CN210201939U - Compact infrared visible common light path photoelectric device - Google Patents

Abstract

The utility model relates to an infrared visible light of compact is light path photoelectric device altogether, including the photoelectric device body, the photoelectric window, optics lens group, the lens cone, infrared detector, visible light detector and signal processing board, optics lens group has both contained infrared lens group and has also contained visible light lens group, optics lens group and the coaxial setting of photoelectric window, coaxial design through infrared and visible light lens and window, make the visual field center of infrared and two images of visible light unanimous completely, the compensation link on the later stage algorithm has been avoided, and simultaneously, because coaxial design, make the device compacter than traditional two optical devices, the volume has been little more than 30%, weight has lacked more than 35%, be favorable to surveing the use more.

Description

Compact infrared visible common light path photoelectric device

Technical Field

The utility model relates to an optics industry detects the field, concretely relates to compact infrared visible common light path photoelectric device that rational in infrastructure, optical effect are fine.

Background

In the field of industrial detection, a target needs to be quickly found, tracked and measured in real time under all weather conditions, so that a visible light image and an infrared image are required to be obtained simultaneously, and the centers of the fields of view of the two images are required to be consistent, so that high requirements are provided for an optoelectronic device. The existing products are that the infrared lens group and the visible lens group are installed side by side, so that the visual fields of two images have deviation, although compensation and calibration can be carried out through a compensation algorithm, the compensation is very limited, and the photoelectric device is large in size and weight due to the fact that the infrared lens group and the visible lens group are installed side by side, and is particularly inconvenient to use. Therefore, a compact infrared and visible common-path photoelectric device is designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an infrared visible common light path photoelectric device of compact has same visual field, need not later stage compensation algorithm and advantages such as convenient to use volume optimization.

The utility model aims at realizing through the following technical scheme:

the utility model provides a compact infrared visible common light path photoelectric device which characterized in that: the photoelectric device comprises a photoelectric device body, a photoelectric window, an optical lens group, a lens barrel, an infrared detector, a visible detector and a metal wire nozzle, wherein the photoelectric window is arranged on the front surface of the photoelectric device body and is fixedly connected with the photoelectric device body through a support; the infrared detector is fixedly arranged in the middle of the photoelectric device body and is aligned with the photoelectric window; the lens cone is arranged between the photoelectric window and the infrared detector and is fixedly connected with the photoelectric device body, a heat conducting pad is also arranged between the lens cone and the photoelectric device body, and an optical lens group is adhered to one end of the lens cone facing the photoelectric window; the visible light detector is fixedly arranged in the photoelectric device body and is vertical to the lens cone; the optical lens group comprises an infrared lens group and a visible light lens group, and the optical lens group and the photoelectric window are coaxially arranged;

in a preferred embodiment, the photoelectric device body is cylindrical, and a plurality of mounting threaded holes are formed in the cylindrical surface;

in a preferred embodiment, a first focusing gasket is arranged between the infrared detector and the lens barrel, and a second focusing gasket is arranged between the visible light detector and the lens barrel;

in a preferred embodiment, a signal processing board and a mounting bottom board are further arranged in the photoelectric device body, the signal processing board is fixedly connected with the mounting bottom board through a connecting column, and a metal wire nozzle is electrically connected with the signal processing board;

in a preferred embodiment, the mounting base plate is fixedly connected with the photoelectric device body through a mounting threaded hole arranged on the photoelectric device body and a screw;

in a preferred embodiment, the material of the photoelectric window is zinc sulfide.

The beneficial effects of the utility model are that

The invention provides a compact infrared visible common-path photoelectric device, which is characterized in that the centers of the visual fields of infrared images and visible images are completely consistent through the coaxial design of infrared and visible lenses and windows, the compensation link in later-stage algorithm is avoided, and meanwhile, the device is more compact than the traditional double-light device due to the coaxial design, has a small volume of more than 30 percent and a light weight of less than 35 percent, and is more favorable for observation and use.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a structural diagram of the compact infrared-visible common-path photoelectric device of the present invention.

In the figure:

1. a photovoltaic device body; 2. a photoelectric window; 3. a support; 4. an optical lens group; 5. a lens barrel; 6. an infrared detector; 7. a visible light detector; 8. a first focusing pad; 9. a second focusing pad; 10. a signal processing board; 11. connecting columns; 12. mounting a bottom plate; 13. a wire nozzle.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The invention will be further described with reference to the drawings and specific examples.

Embodiment 1, as shown in fig. 1, a compact infrared-visible common optical path optoelectronic device includes an optoelectronic device body 1, an optoelectronic window 2, an optical lens group 4, a lens barrel 5, an infrared detector 6, a visible detector 7, and a metal wire nozzle 13, where the optoelectronic window 2 is disposed on a front surface of the optoelectronic device body 1 and is fixedly connected to the optoelectronic device body 1 through a bracket 3; the infrared detector 6 is fixedly arranged in the middle of the photoelectric device body 1 and is aligned with the photoelectric window 2; the lens cone 5 is arranged between the photoelectric window 2 and the infrared detector 6 and is fixedly connected with the photoelectric device body 1, a heat conducting pad is also arranged between the lens cone 5 and the photoelectric device body 1, and an optical lens group 4 is adhered to one end, facing the photoelectric window 2, of the lens cone 5; the visible light detector 7 is fixedly arranged in the photoelectric device body 1 and is vertical to the lens cone 5; the optical lens group 4 comprises an infrared lens group and a visible light lens group, the optical lens group 4 and the photoelectric window 2 are coaxially arranged, light enters the optical lens group 4 through the photoelectric window 2 and is subjected to light splitting treatment, infrared light enters the infrared detector 6, visible light enters the visible light detector 7, the infrared light and the visible light are converted into corresponding electric signals through the infrared detector 6 and the visible light detector 7, the electric signals are sent into the signal processing board 10, the signal processing board 10 converts infrared light and visible light electric signals into two corresponding images, one is a visible light image and the other is an infrared light image, then other information processing links such as image fusion, target detection and the like are carried out, finally, the treated information is output to the outside through the metal wire nozzle 13, and the output can be wired output or remote wireless communication module output, the coaxial arrangement mode of infrared and visible light can make the visual field center of two images of infrared and visible light completely unanimous, has avoided the compensation link on the later stage algorithm, simultaneously, because coaxial design for the device is compacter than traditional two optical devices, and the volume has reduced more than 30%, and weight reduction has more than 35%, is favorable to observing the use more.

Embodiment 2, as shown in fig. 1, a compact infrared-visible common optical path optoelectronic device includes an optoelectronic device body 1, an optoelectronic window 2, an optical lens group 4, a lens barrel 5, an infrared detector 6, a visible detector 7, and a metal wire nozzle 13, where the optoelectronic window 2 is disposed on the front surface of the optoelectronic device body 1 and is fixedly connected to the optoelectronic device body 1 through a bracket 3; the infrared detector 6 is fixedly arranged in the middle of the photoelectric device body 1 and is aligned with the photoelectric window 2; the lens cone 5 is arranged between the photoelectric window 2 and the infrared detector 6 and is fixedly connected with the photoelectric device body 1, a heat conducting pad is also arranged between the lens cone 5 and the photoelectric device body 1, and an optical lens group 4 is adhered to one end, facing the photoelectric window 2, of the lens cone 5; the visible light detector 7 is fixedly arranged in the photoelectric device body 1 and is vertical to the lens cone 5; the optical lens group 4 comprises an infrared lens group and a visible light lens group, and the optical lens group 4 and the photoelectric window 2 are coaxially arranged; the photoelectric device body 1 is cylindrical, and a plurality of mounting threaded holes are formed in the cylindrical surface; be provided with first focusing gasket 8 between infrared detector 6 and lens cone 5, be provided with second focusing gasket 9 between visible light detector 7 and the lens cone 5, compare the improvement point of this embodiment technical scheme with last embodiment and be provided with first focusing gasket 8 and second focusing gasket 9 between infrared detector 6 and lens cone 5 and between visible light detector 7 and lens cone 5, above-mentioned focusing gasket can make the absorptive effect of light better to make the information processing result in later stage also more accurate.

Embodiment 3, as shown in fig. 1, a compact infrared-visible common path optoelectronic device is characterized in that: the photoelectric device comprises a photoelectric device body 1, a photoelectric window 2, an optical lens group 4, a lens cone 5, an infrared detector 6, a visible detector 7 and a metal wire nozzle 13, wherein the photoelectric window 2 is arranged on the front side of the photoelectric device body 1, and is fixedly connected with the photoelectric device body 1 through a support 3, the infrared detector 6 is fixedly arranged in the middle of the photoelectric device body 1 and is aligned with the photoelectric window 2; the lens cone 5 is arranged between the photoelectric window 2 and the infrared detector 6 and is fixedly connected with the photoelectric device body 1, a heat conducting pad is also arranged between the lens cone 5 and the photoelectric device body 1, and an optical lens group 4 is adhered to one end, facing the photoelectric window 2, of the lens cone 5; the visible light detector 7 is fixedly arranged in the photoelectric device body 1 and is vertical to the lens cone 5; optical lens group 4 has both contained infrared lens group and has also contained visible light lens group, optical lens group 4 and the coaxial setting of photoelectricity window 2, optoelectronic device body 1 still includes metal line mouth 13, metal line mouth 13 is connected with signal processing board 10 electricity, compare with embodiment 1, this technical scheme difference lies in still being provided with metal line mouth 13 in optoelectronic device body 1, this metal line mouth 13 can give the distal end server with the signal transmission after signal processing board 10 handles, also can not set up metal line mouth 13 and transmit through the cable, the mode of data is handled in the conveying simultaneously also does not confine above-mentioned two kinds of modes to, the signal transmission of other any form can all reach the technological effect that this technical scheme will reach.

Embodiment 4, as shown in fig. 1, a compact infrared-visible common path optoelectronic device is characterized in that: the photoelectric device comprises a photoelectric device body 1, a photoelectric window 2, an optical lens group 4, a lens cone 5, an infrared detector 6, a visible light detector 7 and a signal processing board 10; the photoelectric window 2 is arranged on the front surface of the photoelectric device body 1 and is fixedly connected with the photoelectric device body 1 through a bracket 3; the infrared detector 6 is fixedly arranged in the middle of the photoelectric device body 1 and is aligned with the photoelectric window 2; the lens cone 5 is arranged between the photoelectric window 2 and the infrared detector 6 and is fixedly connected with the photoelectric device body 1, a heat conducting pad is also arranged between the lens cone 5 and the photoelectric device body 1, and an optical lens group 4 is adhered to one end face, facing the photoelectric window 2, of the lens cone 5; the visible light detector 7 is fixedly arranged in the photoelectric device body 1 and is vertical to the axial direction of the lens cone 5; the optical lens group 4 comprises an infrared lens group and a visible light lens group, and the optical lens group 4 and the photoelectric window 2 are coaxially arranged; the signal processing board 10 is electrically connected to the infrared detector 6 and the visible light detector 7, respectively. The photoelectric device body 1 is cylindrical, and a plurality of mounting threaded holes are formed in the cylindrical surface. A first focusing gasket 8 is arranged between the infrared detector 6 and the lens cone 5, and a second focusing gasket 9 is arranged between the visible light detector 7 and the lens cone 5. The photoelectric device body 1 further comprises a metal wire nozzle 13, the metal wire nozzle 13 is electrically connected with the signal processing board 10, and the signal processing board 10 is fixedly connected with a mounting bottom board 12 arranged at the bottom of the photoelectric device body 1 through a connecting column 11. The mounting base plate 12 is fixedly connected with the photoelectric device body 1 through a mounting threaded hole arranged on the photoelectric device body 1 and a screw. The photoelectric window 2 is made of zinc sulfide, and the difference between the present technical solution and embodiment 1 is that the bottom of the photoelectric device body 1 is provided with a mounting bottom plate 12, two ends of the mounting bottom plate 12 are provided with connecting posts 11, the signal processing board 10 is fixedly connected with the mounting bottom plate 12 through the connecting posts 11, the signal processing board 10 can be stably installed in the photoelectric device body 1 and fixed through the connecting posts 11, the normal operation of the signal processing board 10 is not affected by other replaceable connection modes or position changes except the connection mode, and the present technical solution belongs to the replacement of the conventional means in the field, all the above modes aim to better stabilize the signal processor 10, so that the signal processor can safely and stably operate, and the photoelectric window 2 is made of zinc sulfide, the material has light transmission and can simultaneously transmit infrared light and visible light, so that the detection accuracy is higher and the effect is better.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a compact infrared visible common light path photoelectric device which characterized in that: the photoelectric device comprises a photoelectric device body (1), a photoelectric window (2), an optical lens group (4), a lens cone (5), an infrared detector (6), a visible light detector (7) and a signal processing board (10);

the photoelectric window (2) is arranged on the front surface of the photoelectric device body (1) and is fixedly connected with the photoelectric device body (1) through a support (3);

the infrared detector (6) is fixedly arranged in the middle of the photoelectric device body (1) and is aligned with the photoelectric window (2);

the lens cone (5) is arranged between the photoelectric window (2) and the infrared detector (6) and is fixedly connected with the photoelectric device body (1), a heat conducting pad is further arranged between the lens cone (5) and the photoelectric device body (1), and an optical lens group (4) is adhered to one end face, facing the photoelectric window (2), of the lens cone (5);

the visible light detector (7) is fixedly arranged in the photoelectric device body (1) and is vertical to the axial direction of the lens cone (5);

the optical lens group (4) comprises an infrared lens group and a visible light lens group, and the optical lens group (4) and the photoelectric window (2) are coaxially arranged;

the signal processing board (10) is electrically connected with the infrared detector (6) and the visible light detector (7) respectively.

2. The compact infrared-visible common optical path optoelectronic device according to claim 1, wherein: the photoelectric device body (1) is cylindrical, and a plurality of mounting threaded holes are formed in the cylindrical surface.

3. The compact infrared-visible common optical path optoelectronic device according to claim 1, wherein: a first focusing gasket (8) is arranged between the infrared detector (6) and the lens cone (5), and a second focusing gasket (9) is arranged between the visible light detector (7) and the lens cone (5).

4. The compact infrared-visible common optical path optoelectronic device according to claim 1, wherein: the photoelectric device body (1) further comprises a metal wire nozzle (13), the metal wire nozzle (13) is electrically connected with the signal processing board (10), and the signal processing board (10) is fixedly connected with a mounting base plate (12) arranged at the bottom of the photoelectric device body (1) through a connecting column (11).

5. The compact infrared-visible common-path optoelectronic device according to claim 4, wherein: the mounting base plate (12) is fixedly connected with the photoelectric device body (1) through a mounting threaded hole arranged on the photoelectric device body (1) in a matched mode with a screw.

6. The compact infrared-visible common optical path optoelectronic device according to claim 1, wherein: the photoelectric window (2) is made of zinc sulfide.

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