CN102647547B - Image sensing mechanism and image capture device - Google Patents

Abstract

The invention discloses an image sensing mechanism and an image capture device. The image sensing mechanism comprises a spindle, a photovoltaic conversion unit and a lens, wherein the spindle is provided with a bearing seat and a fixed part; the photovoltaic conversion unit is arranged on the bearing seat; the lens and the fixed part are jointed; and the lens rotates relative to the photovoltaic conversion unit by virtue of the fixed part. The image capture device comprises a body, a spindle, a photovoltaic conversion unit and a lens, wherein the body is provided with an optical axis; the lens and the fixed part are jointed; and the lens rotates by virtue of the fixed part by utilizing the optical axis as a center. The image sensing mechanism and the image capture device, disclosed by the invention, have the advantages of conforming to the human engineering and the like, is easy to use and is very suitable and practical.

Description

Image sensing mechanism and image capture unit

Technical field

The present invention relates to image sensing mechanism, particularly relate to a kind of image sensing mechanism being applied to image capture unit.

Background technology

Along with the progress of science and technology, image sensing module has been widely used in various digital product, such as, and digital camera, digital camera, mobile phone, personal digital assistant (Personal Digital Assistant, PDA) etc.Image sensing module comprises a lens mechanism and a photoelectric conversion unit.Optical image can be focused on this photoelectric conversion unit by this lens mechanism, then converts optical image to electronic signal by this photoelectric conversion unit.

Conventional lenses mechanism has a rectangular aperture usually, the Aspect Ratio of this rectangular aperture can be 4: 3 or 16: 9, the image of subject forms a horizontal rectangle image by this rectangular aperture on this photoelectric conversion unit, then by the electronic signal of this photoelectric conversion unit by this horizontal rectangle video conversion transversely photo.

When subject is long column shape, user needs the hand-held changing camera usually, by camera 90-degree rotation, so as to taking longitudinal photo.But, the hand-held of camera 90-degree rotation is not met ergonomics, is not easy the operation carrying out camera yet.In addition, camera is also likely installed on tripod, and now, take longitudinal photo must be taken off camera by tripod, or readjusts tripod, and consumes the much time.

In view of the shortcoming existing for above-mentioned prior art, be necessary to propose a kind of image sensing mechanism, so as to meeting consumer demand.The present inventor is based on being engaged in the practical experience and professional knowledge that this type of product design manufacture enriches for many years, and coordinate the utilization of scientific principle, actively in addition research and innovation, to founding a kind of image sensing mechanism and image capture unit of new structure, general existing image capture unit can be improved, make it have more practicality, meet consumer demand.Through constantly research, design, and through repeatedly studying sample and after improving, finally creating the present invention had practical value.

Summary of the invention

The object of the invention is to, overcome the shortcoming that existing image capture unit exists, and provide a kind of image sensing mechanism and image capture unit, technical problem to be solved is, so as to meeting consumer demand.

For achieving the above object, solving the above problems, one embodiment of the invention propose a kind of image sensing mechanism, and this image sensing mechanism comprises a rotating shaft, a photoelectric conversion unit and a camera lens.This rotating shaft has a load bearing seat and a fixture; This photoelectric conversion unit is arranged on this load bearing seat; This camera lens engages with this fixture, and this camera lens rotates by this fixture is relative with this photoelectric conversion unit.

Object of the present invention and solve its technical problem and can also be further achieved by the following technical measures.

Preferably, aforesaid image sensing mechanism, wherein this load bearing seat has at least one slide rail, and this fixture has at least one extended structure, and this extended structure is sheathed on this slide rail.

Preferably, aforesaid image sensing mechanism, wherein this slide rail has port, at least one location, in order to this port, location making this extended structure be sticked in this slide rail.

Preferably, aforesaid image sensing mechanism, wherein this port, location is a groove, is sticked in this port, location in order to make this extended structure.

Preferably, aforesaid image sensing mechanism, wherein this extended structure comprises a location division and a holding section, when this location division makes this camera lens rotate relative to this photoelectric conversion unit, one center of one this photoelectric conversion unit of optical axis alignment of this camera lens, when this camera lens rotates to this port, location relative to this photoelectric conversion unit, this holding section and this port, location fasten.

Preferably, aforesaid image sensing mechanism, wherein this slide rail is an annular orbit.

Preferably, aforesaid image sensing mechanism, wherein this extended structure is an elastic component.

Preferably, aforesaid image sensing mechanism, wherein this elastic component is a sheet metal, a plastic parts or a rubber parts.

For achieving the above object, solving the above problems, another embodiment of the present invention proposes a kind of image capture unit, and this image capture unit comprises a body, a rotating shaft, a photoelectric conversion unit and a camera lens.This body has an optical axis; This rotating shaft has a load bearing seat and a fixture; This photoelectric conversion unit is arranged on this load bearing seat; This camera lens engages with this fixture, and this camera lens rotates centered by this optical axis by this fixture.

Object of the present invention and solve its technical problem and can also be further achieved by the following technical measures.

Preferably, aforesaid image capture unit, wherein this load bearing seat has at least one slide rail, and this fixture has at least one extended structure, and this extended structure is sheathed on this slide rail.

Preferably, aforesaid image capture unit, wherein this slide rail has port, at least one location, is positioned this port, location in order to make this extended structure.

Preferably, aforesaid image capture unit, wherein this port, location is a groove, and this fixture drives this camera lens to rotate to this groove relative to this photoelectric conversion unit, is sticked in this port, location to make this extended structure.

Preferably, aforesaid image capture unit, a wherein center of this this photoelectric conversion unit of optical axis alignment of this body, this extended structure comprises a location division and a holding section, when this location division makes this camera lens rotate relative to this photoelectric conversion unit, this camera lens rotates around this optical axis of this body, and when this camera lens rotates to this port, location relative to this photoelectric conversion unit, this holding section and this port, location fasten.

Preferably, aforesaid image capture unit, wherein this case for lense is containing an opening, and this opening and this camera lens interlock, make the picture frame synchronous rotary being projected to this photoelectric conversion unit.

Preferably, aforesaid image capture unit, wherein this case for lense is containing a lens barrel and a lens case, and this opening is opened on this lens case, and this lens case rotates to screw togather or be fastened on this camera lens.

Advantage of the present invention and effect comprise: by image sensing mechanism of the present invention and image capture unit, user directly can rotate this camera lens and make that this camera lens is relative with this photoelectric conversion unit to be rotated, in order to switch the horizontal photo of shooting or longitudinal photo, and do not need the hand-held changing image capture unit, therefore, image sensing mechanism of the present invention and image capture unit have and meet ergonomics, are easy to advantages such as using.

In sum, the present invention has significant progress technically, and has obvious good effect, is really a new and innovative, progressive, practical new design.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to technological means of the present invention can be better understood, and can be implemented according to the content of specification, and can become apparent to allow above and other object of the present invention, feature and advantage, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, be described in detail as follows.

Accompanying drawing explanation

Fig. 1 shows the schematic perspective view of the image sensing mechanism of one embodiment of the invention.

Fig. 2 shows the decomposing schematic representation of the image sensing mechanism of Fig. 1.

Fig. 3 shows the decomposing schematic representation of the image capture unit of another embodiment of the present invention.

Fig. 4 A to Fig. 4 C shows with the schematic diagram of image capture unit shooting lateral imaging.

Fig. 5 A to Fig. 5 C shows the schematic diagram taking longitudinal image with image capture unit.

Fig. 6 A shows the schematic diagram of another embodiment of camera lens of the present invention.

Fig. 6 B to Fig. 6 C shows with the schematic diagram of the lens shooting image of Fig. 6 A.

Fig. 6 D shows image schematic diagram captured for the rotation of lens 45 degree of Fig. 6 A.

Embodiment

For further setting forth the present invention for the technological means reaching predetermined goal of the invention and take and effect, below in conjunction with accompanying drawing and preferred embodiment, to the image sensing mechanism proposed according to the present invention and its embodiment of image capture unit, structure, feature and effect thereof, be described in detail as follows.

Some embodiments of the present invention will be described in detail as follows.But except describing as follows, the present invention can also implement in other embodiment widely, and scope of the present invention is not by the restriction of embodiment, and it is as the criterion with the protection range of claim.Moreover for providing clearer description and being more readily understood the present invention, graphic interior each several part is not drawn according to its relative size, and some size is exaggerated compared with other scale dependents; Incoherent detail section is not also drawn completely, in the hope of graphic succinct.

The invention relates to a kind of image sensing mechanism, this image sensing mechanism can be widely used in the various device with dynamic image or static image acquisition function, such as, digital camera, digital camera, mobile phone, personal digital assistant (Personal Digital Assistant, PDA) or network camera (Webcam) etc.

Fig. 1 shows the schematic perspective view of the image sensing mechanism 200 of one embodiment of the invention.As shown in Figure 1, this image sensing mechanism 200 comprises rotating shaft 210, photoelectric conversion unit 220 and a camera lens 230.

Fig. 2 shows the decomposing schematic representation of the image sensing mechanism 200 of Fig. 1.As shown in Figure 2, this rotating shaft 210 has a load bearing seat 211 and at least one fixture 212; This photoelectric conversion unit 220 is arranged on this load bearing seat 211; This camera lens 230 has an opening 231, and this camera lens 230 engages with this fixture 212, and this camera lens 230 can rotate by this fixture 212 relatively with this photoelectric conversion unit 220.In the present embodiment, this opening 231 is rectangular, but not as limit.

As shown in Figure 2, this load bearing seat 211 of this rotating shaft 210 has at least one slide rail 213, this fixture 212 of this rotating shaft 210 has at least one extended structure 215, and this extended structure 215 is sheathed on this slide rail 213, such that this camera lens 230 can photoelectric conversion unit 220 be relative rotates with this by this fixture 212 and this rotating shaft 210.Wherein, this slide rail 213 is annular orbits, and this extended structure 215 can be made to drive this fixture 212 to move on this slide rail 213.In the present embodiment, this slide rail 213 has one first location port 214A and one second and locates port 214B, this first location port 214A and this second locate the ad-hoc location that port 214B is relatively arranged at this slide rail 213 respectively, 214A, 214B can be grooves at those ports, location, in order to this camera lens 230 is temporarily fixed on above-mentioned different ad-hoc location.

Again as shown in Figure 2, in the present embodiment, when this extended structure 215 is sticked in this first location port 214A, lateral imaging can be taken by this image sensing mechanism 200; When this extended structure 215 is sticked in the second port, location 214B, this camera lens 230 is relative 90-degree rotations with this photoelectric conversion unit 220, make this image sensing mechanism 200 can take longitudinal image, but not as limit, 214A, 214B also can be positioned at other ad-hoc locations at those ports, location, and this camera lens 230 can be rotated to other corresponding special angles relatively with this photoelectric conversion unit 220.Specifically, implementation can be arranged the slide rail 213 of two symmetries in the outer rim of this load bearing seat 211, to make uniform stressed in this camera lens 230 process rotated relative to this photoelectric conversion unit 220.

As shown in Figure 2, according to the present embodiment, this extended structure 215 comprises location division 216 and a holding section 217, and the outward appearance of this location division 216 of this extended structure 215 in the form of a ring.Wherein, this camera lens 230 has an optical axis 232, one center of this photoelectric conversion unit 220 and the center of circle of this slide rail 213 are all positioned on this optical axis 232, and this location division 216 of ring-type is sheathed on this slide rail 213 of ring-type, this center of this photoelectric conversion unit 220 can be made to aim at this optical axis 232 of this camera lens 230 regularly, when this camera lens 230 with this photoelectric conversion unit 220 is relative rotate time, because this location division 216 and this slide rail 213 of ring-type of ring-type have the function of location, make this center continuous positioning of this photoelectric conversion unit 220 on this optical axis 232 of this camera lens 230, and can not depart from.In addition, when this camera lens 230 rotates to above-mentioned different ad-hoc location relative to this photoelectric conversion unit 220, port 214A first can be located or this second is located port 214B and fasten, so as to temporarily fixing the position of this camera lens 230 with this in this holding section 217 of this extended structure 215.

In the present embodiment, this extended structure 215 is elastic components, and this extended structure 215 has suitable elasticity, makes this extended structure 215 can produce distortion along with the shape of this slide rail 213, this first location port 214A or this second location port 214B.This means, there is suitably this extended structure 215 flexible to move in this slide rail 213, this camera lens 230 is rotated relative to this photoelectric conversion unit 220; Or this extended structure 215 can be sticked in those ports, location 214A, 214B, so as to temporarily fixing the position of this camera lens 230.Wherein, this elastic component can be a sheet metal, and this sheet metal can be utilize made by sheet-metal forming, and this elastic component also can be have suitably a flexible plastic parts or a rubber parts, but not as limit.

By above-mentioned design, user directly can rotate this camera lens 230, photoelectric conversion unit 220 is relative rotates with this to make this camera lens 230, in order to switch shooting lateral imaging or longitudinal image, and do not need the hand-held changing image capture unit, therefore, the image capture unit with image sensing mechanism 200 has and meets ergonomics, is easy to the advantages such as use, fully can meet the demand of consumer for camera.

Fig. 3 shows the decomposing schematic representation of the image capture unit 300 of another embodiment of the present invention.This image capture unit 300 comprises body 390, rotating shaft 310, photoelectric conversion unit 320 and a camera lens 330.This body 390 has an optical axis 391; This rotating shaft 310 has a load bearing seat 311 and at least one fixture 312; This photoelectric conversion unit 320 is arranged on this load bearing seat 311; This camera lens 330 has the opening 331 of a rectangle, and this camera lens 330 engages with this fixture 312, and this camera lens 330 rotates centered by this optical axis 391 by this fixture 312.

In the present embodiment, this image capture unit 300 can comprise a protecgulum 380 further, and in order to modify the external form of this image capture unit 300, but not as limit, this image capture unit 300 also can not comprise this protecgulum 380.In addition, image capture unit 300 can be the device of various tool dynamic image or static image acquisition function, such as, and digital camera, digital camera, mobile phone, personal digital assistant or network camera etc.

As shown in Figure 3, this load bearing seat 311 has at least one slide rail 313, and this fixture 312 is sheathed on this slide rail 313.Wherein, this slide rail 313 is annular orbits, and photoelectric conversion unit 320 is relative rotates with this by this fixture 312 to make this camera lens 330.In the present embodiment, this slide rail 313 has one first location port 314A and one second and locates port 314B, this first location port 314A second locates the different ad-hoc locations that port 314B lays respectively at this slide rail 313 from this, 314A, 314B can be grooves at those ports, location, in order to this camera lens 330 is temporarily fixed on above-mentioned different ad-hoc location.

In the present embodiment, when this fixture 312 is sticked in this first location port 314A, this image capture unit 300 can take lateral imaging; When this fixture 312 is sticked in the second port, location 314B, this camera lens 330 and the relative 90-degree rotation of this photoelectric conversion unit 320, this image capture unit 300 can take longitudinal dynamic image or static image.But not as limit, those ports, location 314A, 314B also can be positioned at other ad-hoc locations, and make this camera lens 330 can relatively rotate to other corresponding special angles with this photoelectric conversion unit 320.

In addition, this fixture 312 has at least one extended structure 315, and this extended structure 315 comprises location division 316 and a holding section 317, and the correlative detail of this extended structure 315 is identical with this extended structure 215 shown in Fig. 2, at this not repeated description.

Fig. 4 A to Fig. 4 C shows the schematic diagram taking lateral imaging with image capture unit 300.First, as shown in Figure 4 A, user operates this image capture unit 300, is presented in a viewfinder range 395 of this image capture unit 300 by a preview image of a subject 500.Wherein, this opening 331 is the rectangles in horizontal type, and this viewfinder range 395 is a horizontal type rectangle because of the shape of this opening 331, and this rectangle has an a longitudinal length L1 and lateral length L2.Specifically, the ratio of this lateral length L2 and this longitudinal length L1 can be 4: 3 or 16: 9.

Then, as shown in Fig. 4 B and Fig. 4 C, now, this holding section 317 of this fixture 312 first is located port 314A with this and is fastened, so as to temporarily fixing the position of this camera lens 330.So, the light beam sent by this subject 500 is namely by this opening 331 of this camera lens 330, and be projected to this photoelectric conversion unit 320, and display has a lateral imaging 501 of the picture frame of a horizontal type rectangle on a display screen 396 of this image capture unit 300.Finally, press next photography key 397 by user, and after dynamic image or static image have captured, stored the image data of this lateral imaging 501 by this image capture unit 300.

Fig. 5 A to Fig. 5 C shows the schematic diagram taking longitudinal image with image capture unit 300.First, as shown in Figure 5 B, user directly rotates this camera lens 330, makes this camera lens 330 and the relative 90-degree rotation of this photoelectric conversion unit 320, and this opening 331 is the rectangles in vertical type.Now, this holding section 317 of this fixture 312 moves to this second location port 314B by this first location port 314A, and this holding section 317 second is located port 314B with this and fastened, so as to temporarily fixing the position of this camera lens 330.

Then, as shown in Figure 5A, user operates image capture unit 300, is presented in this viewfinder range 395 of this image capture unit 300 by this preview image of this subject 500.Then, as Fig. 5 B and Fig. 5 C, the light beam sent by this subject 500 namely by this opening 331 of this camera lens 330, and is projected to this photoelectric conversion unit 320, and display has a longitudinal image 502 of the picture frame of a vertical type rectangle on this display screen 396 of this image capture unit 300.Finally, press this photography key 397 by user, and after dynamic image or static image have captured, stored the image data of this longitudinal image 502 by this image capture unit 300.

Fig. 6 A shows the schematic diagram of the camera lens 330 of another embodiment of the present invention.As shown in Figure 6A, this camera lens 330 comprises lens barrel 332 and a lens case 333, and this lens case 333 is provided with a shadow shield 334 vertical with this optical axis 391, and this opening 331 is opened on this shadow shield 334.When this extended structure 315 drives this fixture 312 to move on this slide rail 313, photoelectric conversion unit 320 is relative rotates with this can to make this camera lens 330, make this opening 331 correspondingly interlock rotate, make this picture frame synchronous rotary being projected to this photoelectric conversion unit 320.Wherein, this lens case 333 rotates the mode screwing togather or fasten to be fixed on this lens barrel 332, and user can manual teardown and installing voluntarily, and this opening 331 can be any shape, and this opening 331 is described with a cardioid in the present embodiment.

Fig. 6 B and Fig. 6 C shows respectively with the schematic diagram of camera lens 330 filmed image of Fig. 6 A.Simultaneously with reference to figure 6A, Fig. 6 B and Fig. 6 C, the light beam sent when this subject 500 is by this opening 331 of this camera lens 330, and when being projected to this photoelectric conversion unit 320, because this opening 331 is in cardioid, namely this display screen 396 presents a cardioid image 503 with a cardioid picture frame 398.Finally, press this photography key 397 by user, and after dynamic image or static image have captured, stored the image data of this cardioid image 503 by this image capture unit 300.Moreover user can rotate this camera lens 330 on demand, photoelectric conversion unit 320 is relative rotates with this to make this opening 331, and order is projected to this cardioid image 503 synchronous rotary of this photoelectric conversion unit 320.

The camera lens 330 of Fig. 6 A is rotated the image schematic diagram captured by 45 degree by Fig. 6 D display.Simultaneously with reference to figure 6C and Fig. 6 D, when this camera lens 330 is rotated 45 degree by user, this opening 331 is relative immediately with this photoelectric conversion unit 320 rotates 45 degree, order is projected to this cardioid picture frame 398 also synchronous rotary 45 degree of this photoelectric conversion unit 320, makes this display screen 396 to present this cardioid image 503 that this cardioid picture frame 398 rotates 45 degree.Finally, press this photography key 397 by user, and after dynamic image or static image have captured, stored the image data of this cardioid image 503 by this image capture unit 300.

By above-mentioned design, user directly can rotate this camera lens 330, photoelectric conversion unit 320 is relative rotates with this to make this camera lens 330, in order to switch the picture frame pattern of filmed image, and do not need the hand-held changing image capture unit 300, therefore, image capture unit 300 of the present invention has and meets ergonomics, is easy to the advantages such as use, fully can meet the demand of consumer for camera.

The above, it is only preferred embodiment of the present invention, not any pro forma restriction is done to the present invention, although the present invention discloses as above with preferred embodiment, but and be not used to limit the present invention, any those skilled in the art are not departing within the scope of technical solution of the present invention, make a little change when the technology contents of above-mentioned announcement can be utilized or be modified to the Equivalent embodiments of equivalent variations, in every case be the content not departing from technical solution of the present invention, according to any simple modification that technical spirit of the present invention is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (15)

1. an image sensing mechanism, is characterized in that, comprises:

One rotating shaft, has a load bearing seat and a fixture;

One photoelectric conversion unit, is arranged on this load bearing seat; And

One camera lens, engages with this fixture, and this camera lens rotates by this fixture is relative with this photoelectric conversion unit.

2. image sensing mechanism as claimed in claim 1, it is characterized in that wherein, this load bearing seat has at least one slide rail, and this fixture has at least one extended structure, and this extended structure is sheathed on this slide rail.

3. image sensing mechanism as claimed in claim 2, it is characterized in that wherein, this slide rail has port, at least one location, in order to this port, location making this extended structure be sticked in this slide rail.

4. image sensing mechanism as claimed in claim 3, it is characterized in that wherein, this port, location is a groove, is sticked in this port, location in order to make this extended structure.

5. image sensing mechanism as claimed in claim 3, it is characterized in that wherein, this extended structure comprises a location division and a holding section, when this location division makes this camera lens rotate relative to this photoelectric conversion unit, one center of one this photoelectric conversion unit of optical axis alignment of this camera lens, when this camera lens rotates to this port, location relative to this photoelectric conversion unit, this holding section and this port, location fasten.

6. image sensing mechanism as claimed in claim 2, it is characterized in that wherein, this slide rail is an annular orbit.

7. image sensing mechanism as claimed in claim 2, it is characterized in that wherein, this extended structure is an elastic component.

8. image sensing mechanism as claimed in claim 7, it is characterized in that wherein, this elastic component is a sheet metal, a plastic parts or a rubber parts.

9. an image capture unit, is characterized in that, comprises:

One body, has an optical axis;

One rotating shaft, this rotating shaft has a load bearing seat and a fixture;

One photoelectric conversion unit, is arranged on this load bearing seat; And

One camera lens, engages with this fixture, and this camera lens rotates centered by this optical axis by this fixture.

10. image capture unit as claimed in claim 9, it is characterized in that wherein, this load bearing seat has at least one slide rail, and this fixture has at least one extended structure, and this extended structure is sheathed on this slide rail.

11. image capture units as claimed in claim 10, it is characterized in that wherein, this slide rail has port, at least one location, is positioned this port, location in order to make this extended structure.

12. image capture units as claimed in claim 11, it is characterized in that wherein, this port, location is a groove, and this fixture drives this camera lens to rotate to this groove relative to this photoelectric conversion unit, is sticked in this port, location to make this extended structure.

13. image capture units as claimed in claim 10, it is characterized in that wherein, one center of this this photoelectric conversion unit of optical axis alignment of this body, this extended structure comprises a location division and a holding section, when this location division makes this camera lens rotate relative to this photoelectric conversion unit, this camera lens rotates around this optical axis of this body, and when this camera lens rotates to this port, location relative to this photoelectric conversion unit, this holding section and this port, location fasten.

14. image capture units as claimed in claim 9, is characterized in that wherein, and this case for lense is containing an opening, and this opening and this camera lens interlock, make the picture frame synchronous rotary being projected to this photoelectric conversion unit.

15. image capture units as claimed in claim 14, is characterized in that wherein, and this case for lense is containing a lens barrel and a lens case, and this opening is opened on this lens case, and this lens case rotates to screw togather or be fastened on this camera lens.