CN1610382A - Digital image camera capable of shooting different angle of images - Google Patents

Abstract

The digital image taking device includes one casing, one first light incoming hole, one second light incoming hole, one reflector module, one light sensor and one image generating module. The first light incoming hole is set in front of the casing for light from the front of the casing to be input, and the second light incoming hole is set in back of the casing for light from the back of the casing to be input. The reflector module is installed inside the casing to reflect light input via the first light incoming hole or the second light incoming hole. The light sensor is set inside the casing to sense and measure the light from the reflector module. The image generating module is set inside the casing to generate a picture with the sensor signal.

Description

Can take the digital image acquisition device of the image of different angles

Technical field

The invention provides a kind of digital image acquisition device, the particularly a kind of digital image acquisition device that can take the different directions image.

Background technology

Information industry is flourish, also the information Related product is applied to simultaneously replace traditional analog formula instrument in daily life or the work, leads the user to enter in the digitized world.For example digital camera is exactly good example, and the traditional optical camera utilizes on the egative film chemical substance photobehavior to note down image, through cumbersome procedure such as developments image is presented in face of the user again.Moreover, if the user wants to take the photo that has special-effect, also must carefully control modes such as aperture, shutter, the special filter of use or flushing imaging technique, for quite inconvenience of the user who is bad at camera operation.Be different from the traditional optical camera, digital camera is noted down image information in digitized mode, and digital camera uses optical sensor that video conversion is digital signal, is stored in the memory storage with the computer picture file format.Digital camera can be connected with computer system and image is stored in the hard disk, simultaneously can be on display show image or by the printer output presentation content, therefore can watch the achievement of shooting immediately.In addition, the image file that the user can utilize the image processing instrument that digital camera is noted down is implemented further to handle, and can make the special-effect that the traditional optical camera can be shot equally, in addition make traditional camera the effect that can't handle.

See also Fig. 1 and Fig. 2, Fig. 1 and Fig. 2 are the schematic diagram of conventional digital camera 10.Digital camera 10 comprises a camera lens 12, be used for absorbing the scenery that desire is taken, one shutter key 16, the user can shutter key 16 be focused and the function of filmed image by pressing, one viewfinder (viewfinder) 18, the scenery that it can provide the user to watch desire to take, and viewfinder 18 can be a LCD (liquidcrystal display, LCD) or a low temperature polycrystalline silicon display (low temperature poly silicon, display unit such as LTPS), and a control button group 20, the user can carry out image editing by controlling control button group 20, browse or work such as photographic parameter setting.

See also Fig. 3, Fig. 3 is the functional block diagram of digital camera 10.Digital camera 10 also comprises an optical sensor 24 and an image generation module 26.Optical sensor 24 can be a Charged Coupled Device, and (Charge Coupled Device, CCD), it is to be used for the light that sensing camera lens 12 transmits.Image generation module 26 then is used for producing an image frame according to the light of 24 sensings of optical sensor, makes this image be able to be shown by viewfinder 18.

When if the user wants shot object, need the position of camera lens 12, and the user can only see through the viewfinder 18 observation desire images that shot object presented towards the object place.If will also be filmed together together with object with own, may will carry heavy foot rest so, and the collocation delay camera function that camera provided, and in such event, the user still can't see the effect of shooting in real time, may also can get once more because covering object in addition and take again.Certainly the user can require other people's shooting that helps, but other people's shooting skill may be not satisfactory, and cause the image quality taking out not good, perhaps the user is alone being in language obstacle abroad, or under the bleak and desolate and untrodden environment, just can't be for the souvenir of oneself taking pictures.

See also Figure 22, Figure 22 is the schematic appearance of another digital camera 150 of tradition.Be simplified illustration, all have identical title and function with assembly that Fig. 1 has a same numeral among Figure 22, do not repeat them here.Be with digital camera 10 differences of Fig. 1, the viewfinder of digital camera 150 (viewfinder) the 158th can be driven and be moved by a pivot (hinge) 152, so the user of digital camera 150 can turn to oneself with the camera lens 12 of digital camera 150, and from viewfinder 158 see user oneself image and taken.But the design of pivot 152 and manufacturing cost are very high, and easily because of improper external force causes pivot 152 fractures, so this design still remains to be improved.

Summary of the invention

Therefore, the purpose of this invention is to provide a kind of digital image acquisition device that can take the different directions image, particularly can take user's digital image acquisition device itself.

The invention provides a kind of digital image acquisition device, it comprises a housing, one first incidence hole, one second incidence hole, a magnifier module, an optical sensor and an image generation module.This first incidence hole is located at the front side of this housing, is used for importing the light that the front side of this housing is transmitted; This second incidence hole is formed at the rear side of this housing, is used for importing the light that the rear side of this housing transmits; This magnifier module is installed in this housing, is used for reflecting the light of being imported by this second incidence hole by the light or the reflection of this first incidence hole input; This optical sensor is located in this housing, is used for the light that this magnifier module of sensing transmits; And this image generation module is located in this housing, is used for producing an image frame according to the light of this optical sensor institute sensing.

The present invention also provides a kind of digital image acquisition device, and it comprises a housing; One goes into light microscopic, is installed on this housing in the mode that can be moved to the rear side of this housing by the front side of this housing, is used for importing the front side of this housing or the light that rear side transmits; One magnifier module is installed in this housing, is used for reflecting the light by this incidence hole input; One lens set is installed on a side of this magnifier module, is used for focusing on the light that this magnifier module transmits; One optical sensor is located in this housing, is used for the light that this lens set of sensing focused on; And an image generation module, be located in this housing, be used for producing an image frame according to the light of this optical sensor institute sensing.

The invention has the advantages that this digital image acquisition device can take the place ahead or the scenery at rear alone, and do not need to finish by other people's assistance.

Another advantage of the present invention is that lens set is to adjust magnifier module by this first incidence hole or by the focal length of the light of this second incidence hole input, so the lens set that is used for focusing on can be placed between the left and right sides of digital image acquisition device, and be not subject to the restriction of the front and back side length of this digital image acquisition device.

Another advantage of the present invention is to adjust the magnifier module that is positioned at this digital image acquisition device just can allow the user take the image of different directions, and need not look like to utilize traditionally pivot to drive the design of viewfinder, to avoid the shortcoming of pivot cost height and easy fracture.

Description of drawings

Fig. 1 and Fig. 2 are the schematic diagram of conventional digital camera.

Fig. 3 is the functional block diagram of the digital camera of Fig. 1.

Fig. 4 and Fig. 5 are the schematic diagram of first embodiment of the present invention digital camera.

Fig. 6 is the functional block diagram of digital camera of the present invention.

Fig. 7 comes from the schematic diagram of the light of first incidence hole for first embodiment reflection of the magnifier module of Fig. 6.

Fig. 8 comes from the schematic diagram of the light of second incidence hole for the magnifier module reflection of Fig. 7.

Fig. 9 comes from the schematic diagram of the light of first incidence hole for second embodiment reflection of the magnifier module of Fig. 6.

Figure 10 comes from the schematic diagram of the light of second incidence hole for the magnifier module reflection of Fig. 9.

Figure 11 comes from the schematic diagram of the light of first incidence hole for the 3rd embodiment reflection of the magnifier module of Fig. 6.

Figure 12 comes from the schematic diagram of the light of second incidence hole for the magnifier module reflection of Figure 11.

Figure 13 is that the 4th embodiment of magnifier module of Fig. 6 is in the schematic diagram of reflection from the light of first incidence hole.

Figure 14 comes from the schematic diagram of the light of second incidence hole for the magnifier module reflection of Figure 13.

Figure 15 is the functional block diagram of second embodiment of the present invention digital camera.

Figure 16 is the schematic appearance of third embodiment of the present invention digital camera.

Figure 17 is the functional block diagram of the digital camera of Figure 16.

Figure 18 is the perspective view of going into light microscopic and magnifier module of Figure 16.

Figure 19 be Figure 18 around second rotation after, go into the perspective view of light microscopic and magnifier module.

Figure 20 is the perspective view of another embodiment that goes into light microscopic and magnifier module of Figure 16.

Figure 21 goes into the perspective view of light microscopic and magnifier module for the magnifier module of Figure 20 moves up and goes into after light microscopic rotates around arrow B along arrow A.

Figure 22 is the schematic appearance of another digital camera of tradition.

Symbol description

10,30 digital cameras, 12 camera lenses

16 shutter key, 18,38 viewfinders

20,40 control button groups, 24,44 optical sensors

26,46 image generation modules, 42 lens set

31 housings, 32,34 incidence holes

48,48a- d magnifier module 50,60 pedestals

52,54 speculums, 56,66 photoflash lamps

58 first 62,72 speculums

68 second 74,76 photoflash lamps

78 the 3rd 82,84 speculums

86,88 photoflash lamps, 90,100 digital cameras

92,94 lens set, 101 housings

102,102a goes into light microscopic 104 optical sensors

105 lens set, 106 image generation modules

108,108a magnifier module 110 viewfinders

112 the 4th 114 pedestals

116 speculums, 118 photoflash lamps

122,124 speculums, 126,128 photoflash lamps

150 digital cameras, 152 pivots

158 viewfinders

Embodiment

Please consult Fig. 4 and Fig. 5 together.Fig. 4 and Fig. 5 are the schematic diagram of digital camera 30 of the present invention.Digital camera 30 comprises a housing 31, one first incidence hole 32 and a shutter key 36.First incidence hole 32 is front sides of being located at housing 31, is used for importing the light that the front side of housing 31 is transmitted.The user can shutter key 36 be focused and the function of filmed image by pressing.Digital camera 30 also comprises a viewfinder (viewfinder) 38, one second incidence hole 34 and a control button group 40, is used for making the user to carry out image editing, browse or work such as photographic parameter setting.Viewfinder 38 can be a LCD (liquid crystal display, LCD) or a low temperature polycrystalline silicon display (low temperaturepoly silicon, LTPS) etc. display unit is used to provide the scenery that the user watches desire to take.Second incidence hole 34 is located at the rear side of housing 31, is used for importing the light that the rear side of housing 31 transmits, and is equipped with a minute surface on first incidence hole 32 and second incidence hole 34, is used for preventing that dust from infiltrating in the housing 31.

See also Fig. 6, Fig. 6 is the functional block diagram of digital camera 30 of the present invention.Digital camera 30 comprises a magnifier module 48, a lens set 42, an optical sensor 44 and an image generation module 46, all is to be located in the housing 31.Magnifier module 48 is to be used for reflecting the light of being imported by second incidence hole 34 by the light or the reflection of 32 inputs of first incidence hole.Lens set 42 can by adjust the position with light focusing that magnifier module 48 is transmitted on optical sensor 44.Optical sensor 44 is to be used for the light that sensing magnifier module 48 transmits via lens set 42.Image generation module 46 then is used for producing an image frame and this image frame being shown in viewfinder 38 according to the light of 44 sensings of optical sensor.

In order to realize that magnifier module 48 is reflected from first incidence hole 32 or from the light of second incidence hole 34, the present invention will enumerate the embodiment of several magnifier module 48, with the detailed execution mode of explanation magnifier module 48.See also Fig. 7 and Fig. 8, Fig. 7 is that first embodiment of magnifier module 48 of Fig. 6 is in the schematic diagram of reflection from the light of first incidence hole 32.Fig. 8 comes from the schematic diagram of the light of second incidence hole 34 for the magnifier module 48a reflection of Fig. 7.Magnifier module 48a comprises a pedestal 50, one first speculum 52, one second speculum 54 and a photoflash lamp (strobe) 56.Pedestal 50 can be around one first 58 rotation.First speculum 52 is installed on first side of pedestal 50, is used for reflecting the light that first incidence hole 32 transmits.Second speculum 54 is installed on second side of pedestal 50, is used for reflecting the light that second incidence hole 34 transmits.Photoflash lamp 56 is to be installed between the front side and two- mirror 52,54 of pedestal 50, and photoflash lamp 56 can rotate along with pedestal 50, is used to provide the required light of digital camera 30 picked-up images.In the present embodiment, the upside that is perpendicular to pedestal 50 for first 58 (that is perpendicular to Fig. 7 and Fig. 8 drawing), and pedestal 50 can be around first 58 of Fig. 7 to rotate clockwise or counterclockwise.The normal of first speculum 52 and second speculum 54 is orthogonal thereto.When the user wants to take the object in first incidence hole, 32 the place aheads, can adjust magnifier module 48a and make it the state of position at Fig. 7, first speculum 52 will reflect the light that transmitted by first incidence hole 32 to lens set 42, then is shown on the viewfinder 38 with the image that will take through the optical sensor 44 of Fig. 6, the processing of image generation module 46 again.Similarly, when user's desire is taken the object in second incidence hole, 34 the place aheads, the pedestal 50 that can adjust magnifier module 48a rotates the state of position at Fig. 8 that make it around first 58, second speculum 54 will reflect the light that transmitted by second incidence hole 34 to lens set 42, then is shown on the viewfinder 38 with the image that will take through the optical sensor 44 of Fig. 6, the processing of image generation module 46 again.

See also Fig. 9 and Figure 10, Fig. 9 and Figure 10 are second embodiment of the magnifier module 48 of Fig. 6, magnifier module 48b reflection comes from the schematic diagram of the light of first incidence hole 32, and Figure 10 comes from the schematic diagram of the light of second incidence hole 34 for magnifier module 48b reflection.Magnifier module 48b comprises a pedestal 60, a speculum 62 and a photoflash lamp 66.Pedestal 60 can rotate around one second 68.Speculum 62 is sides that are installed on pedestal 60, is used for reflecting the light that first incidence hole 32 or second incidence hole 34 transmit.Photoflash lamp 66 is to be installed on the pedestal 60, and photoflash lamp 66 can rotate along with pedestal 60, is used to provide the required light of digital camera 30 picked-up images.Wherein second 68 angle with the normal of the minute surface of speculum 62 equals 45 degree.In the present embodiment, pedestal 60 can be around second 68 of Fig. 9 to rotate clockwise or counterclockwise.When the user wants to take the object in first incidence hole, 32 the place aheads, can adjust magnifier module 48b and make it the state of position at Fig. 9, speculum 62 will reflect the light that transmitted by first incidence hole 32 to lens set 42, then is shown on the viewfinder 38 with the image that will take through the optical sensor 44 of Fig. 6, the processing of image generation module 46 again.Similarly, when user's desire is taken the object of second incidence hole, 34 directions, the pedestal 60 that can adjust magnifier module 48b around second 68 rotate make it the position at the state of Figure 10 (for ease of each assembly of explanation magnifier module 48b at the relative position after second 68 of Fig. 9 rotates, Figure 10 still illustrates pedestal 60, but in fact pedestal 60 is being to be covered on photoflash lamp 66 and the speculum 62 under the state of Figure 10), speculum 62 will reflect the light that transmitted by second incidence hole 34 to lens set 42, then passes through the optical sensor 44 of Fig. 6 again, the processing of image generation module 46 is shown on the viewfinder 38 with the image that will take.

See also Figure 11 and Figure 12, Figure 11 and Figure 12 are the magnifier module 48 of Fig. 6, the magnifier module 48c reflection of the 3rd embodiment comes from the schematic diagram of the light of first incidence hole 32, and Figure 12 comes from the schematic diagram of the light of second incidence hole 34 for magnifier module 48c reflection.Magnifier module 48c comprises a speculum 72, one first photoflash lamp 74 and one second photoflash lamp 76.Speculum 72 can rotate around one the 3rd 78; First photoflash lamp 74 is to be used for turning to can reflect the light that first incidence hole 32 transmits the time at speculum 72, provides digital camera 30 picked-up images required light.Second photoflash lamp 76 is to be used for turning to can reflect the light that second incidence hole 34 transmits the time at speculum 72, provides digital camera 30 picked-up images required light.The 3rd 78 normal that is perpendicular to speculum 72.In the present embodiment, speculum 72 can be around the 3rd 72 of Figure 11 to rotate clockwise or counterclockwise.When the user wants to take the object in first incidence hole, 32 the place aheads, can adjust magnifier module 48c and make it the state of position at Figure 11, speculum 72 will reflect the light that transmitted by first incidence hole 32 to lens set 42, then is shown on the viewfinder 38 with the image that will take through the optical sensor 44 of Fig. 6, the processing of image generation module 46 again.Similarly, when user's desire is taken the object in second incidence hole, 34 the place aheads, the speculum 72 that can adjust magnifier module 48c rotates the state of position at Figure 12 that make it around the 3rd 78, speculum 72 will reflect the light that transmitted by second incidence hole 34 to lens set 42, then is shown on the viewfinder 38 with the image that will take through the optical sensor 44 of Fig. 6, the processing of image generation module 46 again.

See also Figure 13 and Figure 14, Figure 13 is the magnifier module 48d of the 4th embodiment of the magnifier module 48 of Fig. 6, reflection comes from the schematic diagram of the light of first incidence hole 32, and Figure 14 comes from the schematic diagram of the light of second incidence hole 34 for magnifier module 48d reflection.Magnifier module 48d comprises one first speculum 82, one second speculum 84, one first photoflash lamp 86 and one second photoflash lamp 88.Two-mirror the 82, the 84th is arranged above and below, and the normal of first speculum 82 and second speculum 84 is orthogonal thereto; First photoflash lamp 86 is to be used for providing digital camera 30 picked-up images required light when the light that first speculum, 82 reflections, first incidence hole 32 transmits; And second photoflash lamp 88 be to be used for when the light that second speculum 84 reflection, second incidence hole 34 transmits, providing digital camera 30 picked-up images required light.Wherein two- mirror 82,84 and two photoflash lamps 86,88 can move up and down with respect to lens set 42, to receive the light that is reflected via first speculum 82 or second speculum 84.

In addition, because the conventional digital camera 10 of Fig. 3 needs headspace so that the telescopic mode of camera lens 12 usefulness is adjusted focal length, the light focusing that is used for camera lens 12 is injected is on optical sensor 24, so the thickness of conventional digital camera 10 is because the factor of headspace and camera lens 12 thickness own, and can't suitably reduce.Yet the lens set 42 of Fig. 6 is not the light that direct adjustment is injected by first incidence hole 32, but adjust the light that transmits via magnifier module 48 reflections indirectly, so limiting factors such as headspace and lens set 42 thickness own are married again among the length of digital camera 30, so digital camera 30 can be saved thickness compared to conventional digital camera 10.

See also Figure 15, Figure 15 is the functional block diagram of second embodiment of the present invention digital camera 90.Digital camera 90 comprises a magnifier module 48, one first lens set 92, one second lens set 94, an optical sensor 44, an image generation module 46 and a viewfinder 38.Be simplified illustration, all have identical title and function with assembly that Fig. 6 has a same numeral among Figure 15, do not repeat them here.Yet, the digital camera 90 of Figure 15 is with digital camera 30 differences of Fig. 6, digital camera 90 is provided with two lens set 92,94, wherein first lens set 92 is to be installed between first incidence hole 32 and the magnifier module 48, the light focusing that is used for first incidence hole 32 being transmitted in the mode of adjusting the position of each eyeglass in first lens set 92 is on optical sensor 44, and second lens set 94 is to be installed between second incidence hole 34 and the magnifier module 48, and the light focusing that is used for second incidence hole 34 being transmitted in the mode of adjusting the position of each eyeglass in second lens set 94 is on optical sensor 44.Afterwards, after the processing via optical sensor 44, image generation module 46, just can with the light of being injected by first incidence hole 32 or the light of being injected by second incidence hole 34 convert an image frame to, be shown at last on the viewfinder 38.

Please consult Figure 16 and Figure 17 together, Figure 16 is the schematic appearance of third embodiment of the present invention digital camera 100, and Figure 17 is the functional block diagram of the digital camera 100 of Figure 16.Digital camera 100 comprises that a housing 101, goes into light microscopic 102, an optical sensor 104, a lens set 105, an image generation module 106, a magnifier module 108 and a viewfinder 110.Go into light microscopic 102 and be installed on the housing 101, be used for importing the front side of housing 101 or the light that rear side transmits in the mode that can move to the rear side of housing 101 by the front side of housing 101.Magnifier module 108 is the light that is used for reflecting by going into light microscopic 102 inputs.Lens set 105 is to be installed between magnifier module 108 and the optical sensor 104, and the light focusing that is used for magnifier module 108 is transmitted is on optical sensor 104.Optical sensor 104 is located in the housing 101, is used for the light that sensing lens set 105 transmits.Image generation module 106 is to be located in the housing 101, is used for producing an image frame according to the light of 104 sensings of optical sensor, and viewfinder 110 then can show the image frame that image generation module 106 produces.

Please consult Figure 18 and Figure 19 together, Figure 18 is the perspective view of going into light microscopic 102 and magnifier module 108 of Figure 16, and Figure 18 and Figure 19 are after rotating around the 4th 112, go into the perspective view of light microscopic 102 and magnifier module 108.Magnifier module 108 comprises a pedestal 114, a speculum 116 and a photoflash lamp 118.Photoflash lamp 118 is to be installed on the pedestal 114, and photoflash lamp 118 can rotate along with pedestal 114, is used to provide the required light of digital camera 100 picked-up images.When digital camera 100 desires are taken objects in front, suppose to go into this moment light microscopic 102 and be in state shown in Figure 180 with magnifier module 108, the light that is come by the objects in front direction is via going into light microscopic 102, relending speculum 116 by a side that is installed on pedestal 114 is reflected into the light that light microscopic 102 transmits and gives lens set, again through after optical sensor and the processing of image display module, can show the image of objects in front afterwards at viewfinder.Similarly, when digital camera 100 is wanted to take rear object, can rotate along the 4th 112 with magnifier module 108 going into light microscopic 102, be shown in Figure 19 after the rotation, go into light microscopic 102 and just can receive the light next by the rear object direction, be reflected into the light that light microscopic 102 transmits via speculum 116 more afterwards and give lens set, relend handle by optical sensor and image display module after, can show the image of rear object at viewfinder.Thus, as long as rotate light microscopic 102 and magnifier module 108, digital camera 100 just can have been taken the place ahead or the scenery at rear.

Please consult Figure 20 and Figure 21 together, Figure 20 is the perspective view of another embodiment that goes into light microscopic 102 and magnifier module 108 of Figure 16, Figure 21 goes into the perspective view of light microscopic 102a and magnifier module 108a for the magnifier module 108a of Figure 20 moves up and goes into after light microscopic 102a rotates around arrow B along arrow A.Magnifier module 108a comprises one first speculum 122, one second speculum 124, one first photoflash lamp 126 and one second photoflash lamp 128.Two-mirror the 122, the 124th is arranged above and below, and the normal of first speculum 122 and second speculum 124 is orthogonal thereto.First photoflash lamp 126 is to be used for moving to and can providing digital camera 100 picked-up images required light when light that light microscopic 102a transmits reflexes to lens set with going at first speculum 122.Second photoflash lamp 128 is to be used for moving to and can providing digital camera 100 picked-up images required light when light that light microscopic 102a transmits reflexes to lens set with going at second speculum 124.As shown in figure 20, when digital camera 100 desires are taken objects in front, suppose that go into light microscopic 102a this moment and magnifier module 108a is in state shown in Figure 20, the light that is come by the objects in front direction is via going into light microscopic 102a, relend and be reflected into the light that light microscopic 102a transmits by first speculum 122 and give lens set, again through after optical sensor and the processing of image display module, can show the image of objects in front afterwards at viewfinder.In the same manner, when digital camera 100 is wanted to take rear object, can turn to position shown in Figure 21 with going into the direction of light microscopic 102a along the arrow B of Figure 20, magnifier module 108a then can move up along the direction of arrow A, makes can give lens set by the light of going into light microscopic 102a input by 124 reflections of second speculum into light microscopic 102a.Figure 20 go into after light microscopic 102a and magnifier module 108a move relative position as shown in figure 21.Thus, go into light microscopic 102a and just can receive the light next by the rear object direction, be reflected into the light that light microscopic 102a transmits via second speculum 124 more afterwards and give lens set, relend by after optical sensor and the processing of image display module, can show the image of rear object at viewfinder.Therefore, as long as rotate light microscopic 102a and mobile mirror module 108a, digital camera 100 just can have been taken the place ahead or the scenery at rear.

Present embodiment only be with the digital camera example as an illustration, spirit in fact of the present invention also can be applicable to digital camera projector or other similar digital image acquisition device.

Compared to conventional art, digital image acquisition device of the present invention can utilize a magnifier module, is used for reflecting the light of being imported by second incidence hole by the light or the reflection of the input of first incidence hole.Therefore the digital image acquisition device no longer can only be taken the scenery in first incidence hole the place ahead, can also take the scenery of rear or even other direction, this is for needs user alone, no matter be in language obstacle external, or the position is under alone bleak and desolate environment, the user can not need can take the footprint that record oneself is passed by by other people's assistance, and such design also can be avoided the higher and problem that fracture takes place easily of the pivot cost of conventional digital camera.In addition, because lens set of the present invention is to receive to come from this first incidence hole or this second incidence hole light via this magnifier module reflection, so the lens set putting position that is used for adjusting focusing can be changed into the direction of left and right sides ornaments by tradition corresponding to the direction of front and back side, thus, just can reduce the thickness of digitized video camera.

The above only is preferred embodiment of the present invention, and is all according to equalization variation and modification that the present invention did, all belongs to covering scope of the present invention.

Claims (22)

1. digital image acquisition device, it comprises:

One housing;

One first incidence hole is located at the front side of this housing, is used for importing the light that the front side of this housing is transmitted;

One second incidence hole is formed at the rear side of this housing, is used for importing the light that the rear side of this housing transmits;

One magnifier module is installed in this housing, is used for reflecting the light of being imported by this second incidence hole by the light or the reflection of this first incidence hole input;

One optical sensor is located in this housing, is used for the light that this magnifier module of sensing transmits; And

One image generation module is located in this housing, is used for producing an image frame according to the light of this optical sensor institute sensing.

2. digital image acquisition device as claimed in claim 1, it also comprises a lens set, is installed between this magnifier module and this optical sensor, the light focusing that is used for this magnifier module is transmitted is on this optical sensor.

3. digital image acquisition device as claimed in claim 1, it also comprises one first lens set, be installed between this first incidence hole and this magnifier module, the light focusing that is used for this first incidence hole is transmitted is on this optical sensor, and one second lens set, be installed between this second incidence hole and this magnifier module, the light focusing that is used for this second incidence hole is transmitted is on this optical sensor.

4. digital image acquisition device as claimed in claim 1, wherein this magnifier module comprises:

One pedestal, it can be around one first rotation;

One first speculum is installed on first side of this pedestal, is used for the light that this first incidence hole transmits is reflexed to this optical sensor;

One second speculum is installed on second side of this pedestal, is used for the light that this second incidence hole transmits is reflexed to this optical sensor; And

One photoflash lamp is installed between the front side and this two-mirror of this pedestal, and this photoflash lamp can rotate along with this pedestal, is used to provide the required light of this digital image acquisition device picked-up image.

5. digital image acquisition device as claimed in claim 4, wherein this first upside that is perpendicular to this pedestal.

6. digital image acquisition device as claimed in claim 4, wherein the normal of this first and second speculum is orthogonal thereto.

7. digital image acquisition device as claimed in claim 1, wherein this magnifier module comprises:

One pedestal, it can be around one second rotation;

One speculum is installed on a side of this pedestal, is used for the light that this first incidence hole or this second incidence hole transmit is reflexed to this optical sensor;

One photoflash lamp is installed on this pedestal, and this photoflash lamp can rotate along with this pedestal, is used to provide the required light of this digital image acquisition device picked-up image.

8. digital image acquisition device as claimed in claim 7, wherein this second angle with the normal of the minute surface of this speculum equals 45 degree.

9. digital image acquisition device as claimed in claim 1, wherein this magnifier module comprises:

One speculum, it can be around one the 3rd rotation;

One first photoflash lamp is installed on the front side of this housing, and being used for turning at this speculum provides this digital image acquisition device picked-up image required light when the light that this first incidence hole can be transmitted reflexes to this optical sensor; And

One second photoflash lamp is installed on the rear side of this housing, and being used for turning at this speculum provides this digital image acquisition device picked-up image required light when the light that this second incidence hole can be transmitted reflexes to this optical sensor.

10. digital image acquisition device as claimed in claim 9, wherein the 3rd normal that is perpendicular to this speculum.

11. digital image acquisition device as claimed in claim 1, wherein this magnifier module comprises:

One first speculum and one second speculum, this two-mirror is to be arranged above and below, and the normal of this first speculum and this second speculum is orthogonal thereto;

One first photoflash lamp is installed in this housing, and being used for moving at this first speculum provides this digital image acquisition device picked-up image required light when the light that this first incidence hole can be transmitted reflexes to this optical sensor; And

One second photoflash lamp is installed in this housing, and being used for moving at this second speculum provides this digital image acquisition device picked-up image required light when the light that this second incidence hole can be transmitted reflexes to this optical sensor;

Wherein this two-mirror and this two photoflash lamp can move up and down with respect to this optical sensor, to receive the light that is reflected via this first speculum or this second speculum.

12. digital image acquisition device as claimed in claim 1 wherein is equipped with a minute surface on this first incidence hole and this second incidence hole.

13. digital image acquisition device as claimed in claim 1, it is to be a digital camera or a digital camera projector.

14. a digital image acquisition device, it comprises:

One housing;

One goes into light microscopic, is installed on this housing in the mode that can be moved to the rear side of this housing by the front side of this housing, is used for importing the front side of this housing or the light that rear side transmits;

One magnifier module is installed in this housing, is used for reflecting the light of being gone into the light microscopic input by this;

One optical sensor is located in this housing, is used for the light that this magnifier module of sensing transmits; And

One image generation module is located in this housing, is used for producing an image frame according to the light of this optical sensor institute sensing.

15. digital image acquisition device as claimed in claim 14, it also comprises a lens set, is installed between this magnifier module and this optical sensor, and the light focusing that is used for this magnifier module is transmitted is on this optical sensor.

16. digital image acquisition device as claimed in claim 14, wherein this reflecting module is to be installed in this housing to go into the mode that light microscopic moves along with this.

17. digital image acquisition device as claimed in claim 14, wherein this magnifier module comprises:

One pedestal, it can be around one the 4th rotation;

One speculum is installed on a side of this pedestal, is used for that this is gone into the light that light microscopic transmits and reflexes to this optical sensor;

One photoflash lamp is installed on this pedestal, and this photoflash lamp can rotate along with this pedestal, is used to provide the required light of this digital image acquisition device picked-up image.

18. digital image acquisition device as claimed in claim 17, wherein the 4th angle with the normal of the minute surface of this speculum equals 45 degree.

19. digital image acquisition device as claimed in claim 14, wherein this magnifier module comprises:

One first speculum and one second speculum, this two-mirror is to be arranged above and below, and the normal of this first speculum and this second speculum is orthogonal thereto;

One first photoflash lamp is installed in this housing, and being used for moving to this to be gone at this first speculum provides this digital image acquisition device picked-up image required light when light that light microscopic transmits reflexes to this optical sensor; And

One second photoflash lamp is installed in this housing, and being used for moving to this to be gone at this second speculum provides this digital image acquisition device picked-up image required light when light that light microscopic transmits reflexes to this optical sensor;

Wherein this two-mirror and this two photoflash lamp can be gone into light microscopic with respect to this and moved up and down, and go into the light that light microscopic transmits to reflect this.

20. digital image acquisition device as claimed in claim 14, it is to be a digital camera or a digital camera projector.

21. a digital camera, it can be used to take the not image of homonymy, and it comprises:

One housing;

At least one incidence hole is used for importing light;

One magnifier module is installed in this housing, is used for reflecting the light by this at least one incidence hole input;

One optical sensor is located in this housing, is used for the light that this magnifier module of sensing transmits; And

One image generation module is located in this housing, is used for producing an image frame according to the light of this optical sensor institute sensing.

22. digital camera as claimed in claim 21 wherein all is provided with a minute surface on this at least one incidence hole.

Images