CN204329751U - Firearms aim at and use infrared laser assisted scanners - Google Patents

Abstract

The utility model discloses a kind of firearms aiming infrared laser assisted scanners, belong to tactics investigation equipment technical field.Firearms aiming infrared laser assisted scanners of the present utility model comprises controller (1), alarm module (2), power module (3), laser ranging module (4), infrared sensing module (5), motor control module (6), motor (8), aiming laser bundle transmitter module (10); Described controller (1) is electrical connected with described laser ranging module (4), infrared sensing module (5), alarm module (2) respectively, and described power module (3) is respectively described controller (1), described laser ranging module (4), described infrared sensing module (5), described alarm module (2), motor control module (6) provide electric energy.The utility model compared with prior art has that structure is simple, dependable performance, stability are high, fighting efficiency high.

Description

Firearms aim at and use infrared laser assisted scanners

Technical field

The invention belongs to tactics investigation equipment technical field, in particular, belong to a kind of and utilize infrared technology and the collaborative equipment carried out investigations of laser technology mixing.

Background technology

Armed policeman, special policeman soldier and field army soldier need when dealing with contingencies to carry out actual combat ball firing usually, usually in combat environment, contact is between ourselves and the enemy a complicated process, the pattern of bayoneting in World War II has been different from today that automation weapon is popularized, fight between ourselves and the enemy, normally contactless fight mode between ourselves and the enemy, battlefield surroundings is ever-changing to be made can to make full use of environment between ourselves and the enemy and artificiality effectively pretends.In course of battle, how to identify the camouflage of enemy and ensure that shooting course does not accidentally injure innocent people and one's own side personnel, be armed policeman, special policeman soldier and field army soldier must faced by a great problem.

How emergency action is carried out to similar accident, with avoid the unnecessary injures and deaths of the not guilty masses become armed policeman and special policeman soldier must faced by actual combat problem, lacking necessary technical equipment in prior art is also the key factor that restriction armed policeman and special policeman soldier dispose similar incidents.Armed policeman, special policeman soldier and field army soldier carry out fire tactics training daily also needs in addition, how to utilize the skills of actual combat of limited resource raising soldiers and tactics technical ability to be the great difficult problems restricting training guidance personnel always.How to give full play to the effect of auxiliary technique and tactics means, to improve a great problem that armed policeman, the fighting quality of special policeman soldier and field army soldier and technical ability are restriction the art as far as possible always.

Summary of the invention

The present invention, in order to effectively solve above technical problem, gives a kind of firearms aiming infrared laser assisted scanners.

A kind of firearms aiming infrared laser assisted scanners of the present invention, is characterized in that: comprise controller, alarm module, power module, laser ranging module, infrared sensing module, motor control module, motor, aiming laser bundle transmitter module; Wherein:

Described controller is electrical connected with described laser ranging module, described infrared sensing module, described alarm module, described motor control module, described aiming laser bundle transmitter module respectively; Described motor control module and described motor are electrical connected;

Described laser ranging module comprises Laser emission part, laser pick-off part, and described Laser emission part and described laser pick-off part to be arranged on abreast on rifle body and to be consistent with rifle body ballistic projections direction;

Described infrared sensing module comprises the first infrared probe, the second infrared probe, and described first infrared probe, described second infrared probe are arranged in the gear train that rotated by described driven by motor respectively symmetrically; Wherein: the infra-red detection amplitude angle A of described first infrared probe is identical with the infra-red detection amplitude angle B of described second infrared probe; The infra-red detection region S of described first infrared probe ₃with the infra-red detection region S of described second infrared probe ₄form an infrared ray blind area region S ₁and an infrared ray overlap-add region S ₂, described infrared ray overlap-add region S ₂angle C, the distance between described first infrared probe and described second infrared probe is H ₁, described infrared ray blind area region S ₁with infrared ray overlap-add region S ₂coaxial line, described infrared ray blind area region S ₁with infrared ray overlap-add region S ₂axis and rifle body ballistic projections direction be consistent; Described motor carries out symmetry adjustment to change described infrared ray overlap-add region S to described first infrared probe be arranged in gear train, described second infrared probe ₂angle C; Described infrared ray overlap-add region S ₂angle C scope be 13 °-17 °; Distance H between described first infrared probe and described second infrared probe ₁for 2.3-2.7cm;

Described laser ranging module comprises Laser emission part, laser pick-off part, described Laser emission part and described laser pick-off part are arranged in described assisted scanners abreast, and the Laser emission direction of described Laser emission part, the laser pick-off direction of described laser pick-off part and rifle body ballistic projections direction are consistent; The Laser emission direction of described Laser emission part, the laser pick-off direction of described laser pick-off part and described infrared ray blind area region S ₁with infrared ray overlap-add region S ₂axis being parallel arrange; The radiating laser beams direction of described aiming laser bundle transmitter module is with described infrared ray blind area region S ₁, infrared ray overlap-add region S ₂axis direction be consistent; Described alarm module is optical flicker warning circuit; Described controller is dsp controller, or ARM controller, or AVR controller.

The present invention compared with prior art has that structure is simple, dependable performance, stability are high, fighting efficiency high.

Accompanying drawing explanation

Accompanying drawing 1 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body;

Accompanying drawing 2 is schematic diagrames that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body;

Accompanying drawing 3 is structural representations of firearms aiming infrared laser assisted scanners of the present invention;

Accompanying drawing 4 is structural representations of infrared detection of the present invention;

Accompanying drawing 5 is the gear train and the electric machine structure schematic diagram that are provided with infrared probe in firearms aiming infrared laser assisted scanners of the present invention;

Accompanying drawing 6 is structural representations one of rifle body in prior art;

Accompanying drawing 7 is structural representations two of rifle body in prior art.

Detailed description of the invention

Preferred embodiment 1

Fig. 1 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body, and Fig. 2 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body.Sighting device is arranged under the muzzle of rifle body, and direction and the rifle body ballistic projections direction of infrared ray and laser detection are consistent, optical flare stand by lamp be arranged on sighting device rear portion left-hand end, to facilitate gun holder Timeliness coverage alarm signal.The mounting means of firearms aiming infrared laser assisted scanners of the present invention on assault rifle and bayonet or the mounting means of searchlight on rifle body similar, the present invention's mixing sighting device can be stably arranged on above rifle body.

Fig. 3 is the structural representation of firearms aiming infrared laser assisted scanners of the present invention, and firearms aiming infrared laser assisted scanners of the present invention comprises controller 1, laser ranging module 4, infrared sensing module 5, alarm module 2, power module 3, motor control module 6, motor 8;

Controller 1 is electrical connected with laser ranging module 4, infrared sensing module 5, alarm module 2, motor control module 6 respectively; Motor control module 6 and motor 8 are electrical connected; Power module 3 is respectively controller 1, laser ranging module 4, infrared sensing module 5, alarm module 2, motor control module 6, motor 8 provide electric energy; Power module 3 also can be respectively laser ranging module 4 by controller 1, infrared sensing module 5, alarm module 2 provide electric energy; Laser ranging module 4 is connected to Laser emission part 401, laser pick-off part 402, and Laser emission part 401 and laser pick-off part 402 to be symmetricly set on rifle body and to be consistent with rifle body ballistic projections direction; Infrared sensing module 5 is connected to the front end that the first infrared probe 501, second infrared probe 502, first infrared probe 501 and the second infrared probe 502 are arranged on rifle body sighting device symmetrically; Controller 1 is dsp controller.

Distance between the gun user of service that laser ranging module 4 detects and the hidden hostile element in front, infrared sensing module 5 detects according to the first infrared probe 501, second infrared probe 502 the hostile personal information being in hidden state or active state.Controller 1 judges whether to exist hidden personnel that naked eyes should not differentiate according to the testing result of the testing result of laser ranging module 4 and infrared sensing module 5, automatically or not easily discovers personnel; If determine really there are hidden personnel or not easily discover personnel, then controller 1 controls alarm module 2 and sends optics alarm signal.

Alarm module 2 is optical flicker warning circuit, alarm module 2 will detect that front has the signal of people can be shown to armed armed policeman, special policeman soldier and field army soldier in the mode of blinking red lamp in real time, makes armed policeman, special policeman soldier and field army soldier carry out confirming to determine whether really shoot further to the enemy's situation in front according to the prompting of alarm module 2.The warning red light of flicker is arranged on the left side of the sighting device body rear end shown in Fig. 1, usual gun user is the armed triggering pulling of the right hand, like this can so that armed armed policeman, special policeman soldier and field army soldier see the alarm signal of sighting device body rear end in time.The laser beam signal that aiming laser bundle transmitter module 10 is launched directly points to by the object scanned, advantageously find target in armed armed policeman, special policeman soldier and field army soldier, aiming laser bundle transmitter module 10 is completely the same with the laser assisted sighting device of practicality in pistol in prior art or rifle.

The infra-red detection amplitude angle A of the first infrared probe 501 is identical with the infra-red detection amplitude angle B of the second infrared probe 502; The infra-red detection region S of the first infrared probe 501 ₃with the infra-red detection region S of the second infrared probe 502 ₄form region, a blind area S ₁and an infrared ray overlap-add region S ₂, region, blind area S ₁and with infrared ray overlap-add region S ₂coaxially, region, blind area S ₁with infrared ray overlap-add region S ₂axis and rifle body ballistic projections direction be consistent; Laser emission part 401, laser pick-off part 402 are arranged between the first infrared probe 501 and the second infrared probe 502, and Laser emission part 401, laser pick-off part 402 and the distance between the first infrared probe 501 and the second infrared probe 502 are close to ensureing that the Detection results of firearms aiming infrared laser assisted scanners of the present invention is good.

Fig. 4 is the structural representation of infrared detection of the present invention; Extraordinary aiming Detection results can be obtained when first infrared probe 501 and the second infrared probe 502 are set together symmetrically as can be seen from Figure.The infra-red detection amplitude angle of the first infrared probe 501 is A, and the infra-red detection amplitude angle of the second infrared probe 502 is B, and the distance between the first infrared probe 501 and the second infrared probe 502 is H ₁, H ₁scope can be 2.3-2.7cm; Distance H between first infrared probe 501 and the second infrared probe 502 ₁preferred 2.5cm.The infra-red detection amplitude S of the first infrared probe 501 ₃with the infra-red detection amplitude S of the second infrared probe 502 ₄there is region, a blind area S ₁, the infra-red detection amplitude S of the first infrared probe 501 ₃with the infra-red detection amplitude S of the second infrared probe 502 ₄there is the infrared ray overlap-add region S of an overlap ₂, wherein region, blind area S ₁axis coverage be H ₂, infrared ray overlap-add region S ₂axis coverage be H ₃, region, blind area S ₁and with infrared ray overlap-add region S ₂coaxial line, i.e. H ₂and H ₃coaxial line, region, blind area S ₁and with infrared ray overlap-add region S ₂axis and ballistic projections direction is consistent, i.e. H ₂and H ₃be consistent with ballistic projections direction.

First infrared probe 501 and the second infrared probe 502 all can adopt pyroelectric infrared sensor to detect be in hidden state personnel radiate the infrared signal of radiation, the detector front end formed at the first infrared probe 501 and the second infrared probe 502 forms blind area region S ₁with an infrared ray overlap-add region S ₂, S ₂angle C scope be 13-17 degree.When having movable personnel or hidden personnel before lens, what the infrared ray that human body sends just constantly alternately changed enters infrared ray overlap-add region S ₂, so just obtain with dynamic infrared signal feedback pulse signal, whether laser detection part remains static to object and judges simultaneously, and then can judge whether to there are hidden personnel.The infrared ray centre wavelength of human body radiation is 9 ~ 10um, the window that one is equipped with filter glass has been offered at transducer tip, this optical filter is 7 ~ 10um by the wave-length coverage of light, just in time be suitable for the detection of human infrared radiation, and the infrared ray of other wavelength is absorbed by optical filter.Under the control of controller 1, motor 8 carries out symmetry adjustment to change infrared ray overlap-add region S to the first infrared probe 501, second infrared probe 502 be arranged in gear train ₂angle C, and then extraordinary Detection results can be obtained.

Infrared sensing module 5 is electrical connected with the first infrared probe 501, second infrared probe 502 respectively, and the first infrared probe 501 and the second infrared probe 502 are arranged on the sighting device body of rifle body symmetrically; The infra-red detection amplitude angle A of the first infrared probe 501 is identical with the infra-red detection amplitude angle B of the second infrared probe 502; The infra-red detection region S of the first infrared probe 501 ₃with the infra-red detection region S of the second infrared probe 502 ₄form region, a blind area S ₁and an infrared ray overlap-add region S ₂, region, blind area S ₁distance rifle body has certain distance.Laser ranging module 4 is electrical connected with Laser emission part 401, laser pick-off part 402 respectively, and the sighting device body that described Laser emission part 401 and described laser pick-off part 402 are arranged on rifle body is consistent with rifle body ballistic projections direction.When rifle body is in level, the first infrared probe 501 and the second infrared probe 502 are also all in same plane, all consistent with the distance of muzzle.

First infrared probe 501, second infrared probe 502 of infrared sensing module 5 is arranged in closer distance range with the Laser emission part 401 of laser ranging module 4, laser pick-off part 402 as far as possible, and the first infrared probe 501, second infrared probe 502 of infrared sensing module 5 is all arranged on the front end of sighting device shown in Fig. 1 and Fig. 2 with the Laser emission part 401 of laser ranging module 4, laser pick-off part 402.

Fig. 5 is the structural representation being provided with infrared probe motor in firearms aiming infrared laser assisted scanners of the present invention, infrared sensing module 5 comprises the first infrared probe 501, second infrared probe 502, first infrared probe 501 and the second infrared probe 502 are arranged symmetrically, and the first infrared probe 501, second infrared probe 502 is arranged in the gear train of motor 8 driven rotary respectively; Under the control of controller 1, motor 8 driven gear system carries out symmetry adjustment to the first infrared probe 501, second infrared probe 502, changes the position between the first infrared probe 501, second infrared probe 502.

Preferred embodiment 2

Fig. 1 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body, and Fig. 2 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body.Sighting device is arranged under the muzzle of rifle body, and direction and the rifle body ballistic projections direction of infrared ray and laser detection are consistent, optical flare stand by lamp be arranged on sighting device rear portion left-hand end, to facilitate gun holder Timeliness coverage alarm signal.The mounting means of firearms aiming infrared laser assisted scanners of the present invention on assault rifle and bayonet or the mounting means of searchlight on rifle body similar, the present invention's mixing sighting device can be stably arranged on above rifle body.

Fig. 3 is the structural representation of firearms aiming infrared laser assisted scanners of the present invention, and firearms aiming infrared laser assisted scanners of the present invention comprises controller 1, laser ranging module 4, infrared sensing module 5, alarm module 2, power module 3, motor control module 6, motor 8;

Controller 1 is electrical connected with laser ranging module 4, infrared sensing module 5, alarm module 2, motor control module 6 respectively; Motor control module 6 and motor 8 are electrical connected; Power module 3 is respectively controller 1, laser ranging module 4, infrared sensing module 5, alarm module 2, motor control module 6, motor 8 provide electric energy; Power module 3 also can be respectively laser ranging module 4 by controller 1, infrared sensing module 5, alarm module 2 provide electric energy; Laser ranging module 4 is connected to Laser emission part 401, laser pick-off part 402, and Laser emission part 401 and laser pick-off part 402 to be symmetricly set on rifle body and to be consistent with rifle body ballistic projections direction; Infrared sensing module 5 is connected to the front end that the first infrared probe 501, second infrared probe 502, first infrared probe 501 and the second infrared probe 502 are arranged on rifle body sighting device symmetrically; Controller 1 is ARM controller.

Distance between the gun user of service that laser ranging module 4 detects and the hidden hostile element in front, infrared sensing module 5 detects according to the first infrared probe 501, second infrared probe 502 the hostile personal information being in hidden state or active state.Controller 1 judges whether to exist hidden personnel that naked eyes should not differentiate according to the testing result of the testing result of laser ranging module 4 and infrared sensing module 5, automatically or not easily discovers personnel; If determine really there are hidden personnel or not easily discover personnel, then controller 1 controls alarm module 2 and sends optics alarm signal.

Alarm module 2 is optical flicker warning circuit, alarm module 2 will detect that front has the signal of people can be shown to armed armed policeman, special policeman soldier and field army soldier in the mode of blinking red lamp in real time, makes armed policeman, special policeman soldier and field army soldier carry out confirming to determine whether really shoot further to the enemy's situation in front according to the prompting of alarm module 2.The warning red light of flicker is arranged on the left side of the sighting device body rear end shown in Fig. 1, usual gun user is the armed triggering pulling of the right hand, like this can so that armed armed policeman, special policeman soldier and field army soldier see the alarm signal of sighting device body rear end in time.The laser beam signal that aiming laser bundle transmitter module 10 is launched directly points to by the object scanned, advantageously find target in armed armed policeman, special policeman soldier and field army soldier, aiming laser bundle transmitter module 10 is completely the same with the laser assisted sighting device of practicality in pistol in prior art or rifle.

The infra-red detection amplitude angle A of the first infrared probe 501 is identical with the infra-red detection amplitude angle B of the second infrared probe 502; The infra-red detection region S of the first infrared probe 501 ₃with the infra-red detection region S of the second infrared probe 502 ₄form region, a blind area S ₁and an infrared ray overlap-add region S ₂, region, blind area S ₁and with infrared ray overlap-add region S ₂coaxially, region, blind area S ₁with infrared ray overlap-add region S ₂axis and rifle body ballistic projections direction be consistent; Laser emission part 401, laser pick-off part 402 are arranged between the first infrared probe 501 and the second infrared probe 502, and Laser emission part 401, laser pick-off part 402 and the distance between the first infrared probe 501 and the second infrared probe 502 are close to ensureing that the Detection results of firearms aiming infrared laser assisted scanners of the present invention is good.

Fig. 4 is the structural representation of infrared detection of the present invention; Extraordinary aiming Detection results can be obtained when first infrared probe 501 and the second infrared probe 502 are set together symmetrically as can be seen from Figure.The infra-red detection amplitude angle of the first infrared probe 501 is A, and the infra-red detection amplitude angle of the second infrared probe 502 is B, and the distance between the first infrared probe 501 and the second infrared probe 502 is H ₁, H ₁scope can be 2.3-2.7cm; Distance H between first infrared probe 501 and the second infrared probe 502 ₁preferred 2.5cm.The infra-red detection amplitude S of the first infrared probe 501 ₃with the infra-red detection amplitude S of the second infrared probe 502 ₄there is region, a blind area S ₁, the infra-red detection amplitude S of the first infrared probe 501 ₃with the infra-red detection amplitude S of the second infrared probe 502 ₄there is the infrared ray overlap-add region S of an overlap ₂, wherein region, blind area S ₁axis coverage be H ₂, infrared ray overlap-add region S ₂axis coverage be H ₃, region, blind area S ₁and with infrared ray overlap-add region S ₂coaxial line, i.e. H ₂and H ₃coaxial line, region, blind area S ₁and with infrared ray overlap-add region S ₂axis and ballistic projections direction is consistent, i.e. H ₂and H ₃be consistent with ballistic projections direction.

First infrared probe 501 and the second infrared probe 502 all can adopt pyroelectric infrared sensor to detect be in hidden state personnel radiate the infrared signal of radiation, the detector front end formed at the first infrared probe 501 and the second infrared probe 502 forms blind area region S ₁with an infrared ray overlap-add region S ₂, S ₂angle C scope be 13-17 degree.When having movable personnel or hidden personnel before lens, what the infrared ray that human body sends just constantly alternately changed enters infrared ray overlap-add region S ₂, so just obtain with dynamic infrared signal feedback pulse signal, whether laser detection part remains static to object and judges simultaneously, and then can judge whether to there are hidden personnel.The infrared ray centre wavelength of human body radiation is 9 ~ 10um, the window that one is equipped with filter glass has been offered at transducer tip, this optical filter is 7 ~ 10um by the wave-length coverage of light, just in time be suitable for the detection of human infrared radiation, and the infrared ray of other wavelength is absorbed by optical filter.Under the control of controller 1, motor 8 carries out symmetry adjustment to change infrared ray overlap-add region S to the first infrared probe 501, second infrared probe 502 be arranged in gear train ₂angle C, and then extraordinary Detection results can be obtained.

Infrared sensing module 5 is electrical connected with the first infrared probe 501, second infrared probe 502 respectively, and the first infrared probe 501 and the second infrared probe 502 are arranged on the sighting device body of rifle body symmetrically; The infra-red detection amplitude angle A of the first infrared probe 501 is identical with the infra-red detection amplitude angle B of the second infrared probe 502; The infra-red detection region S of the first infrared probe 501 ₃with the infra-red detection region S of the second infrared probe 502 ₄form region, a blind area S ₁and an infrared ray overlap-add region S ₂, region, blind area S ₁distance rifle body has certain distance.Laser ranging module 4 is electrical connected with Laser emission part 401, laser pick-off part 402 respectively, and the sighting device body that described Laser emission part 401 and described laser pick-off part 402 are arranged on rifle body is consistent with rifle body ballistic projections direction.When rifle body is in level, the first infrared probe 501 and the second infrared probe 502 are also all in same plane, all consistent with the distance of muzzle.

First infrared probe 501, second infrared probe 502 of infrared sensing module 5 is arranged in closer distance range with the Laser emission part 401 of laser ranging module 4, laser pick-off part 402 as far as possible, and the first infrared probe 501, second infrared probe 502 of infrared sensing module 5 is all arranged on the front end of sighting device shown in Fig. 1 and Fig. 2 with the Laser emission part 401 of laser ranging module 4, laser pick-off part 402.

Fig. 5 is the structural representation being provided with infrared probe motor in firearms aiming infrared laser assisted scanners of the present invention, infrared sensing module 5 comprises the first infrared probe 501, second infrared probe 502, first infrared probe 501 and the second infrared probe 502 are arranged symmetrically, and the first infrared probe 501, second infrared probe 502 is arranged in the gear train of motor 8 driven rotary respectively; Under the control of controller 1, motor 8 driven gear system carries out symmetry adjustment to the first infrared probe 501, second infrared probe 502, changes the position between the first infrared probe 501, second infrared probe 502.

Preferred embodiment 3

Fig. 1 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body, and Fig. 2 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body.Sighting device is arranged under the muzzle of rifle body, and direction and the rifle body ballistic projections direction of infrared ray and laser detection are consistent, optical flare stand by lamp be arranged on sighting device rear portion left-hand end, to facilitate gun holder Timeliness coverage alarm signal.The mounting means of firearms aiming infrared laser assisted scanners of the present invention on assault rifle and bayonet or the mounting means of searchlight on rifle body similar, the present invention's mixing sighting device can be stably arranged on above rifle body.

Fig. 3 is the structural representation of firearms aiming infrared laser assisted scanners of the present invention, and firearms aiming infrared laser assisted scanners of the present invention comprises controller 1, laser ranging module 4, infrared sensing module 5, alarm module 2, power module 3, motor control module 6, motor 8;

Controller 1 is electrical connected with laser ranging module 4, infrared sensing module 5, alarm module 2, motor control module 6 respectively; Motor control module 6 and motor 8 are electrical connected; Power module 3 is respectively controller 1, laser ranging module 4, infrared sensing module 5, alarm module 2, motor control module 6, motor 8 provide electric energy; Power module 3 also can be respectively laser ranging module 4 by controller 1, infrared sensing module 5, alarm module 2 provide electric energy; Laser ranging module 4 is connected to Laser emission part 401, laser pick-off part 402, and Laser emission part 401 and laser pick-off part 402 to be symmetricly set on rifle body and to be consistent with rifle body ballistic projections direction; Infrared sensing module 5 is connected to the front end that the first infrared probe 501, second infrared probe 502, first infrared probe 501 and the second infrared probe 502 are arranged on rifle body sighting device symmetrically; Controller 1 is AVR controller.

Distance between the gun user of service that laser ranging module 4 detects and the hidden hostile element in front, infrared sensing module 5 detects according to the first infrared probe 501, second infrared probe 502 the hostile personal information being in hidden state or active state.Controller 1 judges whether to exist hidden personnel that naked eyes should not differentiate according to the testing result of the testing result of laser ranging module 4 and infrared sensing module 5, automatically or not easily discovers personnel; If determine really there are hidden personnel or not easily discover personnel, then controller 1 controls alarm module 2 and sends optics alarm signal.

Alarm module 2 is optical flicker warning circuit, alarm module 2 will detect that front has the signal of people can be shown to armed armed policeman, special policeman soldier and field army soldier in the mode of blinking red lamp in real time, makes armed policeman, special policeman soldier and field army soldier carry out confirming to determine whether really shoot further to the enemy's situation in front according to the prompting of alarm module 2.The warning red light of flicker is arranged on the left side of the sighting device body rear end shown in Fig. 1, usual gun user is the armed triggering pulling of the right hand, like this can so that armed armed policeman, special policeman soldier and field army soldier see the alarm signal of sighting device body rear end in time.The laser beam signal that aiming laser bundle transmitter module 10 is launched directly points to by the object scanned, advantageously find target in armed armed policeman, special policeman soldier and field army soldier, aiming laser bundle transmitter module 10 is completely the same with the laser assisted sighting device of practicality in pistol in prior art or rifle.

The infra-red detection amplitude angle A of the first infrared probe 501 is identical with the infra-red detection amplitude angle B of the second infrared probe 502; The infra-red detection region S of the first infrared probe 501 ₃with the infra-red detection region S of the second infrared probe 502 ₄form region, a blind area S ₁and an infrared ray overlap-add region S ₂, region, blind area S ₁and with infrared ray overlap-add region S ₂coaxially, region, blind area S ₁with infrared ray overlap-add region S ₂axis and rifle body ballistic projections direction be consistent; Laser emission part 401, laser pick-off part 402 are arranged between the first infrared probe 501 and the second infrared probe 502, and Laser emission part 401, laser pick-off part 402 and the distance between the first infrared probe 501 and the second infrared probe 502 are close to ensureing that the Detection results of firearms aiming infrared laser assisted scanners of the present invention is good.

Fig. 4 is the structural representation of infrared detection of the present invention; Extraordinary aiming Detection results can be obtained when first infrared probe 501 and the second infrared probe 502 are set together symmetrically as can be seen from Figure.The infra-red detection amplitude angle of the first infrared probe 501 is A, and the infra-red detection amplitude angle of the second infrared probe 502 is B, and the distance between the first infrared probe 501 and the second infrared probe 502 is H ₁, H ₁scope can be 2.3-2.7cm; Distance H between first infrared probe 501 and the second infrared probe 502 ₁preferred 2.5cm.The infra-red detection amplitude S of the first infrared probe 501 ₃with the infra-red detection amplitude S of the second infrared probe 502 ₄there is region, a blind area S ₁, the infra-red detection amplitude S of the first infrared probe 501 ₃with the infra-red detection amplitude S of the second infrared probe 502 ₄there is the infrared ray overlap-add region S of an overlap ₂, wherein region, blind area S ₁axis coverage be H ₂, infrared ray overlap-add region S ₂axis coverage be H ₃, region, blind area S ₁and with infrared ray overlap-add region S ₂coaxial line, i.e. H ₂and H ₃coaxial line, region, blind area S ₁and with infrared ray overlap-add region S ₂axis and ballistic projections direction is consistent, i.e. H ₂and H ₃be consistent with ballistic projections direction.

First infrared probe 501 and the second infrared probe 502 all can adopt pyroelectric infrared sensor to detect be in hidden state personnel radiate the infrared signal of radiation, the detector front end formed at the first infrared probe 501 and the second infrared probe 502 forms blind area region S ₁with an infrared ray overlap-add region S ₂, S ₂angle C scope be 13-17 degree.When having movable personnel or hidden personnel before lens, what the infrared ray that human body sends just constantly alternately changed enters infrared ray overlap-add region S ₂, so just obtain with dynamic infrared signal feedback pulse signal, whether laser detection part remains static to object and judges simultaneously, and then can judge whether to there are hidden personnel.The infrared ray centre wavelength of human body radiation is 9 ~ 10um, the window that one is equipped with filter glass has been offered at transducer tip, this optical filter is 7 ~ 10um by the wave-length coverage of light, just in time be suitable for the detection of human infrared radiation, and the infrared ray of other wavelength is absorbed by optical filter.Under the control of controller 1, motor 8 carries out symmetry adjustment to change infrared ray overlap-add region S to the first infrared probe 501, second infrared probe 502 be arranged in gear train ₂angle C, and then extraordinary Detection results can be obtained.

Infrared sensing module 5 is electrical connected with the first infrared probe 501, second infrared probe 502 respectively, and the first infrared probe 501 and the second infrared probe 502 are arranged on the sighting device body of rifle body symmetrically; The infra-red detection amplitude angle A of the first infrared probe 501 is identical with the infra-red detection amplitude angle B of the second infrared probe 502; The infra-red detection region S of the first infrared probe 501 ₃with the infra-red detection region S of the second infrared probe 502 ₄form region, a blind area S ₁and an infrared ray overlap-add region S ₂, region, blind area S ₁distance rifle body has certain distance.Laser ranging module 4 is electrical connected with Laser emission part 401, laser pick-off part 402 respectively, and the sighting device body that described Laser emission part 401 and described laser pick-off part 402 are arranged on rifle body is consistent with rifle body ballistic projections direction.When rifle body is in level, the first infrared probe 501 and the second infrared probe 502 are also all in same plane, all consistent with the distance of muzzle.

First infrared probe 501, second infrared probe 502 of infrared sensing module 5 is arranged in closer distance range with the Laser emission part 401 of laser ranging module 4, laser pick-off part 402 as far as possible, and the first infrared probe 501, second infrared probe 502 of infrared sensing module 5 is all arranged on the front end of sighting device shown in Fig. 1 and Fig. 2 with the Laser emission part 401 of laser ranging module 4, laser pick-off part 402.

Fig. 5 is the structural representation being provided with infrared probe motor in firearms aiming infrared laser assisted scanners of the present invention, infrared sensing module 5 comprises the first infrared probe 501, second infrared probe 502, first infrared probe 501 and the second infrared probe 502 are arranged symmetrically, and the first infrared probe 501, second infrared probe 502 is arranged in the gear train of motor 8 driven rotary respectively; Under the control of controller 1, motor 8 driven gear system carries out symmetry adjustment to the first infrared probe 501, second infrared probe 502, changes the position between the first infrared probe 501, second infrared probe 502.

Preferred embodiment 4

Fig. 1 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body, and Fig. 2 is the schematic diagram that firearms aiming infrared laser assisted scanners of the present invention is arranged on rifle body.Sighting device is arranged under the muzzle of rifle body, and direction and the rifle body ballistic projections direction of infrared ray and laser detection are consistent, optical flare stand by lamp be arranged on sighting device rear portion left-hand end, to facilitate gun holder Timeliness coverage alarm signal.The mounting means of firearms aiming infrared laser assisted scanners of the present invention on assault rifle and bayonet or the mounting means of searchlight on rifle body similar, the present invention's mixing sighting device can be stably arranged on above rifle body.

Fig. 3 is the structural representation of firearms aiming infrared laser assisted scanners of the present invention, and firearms aiming infrared laser assisted scanners of the present invention comprises controller 1, laser ranging module 4, infrared sensing module 5, alarm module 2, power module 3, motor control module 6, motor 8;

Controller 1 is electrical connected with laser ranging module 4, infrared sensing module 5, alarm module 2, motor control module 6 respectively; Motor control module 6 and motor 8 are electrical connected; Power module 3 is respectively controller 1, laser ranging module 4, infrared sensing module 5, alarm module 2, motor control module 6, motor 8 provide electric energy; Power module 3 also can be respectively laser ranging module 4 by controller 1, infrared sensing module 5, alarm module 2 provide electric energy; Laser ranging module 4 is connected to Laser emission part 401, laser pick-off part 402, and Laser emission part 401 and laser pick-off part 402 to be symmetricly set on rifle body and to be consistent with rifle body ballistic projections direction; Infrared sensing module 5 is connected to the front end that the first infrared probe 501, second infrared probe 502, first infrared probe 501 and the second infrared probe 502 are arranged on rifle body sighting device symmetrically; Controller 1 is 51MCU controller.

Distance between the gun user of service that laser ranging module 4 detects and the hidden hostile element in front, infrared sensing module 5 detects according to the first infrared probe 501, second infrared probe 502 the hostile personal information being in hidden state or active state.Controller 1 judges whether to exist hidden personnel that naked eyes should not differentiate according to the testing result of the testing result of laser ranging module 4 and infrared sensing module 5, automatically or not easily discovers personnel; If determine really there are hidden personnel or not easily discover personnel, then controller 1 controls alarm module 2 and sends optics alarm signal.

Alarm module 2 is optical flicker warning circuit, alarm module 2 will detect that front has the signal of people can be shown to armed armed policeman, special policeman soldier and field army soldier in the mode of blinking red lamp in real time, makes armed policeman, special policeman soldier and field army soldier carry out confirming to determine whether really shoot further to the enemy's situation in front according to the prompting of alarm module 2.The warning red light of flicker is arranged on the left side of the sighting device body rear end shown in Fig. 1, usual gun user is the armed triggering pulling of the right hand, like this can so that armed armed policeman, special policeman soldier and field army soldier see the alarm signal of sighting device body rear end in time.The laser beam signal that aiming laser bundle transmitter module 10 is launched directly points to by the object scanned, advantageously find target in armed armed policeman, special policeman soldier and field army soldier, aiming laser bundle transmitter module 10 is completely the same with the laser assisted sighting device of practicality in pistol in prior art or rifle.

The infra-red detection amplitude angle A of the first infrared probe 501 is identical with the infra-red detection amplitude angle B of the second infrared probe 502; The infra-red detection region S of the first infrared probe 501 ₃with the infra-red detection region S of the second infrared probe 502 ₄form region, a blind area S ₁and an infrared ray overlap-add region S ₂, region, blind area S ₁and with infrared ray overlap-add region S ₂coaxially, region, blind area S ₁with infrared ray overlap-add region S ₂axis and rifle body ballistic projections direction be consistent; Laser emission part 401, laser pick-off part 402 are arranged between the first infrared probe 501 and the second infrared probe 502, and Laser emission part 401, laser pick-off part 402 and the distance between the first infrared probe 501 and the second infrared probe 502 are close to ensureing that the Detection results of firearms aiming infrared laser assisted scanners of the present invention is good.

Fig. 4 is the structural representation of infrared detection of the present invention; Extraordinary aiming Detection results can be obtained when first infrared probe 501 and the second infrared probe 502 are set together symmetrically as can be seen from Figure.The infra-red detection amplitude angle of the first infrared probe 501 is A, and the infra-red detection amplitude angle of the second infrared probe 502 is B, and the distance between the first infrared probe 501 and the second infrared probe 502 is H ₁, H ₁scope can be 2.3-2.7cm; Distance H between first infrared probe 501 and the second infrared probe 502 ₁preferred 2.5cm.The infra-red detection amplitude S of the first infrared probe 501 ₃with the infra-red detection amplitude S of the second infrared probe 502 ₄there is region, a blind area S ₁, the infra-red detection amplitude S of the first infrared probe 501 ₃with the infra-red detection amplitude S of the second infrared probe 502 ₄there is the infrared ray overlap-add region S of an overlap ₂, wherein region, blind area S ₁axis coverage be H ₂, infrared ray overlap-add region S ₂axis coverage be H ₃, region, blind area S ₁and with infrared ray overlap-add region S ₂coaxial line, i.e. H ₂and H ₃coaxial line, region, blind area S ₁and with infrared ray overlap-add region S ₂axis and ballistic projections direction is consistent, i.e. H ₂and H ₃be consistent with ballistic projections direction.

First infrared probe 501 and the second infrared probe 502 all can adopt pyroelectric infrared sensor to detect be in hidden state personnel radiate the infrared signal of radiation, the detector front end formed at the first infrared probe 501 and the second infrared probe 502 forms blind area region S ₁with an infrared ray overlap-add region S ₂, S ₂angle C scope be 13-17 degree.When having movable personnel or hidden personnel before lens, what the infrared ray that human body sends just constantly alternately changed enters infrared ray overlap-add region S ₂, so just obtain with dynamic infrared signal feedback pulse signal, whether laser detection part remains static to object and judges simultaneously, and then can judge whether to there are hidden personnel.The infrared ray centre wavelength of human body radiation is 9 ~ 10um, the window that one is equipped with filter glass has been offered at transducer tip, this optical filter is 7 ~ 10um by the wave-length coverage of light, just in time be suitable for the detection of human infrared radiation, and the infrared ray of other wavelength is absorbed by optical filter.Under the control of controller 1, motor 8 carries out symmetry adjustment to change infrared ray overlap-add region S to the first infrared probe 501, second infrared probe 502 be arranged in gear train ₂angle C, and then extraordinary Detection results can be obtained.

Infrared sensing module 5 is electrical connected with the first infrared probe 501, second infrared probe 502 respectively, and the first infrared probe 501 and the second infrared probe 502 are arranged on the sighting device body of rifle body symmetrically; The infra-red detection amplitude angle A of the first infrared probe 501 is identical with the infra-red detection amplitude angle B of the second infrared probe 502; The infra-red detection region S of the first infrared probe 501 ₃with the infra-red detection region S of the second infrared probe 502 ₄form region, a blind area S ₁and an infrared ray overlap-add region S ₂, region, blind area S ₁distance rifle body has certain distance.Laser ranging module 4 is electrical connected with Laser emission part 401, laser pick-off part 402 respectively, and the sighting device body that described Laser emission part 401 and described laser pick-off part 402 are arranged on rifle body is consistent with rifle body ballistic projections direction.When rifle body is in level, the first infrared probe 501 and the second infrared probe 502 are also all in same plane, all consistent with the distance of muzzle.

First infrared probe 501, second infrared probe 502 of infrared sensing module 5 is arranged in closer distance range with the Laser emission part 401 of laser ranging module 4, laser pick-off part 402 as far as possible, and the first infrared probe 501, second infrared probe 502 of infrared sensing module 5 is all arranged on the front end of sighting device shown in Fig. 1 and Fig. 2 with the Laser emission part 401 of laser ranging module 4, laser pick-off part 402.

Fig. 5 is the structural representation being provided with infrared probe motor in firearms aiming infrared laser assisted scanners of the present invention, infrared sensing module 5 comprises the first infrared probe 501, second infrared probe 502, first infrared probe 501 and the second infrared probe 502 are arranged symmetrically, and the first infrared probe 501, second infrared probe 502 is arranged in the gear train of motor 8 driven rotary respectively; Under the control of controller 1, motor 8 driven gear system carries out symmetry adjustment to the first infrared probe 501, second infrared probe 502, changes the position between the first infrared probe 501, second infrared probe 502.

Claims (1)

1. firearms aim at and use an infrared laser assisted scanners, it is characterized in that: comprise controller (1), alarm module (2), power module (3), laser ranging module (4), infrared sensing module (5), motor control module (6), motor (8), aiming laser bundle transmitter module (10); Wherein:

Described controller (1) is electrical connected with described laser ranging module (4), described infrared sensing module (5), described alarm module (2), described motor control module (6), described aiming laser bundle transmitter module (10) respectively; Described motor control module (6) and described motor (8) are electrical connected;

Described infrared sensing module (5) comprises the first infrared probe (501), the second infrared probe (502), and described first infrared probe (501), described second infrared probe (502) are arranged on by the gear train of described motor (8) driven rotary respectively symmetrically; Wherein: the infra-red detection amplitude angle A of described first infrared probe (501) is identical with the infra-red detection amplitude angle B of described second infrared probe (502); The infra-red detection region S of described first infrared probe (501) ₃with the infra-red detection region S of described second infrared probe (502) ₄form an infrared ray blind area region S ₁and an infrared ray overlap-add region S ₂, described infrared ray overlap-add region S ₂angle C, the distance between described first infrared probe (501) and described second infrared probe (502) is H ₁, described infrared ray blind area region S ₁with infrared ray overlap-add region S ₂coaxial line, described infrared ray blind area region S ₁with infrared ray overlap-add region S ₂axis and rifle body ballistic projections direction be consistent; Described motor (8) carries out symmetry adjustment to change described infrared ray overlap-add region S to described first infrared probe (501) be arranged in gear train, described second infrared probe (502) ₂angle C; Described infrared ray overlap-add region S ₂angle C scope be 13 °-17 °; Distance H between described first infrared probe (501) and described second infrared probe (502) ₁for 2.3-2.7cm;

Described laser ranging module (4) comprises Laser emission part (401), laser pick-off part (402), described Laser emission part (401) and described laser pick-off part (402) are arranged in described assisted scanners abreast, and the Laser emission direction of described Laser emission part (401), the laser pick-off direction of described laser pick-off part (402) and rifle body ballistic projections direction are consistent; The Laser emission direction of described Laser emission part (401), the laser pick-off direction of described laser pick-off part (402) and described infrared ray blind area region S ₁with infrared ray overlap-add region S ₂axis being parallel arrange; The radiating laser beams direction of described aiming laser bundle transmitter module (10) is with described infrared ray blind area region S ₁, infrared ray overlap-add region S ₂axis direction be consistent; Described alarm module (2) is optical flicker warning circuit; Described controller (1) is dsp controller.