CN206627690U - A kind of electronics low-light monotubular is seen and takes aim at telescope - Google Patents
A kind of electronics low-light monotubular is seen and takes aim at telescope Download PDFInfo
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- CN206627690U CN206627690U CN201720321629.5U CN201720321629U CN206627690U CN 206627690 U CN206627690 U CN 206627690U CN 201720321629 U CN201720321629 U CN 201720321629U CN 206627690 U CN206627690 U CN 206627690U
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Abstract
The utility model provides a kind of electronics low-light monotubular sight and takes aim at telescope, is related to protection and monitor field, including camera lens is taken aim in objective lens, main body cabin and sight, and the objective lens contain object lens assembly housing and adjustable objective lens group;Contain coding-control plate, battery compartment, battery bottom plate, power board, Power conversion board and key control panel in the main body module room, CCD photosensitive imaging detecting plates are equipped with the objective lens in the main body module room, is taken aim at close to the sight and liquid crystal display is equipped with camera lens;The main body cabin surface is equipped with aviation headstock;The sight takes aim at camera lens and contains eyepiece assembly housing, rubber eyeshade and adjustable eyepiece group;Above-mentioned power board, liquid crystal display and aviation headstock are connected with the coding-control plate respectively.The utility model also can be observed clearly while daylight observation is met under the conditions of night low-illumination, and the light that happens suddenly will not burn imaging detector, and cost is cheap with respect to thermal imaging detector.
Description
【Technical field】
Protection and monitor field is the utility model is related to, especially a kind of electronics low-light monotubular, which is seen, takes aim at telescope.
【Background technology】
At present it is known that pure optical telescope correct display image, sight can not be taken aim under ultra-low illumination environment;Lll night vision
Telescope is based on image intensifier tube technology, and picture contrast is low and image intensifier tube is to being mutated light sensitive, easily in burst illumination
In the case of burn image intensifier tube;The supporting special material camera lens of infrared thermal imaging detector make it is difficult, cost is high be difficult to it is general
And use.
【Utility model content】
The utility model provides a kind of electronics low-light monotubular sight and takes aim at telescope, to solve above-mentioned technical problem.
A kind of electronics low-light monotubular of the present utility model, which is seen, takes aim at telescope, including mirror is taken aim in objective lens, main body cabin and sight
Head, the objective lens contain object lens assembly housing and adjustable objective lens group;Contain coding-control plate, battery in the main body module room
Storehouse, battery bottom plate, power board, Power conversion board and key control panel, close to the objective lens in the main body module room
Place is equipped with CCD photosensitive imaging detecting plates, is taken aim at close to the sight and liquid crystal display is equipped with camera lens;The main body cabin surface is equipped with
Aviation headstock;The sight takes aim at camera lens and contains eyepiece assembly housing, rubber eyeshade and adjustable eyepiece group;Above-mentioned power board, liquid crystal
Display and aviation headstock are connected with the coding-control plate respectively.
Wherein, the main body cabin surface is also equipped with button rubber membrane, key cap, battery cabin cap and power switch.
Wherein, between the power switch access Power conversion board and battery bottom plate, electronics is controlled by the power switch
The circuit that telescope is taken aim in the sight of low-light monotubular breaks, closure;4 routes are exported on the Power conversion board, wherein 2 routes input the electricity
Source control panel, is supplied power for, and realizes that 3V control sources turn 5V voltage outputs, and 2 routes access the coding-control plate in addition, are used for
Monitor battery electric quantity;Further, the 5V voltages exported by the power board to the coding-control plate, LCDs and
Aviation headstock is powered;The coding-control plate is drawn 2 routes and powered to CCD photosensitive imagings detecting plate, and the coding-control plate draws
Go out 1 road video line and be divided into 2 groups, access LCDs and aviation headstock two-by-two respectively.
Wherein, the objective lens are connected with main body cabin front portion by object lens adapter, and camera lens is taken aim in the sight
It is connected with main body cabin rear portion by eyepiece pedestal.
Wherein, the CCD photosensitive imagings detecting plate receives the light after the objective lens regulation, and converts light into
Electronic image signal, the coding-control plate project final image described to the further optimization processing of electronic image signal
On liquid crystal display.
Wherein, the objective lens include:First lens, the second lens, the 3rd lens, the 4th lens, the 5th lens,
Six lens and the 7th lens;First lens, the second lens, the 3rd lens, the 4th lens, the 5th lens, the 6th lens,
Seven lens are connected with object lens assembly housing respectively;Image sharpness is adjusted by adjusting adjustable objective lens group.
Wherein, camera lens is taken aim in the sight includes:First eyepiece, the second eyepiece, the 3rd eyepiece and the 4th eyepiece;First mesh
Mirror, the second eyepiece, the 3rd eyepiece, the 4th eyepiece are connected with eyepiece assembly housing respectively, and liquid crystal display, will by adjustable eyepiece group
The image received projects human eye.
Wherein, the coding-control plate includes:Band analog-digital converter A/D microcontrollers, power-switching circuit and string
Port communications circuit;Wherein, battery voltage signal is converted to the recognizable battery of human eye by analog-digital converter A/D microcontrollers
Electricity shows markings cast to liquid crystal display.
Wherein, the battery compartment is located in the middle part of the main body cabin surface, connection battery cabin cap outside the battery compartment, electricity
Chi Canggai is detachable, and the battery compartment accommodates one piece of battery, and the power board is placed at the battery compartment rear portion.
Wherein, cell voltage is carried out voltage-regulation by the power board, reach the CCD photosensitive imagings detecting plate,
The power reguirements of the coding-control plate and the liquid crystal display.
Wherein, the object lens assembly housing, eyepiece assembly housing and main body cabin surface material are aluminium alloy.
Wherein, the button rubber membrane is exposed in the main body cabin surface, is covered on key control panel.
Wherein, the aviation headstock totally 4 pin, wherein stitch 1 and stitch 2 is transmission of video stitch, and stitch 3 and stitch 4 are
Outside 5V supply inputs.
The utility model electronics low-light monotubular is seen and takes aim at telescope while daylight observation is met, under the conditions of night low-illumination
Also can clearly observe, and the light that happens suddenly will not burn imaging detector, and cost is cheap with respect to thermal imaging detector.
【Brief description of the drawings】
Fig. 1 is that the electronics low-light monotubular of the utility model embodiment sees the general illustration for taking aim at telescope;
Fig. 2 is that the electronics low-light monotubular of the utility model embodiment sees the modular construction schematic diagram for taking aim at telescope;
Fig. 3 is that the electronics low-light monotubular of the utility model embodiment sees the circuit connection diagram for taking aim at telescope;
Fig. 4 is that the electronics low-light monotubular of the utility model embodiment sees the objective lens lens structure signal for taking aim at telescope
Figure;
Fig. 5 is that the electronics low-light monotubular of the utility model embodiment is seen and takes aim at the sight of telescope and take aim at lens wearer structural representation
Figure.
【Embodiment】
The utility model provides a kind of electronics low-light monotubular sight and takes aim at telescope, while daylight observation is met, also may be used
Clearly observed under the conditions of night low-illumination, from new low light level CCD as imaging detector, sensing wavelength band 400nm~
1200nm, low-light observating characteristic is good, and HDR tolerances are good, will not be visited because of the strong light burn out detector that happens suddenly, cost with respect to thermal imaging
Survey the cheap electronics low-light monotubular sight of device and take aim at telescope.Specifically describe by the following examples.
Shown in Figure 1, the electronics low-light monotubular of the present embodiment, which is seen, takes aim at telescope, including:Objective lens 1, main body cabin
Camera lens 3 is taken aim in part 2 and sight.
Further, it is shown in Figure 2, including:Adjustable objective lens group 101, object lens adapter 102, the detection of CCD photosensitive imagings
Frame plate 107, battery compartment are held in device pedestal 103, CCD photosensitive imagings detector panel 104, coding-control plate 105, main body cabin 106, side
108th, battery cabin cap 109, aviation headstock 110, power switch 111, power board 112, key control panel 113, button rubber
Film 114, key cap 115, liquid crystal display 116, liquid crystal display pedestal 117, adjustable eyepiece group 118, rubber eyeshade 119,
Eyepiece pedestal 120, object lens assembly housing 121, eyepiece assembly housing 122, eyepiece correction adjusting means 123.Objective lens 1 contain object lens
Assembly housing 121 and adjustable objective lens group 101, it is connected by object lens adapter 102 with main body cabin 106.The main body of main body cabin part 2
There is CCD photosensitive imagings detector panel 104 at object lens in cabin 106, fixed by CCD sensitive detectors pedestal 103, i.e. object lens
Camera lens 1 and CCD photosensitive imagings detector panel 104 is physically connected to connect, and light passes through objective lens 1, projects the spy of CCD photosensitive imagings
Survey device plate 104 to be imaged, be converted to primary electron vision signal, objective lens 1 have focusing ring, can be far and near according to observed objects, turn
Dynamic focusing ring regulation image sharpness.Also contain coding-control plate 105, battery compartment 108, power board in main body cabin 106
112, key control panel 113, liquid crystal display 116 is equipped with camera lens close to seeing to take aim in main body cabin 106.The table of main body cabin 106
Face is equipped with button rubber pattern 114, and battery cabin cap 109, power switch 111, frame plate 107, key cap 115, aviation headstock are held in side
110.Sight takes aim at camera lens 3 and contains eyepiece assembly housing 122, eyepiece correction adjusting means 123, rubber eyeshade 119, adjustable eyepiece group 118,
Eyepiece pedestal 120;Sight takes aim at camera lens 3 and is physically connected to connect with liquid crystal display 116, after liquid crystal display 116 receives vision signal,
Image is shown, is taken aim at by sight after camera lens 3 is adjusted and forms suitable sized images, project human eye, camera lens 3 is taken aim in sight focusing ring,
Focusing ring can be rotated according to human eye difference diopter, adjust image sharpness.Shown in Figure 3, above-mentioned CCD photosensitive imagings are visited
Survey device plate 104, power board 112, liquid crystal display 116, power switch 111, aviation headstock 110, with coding-control plate
105 connections.
Between in the specific implementation, power switch 111 accessed between power board 112 and battery, by power switch 111
Control the cut-off/close of whole circuit.4 routes are exported on power board 112, realize that 3V control sources turn 5V voltage outputs, 1
Road access coding-control plate 105 is used to monitor battery electric quantity.The 5V voltages exported by power board 112 give coding-control plate
105th, LCDs 116 and aviation headstock 110 are powered.Coding-control plate 105 draws 2 routes and gives CCD photosensitive imaging detecting plates
104 power supplies.1 road video line accesses LCDs 116 and aviation headstock 110 two-by-two respectively.Objective lens 1 and main body cabin portion
2 front portion is divided to be connected by object lens adapter 102, sight takes aim at camera lens 3 and passes through the phase of eyepiece pedestal 120 with the rear portion of main body cabin part 2
Connection.CCD photosensitive imagings detecting plate 104 receives the light after objective lens 1 are adjusted and converts light into electronic image signal,
Final image is projected the liquid crystal display 116 by coding-control plate 105 to the further optimization processing of electronic image signal
On.Further refinement description, shown in Figure 4, objective lens 1 may include the first lens 1011, and the second lens the 1012, the 3rd are saturating
Mirror 1013, the 4th lens 1014, the 5th lens 1015, the 6th lens 1016, the 7th lens 1017.First lens 1011, second
Lens 1012, the 3rd lens 1013, the 4th lens 1014, the 5th lens 1015, the 6th lens 1016, the 7th lens 1017 are distinguished
It is connected with object lens assembly housing 121, image sharpness is adjusted by adjusting the adjustable focus ring of adjustable objective lens group.It is further thin
Change description, shown in Figure 5, camera lens 3 is taken aim in sight includes the first eyepiece 1181, the second eyepiece 1182, the 3rd eyepiece 1183, the 4th mesh
Mirror 1184.First eyepiece 1181, the second eyepiece 1182, the 3rd eyepiece 1183, the 4th eyepiece 1184 respectively with eyepiece assembly housing 122
It is connected.The image received is projected human eye, i.e., by adjusting eyepiece school by liquid crystal display 116 by adjustable eyepiece group 118
Positive regulator device 123 adjusts liquid crystal panel definition.Further refinement description, coding-control plate 105 include band simulation numeral and turned
Parallel operation A/D microcontrollers, power-switching circuit, serial communication circuit.Analog-digital converter A/D microcontrollers can be by battery electricity
Pressure signal is converted to the recognizable battery electric quantity of human eye and shows markings cast to liquid crystal display.The coding-control plate 105
Can also be to the further coded treatment of electronic image, the type for adding selective differentiation line shows/disappeared with it, and the time shows/disappeared,
The function such as time showing standard, regulation differentiation line position.Battery compartment 108 is located at the middle part of main body cabin 106, the outside of battery compartment 108
Battery cabin cap 109 is connected, battery cabin cap 109 is detachable, and battery compartment 108 can accommodate one piece of 25500 type chargeable lithium cell.Battery
Place power board 112 in the rear portion of storehouse 108.Cell voltage can be carried out voltage-regulation by power board 112, and it is photosensitive to reach CCD
The power reguirements of imaging detector plate 104, coding-control plate 105 and liquid crystal display 116.Its enclosure material is aluminium alloy, mirror
Piece material is K9 glass.Button rubber membrane 114 is surface exposed in main body cabin 2, is covered on key control panel 113, by keying
Making sheet 113 is connected with coding-control plate 105.Totally 4 pin of aviation headstock 110, wherein 1,2 be transmission of video stitch, 3,4 be outside 5V
Supply input.
In practical operation, enter starting-up interface when pressing power switch, after display image:Press lower key, display/cancellation
Show date the time and battery electric quantity is shown;Long-press lower key, display/cancellation show division line;Key is pressed, adjusts division line face
Color is shown;Left button downscaled images are pressed only after enlarged drawing to can be used;2 grades of amplifications can be carried out by pressing right button enlarged drawing,
4x and 8x times are amplified to respectively;Long-press M keys, picture is adjusted into division line, at this moment again by regulation graduation line position up and down.
Press M latched position long-press M and return picture center;Long-press is left with, entry time adjustment picture.At this moment left and right adjusting is adjusted more
Change cursor.Regulation adjusts digit position up and down;Long-press upper, middle and lower, equipment recover factory default.
To sum up, the utility model is after light is by adjustable objective lens group 101 when in use, in CCD photosensitive imaging detector panels
It is imaged on 104, optical signal is converted to electronic image signal, referred to as original video signal by CCD imaging detectors plate 104, coding
Control panel 105 does further optimization processing to original video signal, and final video signal is projected on liquid crystal display 116,
By the display image of liquid crystal display 116.Shown image is adjusted by adjustable eyepiece group 118 again, is formed moderate picture, is projected
Human eye forms complete see and takes aim at image.
Here description and application of the present utility model are all simply illustrative and exemplary, are not intended to this practicality is new
The scope limitation of type is in the above-described embodiments.The deformation and change of embodiments disclosed herein are entirely possible, for that
For a little one of ordinary skill in the art, the replacement of embodiment and equivalent various parts are known.Art technology
Personnel should also be clear that in the case where not departing from spirit or essential characteristics of the present utility model, and the utility model can be with
In other forms, structure, arrangement, ratio, and realized with other components, material and part, and do not departing from this practicality
In the case of new scope and spirit, other deformations and change can be carried out to embodiments disclosed herein.
Claims (9)
1. a kind of electronics low-light monotubular is seen and takes aim at telescope, including camera lens is taken aim in objective lens, main body cabin and sight, it is characterised in that
The objective lens contain object lens assembly housing and adjustable objective lens group;Contain coding-control plate, battery compartment, electricity in the main body module room
Bottom of pond plate, power board, Power conversion board and key control panel, it is equipped with the objective lens in the main body module room
CCD photosensitive imaging detecting plates, taken aim at close to the sight and liquid crystal display is equipped with camera lens;The main body cabin surface is equipped with aviation head
Seat;The sight takes aim at camera lens and contains eyepiece assembly housing, rubber eyeshade and adjustable eyepiece group;Above-mentioned CCD photosensitive imagings detector panel,
Power board, liquid crystal display and aviation headstock are connected with the coding-control plate respectively.
2. electronics low-light monotubular as claimed in claim 1 is seen and takes aim at telescope, it is characterised in that the main body cabin surface is also put
There are button rubber membrane, key cap, battery cabin cap and power switch.
3. electronics low-light monotubular as claimed in claim 2 is seen and takes aim at telescope, it is characterised in that the power switch accesses power supply
Between pinboard and battery bottom plate, by the power switch control electronics low-light monotubular see take aim at telescope circuit is disconnected, closure;
4 routes are exported on the Power conversion board, wherein 2 routes input the power board, supplies power for, realizes 3V voltages
Input turns 5V voltage outputs, and 2 routes access the coding-control plate in addition, for monitoring battery electric quantity;
Further, the 5V voltages exported by the power board are to the coding-control plate, LCDs and aviation headstock
Power supply;
The coding-control plate is drawn 2 routes and powered to CCD photosensitive imagings detecting plate, and the coding-control plate draws 1 road video
Line is divided into 2 groups, accesses LCDs and aviation headstock two-by-two respectively.
4. electronics low-light monotubular as claimed in claim 1 is seen and takes aim at telescope, it is characterised in that the objective lens and the master
Body cabin front portion is connected by object lens adapter, and the sight is taken aim at camera lens and is connected with main body cabin rear portion by eyepiece pedestal
Connect.
5. electronics low-light monotubular as claimed in claim 1 is seen and takes aim at telescope, it is characterised in that the objective lens include:The
One lens, the second lens, the 3rd lens, the 4th lens, the 5th lens, the 6th lens and the 7th lens;First lens,
Two lens, the 3rd lens, the 4th lens, the 5th lens, the 6th lens, the 7th lens are connected with object lens assembly housing respectively;Pass through
Adjust adjustable objective lens group and then adjust image sharpness.
6. electronics low-light monotubular as claimed in claim 1 is seen and takes aim at telescope, it is characterised in that camera lens is taken aim in the sight to be included:The
One eyepiece, the second eyepiece, the 3rd eyepiece and the 4th eyepiece;First eyepiece, the second eyepiece, the 3rd eyepiece, the 4th eyepiece point
It is not connected with eyepiece assembly housing, the image received is projected human eye by liquid crystal display by adjustable eyepiece group.
7. electronics low-light monotubular as claimed in claim 2 is seen and takes aim at telescope, it is characterised in that the battery compartment is located at the master
In the middle part of body cabin surface, connection battery cabin cap outside the battery compartment, battery cabin cap is detachable, and the battery compartment accommodates one piece of electricity
The power board is placed at pond, the battery compartment rear portion.
8. electronics low-light monotubular as claimed in claim 2 is seen and takes aim at telescope, it is characterised in that the button rubber membrane is described
Main body cabin surface is exposed, is covered on key control panel.
9. electronics low-light monotubular as claimed in claim 1 is seen and takes aim at telescope, it is characterised in that the aviation headstock totally 4 pin, its
Middle stitch 1 and stitch 2 are transmission of video stitch, and stitch 3 and stitch 4 are outside 5V supply inputs.
Priority Applications (1)
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CN201720321629.5U CN206627690U (en) | 2017-03-30 | 2017-03-30 | A kind of electronics low-light monotubular is seen and takes aim at telescope |
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CN201720321629.5U CN206627690U (en) | 2017-03-30 | 2017-03-30 | A kind of electronics low-light monotubular is seen and takes aim at telescope |
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Publication Number | Publication Date |
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CN206627690U true CN206627690U (en) | 2017-11-10 |
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CN201720321629.5U Active CN206627690U (en) | 2017-03-30 | 2017-03-30 | A kind of electronics low-light monotubular is seen and takes aim at telescope |
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2017
- 2017-03-30 CN CN201720321629.5U patent/CN206627690U/en active Active
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CB03 | Change of inventor or designer information | ||
CB03 | Change of inventor or designer information |
Inventor after: Guo Jin Inventor after: Zhao Guoshun Inventor after: Zhao Sujie Inventor before: Guo Jin Inventor before: Liang Xiao Inventor before: Cui Jinan Inventor before: Wang Nan |