CN209745109U - intelligent light splitting sighting telescope and signal transmission system thereof - Google Patents

Abstract

the utility model discloses an intelligent light splitting sighting telescope and a signal transmission system thereof, the intelligent light splitting sighting telescope comprises a sighting telescope body which is divided into an objective lens group, a hand wheel group, a steering group and an eyepiece lens group, a light splitting device is arranged on the eyepiece lens group and consists of a light splitting module and a sensing module, the light splitting module is arranged in an eyepiece lens barrel of the eyepiece lens group, the light splitting module is positioned in a region IV of the observation range of an eyepiece lens area, the sensing module is arranged right above the light splitting module, a light splitting box is arranged on the eyepiece lens barrel of the eyepiece lens group, a light splitting hole is arranged in the light splitting box, and the light splitting device is arranged on the bottom surface of the light splitting box through a U-shaped bracket, therefore, the system can be used for recording and storing, sharing in real time and presenting in a remote distance, can meet the use requirements of various different situations, and is more intelligent.

Description

Intelligent light splitting sighting telescope and signal transmission system thereof

Technical Field

The utility model relates to a firearms accessory technical field especially relates to an intelligence beam splitting gun sight and signal transmission system thereof.

Background

The sighting telescope is a comprehensive body comprising an optical system, a structural system and an electronic system, and after the parts are combined through a complete process, the sighting telescope can carry out remote observation and aiming. In the use process of firearms, images observed through the sighting telescope are only visible to users, so that the images have no reproducibility and cannot be recorded and stored, shared in real time or presented in a remote distance. In order to record the image observed by the sighting telescope, engineers try to add an image pickup device to the sighting telescope, but the main optical axis of the image pickup device must be coincident with the main optical axis of the sighting telescope during recording, so that the sighting telescope cannot be normally used.

The utility model discloses a utility model is CN2715092Y discloses a wireless video transmission gun sight of firearms, its wireless video transmission gun sight of firearms is equipped with a beam splitter box between barrel and stock, and the upper portion corresponds 135 degrees angle departments with ordinary gun sight in the beam splitter box is equipped with the reflector, and the lower part parallel of reflector is equipped with a spectroscope, and the beam splitter box that corresponds with the reflector is outside, stock upper portion is equipped with optical adapter and wireless camera in proper order.

the invention with publication number CN102495464B discloses a digital micro-sighting telescope optical system, which has a main light path composed of an objective system, an image intensifier and an ocular system, wherein: the device comprises an image intensifier, an eyepiece system, a light-combining prism, an image transfer system, a light-splitting prism and a CCD relay system, wherein the image intensifier and the eyepiece system are arranged between the image intensifier and the CCD relay system, the light-combining prism, the image transfer system and the light-splitting prism are sequentially arranged in a main optical path, the light-combining prism is matched with an OLED display device, an OLED display surface and an image intensifier optical fiber panel are conjugated in position, and the light-combining prism is utilized to combine the OLED display surface and an image intensifier image surface to the main optical path of a sighting telescope.

The disclosed technical scheme of above-mentioned two patents sets up reflector and beam splitter prism in the lens cone respectively, through the light reflection of reflector or beam splitter prism in with the lens cone, reach the purpose of beam splitting, however, the main shaft of above-mentioned reflector and beam splitter prism all coincides with the primary optical axis of gun sight, can lead to the fact the light path and block, will seriously influence user's observation, gun sight lens cone inner space is narrow and small simultaneously, be difficult to above-mentioned reflector of holding or beam splitter prism, its installation will change the optical system and the structural system of gun sight, in fact can't accomplish.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art current situation, provide an intelligence beam splitting sighting telescope, avoided the main optical axis of sighting telescope, can not cause the light path to block, guarantee the normal aim of sighting telescope.

An object of the utility model is to prior art current situation, provide a signal transmission system of intelligence beam split gun sight, very big installation space on having saved the gun sight body, also can not disturb the regulation production of eyepiece group.

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

An intelligence beam split gun sight mainly includes: the sighting telescope comprises a sighting telescope body, wherein the sighting telescope body is divided into an objective lens group, a handwheel group, a steering group and an eyepiece group, a light splitting device is arranged on the eyepiece group and consists of a light splitting module and a sensing module, the light splitting module is arranged in an eyepiece lens barrel of the eyepiece group, the light splitting module is positioned in an area IV of an eyepiece visual area observation range, an angle between an inclined plane of the light splitting module and a sighting telescope light path is 45 degrees, and the sensing module is arranged right above the light splitting module.

Preferably, the light splitting module is a prism, and the inclined surface of the prism is plated with a reflecting film.

Preferably, a light splitting box is arranged on an eyepiece lens barrel of the eyepiece group, a light splitting hole is formed in the light splitting box, and the light splitting device is installed on the bottom surface of the light splitting box through a U-shaped support.

The utility model provides a signal transmission system of intelligence beam split gun sight, includes sensing module, output module, power module and signal conductor and circuit wire, and sensing module passes through signal conductor intercommunication with output module, and power module all is connected through the circuit wire with sensing module and output module.

Preferably, the power supply module is a battery pack in a handwheel set.

Preferably, the output module is a USB port, and the USB port is installed in parallel with the battery pack.

The utility model has the advantages that:

1. The beam splitting module is positioned in an area IV of an observation range of an ocular visual area, namely the diameter of the ocular visual area is within the range of 85-100%, a main optical axis of the sighting telescope is avoided, a light path cannot be blocked, and normal aiming of the sighting telescope is guaranteed;

2. The power supply module is a battery pack in the hand wheel set, the USB port is installed in parallel with the battery pack, shares a power supply with the reticle and is installed in parallel with the battery pack, the installation space on the sighting telescope body is greatly saved, and the adjustment of the eyepiece group cannot be interfered;

3. the light beam in the visual area of the ocular lens is intercepted and converted into image information by the light splitting device, so that the sighting telescope has the functions of recording and storing, real-time sharing and remote presenting.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an open perspective view of the spectrometer box of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a schematic structural view of the eyepiece set of the present invention;

Fig. 5 is a schematic structural diagram of the signal transmission system of the present invention;

fig. 6 is an exploded view of the ocular viewing area of the present invention.

Description of the labeling: the device comprises an objective lens group 1, a hand wheel group 2, a light splitting box 3, an output module 4, a battery group 5, a steering group 6, an eyepiece lens group 7, a light splitting hole 8, a light splitting module 9, a sensing module 10 and a U-shaped bracket 11.

Detailed Description

Referring to fig. 6, the observation range of the eyepiece area is divided into:

Region I: the diameter from the center of the cross to the visual area of the eyepiece is within 10 percent; and (3) region II: the diameter of the area I to the visual area of the eyepiece is within 50 percent; zone III: the diameter of the area II to the ocular visual area is within 85 percent; and a region IV: region III to 100% of the ocular optic zone diameter. Zone i and zone ii are the main viewing zones of the sight.

referring to fig. 1-4, an intelligent beam splitting sighting telescope mainly includes: the sighting telescope body, the sighting telescope body divide into objective group 1, the handwheel group 2, turn to group 6 and eyepiece group 7, and the handwheel group 2 divide into trajectory adjusting handwheel, wind direction adjusting handwheel and brightness adjusting handwheel, and the brightness adjusting handwheel is equipped with group battery 5 as the reticle power in the hand, be equipped with beam splitting device on the eyepiece group 7, beam splitting device comprises beam splitting module 9 and sensing module 10, and beam splitting module 9 sets up in the eyepiece lens cone of eyepiece group 7, and beam splitting module 7 is arranged in eyepiece visual area observation range's region IV, and the angle between the inclined plane of beam splitting module 9 and the sighting telescope light path is 45, and sensing module 10 sets up directly over beam splitting module 9.

Preferably, the light splitting module 9 is a prism, and an inclined surface of the prism is plated with a reflective film to form a prism light splitting path. The light splitting module 9 may also be a plane mirror or a film, and forms a plane mirror light splitting optical path and a film light splitting optical path, respectively.

preferably, the eyepiece lens barrel of the eyepiece group 7 is provided with a light splitting box 3, the light splitting box 3 is provided with an upper cover, and the upper cover and the light splitting box are locked through screws. Be equipped with beam split hole 8 in the spectral box 3, beam splitting device passes through U type support 11 and installs in spectral box 3 bottom surface, and the both sides of light splitting module 7 are fixed to U type support 11, can not shelter from the light path of fore-and-aft direction and upper and lower direction. The light splitting device and the auxiliary electronic components are arranged on the light splitting box 3, so that the adjustment of the eyepiece group 7 cannot be interfered.

specifically, the prism intercepts light rays within the range of 85-100% of the diameter of the visual area of the eyepiece, and the light rays are split into light rays which are converted into electric signals by the sensing module 10, so that the light splitting of the sighting telescope is completed; the light splitting module 9 is located in an area IV of an observation range of an eyepiece visual area, namely, the diameter of the eyepiece visual area ranges from 85% to 100%, a main optical axis of the sighting telescope is avoided, a light path cannot be blocked, and normal aiming of the sighting telescope is guaranteed.

Referring to fig. 5, a signal transmission system of an intelligent light splitting sighting telescope includes a sensing module 10, an output module 4, a power supply module, a signal wire and a circuit wire. The sensing module 10 is communicated with the output module 4 through a signal lead and used for signal output, and the power supply module is connected with the sensing module 10 and the output module 4 through circuit leads and used for electric energy input. The electric signal is transmitted to a storage device or a display device through the output module 4, and can be recorded and stored, shared in real time or presented in a remote distance.

Preferably, the power supply module is a battery pack 5 in the hand wheel set, a circuit board I is arranged between the battery pack 5 and the sensing module 10, a circuit board II is arranged between the battery pack 5 and the output module 4, and the circuit board I and the circuit board II are used for adapting voltage transformation.

Preferably, the output module 4 is a USB port, and the USB port is installed in parallel with the battery pack 5, shares a power supply with the reticle, and is installed in parallel with the battery pack 5, so that the installation space on the sighting telescope body is greatly saved, and the adjustment of the eyepiece group 7 is not interfered.

The utility model provides an application of intelligence beam split gun sight, when not influencing intelligence beam split gun sight normal use, through beam-splitting device dams and converts the light in the eyepiece sight into image information, passes through afterwards transmission system output can adapt to the user demand of multiple different situation.

in one embodiment, the output image information may be saved to an external memory, preserving the proof of use. Under the emergency in the city anti-terrorism task, sniper can independently judge the selection and shoot the criminal dead, but current gun sight does not possess the record save function, therefore the unable reproduction that restores of condition emergency degree, and can't provide the basis, there is the leak. The intelligent light-splitting sighting telescope can transmit the image observed in the sighting telescope to the storage device through the output module 4, and law enforcement basis of a sniper in emergency task execution is reserved.

In one embodiment, the output image information can be shared to the cooperative user for real-time communication. The observer is an indispensable member of a sniper group, is probably higher than the sniper in importance, and is all guarantees that the sniper finishes sniping tasks, but the observation visual angles of the sniper and the observer do not have coincidence, delay or errors may exist in oral communication, images observed in the sighting telescope can be transmitted to a display device of the observer through the intelligent light-splitting sighting telescope, and when needed, the observer can synchronously observe the visual angles of the sniper and increase the observation coverage.

In one embodiment, the output image information can be projected to an image display to realize remote control. When hunting in the field, the fierce animal and adverse circumstances can also be frightened the prey to threat the ann of hunter, and the existence of hunter simultaneously, and erect the shotgun when the field, can pass through output module 4 transmission to display device with the image of observing in the gun sight through intelligent beam splitting gun sight on, the angle of remote control shotgun and the time of shooting realize two remote visual control.

Of course, the above is only the preferred embodiment of the present invention, and the application range of the present invention is not limited thereto, so all the equivalent changes made in the principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. An intelligence beam split gun sight mainly includes: the gun sight body, the gun sight body divide into objective group (1), hand wheel group (2), turns to group (6) and eyepiece group (7), its characterized in that: the eyepiece set (7) is provided with a light splitting device, the light splitting device is composed of a light splitting module (9) and a sensing module (10), the light splitting module (9) is arranged in an eyepiece lens barrel of the eyepiece set (7), the light splitting module (9) is positioned in an area IV of an eyepiece visual area observation range, an angle between an inclined plane of the light splitting module (9) and a sighting telescope light path is 45 degrees, and the sensing module (10) is arranged right above the light splitting module (9).

2. The intelligent beam-splitting sighting telescope of claim 1, wherein: the light splitting module (9) is a prism, and the inclined surface of the prism is plated with a reflecting film.

3. the intelligent beam-splitting sighting telescope of claim 2, wherein: the eyepiece lens barrel of the eyepiece group (7) is provided with a light splitting box (3), a light splitting hole (8) is arranged in the light splitting box (3), and the light splitting device is arranged on the bottom surface of the light splitting box (3) through a U-shaped support (11).

4. The utility model provides a signal transmission system of intelligence beam split gun sight which characterized in that: the power supply device comprises a sensing module (10), an output module (4), a power supply module, a signal wire and a circuit wire, wherein the sensing module (10) is communicated with the output module (4) through the signal wire, and the power supply module is connected with the sensing module (10) and the output module (4) through the circuit wire.

5. The signal transmission system of the intelligent splitting sighting telescope according to claim 4, characterized in that: the power supply module is a battery pack (5) in the hand wheel set.

6. The signal transmission system of the intelligent splitting sighting telescope according to claim 5, characterized in that: the output module (4) is a USB port, and the USB port and the battery pack (5) are installed in parallel.