RU90193U1 - DIGITAL INDICATOR AND GEODESIC INSTRUMENT WITH THIS DIGITAL INDEX - Google Patents

Abstract

1. A gate indicator comprising a housing with a lens, a radiation source, an optical element, wherein the radiation source, the lens and the edge of the optical element are located on the same optical axis, characterized in that a second radiation source of a different color is additionally introduced, and both radiation sources are installed in the housing and an optical element, the edge of which is placed in the focal plane of the lens with the possibility of highlighting by radiation sources. ! 2. The gate indicator according to claim 1, characterized in that the optical element is made in the form of a mirror. ! 3. The gate indicator according to claim 1, characterized in that the radiation sources are made in the form of LEDs. ! 4. The gate indicator according to claim 1, characterized in that the housing is equipped with fastening elements. ! 5. A geodetic device with this target, comprising a telescope assembly mounted in the housing, and a target, characterized in that the target is mounted on the chassis of the telescope so that the optical axis of the target is parallel to the optical axis of the telescope assembly and the lens of the telescope assembly the tubes and the lens indicator are located on one side of the device.

Description

The group of utility models relates to geodetic instrument engineering, in particular to electronic devices intended for topographic surveys, use in linear surveys, construction, in land surveying, etc., for example, such as a total station, a theodolite, and a light range finder.

To increase the productivity of work, many surveying instruments are equipped with devices for preliminary (rough) pointing at the target (collimator sighting devices), consisting of a lens in the focal plane of which there is a grid in the form of a transparent crosshair on a dark background. The lens is facing the observer and acts as a magnifying glass. The frame of the lens, as a rule, is fixed on the body of the telescope of the instrument (A. I. Zakharov, “Geodetic Instruments.” Directory. Moscow “Nedra” 1989, p.47.89). However, this does not solve the problem of significant time costs for the procedure of moving points to the terrain.

A device for adjusting a prism is known, comprising sequentially located and optically conjugated radiation sources, a collimator tube, a prism to be tested, and a sighting tube. The collimator tube consists of a housing in which there are two grids illuminated by a lamp and a lens (A. I. Zakharov, “Geodetic Instruments”. Handbook. Moscow “Nedra” 1989, p. 78-80, Fig. 36).

The disadvantages of this device include:

- the location of the radiation source outside the tube body;

- an incandescent lamp used as a radiation source has low durability;

- the presence of only one radiation source complicates the procedure for moving the geodetic instrument to a point.

A known tacheometer containing a column, a telescope housing with a built-in range finder and indicator, a stand, panels and controls (Operating Instructions for the Total Station Model Trimble 3600 Zess Elta, Trimble 3600 - series of operation, p.1, 2-2, 2-3, 2-6). The gate indicator in this total station provides optical assistance with the removal of points. Light visible at the standing point of the reflector: the green indicator light is to the left of the point, and the red light is the indicator to the right of the point. The disadvantage of this device is the integrated indicator in the body of the telescope of the total station. This circumstance, on the one hand, complicates the design of the device, and on the other hand, limits the possibility of using the target indicator for other surveying instruments when pointing them to points.

The task to which the proposed group of utility models is aimed is to increase the productivity of the developed and commercially available geodetic instruments.

EFFECT: supply of geodetic instruments with a simple, universal, unified and portable nozzle, which reduces time spent on pointing instruments to points.

The problem is solved, and the technical result is achieved due to the fact that the following group of useful models is proposed:

1. The gate indicator comprises a housing with a lens, a radiation source, an optical element. In this case, the radiation source, the lens and the edge of the optical element are located on the same optical axis.

The difference is that a second radiation source of a different color is additionally introduced. Moreover, both radiation sources and an optical element are installed in the housing, the edge of which is placed in the focal plane of the lens with the possibility of highlighting by both radiation sources.

In addition, the optical element is made in the form of a mirror.

In addition, the radiation sources are made in the form of LEDs.

In addition, the housing is equipped with fasteners.

2. A geodetic device with this gate indicator comprises a telescope assembly mounted in the housing and a gate indicator.

Distinctive features - the body of the indicator is mounted on the body of the site of the telescope. The optical axis of the target is parallel to the optical axis of the telescope assembly, and the objective of the telescope assembly and the target are located on one side of the instrument.

The essence of the proposed group of utility models is illustrated by drawings:

- figure 1 shows the indicator;

- figure 2 is a sectional indicator;

- in Fig 3 is a total station with a gauge.

The gate indicator comprises a housing (1) in which the first red LED (2), a mirror (3), a lens (4) are sequentially located on one optical axis. Perpendicular to the optical axis, a second green LED (5) is installed in the housing (1). In this case, the edge of the mirror (3) is installed in the focal plane of the lens (4) so that the focal plane of the lens is highlighted by a red LED (2) and a green LED (5) (Fig. 2). The construction of the optical scheme makes it possible to connect two fields of view, and the edge of the mirror is a dividing line. On the body (1) there are holes (6), with which the body (1) of the indicator is mounted on the body of the geodetic instrument (figure 1).

The proposed indicator is structurally simple, compact. The location of the optical indicator of the gauge in a separate housing will allow the gauge to be installed on various surveying instruments (including those in operation) without significant structural modifications.

At present, a total station has been developed, in which in the lower part of the housing (7) of the rangefinder’s telescope assembly, the indicator (8) is fixed, so that its optical axis is parallel to the optical axis of the telescope, and the lens of the telescope is located above the lens indicator (Fig. 3 ) The indicator device described above.

When conducting, for example, alignment work on construction sites, the exhibition of the total station per point is as follows. The observer rises with a reflector in front of the lenses of the telescope of the total station and the target. If, when looking at the indicator, the observer simultaneously sees green and red light, then this means that he is in the alignment of the sighting axis of the total station.

Completing a total station or other geodetic instrument with a gauge will reduce the time for the consumer to take measurements.

Claims (5)

1. A gate indicator comprising a housing with a lens, a radiation source, an optical element, wherein the radiation source, the lens and the edge of the optical element are located on the same optical axis, characterized in that a second radiation source of a different color is additionally introduced, and both radiation sources are installed in the housing and an optical element, the edge of which is placed in the focal plane of the lens with the possibility of highlighting by radiation sources. 2. The gate indicator according to claim 1, characterized in that the optical element is made in the form of a mirror. 3. The gate indicator according to claim 1, characterized in that the radiation sources are made in the form of LEDs. 4. The gate indicator according to claim 1, characterized in that the housing is equipped with fastening elements. 5. A geodetic device with this target, comprising a telescope assembly mounted in the housing, and a target, characterized in that the target is mounted on the chassis of the telescope so that the optical axis of the target is parallel to the optical axis of the telescope assembly and the lens of the telescope assembly the tubes and the lens indicator are located on one side of the device.