CN107065127A - A kind of helmet-type night viewing camera - Google Patents

Abstract

The present invention provides a kind of helmet-type night viewing camera, including objective system mechanism, main shell structure, position adjusting mechanism, rotary switch, low-light (level) cmos detector, light compensating lamp mechanism, five pin plugs；Objective system mechanism is arranged at main shell structure front end, low-light (level) cmos detector is arranged in main shell structure and is placed in objective system mechanism rear end, position adjusting mechanism is placed in main casing body side surface, regulation for camera position, five pin plugs are arranged at main casing rear end, signal for low-light (level) cmos detector to be received transfer out and system power supply access, rotary switch is arranged on main shell structure, switch and the switch of light compensating lamp for power supply；Wherein objective system mechanism includes the objective lens frame linearly moved back and forth, and the double Gauss objective group being arranged in objective lens frame；Position adjusting mechanism includes the regulation frame along worm gear reciprocating rotation, and the regulation frame moved along rack reciprocating linear.

Description

A kind of helmet-type night viewing camera

Technical field

The present invention relates to a kind of night vision imaging technique, particularly a kind of adjustable night viewing camera in helmet-type position.

Background technology

Night viewing camera, as night march operation important equipment, is the emphasis of various countries' research all the time, around red Outside, the technology such as low-light develops all kinds of night-vision equipments, need to have infrared when active infra-red night vision device development comparative maturity but work Light source irradiates, and is easily detected by enemy and makes oneself to expose；Low-light level night vision device is difficult to stick one's chin out, but cost is high, performance by Weather influence is very big, such as misty rain day just cisco unity malfunction.Because night viewing camera is fitted on the helmet, therefore bulking value The smaller the better, too big too ghost image sound soldier's activity is required, field is because of no additional power supply, therefore power consumption is more low better, low It is on the basis of traditional CMOS figures are passed, to improve sensitivity and the signal to noise ratio of signal, make it low that illumination CMOS figures, which teach skill art, Good figure transfer performance is kept under illumination, it has small volume, the low advantage of power consumption, helmet video camera on the market is mostly adopted at present With fixed, it has not been convenient to which camera position is adjusted.

The content of the invention

It is an object of the invention to provide a kind of adjustable low-light (level) CMOS night viewing cameras in helmet-type position, including object lens system System mechanism, main shell structure, position adjusting mechanism, rotary switch, low-light (level) cmos detector, light compensating lamp mechanism, five pin plugs. Objective system mechanism is arranged at main shell structure front end, and low-light (level) cmos detector is arranged in main shell structure and is placed in object lens System authority rear end, five pin plugs are arranged at main casing rear end, and the signal for low-light (level) cmos detector to be received is transmitted Go out and system power supply access, rotary switch is arranged on main shell structure, for the switch of power supply, and light compensating lamp Switch；Wherein objective system mechanism includes the objective lens frame linearly moved back and forth, and is arranged at double high in objective lens frame This objective lens；Position adjusting mechanism includes the regulation frame along worm gear reciprocating rotation, and the tune moved along rack reciprocating linear Save frame.

Based on above-mentioned night viewing camera, the double Gauss objective group includes coaxial six pieces of lens and aperture diaphragm, wherein The lens and aperture diaphragm are followed successively by the first concave-convex lens, the second concave-convex lens, the 3rd bumps thoroughly according to light incident direction Mirror, aperture diaphragm, the 4th concave-convex lens, the 5th concave-convex lens, the 6th biconvex lens；The second concave-convex lens rear end face and Three concave-convex lens front end curvature radius are identical and gluing, before the rear end face and the 5th concave-convex lens of the 4th concave-convex lens End face radius of curvature is identical and gluing.

Based on above-mentioned night viewing camera, the night viewing camera also includes the light compensating lamp mechanism being arranged in main shell structure, The light compensating lamp mechanism includes focusing on microscope base, light compensating lamp gland, light source, condenser focusing drum, condenser, optically focused lens barrel；Wherein Focus on microscope base and be arranged at main shell structure inwall, respective openings, light compensating lamp are set on setting through hole, main shell structure wall in it Gland is connected with condenser focusing drum, and light source is arranged in condenser focusing drum and is fixed on light compensating lamp gland, optically focused lens barrel It is arranged on the through-hole wall for focusing on microscope base and is connected with condenser focusing drum inner thread, condenser is arranged at optically focused lens barrel In.

The present invention compared with prior art, with advantages below：

Video camera is installed on the helmet, therefore weight is lighter, volume is the smaller the better, can not charge in the wild, therefore treat The machine time, the longer the better, and this night viewing camera has position adjusting mechanism, and angle and displacement regulation can be carried out as needed, than Fixed to be more convenient for wearing, this night viewing camera makes it for example infrared, micro- with its species due to the advantage of low-light (level) COMS detectors Light night vision device compare with small volume, it is low in energy consumption the features such as, this night vision device uses rotary switch, can carry out 3 grades operation, compare button The more convenient control to on/off and light filling lamp switch of switch；Shell uses overall structure so that sealing property is more preferable；Mesh The multiple thread focus adjusting mechanism of mirror so that night vision device can be focused on faster；The governor motion of light compensating lamp is convenient to be carried out to light source Focus on, more fully light filling can be carried out to required scene.

With reference to Figure of description, the invention will be further described.

Brief description of the drawings

Fig. 1 (a) (b) (c) is overall structure diagram of the present invention.

Fig. 2 (a) (b) (c) is position adjusting mechanism schematic diagram of the present invention.

Fig. 3 is objective system structural scheme of mechanism of the present invention.

Fig. 4 is light compensating lamp structural scheme of mechanism of the present invention.

Embodiment

With reference to Fig. 1, a kind of helmet-type monocular wide-angle low-light (level) CMOS night vision devices, it is characterised in that including position adjustments machine Structure 1, rotary switch 2, main shell structure 3, light compensating lamp mechanism 4, objective system mechanism 5, low-light (level) cmos detector 6, five pins are inserted First 7；Wherein

Position adjusting mechanism 1 is arranged at the side of main shell structure 3,

Objective system mechanism 5 is arranged at the front end of main shell structure 3,

Position adjusting mechanism 1

Low-light (level) cmos detector 6 is arranged in main shell structure 3 and is placed in the rear end of objective system mechanism 5,

Five pin plugs 7 are arranged at main casing rear end, and the signal for low-light (level) cmos detector to be received is transferred out And the access of system power supply,

Rotary switch 2 is arranged on main shell structure 3, the switch for the switch of power supply, and light compensating lamp.

Night viewing camera of the present invention also includes light compensating lamp mechanism 4, when illumination is less than 1 × 10^-3During illumination, open and mend Light lamp works.

With reference to Fig. 2, the position adjusting mechanism 1 includes displacement adjustment axis 1-1, governor motion frame 1-2, banking pin 1-3, spiral shell Follow closely 1-4, angular adjustment axle 1-5, bearing 1-6, worm screw 1-7, worm gear 1-8, screw 1-9, double swallow tailed groove structure 1-10, rack 1- 11st, gear 1-12, bearing 1-13；Wherein

Double swallow tailed groove structure 1-10 sides are used to be fixed on the helmet, and gear is secured in place on transposition nodal axisn 1-1, and rack is used Screw 1-4 is fixed in double swallow tailed groove structure, and bearing 1-13 is arranged at governor motion frame 1-2, and displacement adjustment axis 1-1 is arranged at axle Hold on 1-13, displacement adjustment axis 1-1 can be rotated in governor motion frame 1-2, swing offset adjustment axis 1-1, gear drives tooth Bar, makes regulation frame 1-2 be moved along double swallow tailed groove structure 1-10 reciprocating linears,

Worm gear 1-8 is fixed on main shell structure 3 with screw 1-9, and worm screw 1-7 is fixed on angular adjustment axle 1-5, bearing 1-6 is arranged at governor motion frame 1-2, and angular adjustment axle 1-5 is arranged on bearing 1-6, and angular adjustment axle 1-5 can be in regulation machine Rotated in framework 1-2, banking pin 1-3 allows worm gear 1-8 to be moved along a straight line along double swallow tailed groove structure 1-10 inside grooves, the anglec of rotation is adjusted Nodal axisn 1-5, worm screw 1-7 drive worm gear 1-8, make governor motion frame 1-2 along worm gear 1-8 reciprocating rotations.

With reference to Fig. 3, objective system mechanism 5 includes the objective lens frame 5-1 linearly moved back and forth, and is arranged at object lens Double Gauss objective group 5-6 in frame 5-1.The double Gauss objective group 5-6 includes coaxial six pieces of lens and aperture diaphragm 5-8. Wherein described lens and aperture diaphragm 5-8 are followed successively by the first concave-convex lens, the second concave-convex lens, the 3rd according to light incident direction Concave-convex lens, aperture diaphragm 5-8, the 4th concave-convex lens, the 5th concave-convex lens, the 6th biconvex lens；Second concave-convex lens Rear end face is identical with the 3rd concave-convex lens front end curvature radius and gluing, the rear end face of the 4th concave-convex lens and the 5th recessed The front end curvature radius of convex lens is identical and gluing.The objective lens frame 5-1 passes through microscope base 5-10 connections main shell structure 3, institute Objective lens frame 5-1 outer walls are stated provided with external screw thread, objective holder 5-10 inwalls are provided with internal thread, the two threaded connection, by rotating thing Picture frame 5-1 realizes that objective lens frame 5-1 is linearly moved back and forth on microscope base 5-10.For ease of laying double Gauss objective group 5-6, Objective lens frame 5-1 via design is step-like, and three-level step, wherein double gauss thing are constituted together with objective lens frame 5-1 front end face Microscope group 5-6 is located at interior through in minimum throughhole portions.For fixed double Gauss objective group 5-6 different lens, design trim ring and every Lens are fixed circle, and fixed form is as follows：

1st, first concave-convex lens is fixed by being arranged at the first annular trim ring 5-2 of objective lens frame 5-1 inwalls；

2nd, second concave-convex lens is fixed by being arranged at the first annular spacer ring 5-3 of objective lens frame 5-1 inwalls, and first Annular spacer ring 5-3 makes the first concave-convex lens rear end face and the second concave-convex lens front end face have a gap in the axial direction；

3rd, the 5th concavees lens are fixed by being arranged at the second annular spacer ring 5-7 of objective lens frame 5-1 inwalls, and the second ring Shape spacer ring 5-7 makes the 5th concave-convex lens rear end face and the 6th concave-convex lens front end face have a gap in the axial direction；

4th, the 6th biconvex lens is fixed by the projection of objective lens frame 5-1 rear inner walls.

Wherein first annular trim ring 5-2 is located on the interior inwall through objective lens frame 1-1 throughhole portions in an intermediate position, the One annular spacer ring 5-3, the second annular spacer ring 5-7 are respectively positioned on the interior objective lens frame 5-1 throughhole portions through minimum, and the 3rd concavees lens, 4th concavees lens and the 5th concavees lens are also placed in the second annular spacer ring 5-7 through hole.In order to limit objective lens frame 5-1 displacement, The objective lens frame 5-1 rear ends set a spacing ring 5-5.Spacing ring 5-5 can limit the displacement of objective lens frame in certain interval interior shifting It is dynamic, former and later two end points of the moving section be respectively when spacing ring 5-5 touches objective holder 5-10 walls objective lens frame 5-1 institutes it is in place Put objective lens frame 5-1 positions when touching 2 wall of main shell structure with spacing ring.Between objective lens frame 5-1 and objective holder 5-10 Sealing ring 5-9 is set, sealing and increase damping action is played.By rotating objective lens frame 5-1, focusing focuses on Scenery Imaging On the test surface of low-light (level) cmos detector.Adjust pad 5-4 is set between the microscope base 5-10, for adjusting rear cut-off distance.

With reference to Fig. 4, the light compensating lamp mechanism 4 includes light compensating lamp gland 4-5, light source 4-1, condenser focusing drum 4-4, optically focused Mirror 4-3, optically focused lens barrel 4-2.Wherein, light compensating lamp gland 4-5 is connected with condenser focusing drum 4-4, and light source 4-1 is arranged at condenser In focusing drum 4-4 and be fixed on light compensating lamp gland 4-5, optically focused lens barrel 4-2 be arranged on the through-hole wall of main shell structure 3 and It is connected with condenser focusing drum 4-4 inner threads, condenser 4-3 is arranged in optically focused lens barrel 4-2.

Claims (7)

1. a kind of helmet-type night viewing camera, it is characterised in that including position adjusting mechanism (1), rotary switch (2), main casing Structure (3), light compensating lamp mechanism (4), objective system mechanism (5), low-light (level) cmos detector (6), five pin plugs (7)；Wherein

Position adjusting mechanism (1) is arranged at main shell structure (3) side,

Objective system mechanism (5) is arranged at main shell structure (3) front end,

Light compensating lamp mechanism (4) is arranged at main shell structure (3) front end and objective system mechanism (5) is other,

Low-light (level) cmos detector (6) is arranged in main shell structure (3) and is placed in objective system mechanism (5) rear end,

Five pin plugs (7) are arranged at main shell structure (3) rear end,

Rotary switch (2) is arranged on main shell structure (3), for power supply and the switch of light compensating lamp.

Wherein

Position adjusting mechanism (1) includes the regulation frame (1-2) along worm gear (1-8) reciprocating rotation, and past along rack (1-11) The regulation frame (1-2) of complex line movement,

Objective system mechanism (5) includes the objective lens frame (5-1) linearly moved back and forth, and is arranged at objective lens frame (5-1) Interior double Gauss objective group (5-6).

2. night viewing camera according to claim 1, it is characterised in that the position adjusting mechanism (1) is adjusted including displacement Nodal axisn (1-1), governor motion frame (1-2), banking pin (1-3), screw (1-4), angular adjustment axle (1-5), bearing (1-6), snail Bar (1-7), worm gear (1-8), screw (1-9), double swallow tailed groove structure (1-10), rack (1-11), gear (1-12), bearing (1- 13)；Wherein

Double swallow tailed groove structure (1-10) side is used to be fixed on the helmet,

Gear (1-12) is secured in place on transposition nodal axisn (1-1),

Rack (1-11) is fixed in double swallow tailed groove structure (1-10) with screw (1-4),

Bearing (1-13) is arranged on governor motion frame (1-2),

Displacement adjustment axis (1-1) is arranged on bearing (1-13),

Displacement adjustment axis (1-1) is rotated in governor motion frame (1-2),

Worm gear (1-8) is fixed on main shell structure (3) by screw (1-9),

Worm screw (1-7) is fixed on angular adjustment axle (1-5),

Bearing (1-6) is arranged at governor motion frame (1-2),

Angular adjustment axle (1-5) is arranged on bearing (1-6),

Angular adjustment axle (1-5) is rotated in governor motion frame (1-2),

Banking pin (1-3) makes worm gear (1-8) be moved along a straight line along double swallow tailed groove structure (1-10) inside groove.

3. night viewing camera according to claim 1, it is characterised in that objective system mechanism (5) is included linearly The objective lens frame (5-1) moved back and forth, and the double Gauss objective group (5-6) being arranged in objective lens frame (5-1), the double gauss thing Microscope group (5-6) includes coaxial six pieces of lens and aperture diaphragm (5-8), wherein

The lens and aperture diaphragm (5-8) are followed successively by the first concave-convex lens, the second concave-convex lens, the according to light incident direction Three concave-convex lens, aperture diaphragm (5-8), the 4th concave-convex lens, the 5th concave-convex lens, the 6th biconvex lens；Described second is concavo-convex Lens rear face is identical with the 3rd concave-convex lens front end curvature radius and gluing, the rear end face of the 4th concave-convex lens and The front end curvature radius of five concave-convex lens is identical and gluing.

4. night vision device according to claim 1, it is characterised in that the night viewing camera also includes being arranged at main shell structure (3) the light compensating lamp mechanism (4) in, the light compensating lamp mechanism (4) includes light compensating lamp gland (4-5), light source (4-1), condenser and adjusted Burnt cylinder (4-4), condenser (4-3), optically focused lens barrel (4-2)；Wherein

Optically focused lens barrel (4-2) is arranged at main shell structure (3) inwall, is set in it on setting through hole, main shell structure (3) wall Respective openings,

Light compensating lamp gland (4-5) is connected with condenser focusing drum (4-4),

Light source (4-6) is arranged in condenser focusing drum (4-4) and is fixed on light compensating lamp gland (4-5),

Optically focused lens barrel (4-2) is connected with condenser focusing drum (4-4) inner thread,

Condenser (4-3) is arranged in optically focused lens barrel (4-2).

5. night viewing camera according to claim 3, it is characterised in that the objective lens frame (5-1) passes through microscope base (5-10) Main shell structure (3) is connected, the objective lens frame (5-1) linearly moves back and forth on microscope base (5-10)；

First concave-convex lens is fixed by the first annular trim ring (5-2) for being arranged at objective lens frame (5-1) inwall；

Second concave-convex lens is fixed by the first annular spacer ring (5-3) for being arranged at objective lens frame (5-1) inwall, and the first ring Shape spacer ring (5-3) makes the first concave-convex lens rear end face and the second concave-convex lens front end face have a gap in the axial direction；

5th concavees lens are fixed by the be arranged at objective lens frame (5-1) inwall second annular spacer ring (5-7), and the second annular Spacer ring (5-7) makes the 5th concave-convex lens rear end face and the 6th concave-convex lens front end face have a gap in the axial direction；

6th biconvex lens is fixed by the projection of objective lens frame (5-1) rear inner wall.

6. night vision device according to claim 5, it is characterised in that objective lens frame (5-1) rear end sets a spacing ring (5- 5), for limiting objective lens frame (5-1) displacement.

7. night vision device according to claim 5, it is characterised in that adjust pad (5- is set between the microscope base (5-10) 4), for adjusting rear cut-off distance.