CN215639053U - Intelligent red point sighting telescope capable of directly displaying trajectory correction point on window reflecting glass - Google Patents

Abstract

The utility model provides an intelligent red point sighting telescope capable of directly displaying a trajectory correction point on a window reflecting glass, which comprises a telescope body, wherein the telescope body is provided with a mounting groove, a lens assembly is arranged at the outer end of the mounting groove, a laser generating and receiving device matched with the lens assembly is arranged in the mounting groove, and the laser generating and receiving device and the lens assembly are coaxial; the outer top of the mirror body is provided with window reflecting glass at the same side as the lens component, the outer top of the mirror body is provided with an LED variable point grating which is adaptive to the window reflecting glass, a data processing circuit board is arranged in the mirror body, and the laser generator and receiver and the LED variable point grating are respectively connected with the data processing circuit board; the utility model provides a compact red point sighting telescope capable of correcting trajectory in real time, which not only ensures that a rifle shoots more accurately, but also can judge effective shooting distance in real time, thereby achieving success of one gun and further protecting the personal safety of shooters.

Description

Intelligent red point sighting telescope capable of directly displaying trajectory correction point on window reflecting glass

Technical Field

The utility model relates to a red point sighting telescope, in particular to an intelligent red point sighting telescope capable of directly displaying trajectory correction points on a window reflecting glass.

Background

The red-spot sighting telescope is an optical sighting telescope without magnification, and has a bright sighting spot (usually a red spot), a part of which is also called a reflection sighting telescope and also used as an inner red spot. Because the light spot (light ray) of the eye in the red dot mirror is always balanced with the red dot mirror, the eye can be accurately aimed through the red dot even if the eye is not positioned on the central axis of the red dot mirror, and the shooting accuracy during high-speed movement or body shaking can be improved, so that the red dot mirror is widely used on military firearms and even HUDs (head-up displays) of fighters in various countries.

The existing red point sighting telescope can not correct the trajectory and is not intelligent enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent red-point sighting telescope capable of directly displaying trajectory correction points on a window reflecting glass, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme:

an intelligent red point sighting telescope capable of directly displaying a trajectory correction point on a window reflecting glass comprises a telescope body, wherein a mounting groove is formed in the telescope body, a lens assembly is arranged at the outer end of the mounting groove, a laser generator and a receiver matched with the lens assembly are arranged in the mounting groove, and the laser generator and the receiver are coaxial with the lens assembly; the outer top of the mirror body is provided with window reflecting glass on the same side as the lens component, the outer top of the mirror body is provided with an LED variable point grating which is matched with the window reflecting glass, a data processing circuit board is arranged in the mirror body, and the laser generator and the receiver and the LED variable point grating are respectively connected with the data processing circuit board.

As a further scheme of the utility model: the lens assembly consists of a laser emission objective lens and a laser receiving objective lens which are arranged in the mounting groove; the laser emission objective lens and the laser receiving objective lens are coaxial.

Compared with the prior art, the utility model has the beneficial effects that:

after the structure is adopted, the window reflecting glass, the LED variable point grating, the data processing circuit board and the laser generator and receiver are mutually matched, when a red point is used for aiming at a target, the lower coaxial laser generator and receiver can emit a beam of laser which reaches an object through the lens component and is reflected by the object to penetrate through the lens component and then is received by the laser generator and receiver; the correction data of downward deviation of the longitudinal direction of the trajectory are obtained through the existing ranging and trajectory calculation processing software arranged in the data processing circuit board, and the correction result is directly projected onto the observation reflecting glass in the form of a bright point through the LED variable point grating, so that real-time intelligent aiming is formed, and the direct hit rate of rifles is greatly improved.

The utility model has thick appearance, small volume, light weight and strong flexibility, and displays the current distance and trajectory correction point in real time; by laser ranging, the trajectory correction value can be accurately measured and calculated by light emission and reception and data processing, and the correction result is projected on a screen to be displayed on the window reflective glass in real time through an LED variable point grating; in the using process, the full intellectualization of real-time aiming is really realized through real-time distance measurement, real-time trajectory calculation and real-time display. The whole product forms a brand-new compact intelligent red-spot sighting telescope integrating an optical system, an electronic circuit and a micro-photoelectric system, and achieves the purposes of small size, light weight and improvement of sighting accuracy.

The utility model provides a compact red point sighting telescope capable of correcting trajectory in real time, which not only ensures that a rifle shoots more accurately, but also can judge effective shooting distance in real time, thereby achieving success of one gun and further protecting the personal safety of shooters.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent red-spot sighting telescope capable of directly displaying a trajectory correction point on a window reflecting glass.

Fig. 2 is a schematic diagram of the operation of an intelligent red-spot sighting telescope capable of directly displaying trajectory correction points on a window reflecting glass.

In the figure: 1. a window reflective glass; 2. LED variable point grating; 3. a data processing circuit board; 4. a lens assembly; 5. a laser generating and receiving device; 6. a mirror body.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Referring to fig. 1-2, an intelligent red point sighting telescope capable of directly displaying a trajectory correction point on a window reflective glass comprises a telescope body 6, wherein a mounting groove is arranged on the telescope body 6, a lens assembly 4 is arranged at the outer end of the mounting groove, a laser generator and receiver 5 matched with the lens assembly 4 is arranged in the mounting groove, and the laser generator and receiver 5 and the lens assembly 4 are coaxial; the outer top of the mirror body 6 is provided with a window reflecting glass 1 which is at the same side as the lens component 4, the outer top of the mirror body 6 is provided with an LED variable point grating 2 which is matched with the window reflecting glass 1, the mirror body 6 is internally provided with a data processing circuit board 3, and the laser generator and receiver 5 and the LED variable point grating 2 are respectively connected with the data processing circuit board 3. When the target is aimed at by a red point, the lower coaxial laser generating and receiving device 5 can emit a beam of laser, the laser reaches an object through the lens component 4, and then the laser is reflected by the object, passes through the lens component 4 and is received by the laser generating and receiving device 5; the correction data of downward deviation of the longitudinal direction of the trajectory are obtained through the existing ranging and trajectory calculation processing software arranged in the data processing circuit board 3, and the correction result is directly projected onto the observation reflecting glass 1 in a bright spot mode through the LED variable point grating 2, so that real-time intelligent aiming is formed, and the direct hit rate of rifles is greatly improved.

The lens assembly 4 consists of a laser emission objective lens and a laser receiving objective lens which are arranged in the mounting groove; the laser emission objective lens and the laser receiving objective lens are coaxial.

In this embodiment, distance measurement and trajectory calculation processing software needs to be installed in the data processing circuit board 3, which is the prior art and will not be described herein again. In addition, it should be noted that the data processing circuit board 3, the LED variable point grating connected with the data processing circuit board 3, and the laser generating and receiving device 5 are all the prior art, and the connections between the components are also all the prior art, so the connection relationship and principle thereof are not described herein again.

The working principle of the utility model is as follows: when the target is aimed at by a red point, the lower coaxial laser generating and receiving device 5 can emit a beam of laser, the laser reaches an object through the lens component 4, and then the laser is reflected by the object, passes through the lens component 4 and is received by the laser generating and receiving device 5; the correction data of downward deviation of the longitudinal direction of the trajectory are obtained through the existing ranging and trajectory calculation processing software arranged in the data processing circuit board 3, and the correction result is directly projected onto the observation reflecting glass 1 in a bright spot mode through the LED variable point grating 2, so that real-time intelligent aiming is formed, and the direct hit rate of rifles is greatly improved.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (2)

1. An intelligent red point sighting telescope capable of directly displaying a trajectory correction point on window reflecting glass comprises a telescope body (6), and is characterized in that a mounting groove is formed in the telescope body (6), a lens assembly (4) is arranged at the outer end of the mounting groove, a laser generation and receiver (5) matched with the lens assembly (4) is arranged in the mounting groove, and the laser generation and receiver (5) and the lens assembly (4) are coaxial; the laser lens is characterized in that window reflecting glass (1) which is arranged at the same side as the lens component (4) is arranged at the outer top of the lens body (6), an LED variable point grating (2) which is matched with the window reflecting glass (1) is arranged at the outer top of the lens body (6), a data processing circuit board (3) is arranged in the lens body (6), and the laser generator and the receiver (5) and the LED variable point grating (2) are respectively connected with the data processing circuit board (3).

2. The intelligent red-point sighting telescope capable of directly displaying a ballistic correction point on a window reflecting glass as claimed in claim 1, wherein the lens assembly (4) consists of a laser transmitting objective lens and a laser receiving objective lens which are arranged in a mounting groove; the laser emission objective lens and the laser receiving objective lens are coaxial.

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