SU365583A1 - BMILOT ^ NL - Google Patents

Description

one

11 acquired for the field of weighing equipment.

Automatic weighing devices are known that contain a yoke with a balance system, a weight assembly and an isolating mechanism associated with the preweighting unit, and a control unit in the form of a program setting unit, an apalo-digital converter, an adder, memory, keys and keys.

In order to increase the speed of the proposed device in the control unit, the input of the analog-digital converter is connected to the node pre-weighed, and the equilibrium system of the balance arm, and its output is coupled to the node of the grenercourse and the adder via keys controlled by the program command node.

The drawing shows the described device.

The yoke / is equipped with a load-receiving suspension 2, on which is attached a rail 3 with a set of built-in weights and a ferrite core 4 freely moving along the axis of a fixedly mounted coil of a differential inductive sensor, consisting of a high-frequency generator 5 and a differential rectifying unit 6 connected to an automatic balancing circuit consisting of amplifier 7 and converter 8.

The insulating mechanism 9 is provided with an elastic support 10 with a displacement sensor 11 secured thereto, for example a mechanotron, of the preliminary weighing unit 12. Node 13 of the overlap is driven by the block 14 of the automatic overload.

The program setting unit 15 controls the optional mechanisms and circuit elements via keys 16, 17 and / 8. Analog-to-digital converter 19 is a digital analog signal that is a measure of the mass of the load.

The result of the preliminary weighing is recorded by the memory cell W and summed with the result of the final weighing by the adder 2 /.

The overall result is recorded by a digital indicator 22, documented on the digitizer 25.

The described device works as follows.

When a sample is applied to a load-receiving suspension 2 with an arrested rocker arm / forceful effect of the mass of the sample is transmitted to the displacement sensor (mechatronic), mounted on the elastic support 10 of the isolating mechanism 9. At the output of the pre-weighing unit there is a tension sample mass. The supply to the node 12 of the constant mixing voltage And cm (within the error of the sensor 11) further eliminates the need to introduce a negative corrective correction.

The pre-weighing result in the form of output voltage through the key 16 arrives at analog-to-digital converter 19, from where it is already digitally transmitted via the / 7 key to the storage cell 20 and the automatic hyrenalohydro unit, which drives the gyrenalide 13, which performs the weights from rail 3 in accordance with the result of preliminary weighing.

Thus, before the insulating mechanism is opened, the torque generated by the weight of the sample is compensated for by the torque generated by the weight of the weights removed, the mass of which is determined during the preliminary measurement with a certain error introduced by the displacement transducer (mehanotron) and does not exceed displacement and see

When the balance arm deflects from the output of a differential inductive sensor consisting of a high-frequency generator 5, a ferrite core 4 and a differential rectifying unit 6, and the amplifier 7 of the automatic balancing system receives an imbalance signal, and through the coil winding of the converter 8 a current flows through the unbalanced weight proportional to the mass at the preliminary stage. The voltage, which is an analogue of this mass, is fed from the output of amplifier 7 to the input of aaialo-digital converter 19 through a switch 16 and is transmitted digitally from converter 19

through the key 18 for summing up with the result of the preliminary weighing into the adder 21. The final weighing result is counted on the digital indicator 22 with simultaneous documentary registration on the digital printing device 23.

The use of an elastic device, rigidly coupled with an insulating mechanism, and a displacement transducer included according to the scheme described above, eliminates the beam from participation in the preliminary weighing process, which significantly reduces time costs at the most time-consuming stage. The use of the rocker for final weighing, when the unbalanced mass of the sample is minimal, increases the durability and reliability of the balance, reducing the time of work of the prism – pad contact pairs.

Subject invention

The automatic load measuring usgroystvo comprising a rocker arm system equilibration node gireialozheii and insulating mehaiizmom associated with the node prior weighing and block uiravleii n a node specifying program, an analog-digital converter, su.mmatora, zanominayu conductive cell and keys, wherein i & u, which, for the purpose of increasing speed, contains the control unit's input to the analog-digital converter (it is equipped with a pre-weighing unit and an amplifier. weights the balance arms, and Its output is a line with a hirring and summator node; via keys controlled by a program task node.