KR0143170B1 - Distance information messenger using beam splitter - Google Patents

Abstract

1. TECHNICAL FIELD The invention described in the claims pertains to a distance information transmitting device using a beam splitter.

2. Technical problem to be solved by the present invention: The present invention provides a distance information transmitting device for positioning the initial distance information of the LED in the lane by a simple structure using a light beam splitter.

3. Summary of the Invention: Distance information display means for displaying the input of measured information as visual information, an eyepiece comprising an objective lens and a plurality of lenses, and an eyepiece positioned on an opposing surface of the objective lens; A light beam splitter positioned between the objective lens and the eyepiece having an inclined surface for changing a path of a light source and transmitting a visible light between the two lenses to each other and changing a light source from the inclined surface to the eyepiece; And distance information projecting means for projecting the light source of the visual distance information of the display means onto the inclined plane of the beam splitter.

4. Significant use of the invention: Viewfinder of visual rangefinder, visual distance information transmitter.

Description

Distance information transmission device using beam splitter

1 is a front view of a view finder of a typical distance measuring system.

2 is a block diagram of a distance information transmission device using a light beam splitter according to the present invention.

* Explanation of symbols for the main parts of the drawings

12: LED 14: distance projection lens

16: right angle prism 18: objective lens

20: beam splitter 22: lane

24: eyepiece 26: inclined surface

28: reflecting surface

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a distance information transmitting device used in a distance measuring system, and more particularly to a distance information transmitting device using a beam splitter.

Typically, the distance measuring system emits a laser beam to a measuring object, receives a beam reflected from the measuring object, and calculates (measures) a distance between a user, that is, an observer and the object. The distance measuring system as described above has a function of converting the calculated distance information into display information and displaying the same through an indicator such as a light emitting diode (LED). In addition, the general distance measuring system has a viewfinder configured to view the distance information displayed on the indicator such as the LED as shown in FIG.

1 shows a front view of a viewfinder of a typical distance measuring system. In the figure, reference numeral 30 is a viewfinder, 12 is an LED image in which distance information is displayed, and 34 is an image of an observed object.

As shown in FIG. 1, the conventional method of projecting and viewing the distance information displayed on the LED 12 onto the eyepiece in the viewfinder 30 having a constant size and a field of view uses a plurality of optical mechanisms. .

For example, the distance information displayed by emitting light on the LED 12 displaying the distance information is projected to the eyepiece using a plurality of lenses and prisms to observe the object and to identify the observed distance.

Therefore, the conventional distance information transmission device has a large number of optical mechanisms, so the process of optical adjustment is complicated, and there is a high possibility that a problem of transmission of distance information may be inaccurate because the error of adjustment is relatively large when the optical system is adjusted. .

Accordingly, an object of the present invention is to provide a distance transmitting device for accurately projecting distance information displayed on an LED in a distance measuring system to the eyepiece by a simple optical mechanism.

Another object of the present invention is to provide a distance information transmitting apparatus for projecting distance information displayed on an LED using a light beam splitter to an eyepiece for observation.

Still another object of the present invention is to provide a distance information transmitting device that is easy to adjust optically by projecting the distance information displayed on the LED to the eyepiece using a light beam splitter.

The above object according to the present invention is a distance information transmitting apparatus of a distance measuring system having a distance information display means for displaying input of measured information as visual information, comprising: an objective lens and a plurality of lenses. An eyepiece positioned on an opposing surface of the eyepiece and an inclined surface for changing a path of a light source, and positioned between the objective lens and the eyepiece to mutually transmit visible light between the two lenses, and to convert the light source from the inclined surface into the eyepiece It is achieved by providing a distance information transmitting device comprising a beam splitter for changing to a distance information and the distance information projection means for projecting the light source of the visual distance information of the distance information display means to the inclined surface of the beam splitter.

Hereinafter, an operation of an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a distance information transmitting apparatus using a light beam splitter according to the present invention.

In FIG. 2, reference numeral 12 denotes an LED for displaying the input of distance-measured information as visual distance information, and 16 denotes a right-angle prism which converts an incident light path into an angle of 90 ° and emits the light. 14 is a projection lens for projecting the distance information indicated by the visual information on the LED 12 to the incident surface of the rectangular prism 16. In the above configuration, the LED 12 visually displays the distance information data output from a distance calculation device (not shown) in the distance measurement system, and the visual distance information is light information that can be seen by the human eye. to be. Reference numeral 18 denotes an objective lens for maintaining a predetermined focal length of the image 34 of the object, and reference numeral 20 denotes a light beam splitter having an inclined surface 26 on which a reflective surface 28 is formed. Reference numeral 22 provided on the opposing surface of the objective lens 18 is a lane, and 24 is an eyepiece including a plurality of lenses.

At this time, the structure of the light beam separator 20 of the present invention is configured as follows.

The inclined surface 26 having an inclination of about 45 ° in the beam splitter 20 is formed to have a transmittance of about 90% or more in the visible light band for easy observation of the object. In the present invention, the inclined surface 26 uses a lens bond (MiL-A-3920C), and the optical material is manufactured using BK7 for the visible light transmittance as described above. The reflector 28 formed on a part of the inclined surface 26 is formed by coating a reflective material of a thin film capable of reflecting 98% or more of the light source in the infrared wavelength band. In the present invention, the reflective material of the thin film is aluminum (Al) or silver (Ag). Therefore, the light beam splitter 20 transmits the light source between the eyepiece 24 and the objective lens 18 as it is, and the light source projected on the reflective surface 28 formed on the inclined surface 26 through the right-angle prism 16 is almost reflected to the eyepiece 24 side. It can be seen that it has a conveying characteristic.

Referring to the configuration of FIG. 2, a process of transmitting the observation and the distance information of the object to the naked eye of the observer 32 through the eyepiece 24 will be described.

Now, when the observer 32 observes the object 34, the objective lens 18 maintains the image of the object 34 at a predetermined focal length (distance from the objective lens 18 to the lane 22) to condense the image of the object on the lane 22. At this time, the beam splitter 20 transmits the light source transmitted from the objective lens 18 side to the lane 22 as it is, as described above. Thus, when the observer 32 observes the object, the image of the observer 34 is transmitted to the observer 32's naked eye through the eyepiece 24.

When the distance of the object is measured by the above observation, the measured distance information data is input to the LED 12 of FIG. 2, and the LED 12 displays the measured distance information data. That is, it converts into visible distance information and emits light corresponding thereto.

The visual distance information (light) generated from the LED 12 is incident on the projection lens 14 (light path A) assembled so that the focus of the visual distance information is located on the surface. In addition, the projection lens 14 projects the incident visual distance information to the incident surface of the rectangular prism 16, and the rectangular prism 16 converts the optical path to an angle of 90 ° of the optical path of the visual distance information projected onto the incident surface and emits the light. It exits through the surface to the reflector 28 formed in the inclined surface 26 of the beam splitter 20.

Therefore, when the distance information is displayed on the LED 12, the visual distance information is soon on the inclined surface 26 of the beam splitter 20 located at the exit plane with the right angle prism 16 through the light path A and the light path B shown in FIG. It can be seen that it is projected onto the reflector 28 located at. The visual distance information projected on the reflector 28 of the beam splitter 20 is almost reflected to form on one surface of the lane 22.

Accordingly, it can be seen that the lane 22 is a focal plane having a distance display image and an image of an object in combination. It can be seen that the composite image formed in the lane 22 can be easily observed through the eyepiece 24. Therefore, the observer 32 can simultaneously view the object image and the distance indication information through the eyepiece 24 as shown in FIG.

As described above, the present invention can minimize the number of optical components by allowing the eyepiece to view the distance information displayed on the LED and the image of the observed object using a light beam splitter.

Claims (6)

A distance information transmitting apparatus of a distance measuring system having an objective lens and an LED displaying measured distance information, comprising: distance information display means for displaying an input of distance measured information as visual information, and a plurality of lenses An eyepiece positioned on an opposing face of the objective lens and a lane located in front of the eyepiece, and an inclined surface for changing a path of a light source, and positioned between the objective lens and the eyepiece and visible between the two lenses. A light beam separation means for transmitting light rays to each other and changing the light source from the inclined surface to the lane, and distance information projection means for projecting the light source of the visual distance information of the distance information display means to the inclined surface of the light beam separation means. Distance information transmission device characterized in that. The apparatus of claim 1, wherein the inclined surface of the luminous flux separating means has a tilt of about 45 ° and is a lens bond having a transmittance of about 90% or more in the visible light band for easy observation of an object. . The apparatus of claim 2, wherein the lens bond is made of BK7. The distance information transmitting device according to claim 1 or 2, wherein a surface of a part of the inclined surface of the luminous flux separating means is coated with a material for total reflection of the distance indication information from the projection means to the lane. The apparatus of claim 4, wherein the total reflection material is aluminum or silver. The incident surface of claim 4, wherein the projection unit converts the path of the incident light source into 90 ° and exits the total reflection material, and the light source of the visual distance information of the distance information display unit is an incident surface of the rectangular prism. Distance information transmission device, characterized in that composed of a distance projection lens to project.