SU1068705A1 - Altimeter - Google Patents

Abstract

A height meter containing a body in the form of a sector of a circle, side lateral sectoral height scales, an eye and target diopters located at the ends of the upper face of the body, built in the body of a dark arrow and its arrester, optical biproism I range finder to determine the base distance from the measured tree, as well as a basic ruler, characterized in that, in order to improve labor productivity and the accuracy of measuring the diameter of the crown of a tree in a vertical lateral plane at different heights of the tree from certain basic distances, it is equipped with a kronomer rigidly fixed on the upper H1) of the hull, perpendicular to it made in the form of a sector of a circle with movable reticle racks and elements of their fixation, and an optical biprice range finder is attached to the kronomera case with a screw and the axis of rotation of the movable reticle, the altimeter is mounted on the bracket so that it can be rotated in a vertical plane with fixation, and the bracket can be rotated in azimuth with fixation.

Description

The invention relates to forest measurement measurement technique, in particular, to the installation of altimeters-kronomerov, which are used to capture the size of the crown of a tree in a vertical lateral plane. Lesotats are known at 5ors for measuring the diameter of the tree at different heights that are not available for direct measurement; however, these devices are large and heavy, which is unacceptable for work in the forest. It is impossible to measure such a diameter of the crown at heights of more than 6 m due to the use of a portable rail as an altimeter. I A Wimmenauer dendrometer is known, consisting of an altimeter mounted on an optical optical tube, which is mounted on a tripod. The altimeter consists of two plates with divisions: one of them is reinforced perpendicular to the telescope and can move up and down, the second one, which serves as a plumb, is fixed on the garnish at the end of the first plate. The Wimmenauer dendometer is used to determine the diameter of the tree trunk at different heights from different distances to the measured trunk 2 3. However, the low resolution of the optics does not allow the device to be used to measure the diameter of the tree crown. The remote measurement of the tree height is carried out mainly by the trigonometric method using a pendulum altimeter. The method is based on measuring angles in a vertical plane. Instead of the angle values, the heights of the matic altimeters are directly marked with the corresponding heights. Cases of altimeters are made in the form of a sector or a pistol. The Makarov altimeter is known, which consists of a tube viewer attached to a sector scale of heights, showing with the help of a small arrow on a hinge tree height at a baseline distance from the measured tree 10 or 20 m NW1. However, the use of a Makarov altimeter can be measured only by the height of the tree or the height of the measured crown diameter of the tree. The closest to the invention according to its technical essence and result is the Blume-Leys ca-m altimeter, which has a body in the form of a sector of a circle with lateral sector height pins and diopters located at the ends of the upper face of the body of the altimeter, a mapping arrow and e trap At the subject diopter there is a pull-down hook of the arrester of the arrow of the altimeter. The height of the tree is determined by four lateral sector slag heights with divisions corresponding to the height of the tree for different basis sizes 15.20,30,40 m. The base distance is measured by an optical biprillary integrated range finder in the case of the altimeter and a base folding ruler, which is fixed on measurable tree. The biprism of the range finder is used for dividing the visual beam of rays at a certain angle. When observing a basic folding ruler suspended on the trunk of a measured tree, a split image appears through biprism. Combining the image of the divisions of the ruler with zero division, a measurement is made on the terrain of the base distance. The altimeter is made of light metal. The Matnikova arrow, the arresting device and the optical biptism range finder are placed inside the body, which prevents damage to the mechanism. The lateral sectorial scale of altitudes is recessed in the body and protected by glass from the penetration of the atmosphere of dust. In addition, the glass protects the tiller needle of the altimeter from mechanical damage and swaying by the wind. Having strengthened the folding base ruler on the tree being measured and using the optical bipreous range finder, along with the division on the ruler with zero division, determine the base distance to the measured tree. Pressing the trigger cage to the arrow, releases it. Holding the altimeter with a stretched hand, one sights through the eye and object diopters alternately at the base of the tree and its top. The release of the shutter bolt of the tamper switch determines the readings from the corresponding base distance lateral sectorial scale of heights. The sum of the readings will be the height of the measured tree 4J. When solving the problem of measuring the diameter of the crown at different heights of the tree from certain basic distances, this device has drawbacks: it only serves to remotely measure the height of the tree, the height of the measured crown digit and the length of the crown. To measure the crown diameter in the vertical lateral plane at different heights of the tree, it is necessary to use two or more instruments, for example, an altimeter and an instrument measuring the azimuth angle (compass, theodolite, etc.). Measuring the diameter of the crown is carried out from certain basic distances, and the latter are measured horizontally on the ground. Application. Two or more devices for remote measurement of the diameter of the crown at different heights cause additional loss of time, inconvenience in work and adversely affect the accuracy of measurements and the driver. gocTH labor. The purpose of the invention is to increase labor productivity, the accuracy of measuring the diameter of the crown of a tree in the vertical lateral plane at different heights of the tree from certain basic distances. The goal is achieved by the fact that the altimeter, including the case in the form of a sector of a circle with side sector scales of heights, eye and object diopters located at the ends of the upper face of the case, built in the case of an arrow and its arrester, an optical biprimental range finder to determine the QT base distance the tree to be measured, as well as the basic ruler, is equipped with a kronomer rigidly fixed on the upper edge of the body perpendicular to it and made in the guide of the sector of a circle with movable reamers with elements Tammy their fixing and the optical biprism ny rangefinder kroiomera secured to the housing by a screw, the axis of rotation sluzhascheg reticule movable slats, the altimeter mounted on an arm pivotable in a vertical plane with fixing bracket and - rotatable in azimuth with fixing. In fig-. 1 shows a device with partial grooves for a better-looking structure, an appearance; on fig1 2 - section ft-A in FIG. one; in fig. 3 - the device, top view; in fig. 4 is a view B in FIG. one; in “FIG. 5 shows a section on B-B and FIG. one; in fig. 6 folds base line. The device contains perpendicularly rigidly installed bodies made in the form of a sector of a circle, height 1 with side sector scales of altitudes and corrections, and kronomera 2 with sector scales of crown diameters. The scale of corrections serves to correct the divisions of the sector scales of the cronomer, as in the vertical plane, t, e. by measuring the height of the measured diameter of the crown, the basic distance from the measured diameter of the diameter of the crown increases. The numerical value of the divisions of the scale of amendments to the divisions of the sector scales of the kronomer is calculated by the following formula T "4 -j-5, where K is the numerical value of the divisions of the scale of amendments to the divisions of the sector scales of the kronomer; H is the height of measurement of the wooden crowns of the tree, m; a is the baseline distance from the measured tree, m. The measured crown diameter at a given tree height is calculated by the formula, (2) where,; is the crown diameter of a tree at a given measurement height, m; D — counting, the diameter of the tree crown according to the scale of the kronomera corresponding to the base distance — m; K - correction to the reference divisions of the kronomer sector scales at a given measurement height. On the sector scales of the chronomer, the corresponding values (radii) of the crown diameter are directly indicated. The case of the altimeter 1 is fixed on the bracket 3 by means of a finger 4 and a sleeve 5. The finger 4 serves as the axis of rotation of the altimeter-kronomera in the vertical plane. The bracket is rotatably mounted in a horizontal direction, for example, on a thrust bearing 6 of rotation and an assembly 7 of bracket attachment to a support, i.e. Stay Tip or Landmark. The bracket attachment unit 7 is, for example, a hollow tube with a finger on the upper end, on which the rotary support bearing 6 is pressed and so that the bracket 3 can be rotated into azimuth reticle (left 8 and right 9) with automatic individual clamps 10 of the spring type and an optical biprize range finder 11 with a slot for visi. 12. The rotation of the krochechtein 3 in the azimuthal direction is fixed with a latch 13. The screw 14 for fastening the optical biptiscal range finder to the case of the kronomer 2 serves as the axis of rotation of the reticle 8 and 9, since the measurement of the crown diameter of the tree is carried out by the remote trigonometric method. The slit for sighting 12 is located above the screw 14 of the mount for the optical biproise rangefinder and serves as an eye diopter. : Opposite axes of rotation, the ends of the reticle 8 and 9 serve as a subject diopter. On the lateral sector scale of the altimeter 1 there is a satellite arrow 15 of the altimeter with arresting device 16 of spring type. The vertical rotation of the altimeter is fixed with a latch 17. The known position of the bracket is determined and monitored by a bubble level 18. During operation, the device is mounted on a support, a folding ruler is hung out on the trunk of the measured tree and the base distance is determined using an optical biprillary range finder 11 The straight horizon oi of the observer to the tree being measured is the most convenient for measuring (5,10,15,20 m). Using the sector altimeter scale corresponding to the selected baseline distance and the rotated arrow 15 determines the height of the tree, sighting through the eye dioptre 12 and brought together to zero division of the croomer scale, the reticle 6 to 9 (subject diopter) alternately at the top and bottom of the tree, fix the azimuthal direction with latch 13. When reading the readings of the altimeter, a shadow arrow is arrested. The sum of otcounts of the tambour arrow tie corresponding to the lateral sectorial scale of the altimeter height will be the height of the measured tree. Choosing the height at which it is necessary to measure the diameter of the crown, release the arresting device 16 and set the lateral sector scale of the altimeter 1 so that the arrow of the attendant 15 is set exactly at the selected height of the crown digit meter. Fix the position of the sector scale altimeter 1 with latch 17. Viziru through the eye diopter 12 and opposite ends of the axis of rotation of the reticle 8 and 9, spread them to the extreme points at the same height. The angular position of the sighting rails 8 and 9 is fixed automatically by the individual {x 10). Records the readings of the sighting rails 8 and 9 using the corresponding 4th distance scale (radius) diameters of the chronomera 2 readings of the mating arrow of the altimeter 1, i.e. The crown diameter of the tree and the numerical value on the scale of corrections (K) for correction in the office conditions on the scale of the kronomer. The diameter of the crown in the vertical lateral plane at a given height (D, C (c) is determined in office conditions , For which the sum of samples multiplied reticule rails 8 and 9 to sector 2 on the scale kronomera chnslen5 Noe correction value to readout the sector kronomera scale (K), taken along the term count pendulum arrow 15 in sector 1 altimeter scale corrections.

o The use of the invention will allow for proving (remote measurements from certain distances (diameter of the crown in the vertical lateral plane on an arbitrarily chosen

5 height, the height of the tree, the length of the crown, the closure of the canopy in the horizontal plane, the compaction of the crowns in the horizontal and vertical planes, distances, perpendicular

Q crossing the line of sight), which prevents the measurement of a known instrument. The magnitude of the corrections (K), taking into account the error of measuring the diameter of the crown with a change in the height of the measured diameter of the crown, i.e. change of the base distance has a numerical value and in our case from 1 to 2 and more. Therefore, the use of the invention, when compared with the Known ycTpoftcTBoiM, allows to increase the accuracy of remote measurement of the crown diameter at an arbitrarily chosen height of 2 or more times, as well as to improve the accuracy of the tree height measurement. The application of the invention makes it possible to count the largest perpendicular diameters of the crown of a tree from two observation positions, which leads to the productivity of labor and measuring the closure of the canopy up to 50%. All work is performed by one person, the cost of work is reduced by half.

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FIG. 2

Claims (1)

ALTIMETER containing a housing in the form of a circle sector with lateral sector scales of heights, an eye and subject diopters located at the ends of the upper edge of the housing, a pendulum arrow and its arrester embedded in the housing, an optical biprismic and range finder for determining the base distance from the measured tree, and also a basic ruler, characterized in that, in order to increase labor productivity and accuracy of measuring the diameter of the tree crown in the vertical lateral plane at different heights of the tree from certain basic dis Anthony, it is equipped with a crown gauge rigidly mounted on the upper part of the body, perpendicular to it made in the form of a circle sector with movable sighting rails and with elements for their fixation, and an optical biprismatic range finder is attached to the crown gauge body with the help of a screw serving the axis of rotation of the moving sighting rails, and the altimeter is mounted on the bracket with the possibility of rotation in the vertical plane with fixation, and the bracket with the possibility of rotation in azimuth with fixation.