CN105547048B - A kind of light-duty infrared gun aiming device - Google Patents
A kind of light-duty infrared gun aiming device Download PDFInfo
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- CN105547048B CN105547048B CN201510863194.2A CN201510863194A CN105547048B CN 105547048 B CN105547048 B CN 105547048B CN 201510863194 A CN201510863194 A CN 201510863194A CN 105547048 B CN105547048 B CN 105547048B
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- monocular
- infrared
- mounting seat
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- boss
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- 230000003287 optical effect Effects 0.000 claims abstract description 6
- 125000006850 spacer group Chemical group 0.000 claims description 21
- 238000012545 processing Methods 0.000 claims description 18
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- 125000003003 spiro group Chemical group 0.000 claims description 9
- 238000000034 method Methods 0.000 claims description 6
- 230000004888 barrier function Effects 0.000 claims description 5
- 230000008569 process Effects 0.000 claims description 5
- 230000009471 action Effects 0.000 claims description 4
- 230000005540 biological transmission Effects 0.000 claims description 4
- 230000000694 effects Effects 0.000 claims description 4
- 230000007704 transition Effects 0.000 claims description 4
- 239000013536 elastomeric material Substances 0.000 claims description 3
- 239000000463 material Substances 0.000 claims description 3
- 238000004804 winding Methods 0.000 claims description 3
- 238000009434 installation Methods 0.000 claims description 2
- 238000003032 molecular docking Methods 0.000 claims description 2
- 239000000203 mixture Substances 0.000 description 8
- 210000003168 insulating cell Anatomy 0.000 description 4
- 238000012946 outsourcing Methods 0.000 description 4
- 230000000712 assembly Effects 0.000 description 3
- 238000000429 assembly Methods 0.000 description 3
- 239000011521 glass Substances 0.000 description 3
- 230000008859 change Effects 0.000 description 2
- 238000012937 correction Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
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- 230000006378 damage Effects 0.000 description 1
- 238000013016 damping Methods 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 238000010304 firing Methods 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
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- 230000037431 insertion Effects 0.000 description 1
- 238000009413 insulation Methods 0.000 description 1
- 208000020442 loss of weight Diseases 0.000 description 1
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41G—WEAPON SIGHTS; AIMING
- F41G1/00—Sighting devices
- F41G1/32—Night sights, e.g. luminescent
- F41G1/34—Night sights, e.g. luminescent combined with light source, e.g. spot light
- F41G1/36—Night sights, e.g. luminescent combined with light source, e.g. spot light with infrared light source
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41G—WEAPON SIGHTS; AIMING
- F41G1/00—Sighting devices
- F41G1/46—Sighting devices for particular applications
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- Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Telescopes (AREA)
- Photometry And Measurement Of Optical Pulse Characteristics (AREA)
Abstract
The invention discloses the light-duty infrared gun aiming device of one kind, belong to technical field of optical instrument;It includes:Monocular mirror assembly, infrared detector module, mirror rifle connecting seat assembly, without thermalization infrared lens component, battery component, mounting seat, switch/correcting button, OLED display and casing assembly;One end of mirror rifle connecting seat assembly is arranged on rifle, the bottom connection of the other end and mounting seat, and the top of mounting seat is docked with battery component;The two ends of mounting seat are separately mounted to without thermalization infrared lens component and casing assembly;Infrared detector module is fixed in casing assembly, and monocular mirror assembly is connected with casing assembly, and OLED display is fixed between infrared detector module and monocular mirror assembly;Switch/correcting button is arranged on mounting seat top surface, and is electrically connected with battery component and infrared detector module;The present invention can complete observation and aiming to 500m or so single personnel targets, can be with all weather operations in 24 hours.
Description
Technical field
The invention belongs to technical field of optical instrument, and in particular to a kind of light-duty infrared gun aiming device.
Background technology
Infrared gun aiming device parts peculiar on the market is more at present, some outfit laser range finders, thus cause weight compared with
Greatly, cost is very high;
The applicable firearms of existing infrared gun aiming device are less, and firing table is very simple, and fire accuracy is not high;
Conventional infrared gun aiming device connecting seat locking operation is complicated laborious, need to repeatedly pull spanner, and spanner is possible to skid, peace
Dress is inconvenient;And repetition being loaded property precision is relatively low, so as to influence the fire accuracy of infrared gun aiming device;
Conventional infrared gun aiming device is without glissando, when infrared gun aiming device is impacted by multiple shooting, first infrared objective
And glass chipping, or even glass breaking occurs in the eyeglass in eyepiece;Secondly domestic non-refrigerated infrared detector is being impacted
When, it may appear that bad member, so as to influence image viewing then to cause fixed position to loosen first, so as to cause infrared acquisition to be sent out
Raw mobile or inclination, causes serious zero drift.And occur also causing infrared detector and process circuit after loosening
Destruction.
The content of the invention
In view of this, it is an object of the invention to provide the light-duty infrared gun aiming device of one kind, supported the use with 95 Shi Qiang races, can
Observation and aiming to 500m or so single personnel targets are completed, can be with all weather operations in 24 hours.
Observation and aiming to 500m or so single personnel targets are completed, can be with all weather operations in 24 hours;This is light-duty
Infrared gun aiming device uses domestic detector, lightweight, convenient operation.
The present invention is achieved through the following technical solutions:
A kind of light-duty infrared gun aiming device, including:Monocular mirror assembly, infrared detector module, mirror rifle connecting seat assembly, without heat
Change infrared lens component, battery shell component, mounting seat, switch/correcting button, OLED display, casing assembly and transitional frame;
The infrared detector module is believed light by realizing the collection to infrared light without thermalization infrared lens component
It is delivered to after number switching to electric signal, Electric signal processing in OLED display, so that operating personnel are observed by monocular mirror assembly;
The battery shell component is that infrared detector module and OLED display provide power supply;
Switch/the correcting button realize gun aiming device open shutdown and infrared detector module collection infrared image enter
The regulation switch of row correction;
Its annexation is as follows:One end of mirror rifle connecting seat assembly is arranged on rifle, the bottom of the other end and mounting seat
The installation cavity of battery is formed after being docked with battery shell component on connection, the top of mounting seat;Without thermalization infrared lens component and outside
Shell component is separately mounted to the two ends of mounting seat;Infrared detector module is fixed in casing assembly, and monocular mirror assembly passes through mistake
Cross frame to be connected with casing assembly, OLED display is fixed between infrared detector module and monocular mirror assembly;Wherein, no thermalization
Infrared lens component, infrared detector module, OLED display and monocular mirror assembly are centrally located on same straight line;Open
Pass/correcting button is arranged on mounting seat top surface, and is electrically connected with battery shell component and infrared detector module.
Further, in addition to:Eye-shade and lens cap;The eye-shade is funnel-form, and material uses rubber,
Light barrier is provided with the diameter minimum of funnel-shaped structure, when being compressed axially funnel-shaped structure, light barrier is automatically opened up;The mirror
Skull is the plectane using elastomeric material;One end that eye-shade does not install transitional frame with monocular mirror assembly is connected;Lens cap leads to
After the rope that kicks the beam is connected in mounting seat, lid is mounted in without end face of the thermalization infrared lens component away from battery shell component when not working
On, during work, lens cap is removed.
Further, the monocular mirror assembly includes:Eyeshade interface, the first eyepiece, the second eyepiece, monocular instrumnent inner cylinder, list
Eyepiece trim ring, monocular instrumnent inside casing, monocular instrumnent hand frame and monocular instrumnent spacer ring;
The inner peripheral surface of the monocular instrumnent inner cylinder is provided with positive stop lug boss, and outer circumference surface is provided with connection boss;
The monocular instrumnent inside casing is integrally formed by the cylinder and flange of both ends open, and flange is located at the end face of cylinder, flange
Center be provided with rectangular through-hole;
Monocular instrumnent inner cylinder is sleeved on inframe in monocular instrumnent, and is flexibly connected by screw thread, and then adjusts monocular instrumnent inside casing
The distance of end face of flange and monocular instrumnent inner cylinder end face;Monocular instrumnent hand frame is sleeved on the outer circumference surface of monocular instrumnent inside casing, and and monocular
The connection boss of mirror inner cylinder is fixedly connected;Eyeshade interface is connected the end face docking of monocular instrumnent hand frame with monocular instrumnent inner cylinder;First mesh
Mirror and the second eyepiece are installed in monocular instrumnent inner cylinder, spacing by monocular instrumnent spacer ring between the first eyepiece and the second eyepiece, the
One eyepiece is carried out spacing by the positive stop lug boss of monocular instrumnent inner cylinder, and the second eyepiece passes through the monocular instrumnent that is fixed on monocular instrumnent inner cylinder
Trim ring carries out spacing.
Further, the infrared detector module includes:Detector, detector panel, image acquisition board, signal transacting
Plate, power supply and communicating circuit plate, long spiro nail and cut-off set;
The detector passes to image acquisition board for gathering infrared light, and optical signal being switched into electric signal;
Described image collection plate is used to gather the electric signal of detector transmission and passes to signal-processing board;
The signal-processing board is used to handle the power information received, and output digital video signal;
Digital video signal is delivered in OLED display by power supply and the communicating circuit plate;
Detector panel, image acquisition board, signal-processing board and power supply and communicating circuit plate are arranged on long spiro nail side by side successively
On, it is spacing by separating set progress between detector panel, image acquisition board, signal-processing board and power supply and communicating circuit plate;Visit
Device is surveyed to be fixed on detector panel.
Further, the casing assembly includes:Shell, knob, encoder, encoder mounting seat, adapter, connector
Mounting seat, connector and tarpaulin;
The shell is the square casing that one end open one end is closed, and the blind end of square casing is provided with rectangular through-hole, side
Mutual corresponding circular hole is provided with two opposite flanks of shape housing;
The knob is used to rotating or pressing encoder;
Circular hole relative with two of shell is connected two adapters respectively, and encoder is fixed on by encoder mounting seat to be turned
In joint chair, connector is fixed in another adapter by connector mounting seat;Knob is arranged on the axle of encoder, knob
The end face of end face and encoder mounting seat leave gap;Tarpaulin is arranged on the end face of connector.
Further, it is described to include without thermalization infrared lens component:Body tube, the first object lens, the first trim ring, first every
Circle, the second trim ring, the second spacer ring, the second object lens and the 3rd object lens;
The inner peripheral surface of the body tube is machined with more than two positive stop lug boss;
The inner peripheral surface of first trim ring is provided with annular boss;
First object lens, the second object lens and the 3rd object lens are separately fixed inside body tube, wherein, one end of the first object lens leads to
Cross the first spacer ring to contradict on the positive stop lug boss of body tube, the other end is entered by the first trim ring installed in body tube outer circumference surface
Row is spacing;Axial limiting is carried out by the second spacer ring between second object lens and the 3rd object lens, the 3rd object lens are contradicted in body tube
On positive stop lug boss, the second object lens carry out axial limiting by the second trim ring installed in body tube inner peripheral surface.
Further, the mounting seat is provided between two cylindrical cavities arranged side by side, two cylindrical cavities and is provided with circular port;It is described
Battery shell component includes:Battery lid housing, screw handwheel, tightening screw, spring and turriform spring;
The battery lid housing is provided between two cylindrical cavities arranged side by side, two cylindrical cavities and is machined with manhole, circle
It is machined with the middle part of shape through hole on annular stop boss, annular stop boss and is machined with internal thread;
One end of the tightening screw, which is machined with annular boss, annular boss, is machined with external screw thread, and the other end is provided with limit
Position boss;
Two cylindrical cavities of battery lid housing dock the cylinder chamber closed at both ends to be formed with the cylindrical cavity of mounting seat, screw
Screw is passed through after the manhole of battery lid housing, and the positive stop lug boss of tightening screw is contradicted on the end face of battery lid housing, rotation
Tight screw is threaded in the circular port of mounting seat by it, is entered to be about to battery cover housing and is fixedly connected with mounting seat;Wherein,
The outer circumference surface of tightening screw keeps gap with the manhole of battery lid housing, and spring is arranged in the gap, spring
One end is contradicted on the annular stop boss of battery lid housing manhole, and the other end contradicts the positive stop lug boss in tightening screw
On;
Handwheel is screwed installed in the one end of tightening screw with positive stop lug boss;When tightening screw to close to screw handwheel movement make
The circular port of tightening screw and mounting seat when outwarding winding, tightening screw is under the action of the spring to close to screwing handwheel movement, rotation
The annular boss of tight screw is contradicted on the annular stop boss of battery lid housing, when further rotating tightening screw, is screwed
Screw and the screw-internal thread fit in battery lid housing;
Four turriform springs are separately fixed on two cylinder chamber two ends, wherein, two in battery lid housing
Individual turriform spring is connected by wire.
Further, the mirror rifle connecting seat assembly includes:Rifle connecting seat, spring-loaded plunger, backing-up screw, locking spiral shell
Female, spanner and retainer;
The rifle connecting seat is Z-type support, and Z-type support is made up of upper flat plate, lower flat board and swash plate;Plane where swash plate
Angle with plane where upper flat plate and lower flat board is 77 °~79 °;The intersection of swash plate and upper flat plate and lower flat board processes
For round-corner transition;The mounting hole being connected with mounting seat is provided with the upper flat plate of Z-type support;Spiral shell is machined with the swash plate of Z-type support
Pit, screwed hole diameter parallel plane where upper plane;The lower planar bottom surface of Z-type support is provided with the swallow being connected with rifle
Stern notch;
The spanner is integrally formed by semi-cylindrical in configuration and rod-like structure;The retainer is semi-cylindrical in configuration;The half of spanner
Cylindrical structure forms a hollow cylinder after being docked with retainer;
The backing-up screw is stepped cylinder, and stepped cylinder is divided into smooth section, circumferential tooth section and thread segment;Light
The hollow cylinder that the cylinder of sliding section is formed after being docked with spanner with retainer is engaged, and the cylindrical outer circumference face of circumferential tooth section is uniformly all
To tooth, the cylinder of thread segment is provided with external screw thread;
Internal thread and external screw thread are respectively equipped with the stop nut;
The spring-loaded plunger is made up of ball, spring and stud, and ball under the action of the spring, is realized along stud axial direction
It is flexible;
Stop nut is fixed on the lower flat board of rifle connecting seat;The thread segment of backing-up screw is threadedly attached in locking
In nut, the swash plate of the outer circumference surface and rifle connecting seat of backing-up screw circumference tooth section leaves gap;After spanner is docked with retainer
The hollow cylinder of formation is sleeved on the outer circumference surface of backing-up screw smooth section, and spanner and retainer are locked;Spring-loaded plunger is fixed
In the screwed hole of rifle connecting seat swash plate, the ball of spring-loaded plunger is contradicted on the circumferential tooth of backing-up screw.
Beneficial effect:(1) dimension scale of the invention by determining battery lid housing and mounting seat, adjusts each inter-module
Topology layout, can reach the purpose of adjustment center of gravity, and then reach good damping effect, and each component of the infrared gun aiming device
It is simple in construction, reliability is high, and special purpose parts quantity is few, and weight is less than 520g, more on the market same performance infrared gun aiming device weight
Amount mitigates 300g or so.
(2) mirror rifle connecting seat assembly of the invention is applicable a variety of firearms, fast demountable;And rifle connecting seat, which has, to be subtracted
Shake is acted on, and can reduce the impact that the lens of monocular mirror assembly and the objective lenses without thermalization infrared lens component are subject to,
Prevent glass for lenses chipping or rupture;And reduce the impact that infrared detector module is subject to, the zero-bit of infrared detector module
Momentum is walked within 0.5mil;When rifle is shot, bad member number is drastically reduced, and only occurs 2-3.
(3) backing-up screw of the invention has certain anti-loosing effect, and backing-up screw is machined with circumferential tooth, and spring-loaded plunger is contradicted
On the circumferential tooth of backing-up screw, anti-loosing effect further enhancing.
(4) present invention is by rationally designing the cooperation pitch of backing-up screw and stop nut, only pull spanner about four/
One circle can lock gun sight, convenient, fast.
Brief description of the drawings
Fig. 1 is the front view of structure composition of the present invention.
Fig. 2 is the top view of structure composition of the present invention.
Fig. 3 is the structure composition figure of infrared detector module.
Fig. 4 is the structure composition figure of infrared detector module.
Fig. 5 is the structure composition figure of casing assembly.
Fig. 6 is the structure composition figure without thermalization infrared lens component.
Fig. 7-8 is the structure composition figure of battery shell component.
Fig. 9-10 is the structural representation of mounting seat.
Figure 11 is the structural representation of battery lid housing.
Figure 12 for mirror rifle connecting seat assembly structure composition figure,
Figure 13 is the structural representation of rifle connecting seat.
Wherein, 1- eye-shades, 2- monocular mirror assemblies, 3- infrared detector modules, 4- mirror rifle connecting seat assemblies, 5- is without warm
Change infrared lens component, 6- battery shell components, 7- switches/correcting button, 8-OLED displays, 9- casing assemblies, 10- transition
Frame, 11- lens caps, 21- eyeshade interfaces, the eyepieces of 22- second, the eyepieces of 23- first, 24- monocular instrumnent inner cylinders, 25- monocular instrumnent trim rings,
26- monocular instrumnent inside casings, 27- monocular instrumnent hand frames, 28- monocular instrumnent spacer rings, 31- detectors, 32- detector panels, 33- IMAQs
Plate, 34- signal-processing boards, 35- power supplys and communicating circuit plate, 36- long spiro nails, 37- cut-off sets, 41- rifle connecting seats, 42- bullets
Spring plunger, 43- backing-up screws, 44- stop nuts, 45- spanners, 46- retainers, 51- body tubes, the object lens of 52- first, 53- first
Trim ring, the spacer rings of 54- first, the trim rings of 55- second, the spacer rings of 56- second, the object lens of 57- second, the object lens of 58- the 3rd, 61- battery cover shells
Body, 62- screws handwheel, 63- tightening screws, 64- springs, 65- mounting seats, 66- insulating cells, 67- turriform springs, 68- insulation
Sleeve, 69- boss II, 70- keyway, 71- boss I, 91- shell, 92- knobs, 93- encoders, 94- encoder mounting seats, 95-
Adapter, 96- connector mounting seats, 97- connectors, 98- tarpaulins.
Embodiment
The present invention will now be described in detail with reference to the accompanying drawings and examples.
The invention provides the light-duty infrared gun aiming device of one kind, referring to accompanying drawing 1,2, including:Eye-shade 1, monocular mirror assembly
2nd, infrared detector module 3, mirror rifle connecting seat assembly 4, without thermalization infrared lens component 5, battery shell component 6, mounting seat 65, open
Pass/correcting button 7, OLED display 8, casing assembly 9, transitional frame 10 and lens cap 11;
The eye-shade 1 is funnelform outsourcing piece, and material uses rubber, set at the diameter minimum of funnel-shaped structure
There is light barrier, when being compressed axially funnel-shaped structure, light barrier is automatically opened up;
Referring to accompanying drawing 3, the monocular mirror assembly 2 includes:Eyeshade interface 21, the first eyepiece 23, the second eyepiece 22, monocular instrumnent
Inner cylinder 24, monocular instrumnent trim ring 25, monocular instrumnent inside casing 26, monocular instrumnent hand frame 27 and monocular instrumnent spacer ring 28;
The eyeshade interface 21 is the circular cone tubular structure of both ends open, and the outer surface at the big end of circular cone tubular structure is provided with ring
Connected in star is used to connect eye-shade 1;
The inner peripheral surface of described one end of monocular instrumnent inner cylinder 24 is provided with positive stop lug boss, and outer circumference surface is provided with connection boss;Monocular
The other end of mirror inner cylinder 24 is machined with internal and external screw thread respectively;
The monocular instrumnent trim ring 25 is with externally threaded circular ring;
The monocular instrumnent inside casing 26 is integrally formed by the cylinder and flange of both ends open, and flange is located at the end face of cylinder, method
Blue center, which is provided with rectangular through-hole, cylinder, is machined with internal thread;
The monocular instrumnent hand frame 27 is cylinder-like structure, and the outer circumference surface of cylinder-like structure is machined with uniform groove, is used
In increase frictional force, diopter is conveniently adjusted;
The external screw thread of monocular instrumnent inner cylinder 24 is flexibly connected with the internal thread of monocular instrumnent inside casing 26, and then adjusts monocular instrumnent inside casing
26 end face of flange and the distance of the end face of monocular instrumnent inner cylinder 24;Monocular instrumnent hand frame 27 is sleeved on the excircle of monocular instrumnent inside casing 26
Face, and be fixed by screws on the connection boss of monocular instrumnent inner cylinder 24, in the inner peripheral surface and monocular instrumnent of monocular instrumnent hand frame 27
The outer circumference surface of frame 26 leaves gap, and is sealed by O-ring seal;Eyeshade interface 21 is connected monocular instrumnent with monocular instrumnent inner cylinder 24
The end face of hand frame 27 is fixedly connected by screw;First eyepiece 23 and the second eyepiece 22 are installed in monocular instrumnent inner cylinder 24, the
Spacing by monocular instrumnent spacer ring 28 between one eyepiece 23 and the second eyepiece 22, the first eyepiece 23 passes through the spacing of monocular instrumnent inner cylinder 24
Boss progress is spacing, and the second eyepiece 22 is carried out spacing by the monocular instrumnent trim ring 25 being fixed on monocular instrumnent inner cylinder 24;
Referring to accompanying drawing 4, the infrared detector module 3 includes:Detector 31, detector panel 32, image acquisition board 33, letter
Number process plate 34, power supply and communicating circuit plate 35, long spiro nail 36 and cut-off set 37;
The detector 31 passes to image acquisition board 33 for gathering infrared light, and optical signal being switched into electric signal;
Described image collection plate 33 is used to gather the electric signal of the transmission of detector 31 and passes to signal-processing board 34;
The signal-processing board 34 is used to handle the electric signal received, and output digital video signal;
Digital video signal is delivered in OLED display 8 by power supply and the communicating circuit plate 35;
Detector panel 32, image acquisition board 33, signal-processing board 34 and power supply and communicating circuit plate 35 are installed side by side successively
On long spiro nail 36, pass through between detector panel 32, image acquisition board 33, signal-processing board 34 and power supply and communicating circuit plate 35
Cut-off set 37 carries out spacing;Detector 31 is fixed on detector panel 32;
Referring to accompanying drawing 5, the casing assembly 9 includes:Shell 91, knob 92, encoder 93, encoder mounting seat 94, turn
Joint chair 95, connector mounting seat 96, connector 97 and tarpaulin 98;
The shell 91 is the square casing that one end open one end is closed, and the blind end of square casing is provided with rectangular through-hole,
Mutual corresponding circular hole is provided with two opposite flanks of square casing;
The adapter 95 is circle sleeve-like structure;
The encoder 93 is outsourcing piece;
The encoder mounting seat 94 is flanged (FLGD) cylindrical sleeve;
The knob 92 is used for convenient rotate or pressing encoder 93;
The connector mounting seat 96 is to open female stepped cylinder;
Two adapters 95 are fixed by screws on two of shell 91 relative circular holes respectively, encoder mounting seat 94 and
Connector mounting seat 96 is separately fixed on two adapters 95;Wherein, the axle of encoder 93 passes through encoder mounting seat 94
After endoporus, it is adhesively fixed with encoder mounting seat 94, knob 92 is arranged on by screw on the axle of encoder 93, the end of knob 92
Face and the end face of encoder mounting seat 94 keep gap, to facilitate rotation and press;Connector 97, which is threadedly secured to, to be patched
In part mounting seat 96, tarpaulin 98 is arranged on the end face of connector 97;
It is described to include without thermalization infrared lens component 5 referring to accompanying drawing 6:Body tube 51, the first object lens 52, the first trim ring 53,
First spacer ring 54, the second trim ring 55, the second spacer ring 56, the second object lens 57 and the 3rd object lens 58;
The two ends of the body tube 51 are machined with external screw thread, and the inner peripheral surface of body tube 51 is machined with two with upper limit
Boss, the middle part of body tube 51 is machined with internal thread;
First trim ring 53 is machined with internal thread, and the inner peripheral surface of the first trim ring 53 is provided with annular boss for spacing;
The spacer ring 56 of first spacer ring 54 and second is circular ring, for adjusting objective lenses interval;
Second trim ring 55 is machined with external screw thread;
First object lens 52, the second object lens 57 and the 3rd object lens 58 are adhesively fixed on inside body tube 51 respectively, wherein, first
One end of object lens 52 is contradicted on the positive stop lug boss of body tube 51 by the first spacer ring 54, and the other end is by being screwed in body tube 51
First trim ring 53 of outer circumference surface carries out axial limiting;Carried out between second object lens 57 and the 3rd object lens 58 by the second spacer ring 56
Spacing, the 3rd object lens 58 are contradicted on the positive stop lug boss of body tube 51, and the second object lens 57 are by being screwed in the inner periphery of body tube 51
Second trim ring 55 in face carries out axial limiting;
Referring to accompanying drawing 9-10, the mounting seat 65 by three cylindrical housings arrange in a triangle after constitute;Two side by side
Cylindrical housings A, B diameter be less than another cylindrical housings C diameter, between two cylindrical housings A, B arranged side by side plus
Work has is machined with internal thread on circular port D, circular port D;Cylindrical housings A, B be one end closing, the housing of one end open, its
Open end is docked with two cylindrical cavities of battery lid housing 61 respectively, cylindrical housings C both ends open, and the end face side of being connected with
Shape connecting plate, the end face of square connecting plate is located remotely from cylindrical housings provided with two boss I71, two boss I71 arranged side by side
The screwed hole axially vertical with cylindrical housings C is had on A, B one end, boss I71, is set in the side of square connecting plate
Have along two of cylindrical housings C radial directions boss II69, two boss II69 arranged side by side and be located remotely from the one of cylindrical housings A, B
End, has on boss II69 and forms key with the axial consistent counterbores of cylindrical housings C, the gap between two boss II69
Groove 70, boss II69 is used to be connected mirror rifle connecting seat assembly 4 with boss I71;
Referring to accompanying drawing 7-8, the battery shell component 6 includes:Battery lid housing 61, screw handwheel 62, tightening screw 63, bullet
Spring 64, insulating cell 66, turriform spring 67, insulating sleeve 68 and battery;
Referring to accompanying drawing 11, the battery lid housing 61 is provided between two cylindrical cavities arranged side by side, two cylindrical cavities and processed
Have and annular stop boss is machined with the middle part of manhole, manhole, internal thread is machined with annular stop boss;
The uniform multiple grooves in the outer surface for screwing handwheel 62, are easy to screw the rotation of handwheel 62;
One end of the tightening screw 63, which is machined with annular boss, annular boss, is machined with external screw thread, and the other end is provided with
Positive stop lug boss;
Two cylindrical cavities of battery lid housing 61 dock to be formed closed at both ends with cylindrical housings A, B of mounting seat 65
Cylinder chamber is used to install two pieces of batteries, and tightening screw 63 is passed through after the manhole of battery lid housing 61, the limit of tightening screw 63
Position boss is contradicted on the end face of battery lid housing 61, and tightening screw 63 is threaded in the circular port D of mounting seat 65 by it
It is interior, enter to be about to battery cover housing 61 and be fixedly connected with mounting seat 65;Wherein, the outer circumference surface of tightening screw 63 and battery lid housing
61 manhole keeps gap, and spring 64 is arranged in the gap, and one end of spring 64 is contradicted justifies in battery lid housing 61
On the annular stop boss of shape through hole, the other end is contradicted on the positive stop lug boss of tightening screw 63;Screw handwheel 62 and be arranged on rotation
Tight screw 63 is close to one end of positive stop lug boss;When tightening screw 63 is moved so that tightening screw 63 and peace to the close handwheel 62 that screws
The circular port D of dress seat 65 is when outwarding winding, tightening screw 63 in the presence of spring 64 to moving close to screwing handwheel 62, tightening screw
63 annular boss is contradicted on the annular stop boss of battery lid housing 61, when further rotating tightening screw 63, is screwed
Screw 63 and the screw-internal thread fit in battery lid housing 61;Insulating cell 66 is fixed on the bottom of the cylindrical cavity of battery lid housing 61
Face, insulating sleeve 68 is sleeved on the inner peripheral surface of cylindrical housings A, B of mounting seat 65, and four turriform springs 67 pass through spiral shell respectively
Nail is fixed on insulating cell 66 and insulating sleeve 68, wherein, two turriform springs 67 in battery lid housing 61 pass through
Wire is connected;
Referring to accompanying drawing 12, the mirror rifle connecting seat assembly 4 includes:Rifle connecting seat 41, spring-loaded plunger 42, backing-up screw
43rd, stop nut 44, spanner 45 and retainer 46;
Referring to accompanying drawing 13, the rifle connecting seat 41 is Z-type support, and Z-type support is by upper flat plate, lower flat board and swash plate group
Into;The angle of swash plate and upper flat plate and lower flat board is 77 °~79 °;The intersection of swash plate and upper flat plate and lower flat board processes
For round-corner transition;The mounting hole being connected with the boss II69 and boss I71 of mounting seat 65 is provided with the upper flat plate of Z-type support, is pacified
Dress is provided with key between hole, coordinates with the keyway 70 of mounting seat 65;Hole, the screwed hole are threaded on the swash plate of Z-type support
Diameter parallel plane where upper plane;The lower planar bottom surface of Z-type support is provided with the dovetail groove being connected with rifle, and lower flat board is adjacent tiltedly
The position of plate is provided with stepped screwed hole, stepped screwed hole and dovetail groove insertion, stepped screwed hole and the screw thread on swash plate
Axially bored line direction is vertical;The mounting hole for loss of weight is provided with lower flat board;
The spanner 45 is integrally formed by semi-cylindrical in configuration and rod-like structure;The retainer 46 is semi-cylindrical in configuration;Spanner
45 semi-cylindrical in configuration forms a hollow cylinder after being docked with retainer 46;
The backing-up screw 43 is stepped cylinder, and stepped cylinder is divided into smooth section, circumferential tooth section and thread segment;
The hollow cylinder that the cylinder of smooth section is formed after being docked with spanner 45 with retainer 46 is engaged, and the diameter of circumferential tooth section is maximum, week
To the uniform circumferential tooth in the cylindrical outer circumference face of tooth section, the cylinder of thread segment is provided with external screw thread;
The outer circumference surface of the stop nut 44, which is provided with annular step surface, stop nut 44, is respectively equipped with internal thread and outer
Screw thread;
The spring-loaded plunger 42 is outsourcing piece, is made up of ball, spring and stud, and ball under the action of the spring, is realized
Along the flexible of stud axial direction;
Stop nut 44 is fixed in the stepped screwed hole of 41 times flat boards of rifle connecting seat, and the step for passing through screwed hole
Face axial limiting;The thread segment of backing-up screw 43 is threadedly attached in stop nut 44, the circumferential tooth section of backing-up screw 43
The swash plate of outer circumference surface and rifle connecting seat 41 leaves gap;The hollow cylinder that spanner 45 is formed after being docked with retainer 46 is sleeved on
The outer circumference surface of the smooth section of backing-up screw 43, and locked spanner 45 with retainer 46 by screw;Spring-loaded plunger 42 is fixed on step
In the screwed hole of the swash plate of rifle connecting seat 41, the ball of spring-loaded plunger 42 is contradicted on the circumferential tooth of backing-up screw 43;
Switch/the correcting button 7 realize gun aiming device open shutdown and infrared detector module 3 gather infrared image
Carry out the regulation switch of Nonuniformity Correction;
OLED display 8 is outsourcing piece;
The lens cap 11 is the discoideus structure using elastomeric material;
Its annexation is as follows:The boss II69 and boss I71 of mounting seat 65 connect with the rifle of mirror rifle connecting seat assembly 4
The mounting hole of the upper flat plate of joint chair 41 is fixedly connected by screw, and the key of rifle connecting seat 41 is matched somebody with somebody with the keyway 70 of mounting seat 65
Close, prevent that beat occurs for battery shell component 6 in shooting course;Body tube 51 without thermalization infrared lens component 5 is by outside it
The cylindrical housings C for being threadedly secured in mounting seat 65 does not connect one end of square connecting plate, and lens cap 11 passes through connection of gently restricting
After in mounting seat 65, lid is mounted in without on end face of the thermalization infrared lens component 5 away from battery shell component 6 when not working, and is worked
When, lens cap 11 is removed;Long spiro nail 36 of the infrared detector module 3 close to the one end of detector 31 is fixed on the circle of mounting seat 65
On cylindrical shell C square connecting plate;The blind end of the shell 91 of casing assembly 9 is fixed on infrared detector module 3 close to electricity
On the long spiro nail 36 of source and the one end of communicating circuit plate 35, the open end of shell 91 contradicts the cylindrical housings C in mounting seat 65
On square connecting plate;
Eye-shade 1 is arranged on one end of monocular mirror assembly 2 by eyeshade interface 21;OLED display 8 is solid by support
On the flange for being scheduled on the monocular instrumnent inside casing 26 of the other end of monocular mirror assembly 2;Monocular mirror assembly 2 is close to one end of OLED display 8
The blind end of the shell 91 of casing assembly 9, and the rectangular through-hole and the phase of OLED display 8 of shell 91 are arranged on by transitional frame 10
Correspondence;
Switch/correcting button 7 is arranged on the top of mounting seat 65, and electric with battery shell component 6 and infrared detector module 3
Gas is connected;
Operation principle:By without thermalization infrared lens component 5 by Infrared Targets light collection to positioned at infrared detector group
In each sensitive member of part 3, the collection infrared light of detector 31, and optical signal is switched into electric signal pass to image acquisition board 33;
The electric signal of the collection transmission of detector 31 of image acquisition board 33 simultaneously passes to signal-processing board 34;34 pairs of signal-processing board is received
Electric signal handled, and output digital video signal;Digital video signal is delivered to by power supply and communicating circuit plate 35
In OLED display 8;Display image is observed and aimed to target after amplifying through monocular mirror assembly 2;Operating personnel pass through outer
Manipulation button on shell component 9 carries out parameter setting, control and sight line position adjustment.
In summary, presently preferred embodiments of the present invention is these are only, is not intended to limit the scope of the present invention.
Within the spirit and principles of the invention, any modification, equivalent substitution and improvements made etc., should be included in the present invention's
Within protection domain.
Claims (7)
1. a kind of light-duty infrared gun aiming device, it is characterised in that including:Monocular mirror assembly (2), infrared detector module (3), mirror rifle
Connecting seat assembly (4), without thermalization infrared lens component (5), battery shell component (6), mounting seat (65), switch/correcting button
(7), OLED display (8), casing assembly (9) and transitional frame (10);
The infrared detector module (3) without thermalization infrared lens component (5) by realizing collection to infrared light, and by light
Signal switchs to be delivered to after electric signal, Electric signal processing in OLED display (8), so that operating personnel pass through monocular mirror assembly
(2) observe;
Battery in the battery shell component (6) is that infrared detector module (3) and OLED display (8) provide power supply;
Switch/the correcting button (7) realize gun aiming device open shutdown and infrared detector module (3) collection infrared image
The regulation switch being corrected;
Its annexation is as follows:One end of mirror rifle connecting seat assembly (4) is arranged on rifle, the other end and the bottom of mounting seat (65)
Portion is connected, and the installation cavity of battery is formed after being docked with battery shell component (6) on the top of mounting seat (65);Without thermalization infrared lens
Component (5) and casing assembly (9) are separately mounted to the two ends of mounting seat (65);Infrared detector module (3) is fixed on shell group
In part (9), monocular mirror assembly (2) is connected by transitional frame (10) with casing assembly (9), and OLED display (8) is fixed on infrared
Between detector assembly (3) and monocular mirror assembly (2);Wherein, no thermalization infrared lens component (5), infrared detector module
(3), OLED display (8) and monocular mirror assembly (2) are centrally located on same straight line;Switch/correcting button (7) is arranged on
Mounting seat (65) top surface, and be electrically connected with battery shell component (6) and infrared detector module (3);
Wherein, the mirror rifle connecting seat assembly (4) includes:Rifle connecting seat (41), spring-loaded plunger (42), backing-up screw (43),
Stop nut (44), spanner (45) and retainer (46);
The rifle connecting seat (41) is Z-type support, and Z-type support is made up of upper flat plate, lower flat board and swash plate;Plane where swash plate
Angle with plane where upper flat plate and lower flat board is 77 °~79 °;The intersection of swash plate and upper flat plate and lower flat board processes
For round-corner transition;The mounting hole being connected with mounting seat (65) is provided with the upper flat plate of Z-type support;Processed on the swash plate of Z-type support
There are screwed hole, screwed hole diameter parallel plane where upper plane;The lower planar bottom surface of Z-type support is provided with to be connected with rifle
Dovetail groove;
The spanner (45) is integrally formed by semi-cylindrical in configuration and rod-like structure;The retainer (46) is semi-cylindrical in configuration;Spanner
(45) semi-cylindrical in configuration forms a hollow cylinder after being docked with retainer (46);
The backing-up screw (43) is stepped cylinder, and stepped cylinder is divided into smooth section, circumferential tooth section and thread segment;Light
The hollow cylinder that the cylinder of sliding section is formed after being docked with spanner (45) with retainer (46) is engaged, the cylindrical outer circumference of circumferential tooth section
The uniform circumferential tooth in face, the cylinder of thread segment is provided with external screw thread;
Internal thread and external screw thread are respectively equipped with the stop nut (44);
The spring-loaded plunger (42) is made up of ball, spring and stud, and ball under the action of the spring, is realized along stud axial direction
It is flexible;
Stop nut (44) is fixed on the lower flat board of rifle connecting seat (41);The thread segment of backing-up screw (43) is connected by screw thread
It is connected in stop nut (44), between the outer circumference surface of backing-up screw (43) circumference tooth section and the swash plate of rifle connecting seat (41) leave
Gap;The hollow cylinder that spanner (45) is formed after being docked with retainer (46) is sleeved on the outer circumference surface of backing-up screw (43) smooth section,
And lock spanner (45) and retainer (46);Spring-loaded plunger (42) is fixed in the screwed hole of rifle connecting seat (41) swash plate, bullet
The ball of spring plunger (42) is contradicted on the circumferential tooth of backing-up screw (43).
2. a kind of light-duty infrared gun aiming device as claimed in claim 1, it is characterised in that also include:Eye-shade (1) and camera lens
Cover (11);The eye-shade (1) is funnel-form, and material uses rubber, is provided with and is in the light at the diameter minimum of funnel-shaped structure
Piece, when being compressed axially funnel-shaped structure, light barrier is automatically opened up;The lens cap (11) is the plectane using elastomeric material;
One end that eye-shade (1) does not install transitional frame (10) with monocular mirror assembly (2) is connected;Lens cap (11) is connected to by gently restricting
After in mounting seat (65), lid is mounted on the end face without the remote battery shell component (6) of thermalization infrared lens component (5) when not working,
During work, lens cap (11) is removed.
3. a kind of light-duty infrared gun aiming device as claimed in claim 1, it is characterised in that the monocular mirror assembly (2) includes:Eye
Cover interface (21), the first eyepiece (23), the second eyepiece (22), monocular instrumnent inner cylinder (24), monocular instrumnent trim ring (25), monocular instrumnent inside casing
(26), monocular instrumnent hand frame (27) and monocular instrumnent spacer ring (28);
The inner peripheral surface of the monocular instrumnent inner cylinder (24) is provided with positive stop lug boss, and outer circumference surface is provided with connection boss;
The monocular instrumnent inside casing (26) is integrally formed by the cylinder and flange of both ends open, and flange is located at the end face of cylinder, flange
Center be provided with rectangular through-hole;
Monocular instrumnent inner cylinder (24) is sleeved in monocular instrumnent inside casing (26), and is flexibly connected by screw thread, and then is adjusted in monocular instrumnent
The end face of flange of frame (26) and the distance of monocular instrumnent inner cylinder (24) end face;Monocular instrumnent hand frame (27) is sleeved on monocular instrumnent inside casing (26)
Outer circumference surface, and be fixedly connected with the connection boss of monocular instrumnent inner cylinder (24);Eyeshade interface (21) and monocular instrumnent inner cylinder (24)
Connect the end face docking of monocular instrumnent hand frame (27);First eyepiece (23) is installed in monocular instrumnent inner cylinder (24) with the second eyepiece (22)
Interior, spacing by monocular instrumnent spacer ring (28) between the first eyepiece (23) and the second eyepiece (22), the first eyepiece (23) passes through monocular
The positive stop lug boss of mirror inner cylinder (24) carries out spacing, and the second eyepiece (22) passes through the monocular instrumnent pressure that is fixed on monocular instrumnent inner cylinder (24)
Enclose (25) progress spacing.
4. a kind of light-duty infrared gun aiming device as claimed in claim 1, it is characterised in that infrared detector module (3) bag
Include:Detector (31), detector panel (32), image acquisition board (33), signal-processing board (34), power supply and communicating circuit plate
(35), long spiro nail (36) and cut-off set (37);
The detector (31) passes to image acquisition board (33) for gathering infrared light, and optical signal being switched into electric signal;
Described image collection plate (33) is used to gather the electric signal of detector (31) transmission and passes to signal-processing board (34);
The signal-processing board (34) is used to handle the power information received, and output digital video signal;
Digital video signal is delivered in OLED display (8) by power supply and the communicating circuit plate (35);
Detector panel (32), image acquisition board (33), signal-processing board (34) and power supply and communicating circuit plate (35) are arranged side by side successively
On long spiro nail (36), detector panel (32), image acquisition board (33), signal-processing board (34) and power supply and communicating circuit
It is spacing by separating set (37) progress between plate (35);Detector (31) is fixed on detector panel (32).
5. a kind of light-duty infrared gun aiming device as claimed in claim 1, it is characterised in that the casing assembly (9) includes:Shell
(91), knob (92), encoder (93), encoder mounting seat (94), adapter (95), connector mounting seat (96), connector
And tarpaulin (98) (97);
The shell (91) is the square casing that one end open one end is closed, and the blind end of square casing is provided with rectangular through-hole, side
Mutual corresponding circular hole is provided with two opposite flanks of shape housing;
The knob (92) is used to rotating or pressing encoder (93);
Circular hole relative with two of shell (91) is connected two adapters (95) respectively, and encoder (93) passes through encoder mounting seat
(94) it is fixed in adapter (95), connector (97) is fixed on another adapter (95) by connector mounting seat (96)
It is interior;Knob (92) is arranged on the axle of encoder (93), and the end face and the end face of encoder mounting seat (94) of knob (92) leave
Gap;Tarpaulin (98) is arranged on the end face of connector (97).
6. a kind of light-duty infrared gun aiming device as claimed in claim 1, it is characterised in that described without thermalization infrared lens component
(5) include:Body tube (51), the first object lens (52), the first trim ring (53), the first spacer ring (54), the second trim ring (55), second every
Enclose (56), the second object lens (57) and the 3rd object lens (58);
The inner peripheral surface of the body tube (51) is machined with more than two positive stop lug boss;
The inner peripheral surface of first trim ring (53) is provided with annular boss;
First object lens (52), the second object lens (57) and the 3rd object lens (58) are separately fixed at body tube (51) inside, wherein, first
One end of object lens (52) is contradicted on the positive stop lug boss of body tube (51) by the first spacer ring (54), and the other end passes through installed in master
First trim ring (53) of lens barrel (51) outer circumference surface carries out spacing;Pass through second between second object lens (57) and the 3rd object lens (58)
Spacer ring (56) carries out axial limiting, and the 3rd object lens (58) are contradicted on the positive stop lug boss of body tube (51), and the second object lens (57) lead to
The second trim ring (55) crossed installed in body tube (51) inner peripheral surface carries out axial limiting.
7. a kind of light-duty infrared gun aiming device as claimed in claim 1, it is characterised in that the mounting seat (65) is provided with two simultaneously
Circular port is provided between the cylindrical cavity of row, two cylindrical cavities;The battery shell component (6) includes:Battery lid housing (61), screw
Handwheel (62), tightening screw (63), spring (64) and turriform spring (67);
The battery lid housing (61) is provided between two cylindrical cavities arranged side by side, two cylindrical cavities and is machined with manhole, circle
It is machined with the middle part of shape through hole on annular stop boss, annular stop boss and is machined with internal thread;
One end of the tightening screw (63), which is machined with annular boss, annular boss, is machined with external screw thread, and the other end is provided with limit
Position boss;
Two cylindrical cavities of battery lid housing (61) dock the cylinder chamber closed at both ends to be formed with the cylindrical cavity of mounting seat (65)
For installing two pieces of batteries, tightening screw (63) is passed through after the manhole of battery lid housing (61), the limit of tightening screw (63)
Position boss is contradicted on the end face of battery lid housing (61), and tightening screw (63) is threaded in the circle of mounting seat (65) by it
In shape hole, enter to be about to battery cover housing (61) and be fixedly connected with mounting seat (65);Wherein, the outer circumference surface of tightening screw (63) with
The manhole of battery lid housing (61) keeps gap, and spring (64) is arranged in the gap, and one end of spring (64) is contradicted
On the annular stop boss of battery lid housing (61) manhole, the other end contradicts the positive stop lug boss in tightening screw (63)
On;
Handwheel (62) is screwed installed in the one end of tightening screw (63) with positive stop lug boss;When tightening screw (63) is to close to screwing hand
When wheel (62) movement make it that tightening screw (63) and the circular port of mounting seat (65) are outwarded winding, tightening screw (63) is in spring (64)
To close to screwing, handwheel (62) is mobile under effect, the annular boss of tightening screw (63) contradicts the annular in battery lid housing (61)
On positive stop lug boss, when further rotating tightening screw (63), tightening screw (63) and the internal thread in battery lid housing (61)
Coordinate;
Four turriform springs (67) are separately fixed on two cylinder chamber two ends, wherein, in battery lid housing (61)
Two turriform springs (67) connected by wire.
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CN201510863194.2A CN105547048B (en) | 2015-12-01 | 2015-12-01 | A kind of light-duty infrared gun aiming device |
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Families Citing this family (5)
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CN107062988B (en) * | 2017-03-27 | 2018-11-27 | 深圳市荣者光电科技发展有限公司 | Sighting device and shooting device |
CN106842545B (en) * | 2017-03-30 | 2023-04-28 | 北京索斯克科技开发有限公司 | Electronic low-light single-tube sighting telescope |
CN112805075B (en) * | 2018-06-15 | 2024-04-16 | 伊瓦·阿尔布佐夫 | Advanced game visualization system |
CN110139079A (en) * | 2019-06-13 | 2019-08-16 | 深圳市朗高特科技发展有限公司 | A kind of Multifunction night-vision switching gun sight |
WO2021168132A1 (en) | 2020-02-19 | 2021-08-26 | Maztech Industries, LLC | Weapon system with multi-function single-view scope |
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