CN107229101B - A kind of non-refrigeration type infrared thermal imagery preset lens - Google Patents

Abstract

A kind of non-refrigeration type infrared thermal imagery preset lens of disclosure of the invention, wherein, the non-refrigeration type infrared thermal imagery preset lens include the first objective lens set gradually, second objective lens, lens barrel, infrared thermal imagery detector assembly, eyepiece lens barrel, eyepiece lens group, eyepiece lens and interface, non-refrigeration type infrared thermal imagery preset lens further include OLED screen, OLED screen is located at one end that the eyepiece deviates from the eyepiece lens barrel, the making material of first objective lens and the second objective lens includes germanite glass, in the inner wall of the lens barrel, step is arranged in first objective lens and second objective lens and the lens barrel contact position, there are gaps between first objective lens and the second objective lens and lens barrel, and dilute silicon rubber is poured into gap.The non-refrigeration type infrared thermal imagery preset lens that invention provides realize observation sighting ability of the white light gun sight under various illumination environments.

Description

A kind of non-refrigeration type infrared thermal imagery preset lens

Technical field

Invention is related to infrared thermal imager field more particularly to a kind of non-refrigeration type infrared thermal imagery preset lens.

Background technique

In the prior art, setting preset lens are usually required before white light gun sight to increase aiming function, but is increased Preset lens be usually lll night vision product, another at night can only determine to play the work for increasing aiming function in the case where illumination With, and cannot work at some severe such as mist, rain, snow weather or daytimes.

Therefore it provides one kind can be suitable for a variety of weather conditions and night on daytime all workable thermal imagery is preposition Mirror becomes those skilled in the art's technical problem urgently to be resolved.

Summary of the invention

Invention aims to solve at least one of the technical problems existing in the prior art, provides a kind of non-refrigeration type infrared thermal imagery Preset lens, to solve the problems of the prior art.

As the first aspect of invention, a kind of non-refrigeration type infrared thermal imagery preset lens are provided, wherein the non-refrigeration type Infrared thermal imagery preset lens include the first objective lens set gradually, the second objective lens, lens barrel, infrared thermal imagery detector Component, eyepiece lens barrel, eyepiece lens group, eyepiece lens and interface, first objective lens, the second objective lens, object lens mirror Cylinder and infrared thermal imagery detector assembly are sequentially connected, and the eyepiece lens barrel, eyepiece lens group and eyepiece lens are sequentially connected, described Non-refrigeration type infrared thermal imagery preset lens further include OLED screen, and the OLED screen is located at the eyepiece lens barrel away from the eyepiece lens One end of group, the optical centre of first objective lens, the second objective lens and lens barrel are located in primary optic axis axial direction, The OLED screen, eyepiece lens barrel, eyepiece lens group and eyepiece lens optical centre be located in the second optical axis axial direction, described first Optical axis is axial axially parallel with second optical axis,

The making material of first objective lens and second objective lens includes germanite glass, in the object lens mirror Step is arranged in the inner wall of cylinder, first objective lens and second objective lens and the lens barrel contact position, with Fixed first objective lens and second objective lens, first objective lens and second objective lens and institute It states between lens barrel that there are gaps, and pours into dilute silicon rubber in the gap,

First objective lens, the second objective lens and lens barrel can by the infrared laser signal focus of entrance in On the infrared thermal imagery detector assembly, the infrared thermal imagery detector assembly can be to the infrared laser signal processing analysis After form visible thermal image, and shown by the OLED screen, the eyepiece lens barrel, eyepiece lens group and eyepiece lens can The observation window for observing thermal image in the OLED screen is provided, the interface is for providing the interface connecting with white light gun sight.

Preferably, the non-refrigeration type infrared thermal imagery preset lens include rotation focusing handwheel, and the rotation focusing handwheel is set The object lens are set close to one end of second objective lens, the rotation focusing handwheel can drive the object lens when rotated It is moved axially along optical axis.

Preferably, the non-refrigeration type infrared thermal imagery preset lens include battery holder assembly, and the battery holder assembly is located at institute State the top of eyepiece and the OLED screen link position, the battery holder assembly can to the infrared thermal imagery detector assembly and The OLED screen provides power supply, and the voltage range that the battery holder assembly provides is 5V~8.4V.

Preferably, the non-refrigeration type infrared thermal imagery preset lens include dovetail attachment base and locking device, and the dovetail connects Joint chair is located at the bottom end of the lens barrel and the eyepiece lens barrel, and the dovetail attachment base is used for the infrared heat of the non-refrigeration type As the connection of preset lens and firearms, the locking device is connect with the dovetail attachment base, and the locking device is used for will be described The locking of dovetail attachment base.

Preferably, the non-refrigeration type infrared thermal imagery preset lens further include keypad, and the keypad is arranged in the mesh The side of mirror lens barrel, the keypad is for providing parameter regulation menu.

The non-refrigeration type infrared thermal imagery preset lens provided are provided, imaging is realized by the processing to infrared laser signal, by In it is received be infrared signal, therefore be not illuminated by the light limitation, can be used under total darkness environment, when the non-refrigeration type infrared thermal imagery When preset lens are placed in white light gun sight front end, the aiming function under various ambient light illuminations to increase white light gun sight, and pacify Efficient and convenient, observation aiming energy of the realization white light gun sight under various illumination environments within very short time or even several seconds is unloaded in assembly and disassembly Power increases identification camouflage and the anti-interference ability of system.

Detailed description of the invention

Attached drawing is to further understand for providing to invention, and constitute part of specification, and following specific Embodiment is used to explain together invention, but and is not construed as limiting the present invention limitation.In the accompanying drawings:

Fig. 1 is the structural schematic diagram for the non-refrigeration type infrared thermal imagery preset lens that invention provides.

Fig. 2 is the structural schematic diagram for inventing eyepiece in the non-refrigeration type infrared thermal imagery preset lens provided.

Fig. 3 is the structural schematic diagram for inventing dovetail attachment base in the non-refrigeration type infrared thermal imagery preset lens provided.

Fig. 4 is the structural schematic diagram for inventing keypad in the non-refrigeration type infrared thermal imagery preset lens provided.

Specific embodiment

It is described in detail below in conjunction with specific embodiment of the attached drawing to invention.It should be understood that described herein Specific embodiment be only used for describing and explaining invention, be not limited to invent.

As the one aspect of invention, a kind of non-refrigeration type infrared thermal imagery preset lens are provided, wherein such as Fig. 1 and Fig. 2 institute Show, the non-refrigeration type infrared thermal imagery preset lens include the first objective lens 2 set gradually, the second objective lens 3, object lens mirror Cylinder 5, infrared thermal imagery detector assembly 6, eyepiece lens barrel 9, eyepiece lens group 10, eyepiece lens 11 and interface 12, first object Mirror lens 2, the second objective lens 3, lens barrel 5 and infrared thermal imagery detector assembly 6 are sequentially connected, the eyepiece lens barrel 9, mesh Mirror lens group 10 and eyepiece lens 11 are sequentially connected, and the non-refrigeration type infrared thermal imagery preset lens further include OLED screen 7, described OLED screen 7 is located at one end that the eyepiece lens barrel 9 deviates from the eyepiece lens group 10, first objective lens 2, the second object lens The optical centre of lens 3 and lens barrel 5 is located in primary optic axis axial direction, the OLED screen 7, eyepiece lens barrel 9, eyepiece lens group 10 and the optical centre of eyepiece lens 11 be located in the second optical axis axial direction, axial and described second optical axis of the primary optic axis is axial In parallel,

The making material of first objective lens 2 and second objective lens 3 includes germanite glass, in the object lens The inner wall of lens barrel 5, first objective lens 2 and second objective lens 3 and the 5 contact position setting table of lens barrel Rank, with fixation first objective lens 2 and second objective lens 3, first objective lens 2 and second object lens There are gaps between lens 3 and the lens barrel 5, and pour into dilute silicon rubber in the gap,

First objective lens 2, the second objective lens 3 and lens barrel 5 can gather the infrared laser signal of entrance Coke on the infrared thermal imagery detector assembly 6, the infrared thermal imagery detector assembly 6 can be to the infrared laser signal at Visible thermal image is formed after reason analysis, and is shown by the OLED screen 7, the eyepiece lens barrel 9, eyepiece lens group 10 and mesh Mirror lens 11 are capable of providing the observation window for observing thermal image in the OLED screen 7, and the interface 12 is aimed at for providing with white light The interface of mirror connection.

The non-refrigeration type infrared thermal imagery preset lens provided are provided, imaging is realized by the processing to infrared laser signal, by In it is received be infrared signal, therefore be not illuminated by the light limitation, can be used under total darkness environment, when the non-refrigeration type infrared thermal imagery When preset lens are placed in white light gun sight front end, the aiming function under various ambient light illuminations to increase white light gun sight, and pacify Efficient and convenient, observation aiming energy of the realization white light gun sight under various illumination environments within very short time or even several seconds is unloaded in assembly and disassembly Power increases identification camouflage and the anti-interference ability of system.

It should be noted that as seen from Figure 1, object lens 1 include sequentially connected first objective lens 2, the second object lens Lens 3 and lens barrel 5, object lens 1 are object lens of large relative aperture system, and F number is 1.First objective lens 2 and second object Mirror lens 3 are made by germanite glass, are non-spherical lens.First objective lens 2 and second objective lens 3 and described Glue-line is hit by vibration shock isolation between eyepiece lens group 10 and the eyepiece lens 11 and the lens barrel 5, the eyepiece lens barrel 9 Isolation alleviates big overload impact to the impact energy of optical glass.

It should be understood that between first objective lens 2 and second objective lens 3 and the lens barrel 5 There are gaps, and pour into dilute silicon rubber in the gap, meet expanding with heat and contract with cold for germanite glass.

It is to be further understood that the photosensitive member of the infrared laser signal focus and the infrared thermal imagery detector assembly 6 On part, processing analysis is carried out to the signal via infrared detector, and form visible thermal image and be presented in OLED screen 7, led to It crosses eyepiece 16 and is able to observe that the thermal image.Eyepiece 16 includes sequentially connected eyepiece lens barrel 9, eyepiece lens group 10 and eyepiece Lens 11.

In order to realize the focusing function of the non-refrigeration type infrared thermal imagery preset lens, as the non-refrigeration type infrared thermal imagery The first embodiment of preset lens, as shown in Figure 1, the non-refrigeration type infrared thermal imagery preset lens include rotation focusing handwheel 4, The object lens 1 are arranged close to one end of second objective lens 3,4 energy of rotation focusing handwheel in the rotation focusing handwheel 4 It is enough that the object lens 1 is driven to move axially along optical axis when rotated.

It is understood that driving object lens 1 to move axially along optical axis by rotation focusing handwheel 4, object lens whole group tune is realized Coke, to targets in different range zones blur-free imaging.

In order to enable the infrared thermal imagery detector assembly 6 and the OLED screen 7 can work normally, as the non-system Second of embodiment of cold mould infrared thermal imagery preset lens, as shown in Figure 1, the non-refrigeration type infrared thermal imagery preset lens include electricity Pond case assembly 8, the battery holder assembly 8 are located at the top of 7 link position of the eyepiece 16 and the OLED screen, the battery case Component 8 can provide power supply, and the battery holder assembly 8 to the infrared thermal imagery detector assembly 6 and the OLED screen 7 The voltage range of offer is 5V~8.4V.

Specifically, in order to enable the non-refrigeration type infrared thermal imagery preset lens can be connect with realizations such as firearms, as institute The third specifically embodiment of non-refrigeration type infrared thermal imagery preset lens is stated, as shown in figures 1 and 3, the non-refrigeration type is red Outer thermal imagery preset lens include dovetail attachment base 13 and locking device 14, and the dovetail attachment base 13 is located at 5 He of lens barrel The bottom end of the eyepiece lens barrel 9, the dovetail attachment base 13 are used for the company of the non-refrigeration type infrared thermal imagery preset lens and firearms It connects, the locking device is connect with the dovetail attachment base 13, and the locking device 14 is for locking the dovetail attachment base 13 Tightly.

Further specifically, in order to realize the adjusting to brightness of image, contrast after imaging etc., as the non-brake method 4th kind of specific embodiment of type infrared thermal imagery preset lens, as shown in Figure 1 and Figure 4, the non-refrigeration type infrared thermal imagery is preposition Mirror further includes keypad 15, and the side of the eyepiece lens barrel 9 is arranged in the keypad 15, and the keypad 15 is for providing ginseng Number adjusts menu.

Object lens 1, infrared detector module 6, OLED screen 7, eyepiece in the non-refrigeration type infrared thermal imagery preset lens provided are provided The optical centre consistency of 16 this several part influences the optical property of product and the pointing accuracy of small arms firing, therefore, Ke Yitong The optical centre that the mobile OLED screen 7 in the plane hung down with optical axis carrys out calibration product is crossed, method particularly includes: it first passes through with graduation The optical centre of target alignment white light gun sight, and no parallax.Product is placed between band graduation target and white light gun sight again, Guarantee three's common optical axis, then moving OLED screen 7 keeps graduation target consistent with white light gun sight optical centre.

The main performance of the non-refrigeration type infrared thermal imagery preset lens is as follows:

Focal length: f '=75；

Multiplying power: 1X；

Visual field: 8.3 ° × 4.2 °；

Relative aperture: 1:1；

Focusing range: 20m~∞；

Exit pupil diameter: 40mm；

The major parameter of infrared detector in the non-refrigeration type infrared thermal imagery preset lens:

Resolution ratio: 384 × 288；

Pixel: 17 μm；

Work normally supply voltage range: DC5~12V；

0.38 " OLED major parameter

Resolution ratio: 873 × 500；

Pixel: 10 μm；

High/low temperature working range: -55 DEG C ~+60 DEG C.

The non-refrigeration type infrared thermal imagery preset lens that invention provides have quick side for being installed on white light gun sight front end Just increase the aiming function under the various ambient light illuminations of white light gun sight, the non-refrigeration type infrared thermal imagery for inventing offer is preposition Mirror also has the advantages that uniqueness relative to lll night vision product in the market, such as can mist, rain, snow weather under work, act on Distance is remote, can identify pretend with it is anti-interference etc., and day and night can work.

It is understood that embodiment of above is merely to illustrate that the principle of invention and the exemplary embodiment party that uses Formula, however invention is not limited thereto.For those skilled in the art, in the spirit and reality for not departing from invention In the case where matter, various changes and modifications can be made therein, these variations and modifications are also considered as the protection scope of invention.

Claims (5)

1. a kind of non-refrigeration type infrared thermal imagery preset lens, which is characterized in that the non-refrigeration type infrared thermal imagery preset lens include according to The first objective lens (2), the second objective lens (3), lens barrel (5), the infrared thermal imagery detector assembly (6), mesh of secondary setting Mirror lens barrel (9), eyepiece lens group (10), eyepiece lens (11) and interface (12), first objective lens (2), the second object lens Lens (3), lens barrel (5) and infrared thermal imagery detector assembly (6) are sequentially connected, the eyepiece lens barrel (9), eyepiece lens group (10) it is sequentially connected with eyepiece lens (11), the non-refrigeration type infrared thermal imagery preset lens further include OLED screen (7), the OLED Screen (7) is located at one end that the eyepiece lens barrel (9) deviates from the eyepiece lens group (10), first objective lens (2), second The optical centre of objective lens (3) and lens barrel (5) is located in primary optic axis axial direction, the OLED screen (7), eyepiece lens barrel (9), the optical centre of eyepiece lens group (10) and eyepiece lens (11) is located in the second optical axis axial direction, and the primary optic axis is axial It is axially parallel with second optical axis,

The making material of first objective lens (2) and second objective lens (3) includes germanite glass, in the object lens The inner wall of lens barrel (5), first objective lens (2) and second objective lens (3) and the lens barrel (5) contact position Step is installed, with fixation first objective lens (2) and second objective lens (3), first objective lens (2) There are gaps between second objective lens (3) and the lens barrel (5), and pour into dilute silicon rubber in the gap Glue,

First objective lens (2), the second objective lens (3) and lens barrel (5) can be by the infrared laser signals of entrance It focuses on the infrared thermal imagery detector assembly (6), the infrared thermal imagery detector assembly (6) can be to the infrared laser Visible thermal image is formed after signal processing analysis, and shows that the eyepiece lens barrel (9), eyepiece are saturating by the OLED screen (7) Microscope group (10) and eyepiece lens (11) are capable of providing the observation window for observing thermal image on the OLED screen (7), the interface (12) For providing the interface connecting with white light gun sight.

2. non-refrigeration type infrared thermal imagery preset lens according to claim 1, which is characterized in that object lens (1) include successively connecting First objective lens (2), the second objective lens (3) and the lens barrel (5) connect, the non-refrigeration type infrared thermal imagery are preposition Mirror includes rotation focusing handwheel (4), and the object lens (1) are arranged close to second objective lens in the rotation focusing handwheel (4) (3) one end, the rotation focusing handwheel (4) can drive the object lens (1) to move axially along optical axis when rotated.

3. non-refrigeration type infrared thermal imagery preset lens according to claim 1, which is characterized in that eyepiece (16) includes successively connecting The eyepiece lens barrel (9), eyepiece lens group (10) and the eyepiece lens (11) connect, the non-refrigeration type infrared thermal imagery preset lens packet It includes battery holder assembly (8), the battery holder assembly (8) is located at the top of the eyepiece (16) and the OLED screen (7) link position End, the battery holder assembly (8) can provide power supply electricity to the infrared thermal imagery detector assembly (6) and the OLED screen (7) Source, and the voltage range that the battery holder assembly (8) provides is 5V~8.4V.

4. non-refrigeration type infrared thermal imagery preset lens according to claim 1, which is characterized in that the infrared heat of non-refrigeration type As preset lens include dovetail attachment base (13) and locking device (14), the dovetail attachment base (13) is located at the lens barrel (5) and the bottom end of the eyepiece lens barrel (9), the dovetail attachment base (13) for the non-refrigeration type infrared thermal imagery preset lens with The connection of firearms, the locking device are connect with the dovetail attachment base (13), and the locking device (14) is used for the swallow Tail attachment base (13) locking.

5. non-refrigeration type infrared thermal imagery preset lens as claimed in any of claims 1 to 4, which is characterized in that described Non-refrigeration type infrared thermal imagery preset lens further include keypad (15), and the keypad (15) is arranged in the eyepiece lens barrel (9) Side, the keypad (15) is for providing parameter regulation menu.