RU129632U1 - MEASURING DEVICE - Google Patents

Abstract

A weighing device comprising a measuring annular elastic element with tides, a radiation source and receiver, between which the curtains are located, an amplifying device and a measuring device, characterized in that a functional element and a comparison device are additionally introduced into the device, the output of the radiation receiver being connected to the inputs of the amplifying device and a functional element, and the outputs of the latter with the input of the comparison device, in addition, the output of the comparison device is connected to the input of the measuring of the device.

Description

The utility model relates to means for dispensing various media and can be used for automated weighing and dosing in the preparation of various mixtures.

Known weighing devices and dispensers have low efficiency during operation, primarily due to the complexity of the design of the device: a large error of the sensors when dynamically acting on them, the complexity and duration of service, the possibility of self-oscillations (see RF patent No. 2288452, published on November 27, 2006 )

In a powder weighing batcher (see RF patent No. 2383872, published March 10, 2010) consisting of a feeder, a load-receiving bucket with a draft, a load-transfer unit, a weight meter, a bucket empty pneumatic cylinder and a measurement and control system, the load-transfer unit is made in the form of a load lever , one end of which rests on a hinge, and the other on a sensitive element of the load cell, in the central part of the load lever there is a suspension with two vertical cheeks, separated by a through groove, in the cheeks through oval openings at tanovlen finger associated with a thrust with the possibility of vertical movement, the ladle is provided with the load catch, consisting of a spring-loaded rod with a pickup and an abutment cooperating with a fork pneumatic emptying of the bucket, the measurement and control system comprises a compensation and tare deciding unit amplifiers.

The device has several disadvantages. The presence of a large number of sufficiently high-precision and interconnected parts makes it difficult to maintain the structure. For example, for inspection, cleaning and lubrication of bearings, a partial disassembly of the weighing system is performed. In addition, periodic filling and emptying of the bucket, the presence of a loading lever with a suspension and moving elements create the possibility of oscillations of the weighing system, which will definitely cause accelerated wear of the elements of the weighing system and, as a whole, will reduce the reliability of the dispenser. Under the influence of cyclic loads on the load lever, in the latter, with time, permanent deformation occurs, distorting the measurement result. In addition, in the contact of the “load lever - weight meter” system, over time with cyclic loads, the redistribution of pressure force projections will occur, which will also lead to a distortion of the measurement result.

The technical result is an increase in the efficiency of the device.

The specified technical result is achieved in that a device containing a measuring annular elastic element with tides, a radiation source and receiver, between which there are shutters, an amplifying device and a measuring device, additionally a functional element and a comparison device are introduced into the device, the output of the radiation receiver being connected to the inputs of the amplifier device and the functional element, and the outputs of the latter with the input of the comparison device, in addition, the output of the comparison device is connected to the input m measuring device.

The invention is illustrated by a diagram of the device shown in the drawing.

The device contains a measuring annular elastic element 1 with tides 2, a source 3 and a radiation receiver 4, between which the shutters 5 are located, an amplifying device 6 and a measuring device 7. A functional element 8 and a comparison device 9 are additionally introduced into the device, the output of the radiation receiver 4 being connected with the inputs of the amplifier device 6 and the functional element 8, and the outputs of the latter with the input of the comparison device 9, in addition, the output of the comparison device 9 is connected to the input of the measuring device 7.

The device operates as follows. The device is operated using a measuring ring elastic element 1, which is deformed when an external load is applied, forming a gap between the curtains 5. Thus, the luminous flux from the radiation source 3, which will be received by the radiation receiver 4, is directly proportional to the load, and the luminous flux is converted radiation receiver 4 into an electric current, which is fixed, through a comparison device 9, by a measuring device 7. At the same time, the current is supplied to the input of the functional about element 8, the output signal of which is determined by the conversion function of element 8 and which, through the comparison device 9, corrects the readings of the measuring device 7. The conversion function of element 8 depends on the values and number of loading cycles of the annular elastic element 1 and determines the value of the residual deformation of the latter. Practically functional dependence is a priori determined by statistical studies, and other variables (temperature, vibration, etc.) can be taken as variable factors, in addition to the mentioned load and number of cycles.

The ability to correct the value of residual deformation due to the introduction of a functional element, allows to increase the measurement accuracy. In addition, the functional dependence of this element obtained on the basis of statistical studies allows one to take into account errors in one way or another: from nonlinearity, elastic imperfections of the material, temperature fluctuations, from the effects of linear accelerations, from the effects of vibrations, from changes in the properties of the material over time, etc. . Accounting for the above errors will improve the efficiency of the weighing and batching process in the preparation of various mixtures.

Claims (1)

A weighing device comprising a measuring annular elastic element with tides, a radiation source and receiver, between which the curtains are located, an amplifying device and a measuring device, characterized in that a functional element and a comparison device are additionally introduced into the device, the output of the radiation receiver being connected to the inputs of the amplifying device and a functional element, and the outputs of the latter with the input of the comparison device, in addition, the output of the comparison device is connected to the input of the measuring of the device.

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