SU1291826A1 - Balance with checking device - Google Patents

Abstract

The invention relates to weighing technology and allows the measurement range to be expanded while simultaneously simplifying the design. Before weighing, the holder of stand 4 with the help of lever 2 and cam 3 is superimposed with reference weight 1, and the weighing system is balanced with a-; by the power of the load 15. The reference weight 1 is removed from the rack holder 4, the lever 6 deviates from the equilibrium position and the signal of the displacement sensor 12, which is fed to the input of the amplifier 13, whose output current is fed to the compensation converter coil 14, changes. coil 14 returns the lever 6 to the initial horizontal position, and the current simultaneously supplied to the input of the analog-digital converter 17 is converted to a discrete form and fed to the input of the calculation unit 18 and further to the input 19 of the indicator of The load is balanced by changing the amount of current supplied to the coil 14, in proportion to the deflection angle of the lever 6. sludge. i (L S AND O rv9 cp CX) INS O)

Description

The invention relates to weighing technology, namely to weighing devices, in which equilibration is achieved by electromagnetic means,

Electromagnetic scales with switching weights are known (USSR author's certificate No. 870960, cl. G 01 G 7/04, 21.01, 80).

The closest to the invention to the technical essence and the achieved result are electromagnetic scales with a calibrating device containing the main and auxiliary levers forming a hinged parallelogramm lever mechanism. The main and auxiliary levers connected to the load-bearing stand connected to the platform and the holder of the reference weight, the superimposed reference mechanism weight and compensating weight converter, serially connected with analog-digital converter, calculator and display unit (German Federal Standard No. 2601165, cl. G 01 G 7/02 1978).

A disadvantage of the known device is the impossibility of extending the measurement range without using additional switching weights, since the reference weight is used only for calibration, which complicates the design of the balance.

The purpose of the invention is to expand the measurement range while simplifying the design.

The drawing shows a diagram of the scales with a verification device.

The scale contains a reference weight 1, a verification device in the form of a mechanism for applying a reference weight, a switching lever 2 and a disk cam 3 connected to a drive (not shown). The reference weight holder 1 is mounted on the load-receiving rack 4. The cargo-receiving rack 4 is connected to the platform 5 and, with the help of the knife supports, to the main 6 and the auxiliary 7 levers to form a hinged

a parallelogram lever mechanism 50, the cargo is loaded by a puma. The main lever 6 relies on a new change in the magnitude of the supplied

in the moving coil 14 of the current is proportional to the angle of deflection of the main lever 6.

chewing support 8, and the auxiliary lever 7 is connected with the knife support 9:, and the cushions of the knife supports 8 and 9 are fixed on the body 10 of the scale. With the additional arm of the main lever 6, a compensation converter 1 1 masses is connected, containing a displacement sensor 12, an amplifier 13, a movable

o -, 2,

29182ft-2

coil 14. On the additional arm of the main lever is a tare load

ten

15

20

15.

The compensating weight converter II also includes the constant Marv Vit 16.

The output of the moving coil 14 is connected via an analog-digital converter 17 to the input of the calculating unit 18, the output of which is connected to the input of the display unit 19.

Scales with a verification device operate as follows. I, Before starting the weighing, the holder of the load receiving stand 4 with the help of the switching lever 2 and the cube 3 is superimposed with a reference weight

I, and the weighing system is balanced with the help of the tare load 15. Then the standard weight 1 is removed with the help of the mechanism of its imposition from the support of the load receiving pillar 4, while the main lever 6 due to the arisen section. 25 the balance deviates from the equilibrium position, which leads to a change in the magnitude of the signal from the displacement sensor 12. The signal from the displacement sensor 1 2 is fed to the input of the amplifier 13, the output current of which is fed to the moving coil 14 of the compensation converter;

II. The force developed by the coil 14 returns the main lever 6 to its original horizontal position, and the current simultaneously applied to the input of the analog-digital converter 17 is converted to a discrete form and fed to the input of the calculating unit 18 and further to the input of the display unit 19 .

40 On the display unit of the display unit, indicate the mass of the reference weight 1. This value is entered, for example, by the operator into the memory of the calculation unit 18 with a minus sign, and on the display of the display unit 19, zeros are output.

Scales are ready to work. The weighed load is placed on the platform, and the result is read on the display of the display unit 19, Eq. 30

35

the load is changed by changing the value of the

into the moving coil 14 of the current is proportional to the angle of the main deflection. lever 6.

Scales work in two modes. In the first mode — with the reference weight 1 mounted on the load-support rack 4, weighting is performed in the range from the smallest

weighing limit to the middle of the full measuring range.

In the second mode, when we removed the reference weight 1 from the holder of the load receiving stand 4, the weighing is performed from the middle of the full measuring range to the maximum weighing limit.

During operation, the scales work is periodically checked by imposing a reference weight 1 on the holder of the load receiving pillar 4. In this case, the weight of the reference weight is displayed on the display unit of the display unit 19.

Claims (1)

Invention Formula Scales with a poker device that contain the main and auxiliary levers forming the articulated parallelogram lever mechanism connected to the load-bearing stand connected to the platform and the holder body weight, the overlap mechanism Editor G.Volkov Tehred V.Kadar Order 223 / f O Circulation 694. Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 fO 2918264 The weight is compensated by a mass distributor, whose output is connected via an analog-digital converter to the input of a calculating unit connected by its output to a display unit, characterized in that, in order to extend the measuring range while simplifying the design, the main lever of the hinge parallelogramm lever - the mechanism is made with an additional shoulder, equipped with a tare load and connected with the coil of compensation P1 mass-forming with a symmetric 15th relative to the zero point of the working the characteristic, and on the load-receiving rack of the hinged parallelogram, a multi-lever mechanism is fitted with a holder of a reference weight, the mass of which is equal to half the maximum weighing limit of the balance. It is recognized by the invention according to the results of the examination carried out by the Office for the Invention of the German Democratic Republic. 20 25 Proofreader N.Korol