RU2724386C1 - Mechatronic profilograph - Google Patents

Abstract

FIELD: instrument engineering.SUBSTANCE: invention relates to agricultural instrument-making. Mechatronic profilograph comprises solid base, level, angular sensor, electronic unit, laptop, moving arm with counterweight, laser position sensor, screw mechanism with carriage, electric motor with cylindrical gear. In order to rotate screw mechanism, providing movement of carriage with laser sensor in radial direction, electric motor is additionally installed. Signal processing electronic unit is connected by cables to sensors, electric motors and laptop equipped with measurement information system and computer control for coordinated operation of electric motors during measurement.EFFECT: higher reliability of measuring surface parameters throughout the analyzed area due to broader functional capabilities of the device.1 cl, 1 dwg

Description

The invention relates to instrumentation and can be used in various sectors of the economy, including digital farming, soil science and environmental engineering.

Known non-contact profilograph [1], consisting of a massive base with rods for fixing on the soil surface, on which an axis is mounted using a bearing, in the lower part of which an encoder is mounted - an angular sensor, and a movable shoulder is fixed perpendicularly in the upper part. A counterweight is located on one side of the movable arm, and a laser position sensor mounted with a rod on the other, which allows you to change the initial vertical position of the laser sensor. In the upper part of the axis is an electronic signal processing unit, which is connected using a USB cable to the laptop. A level is also attached to the axis.

A disadvantage of the known non-contact profilograph is that the scan is performed only around the circumference and there is no constructive ability to measure the parameters of the daily surface of the soil over the entire investigated area of the experimental site in the field.

Known field non-contact profilograph containing a massive base with rods for fixing on the soil surface [2], on which a rod is mounted, in the upper part of which a level is attached, an angular sensor and a movable shoulder with a counterweight on one side and a laser position sensor are perpendicularly fixed with a bearing on the other hand, mounted using a screw mechanism with a carriage, which allows you to change the initial position of the laser sensor in the radial direction, and in the lower part of the rod there is a motor that transmits torque through a cylindrical and bevel gear to move the carriage and rotate the movable arm, and An electronic signal processing unit is installed on the upper part of the rod, which is connected by cables to the sensors and using a USB cable to the laptop.

A disadvantage of the known non-contact profilograph is that scanning is performed only along a circle or Archimedes spiral with a given and constant step, there is no constructive ability to measure surface parameters throughout the studied area and to set a different trajectory of the laser sensor over the surface.

The technical result is to increase the reliability of measuring surface parameters over the entire investigated area by expanding the functionality of the device.

The technical result is achieved by the fact that the mechatronic profilograph contains a massive base on which a rod is mounted, in the upper part of which a level is attached, an angular sensor and a movable shoulder with a counterweight on one side and a laser position sensor on the other side mounted using a screw mechanism with a carriage and an electric motor, which allows you to change the initial position of the laser sensor in the radial direction, and in the lower part of the rod there is an electric motor that transmits torque through a cylindrical gear to rotate the movable arm, and an electronic signal processing unit is installed in the upper part of the rod, which connected by cables to sensors, electric motors and a laptop equipped with an information measurement system and computer control for the coordinated operation of electric motors in the measurement process.

In FIG. 1 is a schematic diagram of a mechatronic profilograph.

The device consists of a massive base 1 for fixing on the soil surface, on which a rod 2 is mounted, in the upper part of which a level 3 is attached, an angular sensor 4 and a movable arm 5 with a counterweight 6 on one side and a laser position sensor 7 s are fixed perpendicularly with a bearing on the other hand, mounted by means of a screw mechanism 8 with a carriage 9 and an electric motor 10, which allows you to change the initial position of the laser sensor in the radial direction, and in the lower part of the rod 2 there is an electric motor 11 that transmits torque through a cylindrical gear 12, for rotating the movable arm 5 and in the upper part of the rod there is an electronic signal processing unit 13, which is connected by cables to the sensors 4 and 7, electric motors 10 and 11, a laptop 14 equipped with an information measurement system and computer control for the coordinated operation of electric motors 10 and 11 during the measurement process.

The device operates as follows.

Pre-mechatronic profiler is installed in the center of the investigated area strictly vertically at level 3 in all directions, moving shoulder 5 around the circumference. The carriage 9 with the laser sensor 7 should be located on the periphery of the investigated area in the initial position. Electrical power for angle sensors, position sensors and electric motors is supplied from laptop 14.

A computer program is started on laptop 14, a measurement information system and computer control. An electric motor 11 is turned on, transmitting torque through a cylindrical gear 12, which slowly rotates the movable arm 5 around the rod 2. Performing one revolution, the laser position sensor 7 scans the surface of the soil around the circumference at the periphery of the test area and transmits information through the electronic unit 13 to the laptop 14.

In laptop 14, profile information is analyzed by the measurement information system and set by computer control corresponding to the research tasks, the trajectory of the laser sensor 7 above the surface of the investigated area, for example, along a trajectory in the form of a parabolic spiral. So computer control consonantly uses electric motors 10 and 11, transmitting torque for slow movement in the radial direction of the carriage 9 and the laser sensor 7 using a screw mechanism 8 and the rotation of the movable arm 5 around the base 1 through a cylindrical gear 12.

The angular sensor 4 measures the position of the movable arm 5 relative to the base 1. The principle of optical triangulation is used at the heart of the operation of the laser sensor 7. From sensors 4 and 7, the instantaneous values of the distance and the angle of rotation are sent via the electronic signal processing unit 13 to the laptop 14. The computer program allows you to present information in polar coordinates for 2 parameters: the distance between the position sensor and the soil surface, as well as corresponding to this position angle of rotation from the zero mark. In laptop 14, profile information is analyzed by the measurement information system and a surface profile of the area under study is built.

The device is mechatronic, because it belongs to the class of machines based on the use of precision mechanics, electric drives, electronics, computer control, mentioned in the description of the invention.

Sources taken into account in the application

1. Vasiliev, S.A. Development of methods and technical means of control of anti-erosion technologies on sloping agrolandscapes: Diss. Doct. tech. Sciences: 06.01.02 / Vasiliev Sergey Anatolevich; [Place of protection: Ros. state agrarian. un-t]. - Cheboksary, 2016 .-- 345 p.

2. RF patent №2707907. Field non-contact profiler for spiral scanning / Vasiliev S.A., Fedorova A.A., Aleksandrov R.I. - publ. 12/02/2019, Bull. Number 34.

Claims (1)

A mechatronic profilograph containing a massive base, level, angle sensor, electronic unit, laptop, movable shoulder with a counterweight, a laser position sensor, a screw mechanism with a carriage, an electric motor with a cylindrical gear, characterized in that for rotation of the screw mechanism for moving the carriage with a laser the sensor in the radial direction, an additional motor is installed, and the electronic signal processing unit is connected by cables to the sensors, electric motors and a laptop equipped with an information measurement system and computer control for the coordinated operation of electric motors in the measurement process.

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