RU2104476C1 - Range goniometer - Google Patents

Abstract

FIELD: construction industry, system of land tenure. SUBSTANCE: range goniometer is used to plot and measure horizontal angles. It has element of closed form with alternating divisions, five metal rings and five metal studs which can be installed in rings. Element proper is manufactured from flexible braided strap 12.0 m long to which five metal rings are made fast. Distances between first and second, third, fourth and fifth rings amount correspondingly to 3.0 m, 4.0 m, 6.0 m, 8.0 m correspondingly. Divisions are marked between fourth and third and fifth rings by different colors to both sides at distances 0.061, 0.121, 0.182, 0.242, 0.303, 0.364, 0.425, 0.487, 0.549, 0.611, 0.673, 0.736, 0.800, 0.864, 0.928, 1.059, 1.126, 1.193, 1.261, 1.330, 1.400, 1.470, 1.542, 1.615, 1.690, 1.126, 1.842, 1.920, 2.000 m from fourth ring. Some of alternating divisions have one color, others - another color. EFFECT: simplified design, improved operational reliability. 1 cl, 4 dwg

Description

 The invention relates to applied geodesy, namely to geodetic instruments and devices used in construction and land management.

 Analogues are known: theodolite, compass (Brief topographic and geodesic dictionary. M: Nedra, 1979, p. 250, 26). The listed analogues completely solve the problem of geodetic support for construction and land management.

 The disadvantages in the use of these devices include the following: to work with them, special knowledge and skills are required; for small jobs, they are expensive.

The Ecker geodetic device is also known (ibid., P. 284), with which you can build angles of a certain size: 90 ^o , 45 ^o , 30 ^o .

The disadvantages of ecker are: the ability to build on the ground a limited number of angles, namely 90 ^o , 45 ^o , 30 ^o . Ecker is not suitable for measuring angles, has a low accuracy.

 Also, the closest analogues include US patent 3486232, cl. G 01 B 5/24, 1969.

 The invention is aimed at creating a simple and cheap goniometer device that would not require the use of special knowledge.

 The proposed device allows you to perform simple geodetic work on a flat or prepared site, namely, the construction of right angles on the ground, necessary for individual construction (individual houses, garden houses, garages, etc.); measurement and construction of horizontal angles necessary for land management, construction, landscaping (building curves, curves, flower beds, etc.).

 In FIG. Figures 1 to 4 show a casement device.

 The design of the device is based on the geometric properties of rectangular and equilateral triangles.

 The invention consists in the following.

 The folding goniometer device is a 12-meter closed-shape element made of a flexible bundle in which metal rings (⌀ ≈6 mm) are rigidly fixed at the following distances from the initial ring: 3, 4, 6, 8 m. (Fig. 1 ) From the ringlet at 6 m, on both sides to the ringlets at 4 and 8 m, divisions of different colors are applied, for example, white and black, at distances: 0.061; 0.121; 0.182; 0.242; 0.303; 0.364; 0.425; 0.487; 0.549; 0.611; 0.673; 0.736; 0.800; 0.864; 0.928; 0.993; 1,059; 1.126; 1.193; 1.2161; 1,330; 1,400; 1.470; 1.542; 1.615; 1,690; 1.765; 1.842; 1,920; and 2,000 m. Moreover, the division of 0.611 - the tenth and 1.261 - the twentieth can be highlighted in third color. The device is equipped with 5 metal studs (3, Fig. 1) with a length of 0.3 m and a diameter of about 5 mm, so that they fit tightly into the rings (2, Fig. 1), with rounding on one side and pointed on the other.

 The proposed device allows the construction of a right angle on the ground (Fig. 2). For example, the designation (removal in kind) of the angles of the future structure. To do this, designate and measure the length of the future structure, the interval of the proposed device with a ring of 4 m is located in the alignment of the future structure, securing on the ground with a metal stud 3, threaded through the metal ring 2 (Fig. 2), uniformly tensioning the remaining two intervals of 3 m and 5 m, fixed on the ground with metal studs 3, threaded into rings 2.

 Thus, a rectangular triangle with sides of 3, 4, 5 m is obtained on the ground, and the obtained directions will be necessarily located at right angles according to the Pythagorean theorem. Consistently and similarly, the directions (targets) of other angles of the future structure are set, control is carried out by the well-known method (measurements of the diagonals of the structure).

In addition, the proposed measuring device allows you to measure and plot angles on the ground, based on the well-known properties of an equilateral triangle. The device provides for the construction on the terrain of an equilateral triangle due to the flexible structure (since it is made of kapron tow) and the presence of the corresponding distances indicated by metal rings (Fig. 3). In FIG. 3 shows the possibility of constructing and measuring angles of 60 ^o and 30 ^o , as well as 60 ^o +60 ^o = 120 ^o and 120 ^o +30 ^o = 150 ^o , etc.

In addition, the proposed measuring device allows the measurement and construction of small angles in the range from 0 ^o to 60 ^o (Fig. 4) with sufficient accuracy due to the applied divisions (alternating intervals, painted and white). Intervals for the above sizes display degree divisions from the calculation: one interval is 1 ^o . The calculations are made according to the formula
3.4641 • tgα, where α = 1 ^o , 2 ^o , 3 ^o ... 30 ^o ,
and the number 3.4641 is the height of an equilateral triangle with sides 4 m
The accuracy of measuring (constructing) the angle for small distances reaches 0.1 ^o , since alternating divisions are 60 ^o C80 mm in size, they can be divided into 10 parts by eye, therefore, it is possible to read (build, measure the angle) with accuracy 0.1 ^o = 6 'is reasonable.

Claims (2)

 1. The swing goniometer device for constructing and measuring horizontal angles, containing an element of a closed shape with alternating divisions, characterized in that it additionally contains five metal rings and five metal studs made with the possibility of installing them in rings, while the closed shape element is made of flexible a 12 m long bundle on which five metal rings are rigidly fixed, while the distances between the first ring and the second, third, fourth and fifth rings are 3, 4, 6, 8 m, respectively and between the fourth ring and the third and fifth rings, divisions at distances of 0.061, 0.121, 0.182, 0.242, 0.303, 0.364, 0.425, 0.549, 0.611, 0.673, 0.736, 0.800, 0.864, 0.928, 1.059, 1.126 are plotted on both sides in different colors. , 1,193, 1,261, 1,330, 1,400, 1,470, 1,542, 1,615, 1,690, 1,765, 1,842, 1,920, 2,000 m from the fourth ring.  2. The device according to claim 1, characterized in that part of the alternating divisions are made of the same color, and part of a different color.

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