RU173513U1 - BUILDING LEVEL - Google Patents

Abstract

The invention relates to measuring devices that can determine the deviation from a horizontal or vertical line or from a given angle, in particular to building levels. The construction level includes a housing with a supporting surface, at least one ampoule with a bubble located perpendicular to the longitudinal axis of the housing, a mirror built into the housing. A through hole equipped with glass is made in the wall of the housing opposite the supporting surface. The mirror is installed in the housing in such a way that the intersection point of the axis of the through hole and the longitudinal axis of the case falls (is) on its reflecting surface (s), and the angle (α) between the reflecting surface of the mirror and the longitudinal axis of the through hole is equal to the angle (β ) between the reflecting surface of the mirror and the longitudinal axis of the housing and is 135 degrees. The proposed utility model is aimed at improving the operating conditions of the level. 2 ill.

Description

The invention relates to measuring devices that can determine the deviation from a horizontal or vertical line or from a given angle, in particular to building levels.

Known levels with flasks located inside the level housing (RU 2606930 C2, 01/10/2017; RU 50297 U1, 12/27/2005). To determine the deviation from the vertical / horizontal, it is necessary to stand on the side of the level, which is not always convenient and possible.

These levels cannot be used in sufficiently narrow places that are difficult to see for the user, which reduces the operational properties of the tool.

The closest analogue is the level described in patent WO 2014/132247, 09/04/2014. This level includes a housing, ampoules located inside the housing, a recess in the housing, inside which a reflecting surface is installed at an angle, located at an angle to one of the ampoules.

The disadvantages of this level include low operational properties, for example, in dusty rooms. So, dust will fall on the reflective surface and contaminate and scratch the reflective surface, as a result of which it will be difficult to determine using the level of deviation from the horizontal / vertical.

The proposed utility model is aimed at improving the operating conditions of the level.

The construction level includes a housing with a supporting surface, at least one ampoule with a bubble located perpendicular to the longitudinal axis of the housing, and a mirror built into the housing. A through hole equipped with glass is made in the wall of the housing opposite the supporting surface. The mirror is installed in the housing in such a way that the intersection point of the axis of the through hole and the longitudinal axis of the housing falls (is) on its reflecting surface (s) (s). The angle (α) between the reflective surface of the mirror and the longitudinal axis of the through hole is equal to the angle (β) between the reflective surface of the mirror and the longitudinal axis of the housing and is 135 degrees.

With a different location or a different angle of inclination of the mirror, viewing through the through hole will be impossible or extremely difficult, which reduces the reliability of the measurement results and worsens the operating conditions of the device.

Glass protects the ampoule with the bubble from building dust, and, therefore, improves visibility (operating conditions).

The proposed utility model is illustrated by drawings.

In FIG. 1 shows the level of general view.

In FIG. 2 shows the level in a section aa.

The building level includes a housing 1 with a supporting surface 2, at least one ampoule 3 with a bubble located perpendicular to the longitudinal axis 4 of the housing 1 and a mirror 5 integrated in the housing 1. In the wall 6 of the housing 1, opposite the supporting surface 2, a through hole 7 equipped with glass 8. Mirror 5 is installed in the housing 1 so that the intersection point of the axis of the through hole and the longitudinal axis of the housing falls (is) on its reflecting surface (s). The angle (α) between the reflective surface of the mirror and the longitudinal axis of the through hole is equal to the angle (β) between the reflective surface of the mirror and the longitudinal axis of the housing and is 135 degrees.

When working with the proposed level, it is enough to stand and look right in front of it. The proposed location of the mirror allows you to clearly see the ampoule using a mirror, and the glass protects against dust on the ampoule and reflective surface. All this allows us to improve the operating conditions of the proposed level.

Claims (1)

The construction level, comprising a housing with a supporting surface, at least one ampoule with a bubble located perpendicular to the longitudinal axis of the housing, a mirror built into the housing, while a through hole equipped with glass is made in the wall of the housing opposite the supporting surface, the mirror installed in the housing in such a way that the intersection point of the axis of the through hole and the longitudinal axis of the housing is on its reflective surface, and the angle (α) between the reflective surface of the mirror and the longitudinal axis through hole is equal to the angle (β) between the reflecting surface of the mirror and the longitudinal axis of the housing and is 135 degrees.

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