RU20380U1 - RADIATION ANGLOMER LEVEL - Google Patents

Abstract

1. Beam level goniometer containing a sensing element in the form of an ampoule filled with liquid with an air bubble, mounted on a housing inside which there is a power source and a unidirectional emitter oriented in the direction of the outlet in its end part, characterized in that it is provided with a goniometer a mechanism, an additional sensitive element located on the side surface of the housing and a bi-directional emitter mounted coaxially to the unidirectional emitter, and in the opposite On the end wall and bottom of the housing, additional outlet openings are made. 2. The radial level goniometer according to claim 1, characterized in that the goniometer mechanism is made in the form of a graduated scale located on the side surface of the housing, and a rotary axis with a mirror rigidly mounted on it and an adjustment handle with a spring-loaded lock on the end, interacting with the graduated scale indentations. 3. The radiation level goniometer according to claim 1, characterized in that the one-sided and two-sided emitters are equipped with radiation tubes that regulate the focus of the emitter.

Description

RADIATION ANGLOMER LEVEL

The utility model relates to the area of the meter1, dust devices and can be used to measure levels, htl and clones.

There is a known level containing corns with an inspection window inside which a pivoting mirror is mounted and an element is in the form of an ampoule filled with a liquid with a phial (see, for example, German patent. N5 57448 according to CL 42C 601 for 1933). I.

The disadvantage of device I is not the virtue of working with it. consisting in the need for prs) to produce a ouefiK deviation.

Also known is a level containing a rigid hollow with working axis, a sensing element in the form of an ampoule with a given accuracy class, filled with liquid with a gas bubble, and a device for installing it parallel to the working base and the iodine with a viewing window, and it is equipped with a laser emitter and a device for installation in a position in which it becomes the exact projection of the level. Parallel to the working base and oriented in the direction of the output hole. which is additionally made in the front part of the casing, and with a device for connecting power (see, for example. Description of the useful model PORUl4662 class GOI C 9/06 for 2000) 21

This device is the closest to the technical strength, the number of common features and the achievable) result to the proposed utility model, in connection with which it is accepted as the best analogue.

MKI 7G01C9 / 06

The disadvantage of device 2 is go. that with its help it is impossible to measure angles, and also to take measurements of horizontal vertical and angular surfaces at large distances.

The problem, which the proposed model is aimed at, is to provide the possibility of measuring the construction, horizontal, vertical and angular surfaces at large distances.

The technical result from the use of the proposed technical solution is that the device, having small dimensions, allows measurements of horizontal, vertical and angular surfaces at a distance of up to 60 meters.

The above technical rezulylg dospiyetsm ja skog south. where the beam level goniometer containing part 1 of Vigel G) .1 an element in the form of an ampoule filled with a liquid with n-pin1 ccn1 attached to the body. which is equipped with a pigment source and a radiator aligned with them, oriented in the direction of the upward opening P of its torpedo part, according to the proposal, it is equipped with a glomer 1m mechanism, an additional sensitive element 1. located on the side surface of the housing and a bi-directional lagel installed coaxially unidirectionally. On the opposite end wall and on the bottom of the case, additional outlet openings are made.

Wherein. Angle-dimensional mechanism vnulnen in the form of a graduated scale. located on the side surface. and pivot axis. with a mirror rigidly fixed on it and an adjusting handle with a spring-loaded clamping device. HLI end. B5 interacting with б 1 beatings performed on a graduated scale

In addition, one-sided and two-sided emitters are equipped with radiation tubes that regulate the focus of the emitter.

The applicant did not identify technical solutions containing a common set of essential problems, at least one directional and bidirectional emitters were installed coaxially inside the device, and the goniometers were placed between them) a mechanism in the form of a rotary axis with a mirror rigidly mounted on it and an installation handle with a spring-loaded latch on the head . interacting with recesses performed on a graduated flip. This allows us to conclude that the proposed technical solution meets the criteria of novelty and inventive step.

The utility model is illustrated by the citizens. Where

In FIG. 1 - shows a view of the device

In FIG. 2 - a tolomer mechanism is shown.

The radial level-htlomer containing the housing 1. which has a power source 2. connected to 1 located 1 coaxially unidirectional emitter 3 and two directional P5l detector 4. which are equipped with radiation tubes 5 for adjusting () the ocus. IN

one output torch 6 of housing 1 has 1 output opcfst 7. 7. and an opposite output 8 has an additional output hole 9. In the upper part of housing 1 and on its lateral surface, sensitive elements 10 and 11 are fixed. Each of them represents an ampoule 12. filled with liquid bubble 1 room 1.

The goniometer mechanism is located between the omnidirectional emitter 3 and the bi-directional emitter gel 4 on the outlet 14 in the bottom of the housing 1. It is made in the external axis 15. On which the mirror is rigidly fixed (- n fixing 17 s

spring-loaded latch 18 at the end. On the side surface. outside, placed graduated cabinet. to 19. in the recess 20.

Measurements with a beam level goniometer are performed as follows:

I set the level-goniometer on the checked base. The horizontal is set using the air bubble 13 of the sensing element II. Then} the turning 17, turn the mirror 16 under the desired rvioM and insert the latch 18 into the recess 20 of the graduated flap 19 and disconnect from is (1 power supply 2. The beam from the bi-directional emitter 4, reflector 5 1 extends from the mirror 16. through the outlet 14 it enters The th object is in the form of a light spot, which allows one to estimate the deviation oi of the st.) Thermal value. When it is required to determine the angle (rejected by 1f. Mirror 16 directs a color spot on the object and judges it by the position of the alignment 17 on the graduated flange 19.

Using the proposed useful G allows you to make the necessary angular and measurements in construction and similar objects.

Claims (3)

1. Beam level goniometer containing a sensing element in the form of an ampoule filled with liquid with an air bubble, mounted on a housing inside which there is a power source and a unidirectional emitter oriented in the direction of the outlet in its end part, characterized in that it is provided with a goniometer a mechanism, an additional sensitive element located on the side surface of the housing and a bi-directional emitter mounted coaxially to the unidirectional emitter, and in the opposite On the end wall and bottom of the housing, additional outlet openings are made.  2. The radial level goniometer according to claim 1, characterized in that the goniometer mechanism is made in the form of a graduated scale located on the side surface of the housing, and a rotary axis with a mirror rigidly mounted on it and an adjustment handle with a spring-loaded lock at the end, interacting with on a graduated scale with recesses. 3. The beam level goniometer according to claim 1, characterized in that the one-sided and two-sided emitters are equipped with beam tubes that regulate the focus of the emitter.