CN100373206C - Digital image acquiring telescope - Google Patents
Digital image acquiring telescope Download PDFInfo
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- CN100373206C CN100373206C CNB2005100643914A CN200510064391A CN100373206C CN 100373206 C CN100373206 C CN 100373206C CN B2005100643914 A CNB2005100643914 A CN B2005100643914A CN 200510064391 A CN200510064391 A CN 200510064391A CN 100373206 C CN100373206 C CN 100373206C
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- digital image
- telescope
- lens barrel
- image acquiring
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Abstract
The present invention relates to a digital image pick-up telescope which comprises a lens mount provided with two lens barrels and a body with two eye lens barrels. Two object lens units and two eye lens units are respectively arranged in the body, and a focus adjustment unit is arranged between the body and two eye lens units. A digital image pick-up unit is arranged between the body and the two lens barrel mounts, and the interval of the two eye lens unit is larger than that of two object lens units. The focus adjustment unit comprises a drive base which is arranged on the body and drives two object lens units to move for adjusting the focal length. The present invention can be used as a telescope and have good use function of shooting and recording an image.
Description
Technical field
The present invention relates to a kind of telescope, particularly relate to a kind of with taking the also digital image acquiring telescope of recording image function.
Background technology
General binoculars are different with the path of emergent light according to incident light, can be distinguished into H type telescope (Roof type) and M type telescope (Porro type) again, briefly, H type telescope is meant incident light and the emergent light telescope at same axis, M type telescope then is meant incident light and the telescope of emergent light at different axis, and the distance between two eyepieces is greater than the distance between two object lens, because above-mentioned difference, thus H type telescope, M type telescope in whole configuration design, assembly arrange put and the overall space kenel also different.
H type telescope with digital image acquisition function has been arranged at present on the market, because the space between telescopical two object lens of this H type is enough, so be easy to dispose members such as lens barrel for digital image acquisition usefulness, image sensor, circuit board, LCD screen.And for M type telescope, because the space between two object lens is narrow, so the degree of difficulty of spatial configuration is very high.
Summary of the invention
First purpose of the present invention provides a kind of digital image acquiring telescope that has telescope and shooting recording image functions of use concurrently.
Second purpose of the present invention provides a kind of digital image acquiring telescope that can stablize the adjustment focal length.
Digital image acquiring telescope of the present invention is characterized in that:
The digital image acquiring telescope comprises
One body, comprise the two lens barrel bearings and the two eyepiece lens barrels that extend along a first direction, one is molded over the connecting block that also cooperates formation one accommodation space between the two lens barrel bearings, and one is molded over the holder between the two eyepiece lens barrels, and is arranged at two flutings of two lens barrel bearings respectively.
Two object lens are installed in the two lens barrel bearings.
Two ocular unit be installed in the two eyepiece lens barrels, and the spacing between two ocular unit are greater than the spacing between two object lens.
One focal length adjustment unit, be installed between body and two object lens, comprise that one is installed in driving seat in the accommodation space along first direction, one is arranged on leading between driving seat and the connecting block moves assembly, one is the adjustment button that is rotatably installed on holder, and one be located to adjust button and can drive along the first direction spiral shell and drive the operating bar that seat moves along first direction, drive seat and have a slide block that is provided with along first direction, and be convexly equipped with and stretch into respectively two from slide block along a third direction vertical and slot and can drive two object lens and two make motion block along what first direction moved with first direction.
One digital image acquisition unit, be installed between the two lens barrel bearings of body, comprise that one is installed with the outer lens barrel in connecting block, be installed at least one eyeglass in the outer lens barrel, be installed with the image sensor in the lens barrel outside, and one is the first circuit board that is electrically connected with image sensor.
By above-mentioned composition, make the present invention with can and taking the also dual functions of use of recording image as telescope, have in addition and can stably adjust the operating characteristic that focal length can improve focal length adjustment quality relatively.
Description of drawings
Fig. 1 is a stereoscopic figure, and a preferred embodiment of digital image acquiring telescope of the present invention is described:
Fig. 2 is a local assembled sectional view of preferred embodiment, and a digital image acquisition unit is described;
Fig. 3 is a local assembled sectional view of preferred embodiment, and a digital image processing unit is described;
Fig. 4 is an exploded stereographic map of preferred embodiment, and the state that a loam cake decomposes from a body is described;
Fig. 5 is a local combination stereogram of preferred embodiment, and a focal length adjustment unit is described;
Fig. 6 is an exploded stereographic map of preferred embodiment, and focal length adjustment unit and body are described;
Fig. 7 is that one of preferred embodiment is overlooked and partial sectional view, and the focal length adjustment unit is described.
Embodiment
Below in conjunction with accompanying drawing and preferred embodiment the digital image acquiring telescope that foundation the present invention proposes is elaborated.
Be noted that, employed relative position term in entire description, for example " top ", " end " are to use with user's use orientation, as for " first direction X ", " second direction Y ", " third direction Z " is to be benchmark with the coordinate direction shown in each figure, and first direction X is perpendicular to one another with second direction Y and third direction Z.
As Fig. 1,2, shown in 3, be respectively the outside drawing and the local assembled sectional view of preferred embodiment, preferred embodiment comprises a body 10 that is provided with two lens barrel bearings 11 and two eyepiece lens barrels 12, be installed in two object lens 20 in the two interval lens barrel bearings 11, be installed in two ocular unit 30 in the two interval eyepiece lens barrels 12, one is installed in the focal length adjustment unit 40 between body 10 and two object lens 20, be installed in a digital image acquisition unit 50 and a digital image processing unit 60 between the two lens barrel bearings 11 of body 10 respectively, one lid is put the enclosing cover 70 of body 10, and an image display cell 80 that is mounted on enclosing cover 70.
Digital image acquiring telescope of the present invention is meant M type telescope, and the spacing between two ocular unit 30 is greater than the spacing between two object lens 20.
Cooperate Fig. 5, part combination and the exploded perspective view of Fig. 6, body 10 comprises two lens barrel bearings 11 along first direction X moulding and space, extend also two eyepiece lens barrels 12 of space from two lens barrel bearings 11 along different axis along first direction x, one is molded over the connecting block 13 between the two lens barrel bearings 11, one is molded over the holder 14 between the two eyepiece lens barrels 12, one is arranged at the containing hole 15 of connecting block 13 along first direction X, run through respectively and be arranged at two lens barrel bearings 11 and opposed facing two flutings 16, one cooperates the ccontaining sky that forms to ask 17 by two lens barrel bearings 11 with connecting block 13, and battery case 18 (see figure 3)s that are arranged at holder 14 bottom sides.
Each fluting 16 respectively has an orthogonal mounting groove 161, and a guide groove 162 that extends along first direction X from mounting groove 161.
As shown in Figure 7, each object lens 20 respectively has a lens barrel 21 that is installed in the lens barrel bearing 11, is installed with at least one object lens 22 lens barrel 21 in, reaches one and is arranged at lens barrel 21 and aims at the groove 23 of guide groove 162.
Each ocular unit 30 respectively has at least one eyepiece 32 and at least one prism 33 that is installed in the eyepiece lens barrel 12.
Shown in Fig. 5,6,7, focal length adjustment unit 40 comprises that one is installed in driving seat 41 on the connecting block 13 along first direction X, one is arranged on leading between driving seat 41 and the connecting block 13 moves assembly 42, one is installed in the adjustment button 43 in the storage tank 141, and a spiral shell is tied in adjusting the operating bar 44 that button 43 also can drive seat 41.
Preferably, drive seat 41 and have more a hollow-out parts 415 that is arranged between slide block 411 and the group caking 413.
Lead and move assembly 42 and have one and take shape in the guide rail 421 of 13 faces of connecting block, and one is arranged at slide block 411 bottom surfaces and can be slidedly arranged on the guide groove 422 of guide rail 421 along first direction X.
Certainly, guide rail 421 and guide groove 422 is provided with the position and can exchanges.
What deserves to be explained is, borrow guide groove 422 to be slidedly arranged on guide rail 421 when driving seat 41, then two make motion block 412 and just can stretch in two guide grooves 162, the groove 23 respectively, so, move along first direction X when driving seat 41, just can drive two lens barrels 21 along with moving, so object lens 20 is closely connect or away from ocular unit 30 to produce the effect of adjusting focal length.
Adjust button 43 and have an inner bolt hole 431 that is provided with along first direction X.
During assembling, to drive seat 41 earlier inserts in the accommodation space 17, and make two to make motion block 412 and stretch into respectively in two guide grooves 162, the groove 23, to adjust button 43 then inserts in the storage tank 141, continue operating bar 44 is passed spacing perforation 143 earlier along first direction X, rotate then to make threaded portion 441 be screwed into inner bolt hole 431 and lock-combining part 442 is inserted and bore a hole 414, again a latch fitting 45 is locked group caking 413 and screw 443 along second direction Y, just can make 41 groups of knots of operating bar 44 and driving seat.
So, when rotating adjustment button 43, can drive operating bar 44 and drive driving seat 41 and two object lens 20 along first direction X linear displacement, and making motion block 412 by two is limited in two guide grooves 162, and guide groove 422 is slidedly arranged on guide rail 421, can make drive seat 41 on the throne move past can not produce in the journey rock, and then have and can stablize the effect of adjusting focal length.
As shown in Figure 1, 2, digital image acquisition unit 50 comprises that one is installed in the containing hole 15 and is locked in the outer lens barrel 51 of body 10, one is arranged in the inner lens cone 52 in the outer lens barrel 51, be installed with the several eyeglasses 53 in inner lens cone 52, one is installed with the image sensor 54 in the lens barrel outside 51, and a first circuit board 55 that is electrically connected with image sensor 54.
As Fig. 3, shown in 4, digital image processing unit 60 comprises that one is packed in the second circuit board 61 between the two lens barrel bearings 11, be installed with two operating knobs 62 in second circuit board 61 top sides, one is installed with in second circuit board 61 bottom sides and is positioned at accommodation space 17 and can inserts the memory card slots 64 of knot for a memory card 63, be communicated with respectively and be installed with a Transmission Part 65 and a tertiary circuit plate 66 in second circuit board 61 bottom sides, one is communicated with and is fixedly arranged in the USB slot 67 of tertiary circuit plate 66, one is communicated with the soft row 68 of electronics (FPC) of second circuit board 61 and first circuit board 55, and one is installed in the battery case 18 and the battery 69 of electric power to said modules can be provided.
What deserves to be explained is, in fact can omit Transmission Part 65 and tertiary circuit plate 66, and USB slot 67 directly is installed with and is communicated in second circuit board 61.
Two operating knobs 62 are that act one power button and a photography activation button are that example describes in preferred embodiment.
The soft row 68 of electronics has first end 681 that is consolidated in first circuit board 55, reach one and pass hollow-out parts 415 that drives seat 41 and second end 682 that is consolidated in second circuit board 61, be can be, the soft row 68 of electronics can not disturbed drive seat 41 to move along first direction X by the design of hollow-out parts 415.
Shown in Fig. 1,4, enclosing cover 70 comprises that one covers the loam cake of putting in two lens barrel bearings 11 and 12 sides of two eyepiece lens barrels 71, but and the soft lid 72 of a capping memory card 63, memory card slot 64 and USB slot 67.Loam cake 71 has one first perforation, 711,2 second perforation 712 and can expose for adjustment button 43, operating knob 62 respectively, and a groove 713.
Shown in Fig. 1,3, image display cell 80 has one and is fixedly arranged on loam cake 71 and is positioned at a hinged arm 81 of groove 713 along third direction Z, and one is and is hubbed at hinged arm 81 rotationally to lift the LCD screen 82 that opens or close and be communicated with second circuit board 61.
The present invention can be used as general telescope during normality, and need only rotate and adjust button 43, just can adjust and watch focal length.
When photographing, earlier by next operating knob 62 power-on, then can and transfer to first circuit board 55, by the soft row 68 of electronics signal be transferred to second circuit board 61 then, and then filmed image can be presented in LCD screen 82 and watch for users by digital image acquisition unit 50 pick-up images; When wanting the records photographing image, need only press another operating knob 62, then can be with captured photologging in memory card 63; To watch captured image at other display (for example computing machine, TV), one USB patchcord need only be inserted USB slot 67 and be connected in display, then captured image can transfer to tertiary circuit plate 66 by Transmission Part 65, can present captured image at display eventually.
Conclude above-mentionedly, digital image acquiring telescope of the present invention has effect as described below and advantage, so can reach the object of the invention really:
One, the present invention uses with treating as telescope, and can take the also effect and the advantage of the dual functions of use of recording image.
Two, because the present invention drives seat 41 along in the first direction X moving process, can make motion block 412 by two is limited in two guide grooves 162 mobile, and the cooperating of guide rail 421 and guide groove 422, driving seat 41 is not rocked in moving process, and then have effect and the advantage that to guarantee to adjust focal length stability and raised path between farm fields raising adjustment focal length quality.
Three,,, have relatively and can carry out effect and the advantage that focal length is adjusted operation smoothly so the soft row 68 of electronics can't disturb and drive seat 41 and move because the present invention drives seat 41 to be provided with the hollow-out parts 415 sub soft row 68 that can power and to pass through.
Claims (14)
1. digital image acquiring telescope is characterized in that:
The digital image acquiring telescope comprises
One body, comprise the two lens barrel bearings and the two eyepiece lens barrels that extend along a first direction, one is molded over the connecting block that also cooperates formation one accommodation space between the two lens barrel bearings, and one is molded over the holder between the two eyepiece lens barrels, and is arranged at two flutings of two lens barrel bearings respectively;
Two object lens are installed in respectively in the two lens barrel bearings;
Two ocular unit be installed in respectively in the two eyepiece lens barrels, and the spacing between two ocular unit are greater than the spacing between two object lens;
One focal length adjustment unit, comprise that one is installed in driving seat in the accommodation space along first direction, one is arranged on leading between driving seat and the connecting block moves assembly, one is installed on the adjustment button of holder, and one be located to adjust button and drive along the first direction spiral shell and drive the operating bar that seat moves along first direction, drive seat and have a slide block that is provided with along first direction, and be convexly equipped with and stretch into respectively two from slide block along a third direction vertical and slot and can drive two object lens and two make motion block along what first direction moved with first direction; And
One digital image acquisition unit comprises that one is installed with the outer lens barrel in connecting block, is installed at least one eyeglass in the outer lens barrel, and one is installed with the interior image sensor of lens barrel outside, and a first circuit board that is electrically connected with image sensor.
2. digital image acquiring telescope as claimed in claim 1 is characterized in that:
Fluting has a guide groove along the first direction setting, two object lens comprise that respectively one is installed in the lens barrel in the lens barrel bearing, be installed with at least one object lens in lens barrel, reach one and be arranged at lens barrel and the groove of the guide groove that aligns, two make motion block stretches into respectively in two guide grooves and two grooves.
3. digital image acquiring telescope as claimed in claim 1 is characterized in that:
The digital image acquiring telescope also comprises a digital image processing unit, and the digital image processing unit comprises that one is packed in the second circuit board between the two lens barrel bearings, and the soft row of electronics of a connection second circuit board and first circuit board.
4. digital image acquiring telescope as claimed in claim 3 is characterized in that:
Lead and move assembly and have one and take shape in the guide rail of connecting block, and one is arranged at slide block and is slidedly arranged on the guide groove of guide rail along first direction.
5. digital image acquiring telescope as claimed in claim 4 is characterized in that:
Driving seat also has one and extends and lump with the group of operating bar group knot along a second direction vertical with first direction from slide block.
6. digital image acquiring telescope as claimed in claim 5 is characterized in that:
The driving seat also has one and is arranged on the hollow-out parts that the sub soft row of power supply passes through between slide block and the group caking.
7. digital image acquiring telescope as claimed in claim 3 is characterized in that:
The digital image acquiring telescope also comprises an enclosing cover, and enclosing cover comprises that one covers the loam cake of putting in two lens barrel bearings and two eyepiece lens barrel top sides, and loam cake has a perforation and exposes for adjusting button.
8. digital image acquiring telescope as claimed in claim 7 is characterized in that:
The digital image acquiring telescope also comprises an image display cell, has one and is mounted on the hinged arm of loam cake and a LCD screen that is hubbed at hinged arm and is communicated with second circuit board along third direction.
9. digital image acquiring telescope as claimed in claim 7 is characterized in that:
The digital image processing unit also comprises at least two operating knobs that are fixedly arranged in second circuit board, and loam cake also has the number perforation of exposing for above-mentioned operating knob.
10. digital image acquiring telescope as claimed in claim 9 is characterized in that:
The digital image processing unit also comprises a memory card slot that is fixedly arranged in second circuit board and is positioned at accommodation space.
11. digital image acquiring telescope as claimed in claim 10 is characterized in that:
The digital image processing unit also comprises and is installed with in the second circuit board bottom side and a Transmission Part that is interconnected, a tertiary circuit plate, and a USB slot that is fixedly arranged in the tertiary circuit plate.
12. digital image acquiring telescope as claimed in claim 11 is characterized in that:
Enclosing cover also comprises the soft lid of a capping memory card slot and USB slot.
13. digital image acquiring telescope as claimed in claim 1 is characterized in that:
Body comprises that also one is arranged at the containing hole that connecting block is installed with for the outer lens barrel of digital image acquisition unit along first direction, and the digital image acquisition unit comprises that also one is arranged in the interior inner lens cone of outer lens barrel, and above-mentioned eyeglass is installed with in inner lens cone.
14. digital image acquiring telescope as claimed in claim 1 is characterized in that:
Two ocular unit also comprise at least one eyepiece and at least one prism that is installed in the eyepiece lens barrel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNB2005100643914A CN100373206C (en) | 2005-04-15 | 2005-04-15 | Digital image acquiring telescope |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNB2005100643914A CN100373206C (en) | 2005-04-15 | 2005-04-15 | Digital image acquiring telescope |
Publications (2)
Publication Number | Publication Date |
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CN1847914A CN1847914A (en) | 2006-10-18 |
CN100373206C true CN100373206C (en) | 2008-03-05 |
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CNB2005100643914A Expired - Fee Related CN100373206C (en) | 2005-04-15 | 2005-04-15 | Digital image acquiring telescope |
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Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2012220742A (en) * | 2011-04-08 | 2012-11-12 | Sony Corp | Imaging device and display device |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2502286Y (en) * | 2001-10-23 | 2002-07-24 | 航硕科技股份有限公司 | Telescopes with synchronous image picking device |
CN1409152A (en) * | 2001-09-28 | 2003-04-09 | 宾得株式会社 | Optical viewer device with camera function |
-
2005
- 2005-04-15 CN CNB2005100643914A patent/CN100373206C/en not_active Expired - Fee Related
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1409152A (en) * | 2001-09-28 | 2003-04-09 | 宾得株式会社 | Optical viewer device with camera function |
CN2502286Y (en) * | 2001-10-23 | 2002-07-24 | 航硕科技股份有限公司 | Telescopes with synchronous image picking device |
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CN1847914A (en) | 2006-10-18 |
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Granted publication date: 20080305 Termination date: 20120415 |