at an angle to each other, - the beams are rigidly connected with the specified means and also parallel to each other at the return connections; in straight lines - beams are located along the bellows; In the alternative previous version - the beams are made with the possibility of preventing the passing OVVGR, the flow-sensitive pipe has T-deformations of the strain gauge in a vertical tension-like shape, and the strain gauge additionally contains the microstructure when stretching or compressing the bellows. the second bellows, rigidly attached by its own

The cause-and-effect relationship between these additions to the indicated means of connection with co-consolidations and the technical result, which, due to the uniform arrangement of its holes at the ends and execution

equipped with the possibility of hermetic connection to the Strain gauge 1, which is presented in Fig. 1 and the outlet of the O-shaped flow-sensitive pipe and to the inlet, which is part of the OVVGR, presented in Fig. 2, the output pipeline, the input means of connection includes bellows 2, input C and output 4 means is made with the possibility of connecting to the entrance of the connection, to which the flow pipeline is rigidly attached, and the output means of connection is background 2, and two beams 5, located in front of the bellows, rigidly attached to the output of the O-shaped flow line 2 and behind bellows 2 (not visible). Beams 5 have a sensitive pipe. This corresponds to the above-described voltage concentrators in the form of sections 6 from a reduced version of the strain gauge with two bellows cross-sections, on two surfaces we, the advantages of improvements and specific variants are pasted strain gauge transducers 7. The implementation of which is described above. lyks 5 are located along the bellows 2 and rigid

In order to more accurately take into account the influence of these devices connected to the input Z and the output 4 in the bellows on the measurement result, in particular, The input device From the connection (Fig. 1) by performing circuit compensation, the OVVGR can be with the possibility of rigid connection (in Fig. 2, it is improved in such a way that it is rigidly attached to the surface) to a fixed relative to the ground, at least one bellows is glued to at least one support 9 and with the possibility of connection (in Fig. 2 an additional tensometric transducer is attached) to the inlet pipeline. The output device is made with the ability to respond to fluid pressure 4, the connection is made with the possibility of a rigid bellows inside, and the measuring device has a connection (and in Fig. 2 is rigidly attached) to the channel for taking into account the pressure of the liquid, to the entrance of which the flow-sensitive pipe 8 (Fig. 2). Bellows 2 is performed - the output of the specified additional tensioner is connected with the possibility of hermetic connection to the metric converter. outlet of the inlet pipeline and to the inlet of the flow

In order to more accurately take into account the influence of the temperature-sensitive pipe 8 with the coaxial placement of the gauge on the measurement result, in particular, of clay holes. It is assumed that in Fig. 2 such a scheme of compensation, at least one bellows is implemented, but it is not shown and that and/or a flow-sensitive pipe can be equipped with a bellows 2 rigidly attached at its ends with a temperature sensor, and the measuring one to the input C and output 4 means of connection to the device must have a channel for taking into account the temperature - by the coaxial arrangement of its holes at the ends. ture of the liquid, to the input of which the output is connected, and with different diameters of the holes of the inlet pipe- temperature. water and flow-sensitive pipe 8 bellows 2 can

Variants of the strain gauge for OVVGR can be both cylindrical and conical. The specific OVVGR itself is presented in the attached drawings - options for connecting the bellows 2 to means 3 and 4, namely: connection to the inlet pipeline and to the flow - in Fig. 1, a schematic view of the sensitive pipe 8 is shown in the following drawings - from the front to the strain gauge for OVVGR; let's go Beams 5 with strain gauge transducers - view 7 schematically presented in Fig. 2 are made and located in such a way that the OVVGR with a strain gauge according to Fig. 1 is stretched in front; bending or compression of the bellows did not cause de Fig. 1 and 2 beams 5 of the bending plane through the axis of the bellows; are symmetrical relative to the horizontal - Fig. A4 shows an enlarged view of the plane passing in the middle between the strain gauge - the section along A-A of the strain gauge in Fig. 3; river transducers 7, and this plane coincides with the longitudinal section shown in Fig. 5 coincides with the horizontal plane passing through the axis of the strain gauge connected to the flow-sensitive pipe through the axis of the bellows 2. with two beams symmetrical relative to the horizon. from the strain gauge plane through the axis of the bellows; kom 1, rigidly attached to it flow sensor - Fig. 6 shows an enlarged view of the pipe 8, a rigid support 9, to which a rigid cut along B-B of the strain gauge in Fig. 5; connected input device From the connection, and measuring - in Fig. 7 is a schematic view of the shaft device 10, to the inputs of which a strain gauge with two bellows is connected from above, which is the output of the strain gauge transducers 7, connected to an O-shaped flow-sensitive pipe and mu strain gauge 1 is deformed under the action of flow- has one beam between the bellows; duct pipe 8. - Fig. 8 shows an enlarged view in Fig. 2 shows a variant when the input section is B-B of the strain gauge in Fig. 7; the connection means is rigidly fixed to the rigid - Fig. 9 shows a sectional view of a support 9 stationary relative to the ground. In this case, in the middle between the flanges of another version of the execution for connecting the strain gauge 1 to the input pipe strain gauge with two bellows, which has the conductor may need a flexible pipe, like a beam (strain transducers are not a deposit, a bellows, which can also be included in the plane of the section); of the input device From the connection. - Fig. 10 shows a cross-sectional view of If the inlet pipeline is rigidly attached, a strain gauge with one bellows, which is glued to the ground, an additional support can be additional strain gauge transducers for measuring, and the input means From the connection rigidly buried pressure changes inside the bellows; is attached to the inlet pipeline. - Fig. 11 shows a perspective view - Fig. 3 shows a longitudinal section of an OVVGR with one bellows. one of the best variants of the implementation of the OVVGR and its strain gauge, in which the input Z and output 4 (Fig. 2) coincide with the horizontal plane, that the means of connection are made in the form, respectively, passes through the axes of bellows 2 and 2". flanges 11, 12 , with bolts 13 and 14 and sealing Fig. 9 shows a cross-section with rings 15 and 16. At the same time, the end of the input tube sensor with two bellows 2 and 2", similar to the wire, is considered stationary relative to the ground and that shown in Fig. .8, but with four equipped with a flange with holes through which a parallelepiped-type strain gauge is piped with bolt-beams 5, which together with flanges 11 and 12 form 13. flange 11 is attached to the flange. of the wire, the inlet end of the flow-sensitive pipe 8. In all the presented variants of the implementation, it is equipped with a flange 17 with holes through which the ball sensors and OVVGR each of the beams 5 contains a pair of tamas 14, the flange 12 is attached to the flange 17.

Flanges 11 and 12 have holes 18 and 19, respectively, whose linear deformation response characteristics or the diameter of which is equal to the diameters of the inlet holes are the same or aligned in the measuring device of the pipeline and flow-sensitive pipe 8 and which are made with the possibility of their mutual alignment with the hole - In all presented generalized and concrete versions of the inlet pipeline and flow-sensitive tin beam 5 with strain gauge bars 8, respectively. In this case, the ends of the cylindrical bellows 7 have the following shape and arrangement, the bellows 2, the internal passage diameter of which, when the bellows are stretched or compressed, is equal to the diameters of the inlet openings of the pipeline pressure or temperature measuring and flow-sensitive pipe 8, is hermetically attached the beams are not deformed vertically into the holes 18 and 19 of the flanges 11 and 12. Two rigid directions, and the signals from the strain gauge beams 5 are made as a single unit with the flanges 11 and 12 of the generators 7, which correspond to the deformation of the beams and are located parallel, during manufacture, to the axis during stretching-compression of the bellows, compensating bellows 2 and symmetrically relative to its axis. are subtracted from each other.

As can be seen from Fig. 4, which shows an enlarged view. additional strain gauge transducers of the vertical plane passing through the axis 20 are shown in Fig.10. The presence of a change in the signals of the bellows 2. Beams 5 have a horizontal plane - at the same time on three tensometric transformations of symmetry, which passes between the sections 6 and which, to the eyes 21, indicates a change in the pressure in the liquid and its magnitude - coincides with the horizontal plane that penetrates, which can be taken into account in the results, see through the axis of the bellows 2. measurement.

Figures 5 and 6 present, respectively, the longitudinal section and the cross section along B-B of another variant. sensors of the invention, which are similar to the fact that the temperature representation of any suitable type, which is shown in Fig. - bellows, as well as on a flow-sensitive pipe or otherwise, which passes through the axis of bellows 2 and which is placed in an acceptable place. coincides with the vertical plane of symmetry of Fig. 11 shows a perspective view of two beams 5. In this case, a strain gauge is created from the variants of the OVVGR with one parallelogram-type force, and the most sensitive to the background and open at the far end flow-sensing deformations of section 6 beams 5 are located on their left pipe, in which strain gauge 1 contains the ends. flexible elastic casing in the form of external force

Figures 7 and 8 show, respectively, the view of the background 21, which is fixed on flanges 11 and 12 and on top of the OVVGR with an O-shaped flow sensor covering the space between them, the inlet device with a connecting pipe and the section of the strain gauge of this OVVGR along B-B. (Fig. 1) strain gauge 1 additionally includes

Both bellows 2 and 2", the diameter of the through-holes of the transition pipe 22, the flange 23 of which rigidly coincides with the diameters of the inlet holes and is attached to the inlet flange 11, and the flange of the pipelines and the inlet and outlet 24 of which is made with the possibility of rigid acceptance - we are an O-shaped flow-sensitive pipe, rigidly attached to the flange of the inlet pipeline (not fixed with its ends, respectively, in the holes 18, mentioned). In addition, the measuring device 10 of 18 and 19, 19" flanges 11 and 12 with the coaxial located in two blocks - block 25 for processing the openings of bellows 2 and 2 at the ends. Signal flange and unit 26 of measurement and indication. 11 is made with the possibility of fastening with bolts to The following describes the operation of the devices according to the flanges of the pipeline, and the flange 12 is rigidly attached to the flanges 18 and 18 of the TSH- Transition nozzle 22 with the flange 24 - a similar flow-sensitive pipe. Bellows 2 and 2 go to the flange of the inlet pipeline and, if made with the possibility of hermetic connection, to the fixed support 9 relative to the ground according to the outlet of the inlet pipeline and to (Fig. 2). When creating a flow of the measured liquid, the inlet of the output pipeline, and also, accordingly, such that the entire flow-sensitive pipe 8 is surrounded by it behind the inlet and outlet of the O-shaped flow-sensitive pipe, the strain gauge 1 begins to deform with the help of, for example, sealing rings (not under the influence of the weight of the flow-sensitive pipe 8. At the same time shown), similar to those described above. rigid beams 5 (Fig. 1-6) create resistance to this deformation

In this case, the strain gauge 1 contains only one rmation, and their most sensitive sections 6, on which the strain gauge transducers 7 are glued to the beam 5, which has a horizontal plane of symmetry, deform-

Claims (19)

( (51) МПК (2009) Ко соїм 9/00 ХО МІНІСТЕРСТВО ОСВІТИ Ї НАУКИ УКРАЇНИ ДЕРЖАВНИЙ ДЕПАРТАМЕНТ о; П И С ІНТЕЛЕКТУАЛЬНОЇ ВЛАСНОСТІ ДО ПАТЕНТУ НА ВИНАХІД иХЗЗЄлТНЬООЬНЬХЬИЬКИЬТКИТНТЬИКИЬНИНЬКИИЬТЬКЬИЬНЬИЬНЩКЬКИЬНИНККШИИКККНИИЬИЬНТНЬТЬТЬТЬТЬТЬТЬТЬТЬТЬТЬТЬЬТЬТЬТЬИЬЬЬЬССТСЬСЬЬИЧТЬИОТИ:ННИООВИНИВИНИЬ: ТОТЙіИОИКТШОВЕБМШЖІТГШНВШЛВШОВТОООИІОИОЬТИТЬНЬИНЬИНИНИНИИНЯ (54) ТЕНЗОДАТЧИК ДЛЯ ОБ'ЄМНО-ВАГОВОГО ВИМІРЮВАЧА ГУСТИНИ РІДИНИ AND VOLUME-WEIGHT LIQUID DENSITY METER ON ITS BASE 1 2 (21) ag00810237 2. Strain gauge according to claim 1, which differs in that (22) 08.08.2008 the first bellows is cylindrical, and its internal (24) 25.11.2010 diameter is equal to the diameter of the holes (46) 25.11.2010, Byul.Me 22 , 2010 of the inlet pipeline and flow-sensitive pipe. (72) KOVALYUK SERHII VSEVOLODOVYCH 3. Strain gauge according to claim 2, which differs in that (73) KOVALYUK SERHII VSEVOLODOVYCH input and output means of connection have a pair (56) 5 4285239 A; 08/25/1981 holes, the diameter of which is equal to the diameters of holes 05 4644803 A; 24.02.1987 of the inlet pipeline and flow-sensitive pipe and which ZY 1245941 A1; 07/23/1986 executed with the possibility of their mutual combination with ZY 1073620 A1; 02/15/1984 through the openings of the inlet pipeline and flow-sensitive valve 2286686 A; 23.08.1995 pipes, respectively, and the first bellows is sealed ZY 714232; 02/05/1980 attached with its ends to the holes of the specified M.V. Kovalyukh, S.V. Kovalyukh. Coal-grinding tru - means of joining. bno-cone mill of the new generation, accessories 4. A load cell according to any of the previous points, ryi and control devices // Znergetika i zlek- which differs in that the inner surface is triification. - 2001. - Mo 8. - b. 45-55. of the first bellows is covered with a lining made of polymer (57) 1. Strain gauge for volume-weight measuring material. liquid density unit, which includes at least one 5. The strain gauge according to any of the previous items, a sensitive elastic element, equipped at least with the difference that the rigid beams are attached to two strain-sensitive transducers, flexible elements glued to the deformation-sensitive film attached to the means of attachment to the intermediate or fixing surface . about an elastic pipe, made with the possibility of sealing 6. The strain gauge according to any of claims 1-4, which is connected to the outlet of the inlet pipe by the fact that the rigid beams are made as a single shield and to the inlet of the flow-sensitive pipe with a coaxial whole with means of connection. placement of adjacent holes, the input means of 7. The strain gauge according to any of the previous items, a connection made with the possibility of connection to which is distinguished by the fact that it contains two identical (there are) exits of the inlet pipeline and a rigid attachment, located during manufacture on both sides to a support that is stationary relative to the ground , and the outlet side from the first bellows, parallel to the axis (Ce), the connection means is made with the possibility of the first bellows and symmetrically relative to the axis of the rigid connection to the flow-sensitive pipe of the bellows. Gee, and each of the specified at least one heard- 8. The strain gauge according to any of claims 1-6, which separate elements are connected with the indicated means, which additionally contains the second strongest connection from the outside of the flexible pipe, and the strain gauge is rigidly attached by its ends to the - made with the possibility of being deformed under the impact of connecting means with the coaxial weight of the flow-sensitive pipe, which is distinguished by the location of its holes at the ends and made by the fact that the flexible pipe is made in the form of the first - with the possibility of hermetic connection to the outlet of the bellows, rigid attached to the specified flow-sensitive pipe and to the inlet of the outlet - the ends to the specified means of connection from the coaxial pipeline, and the inlet and outlet means are connected by the arrangement of its holes at the ends, each pipe is made with the possibility, respectively, of the connection of the specified sensitive elements made in the bath to the entrance of the outlet pipeline and rigidly in the form of a rigid beam, rigidly connected from the specified connection to the outlet specified O-shaped by means of their connection, and the beams of the flow-sensitive pipe. wrapped along the first bellows and made of 9. Strain gauge according to claim 8, which is characterized by the fact that the internal passage diameter of the second bellows in the vertical direction during stretching is equal to the diameters of the openings of the inlet piping and compression of the bellows in order to prevent deformation of the strain gauge. du and flow-sensitive pipe. 10. The strain gauge according to claim 8 or 9, which differs from the one attached at its ends to the indicated by the fact that the input and output connecting means have a second pair of holes, the diameter of which is equal to the holes at its ends, each of the indicated sensitive diameters of the openings of the outlet pipeline and sweat elements is made in the form of a rigid beam, a co-sensitive pipe and which are made with the possibility of their being rigidly connected with the specified means of attachment and mutual combination with the openings of the inlet piping, and the beams are located along the power line and the flow-sensitive pipe, and the second bellows of the background and made with the possibility of preventing deformation is hermetically attached with its ends to the mation holes of the first strain gauge in the vertical of the second pair in the indicated means of connection. direction when stretching or compressing the first 11. Strain gauge according to any one of claims 8-10, which has a bellows. differs in that the inner surface of the second 20. The meter according to claim 19, which differs in that the bellows is covered with a lining made of polymer ma- that the first bellows is cylindrical, and its inner material. the decisive passage diameter is equal to the diameters 12. The strain gauge according to any of claims 8-11, which differs from the opening of the inlet pipeline and the flow-sensitive one by containing one beam, a spread pipe. valve between the first and second bellows. 21. The meter according to claim 20, which differs in that 13. The strain gauge according to any of claims 8-11, which differs from the input and output connection means in that the axes of the first and second bellows pair of holes, the diameter of which is equal to the diameters of the holes during manufacture, are parallel, and the strain gauge holes of the inlet pipeline and the flow-sensing valve contains two beams located along both pipes and which are made with the possibility of their mutual relationship from the first and second bellows and sime-position with the openings of the inlet pipeline and sequentially relative to the plane passing through their co-sensitive pipes, respectively, and the first bellows of the axis, or the plane of symmetry of their location. hermetically attached with its ends in the holes 14. Strain gauge according to any of the previous points, specified means of connection. which differs in that the beams contain stress concentrators in the form of areas with a reduced 22. The meter according to any of claims 19-21, which is cross-sectioned, in which strain gauges are pasted, differs in that the inner surface of the first hand transducers. bellows of the first strain gauge is covered with footers 15. The strain gauge according to any of the previous items, which is made of polymeric material. which differs in that it contains a flexible spring 23. The meter according to any one of claims 19-22, which is one casing that is attached to the means, differs in that the rigid beams are attached to it and closes the space between them. intermediate or fastening means of attachment 16. Strain gauge according to any of the previous items, elements. which differs in that it is stationary relative to 24. The meter according to any of claims 19-22, which is supported by a pipeline. differs in that rigid beams are made as single 17. Strain gauge according to any of the previous items, not a whole with means of connection. which differs in that at least one sy- 25. The meter according to any of the claims 19-24, which is equipped with a pressure sensor on the base, is further distinguished by the fact that the flow-sensitive pipe has an eye-shaped strain gauge transducer, made in a similar shape, the measuring device has second inputs with the possibility of responding to changes in fluid pressure, similar to the first inputs, and the meter is inside the bellows. additionally contains a second similar to the first 18. The strain gauge according to any of the previous items, the strain gauge, the input means of connecting the second, which is characterized by the fact that at least one of the strain gauges is similar to the output means of the telephone equipped with a temperature sensor. connection of the first strain gauge and rigidly attached 19. Volumetric liquid density meter connected to a flow-sensitive pipe, an output device that includes a flow-sensitive pipe, the first strain gauge connection of the second strain gauge is similar to the sensor and the measuring device, and the first input means of connecting the first strain gauge, the strain gauge contains at least one sensitive and made with the possibility of connecting to the output - an elastic element, equipped with at least two legs of the pipeline, and the outputs of its strain-metric transducers glued to its surface sensitive to deformation are connected to the other outputs of the flexible strain-metric transducers, flexible cutting device. an elastic pipe, hermetically connected to the inlet 26. The meter according to any of claims 19-24, which is of a flow-sensitive pipe and is made with the possibility to differ in that the flow-sensitive pipe has an O-tight connection to the outlet of the inlet pipe-like shape, and the first In addition to the pipeline and the rigid connection to the stationary, the strain gauge contains a second bellows, rigidly attached to the ground of the support, and the output means of connection, with its ends to the specified means of connection with rigidly connected to the flow-sensitive pipe, the diagonal arrangement of its holes at the ends and the wives of at least one of the indicated sensitive elements made with the possibility of hermetically connecting elements connected with the indicated means of connection to the outlet of the O-shaped flow-sensitive pipe and to the externally flexible pipe, the outlets of the strain gauge transition of the outlet pipeline, the input means of the closures connected to the inputs of the measuring depth made with the possibility connection to the device, and the first strain gauge is made of the inlet of the outlet pipeline, and the outlet means to deform under the influence of the weight of the flow connection is rigidly attached to the outlet of the I-sensitive pipe, which is distinguished by the fact that it is flexible, similar to the flow-sensitive pipe. the pipe is made in the form of the first bellows,