CN204287599U - With the telescope of Presentation Function - Google Patents
With the telescope of Presentation Function Download PDFInfo
- Publication number
- CN204287599U CN204287599U CN201420839666.1U CN201420839666U CN204287599U CN 204287599 U CN204287599 U CN 204287599U CN 201420839666 U CN201420839666 U CN 201420839666U CN 204287599 U CN204287599 U CN 204287599U
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- telescope
- display screen
- lens
- lens barrel
- sensor
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Abstract
The utility model relates to a kind of telescope with Presentation Function, comprises lens barrel, and the front end of described lens barrel is provided with object lens, rear end is provided with eyepiece, and described telescope comprises battery, sensor and display screen further; Described battery is arranged at outside lens barrel, is connected to provide power supply to sensor and display screen with sensor with display screen; Described sensor setting is outside lens barrel, and telescopical front is to obtain metrical information; Described display screen is arranged in lens barrel, between object lens and eyepiece, is connected to show the metrical information that sensor exports with sensor.The utility model structure is simple, is easy to produce and manufacture, low price, can reach again or better display effect the same with the telescope of existing employing transparent display simultaneously.
Description
Technical field
The utility model relates to a kind of telescope, particularly relates to a kind of telescope with display screen.
Background technology
Most telescope all carrys out the image of direct object observing on object lens focal plane by its eyepiece in the market, telescope with specific functions such as range finding, target acquistions is then needed to superpose other display information at the viewing area of user, thus market has occurred some telescopes with display device.This telescope with display device is many is at present placed on the focal plane of eyepiece by transparent display, make user both by eyepiece observation picture, the additional informations such as the character that transparent display shows can be seen again simultaneously, what adopt due to this telescope is transparent display screen, cost is high, expensive.
Utility model content
For solving above-mentioned technical matters, the utility model provides a kind of telescope with Presentation Function, comprises lens barrel, and the front end of described lens barrel is provided with object lens, rear end is provided with eyepiece, and described telescope comprises battery, sensor and display screen further; Described battery is arranged at outside lens barrel, is connected to provide power supply to sensor and display screen with sensor with display screen; Described sensor setting is outer in lens barrel, telescopical forward position to be to obtain metrical information; Described display screen is arranged in lens barrel, is between object lens and eyepiece, and is connected to show the metrical information that sensor exports with sensor.
In technique scheme, object lens in described lens barrel and be provided with for adjusting the first double mirror and the second double mirror that enter described lens barrel radiation direction between eyepiece further, input light path part and the object lens of described first double mirror are just right, output light path part and the eyepiece of described second double mirror are just right, the output light path part of described first double mirror and the input light path part of described second double mirror just right, make from the image positional relationship of eyepiece outgoing with enter the identical of object lens.
In technique scheme, after described display screen is arranged at the front of eyepiece, described second double mirror.
In technique scheme, described display screen is placed in the groove in the lens barrel of object lens rear, and the peripheral circumferential around object lens is arranged.
In technique scheme, the size of described display screen is less than the internal diameter of lens barrel.
In technique scheme, described telescope is the binocular telescope comprising two lens barrels, display screen is arranged at any one in two lens barrels, all battery is set outward at two lens barrels, display screen uses the battery being positioned at same lens barrel side as power supply, and using the battery of another lens barrel side as standby power supply.
In technique scheme, described telescope is the binocular telescope comprising two lens barrels, and display screen is arranged in two lens barrels simultaneously, all arranges battery outward at two lens barrels, and display screen uses the battery being positioned at same lens barrel side as power supply.
In technique scheme, described telescope is the binocular telescope comprising two lens barrels, the front of the connecting portion of described sensor setting between two lens barrels of binocular telescope.
The utility model achieves following technique effect: the utility model structure is simple, is easy to produce and manufacture, low price, can reach again or better display effect the same with the telescope of existing employing transparent display simultaneously.
Accompanying drawing explanation
Fig. 1 is the telescopical structural representation of band Presentation Function;
Fig. 2 is the telescopical another structural representation of band Presentation Function.
Mark in figure: 10-lens barrel; 11-battery; 12-sensor; 13-display screen; 14-object lens; 15-eyepiece; 16-first double mirror; 17-second double mirror.
Embodiment
Understand for the ease of those of ordinary skill in the art and implement the utility model, below in conjunction with the drawings and the specific embodiments, the utility model being described in further detail.
The telescope of the band Presentation Function that the utility model provides as shown in Figure 1-2.
Fig. 1 shows telescopical a kind of structure of band Presentation Function of the present utility model, it comprises lens barrel 10, battery 11 and sensor 12, the lens barrel that what Fig. 1 schematically showed is in binocular telescope, battery 11 is arranged at that lens barrel is outer, in connecting portion between two lens barrels of binocular telescope, sensor 12 is arranged at outside lens barrel, the forward position of binocular telescope, for obtaining metrical information, include but not limited to the information such as distance, angle, temperature, wind speed, wind direction, video, infrared image, infrared video.In fact, sensor 12 can be arranged at telescopical optional position as required, but in order to avoid influencing each other with telescopical gripping generation, namely in order to make sensor 12 under the prerequisite not stopping telescope field of front vision, do not affect the comfort level impression that user grips telescope, simultaneously user is to the measurement of telescopical gripping also not block sensor 12, and therefore sensor 12 is preferably disposed on the front of the connecting portion between two lens barrels of binocular telescope.
The front end of lens barrel 10 is provided with object lens 14, rear end is provided with eyepiece 15, the first double mirror 16 and the second double mirror 17 is provided with for adjusting the radiation direction entering lens barrel 10 between object lens 14 and eyepiece 15, input light path part and the object lens 14 of the first double mirror 16 face, output light path part and the eyepiece 15 of the second double mirror 17 face, the output light path part of the first double mirror 16 and the input light path part of the second double mirror 17 face, make from the image positional relationship of eyepiece 15 outgoing with enter the identical of object lens 14.First double mirror 16 and the second double mirror 17 preferably adopt prism structures.
After display screen 13 is arranged at the front of eyepiece 15, the second double mirror 17, the image that display screen 13 is exported exports lens barrel 10 after the second double mirror 17 and eyepiece 15, be easily seen by the user, the image that now display screen 13 shows has carried out exporting lens barrel 10 by eyepiece 15 with the image entering lens barrel 10 from object lens 14 simultaneously, and now user is it is seen that the image of both superpositions.In the telescope configuration of the band Presentation Function shown in Fig. 1, display screen 13 is nontransparent miniature display screens, can adopt OLED, the technology manufactures such as TFT, its size is less than the internal diameter of lens barrel 10, can be the display of circle, rectangle, annular, arc, fan-shaped or other arbitrary shapes.
Sensor 12 and display screen 13 are powered by battery 11, and sensor 12 is by the signal transmission that detects to processor (not shown), and processor needs the information of display to be delivered to display screen 13 by generating after detection signal process.Display screen 13 is fixed on eyepiece 15 front, after second double mirror 17, as shown in Figure 1, display screen 13 is fixedly installed on the region of leaving a blank below the second double mirror 17, the outgoing imaging plane of the second double mirror 17 is arranged in outside 1 times of focal length (i.e. Fig. 1 F point) of eyepiece 15, within 2 times of focal lengths, the light that display screen 13 sends reaches eyepiece 15 by the refraction of the second double mirror 17, superpose with the reflected image of the second double mirror 17, thus the mirror image of the image that display screen 13 is shown and the reflection of the second double mirror 17 all at 1 times of focal length of eyepiece 15 between 2 times of focal lengths.When user is observed by eyepiece 15, the information such as the character of display can be seen on display screen 13, again can the extraneous picture in viewing lens 14 front.In order to suitable with second double mirror 17 in eyepiece 15 front, the image that display screen 13 shows is the image stood upside down, and when telescopical enlargement factor changes, on display screen 13, the image of display can according to enlargement factor adjusting size.In order to eliminate the refractive deflection of the second double mirror 17 pairs of display screen 13 displaying contents, display screen 13 can adjust according to the plane of incidence of the second double mirror 17 and arrange angle (as shown in Figure 1) or arrange photocon between the second double mirror 17 and display screen 13, when being observed by eyepiece 15 to make user, display frame imaging in the plane vertical with eyepiece 15 optical axis of display screen 13.
Fig. 2 shows another preferred structure telescopical of band Presentation Function of the present utility model, in figure, dashed region A is semi-section view, display screen 13 is arranged at the peripheral circumferential place of object lens 14 in structure shown in Fig. 2, the black region utilizing object lens to make a circle for 14 weeks not utilize is to show the information such as character.Sensor 12 and display screen 13 are still powered by battery 11, the signal transmission processor (not shown) that sensor 12 will detect, processor needs the information of display to be delivered to display screen 13 by generating after detection signal process, display screen 13 is placed in the groove in object lens 14 rear lens barrel 10, and the information superposition such as the scenery that user is observed by eyepiece 15 and the character that display screen 13 shows appears at same picture.In this structure, display screen 13 preferably adopts flexible annular abnormity display screen.
For binocular telescope, display screen 13 can be arranged at any one in two lens barrels 10, but all arrange battery 11 outside two lens barrels 10, now display screen 13 preferably uses the battery being positioned at same lens barrel 10 side, and using the battery of another lens barrel 10 side as reserve battery.
Also display screen 13 can be arranged at outside two lens barrels, 10, two lens barrels 10 simultaneously and all arrange battery 11, now display screen 13 uses the battery being positioned at same lens barrel 10 side.
Above embodiment is only a kind of embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.Its concrete structure and size can adjust according to actual needs accordingly.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.
Claims (8)
1. the telescope with Presentation Function, comprises lens barrel, and the front end of described lens barrel is provided with object lens, rear end is provided with eyepiece, it is characterized in that:
Described telescope comprises battery, sensor and display screen further;
Described battery is arranged at outside lens barrel, is connected to provide power supply to sensor and display screen with sensor with display screen;
Described sensor setting is outer in lens barrel, telescopical forward position to be to obtain metrical information;
Described display screen is arranged in lens barrel, between object lens and eyepiece, and is connected to show the metrical information that sensor exports with sensor.
2. the telescope of band Presentation Function according to claim 1, it is characterized in that: object lens in described lens barrel and be provided with for adjusting the first double mirror and the second double mirror that enter described lens barrel radiation direction between eyepiece further, input light path part and the object lens of described first double mirror are just right, output light path part and the eyepiece of described second double mirror are just right, the output light path part of described first double mirror and the input light path part of described second double mirror just right, make from the image positional relationship of eyepiece outgoing with enter the identical of object lens.
3. the telescope of band Presentation Function according to claim 2, is characterized in that: after described display screen is arranged at the front of eyepiece, described second double mirror.
4. the telescope of band Presentation Function according to claim 2, is characterized in that: described display screen is placed in the groove in the lens barrel of object lens rear, and the peripheral circumferential around object lens is arranged.
5. the telescope of band Presentation Function according to claim 3, is characterized in that, the size of described display screen is less than the internal diameter of lens barrel.
6. the telescope of the band Presentation Function according to claim 3 or 4, it is characterized in that: described telescope is the binocular telescope comprising two lens barrels, display screen is arranged at any one in two lens barrels, all battery is set outward at two lens barrels, display screen uses the battery being positioned at same lens barrel side as power supply, and using the battery of another lens barrel side as standby power supply.
7. the telescope of the band Presentation Function according to claim 3 or 4, it is characterized in that: described telescope is the binocular telescope comprising two lens barrels, display screen is arranged in two lens barrels simultaneously, all arrange battery outward at two lens barrels, display screen uses the battery being positioned at same lens barrel side as power supply.
8. the telescope of the band Presentation Function according to claim 3 or 4, is characterized in that: described telescope is the binocular telescope comprising two lens barrels, the front of the connecting portion of described sensor setting between two lens barrels of binocular telescope.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420839666.1U CN204287599U (en) | 2014-12-26 | 2014-12-26 | With the telescope of Presentation Function |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420839666.1U CN204287599U (en) | 2014-12-26 | 2014-12-26 | With the telescope of Presentation Function |
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| Publication Number | Publication Date |
|---|---|
| CN204287599U true CN204287599U (en) | 2015-04-22 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420839666.1U Active CN204287599U (en) | 2014-12-26 | 2014-12-26 | With the telescope of Presentation Function |
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| CN (1) | CN204287599U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107621702A (en) * | 2017-09-30 | 2018-01-23 | 河南中光学集团有限公司 | A kind of binary channels, Multi-spectral image fusion optical system |
| WO2019162926A1 (en) | 2018-02-26 | 2019-08-29 | Jsc Yukon Advanced Optics Worldwide | Digitally-based, thermal imaging device configured in a conventional, optically-based imaging device form factor |
-
2014
- 2014-12-26 CN CN201420839666.1U patent/CN204287599U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107621702A (en) * | 2017-09-30 | 2018-01-23 | 河南中光学集团有限公司 | A kind of binary channels, Multi-spectral image fusion optical system |
| WO2019162926A1 (en) | 2018-02-26 | 2019-08-29 | Jsc Yukon Advanced Optics Worldwide | Digitally-based, thermal imaging device configured in a conventional, optically-based imaging device form factor |
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