A thermal imaging target includes a heating insulation layer, a heat conduction layer, a flow guiding layer, a bottom layer, and a self-heating package; the heat conduction layer bonded to the bottom layer, and an opening formed at the top to form a pocket-shaped structure; the self-heating package placed in a pocket, and a self-heating material arranged in the self-heating package for generating heat; the flow guiding layer placed between the heat conduction layer and the bottom layer to form cross-connected heat dissipation channels for guiding the heat generated by the self-heating package to crisscross flow in the pocket; the heat insulation layer attached to an outer surface of the heat conduction layer; thermal conductivity of the heat insulation layer lower than that of the heat conduction layer, so that a temperature difference is formed between the heat conduction layer and the heat insulation layer during heat conduction.
An auxiliary optical system is installed on a telescopic sight of a gun, the telescope sight including an eyepiece end, an objective end and a first reticle. The system includes a digital imaging member fixed at the objective end by a first fixing member and partially shielding an objective lens, a display member fixed at the eyepiece end by a second fixing member and electrically connected to the digital imaging member; the digital imaging member configured to perform photosensitive image on environmental images and convert the environmental images into video signals, and generates a second reticle that is adjustable and has the same function as the first reticle, the second reticle and the video signals stacked together to be transmitted to the display member for display. The present disclosure enables the gun to have functions of the digital sight without replacing a conventional telescopic sight.
F41G 3/18 - Dispositifs à cible auxiliaire adaptés pour le tir indirect
F41G 1/38 - Appareils de visée télescopiques spécialement adaptés aux armes à feu individuelles ou aux pièces d'artillerie; Leurs supports ou leurs montures
The present invention provides a thermal imaging target for shooting training, comprising a heat insulation layer, a heat conduction layer, a flow guide layer, a bottom layer, and a self-heating package; the heat conduction layer is sealedly connected to the edge of the bottom layer, and an opening is formed at the top to form a pocket-like structure; the self-heating package is placed in a pocket, and a self-heating material is provided in the self-heating package for generating heat; the flow guide layer is supported between the heat conduction layer and the bottom layer in the pocket and forms cross-connected heat dissipation channels for guiding the heat generated by the self-heating package to cross flow in the pocket; the heat insulation layer is attached to an outer surface of the heat conduction layer; the thermal conductivity of the heat insulation layer is lower than that of the heat conduction layer, so that a temperature difference is formed between the heat conduction layer and the heat insulation layer during heat conduction. The thermal imaging target of the present invention has a temperature difference that lasts for an enough long time so that the target can be clearly seen by a thermal imaging sight, has a simple structure, is convenient to use, has low cost, and is suitable for popularization for use.
Disclosed is a visual perception system. The visual perception system is used for a sighting telescope and comprises a plurality of cameras, a central control portion, a display portion and a plurality of fixing portions, wherein the plurality of fixing portions are used for fixing the cameras, the central control portion and the display portion on a sighting telescope body; the central control portion is electrically connected to the cameras and the display portion; the camera is aligned with an adjusting knob and collects a scale line image during rotation of the adjusting knob, and each frame of the scale line image contains a plurality of scale lines; and the central control portion identifies the change in the scale lines in the scale line image, calculates a current adjusting value of the adjusting knob according to an identification result, and transmits the current adjusting value to the display portion for real-time tracking display. According to the present invention, a shooter can visually check an adjusting value of an adjusting knob during adjustment on a display portion, so as to greatly improve the shooting efficiency.
F41G 1/38 - Appareils de visée télescopiques spécialement adaptés aux armes à feu individuelles ou aux pièces d'artillerie; Leurs supports ou leurs montures
F41G 1/16 - Mécanismes de réglage des crans de mire; Montures des crans de mire
H04N 7/18 - Systèmes de télévision en circuit fermé [CCTV], c. à d. systèmes dans lesquels le signal vidéo n'est pas diffusé
The invention provides an auxiliary optical system, a telescopic sight (203) mounted on a gun (200), the telescope sight (203) comprising an eyepiece end (2032), an objective lens end (2033), and a first reticle (2031). The auxiliary optical system comprises a digital imaging unit (10), a display unit (20), a first fixing part (30), and a second fixing part (31). The digital imaging unit (10) is fixed at the end portion of the objective lens end (2033) by means of the first fixing part (30) and partially covers the objective lens (2034). The display unit (20) is fixed at the eyepiece end (2032) by means of the second fixing part (31), and is electrically connected to the digital imaging unit (10). The digital imaging unit (10) senses and images an ambient image and converts the ambient image into a video signal, and generates a second reticle (211) that is movably adjusted and has the same function as the first reticle (2031), the second reticle (211) and the video signal being superimposed before being transmitted to the display unit (20) for display. The present system allows a firearm to operate as a digital telescopic sight without having to replace a conventional telescopic sight and without having to zero a shooting, while substantially reducing the area of the telescopic sight projecting from the front view direction of the gun contour by partially overlapping the design.
09 - Appareils et instruments scientifiques et électriques
11 - Appareils de contrôle de l'environnement
13 - Armes à feu; explosifs
Produits et services
Data processing apparatus; Telescopic sights for firearms; thermal imaging cameras; Camcorders; Rangefinders; optical lenses. Head torches; searchlights; diving lights; light-emitting diodes [LED] lighting apparatus; electric torches. Ballistic weapons; sighting mirrors for guns and rifles; sights, other than telescopic sights, for artillery.
Condoms; Sphygmomanometers; Chiropractic instruments; Electric massage apparatus for household use; Fever thermometers; Health monitoring devices consisting of blood pressure monitors, thermometers and pedometers; Hearing aids; Infrared thermometers for medical purposes; Love dolls; Massage apparatus; Massage chairs; Sanitary masks for medical wellness purposes; Sex dolls; Thermometers for medical use; UV lamps for medical applications
The present invention provides an auxiliary calculation and conversion system used for a telescopic sight. The telescopic sight comprises a division line, a plurality of adjusting knobs, and a main body; the auxiliary calculation and conversion system comprises a plurality of sensing parts, a plurality of magnetic rings, a central control part, a display part, and a plurality of fixing parts; the central control part receives a target adjusting amount of the adjusting knobs and calculates a snap value corresponding to the target adjusting amount, and the snap value is displayed on the display part; the central control part receives current angle data, sent by the sensing parts, of the adjusting knobs at the position where the sensing parts are located, and converts the current angle data into a current snap value and a current multiplying power value, and the current snap value and the current multiplying value are displayed; and the existing adjusting amount of the adjusting knobs is calculated, and the value of an aiming point of the division line is calculated according to the target adjusting amount, the existing adjusting amount, and the current multiplying power value and transmitted to the display part for displaying. According to the present invention, a shooter can quickly perform aiming by means of a snap value or a division line, and the errors of the shooter are reduced, thereby greatly increasing shooting efficiency.
A sensing-based adjustment system for a scope comprises multiple sensing portions (10), a setting portion (20), a central control portion (30), a display portion (40), multiple fixing portions, and multiple transmission portions. Each sensing portion (10) comprises an encoder (1001) and a gear (1002), and is used to sense a rotation angle of a corresponding adjustment control and to transmit the same to the central control portion (30). The transmission portion is fixed to the corresponding adjustment control. The fixing portion is used to fix the sensing portion (10) to a main body (60) of the scope, to mesh with a gear of the transmission portion at the corresponding adjustment control, and to fix the central control portion (30) to the main body (60) of the scope. The central control portion (30) performs, according to setting data of the setting portion (20) and angle data sensed by the sensing portions (10), calculation to obtain adjustment amounts of respective adjustment controls, and can simultaneously cause, according to a received target adjustment amount, the sensing portion (10) to automatically adjust the corresponding adjustment control by means of the transmission portion. The invention enables direct hitting of a target without requiring manual adjustment, thereby increasing shooting efficiency.
A sensing and adjustment system for a telescopic sight includes a plurality of sensing portions, a plurality of driving portions and a central controlling portion respectively fixed to a main body of the telescopic sight, a setting portion, a displaying portion, a plurality of fixing portions, a plurality of transmitting portions each fixed to a corresponding adjusting knob. Each sensing portion includes an angle position sensor and a gear and is configured to perceive a rotation angle of the corresponding adjusting knob and then transmitted to the central controlling portion. The fixing portion fixes the sensing portions and driving portions to the main body and close to their corresponding adjusting knob so that the gear of the sensing portions and driving portions is meshed with a corresponding gear of the transmitting portion. The central controlling portion can calculate an adjusting quantity of each adjusting knob according to setting data set by the setting portion and angle data perceived by the sensing portion and simultaneously drive the driving portion to automatically adjust the corresponding adjusting knob via the transmitting portion according to a received objective adjusting quantity.
F41G 1/38 - Appareils de visée télescopiques spécialement adaptés aux armes à feu individuelles ou aux pièces d'artillerie; Leurs supports ou leurs montures
G02B 7/00 - Montures, moyens de réglage ou raccords étanches à la lumière pour éléments optiques
G02B 23/00 - Télescopes ou lunettes d'approche, p.ex. jumelles; Périscopes; Instruments pour voir à l'intérieur de corps creux; Viseurs; Pointage optique ou appareils de visée
F41A 27/20 - Dispositifs d'entraînement pour le pointage des tourelles
F41G 11/00 - APPAREILS DE VISÉE; POINTAGE - Parties constitutives des appareils de pointage ou de visée; Accessoires
F41G 1/54 - Dispositifs pour tests ou vérifications
A sensing-based display system for a scope comprises multiple sensing portions (10), multiple fixing portions, a central control portion (30), a setting portion (20), and a display portion (40). Each sensing portion (10) is used to sense a first three-dimensional spatial direction of a corresponding adjustment control of the scope and to transmit the same to the central control portion (30). The fixing portion is used to fix the sensing portion (10) to the corresponding adjustment control of the scope and to fix the central control portion (30) to a main body (60) of the scope. The central control portion (30) senses a second three-dimensional spatial direction, performs, according to setting data of the setting portion (20) and a change in relative angles of the second three-dimensional spatial direction and the first three-dimensional spatial direction, calculation to obtain an adjustment amount of the adjustment control, and digitalizes and transmits the same to the display portion (40) for display. The sensing-based display system can obtain instant adjustment amounts of respective adjustment controls of the scope, and digitalize and transmit the same to the display portion (40) for display, such that when aiming at a target, a user can quickly view, from the display portion (40), instant and continuous adjustment amounts of the respective adjustment controls of the scope, thereby greatly increasing shooting efficiency.
A virtual display device (100, 100a) comprises a fixing portion (10, 10a), a protective portion (20, 20a), and a virtual portion (30, 30a). The protective portion (20, 20a) sleeves onto an eyepiece end (202) of a telescopic sight (200, 200a). The fixing portion (10, 10a) fixes the protective portion (20, 20a) and the virtual portion (30, 30a) to the eyepiece end (202). The virtual portion (30, 30a) comprises a virtual assembly (32, 32a), a display screen (34, 34a), and a housing (36, 36a). The display screen (34, 34a) and the virtual assembly (32, 32a) are mounted on the housing (36, 36a). Light emitted by the display screen (34, 34a) passes through the virtual assembly (32, 32a) whereby the light is focused and shifted, such that the light and light from an eyepiece (201, 201a) both form an image at a distance close to the eye relief of the telescopic sight (200, 200a), and a human eye can simultaneously and clearly see a target in the eyepiece (201, 201a) and content displayed by the display screen (34, 34a). The virtual display device (100, 100a) uses the virtual assembly (32, 32a) to cause light emitted by the display screen (34, 34a) to be focused and shifted, such that the light and light from the eyepiece (201, 201a) both form an image at a distance close to the eye relief of the telescopic sight (200, 200a), and a human eye can simultaneously and clearly see a target in the eyepiece (201, 201a) and content displayed by the display screen (34, 34a). The invention allows important shooting information to be obtained while a user is taking aim, thereby greatly improving the effectiveness of a shot.
G02B 23/00 - Télescopes ou lunettes d'approche, p.ex. jumelles; Périscopes; Instruments pour voir à l'intérieur de corps creux; Viseurs; Pointage optique ou appareils de visée
A virtual displaying device used on a telescopic sight includes a sleeve sleeved around an eyepiece portion of the telescopic sight, a virtual assembly and a fixing portion for fixing the sleeve and the virtual assembly to the eyepiece portion. The virtual assembly includes a housing, a virtual member and a displaying screen both received in the housing. Light emitted from the displaying screen passes through the virtual member to be zoomed, shifted and then projected, together with light of the eyepiece, near distance of eye relief of the telescopic sight so that a shooter can simultaneously and clearly see both the target inside the eyepiece and contents displayed on the displaying screen. The present structure above can allow the shooter to obtain important shooting information while aiming at a target and greatly improve the efficiency of the telescopic sight.
G02B 23/00 - Télescopes ou lunettes d'approche, p.ex. jumelles; Périscopes; Instruments pour voir à l'intérieur de corps creux; Viseurs; Pointage optique ou appareils de visée
G02B 23/10 - Télescopes ou lunettes d'approche, p.ex. jumelles; Périscopes; Instruments pour voir à l'intérieur de corps creux; Viseurs; Pointage optique ou appareils de visée comprenant des prismes ou des miroirs projetant dans le champ de vision des indications supplémentaires, p.ex. données par des collimateurs
F41G 1/38 - Appareils de visée télescopiques spécialement adaptés aux armes à feu individuelles ou aux pièces d'artillerie; Leurs supports ou leurs montures
G02B 23/16 - Logements; Couvercles; Montures; Supports, p.ex. avec contrepoids
F41G 1/30 - Appareils de visée à réflexion spécialement adaptés aux armes à feu individuelles ou aux pièces d'artillerie
