DE2908573A1 - FLOW METER - Google Patents

Description

March 2nd 1979

Ηβ. W. DAIS «* Ed./kr

PipL-iTW.H.-J.Uppert

Patent Attorneys 2908573

Bc .. ..... '. V-I Uirßa 137

5OuO Cwivj-si Gbdbach 3

Milltronics limited Peterborough, Ontario, Canada

"Flow meter"

The invention relates to flow meters for measuring serve the flow rate of solid material through a channel and "where the recoil forces are measured from the impact the solid particles on a plate arranged in the channel result.

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In known flow meters of the aforementioned type, an inclined or Y-shaped AldIendplatte is in the channel pivotable against the force of one or more springs or arranged displaceably and the displacement of the plate is sensed by an energy converter. With a well-known Flow meter (US-PS 3,640,135) the horizontal component of the force transmitted to an inclined plate is measured, as this avoids inaccuracies caused by the weight of the material that is deposited on the plate, if the vertical component were to be measured. In this patent, devices are described which either the pivoting movement or the sliding movement of a Measure arm that carries the plate. In another known flow meter (US Pat. No. 3,742,762), the baffle is supported by a parallel linkage. The material whose flow rate is to be measured is often very dusty and in some cases contains lumps or foreign objects. On the other hand, for accurate measurement it is important that frictional losses in the bearings that support the arm holding the plate and other disturbing forces reduced to an absolute minimum will. In practice, compromise solutions are required in order to seal the bearings against the dust without using sealing members, which in turn exert considerable forces be able to exercise the arm, as bearings are used that are robust enough to withstand normal working conditions, without generating additional friction. Another problem is

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is in such Burchflußmengenmesser therein ₉ Gaß the Krsft that © converter acts on the Snergi, normally the rotation is = moment, the xfirdo transmitted through the deflector plate to the arm, this torque will change depending on the part of the plate ,, to which the Material on meets »This way, if the amount of material flowing across the width of the plate is uniform, or at least symmetrical, the measurement will contain inaccuracies. This problem can be reduced by placing the baffle on an arm that is long compared to the width of the plate. However, this in turn increases the aforementioned sealing problems and makes the device bulkier.

There are also flow meters are known in which the deflection of a probe is measured by a medium that flows over it or through it. Examples of such arrangements are described in U.S. Patents 2,897,672, 3,147,620-3,424,000, and 3,908. However, these meters are all designed for media and are unsuitable for measuring the flow rate of solids. In this way the deflectors will only collect a small portion of the current through a conduit, while the device described in US Pat. No. 2,897,672 would likely become clogged if used with pesticides. That in Pig. Illustrated embodiment 3 and 4 is designed so that the largest area of the measuring plate äureö the construction is covered _s what the impact of Jfeststof- =

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fen on the plate. US-PS 3,557,616 describes a flow sensor for p "article-shaped material, in which a flexible probe is used. However, there is no indication that this is a measuring device or that it is an accurate one Measuring a flow rate of solids can be performed. In addition, none of the patents describe it Devices capable of measuring a component of a force perpendicular to the direction of flow. The said Figures 3 and 4 show a device that acts indiscriminately on force components that are both parallel and perpendicular run towards the direction of flow.

It is also known to use strain gauges as an energy converter for measuring devices for solids. With such a Apparatus described in U.S. Patent 3,650,340 are strain gauges in opposing pairs of spaced apart used lying points on an arm that forms an axle or a drawbar of a vehicle, and are in connected to a bridge to indicate the vertical load acting on the axle or the drawbar, while indicators, that originate from other force components are canceled. Such bridged strain gauges are also used in the flow meters described above are used.

Nowhere is a particulate solids flow meter has been proposed to solve the problems of sticking

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Removed material on the measuring plate and working out clay Store xmd protective shields no longer necessary and with furthermore it is no longer necessary * that what is to be measured Material evenly or symmetrically onto the measuring plate meets. In addition, the flow meters described above are not suitable for measuring the flow rate of Air or gas that carries solids with it, since these measuring devices are not able to absorb forces originate from the gas and distinguish those from the Solids are generated.

The invention provides a flow meter of the type comprising an inclined plate in which the perpendicular component of the reaction created on the plate is measured by measuring the difference between the bending moments imparted by that component to im -apart points are generated on a boom or booms from each other, the or "constituting the only obstruction of settlement of the plate depending% ^r on the said vertical Küekwirlrangsköffiponente * This difference is proportional to the G-ize of the vertical RliefocLrkungskomponente and SWR flow rate and is the ergieumwan independent of the DC = moderate © eggs symmetrical distribution fies stream _s "on the leaf auftriffto Bie bending moments through En are measured filer attached to the boom fozw _a the booms to"geleg's sinus trodtircli no mechanically © S & pplisng the plate with

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the exterior of the housing is required,

More precisely: the flow meter for particulate Contaminants include a housing which provides an inlet for a stream of the particulate material, at least one Plate placed in the housing below the entrance so that the flow of material flowing through the entrance is deflected wherein the plate is inclined relative to the plus direction of the material through the entrance so that it is subject to a repulsive force which has a component which is perpendicular to the flow direction, the plate comprising support means, comprising at least one bracket extending between said one plate and a fixed point on the housing extends to meet said perpendicular component of the recoil force with each of the cantilevers being perpendicular relative to the force component. Also includes the flow rate meter an energy converter system, the expansion resp. Contains tension gauges that point to the at least one boom in two longitudinally spaced pairs are arranged, the knives of each pair on opposite sides of the boom with respect to the direction of the said vertical force component are arranged, said pairs of blades responding individually to bending forces that are generated by said perpendicular force component in the boom and wherein the strain gauges electrically with a normally in equilibrium

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Finding bridge circuit are connected so that a balance weightf e of the bridge circle is proportional to the "said vertical force component. Finally, the flow meter includes Devices for measuring the equilibrium error and thus the flow rate of the solid.

This arrangement does not include any "moving parts extend through the housing, the bracket or brackets being able to be dimensioned as thick as necessary for this reason the flow meter according to the invention is simple and robust. It is also compact, since the strain gauges, which form the energy conversion elements, can be located inside the housing and therefore not an additional one Housing outside of the device housing is required that the energy converter and leading to this mechanical Would have to take up rods.

Further advantages of the invention will be explained in more detail with reference to the drawing, the preferred embodiments of the Flowmeter represents. In this drawing show:

Pig. 1 is shown partially broken away

perspective view of a flow meter according to the invention;

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2 shows a perspective view of a modified measuring plate;

Fig. 3 is a basic circuit diagram of the electrical

Circuit of the flow meter of Figure 1;

4 and 5 alternative forms of cantilever arms for supporting the measuring plate and

6 shows a further embodiment of the flow meter with the housing removed.

The flow meter shown in Fig. 1 for particulate Solids comprises a box-like housing 2 with a top inlet 4 which is connected to a pipe from which the material to be measured flows out. In the housing upstream of the entrance, an inclined plate 6 is arranged in such a way that that this intercepts the material entering the housing. The angle of inclination of the plate is chosen so that the tendency of the Material adhering to the plate is lowered to a minimum. The case is big enough to have a free space around it around the plate so that the material can freely fall through the open bottom end of the housing. That on the

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Plate 6 falling material is deflected laterally, so that a horizontal recoil component on the plate in addition to a vertical component is generated.

The plate 6 is attached to an arm via a bracket 10, which runs parallel to the plate and extends horizontally as a bracket from a bracket 14, which is fixed to the housing 2 is connected. The arm 12 is made of strip steel and is of considerable width, but is relatively thin. Ir resists vertical deformations, however, can be considerable in a horizontal plane depending on a horizontal recoil force are bent, which results from the falling on the plate 6 material. Animal identical strain gauges mutable Resistance are in pairs 16A, 16B and 160, 16D at longitudinal intervals with respect to the horizontal restoring force opposite vertical sides of the arm 12 arranged. The strain gauges arranged in this way respond to loads, which act on the plate perpendicular to the path of movement of the material and to the longitudinal axis of the arm when they are connected to an in Fig. 3 shown bridge circuit are connected. A voltage is applied to the bridge and any balance error the bridge is indicated by a measuring device 18 placed across the bridge. The arrangement corresponds to in US Pat. No. 3,650,340 which has a similar strain measuring system shows the above and & nth with a vehicle axle or a tie rod is connected to measure its load,

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as explained in more detail in this patent specification. The size of the bridge's imbalance caused by the measuring instrument 18 is directly proportional to the load on the rod in a plane perpendicular to that of the extensometer stands. In the present case, this load is formed by every horizontal component of the force acting on the Plate 6 acts in a direction perpendicular to arm 12. Although the strain gauges are individually based on bending loads in the arm respond, the bridge as a whole responds to the actual horizontal force component acting on the arm, and not on the bending moment, since the difference between the bending loads occurring on the two pairs of knives is independent from the point of application of the bending force on the arm. The output on meter 18 is thus proportional to the horizontal component of the reaction of the material falling on the plate and consequently also proportional to the Amount of material flowing into the housing. It is ensured in a known manner that it is ensured that the material enters the entrance 4 at a known rate, for example against another fixed baffle be provided in the channel above the flow meter in order to constantly inhibit the solids, their flow rate should be measured.

It will be understood that other strain gage arrangements can be used provided that they are such that they can be used in the

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essentially only respond to horizontal deflections of the arm 12. The dimensions of the arm, which make it much easier to bend in the horizontal plane, support it essentially the distinction between the horizontal and the vertical component of force acting on the plate. Instead of a single element that is shown, can the arm comprise two or more elements that are parallel in Levels run in order to further increase their horizontal flexibility relative to their vertical flexibility. Examples such designs are explained in more detail below with reference to FIGS. 4 and 5.

In Fig. 1 of the drawings, the arm is shown so that it is over a bracket 10 is arranged on the end of the plate 6 facing away from the console 14. In some cases, that shown in FIG Embodiment are preferred »For example, can the arrangement may be such that the housing 2 does not provide a sufficiently rigid support for the console 14. In this case the arm 12 can be connected to the bracket 10 in such a way that the plate 6 extends away from the console 14, as shown in FIG. 2 and the arm can pass through an opening in extend the side of the housing to a point where the console 14 can be rigidly attached. If dusty Material to be measured may require this part of the arm extending beyond the housing to be enclosed in an appropriate envelope.

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The measuring device 18 and the voltage source for the strain gauges can be located remotely from the G-housing, which avoids any need for retrofitting to the housing, such as this is the Pail for conventional flow meters. The arrangement and wiring of the strain gauges must be as in the arrangement of strain gauges the Pail is, to be carried out in the usual way, to differential thermal effects and the Avoid picking up spurious signals. However, these techniques are well known and do not form part of the invention.

Although it has been described so far that the arm is designed in the form of a cantilever, others can of course also be used Arrangements are used. For example, the arm can fit the housing between fits in its opposite walls span, with a bracket that supports the plate in the center so that two are in opposite directions Arms extending in directions are formed.

In Pig. 4, a boom construction 38 is shown which increases the sensitivity of the system. Just a part of it Length of the boom in addition to the Eonsole 14 is formed by side parts 20 of a square frame 22, from which an arm 24 extends to support the plate 6 (see Figures 1 and 2). The side parts 20 are identical at points 26 with Grooves provided to form weakened zones where the strain gauges 16A to B are arranged, the strain gauges

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knives of each pair on opposite sides of the frame lie. With this arrangement, the loads are on the boom concentrated in the area of the strain gauge, increasing the sensitivity and the elimination of undesired output signals is increased.

The same result can be achieved with a boom construction 36, which is shown in I ¹ Ig. 5, "in which the arm 24 is supported on a bracket 14 by a single relatively thick rod 32 machined at each end to provide flat support flanges 26 and 28 for the bracket 14 and arm 24 and between them 30 are designed for the arrangement of the strain gauges 16A to D. The middle area is weakened by the effort of the strain gauges by two overlapping bores 34, which are arranged in such a way that next to the strain gauges, comparatively little wall thickness remains Cantilever of the horizontal restoring force; which acts on the plate, they do not have to form the entire support for the plate. In Fig. 6 of the drawing, an embodiment is shown (with the housing is removed for clarification purposes) ₉ in the the baffle 6 on a frame 40, which forms the opening in the G-housing, by two cantilever structures 38, as shown in Fig. 4, up-

is
hangs to support the upper edge of the plate 6 while

lengthwise cable 42 hold the lower edge of the plate. The up

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Hanging cables 42 do not constitute a restriction against movement of the plate 6 in a horizontal direction and in this way the horizontal recoil force is only absorbed by the boom structures 38. The outputs of the bridges that go through The strain gauges formed on the two cantilevers are added to get the output, eliminating all Errors due to the asymmetrical impact of the material to be measured on the plate can be avoided. In deviation from the In the embodiment shown in Figure 6, the top edge of the panel may be supported in the center by a single cantilever structure 38 furthermore, the boom structures 38 can be replaced by boom structures 36 shown in FIG. Assuming that that is a sin of the Boom is either firmly connected to the plate 6 or the frame 40, the other Dn.de can pivot on the plate or be arranged on the frame.

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Claims (11)

'' - "" '■■ "".' 'I': March 2, 1979 5 "'" * "" "" 3 23Ü8573 IJiIl ironies Limited Peterborough, Ontario, Canada Claims 1.jflow meter for particulate pesticides, with a plate inclined to the direction of flow of the solid substances fed into the device and with means for measuring the size of those occurring on said plate in a direction perpendicular to the direction of the hot water Reactions, characterized in that at least one arm (12 or 36 or 38) is the only one Limitation of the movement of the said plate (6) to the said reactions forms and that on the boom Energy conversion system (16) is arranged, the means (16A to D) for plotting the difference between the Bending moments of the boom at two points in the longitudinal direction at a distance from one another. 2. Flow meter according to claim 1, characterized in that the energy converter system (16) comprises two in the longitudinal direction at a distance from each other in pairs arranged strain gauges (16A to 16D), the strain gauges of each pair on opposite sides of the boom (12 and 36, respectively or 38) arranged -Z- 909838/0693 29üöb73 and are connected to a bridge circuit Ter ". 3. Flow meter according to claim 2, characterized by a housing (2) which forms an input for a stream of particulate material ", wherein the plate (6) in the housing under »the input (4) is arranged so that the flow of the through the input flowing material is deflected, the plate relative to the direction of flow of the material through the entrance so is inclined to be subjected to a repulsive force which is a component perpendicular to the direction of flow has, the at least one arm (12 or 36 or 38) between the plate (6) and one relative to the housing fixed attachment (14) extends and said vertical recoil force component is subject, and by means (18) for measuring the equilibrium errors and hence the amount of flow of the solid substances. 4. Flow meter according to claim 3, characterized in that the plate (6) is rigid is connected to one end of the boom (12 or 36 or 38) and that a rigid bracket for the other end of the boom is provided. 909838/0693 ORIGINAL IrSPE-: 5. Durchflußiaengenmesser according to claim 4, characterized in that the rigid bracket (14) is located on the side of the plate (6) facing away from the attachment point of the boom on the plate. 6. Flow rate meter according to one of the claims, characterized in that that the "or each boom is formed by an arm (12) and that the height of the arm is in a direction parallel to the direction of movement of the fixed, entering the device Substances are much larger than the thickness. Y. flow meter according to one of claims 1 "to 5» characterized in that the or each extension arm (36 ″ or 38) at least over part of its length has two side parts which are spaced apart from one another (20) with weakened areas and that the strain gauges (16A to D) at these weakened areas are arranged. 8. flow meter according to claim 7, characterized characterized in that the side parts lying at a distance from one another are the opposite sides a rectangular frame (22) and that the sides (20) to form the weakened areas with! Tuten (26) are provided. - 4 909838/0693 9. Flow meter according to claim 7, characterized characterized in that the spaced apart elements are facing away from each other (30) of a rod which is penetrated between the two sides by two overlapping bores (34), wherein the strain gauges (16A to D) are arranged on the outside of the rod next to the bores (34). 10. Flow meter according to claim 1, 2 or 3 »thereby characterized in that the plate (6) in the housing is partially supported by the at least one bracket (36 or 38) and is partly carried by devices that do not restrict the movement of the plate through constitute the perpendicular component of the recoil force. 11. Flow meter according to claim 10, characterized characterized in that the plate (6) in the (Jehäuse is suspended from a frame (40) which the. entry surrounds, the upper edge of the plate being connected to the frame by at least one bracket (38) and the lower edge being connected to the frame by suspension cables (42). 3G9838 / 0693