Patent Application
20120180564
The present application is based on and claims priority from Japanese Patent Application No. 2011-7219, filed on Jan. 17, 2011, the disclosure of which is hereby incorporated by reference in its entirety.
1. Field of the Invention
The present invention relates to a liquid container for an inclination detector and an inclination detector for a surveying device, for example.
2. Description of the Prior Art
Japanese Patent Application Publication No. 2007-127628 discloses a conventional inclination detector incorporated in a surveying device, for example.
Such an inclination detector includes a container of liquid forming a free surface, a light source for emitting a light beam to the free surface, a visual field pattern disposed between the light source and the free surface to form the light beam from the light source in pattern, an optical sensor to detect the pattern, of the light beam reflected by the free surface, and an arithmetic unit to find an inclination of the container on the basis of the pattern received by the optical sensor.
This inclination detector is configured to reflect the light beam at the center of the liquid surface which is slightly curved in a concave due to surface tension. Also, the shape of the liquid surface is changed in accordance with an inclination of the container, That is, the surface of liquid in a cylindrical container has an elliptic shape, and along with an increase in the inclination of the container, the elliptic shape changes so that a difference in short and long diameters thereof increases. Thus, as the inclination of the container increases, the curved shape of the center of the liquid surface is more changed, disadvantageously affecting the precision of inclination detection.
An object of the present invention is to provide a liquid container and an inclination detector including such a liquid container which can detect inclination with precision irrespective of the degree of inclination of the liquid container.
According to one aspect of the present invention, a liquid container for use in an inclination detector includes a container body containing liquid forming a free surface and having a circumferential wall being spherical, in which the circumferential wall is formed so that a center of the circumferential wall and a center of the free surface coincide with each other.
Features, embodiment, and advantages of the present invention will become apparent from the following detailed description with reference to the accompanying drawing:
Hereinafter, one embodiment of the present invention will be described in detail with reference to the accompanying drawing.
An inclination detector 1 in
The liquid container 10 is comprised of a transparent container body 12 containing liquid 11 such as silicon oil.
The container body 12 includes a circular bottom 13, a circumferential wall 14 in a spherical form and integrated with the bottom 13, and a wave dissipating portion 13A protruding upward from the center part of the bottom 13 and a spherical center 14b.
The center 14b of the spherical circumferential wall 14 coincides with the center of the liquid free surface 11A, that is the level of the liquid 11 is set to come at the center 14b of the circumferential wall 14.
The light emitting system 20 includes an LED 21 as a light source, a condenser lens 22, a dark-field pattern 23, a beam splitter 24, and a relay lens 25 as an optical relay element.
The condenser lens 22 and the relay lens 25 are arranged so that light is reflected or imaged at the center of the liquid free surface 11A.
The dark-field pattern 23 is a pattern to find inclinations of the container body relative to X and Y axes. The pattern is formed in a conventional manner disclosed in Japanese Patent Application Publication No. 2007-127628, therefore, a description thereof is omitted herein. X axis refers to horizontal direction in
The light receiving system 30 includes the relay lens 25, beam splitter 24, a projection lens 31, and an optical sensor 32 as CCD. The dark-field pattern 23 and the optical sensor 32 are conjugated with each other.
The arithmetic circuit 40 finds the inclination of the container body relative to the X and Y axes on the basis of the pattern received by the optical sensor 32 in a conventional manner disclosed in Japanese Patent Application Publication No. 2007-127628. A description thereof is omitted herein.
Next, the operation of the inclination detector 1 and liquid container 10 is described. A light beam is emitted from the LED 21 and converted to a parallel beam by the condenser lens 22, to project the dark-field pattern 23. Having transmitted through the dark-field pattern 23 and the beam splitter 24, the light beam is incident on the liquid 11 in the container body 12 via the relay lens 25 and collected and reflected by the liquid free surface 11A.
Reflected by the liquid free surface 11A, the light beam passes through the relay lens 25, is reflected by an inclined face 24A of the beam splitter 24, and reaches the optical sensor 32 via the projection lens 31 to form a pattern image thereon.
The arithmetic circuit 40 finds the inclination of the container body relative to the X and Y axes on the basis of the pattern formed on the optical sensor 32,
If the container body 12 is not inclined or the inclination detector 1 is placed with no inclination, the liquid free surface 11A will be level as indicated by the chain line H.
In this case the pattern of the light beam having transmitted through the beam splitter 24 is collected via the relay lens 25 and reflected by the center of the liquid free surface 11 or the center 14b of the spherical circumferential wall 14, Here, the liquid free surface 11 is in a circular form by the spherical circumferential wall 14 of the container body 12.
Meanwhile, if the container body 12 is inclined or the inclination detector is placed with inclination, the liquid free surface 11A comes at the position indicated by the solid line for example, and the center thereof coincides with the center 14b of the circumferential wall 14. Having transmitted through the beam splitter 24, the pattern of the light beam is collected and reflected by the center 14b of the circumferential wall 14,
Thus, even with the container body 12 inclined, the liquid free surface 11 is in a circular form by the spherical circumferential wall 14.
The size and circular shape of the liquid free surface 11A is always constant irrespective of the degree of inclination of the container body 12. Also, the curved shape of the center 14b of the liquid free surface 11A is always the same irrespective of the degree of inclination of the container body 12,
Thus, it is made possible for the inclination detector 1 to detect the inclination of the container body 12 with high precision without fail irrespective of the degree of inclination thereof relative to the level.
Further, owing to the spherical circumferential wall 14 of the container body 12, the inclination detector 1 can detect a large inclination of the container body 12 relative to the level, Moreover, the wave dissipating portion 13A having the spherical center portion can effectively dissipate waves of the liquid 11 occurring from a large inclination of the container body 12.
The above embodiment has described an example of the circumferential wall 4 having a spherical top part. However, the top part does not need to be spherical.
The inclination, detector I can he applied to a laser sight as a surveying device, for example.
Although the present invention has been described in terms of exemplary embodiments, it is not limited thereto. It should be appreciated that variations or modifications may be made in the embodiments described by persons skilled in the art without departing from the scope of the present invention as defined by the following claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2011-007219 | Jan 2011 | JP | national |
