SU1165897A1 - Mass-measuring device - Google Patents

Abstract

1. MASS-MEASURING DEVICE, containing a rocker arm with a suspension for cargo and a supporting element, an electromagnetic compensator with a movable and stationary windings, an adjustable current source and a recording device, characterized in that, in order to improve accuracy by reducing the effect; vibro-noise, a hydraulic amplifier is introduced into it, made in the form of two communicating cylindrical vessels of different diameters, filled, liquid and closed, with membranes on which pistons are mounted, a piezo sensing element, low-frequency and high-frequency filters, a converter, an adder and a power amplifier, with a moving coil electromagnetic censor mounted on the rod mounted on the piston of a smaller diameter cylinder and bearing the supporting element of the rocker arm, and the fixed coil is fixed on the body of this cylinder, a piezo-sensing element is fixed on the piston of a larger diameter cylinder and pressed to it with a screw fixed on the cylinder cover, on which a rocker arm is hinged on the rack, the piezo-sensitive element connected to the converter, the output of which is connected through a low-pass filter to registering device, and through a high-frequency filter and power amplifier - with one input of the adder, to the other input of which an adjustable current source is connected, and to the output is fixed about otka electromagnetic compensator movable obmotO5 ka which is connected to a current source regulirueSP Momo. CX) 2. A device according to claim 1, where the UD is often in that the converter is made in the form of a generator connected to the input of a piezo sensing element, the output of which is connected via an amplifier to a frequency-to-voltage converting node.

Description

The invention relates to the measurement of masses, in particular, to devices for measuring small doses of products in assessing the performance of agricultural machinery under production conditions, for example, fertilizer spreaders, lines for post-harvest grain processing.

and tons of OP.

A device for accurate measurement of small doses is known, comprising a sensing element with a load cup, a suspension device, an imbalance indication device, an automatic balancing system with a compensator, and a setpoint generator .Ij,

However, this device is provided by-. The required accuracy of measurement is only under conditions that exclude the effect of vibrations and three on the measuring suspension.

The closest to the technical essence of the invention is a mass measuring device comprising a rocker arm with a suspension for the load and a supporting element, an electromagnetic compensator with a movable and fixed windings, an adjustable current source and a recording device 2J,

However, the known device does not possess the required stability and accuracy of work directly under production conditions, it loses the accuracy of measuring small doses of the product when exposed to vibration and vibrations. This is due to the fact that the principle of measurement is based on the movement of the rocker arms, and the electrical compensation and balancing methods used in this device do not provide adequate noise immunity in the difficult conditions of agricultural production.

The purpose of the invention is to improve the accuracy by reducing the influence of vibration interference.

The goal is achieved by the fact that a hydraulic amplifier made of a mass-carrying device containing a rocker with a suspension for the load and a supporting element, an electromagnetic compensated with a moving and stationary winding, an adjustable current source and a recording device.

in the form of two communicating cylindrical vessels of different diameters filled with liquid and closed with membranes on which pistons are mounted, a piezo-sensitive element, low-frequency and high-frequency filters, a converter, an adder and a power amplifier, while the movable coil of the electromagnetic compensator is fixed on the rod mounted on the piston of the cylinder smaller diameter and bearing the supporting element of the Rocker, but not. The dual coil is mounted on the body of this cylinder, the piezo-sensitive element is fixed on the piston of a larger diameter cylinder and pressed to it with a screw fixed on the cylinder cover, on which a rocker arm is hinged on the stand, and the piezoelectric element is connected to the converter, the output of which is connected through a low-pass filter recording device, and through a high-frequency filter and power amplifier - with one input of the adder, to the other input of which an adjustable current source is connected, and you the motion of the stationary winding of the electromagnetic compensator, the movable winding of which is connected to a regulated current source.

In addition, the converter is made in the form of a generator connected to the input of a piezo-sensitive element, the output of which is connected via an amplifier to a node converting a frequency signal into a voltage.

FIG. 1 is a schematic diagram of the device; in fig. 2 The functional scheme has been transformed; in fig. 3 - graphics, showing the operation of the device.

The device contains a hydraulic force transducer 1, which is the communicating cylinders of large 2 and small 3 diameters and filled with liquid. The outlet openings of the cylinders are closed by membranes 4. On the cylinders 2 and 3, glasses 5 are installed, respectively, of large and small diameter.

A piston 6 is mounted in a cylindrical cup of 5 m in diameter, connected by means of a rod 7 with a supporting element 8. In a cylindrical cup 5 of large diameter there is a piston 9, in the center of which is a piezo sensing element 10. Above the piezo sensing element. 10 is pressed through a rubber gasket 11 by a screw 12 mounted in the lid 13 of a large-diameter cylindrical cup 5 rigidly connected to the body of a hydraulic converter 1, One end of the rocker arm 14 is fixed to the key 13. via the stand 15 and axis 16 on the yoke 14 with the measuring head the suspension 17 is mounted on the supporting element 8. The electromagnetic compensator 18 has two windings 19 and 20. The winding 19 is fixed on the rod 7, and the winding 20 is fixed on the flange of the small diameter cylindrical cup 5. The winding 20 is directly, and the windings 19 through an adder .21 are connected to a constant current source 22 with adjustable installation. The entire structure of the device is closed by a hermetic casing 23. The piezoelectric sensing element 10 is connected to a signal converter 24, which consists (Fig. 2) of a master oscillator 25, element 10 connected to the input is piezo-sensitive, the output of the latter is connected to an amplifier 26, which is connected to a frequency-voltage converter 27 connected simultaneously through a low-pass filter 28 to a recorder 29 and through A 1-frequency filter 30 with a power amplifier 31, which is connected to one of the inputs of the adder 21 connected to the winding 19 of the electromagnetic compensator 18. The device operates as follows. In the general case, the force MUl falling on the supporting element 8 is equal to ... №Ctb-M.fi {t.), Where MO is the static load caused by the action of the measured mass and tare Q, i.e. MO + q J pW is the dynamic disturbance arising from the measurement of mass under vibration conditions and three-dimensional, which is p (tbiu (iV 2 v tV2q (t), gd L) | (i is the disturbance caused by oscillations of the mobile measuring system due to the effects of disturbances (vibration, tr sca), - interference due to inertial forces of the measured mass, o (t) - interference caused by inertial forces of the container. Thus, or denoting 2, ° C (t) is the original Mil equation) (( : | fQt (t) 4-bi, (t). In the initial state, the static load force G is compensated by the electromagnetic KONmeHcaTOR 18, in when interacting the current in windings 19 and 20, an FO force is directed in the opposite direction, Te.fi and this equality is established by means of an adjustable installation on the current source 22. Compensation using an electromagnetic static load compensator G allows you to rewrite the original equation in the form H) M (bo6it) Thus, when the measured suspension 17 of the measured dose of agricultural products enters the receiving platform, a force is generated, which through the yoke 14, the supporting element 8, the rod 7 pulls into the piston not small diameter 6 force i As a result of the action of a small diameter piston 6 force i on the membrane 4 of the cylinder 2 of the hydraulic transducer condition 1 on the fluid side a reaction occurs. Р io, and Р f Р- 5, where S, is the cross-sectional area of a small-diameter piston 6 O is the specific fluid pressure caused by the force i (.t). Then, according to Pascal's law, the force P I acting on the piston

S

large diameter 9 through the membrane of large diameter 2 is equal to

ro ro 5g

-5 where 5.2 is a plateau1, the cross section of a large diameter piston 9.

Thus, the force P, -, is as much as the force P in how many times 5 times more than 5,. In other words, the hydraulic transducer 1 of the force serves as a hydrostatic amplifier P, where k is the gain.

The effect of shpz P, through the membrane 4 and a large diameter 9, is transmitted to the interelectrode space of the strand of the zoomed joint of 10s attached to the surface of a large diameter diameter 9 through a gasket 11 with a screw 12.

Thus, through the city of Hydra ... the transforming transducer. 1 and 1 transmits: and the dynamic disturbance f- (. (I. When, and n (tl - CU, (t), t, e. To the piez ochs1mzlichny; Dement 10 is valid

strength . Р г i 0) Р- this cjiBdug-notice that, thanks to the use of the proposed device, the hydraulic converter. 1 and the piezoelectric sensitization of the elementary element 10, it lacks the freedom vsbie ko.) The 1bath of the measuring system W (t) and the initial equation H1e can be written

-iltl C | ioG (t.)

Mechanical force P P g 7); Actually, it is possible to obtain a signal (fc) at the output of the frequency converter 24, at the working surface of the piezoelectric actuating element 10 (Fig. 2) 5. There is a constant component p °, proportional to the measured mass q and variable Z (t) proportional to the dynamic disturbance "1 (t). The signal (t) oddjuvreg sh-nno is fed to the inputs of the low-frequency O 28 and high-frequency 30 filters. On the low-pass filter code 28

65897

DC is allocated constant component is proportional to the measured mass, which is fed to the input of the recorder 29. At the output

3, the high-pass filter 3.0 extracts the signal and (i) (FIG. 3) the proportional dynamic disturbance pt (t), which through the power amplifier 31 is fed to one of

  inputs from Nchmatorov 21, the second input of which is connected to an adjustable current source 22, and the output C of the winding 19 of the electromagnetic compensator 18, which causes in the latter S a variable force j (t), allowing to compensate for the dynamic disturbance about {(t.

The essential difference is the proposed. : -to my mass measuring device

20

is that missing here

When measuring mass, the movement of the device elements, i.e. no interference from free oscillations

.i.measuring suspension C (t), bla "I

the year of which is greatly enhanced

its noise immunity from trki and vibrady. In addition, the electromagnetic compensator, due to the adjustable source of constant 3–} current, allows to compensate the static tare load (and the feedback from the transducer of the piezo sensing element through the high-frequency filter, the power amplifier and the adder allows to compensate the dynamic disturbance “; (t) caused by the inertial forces of the measured mass and tare. Thus, the proposed

The -W device allows you to control with the necessary degree of accuracy. in conditions of vibration and three small doses of agricultural produce.

Testing the prototype,

 conducted in assessing the quality of mineral fertilizers, show that the proposed device has the required reliability and accuracy of work. When measuring

5§ batches of mineral fertilizers weighing 2.5-125 g, the error is i 0.007 g.

w

one

U JO J

Tch

Sh

H

f

Ftg

Siena / 1 with 8i, ixoda preo5ra.zo6atvm

Output signal is low.

Signal from Exit bysono ac / potmolo (riltra

z / y

/ L a cpttAbfnpa

Claims (2)

1. MASS MEASURING DEVICE, comprising a rocker arm with a suspension for cargo and a supporting element, an electromagnetic compensator with movable and fixed windings, an adjustable current source and a recording device, characterized in that, in order to increase accuracy by reducing the influence / vibration noise, a hydraulic an amplifier made in the form of two communicating cylindrical vessels of different diameters, filled with liquid and closed, with membranes on which pistons are mounted, a piezosensitive element, low hours a different and high-frequency filters, a converter, an adder and a power amplifier, while the movable coil of the electromagnetic compensator is mounted on a rod mounted on the piston of a cylinder of smaller diameter and bearing the supporting element of the rocker arm, and the fixed coil is mounted on the body of this cylinder, the piezosensitive element is mounted on the piston of the cylinder of the larger diameter and pressed to it by a screw, mounted on the cover of this cylinder, on which the beam is pivotally mounted on the rack, and the piezosensitive element It is connected to a converter, the output of which is connected through a low-pass filter to a recording device, and through a high-pass filter and a power amplifier, to one input of the adder, to the other input of which an adjustable current source is connected, and to the output there is a fixed winding of an electromagnetic compensator, the movable winding of which is connected to an adjustable current source. 2. The device according to claim 1, characterized in that the transducer is made in the form of a generator connected to the input of a piezosensitive element, the output of which is connected through an amplifier to a unit for converting a frequency signal into voltage.