CN201335933Y - Image reading device - Google Patents

Abstract

The utility model relates to an image reading device, which comprises a main body, an image reading element, a first viewing window, a second viewing window and a reflection element, wherein, the image reading element is arranged on the main body; the first viewing window is arranged at one side of the main body; the second viewing window is arranged at the other side of the main body and corresponds to the first viewing window; the reflection element can be arranged inside the main body and can rotate between a first and a second reflection positions inside the main body. When the reflection element is arranged at the first reflection position, the image reading element can read at least one first image from the first viewing window; when the reflection element is arranged at the second reflection position, the image reading element can read at least one image from the second viewing window.

Description

Image read-out

Technical field

The utility model relates to image read-out, especially about a kind of image read-out that can have a plurality of viewfinders.

Background technology

Digital camera or the mobile phone with camera function has been the electronic product of popularizing very much, and digital camera and camera cell phone also stride forward so that carry towards compactization.And in various occasions, often have and to take a group photo with other people (as meeting friend or famous person) or the only chance of photograph, do not having other people to assist to take pictures or carrying under the situation of foot rest, but often the LCD screen of factor sign indicating number camera and camera cell phone is user dorsad when autodyning, can't learn preview screen in real time, therefore the result who autodynes is often not good.

In the prior art, digital camera is provided with turnover LCD screen, therefore when the user autodynes, can be with turnover LCD screen commentaries on classics towards the user, but allow user's live preview picture.Right its needs extra structure, such as rotating shaft and renovate etc., certainly will increase the thickness and the cost of digital camera, can't satisfy the demand of compactization.

Perhaps some digital camera or camera cell phone are available for users to do the comparison of about position being provided with rosette mirror (or claim self-photography mirror) near the camera lens when autodyning, and so still have locational difference from rosette mirror reversal image that penetrates and the image of implementing to take.

Therefore, be necessary to provide a kind of image read-out, to improve the existing in prior technology problem.

The utility model content

But the image read-out of live preview when a purpose of the present utility model provides a kind of the auto heterodyne.

For reaching above-mentioned purpose, the utility model provides a kind of image read-out, and image read-out comprises body, image read element, first viewfinder and second viewfinder, reflecting element.Wherein the image read element is to be arranged on the body; First viewfinder is arranged at a side of body; Second viewfinder is arranged at the opposite side of body, and with the first viewfinder tool corresponding relation; Reflecting element can rotate between intrinsic first reflection position and second reflection position.By this, when reflecting element was positioned at first reflection position, the image read element read at least one first image from first viewfinder; And when reflecting element was positioned at second reflection position, the image read element read at least one second image from second viewfinder.

In an embodiment of the present utility model, image read-out also comprises display device, and first viewfinder and second viewfinder lay respectively at the place ahead and the rear of body, when so the user generally takes pictures use or auto heterodyne, changeable is first viewfinder or second viewfinder, and image read-out needn't be reversed.

Described image read-out, wherein, this image read-out also comprises:

One first shadowing elements is arranged at and closes on this first viewfinder, and covers this first viewfinder in order to packaged type ground; And

One second shadowing elements is arranged at and closes on this second viewfinder, and covers this second viewfinder in order to packaged type ground;

By this, when this reflecting element is that this first shadowing elements is hidden in this body when being positioned at this first reflection position, and this second shadowing elements covers this second viewfinder; And when this reflecting element was positioned at this second reflection position, this second shadowing elements was hidden in this body, and this first shadowing elements covers this first viewfinder.

Described image read-out, wherein, this image read-out also comprises a display device, and wherein this display device is arranged on this body, and this display device is this first image or this second image that is read in order to this image read element of real-time demonstration.

Described image read-out, wherein, this display device is that packaged type ground and this body link; By this, when this reflecting element was positioned at this first reflection position, this display device was covered this second viewfinder; And when this reflecting element was positioned at this second reflection position, this display device moved and this second viewfinder is exposed.

Described image read-out, wherein, this image read-out also comprises:

One first shadowing elements covers this first viewfinder in order to packaged type ground;

By this, when this reflecting element was positioned at this second reflection position, this first shadowing elements covered this first viewfinder.

Described image read-out, wherein, this display device and this chimeric binding in body packaged type ground.

Described image read-out, wherein, this reflecting element is a two-sided catoptron.

Described image read-out, wherein, this image read-out comprises a plurality of lens.

Described image read-out, wherein, this reflecting element is to switch this first reflection position or this second reflection position in manual or electronic mode.

Described image read-out, wherein, this image read element is an optocoupler components or a complementary metal oxide semiconductor.

Described image read-out, wherein, this image read-out is a digital camera, a personal digital assistant, an electronics Game device or a camera cell phone.

The beneficial effects of the utility model are that the utility model that is provided has overcome the defective of prior art, live preview when being available for users to autodyne.

Description of drawings

Fig. 1 is the synoptic diagram of first embodiment of image read-out of the present utility model;

Fig. 2 is the rear view of first embodiment of image read-out of the present utility model;

Fig. 3 is the synoptic diagram of first embodiment of image read-out of the present utility model;

Fig. 4 is the rear view of second embodiment of image read-out of the present utility model;

Fig. 5 is the rear view of second embodiment of image read-out of the present utility model.

[main element symbol description]

Image read-out 1

Body 10

First viewfinder 21

Second viewfinder 22

Reflecting element 30

Image read element 40

First shadowing elements 51

Second shadowing elements 52

Display device 60

Lens 71

First reflection position 91

Second reflection position 92

Embodiment

For above-mentioned and other purpose, feature and advantage of the present utility model can be become apparent, cited below particularlyly go out specific embodiment of the utility model, and cooperate appended graphicly, be described in detail below.

Below please in the lump referring to figs. 1 to first embodiment of Fig. 3 about image read-out of the present utility model.

As shown in Figures 1 and 2, in first embodiment of the present utility model, image read-out 1 is a digital camera, but the utility model is as limit, and any electronic installation with image read functions all can be the category of image read-out 1 of the present utility model.For instance, personal digital assistant, electronics Game device or camera cell phone etc. all can be image read-out 1 of the present utility model.In first embodiment of the present utility model, image read-out 1 comprises body 10, first viewfinder 21, second viewfinder 22, reflecting element 30, image read element 40, first shadowing elements 51, second shadowing elements 52, display device 60 and a plurality of lens 71.

Wherein first viewfinder 21 is arranged at the front side of body 10; Second viewfinder 21 and display device 60 are the rear sides (as shown in Figure 2) that are arranged at body 10.Reflecting element 30 can be arranged in the body 10 and in body 10 in first reflection position 91 (as shown in Figure 1) and second reflection position 92 (as shown in Figure 3) between and rotation.In an embodiment of the present utility model, reflecting element 30 is two-sided catoptrons, but the utility model is as limit, but the element of any reflected image all can be reflecting element 30 of the present utility model.

As shown in Figure 1, first shadowing elements 51 is the belows that are hidden in the body 10 and are arranged at first viewfinder 21, and packaged type move up covering first viewfinder 21, but first shadowing elements 51 of the present utility model does not exceed with the below that is arranged at first viewfinder 21.Second shadowing elements 52 is right-hand (as shown in Figure 2) that are hidden in this body 10 and are arranged at second viewfinder 22, and packaged type be moved to the left and cover second viewfinder 22, but second shadowing elements 52 of the present utility model does not exceed to be arranged at second the right-hand of viewfinder 22.For instance, first shadowing elements 51 and second shadowing elements 52 are the lefts (figure does not show) that can be arranged at right-hand and second viewfinder 22 of first viewfinder 21 respectively.In an embodiment of the present utility model, first shadowing elements 51 or second shadowing elements 52 can be the plastics catch, but the utility model is not as limit.

By this, when reflecting element 30 is positioned at first reflection position 91, first shadowing elements 51 is hidden in the body 10, and second shadowing elements 52 covers second viewfinder 22, so image read element 40 is in order to read at least one first image from first viewfinder 21; And when reflecting element 30 was positioned at second reflection position 92, second shadowing elements 52 was hidden in the body 10, and first shadowing elements 51 covers first viewfinder 21, so image read element 40 is in order to read at least one second image from second viewfinder 22.

Further explanation, in first embodiment of the present utility model, a plurality of lens 71 are arranged between reflecting element 30 and the image read element 40.The mode that reflecting element 30 switches first reflection position 91 or second reflection position 92 can be manual or electronic mode and switches.For instance, reflecting element 30 is to articulate with body 10, and has a driving lever to expose to body 10 (figure does not show), and the changeable driving lever of user position comes toggle reflections element 30 at first reflection position 91 or second reflection position 92; And reflecting element 30 also can be switched (figure does not show) by the button of body 10.

When reflecting element 30 was positioned at first reflection position 91, the image of the scenery that desire is taken entered from first viewfinder 21, through reflecting element 30 image is passed a plurality of lens 71 and images in image read element 40.At this moment, the user can carry out preview earlier to adjust the position from the display device 60 at image read-out 1 back side before determining shooting.When reflecting element 30 was positioned at second reflection position 92, the image of the scenery that desire is taken entered from second viewfinder 22, through reflecting element 30 image is passed a plurality of lens 71 and images in image read element 40.At this moment, the user can be with the rear side of body 10 towards oneself, carries out preview earlier to adjust the position to autodyne from the display device 60 of image read-out 1 rear side before determining to take.

And in an embodiment of the present utility model, image read element 40 is optocoupler components (Charge Coupled Device, CCD) or the complementary metal oxide semiconductor (ComplementaryMetal Oxide Semiconductor, CMOS), but the utility model is not as limit.

Next please in the lump with reference to second embodiment of figure 4 to Fig. 5 about image read-out of the present utility model.

As shown in Figure 4, Fig. 4 is the rear view about second embodiment of image read-out of the present utility model.Second embodiment of the present utility model is that with first the different of embodiment maximum display device 60 is and the body chimeric binding in 10 packaged type ground that by this, display device 60 can be substituted in the function of second shadowing elements 52 among first embodiment.When reflecting element 30 was positioned at first reflection position 91, display device 60 was covered second viewfinder 22; And when reflecting element 30 was positioned at second reflection position 92, display device 60 moved down and makes second viewfinder 22 to expose (as shown in Figure 5).

To sum up institute is old, and no matter the utility model all shows it totally different in the feature of prior art with regard to purpose, means and effect.And above-mentioned many embodiment give an example for convenience of explanation, and the interest field that the utility model is advocated should be as the criterion so that claim is described certainly, but not only limits to the foregoing description.

Claims (11)

1, a kind of image read-out is characterized in that comprising:

One body;

One image read element, it is to be arranged on this body;

One first viewfinder is arranged at a side of this body;

One second viewfinder is arranged at the opposite side of this body, and with this first viewfinder tool, one corresponding relation;

One reflecting element is arranged in this body and between this intrinsic one first reflection position and one second reflection position and also rotates.

2, image read-out as claimed in claim 1 is characterized in that, this image read-out also comprises:

One first shadowing elements is arranged at and closes on this first viewfinder, and covers this first viewfinder in order to packaged type ground; And

One second shadowing elements is arranged at and closes on this second viewfinder, and covers this second viewfinder in order to packaged type ground.

3, image read-out as claimed in claim 1, it is characterized in that, this image read-out also comprises a display device, and wherein this display device is arranged on this body, and this display device is this first image or this second image that is read in order to this image read element of real-time demonstration.

4, image read-out as claimed in claim 3 is characterized in that, this display device is that packaged type ground and this body link; When this reflecting element was positioned at this first reflection position, this display device was covered this second viewfinder; And when this reflecting element is when being positioned at this second reflection position, this display device moves and this second viewfinder is exposed.

5, image read-out as claimed in claim 4 is characterized in that, this image read-out also comprises:

One first shadowing elements covers this first viewfinder in order to packaged type ground;

By this, when this reflecting element is that this first shadowing elements covers this first viewfinder when being positioned at this second reflection position.

6, image read-out as claimed in claim 4 is characterized in that, this display device and this chimeric binding in body packaged type ground.

7, image read-out as claimed in claim 1 is characterized in that, this reflecting element is a two-sided catoptron.

8, image read-out as claimed in claim 1 is characterized in that, this image read-out comprises a plurality of lens.

9, image read-out as claimed in claim 1 is characterized in that, this reflecting element is to switch this first reflection position or this second reflection position in manual or electronic mode.

10, image read-out as claimed in claim 1 is characterized in that, this image read element is an optocoupler components or a complementary metal oxide semiconductor.

11, image read-out as claimed in claim 1 is characterized in that, this image read-out is a digital camera, a personal digital assistant, an electronics Game device or a camera cell phone.

Images