CN102045484A - Scanning device, scanning assisting device and scanning system - Google Patents

Abstract

The present invention provides a scanning device, a scanning assisting device and a scanning system. The scanning device can read the recorded content of a larger reading object and can reduce a storage space. The scanning device (A1) of the invention reads the recorded content of a manuscript (Dc) as a two-dimensional image with a state of pressing the manuscript (Dc) or the periphery. The scanning device (A1) is provided with the following components: a shielding cover (1) which is provided with a light passing space (1b) that causes the light emitted from the side of the manuscript (Dc) to pass; a camera (5) which focuses the light that passes through the light passing space (1b) for photographing the recorded content of the manuscript (Dc); and a holding component (2) which holds the camera (5). The holding component (2) is provided at a first position where at least one part of the holding component (2) is provided at the opposite side of the manuscript (Dc) relatively to the shielding cover (1); and a second position which is next to the reading object of the manuscript (Dc) compared with the first position.

Description

Scanning means, scanning servicing unit and scanning system

Technical field

The present invention relates to scanning means, scanning servicing unit and scanning system.

Background technology

As the scanning means that the content that is used for being recorded on the original copy etc. reads as view data, for example have and use the device that possesses the camera module of 2 dimensional region transducer and constitute.Such scanning means for example constitutes as follows: make image on 2 dimensional region transducer the imaging of mounting in the original copy on the original copy reading face by optical lens system, obtain two-dimensional image data (for example with reference to patent documentation 1) by this 2 dimensional region transducer.

In patent documentation 1, showed as optical lens system and adopted the big wide-angle lens in visual angle or the scanning means of extrawide angle lens.If use such wide-angle lens etc., even then when reading the original copy of bigger size, also can shorten distance from lens to the original copy reading face, can realize the slimming of scanning means.

In recent years, also require such scanning means is used for reading the purposes of bigger original copy.When reading bigger original copy, consider the method for the height (thickness) of increase scanning means.But, because the keeping space when thickening scanning means and can use scanning means becomes big, so undesirable.On the other hand, in order to read bigger original copy, consideration does not thicken scanning means and further increases the method at the visual angle of lens yet.But, owing to increase the angle of lens the distortion of the image of shooting is increased, so undesirable.

Scanning system as the content that is used for being recorded on the original copy etc. reads as view data is extensive use of the so-called plate system (for example with reference to patent documentation 2) that possesses the progressive image transducer.In such scanning system, the delegation of original copy is taken by the progressive image transducer, thereby reads in as a plurality of pixel datas along main scanning direction row arranged side by side.Because original copy normally with plane expansion, therefore in order to read the whole zone of original copy, need be taken hundreds of times or thousands of times by the progressive image transducer.And, between taking, each needs to make the processing of the controlling organization transmitted image data that the progressive image transducer possesses to scanning system in the processing of mobile delegation on the sub scanning direction with from the progressive image transducer.In order not carry out these processing, need between handling, these set the stand-by period on the opportunity of mistake.Because waiting time takes place hundreds of times or thousands of times, therefore reading whole original copys will expend a large amount of time.

Patent documentation 1: TOHKEMY 2007-235902 communique

Patent documentation 2: TOHKEMY 2003-125176 communique

Summary of the invention

The present invention makes in view of the above problems, and its major subjects is to provide a kind of record content that can read bigger reading object, and can cut down the scanning means and the scanning servicing unit in keeping space.In addition, other problem is to provide a kind of and can shortens the scanning system that reads required time.

The scanning means that first side of the present invention provides, it reads reading object with the state of pushing around reading object or its as two dimensional image, it is characterized in that possessing: first light shield, it is formed with and makes first light that passes through from the light of above-mentioned reading object side incident pass through the space; Camera makes by above-mentioned first light and assembles by the light in space, takes above-mentioned reading object; With the holding member that keeps above-mentioned camera, above-mentioned holding member is positioned at the primary importance and the second place, at least a portion of above-mentioned holding member is positioned at respect to the opposite side with above-mentioned reading object of above-mentioned first light shield in this primary importance, and this second place is than the more approaching above-mentioned reading object of this primary importance.

According to such structure, if make above-mentioned holding member be positioned at above-mentioned primary importance, to compare with the situation that above-mentioned holding member is positioned on the said second position, the distance of above-mentioned camera and above-mentioned reading object becomes big.Therefore, can increase the reading object that above-mentioned scanning means can read.On the other hand, be positioned at said second position by making above-mentioned holding member, the situation that is positioned at above-mentioned primary importance with above-mentioned holding member is compared, the less thick of above-mentioned scanning means.If can make the less thick of above-mentioned scanning means, the keeping space that then can cut down above-mentioned scanning means.Therefore,, the record content of bigger reading object can be read, and the keeping space can be cut down according to such scanning means.

In preferred implementation of the present invention, above-mentioned holding member can be from above-mentioned first light shield loading and unloading.According to such structure, dismantle from above-mentioned first light shield by making above-mentioned holding member, can take care of above-mentioned holding member and above-mentioned first light shield respectively.Thus, can cut down the keeping space of above-mentioned scanning means.

In preferred implementation of the present invention, above-mentioned holding member can with respect to above-mentioned first light shield towards near and relatively move away from least one side of the direction of above-mentioned reading object.

In preferred implementation of the present invention, above-mentioned holding member comprises second light shield, this second light shield is formed with and makes second light that passes through by the light of above-mentioned first light by the space by the space, is formed with first hole that above-mentioned second light shield embeds on above-mentioned first light shield.

In preferred implementation of the present invention, above-mentioned second light shield has one or more second light shield fasteners, this second light shield fastener engages with the edge in above-mentioned first hole, and will near and end away from the mobile card of the above-mentioned holding member on the direction of above-mentioned reading object.

In preferred implementation of the present invention, the necking down that the edge that the above-mentioned second light shield fastener is above-mentioned first hole enters.

In preferred implementation of the present invention, above-mentioned necking down is the shape that the complete cycle at the edge in above-mentioned first hole enters.

In preferred implementation of the present invention, the read range that a plurality of cards of above-mentioned second light shield end in the state is consistent with the specification of a plurality of regulations respectively.

In preferred implementation of the present invention, above-mentioned camera comprises: capturing element, and it has and is formed with the sensitive surface that is configured to rectangular a plurality of light areas along orthogonal first and second directions respectively with the predetermined arrangement spacing; And optical system, make light from the incident of above-mentioned reading object side in above-mentioned sensitive surface imaging.

In preferred implementation of the present invention, also possess reflection part, its have with all vertical third direction of the either direction of above-mentioned first direction and second direction on the distance of above-mentioned camera on the above-mentioned first direction more towards above-mentioned reading object side big more and on above-mentioned second direction constant reflecting surface.

In preferred implementation of the present invention, also possess the 3rd light shield, it is formed with and makes the 3rd light that passes through from the light of above-mentioned reading object side incident pass through the space, and has the 3rd hole that above-mentioned first light shield embeds.

In preferred implementation of the present invention, above-mentioned first light shield has the first light shield fastener, this first light shield fastener engages with the edge in above-mentioned the 3rd hole, and will near and end away from the mobile card of above-mentioned first light shield on the direction of above-mentioned reading object.

In preferred implementation of the present invention, above-mentioned holding member is the size that can be accommodated in above-mentioned first light shield.

In preferred implementation of the present invention, above-mentioned first light shield has the peristome at above-mentioned reading object side opening, also has the transparent panel of inaccessible above-mentioned peristome; With the handle of being located at above-mentioned first light shield, above-mentioned holding member can be to be accommodated in the state carrying of above-mentioned first light shield.

In preferred implementation of the present invention, also possess and be located on above-mentioned first light shield and the irradiation sheet material of above-mentioned reading object irradiates light.

The scanning servicing unit that second side of the present invention provides, it is using when reading object or the state around it read above-mentioned reading object as two dimensional image to push, it is characterized in that: possess light shield, it is formed with and makes the light that passes through from the light of above-mentioned reading object side incident pass through the space; Make the optical system of assembling by the light in space by above-mentioned light; With the holding member that keeps above-mentioned optical system, above-mentioned holding member is positioned at the primary importance and the second place, at least a portion of above-mentioned holding member is positioned at respect to the opposite side with above-mentioned reading object of above-mentioned first light shield in this primary importance, this second place is than the more approaching above-mentioned reading object of this primary importance, and the light of being assembled by above-mentioned optical system uses with the state that the lens component to camera advances.

The scanning means that the 3rd side of the present invention provides, it reads above-mentioned reading object with the state of pushing around reading object or its as two dimensional image, it is characterized in that: possess light shield, it is formed with and makes the light that passes through from the light of above-mentioned reading object side incident pass through the space; And camera, it makes by above-mentioned light assembles by the light in space, takes above-mentioned reading object.

In preferred implementation of the present invention, above-mentioned light shield is made of the material that makes the light diffusion and see through.

In preferred implementation of the present invention, possess and be located on the above-mentioned light shield and the irradiation sheet material of above-mentioned reading object irradiates light.

In preferred implementation of the present invention, possess the light conductor of being located on the above-mentioned light shield and make the light source of light to this light conductor incident.

In preferred implementation of the present invention, above-mentioned light conductor is located at the outside of above-mentioned light shield.

In preferred implementation of the present invention, above-mentioned light conductor is located at the inboard of above-mentioned light shield.

The scanning system that the 4th side of the present invention provides is characterized in that possessing: the scanning means that a third aspect of the present invention provides; Basket, it takes in above-mentioned scanning means, and has and make the opening that arrives above-mentioned scanning means from the light of above-mentioned reading object; Driving mechanism, it makes above-mentioned scanning means move up along the first direction of above-mentioned reading object with as the second party of the direction of intersecting with this first direction; And controlling organization, its a plurality of images of being taken by above-mentioned scanning means from a plurality of positions different mutually on above-mentioned first and second directions generate the image of an above-mentioned reading object.

In preferred implementation of the present invention, above-mentioned basket has and surrounds above-mentioned opening and in the keep the score framework of district's mark of the face subscript of above-mentioned scanning means side.

In preferred implementation of the present invention, on above-mentioned basket, be provided with the lid of pushing down above-mentioned reading object, be marked with the subregion mark on the position of in above-mentioned lid, facing with above-mentioned scanning means.

In preferred implementation of the present invention, above-mentioned basket has the framework of surrounding above-mentioned opening, is formed with the window portion of above-mentioned subregion index face to above-mentioned scanning means that make on above-mentioned framework.

In preferred implementation of the present invention, above-mentioned controlling organization has the synthetic in the mode of this subregion mark unanimity each other of identical above-mentioned subregion mark with reflecting in above-mentioned a plurality of images.

The scanning system that the 5th side of the present invention provides is characterized in that possessing: the scanning means that the 3rd side of the present invention provides; And framework, it pushes down above-mentioned reading object, and has and make the opening that arrives above-mentioned scanning means from the light of above-mentioned reading object.

In preferred implementation of the present invention, on above-mentioned framework, be formed with locating aperture, this locating aperture has by be connected the medial surface of the position of stipulating above-mentioned scanning means with the lateral surface of above-mentioned scanning means.

In preferred implementation of the present invention, possess controlling organization, its from along the first direction of above-mentioned reading object with as and the second direction of this first direction direction of intersecting on the image of an above-mentioned reading object of a plurality of images generations of the captured above-mentioned scanning means in different mutually a plurality of positions.

In preferred implementation of the present invention, above-mentioned controlling organization is the personal computer that is connected on the above-mentioned scanning means.

In preferred implementation of the present invention, on the face of the above-mentioned scanning means side of above-mentioned framework, be marked with the subregion mark.

In preferred implementation of the present invention, above-mentioned controlling organization has the synthetic in the mode of this subregion mark unanimity each other of identical above-mentioned subregion mark with reflecting in above-mentioned a plurality of images.

It is clearer and more definite that further feature of the present invention and advantage are carried out following detailed description by the reference accompanying drawing.

Description of drawings

Fig. 1 is the stereogram of the scanning means of first execution mode of the present invention.

Fig. 2 is the profile along the II-II line of Fig. 1.

Fig. 3 is the major part enlarged drawing of scanning means shown in Figure 2.

Fig. 4 is the stereogram and the major part enlarged drawing of the employed capturing element of scanning means of modal representation first execution mode.

Fig. 5 is the major part enlarged drawing of scanning means shown in Figure 2.

Fig. 6 is the figure of an example of user mode of the scanning means of expression first execution mode of the present invention.

Fig. 7 is the figure of an example of user mode of the scanning means of expression first execution mode of the present invention.

Fig. 8 is the figure of an example of user mode of the scanning means of expression first execution mode of the present invention.

Fig. 9 is the figure of an example of user mode of the scanning means of expression first execution mode of the present invention.

Figure 10 is the figure of an example of receiving state of the scanning means of expression first execution mode of the present invention.

Figure 11 is the major part profile of the scanning means of second execution mode of the present invention.

Figure 12 is that major part along the XII-XII line of Figure 11 is to view.

Figure 13 is the figure of read range of original copy in the scanning means of expression second execution mode of the present invention.

Figure 14 is the major part plane graph of capturing element in the scanning means of second execution mode of the present invention.

Figure 15 is the major part enlarged drawing of Figure 14.

Figure 16 is the major part profile of the scanning means of the 3rd execution mode of the present invention.

Figure 17 is the profile of the scanning means of the 4th execution mode of the present invention.

Figure 18 is the figure of an example of user mode of the scanning means of expression the 4th execution mode of the present invention.

Figure 19 is the figure of an example of receiving state of the scanning means of expression the 4th execution mode of the present invention.

Figure 20 is the profile of the scanning means of the 5th execution mode of the present invention.

Figure 21 is the profile of the scanning means of the 6th execution mode of the present invention.

Figure 22 is the profile of the scanning means of the 7th execution mode of the present invention.

Figure 23 is the plane graph of the scanning means of the 8th execution mode of the present invention.

Figure 24 is the profile of the scanning means of the 9th execution mode of the present invention.

Figure 25 is the profile of the scanning means of the tenth execution mode of the present invention.

Figure 26 is the profile of the scanning means of the 11 execution mode of the present invention.

Figure 27 is the image by the sample of the original copy of the capturing element shooting of the scanning means of the 11 execution mode of the present invention.

Figure 28 is by the image after the correction circuit correction distortion.

Figure 29 is the profile of the scanning means of the 12 execution mode of the present invention.

Figure 30 is that the stereogram of the scanning means of the 12 execution mode of the present invention as the example of suitcase use used in expression.

Figure 31 is the profile of the scanning means of the 13 execution mode of the present invention.

Figure 32 is the profile of an execution mode of scanning servicing unit of the present invention.

Figure 33 is the stereogram of other execution mode of expression scanning means of the present invention.

Figure 34 is the profile along the XXXIV-XXXIV line of Figure 33.

Figure 35 is the stereogram and the major part enlarged drawing of the modal representation employed capturing element of scanning means shown in Figure 34.

Figure 36 is the sectional arrangement drawing of the expression employed wide-angle lens of scanning means shown in Figure 34.

Figure 37 is the stereogram of an example of expression scanning system of the present invention.

Figure 38 is the profile along the XXXVIII-XXXVIII line of Figure 37.

Figure 39 is the major part plane graph of state of mounting original copy in the scanning system of expression Figure 37.

Figure 40 is the synthetic figure that handles of image that is used to illustrate the scanning system of Figure 37.

Figure 41 is the stereogram of the variation of expression scanning system of the present invention.

Figure 42 is the stereogram of other example of expression scanning system of the present invention.

Figure 43 is the profile along the XLII-XLII line of Figure 42.

Symbol description

A1～A13 scanning means

B scans servicing unit

1 (the first) light shield

11 upper plates

11a (first) hole

11a ' edge

12 hang plates

125 scatterings see through portion

13 side plates

The 1a openend

1b (first) light passes through the space

1c, 1d necking down

2 holding members

21 base end parts

The 21a openend

22 (the second) light shields

221 upper plates

The 221a hole

222 hang plates

223 side plates

The 22a openend

22b (second) light passes through the space

22c, 22d, 22e necking down

29 link parts

3 (the 3rd) light shield

31a (the 3rd) hole

31a ' edge

The 3a openend

3b (the 3rd) light passes through the space

4 substrates

5 cameras

51 capturing elements

511 sensitive surfaces

512 unit light areas

52 optical systems

521 object side lens

The 521a plane of incidence

The 521b exit facet

522 collector lenses

523 imaging surface side set of lenses

523a aspheric surface convex lens

523b aspheric surface concavees lens

525 lens

526 reflection parts

The 526a reflecting surface

53 supports

54 infrared filters

6 transparent panels

61 transparent panels

611 certification marks

67 handles

68 opening-closing plates

71 control IC

72 storage chips

81 irradiation sheet materials

82 photomasks

84 lighting mechanisms

841 light conductors

842 holding componentss

9 cameras

P1, p2 arrangement pitches

The C scanning means

100 substrates

200 capturing elements

210 sensitive surfaces

220 unit light areas

300 wide-angle lenses

310 object side lens

The 310a plane of incidence

The 310b exit facet

320 collector lenses

330 imaging surface side set of lenses

331 aspheric surface convex lens

332 aspheric surface concavees lens

340 lens carriers

350 infrared filters

400 shells

410 base end parts

420 light shields

The 420a openend

421 upper plates

422 hang plates

423 side plates

500 transparent panels

501 control IC

502 storage chips

503 irradiation sheet materials

D1, D2 scanning system

600 baskets

601 lids

602 frameworks

604 transparent panels

605 openings

606 subregion marks

607 window portions

641,642,643,644 subregion marks

651,652,653,654 camera sites

660,661,662,663,664 images

700 driving mechanisms

701 bars

702 motors

703 bands

710 controlling organizations

800 frameworks

801 subregion marks

802 support pin

803 transparent panels

804 openings

805 locating apertures

810 personal computers (controlling organization)

Embodiment

Below, specify embodiments of the present invention with reference to accompanying drawing.

Use Fig. 1～Fig. 9, first execution mode of the present invention is described.Fig. 1 is the stereogram of the scanning means of present embodiment.Fig. 2 is the profile along the II-II line of Fig. 1.Scanning means A1 shown in these figure is used for reading the device of the record content of original copy Dc as the data of two dimensional image to push as the original copy Dc of reading object or the state on every side of original copy Dc.

Scanning means A1 possesses light shield 1, holding member 2, substrate 4, camera 5, not shown transparent panel, control IC 71 and storage chip 72.

Light shield 1 is to be used for by pushing that original copy Dc covers the reading section of original copy Dc and the device divided with the outside.Light shield 1 is for to have the box of the openend 1a of rectangle in original copy Dc side.More specifically, light shield 1 has upper plate 11, hang plate 12 and side plate 13.Be formed with the hole 11a of rectangle in the central authorities of upper plate 11.Hang plate 12 tilts with respect to upper plate 11, and links to each other with upper plate 11.Side plate 13 links to each other with hang plate 12, and its end constitutes openend 1a.Light shield 1 for example is made of acrylic compounds, epoxies, polycarbonate-based white semi-transparent resin.Therefore, light shield 1 can see through and the scattering extraneous light.

On light shield 1, be formed with the light that surrounds by upper plate 11, hang plate 12 and side plate 13 and pass through space 1b.Move ahead towards hole 11a by space 1b by light from the light of original copy Dc side incident.

Holding member 2 possesses base end part 21 and light shield 22.Holding member 2 can move with respect to the above-below direction of light shield 1 at Fig. 2, props up to be held on the light shield 1.

Base end part 21 is the box at original copy Dc side opening.Base end part 21 for example is made of the resin of the black of light-proofness excellence.Light shield 22, with light shield 1 similarly for to have the box of the openend 22a of rectangle in original copy Dc side.Light shield 22 is being supported base end part 21.In addition, among the light shield 22 embedded hole 11a, can move, prop up and be held in light shield 1 with respect to the above-below direction of light shield 1 at Fig. 2.Thus, holding member 2 can move with respect to the above-below direction of light shield 1 at Fig. 2.

Light shield 22 has upper plate 221, hang plate 222 and side plate 223.Central authorities at upper plate 221 are formed with circular hole 221a.Hang plate 222 tilts with respect to upper plate 221, and links to each other with upper plate 221.Side plate 223 links to each other with hang plate 222, and its substrate constitutes openend 22a.Side plate 223 has necking down 22c, 22d, 22e.Near among Fig. 3 the expression necking down 22d major part enlarged drawing.Necking down 22c, 22d, 22e are by engaging with the edge 11a ' of hole 11a, thereby the light shield that will move at the above-below direction of Fig. 2 22 cards end.In addition, necking down 22c, 22d, 22e form in the mode on every side of surrounding side plate 223 respectively.That is, necking down 22c, 22d, 22e are the shape of the complete cycle embedding of hole 11a '.Necking down 22 for example is made of the semi-transparent resin of acrylic compounds, epoxies, polycarbonate-based white.Therefore, light shield 22 can see through and the scattering extraneous light.As fastener of the present invention, can be the necking down shown in the present embodiment, also can be the protuberance that is formed on the light shield 22.

On light shield 22, be formed with the light that surrounds by upper plate 221, hang plate 222 and side plate 223 and pass through space 22b.Move ahead towards hole 221a by space 22b by light by the light of light by space 1b.

Substrate 4 for example is the printed wiring board of long rectangle.Substrate 4 has the structure that the stacked metallic wiring layer that for example is made of copper and resin bed form.Substrate 4 is equipped on the base end part 21.

Camera 5 is equipped on the substrate 4.Thus, camera 5 is accommodated in base end part 21, remains in holding member 2 via substrate 4.As shown in Figure 5, camera 5 has capturing element 51, optical system 52 and support 53.

Capturing element 51 is the elements that for example are called CCD type or cmos type capturing element.Shown in Figure 4 and 5, capturing element 51 has the sensitive surface 511 of rectangle.The size of sensitive surface 511 for example is vertical 3.6mm, horizontal about 2.7mm.In sensitive surface 511 with the unit light area 512 of a plurality of rectangles of rectangular configuration.The electromotive force that constituent parts light area 512 produces corresponding to the light quantity of the light that receives, the zone of promptly so-called performance photoelectric converting function.The arrangement pitches of unit light area 512 for example is about 2 μ m.In the present embodiment, on sensitive surface 511, dispose 1600 * 1200 unit light areas 512.Thus, capturing element 51 can read the original copy Dc of L version size with the resolution of 320DPI.If sensitive surface 511 receives light, then from capturing element 51 outputs output stage other picture signal corresponding with the light income of each unit light area 512.

Optical system 52 makes the light imaging on the sensitive surface 511 of capturing element 51 from original copy Dc incident.Optical system 52 is so-called wide-angle lenses in the present embodiment.As shown in Figure 5, optical system 52 possesses object side lens 521, collector lens 522 and imaging surface side set of lenses 523.Object side lens 521, collector lens 522 and imaging surface side set of lenses 523 remain on the support 53 in the consistent mode in lens centre separately.

Object side lens 521 are concavees lens.Object side lens 521 possess the plane of incidence 521a of object side and the exit facet 521b of imaging surface side.Plane of incidence 521a is the aspheric surface of convex.Plane of incidence 521a is for along with near the shape from diminishing away from radius of curvature the lens centre of object side lens 521.Exit facet 521b has the zone as concave spherical surface.In the present embodiment, the integral body of exit facet 521b is concave spherical surface.Exit facet 521b is concave spherical surface accurately preferably.But, also can on exit facet 521b, for example coat the resin bed that is used for colour killing.In addition, on exit facet 521b, can add the small change that is used to revise various aberrations.

Collector lens 522 is convex lens.It is directional light or almost parallel light that collector lens 522 makes from the light of object side lens 521 outgoing, to 523 incidents of imaging surface side set of lenses.

Imaging surface side set of lenses 523 adopts the set of lenses that can self aberration makes image imaging on imaging surface littlely.Under the situation of present embodiment, imaging surface side set of lenses 523 comprises aspheric surface convex lens 523a and aspheric surface concavees lens 523b.In addition, between imaging surface side set of lenses 523 and capturing element 51, infrared filter 54 can be set.In this case, can prevent infrared ray incident capturing element 51.

According to the optical system 52 of present embodiment, the aspheric surface by the plane of incidence 521a that makes object side lens 521 forms aforesaid convex realizes little than wide-angle and anamorphose.The visual angle of optical system 52 for example is about 100 °, and anamorphose is in ± 3%.In addition, in order further to increase the visual angle of optical system 52, object side lens 521 can be the object side set of lenses that is made of a plurality of lens.

Do not have illustrated transparent panel and be located at the position that enters optical system 52 sides from the openend 1a of light shield 1 a little.Transparent panel is for example made by transparent resin.The function of transparent panel performance protection optical system 52.Transparent panel also when the bending of for example original copy Dc or warpage are big performance push down original copy Dc and make it form the function of the state of substantially flat.

Control IC 71 is the semiconductor chips that are assembled with arithmetic processing circuit.Control IC 71 is controlled the driving of capturing elements 51, or transmits data to storage chip 72, or carries data with the outside reception of scanning means A1.Storage chip 72 for example is a flash memory.The view data that storage chip 72 storage is obtained by the drive controlling of control IC 71.

Then, use Fig. 6～Fig. 9, the using method of scanning means A1 is described.

Below, the read method of the record content of four kinds of original copy Dc1, Dc2 that vary in size, Dc3, Dc4 is discussed.Original copy Dc1 minimum in the size of these original copys Dc1, Dc2, Dc3, Dc4 is according to the order increase of original copy Dc1, Dc2, Dc3, Dc4.Original copy Dc1, Dc2, Dc3, Dc4 for example are respectively the original copy of specification.As for example concrete, then original copy Dc1 is the L version, and original copy Dc2 is the A5 version, and original copy Dc3 is the B5 version, and original copy Dc4 is the original copy of A4 version.

At first, use Fig. 6, the method for the record content of the original copy Dc1 that reads minimum dimension is described.As shown in the drawing, only use holding member 2 when reading the record content of original copy Dc1.With the openend 22a of light shield 22 push original copy Dc1 around state read the record content of original copy Dc1.The read range R1 of holding member 2 is roughly consistent with the size of original copy Dc1.

Then, use Fig. 7～Fig. 9, the method for the record content that reads original copy Dc2, the Dc3 bigger than original copy Dc1, Dc4 is described.As shown in these figures, when reading the record content of original copy Dc2, Dc3, Dc4, the scanning means A1 that uses holding member 2 to embed in the light shield 1.

As shown in Figure 7, when reading the record content of original copy Dc2, holding member 2 is embedded among the hole 11a of light shield 1 so that edge 11a ' enters the state of the necking down 22c of light shield 22.And, with the openend 1a of light shield 1 push original copy Dc2 around state read the record content of original copy Dc2.The read range R2 of scanning means A1 shown in this figure is roughly consistent with the size of original copy Dc2.

As shown in Figure 8, when reading the record content of the original copy Dc3 bigger, holding member 2 is slided on the direction away from original copy Dc3 than original copy Dc2.When the necking down 22d of light shield 22 enters edge 11a ' time, the holding member 2 of slip is ended by card.Then, with the openend 1a of light shield 1 push original copy Dc3 around state read the record content of original copy Dc3.The read range R3 of scanning means A1 shown in this figure is roughly consistent with the size of original copy Dc3.

As shown in Figure 9, when reading the record content of maximum sized original copy Dc4, holding member 2 is further being slided away from the direction of original copy Dc4.When the necking down 22e of light shield 22 enters edge 11a ' time of hole 11a, the holding member 2 of slip is ended by card.Then, with the openend 1a of light shield 1 push original copy Dc4 around state read the record content of original copy Dc4.The read range R4 of scanning means A1 shown in this figure is roughly consistent with the size of original copy Dc4.

Operate and use scanning means A1 like this.

The effect of scanning means A1 then, is described.

In scanning means A1,, holding member 2 is slided with respect to light shield 1 as Fig. 7～shown in Figure 9.By making holding member 2 slide into position shown in Figure 9, can read the record content of the original copy Dc4 of bigger size.On the other hand, slide into position shown in Figure 7 from position shown in Figure 9, can reduce the projecting height of holding member 2 from light shield 1 by making holding member 2.Therefore, can make the thickness of the thickness of scanning means A1 shown in Figure 7 less than scanning means A1 shown in Figure 9.If can reduce the thickness of scanning means A1, the keeping space that then can cut down scanning means A1.Like this, according to scanning means A1, can read the record content of bigger original copy Dc4 and can cut down the keeping space.

In addition, in the present embodiment, holding member 2 can be pulled down from light shield 1.Therefore, when not using scanning means A1, can take care of holding member 2 and light shield 1 respectively.By taking care of holding member 2 and light shield 1 respectively, take care of the situation of scanning means A1 with the state among the hole 11a that embeds light shield 1 with holding member 2 and compare, can cut down the keeping space.In addition, as shown in figure 10, can in light shield 1, take in holding member 2, keeping scanning means A1.

As shown in Figure 6, only use holding member 2, also can with the record content of using scanning means A1 to read original copy Dc similarly, read the record content of smaller original copy Dc1.Only use holding member 2 and when reading the record content of original copy Dc1, read range R1 is near the size of original copy Dc1.If can make the size of read range R1 near original copy Dc1, then from the light of original copy Dc1 can the unit light area 512 of incident capturing element 51 in the more unit light area 512.Therefore, can take original copy Dc1 with higher pixel.Like this, according to scanning means A1, can take the original copy Dc of different sizes with higher pixel.

On light shield 22, be formed with necking down 22c, the 22d, the 22e that engage with the edge 11a ' of hole 11a.Therefore, holding member 2 becomes easy with respect to the location of light shield 1.If holding member 2 becomes easily with respect to the location of light shield 1, then can be easily the read range of scanning means A1 be switched to the scope corresponding with the kind of original copy Dc.

Necking down 22c, 22d, 22e form the shape that the complete cycle of the edge 11a ' of hole 11a enters.Therefore, be difficult to by light between each necking down 22c, 22d, 22e and the edge 11a '.Thus, can suppress not expect the light that enters by space 1b to light from the outside of light shield 1.

Below, other execution mode of the present invention is described.In addition, in these figure, identical with above-mentioned execution mode or similar key element is used the symbol identical with above-mentioned execution mode, suitably omit explanation.

Use Figure 11～Figure 15 that second execution mode of the present invention is described.Figure 11 is the major part profile of the scanning means of present embodiment.The optical system 52 of first execution mode as shown in Figure 5.It is different that the scanning means A2 of present embodiment possesses on reflection part 526 this point scanning means A1 with first execution mode in optical system 52.The structure of scanning means A2 is except camera 5, identical with the structure of the scanning means A1 of first execution mode.

In the present embodiment, substrate 4 is equipped on the sidewall sections of base end part 21.Camera 5 possesses capturing element 51, optical system 52 and support 53.

Figure 12 is that major part along the XII-XII line of Figure 11 is to view.Figure 13 is the figure of read range of original copy Dc in the scanning means of expression present embodiment.Figure 14 is the major part plane graph of capturing element 51.Figure 15 is the major part enlarged drawing of Figure 14.In addition, in Figure 12, for convenience, optical system 52 and support 53 have been omitted.

As Figure 12, shown in Figure 14, capturing element 51 has the sensitive surface 511 of rectangle.The size of sensitive surface 511 for example is vertical 5.8mm, horizontal about 7.7mm.As Figure 14, shown in Figure 15, on sensitive surface 511 with the unit light area 512 of a plurality of rectangles of rectangular configuration.Constituent parts light area 512 is limit rectangles in direction x and direction y extension.The arrangement pitches p1 of the unit light area 512 on the direction x for example is about 4.5 μ m.Arrangement pitches p1 is bigger slightly than the size w1 of the direction x of constituent parts light area 512.The arrangement pitches p2 of the unit light area 512 among the direction y for example is about 8 μ m.Arrangement pitches p2 is bigger slightly than the size w2 of the direction y of constituent parts light area 512.In the present embodiment, on sensitive surface 511, dispose 1280 * 960 unit light areas 512.Thus, capturing element 51 can read the original copy Dc of L version size with the resolution of 265DPI.

As shown in figure 11, optical system 52 possesses lens 525 and reflection part 526.Lens 525 remain on the support 53.Lens 525 make the light imaging on the sensitive surface 511 of capturing element 51 from the incident of original copy Dc side.In the present embodiment, lens 525 are that for example the visual angle is a so-called standard lens about 50 °.

As shown in figure 11, reflection part 526 is installed on base end part 21.Reflection part 526 for example is made of aluminium.Reflection part 526 has the reflecting surface 526a that is made of the high minute surface of reflectivity.Reflecting surface 526a is positioned at the front of lens 525.Reflecting surface 526a is the aspheric surface of convex.More specifically, as shown in figure 13, its direction of reflecting surface 526a z distances last and lens 525 are big more towards original copy Dc side more on direction x, and constant on direction y.Promptly, reflecting surface 526a is to the convex surface of lens 525 side bulgings on direction x.In addition, the reflecting surface 526a that constitutes by convex surface along with from lens 525 away from and curvature diminishes.By such structure, reflection part 526 makes it towards lens 525 by the light of reflecting surface 526a reflection from original copy Dc incident.

The effect of scanning means A2 then, is described.

In scanning means A2, with the scanning means A1 of first execution mode similarly, holding member 2 is slided with respect to light shield 1.Therefore,, the record content of bigger original copy Dc can be read, and the keeping space can be cut down according to scanning means A2.

According to present embodiment, as mentioned above, can make light from the incident of original copy Dc side by the reflecting surface 526a warpage of reflection part 526 towards lens 525.Therefore, the thickness ground that can not increase scanning means A2 increases from reflection part 526 to lens 525 distance.When the distance that increases from reflection part 526 to lens 525, then 525 distance becomes big from original copy Dc to lens.If increase from original copy Dc to lens 525 distance, then the read range of scanning means A2 becomes big.Like this,, then can not increase the thickness of scanning means A2, can increase read range according to scanning means A2 with reflection part 526.In addition, even when using the bigger lens in visual angles, also can realize the slimming of scanning means A2, and when using standard lens, can further realize large-scale shooting as lens 525.

According to present embodiment, reflecting surface 526a is the convex surface of bulging on direction x.Therefore, even the visual angle of lens 525 self diminishes, the scope to being taken by capturing element 51 via reflecting surface 526a can realize the wide-angleization of the vertical angle of view corresponding with direction x.This structure is very suitable in the slimming that realizes scanning means A2.

Reflecting surface 526a along with from lens 525 away from and curvature diminishes.Thus, in the reading images of original copy Dc, can suppress the distortion that produces near part in the image end of wide-angle direction.Thus, can read the record content of original copy Dc more accurately.

In addition, present embodiment also has and the identical advantage of advantage described in first execution mode.

Use Figure 16 that the 3rd execution mode of the present invention is described.Figure 16 is the major part profile of the scanning means of present embodiment.Scanning means A3 shown in this figure possesses two lens 525.These lens 525 are equipped on the two side part of base end part 21 via substrate 4.In the present embodiment, reflection part 526 has two reflecting surface 526a that are made of the plane.These reflectings surface 526a is positioned at and two lens, 525 corresponding positions.As shown in figure 16, the read range of the original copy Dc that is made of two lens 525 repeats in central authorities.Dispose transparent panel 61 among the hole 221a in light shield 22.On transparent panel 61, has certification mark 611 in the central authorities of direction z.

In the present embodiment, read two view data by two lens 525.In these view data, mirror certification mark 611 respectively.Therefore, can detect repeating part in these view data.Then, for example carry out the synthetic processing of two view data, can obtain a large-scale view data by control IC 71.Like this, according to scanning means A3, even thereby, also can obtain two dimensional image accurately on a large scale to original copy Dc because the reflecting surface 526a that has a plane as reflection part 526 can not realize the structure of the wide-angleization of the scope of taking via reflecting surface 526a.In addition, when reflecting surface 526a is curved surface shape shown in second execution mode, can expect better wide-angleization.

Use Figure 17～Figure 19, the 4th execution mode of the present invention is described.Figure 17 is the major part profile of the scanning means of present embodiment.Scanning means A4 shown in these figure is on this point of the hole 31a that also possesses light shield 3, light shield 1 embedding light shield 3, and is different with the scanning means A1 of first execution mode.The light shield 1 of present embodiment and the thickness of holding member 2 are less than the thickness shown in first execution mode.

Light shield 3 is for to have the box of the openend 3a of rectangle in original copy Dc side.On light shield 3, form porose 31a.Light shield 3 for example is made of the semi-transparent resin of acrylic compounds, epoxies, polycarbonate-based white.Therefore, light shield 3 can see through and the scattering extraneous light.The inside of light shield 3 is that light passes through space 3b.Pass through in by space 3b at light from the light of original copy Dc, move ahead to the figure top.

Sidewall 13 in the light shield 1 has a plurality of necking down 1c, 1d, by engaging with hole 31a, thereby the mobile card of light shield 1 on the above-below direction of Figure 17 is ended.Necking down 1c, 1d are the necking downs that the edge 31a ' of hole 31a enters.This necking down is the shape that the complete cycle of the edge 31a ' of hole 31a enters in addition.

The effect of scanning means A4 then, is described.

In scanning means A4, light shield 1 is slided with respect to light shield 3.In addition, holding member 2 is slided with respect to light shield 1.By holding member 2 is positioned at position shown in Figure 17, can read the record content of the original copy Dc of bigger size.On the other hand, slide into position shown in Figure 180 from position shown in Figure 17, can further reduce the thickness of scanning means A4 by making holding member 2 and light shield 1.If can reduce the thickness of scanning means A4, the keeping space that then can cut down scanning means A4.Like this, scanning means A4, with above-mentioned execution mode similarly, can read the record content of bigger original copy Dc, and can cut down the keeping space.In addition, as shown in figure 19, by also cutting down the keeping space with the state keeping scanning means A4 that takes in light shield 1 and holding member 2 in the light shield 3.

The scanning means A4 of present embodiment except having the structure of wide-angle lens at camera 5, also can have the structure of the reflecting plate 526 shown in second execution mode or the 3rd execution mode.

Use Figure 20, the 5th execution mode of the present invention is described.Figure 20 is the profile of the scanning means of expression present embodiment.Scanning means A5 shown in this figure is on this point that also possesses the irradiation sheet material 81 that is disposed on the upper plate 11, different with the scanning means A1 of first execution mode.Irradiation sheet material 81 for example is organic EL sheet material.In such scanning means A5, the light of space 1b is passed through in 81 blockings of irradiation sheet material towards light from the upside of light shield 1.On the other hand, from the light of irradiation sheet material 81 irradiation by seeing through the upper plate 11 that constitutes by white resin, as the scattered light irradiation on original copy Dc.Like this, can be to the light of original copy Dc irradiation appropriate amount.

Also can second, third, be suitable for the structure of irradiation sheet material 81 in each scanning means of the 4th execution mode.In addition, irradiation sheet material 81 can not be disposed on the upper plate 11, and is disposed on the hang plate 12, also can be disposed on the sidewall 13.

Use Figure 21, the 6th execution mode of the present invention is described.Figure 21 is the profile of the scanning means of present embodiment.Scanning means A6 shown in this figure is on this point of the photomask 82 that also possesses the part of leaning on central authorities of being located at upper plate 11 and hang plate 12, different with the scanning means A1 of first execution mode.Photomask 82 for example is made of the resin of black.Among the scanning means A6, the part in the outer week of hang plate 12 and sidewall 13 be can't help photomask 82 and are covered, and the surface of exposing outer circumferential side.This exposed portions serve is that scattering sees through portion 125.If extraneous light arrives this scattering and sees through portion 125, then this extraneous light is by seeing through semi-transparent resin, and the original copy Dc towards the inboard of light shield 1 shines as scattered light.

According to present embodiment, can push with the openend 1a of light shield 1 original copy Dc around state make extraneous lights such as the illumination light in room or sunlight see through the inboard that portion 125 enters light shield 1 via scattering, shine more equably towards original copy Dc as scattered light.Therefore, then different if use this structure with existing plate image read-out, even be picture or photograph album etc. when having step etc. at original copy Dc, also can be only by light shield 1 being covered original copy Dc goes up and the record content that suitably reads original copy Dc.Therefore in addition, according to scanning means A6, to weight and the bigger original copy Dc of thickness, do not need the reading section setting of reversing as plate image read-out, being used for the operation itself that image reads can carry out simply.

Use Figure 22, the 7th execution mode of the present invention is described.Figure 22 is the profile of the scanning means of present embodiment.The scanning means A7 of present embodiment disposes scattering and sees through on the scope this point of portion 125 in light shield 1, different from the embodiment described above.Particularly, a plurality of photomasks 82 separate formation, and thereupon, scattering sees through portion 125 and also separates setting in many places.And, a plurality of scatterings are seen through portion 125, in the cross section direction of light shield 1 (left and right directions among the figure), in outer week, it is big more that scattering sees through portion's 125 width detached from each other.According to such structure, in light shield 1, along with from the central authorities of cross section direction towards periphery, the light quantity that sees through of extraneous light becomes many, in original copy Dc, the closer to the end of reading section, irradiation is the light of high brightness more.Make the view data that is read be more uniform brightness like this, so more preferably.

Use Figure 23, the 8th execution mode of the present invention is described.Figure 23 is the plane graph of the scanning means of present embodiment.The scanning means A8 of present embodiment disposes scattering and sees through on the scope this point of portion 125 in light shield 1, different from the embodiment described above.Particularly, photomask 82 forms the elliptical region of overlooking, and the outside of this elliptical region is that scattering sees through portion 125.According to such structure, scattering sees through in the portion 125, and near four jiaos of area ratios that occupy the reading section of carrying out are greater than the area ratio that occupies other parts.Therefore, can be near irradiation four jiaos (visual angle ends) of the usually not enough reading section of light quantity than light of higher brightness.This when for example handling the view data read by OCR (optical profile type literal reading device), can eliminate that deficiency in light quantity because of the reading section periphery causes can not identification unfavorable condition the time, be favourable.In addition, reading section is when being bordering on foursquare shape, and scattering sees through that portion 125 can be located at the outside of border circular areas and the structure that replaces the outside of being located at elliptical region of Figure 23.

Use Figure 24, the 9th execution mode of the present invention is described.Figure 24 is the plane graph of the scanning means of present embodiment.The scanning means A9 of present embodiment appends on this point that lighting mechanism 84 is set in the outside of light shield 1, and is different from the embodiment described above.Lighting mechanism 84 is to be used for towards original copy Dc irradiation scattered light.Lighting mechanism 84 possesses not shown light source and as a whole with the light conductor 841 of bar-shaped extension.Light source comprises three led chips that for example send red light, green light and blue light.Light source is located at the end of light conductor 841.The drive controlling of light source is undertaken by the control IC 71 that for example connects via not shown distribution.If send light from light source, this light moves ahead in light conductor 841 along its length.

Light conductor 841 is the high parts of transparency that for example are made of acrylic resin.Light conductor 841 has the shape of section circular on whole length roughly.Light conductor 841 is supported on the holding components 842 of outside of the side plate 13 that is installed on light shield 1.Light conductor 841 sees through the periphery configuration of portion 125 along scattering.

According to structure, can shine Line of light with such light source and light conductor 841.This Line of light sees through portion 125 by seeing through scattering, mainly is radiated at the periphery of the reading section of original copy Dc as scattered light.Therefore, for example only be taken into extraneous light and during deficiency in light quantity by external environment condition, also can be by the such light quantity in shortage of lighting mechanism 84 adequate compensations.In addition, the Line of light from light conductor 841 irradiations enters in the light shield 1 as scattered light through portion 125 via scattering.Therefore, this Line of light is difficult to directly mirror in the view data.

Use Figure 25, describe about the tenth execution mode of the present invention.Figure 25 is the profile of the scanning means of present embodiment.The scanning means A10 of present embodiment is provided with in the inboard of light shield 1 on this point of lighting mechanism 84, and is different from the embodiment described above.Lighting mechanism 84 has not shown light source, light conductor 841 and holding components 842.Lighting mechanism 84 is identical with the lighting mechanism 84 of above-mentioned execution mode as basic structure, but the configuration of holding components 842 is different with above-mentioned the 9th execution mode from the exit direction of light conductor 841 with Line of light.In the present embodiment, 842 of holding componentss are held on the upper plate 11 of light shield 1.From the inner face reflection of the light of light conductor 841 irradiation by hang plate 12 or side plate 13.The inner face of preferred angled plate 12 or side plate 13 forms the structure of scattered reflection from the Line of light of light conductor 841.For the scattering Line of light, for example can form fine matsurface.In addition, therewith differently, the inner face of hang plate 12 or side plate 13 also can form the high even surface of reflectivity.

According to such structure, pass through to reflect from the Line of light of light conductor 841 outgoing at the inner face of hang plate 12 or side plate 13, shine towards original copy Dc as scattered light.According to present embodiment, for example only be taken into extraneous light and during deficiency in light quantity by external environment condition, can be by lighting mechanism 84 adequate compensations light quantity in shortage.In addition, therefore lighting mechanism 84 does not need to make scanning means A10 to maximize owing to be located at the inboard of light shield 1.

Use Figure 26～Figure 28, the 11 execution mode of the present invention is described.Figure 26 is the profile of the scanning means of execution mode.The scanning means A11 of present embodiment also possesses in the littler this point of the size of the thickness direction of scanning means A11 and control IC 71 on this point of correction circuit of correction image distortion, and is different with the 6th execution mode.In addition, in the present embodiment, using the visual angle as wide-angle lens is lens about 138 °.Above-mentioned correction circuit generates the correction image data of the anamorphose of having revised original copy Dc from the captured image data of the original copy Dc that taken by capturing element 51.

Figure 27 is that expression is by the state before the above-mentioned correction circuit correction image by the image of the sample of the original copy Dc of capturing element 51 shootings.Figure 28 represents the state after the above-mentioned correction circuit correction distortion of imagery exploitation shown in Figure 27.According to these figure as can be known, the anamorphose of the image end periphery in the image shown in Figure 27 almost disappears by revising in Figure 28.

Above-mentioned correction circuit for example carries out following processing.At first, the captured image data that input is taken by capturing element 51 in above-mentioned correction circuit.This captured image data for example provides in each unit light area 512 and the coordinate of certain two-dimensional coordinate system (be called revise before the coordinate) information relevant with color.Then, coordinate before revising is carried out coordinate transform.Coordinate before the correction of unit light area 512 is transformed to the coordinate (revising the back coordinate) that constitutes the two-dimensional coordinate system that is out of shape the image that is corrected by the transform of stipulating.Then, as the correction image data that the information relevant with color with revising the back coordinate is provided in the per unit light area 512, scanning means A11 waited outward export these data.

Here, above-mentioned transform is by the decision of the characteristic of wide-angle lens.The parameter of this transform passes through to take grid-like test pattern, and the coordinates before and after several are revised are brought this transform into and tried to achieve.At first, take grid-like test pattern, obtain the image of glass type with scale.At this moment, for example obtain the coordinate (revise before coordinate) of axle for each intersection point of grid in the horizontal and vertical orthogonal coordinate system of image.Then, the coordinate (revising the back coordinate) of each intersection point of grid in the coordinate system that each line segment is parallel to each other in the decision grid.Then, be the above-mentioned transform of definite parameter not with the coordinate substitution before and after the correction of each intersection point of grid, can try to achieve these parameters.

Certainly, when the form of coordinate and correction recoil target corresponding relation is known before expression is revised, also can use above-mentioned transform, and use this form, obtain revising the back coordinate from revising preceding coordinate.

Because scanning means A11 possesses above-mentioned correction circuit,, also can access the few image of distortion even therefore make scanning means A11 slimming.

Use Figure 29 and Figure 30, the 12 execution mode of the present invention is described.Figure 29 is the profile of the scanning means of present embodiment.Scanning means A12 shown in this figure is on this point that is provided with handle 67 and opening-closing plate 68 on the light shield 1, different with the scanning means A1 of first execution mode.In addition, transparent panel 6 links with the left end of Figure 29 of light shield 1, can open and close with respect to light shield 1.During carrying scanning means A12, holding member 2 is pulled down from light shield 1, be accommodated in the light shield 1.Then, as shown in figure 30, by opening-closing plate 68 inaccessible hole 11a.Also can use as the suitcase that can carry scanning means A12.

Use Figure 31, the 13 execution mode of the present invention is described.Figure 31 is the major part profile of the scanning means of present embodiment.Scanning means A13 shown in this figure is holding member 2 is linked to this point on the light shield 1 by the binding parts 29 of serpentine on, and is different with the scanning means A1 of first execution mode.In such structure, holding member 2 also can relatively move on the above-below direction in the drawings with respect to light shield 1.Therefore, also can read the record content of bigger original copy Dc, and can cut down the keeping space by scanning means A13.

Figure 32 represents an example of the execution mode of scanning servicing unit of the present invention.The scanning servicing unit B of present embodiment does not possess capturing element and imaging surface side set of lenses, and base end part 21 is formed on the tubular that top among the figure of opposition side of original copy Dc has openend 21a.This scanning servicing unit B for example can be so that possess the lens component of the camera 9 (digital camera or carry the portable phone etc. of camera function) of electronics filming apparatus and in the face of the state of openend 21a the mode that camera 9 is installed in the end of openend 21a side constituted.Like this, scanning servicing unit B is by installing camera 9, can utilize as handset kind scanner that can wide angle shot.

Use Figure 33～Figure 36, other execution mode of scanning means of the present invention is described.

Scanning means C shown in these figure possesses substrate 100, capturing element 200, the wide-angle lens 300 as optical system, shell 400, transparent panel 500 and irradiation sheet material 503.Scanning means C is used to read as the record content of the original copy Dc of the reading object device as view data.

Substrate 100 is printed wiring boards for example, is long rectangle as shown in figure 34.Substrate 100 has the stacked metallic wiring layer that for example is made of copper etc. and the structure of resin bed.Middle body at substrate 100 is installed capturing element 200 and wide-angle lens 300.Installation and control IC 501 and storage chip 502 on substrate 100.

Capturing element 200 is for example to be called CCD type or cmos type element, as Figure 35 and shown in Figure 36, has the sensitive surface 210 of rectangle.On sensitive surface 210, be formed with a plurality of units light area 220.The electromotive force that constituent parts light area 220 produces corresponding to the light quantity of the light that receives, the part of promptly so-called performance photoelectric converting function.A plurality of units light area 220 for example with the constant arrangement pitches about 2 μ m with rectangular configuration.In the present embodiment, sensitive surface 210 is made of 1600 * 1200 unit light areas 220, forms the size of about 3.6mm * about 2.7mm.Thus, capturing element 200 can read the original copy Dc of L version size with the resolution of 320DPI.If sensitive surface 210 receives light, then from capturing element 200 outputs output stage other picture signal corresponding with the light income of each unit light area 220.

Wide-angle lens 300 is the light imagings on the sensitive surface 210 of capturing element 200 that are used to make from original copy Dc incident, as shown in figure 36, possesses object side lens 310, collector lens 320 and imaging surface side set of lenses 330.Object side lens 310, collector lens 320 and imaging surface side set of lenses 330 remain on the lens carrier 340 in the consistent mode in each lens centre.

Object side lens 310 are concavees lens, are provided with the plane of incidence 310a of object side and the exit facet 310b of imaging surface side.Plane of incidence 310a is the aspheric surface of convex, near the radius of curvature its lens centre form along with from the lens centre away from and shape that radius of curvature diminishes.Exit facet 310b has the zone that forms concave spherical surface.In the present embodiment, the zone that forms above-mentioned concave spherical surface reaches roughly 180 °.Exit facet 310b is preferably concave spherical surface accurately, but also can coat the resin bed that for example is used for colour killing, can add the small change that is used to revise various aberrations in addition.

Because collector lens 320 is made of concavees lens at object side lens 310, therefore performance will be dispersed and the light that moves ahead is modified to the effect to 330 incidents of imaging surface side set of lenses of directional light and almost parallel light.Therefore, collector lens 320 integral body are convex lens.

Under the situation of present embodiment, imaging surface side set of lenses 330 is constituted by aspheric surface convex lens 331 and aspheric surface concavees lens 332.This imaging surface side set of lenses 330 adopts the structure that self does not have aberration and can make image imaging on imaging surface.In addition, in order to prevent infrared ray to capturing element 200 incidents, can be between imaging surface side set of lenses 330 and capturing element 200 infrared filter 350.

The wide-angle lens 300 of present embodiment forms the aspheric surface of aforesaid convex by the plane of incidence 310a that makes object side lens 310, realizes for a short time than wide-angle and anamorphose, for example is about 100 °, and anamorphose is in ± 3%.In addition, in order further to increase the visual angle, the lens of object side can be the object side set of lenses that is made of a plurality of lens.

Shell 400 has base end part 410 and light shield 420.Base end part 410 forms the case shape that below in the drawings has openend, is for example made by the resin of the black of light-proofness excellence.Be equipped with substrate 100 on this base end part 410, thus, capturing element 200 and wide-angle lens 300 are taken in via substrate 100 and are remained on the base end part 410.

Thereby light shield 420 is to be used for by pushing the device that original copy Dc covers reading section covering with the outside division of this original copy Dc, and forming in the drawings, the original copy Dc side of below has the box of the openend 420a of long rectangle.More specifically, light shield 420 possesses upper plate 421, hang plate 422 that links to each other with this upper plate 421 and the side plate 423 that links to each other with hang plate 422 that has through hole 421a in central authorities, and wide-angle lens 300 is installed on the open end of base end part 410 with the posture in the face of through hole 421a.Hang plate 422 form along with from wide-angle lens 300 towards openend 420a and that the cross section is expanded laterally is skewed.In the present embodiment, light shield 420 forms and can see through the also structure of scattering extraneous light, and for example the semi-transparent resin by white constitutes.As the material of such light shield 420, can enumerate for example acrylic compounds, epoxies or polycarbonate-based resin.

Irradiation sheet material 503 roughly forms on the whole hang plate 422.Irradiation sheet material 503 for example is the sheet material of organic EL.Irradiation sheet material 503 is towards hang plate 422 irradiates lights.From shining the light transmission hang plate 422 that sheet material 503 sends, towards original copy Dc.

Transparent panel 500 for example is to be made by transparent resin, is installed on the light shield 420.In the present embodiment, transparent panel 500 is located at the position that enters wide-angle lens 300 sides from the openend 420a of light shield 420 slightly.This transparent panel 500 has the effect of protection wide-angle lens 300, and performance is pushed down original copy Dc and made it form the function of the state of substantially flat when the bending of for example original copy Dc or warpage are big.In addition, can be below transparent panel 500 the formation antireflection film.In this case, can suppress the light loss that causes in transparent panel 500 lip-deep reflections towards the light of wide-angle lens 300 from original copy Dc.The space that is surrounded by upper plate 421, hang plate 422, side plate 423 and transparent panel 500 is equivalent to the example of light of the present invention by the space.

Control IC 501 is the semiconductor chips that are assembled with arithmetic processing circuit, carry out capturing element 200 drive controlling, to the data of storage chip 502 transmit and with the outer Data Receiving transmission of scanning means C.Storage chip 502 is a flash memory for example, is used for storing in advance the view data that the drive controlling by control IC 501 obtains.

The effect of scanning means C then, is described.

According to present embodiment, can push the state of original copy Dc with the openend 420a side of light shield 420, by extraneous lights such as illumination light of shining sheet material blocking rooms 503 or sunlights, and will enter the inboard of light shield 420 as scattered light from the light of irradiation sheet material 503.Therefore, if use scanning means C, then different with existing plate image read-out, even be picture or photograph album etc. when having step etc. at original copy Dc, also can be only by light shield 1 being covered original copy Dc goes up and the record content that suitably reads original copy Dc.Therefore in addition, according to scanning means C, to weight and the bigger original copy Dc of thickness, do not need the reading section setting of reversing as plate image read-out, being used for the operation itself that image reads can carry out simply.Therefore, scanning means C is suitable as the utilization of handset kind scanner.

In scanning means C, have wide-angle lens 300 as optical system, thereby can realize wide-angle and be out of shape few imaging.Thus, wide-angle lens 300 can be disposed at apart from the closer position of the openend 420a of shell 400, can realize the slimming of scanning means C.

Scope of the present invention is not limited to above-mentioned execution mode, and the concrete structure of each several part of the present invention can freely carry out various design alterations.

Scanning means of the present invention can be connected with television set etc. and use as the literal amplifier.Perhaps, scanning means of the present invention can be used as the sub-scanning instrument usefulness that lecture is used or faxed.

Figure 37 and Figure 38 represent an example of scanning system of the present invention.The scanning system D1 of present embodiment possesses basket 600, driving mechanism 700, controlling organization 710 and scanning means C.Scanning system D1 is by possessing above-mentioned scanning means C on its part, thereby can for example read the system of processing as the comparison high-speed image of reading object with the original copy Dc of A4 size.In addition, the structure of scanning means C as mentioned above, but for example also can be to possess the structure of Figure 24 and lighting mechanism 84 shown in Figure 25 and replace Figure 33 and irradiation sheet material 503 shown in Figure 34.

Basket 600 is taken in scanning means C, driving mechanism 700 and controlling organization 710.Transparent panel 604 is installed on basket 600.Transparent panel 604 constitutes the face that mounting has original copy Dc.Be equipped with on the basket 600 and cover 601.When reading processing, the effect that original copy Dc is pushed in lid 601 performances.

On basket 600, be formed with framework 602.Framework 602 forms to surround and is used to make the rectangular ring that arrives the opening 605 of scanning means C from the light of original copy Dc.Mark subregion mark 641,642,643,644 described later on the face of the scanning means C of framework 602 side.

Driving mechanism 700 be used in basket 600, making scanning means C along original copy Dc to the mechanism that x direction and y direction move, have bar 701, motor 702 and be with 703.Bar 701 extends on the x direction, and scanning means C can be supported on the x direction slidably.In addition, bar 701 can move on the y direction by not shown motor., drive in the oval ring-type of extending with 703 coileds by motor 702 along x direction major axis.Be with 703 to be linked to scanning means C.By the driving of motor 702, scanning means C can move on the x direction.In addition, and add in having the structure of transducer line by line that to force line by line transducer to move line by line different, in the present embodiment, can only scanning means C be moved to the position at two positions respectively on x direction and y direction.Therefore, as driving mechanism 700, can adopt the structure of the mechanism that for example uses spring or the manual motion scan device of user C to replace motor 702.

Controlling organization 710 be the action that is used for controlling and driving mechanism 700, scanning means C photographing process and with the mechanism of the outer Data Receiving transmission of machine etc., for example possess CPU, memory and data-interface.

Figure 39 is the figure that observes the state of configuration original copy Dc from the inboard of basket 600.Around original copy Dc, show below the framework 602.Mark subregion mark 641,642,643,644 below framework 602.Subregion mark the 641, the 643rd, the mark of upwardly extending thick line shape in y side, subregion mark the 642, the 644th, the mark of upwardly extending thick line shape in x side.In addition, be not limited to the structure of thick line shape, also so long as quadrangle, quadrangle, circle etc. are fit to carry out the shape of the synthetic processing of image described later gets final product as subregion mark 641,642,643,644.

The image of scanning system D1 reads processing to carry out according to following order.

At first, according to the instruction of controlling organization 710, driving mechanism 700 makes scanning means C move to camera site 651.In this camera site 651, take the image of original copy Dc by scanning means C.As shown in figure 40, in the image 661 that obtains by this shooting, mirror subregion mark 641,644 with the part of original copy Dc.

Then, according to the instruction of controlling organization 710, driving mechanism 700 makes scanning means C move to camera site 652 as shown in figure 39.Take the image of original copy Dc by scanning means C in this camera site 652.As shown in figure 40, in the image 662 that obtains by this shooting, mirror subregion mark 641,642 with the part of original copy Dc.

Then, according to the instruction of controlling organization 710, driving mechanism 700 makes scanning means C move to camera site 653 as shown in figure 39.Take the image of original copy Dc by scanning means C in this camera site 653.As shown in figure 40, in the image 663 that obtains by this shooting, mirror subregion mark 643,644 with the part of original copy Dc.

Then, according to the instruction of controlling organization 710, driving mechanism 700 makes scanning means C move to camera site 654 as shown in figure 39.In this camera site 654, take the image of original copy Dc by scanning means C.As shown in figure 40, in the image 664 that obtains by this shooting, mirror subregion mark 642,643 with the part of original copy Dc.

The storage of the image 661,662,663,664 that is obtained by these photographing process is in the memory of controlling organization 710.And, controlling organization 710 carry out in the image 661,662,663,664 adjacent between each other synthetic processing.The fact that for example mirrors subregion mark 641 in image 661 and image 662 gives controlling organization 710 as known information.Controlling organization 710 with the overlapping mode coincidence pattern of mutual subregion mark 641 as 661,662.Similarly, the mode coincidence pattern that overlaps with subregion mark 642 is as 662,663, and as 663,664, the mode coincidence pattern that overlaps with subregion mark 644 is as 661,663 with the overlapping mode coincidence pattern of subregion mark 643.By these synthetic images 660 of handling the integral body that obtains mirroring original copy Dc.

According to present embodiment, the number of times that reads the photographing process in the processing that comprises original copy Dc only is four times.The number of times that after each photographing process, carries out, transmit to the view data of controlling organization 710 also four times.Therefore, can significantly shorten the required stand-by period of switching in repeatable operation photographing process and data transfer process.Therefore, can carry out rapidly A4 size for example original copy Dc read processing.

Because as 661,662,663,664, it is few to produce the excessive worry that departs from by the position relation of standard between the image 661,662,663,664 by subregion mark 641,642,643,644 coincidence patterns.Particularly, even that utilizes scanning means C that driving mechanism 700 carries out contains the unintended locations error in the moving of camera site 651,652,653,654, as long as subregion mark 641,642,643,644 is mirrored image 661,662,663,664, then can suitably carry out the coincidence of image and handle.

Figure 41 represents the variation of scanning system D1.In this variation, on lid 601, be provided with subregion mark 606.Subregion mark 606 is the crosswises in the upwardly extending thick line shape part of x direction and y side.On framework 602, be formed with four windows 607.Four windows 607 connect framework 602, are located at when closing cap 601 on the position that overlaps with four fore-ends of subregion mark 606.

In such variation, if take original copy Dc by scanning means C, with example shown in Figure 40 similarly, on image 661～664, replace subregion mark 641～644, and mirror subregion mark 606.Thus, can suitably carry out the synthetic processing of a plurality of images 661～664.

Figure 42 and Figure 43 represent other example of scanning system of the present invention.The scanning system D2 of present embodiment possesses scanning means C, framework 800 and personal computer 810.The scanning system D2 person of being to use reads the device of processing by hand held scanning device C, and D1 compares with scanning system, is simple structure.In addition, for example can adopt the structure that possesses Figure 24 and lighting mechanism 84 shown in Figure 25 to replace Figure 33 and irradiation sheet material 503 shown in Figure 34 as scanning means C.In addition, also can be to make as the diffusion of the extraneous light of photographic light sources and the structure that sees through or the structure that also possesses photomask 82 shown in the structure of Figure 21～shown in Figure 23 by light shield 420.

Framework 800 is a rectangular ring, and for example the original copy Dc than A4 size is big.On framework 800, be formed with opening 804 and locating aperture 805.Opening 804 is used to make the light from original copy Dc to arrive scanning means C.On framework 800, embed transparent panel 803.

Locating aperture 805 ratio opens 804 more are positioned at the top of Figure 43, and ratio open 804 is big.The medial surface of locating aperture 805 is connected to the lateral surface of scanning means C, stipulates the position of x direction and the y direction of scanning means C thus.

In framework 800, surround above the part of opening 804, be marked with a plurality of subregion marks 801.These subregion marks 801, with above-mentioned subregion mark 641,642,643,644 similarly, respectively comprise the mark of two thick line shapes that extend in the x direction and the mark of upwardly extending thick line shape in y side.In addition, be not limited to the thick line shape, also so long as quadrangle, triangle, circle etc. are fit to carry out the shape of the synthetic processing of image described later gets final product as subregion mark 801.

A plurality of support pin 802 are installed in the bottom of framework 800.Support pin 802 to have spring flexible on above-below direction.Framework 800 is supported by a plurality of support pin 802, can suitably be pushed the different a plurality of original copy Dc of thickness.

Personal computer 810 is equivalent to an example of controlling organization of the present invention, for example is connected with scanning means C via cable.Personal computer 810 carries out the synthetic processing of the image sent here by scanning means C.The structure of establishing the controlling organization of administering the synthetic processing of image in addition, also can adopting on scanning means C replaces possessing the structure of personal computer 810.

Use the processing of reading of the original copy Dc of scanning system D2 to carry out as following order.At first, push original copy Dc by framework 800.Then, so that the lateral surface of scanning means C is connected to the state of the medial surface of locating aperture 805 takes.Then, make scanning means C after moving on x direction or the y direction, take along the medial surface of locating aperture 805.Below, the scanning means C that hockets moving and taking.When the photographing process that amounts to four times finishes, respectively comprised four images of the each several part of original copy Dc.In these images, with the example of reference Figure 40 explanation similarly, mirror subregion mark 801 at suitable position.Synthesize these images in the mode that these subregion marks overlap by personal computer 810.According to above order, obtain containing the image of the integral body of original copy Dc.

According to present embodiment,, can realize that therefore the cost of scanning system D2 descends owing to do not possess driving mechanism 700.On the other hand, by along the location of the scanning means C of locating aperture 805 with to apply flexibly the image of subregion mark 801 synthetic, can precision carry out reading well greater than the original copy Dc of the size of scanning means C.

Scanning system of the present invention is not limited to above-mentioned execution mode.The concrete structure of each several part of the present invention can freely carry out various design alterations.

Claims (33)

1. scanning means, this scanning means is characterized in that possessing to push reading object or the state around it reads described reading object as two dimensional image:

First light shield, it is formed with and makes first light that passes through from the light of described reading object side incident pass through the space;

Camera makes by described first light and assembles by the light in space, takes described reading object; With

The holding member that keeps described camera,

Described holding member is positioned at the primary importance and the second place, at least a portion of holding member described in this primary importance is positioned at respect to the opposite side with described reading object of described first light shield, and this second place is than the more approaching described reading object of this primary importance.

2. scanning means as claimed in claim 1 is characterized in that:

Described holding member can be from described first light shield loading and unloading.

3. scanning means as claimed in claim 1 or 2 is characterized in that:

Described holding member can with respect to described first light shield towards near and relatively move away from least one side of the direction of described reading object.

4. as each described scanning means in the claim 1～3, it is characterized in that:

Described holding member comprises second light shield, and this second light shield is formed with and makes second light that passes through by the light of described first light by the space by the space,

Be formed with first hole that described second light shield embeds on described first light shield.

5. scanning means as claimed in claim 4 is characterized in that:

Described second light shield has one or more second light shield fasteners, and this second light shield fastener engages with the edge in described first hole, and will near and end away from the mobile card of the above holding member of direction of described reading object.

6. scanning means as claimed in claim 5 is characterized in that:

The necking down that the edge that the described second light shield fastener is described first hole enters.

7. scanning means as claimed in claim 6 is characterized in that:

Described necking down is the shape that the complete cycle at the edge in described first hole enters.

8. as each described scanning means in the claim 5～7, it is characterized in that:

The read range that a plurality of cards of described second light shield end in the state is consistent with the specification of a plurality of regulations respectively.

9. as each described scanning means in the claim 1～8, it is characterized in that:

Described camera comprises:

Capturing element, it has and is formed with the sensitive surface that is configured to rectangular a plurality of light areas along orthogonal first and second directions respectively with the predetermined arrangement spacing; With

Optical system makes light from the incident of described reading object side in described sensitive surface imaging.

10. scanning means as claimed in claim 9 is characterized in that:

Also possess reflection part, its have with all vertical third direction of the either direction of described first direction and second direction on the distance of described camera on the described first direction more towards described reading object side big more and on described second direction constant reflecting surface.

11., it is characterized in that as each described scanning means in the claim 1～10:

Also possess the 3rd light shield, it is formed with and makes the 3rd light that passes through from the light of described reading object side incident pass through the space, and has the 3rd hole that described first light shield embeds.

12. scanning means as claimed in claim 1 is characterized in that:

Described first light shield has the first light shield fastener, and this first light shield fastener engages with the edge in described the 3rd hole, and will near and end away from the mobile card of the above first light shield of direction of described reading object.

13., it is characterized in that as each described scanning means in the claim 2～8:

Described holding member is the size that can be accommodated in described first light shield.

14. scanning means as claimed in claim 13 is characterized in that:

Described first light shield has the peristome at described reading object side opening,

The transparent panel that also has inaccessible described peristome; With

Be located at the handle of described first light shield,

Described holding member can be to be accommodated in the state carrying of described first light shield.

15., it is characterized in that as each described scanning means in the claim 1～14:

Also possess and be located on described first light shield and the irradiation sheet material of described reading object irradiates light.

16. a scanning servicing unit, this scanning servicing unit is using when reading object or the state around it read described reading object as two dimensional image to push, and it is characterized in that:

Possess light shield, it is formed with and makes the light that passes through from the light of described reading object side incident pass through the space;

Make the optical system of assembling by the light in space by described light; With

The holding member that keeps described optical system,

Described holding member is positioned at the primary importance and the second place, and at least a portion of holding member described in this primary importance is positioned at respect to the opposite side with described reading object of described first light shield, and this second place is than the more approaching described reading object of this primary importance,

The light of being assembled by described optical system uses with the state that the lens component to camera advances.

17. a scanning means, this scanning means reads described reading object with the state of pushing around reading object or its as two dimensional image, it is characterized in that:

Possess light shield, it is formed with and makes the light that passes through from the light of described reading object side incident pass through the space; With

Camera, it makes by described light assembles by the light in space, takes described reading object.

18. scanning means as claimed in claim 17 is characterized in that:

Described light shield is made of the material that makes the light diffusion and see through.

19. scanning means as claimed in claim 17 is characterized in that:

Possess and be located on the described light shield and the irradiation sheet material of described reading object irradiates light.

20. scanning means as claimed in claim 17 is characterized in that:

Possess the light conductor of being located on the described light shield and make the light source of light to this light conductor incident.

21. scanning means as claimed in claim 20 is characterized in that:

Described light conductor is located at the outside of described light shield.

22. scanning means as claimed in claim 20 is characterized in that:

Described light conductor is located at the inboard of described light shield.

23. a scanning system is characterized in that possessing:

Each described scanning means in the claim 17～22;

Basket, it takes in described scanning means, and has and make the opening that arrives above-mentioned scanning means from the light of described reading object;

Driving mechanism, it makes described scanning means move up along the first direction of described reading object with as the second party of the direction of intersecting with this first direction; With

Controlling organization, its a plurality of images of being taken by described scanning means from a plurality of positions different mutually on described first and second directions generate the image of a described reading object.

24. scanning system as claimed in claim 23 is characterized in that:

Described basket has and surrounds described opening and in the keep the score framework of district's mark of the face subscript of described scanning means side.

25. scanning system as claimed in claim 23 is characterized in that:

On described basket, be provided with the lid of pushing down described reading object,

Be marked with the subregion mark on the position of in described lid, facing with described scanning means.

26. scanning system as claimed in claim 25 is characterized in that:

Described basket has the framework of surrounding described opening,

On described framework, be formed with the window portion of described subregion index face that make to described scanning means.

27., it is characterized in that as each described scanning system in the claim 24～26:

Described controlling organization has the synthetic in the mode of this subregion mark unanimity each other of identical described subregion mark with reflecting in described a plurality of images.

28. a scanning system is characterized in that possessing:

Each described scanning means in the claim 17～22; With

Framework, it pushes down described reading object, and has and make the opening that arrives described scanning means from the light of described reading object.

29. scanning system as claimed in claim 28 is characterized in that:

Be formed with locating aperture on described framework, this locating aperture has by be connected the medial surface of the position of stipulating described scanning means with the lateral surface of described scanning means.

30., it is characterized in that as claim 28 or 29 described scanning systems:

Possess controlling organization, its from along the first direction of described reading object with as and the second direction of this first direction direction of intersecting on the image of a described reading object of a plurality of images generations of the captured described scanning means in different mutually a plurality of positions.

31. scanning system as claimed in claim 30 is characterized in that:

Described controlling organization is the personal computer that is connected on the described scanning means.

32. scanning system as claimed in claim 30 is characterized in that:

On the face of the described scanning means side of described framework, be marked with the subregion mark.

33. scanning system as claimed in claim 32 is characterized in that:

Described controlling organization has the synthetic in the mode of this subregion mark unanimity each other of identical described subregion mark with reflecting in described a plurality of images.

Images