RU2530786C1 - Method of controlled force generation for balances check and device for method implementation - Google Patents

Abstract

FIELD: measuring instrumentation.

SUBSTANCE: method involves loading of bearing platform of a loaded system by force generation device with mobile support, load measurement by dynamometer element positioned on the force application axis, and force value reading. Controlled force is generated by a device including one or more supports that can be moved by one or more force generation devices, one or more dynamometer elements linked to electronic unit, one or more tensile elements used to compensate forces produced by changes in physical and geometrical parameters of the device; bearing platform of loaded system is loaded by mobile support shift to stop against an immobile support, load force is determined by dynamometric elements transmitting electrical signal proportional to response of the bearing platform of loaded system tot electronic unit converting electrical signal to force and indicating force value in a display.

EFFECT: force replacement, simplified design of load bearing platforms.

11 cl, 1 dwg

Description

The invention relates to weighing equipment and can be used in various industries for calibration, calibration and calibration of platform, automobile, wagon and other tensometric and mechanical scales.

The known method (RU 2419771 C2, IPC G01G 23/01, op. 27.05.11), in which a portable force adjuster is connected to the base, is applied using a power input link of the force adjuster to the load receiving platform, directed along the load vertical, they are measured using a reference sensor. Compare the measured values of the applied loads with the readings of the scales and determine the error of the scales, place the power-supply link of the force adjuster between the load receiving platform of the scales and the base. A load is placed on the weighing platform of the balance equal to the upper value of the specified loading range, for example, the maximum weighing limit of the balance. Then, by means of a force adjuster, values of the force are set that unload and load the load receiving platform.

The disadvantage of this method is the low accuracy for checking the balance and use mainly for bulky goods.

A known method of calibration of scales (RU 2278359 C2, IPC G01G 23/01, op. 20.06.2006).

During verification, the test weight is measured on an exemplary scale, the control weight is measured on a verified balance, and verification is carried out by comparing the results of the measurements. As a control load, a working load is used, the weight of which is to be measured during operation of the verified scales, and the measurement of the weight of the working load on model and verified scales is carried out simultaneously. During the measurement, the vector of forces created by the weight of the working load is combined with the axes of the corresponding pairs of load cells of the model and calibrated scales. The technical result consists in increasing the reliability of the verification result and reducing the complexity of the implementation of the method.

The disadvantage of this method is the low accuracy for checking the balance and use mainly for bulky goods.

A device is known (RU 71428 U1, IPC G01G 23/01, op. 10.03.2008) for calibrating tensometric scales, including a housing mounted on a fixed support, in which a force-absorbing means is placed, loading a tensometric force measuring element of an exemplary load mounted on the movable part by load application axes, and verifiable strain gauge force measuring elements mounted on a fixed support symmetrically with respect to the load application axis, characterized in that the force-setting means is installed in the upper part of housing with the possibility of loading by leaning on the tensometric force measuring element of the exemplary load and the movable part with the possibility of loading by leaning on the verified tensometric force measuring elements.

A pneumatic jack in the form of a rubber cushion reinforced with a metal cord was used as a silos.

The disadvantage of this device is that by virtue of using only a pneumatic jack, it does not allow creating large loads due to a significant increase in pressure.

The closest solution to the proposed invention is a device for checking weights (RU 2171972С2, IPC G01G 23/01, op. 10.08.2001). A small-sized device for checking tensometric hopper scales is proposed, comprising a loading means connected by a link to the weighing hopper, and a means showing exemplary loads. Moreover, as a means showing the magnitude of the exemplary load, a standard strain gauge force measuring device installed along the axis of load application between the beam and the housing is used, and a standard strain gauge sensor can be used as a force measuring means.

This device can only be used for checking bunker scales.

The objective of the proposed solution is a method for replacing static forces created by direct loading of weighing devices with loads of known mass during calibration and verification, controlled by forces created by loading devices with movable supports, which simplifies loading operations, reduces the size and simplifies the design of bearing platforms for cargo placement.

The problem is solved using the method of creating a controlled force during calibration and calibration of weighing devices, including creating a load on the support platform of the loaded system with a force-generating device with a movable support, measuring the load with a force measuring element located along the axis of application of forces, and reading force readings.

To create a controlled force, use a device containing one or more supports made with the possibility of movement with the help of one or more force-generating devices, one or more force measuring elements associated with the electronic unit, one or more elastic elements as a compensator for forces arising from a change in physical and geometric parameters of the device, load the supporting platform of the loaded system by moving the movable support all the way into the fixed support, determine the loading force using forces measuring elements transmitting an electric signal proportional to the reaction of the reference platform of the loaded system into an electronic unit, converting the electric signal into a force value with the display of force readings on the scoreboard.

Preferably, jacks, hydraulic or pneumatic devices, screw pairs are used as a silo-creating device.

Preferably, strain gauge or transducer sensors that provide an electrical signal proportional to the force generated are used as force measuring elements.

Preferably, the elastic element, which is a force compensator, is installed in front of or after the force-creating device.

Preferably, using the electronic unit, the process of loading, monitoring and controlling the generated force is carried out.

The problem is also solved with the help of a device for creating a controlled force during calibration and calibration of weighing devices, including a force-generating device with a movable support, a force measuring element located along the axis of application of forces.

The device contains one or more supports made with the possibility of movement using one or more force-generating devices, one or more force measuring elements associated with the electronic unit, one or more elastic elements as a compensator for forces arising from a change in the physical and geometric parameters of the device.

Preferably, jacks, hydraulic or pneumatic devices, screw pairs are used as a silo-creating device.

Preferably, strain gauge or transducer sensors that provide an electrical signal proportional to the force generated are used as force measuring elements.

Preferably, the elastic element, which is a force compensator, is installed before or after the force-creating device.

Preferably, the electronic unit is configured to carry out loading processes, control and control the generated force.

Preferably, a jack is used as a force generating device, a strain gauge sensor is used, a centering washer is located between the jack and the sensor in the housing, after which a support washer is located.

The drawing shows a device for implementing the method of creating a controlled force during calibration and calibration of the balance.

This device is installed between the stationary reference plane-support 2 and the supporting platform 7 of the loaded system. The required force appears as a result of the reaction of the loaded fixed supports 2 when moving the movable supports 1 of the device.

A device for creating a controlled force comprises: a movable support 1, a jack as a force-generating device 3, an elastic element 11, a centering washer 4, a strain gauge 5, a support washer 6, an electronic unit 8, an electronic unit 9 scoreboard, a housing 10 of the force-generating device.

The operation of the device to create a controlled force during calibration and calibration of weighing devices is shown on the example of a force-creating device made in the housing 10 with one jack 3 and one strain gauge 5.

When the movable support 1 is extended by the rod of the jack 3, the support abuts against the fixed support plane-support 2, the reaction force of the support plane-support 2 is transmitted through the elastic element 11 and then through the rod and housing of the jack 3 to the centering washer 4, then to the strain gauge 5, then on the supporting washer 6, then on the supporting platform 7 of the loaded system or device. The electronic unit 8 converts the electrical signal from the strain gauge sensor 5 into a force value and displays its value on the display panel 9 of the electronic unit 8. Setting the required force on the loaded support platform 7 is such an extension of the movable support 1, in which the force value displayed on the display panel 9 of the electronic unit 8 will correspond to the required load. The elastic element 11 is a compensator for the forces arising from the extension of the movable support 1, the number of elastic elements 11 in the housing 10 depends on the technical conditions. The elastic element 11 is made of any elastic material known in the art.

The electronic unit 8 is equipped with a microprocessor and other electronic components known from the prior art.

The drawing shows a device for creating a controlled force in the basic version, including one movable support, one force-creating device, one load cell and one elastic element. The number of elements in this device depends on the required load, based on the technical requirements of the devices being calibrated or calibrated, weights, instruments and other equipment.

The technical result of the proposed method and device is the replacement of static forces created by direct loading of weighing devices with loads of known mass during calibration and verification, controlled by forces created by loading devices with movable supports, which simplifies loading operations, reduces the size and simplifies the design of bearing platforms for placement cargo.

Claims (11)

1. A method of creating a controlled force during calibration and calibration of weighing devices, including creating a load on the support platform of the loaded system with a force-generating device with a movable support, measuring the load with a force measuring element located along the axis of application of forces, and reading the force readings, characterized in that to create a controlled force use a device containing one or more supports made with the possibility of movement using one or more silo-creating devices c, one or more load-measuring elements associated with the electronic unit, one or more elastic elements as a compensator for the forces arising from changes in the physical and geometric parameters of the device, load the support area of the loaded system by moving the movable support all the way into the fixed support, determine the loading force with using force measuring elements transmitting an electric signal proportional to the reaction of the support platform of the loaded system into an electronic unit that converts the electrical system drove into the value of strength with the conclusion of the readings of force on the scoreboard. 2. The method according to claim 1, characterized in that the jacks, hydraulic or pneumatic devices, screw pairs are used as a silo-creating device. 3. The method according to claim 1, characterized in that as load cells use strain gauge or transducer sensors that produce an electrical signal proportional to the generated force. 4. The method according to claim 1, characterized in that using the electronic unit carry out the process of loading, control and management of the generated force. 5. The method according to any one of claims 1 to 4, characterized in that the elastic element, which is a force compensator, is installed in front of or after the force-creating device. 6. A device for creating a controlled force during calibration and calibration of weighing devices, including a force-generating device with a movable support and a force measuring element located along the axis of application of forces, characterized in that the device contains one or more supports made with the possibility of movement with one or more force-generating devices, one or more force-measuring elements associated with an electronic unit, one or more elastic elements as a compensator for forces arising from a change in physical and geometric parameters of the device. 7. The device according to claim 6, characterized in that the jacks, hydraulic or pneumatic devices, screw pairs are used as a force-generating device. 8. The device according to claim 6, characterized in that as load cells use strain gauge or conversion sensors that produce an electrical signal proportional to the generated force. 9. The device according to claim 6, characterized in that the elastic element, which is a force compensator, is installed before or after the force-creating device. 10. The device according to claim 6, characterized in that the electronic unit is configured to carry out loading processes, control and management of the generated force. 11. The device according to any one of claims 6 to 10, characterized in that a jack is used as a force-generating device, a strain gauge sensor is used, a centering washer is located between the jack and the sensor in the housing, after which the support washer is located.