Bi-Reticle Sight

Abstract

A bi-reticle sight includes a main body, a first reticle, a second reticle and a sensor. The first reticle is configured to move along with the main body. The second reticle is configured to move relative to the first reticle. The sensor is configured to detect the main body to determine whether the main body is in a standard attitude. Wherein the first reticle coincides with the second reticle when the main body is in the standard attitude, the second reticle is moved relative to the first reticle to a position corresponding to the standard attitude when the main body is not in the standard attitude.

Claims

1. A bi-reticle sight, comprising: a main body; a first reticle configured to move along with the main body; a second reticle configured to move relative to the first reticle; and a sensor configured to detect the main body to determine whether the main body is in a standard attitude; wherein the first reticle coincides with the second reticle when the main body is in the standard attitude, and the second reticle is moved relative to the first reticle to a position corresponding to the standard attitude when the main body is not in the standard attitude.

2. The bi-reticle sight as claimed in claim 1, wherein the first reticle has a first aiming dot, the second reticle has a second aiming dot, and the first aiming dot coincides with the second aiming dot for aiming at an object simultaneously.

3. The bi-reticle sight as claimed in claim 1, wherein the sensor is an angular position sensor.

4. The bi-reticle sight as claimed in claim 2, wherein the sensor is an angular position sensor.

5. The bi-reticle sight as claimed in claim 3, wherein the angular position sensor is a gravity sensor or a gyro sensor.

6. The bi-reticle sight as claimed in claim 4, wherein the angular position sensor is a gravity sensor or a gyro sensor.

7. The bi-reticle sight as claimed in claim 1, wherein the main body in the standard attitude is horizontally disposed.

8. The bi-reticle sight as claimed in claim 5, wherein the second reticle is rotated relative to the first reticle to the position corresponding to the standard attitude when the main body detected by the sensor is

9. The bi-reticle sight as claimed in claim 1, further comprising an optical system, wherein the optical system is attached to the main body, the first reticle is attached to the optical system.

10. The bi-reticle sight as claimed in claim 9, further comprising an image generating device, wherein the image generating device is configured to generate and project the second reticle to the optical system.

11. The bi-reticle sight as claimed in claim 1, further comprising an image generating device, wherein the image generating device is configured to generate the second reticle.

12. The bi-reticle sight as claimed in claim 10, wherein the image generating device comprises a panel.

13. The bi-reticle sight as claimed in claim 11, wherein the image generating device comprises a panel.

14. The bi-reticle sight as claimed in claim 1, wherein both the first reticle and the second reticle are crosshairs.

15. The bi-reticle sight as claimed in claim 2, wherein both the first reticle and the second reticle are crosshairs.

16. The bi-reticle sight as claimed in claim 14, wherein the first reticle coincides with the second reticle to form a single reticle.

17. The bi-reticle sight as claimed in claim 15, wherein the first reticle coincides with the second reticle to form a single reticle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] The invention can be more fully understood by reading the subsequent detailed description and examples with references made to the accompanying drawings, wherein:

[0018] FIG. 1 depicts an embodiment of a bi-reticle sight;

[0019] FIG. 2 depicts a first reticle coinciding with a second reticle when a firearm is in a standard attitude;

[0020] FIG. 3 depicts an angular deviation between a first reticle and a second reticle when a firearm is tilted 30 degrees to the right;

[0021] FIG. 4 depicts an angular deviation between a first reticle and a second reticle when a firearm is tilted 45 degrees to the right; and

[0022] FIG. 5 depicts an angular deviation between a first reticle and a second reticle when a firearm is tilted 60 degrees to the right.

DETAILED DESCRIPTION OF THE INVENTION

[0023] FIG. 1 illustrates an embodiment of a bi-reticle sight. The bi-reticle sight mounted on a firearm includes a main body (not shown), an optical system and an image generating device 40. The optical system includes an objective module 10, a glass panel 20 and a prism module 30. The objective module 10, the glass panel 20, the prism module 30 and the image generating device 40 are disposed in the main body. In operation, light passes through the objective module 10 to form an optical image on the glass panel 20, the light containing the optical image passes the prism module 30, and a user is able to observe the light containing the optical image through an eyepiece module. The image generating device 40 is adjoined to the prism module 30.

[0024] A first reticle 50 is disposed on the glass panel 20, and the user is able to observe the first reticle 50 and the optical image simultaneously. Additionally, the image generating device 40 is configured to produce and project a second reticle 60 to the prism module 30. The prism module 30 has a reflecting surface 32 for reflecting the second reticle 60 to the user for viewing. Thus, the user is able to observe the first reticle 50 and the second reticle 60 simultaneously. The image generating device 40 is connected to an angular position sensor (not shown) which is configured to detect the oblique angle of the firearm for an adjustment of the orientation/angle of the second reticle 60 accordingly.

[0025] Referring to FIG. 2, the first reticle 50 coincides with the second reticle 60 when the firearm is horizontally disposed (in a standard attitude). The first reticle 50 has a first aiming dot 52 for aiming at an object, the second reticle 60 has a second aiming dot 62 for aiming at the object, and the first aiming dot 52 coincides with the second aiming dot 62 when the firearm is in a standard attitude.

[0026] FIG. 3 illustrates the positions of the first reticle 50 and the second reticle 60 when the firearm is tilted 30 degrees to the right. As shown, the first reticle 50 is tilted, along with the firearm, 30 degrees to the right as the first reticle 50 is disposed on the glass panel 20 of the bi-reticle sight. The second reticle 60 is also tilted 30 degrees to the right. However, the oblique angle of the firearm is detected by the angular position sensor (not shown) and the second reticle 60 is adjusted by the image generating device 40 to rotate about the second aiming dot 62 at 30 degrees backwards (back to the position which corresponds to the horizontally-disposed firearm). Thus, the oblique attitude of the firearm can be noticed by the user because of an angular deviation between the first reticle 50 and the second reticle 60.

[0027] FIG. 4 and FIG. 5 respectively illustrate the angular deviations between the first reticle 50 and the second reticle 60 when the firearm is tilted 45 degrees and 60 degrees to the right, whereby the user can notice that the firearm is not horizontal.

[0028] In the present embodiment, the image generating device 40 is a panel, and the angular position sensor is a gravity sensor or a gyro sensor.

[0029] In the present embodiment, both the first reticle 50 and the second reticle 60 are crosshairs. It is noted that only one reticle is shown when the first reticle 50 coincides with the second reticle 60.