CN204180152U - Scanning device - Google Patents

Abstract

The utility model discloses a scanning device, scanning device contain device body, scanning module, positioning adjustment module and processing module. The device body utilizes the design of the inclined platform to support an object to be scanned, and defines the boundary size of the object to be adjusted through the positioning adjustment module, when a first sensor of the positioning adjustment module is pressed and triggered, the processing module starts the scanning module to scan, and controls the scanning module to move to a boundary position according to a boundary signal so as to avoid over-stroke scanning, thereby reducing the scanning time of idle stroke and simplifying the subsequent processing steps of image signals.

Description

Scanning means

Technical field

The utility model relates to a kind of scanning means, particularly can carry out for the bound document such as books, magazine the scanning means that scans, utilize the inclined-plane between platform adjacent to make bound document can be flattened on scanning window, to avoid causing the problem of scan image shortage or distortion to produce.

Background technology

The many books of the remote past of general common people's family Chang Dianzang or hand-written notebook, it quite has value concerning individual, if by this digitlization, can more easily can preserve, and can accomplish more effective application through digital management.But for bound file to be scanned or books, because this type of file to be swept can not by feeder automatic paging paper feed, so there is the scanner of automatic carriage function and inapplicable.

Scan with flat bed scanner although bound file or books can be opened, but general flat bed scanner is when scanning book contents, can because the books opened cannot allow content pages really be flattened on scanning window, cause the situation of scan image shortage or distortion, so utilize general flat bed scanner to scan page in books or bound scanning object, it is not very appropriate behaviour in service.

In addition, known scanning means first must perform prescan before formal scanning, namely with the whole scanning platform of low resolution rapid scanning, recycling image procossing is with the profile of identification scanning object, and then define size and/or the position of scanning object, no matter therefore the size of scanning object must expend the prescan time at least one times, and the space of volatile memory can be taken in a large number, and then reduce the efficiency of file process.

Described in before taking a broad view of, therefore, inventor of the present utility model concentrates on studies through pains for many years, thinks and design a kind of scanning means, is improved with the disappearance for prior art, and then the enforcement in enhancement industry utilizes.

Utility model content

In view of above-mentioned known problem, the purpose of this utility model is, proposes a kind of scanning means, and it utilizes the first platform and the second platform to be that angle is configured to the convenient scanning object placing the bound documents such as books.

In view of above-mentioned known problem, the purpose of this utility model is, proposes a kind of scanning means, and it utilizes mechanical sensor to replace optical sensor, to improve the not high and problem of easily false touch or erroneous judgement of optical sensor accuracy.

In view of above-mentioned known problem, the purpose of this utility model is, proposes a kind of scanning means, its utilize location adjusting module to define the size of object, and then reduce over stroke scanning time and the step of simplified image process.

In view of above-mentioned known problem, the purpose of this utility model is, proposes a kind of scanning means, and it can utilize location adjusting module to define the size of object, more can save the time of resetting.

Based on above-mentioned purpose, the utility model provides a kind of scanning means, and it applies to sweep object, and scanning means comprises device body, scan module, location adjusting module and processing module.Device body can have the first platform and the second platform, the first platform and the second platform adjacent, the first platform arranges scanning area.Scan module is arranged at below the first platform, and scan module scanning is positioned over the object of scanning area to produce picture signal.Location adjusting module is arranged on the second platform, location adjusting module comprises length adjusting mechanism and first sensor, first sensor is chimeric to be assembled on length adjusting mechanism to adapt to adjust relative position, first sensor can be used for detecting the boundary position of object and sends sideband signal and processing module can be electrically connected on scan module and first sensor, to receive picture signal and sideband signal, processing module can receive and store images signal.Wherein when first sensor pressing triggers, processing module starts scan module and carries out scanning and move to boundary position according to sideband signal gated sweep module, scans to avoid stroke.

Preferably, location adjusting module also comprises multiple second transducer, and multiple second transducer is chimeric to be assembled on length adjusting mechanism and after being sequentially arranged at first sensor, multiple second transducer can be electrically connected on processing module to position setting.

Preferably, when multiple second transducer is triggered and produces corresponding multiple secondary signal, then with multiple second transducer middle distance first sensors respective signal farthest for sideband signal.

Preferably, first sensor and/or multiple second transducer can be mechanical sensor.

Preferably, adjusting module is located near the boundary line setting that the first platform and the second platform adjoin.

Preferably, the angle between the first platform and the second platform is between 90 degree to 180 degree.

Preferably, boundary position can be the boundary dimensions of detecting object or manually sets.

Preferably, scanning means of the present utility model also comprises control interface to set the operator scheme of scanning means.

Preferably, scanning means of the present utility model also comprises display module with modes of display operation.

Preferably, object can comprise books, bound document or file.

Main purpose of the present utility model is, provides a kind of scanning means, and it can have following multiple advantage:

1. promote treatment effeciency: utilize location adjusting module to define object size scope to be scanned, and then save the processing time of prescan and can significantly reduce taking up room of volatile memory.

2. promote picture quality: by the inclined design of scanning means with support bound document, image can be reduced and easily produce the probability that scalloping or the problem such as fuzzy occur at book back place, and then promote the quality of scan image, be beneficial to subsequent treatment and use.

3. save positioning time: by first sensor or the second transducer with outside the boundary dimensions of Auto-Sensing object to be scanned, more directly manually set sweep limits by user, to save positioning time.

4. the chimeric assembling of module: first sensor and multiple second transducer adopt modularized design, install voluntarily to facilitate user or keep in repair replacement.

5. reduce equipment cost: do not utilize mechanical sensor not only effectively can solve optical sensor accuracy high and easily outside the problem such as erroneous judgement, and the cost of mechanical sensor compares optical sensor more cheaply, and integral device cost is minimized.

6. reduce number of components: by the magnitude setting being configured to reduce transducer of location adjusting module, to reduce relevant cost.

In order to allow above-mentioned purpose, technical characteristic and actual implement after incrementally more to become apparent, be described in detail with preferably implementing example with reference to corresponding relevant accompanying drawing hereinafter.

Accompanying drawing explanation

Fig. 1 is the block diagram of scanning means of the present utility model.

Fig. 2 is the structural representation of scanning means of the present utility model.

Fig. 3 is the first embodiment schematic diagram of scanning means of the present utility model.

Fig. 4 is the second embodiment schematic diagram of scanning means of the present utility model.

Embodiment

For convenience of effect that auditor understands feature of the present utility model, content and advantage and can reach, here, the utility model is coordinated accompanying drawing, and be described in detail as follows with the expression-form of embodiment, and wherein used accompanying drawing, its purport is only signal and the use of aid illustration book, may not for the utility model implement after actual proportions and precisely configure, therefore should not understand with regard to the ratio of accompanying drawing and configuration relation, limit to the interest field of the utility model on reality is implemented.

Advantage of the present utility model, feature and the technical method reached are explained in more detail with reference to exemplary embodiments and accompanying drawing and are easier to understand, and the utility model or can realize in different forms, therefore should not be understood the embodiment being only limitted to the statement of this place, on the contrary, have art and usually know the knowledgeable, the embodiment provided will make this exposure more thorough with comprehensively and intactly pass on category of the present utility model, and the utility model will only be attached claim defined.

Please refer to Fig. 1 and Fig. 2, can know by figure, scanning means 100 comprises device body 10, scan module 20, location adjusting module 30 and processing module 40, device body 10 has the first platform 11 and the second platform 12, first platform 11 setting has the scanning area 115 of transparency carrier for scanning, and the first platform 11 and the second platform 12 are be configured in angle conveniently place the bound documents such as books, utilize the second platform 12 with support bound document, the angular range of the first platform 11 and the second platform 12 is between 90 degree ~ 180 degree.In enforcement, the scanning area 115 of the first platform 11 is transmitted on object 80 to be scanned to make the scanning ray of scan module 20, produces picture signal 25 to coordinate scan module 20.

Location adjusting module 30 is arranged on the second platform 12, and location adjusting module 30 comprises length adjusting mechanism 31 and first sensor 32, and location adjusting module 30 is arranged along the boundary line adjoined near the first platform 11 and the second platform 12.In enforcement, first sensor 32 can be designed to the modular assembly of insertion slot type, user can be assembled on length adjusting mechanism 31 by chimeric for first sensor 32, and according to actual service condition to adapt to adjust relative position, in addition, first sensor 32 is for detecting the boundary position 81 of object 80 and sending sideband signal 82.

Processing module 40 can be electrically connected on scan module 20 and first sensor 32, to receive picture signal 25 and sideband signal 82, processing module 40 receives picture signal 25, and picture signal 25 can be stored in the built-in volatile memory of device or the various storage module such as external hard disk or flash disk.Wherein when first sensor 32 presses triggering, namely processing module 40 starts scan module 20 and carries out scanning and move to boundary position 81 according to sideband signal 82 gated sweep module 20, scans to avoid stroke.

In enforcement, scanning means 100 also can comprise control interface 50 and display module 60, control interface 50 is to set the operator scheme 55 of scanning means 100, user can be file scan pattern or books scan pattern according to the different aspect sets itself of object 80, or triggering first sensor 32 by pressing is switched to books scan pattern to make scanning means 100, and operator scheme 55 is shown in display module 60 with current the carried out scanning process of assisted user understanding.

Further illustrate, when scanning means 100 switches to books scan pattern, picture signal 25 can cut by processing module 40 automatically, automated graphics rotates or merge the image processing process such as image, thus shortening follow-up image procossing time-histories.

Refer to Fig. 3, it is the first embodiment schematic diagram of the present utility model, when reality uses, the object such as books or bound document 80 launches on the scanning area 115 of the first platform 11 placing scanning means 100 by user, second 12, platform can support the Non-scanning mode region of object 80, to allow the scanning target area of object 80 can be smooth on scanning area 115, so reduce object 80 scan after picture signal 25 produce the generation probability of distortion or the problem such as fuzzy in bookbinding place.

When user is when scanning the object such as books or bound document 80, batch scanning process often, utilizes known scanner to carry out processing, and needs the time of at substantial on prescan and increases follow-up loaded down with trivial details image processing step on foot.For this problem, the utility model then proposes to utilize location adjusting module 30 to improve, utilize the relative position of adjustment first sensor 32 to define the boundary position 81 of object 80, when user presses triggering first sensor 32, first sensor 32 also sends sector signal 82 on one side according to boundary position 81, processing module 40 moves to boundary position 81 according to sideband signal 82 with gated sweep module 20, to complete the scanning process of single.

Further illustrate, because length adjusting mechanism 31 and first sensor 32 are the chimeric assemblings with insertion slot type, first sensor 32 can utilize length adjusting mechanism 31 to adjust to appropriate location neatly to set sweep limits.In enforcement, terminal board concept is utilized to be assembled on length adjusting mechanism 31, with the electrical connection maintained and between processing module 40 by chimeric for first sensor 32.In addition, user can be allowed according to operation manual to install voluntarily or to keep in repair replacement, to reduce subsequent maintenance cost.

Refer to Fig. 4, it is the second embodiment schematic diagram of the present utility model, from in figure, when during scanning means 100 is, large-scale type time, the first sensor 32 of location adjusting module 30 does not apply because being limited to line configuring problem and uses, then locate adjusting module 30 and also can comprise multiple second transducer 33, the quantity of the second transducer 33 can increase and decrease to some extent according to actual demand, be fitted together to same with first sensor 32 of second transducer 33 is assembled on length adjusting mechanism 31, and multiple second transducer 33 is sequentially arranged at the rear of first sensor 32.But the second transducer 33 also elasticity can adjust relative position, and then the setting of minimizing associated sensed assembly is to save equipment cost.

When multiple second transducer 33 is triggered and produces corresponding multiple secondary signal 335, then with multiple second transducer 33 middle distance first sensors 32 respective signal farthest for sideband signal 82 is to position setting.

In enforcement, boundary position 81 can utilize the secondary signal 335 between the second transducer 33 to judge to define the border of object 80, or the position of manual adjustment first sensor 32 or the second transducer 33 is directly to set the boundary dimensions of object 80, by location adjusting module 30 to define the size of object 80, and then reduce over stroke scanning time and the step of simplified image process.

In enforcement, first sensor 32 and/or the second transducer 33 select mechanical sensor have simple structure, action really, the advantage such as low price, to improve the not high and problem of easily false touch or erroneous judgement of optical sensor accuracy.

Illustrate, utilize the setting of location adjusting module 30 can by the actual boundary of scanning area limit at object 80, not only can reduce sweep time more can and reduce processing time of subsequent image signal 25, and then promote treatment effeciency.

Further illustrate, user may have the bound document of many different sizes for scanning, example: middle document size has large 16 formats 210 × 297 (mm), large 32 formats 148 × 210 (mm) and large 64 formats 105 × 148 (mm); Just spending and be: 16 formats 188 × 265 (mm), 32 formats 130 × 184 (mm), 64 formats 92 × 126 (mm) ... etc. various sizes; Foreign language book's size has A5 (14.1cm × 21cm), A6 (15cm × 10.5cm), 36K (17cm × 11.5cm) ... etc. various sizes.User can according to conventional size by first sensor 32 and multiple second transducer 33 is chimeric is assembled on length adjusting mechanism 31, directly to set boundary position 81, and then saves the time because expending needed for resetting.

Above-described embodiment is only and technological thought of the present utility model and feature is described, its object understands content of the present utility model implementing according to this enabling the personage knowing this skill, when can not with restriction the scope of the claims of the present utility model, namely the equalization that every spirit disclosed according to the utility model is done changes or modifies, and must be encompassed in the scope of the claims of the present utility model.

Symbol description

100 scanning means

10 device bodies

11 first platforms

12 second platforms

115 scanning areas

20 scan modules

25 picture signals

30 location adjusting modules

31 length adjusting mechanisms

32 first sensors

33 second transducers

335 secondary signals

40 processing modules

50 control interfaces

55 operator schemes

60 display modules

80 objects

81 boundary positions

82 sideband signals.

Claims (10)

1. a scanning means, it applies to sweep object, it is characterized in that, described scanning means comprises:

Device body, it has the first platform and the second platform, described first platform and described second platform adjacent, described first platform arranges scanning area;

Scan module, it is arranged at below described first platform, and described scan module scanning is positioned over the described object of described scanning area to produce picture signal;

First sensor, it is mechanical sensor, and described first sensor is for detecting the boundary position of described object and sending sideband signal; And

Processing module, it is electrically connected on described scan module and described first sensor, and to receive described picture signal and described sideband signal, described processing module receives and stores described picture signal;

Wherein, when described first sensor is pressed triggering, described processing module starts described scan module and carries out scanning and control described scan module according to described sideband signal and move to described boundary position, scans to avoid stroke.

2. scanning means as claimed in claim 1, it is characterized in that, also comprise location adjusting module, it is arranged on described second platform, described location adjusting module comprises length adjusting mechanism, and described first sensor is chimeric to be assembled on described length adjusting mechanism to adapt to adjust relative position.

3. scanning means as claimed in claim 2, it is characterized in that, described location adjusting module also comprises multiple second transducer, described multiple second transducer is chimeric to be assembled on described length adjusting mechanism and after being sequentially arranged at described first sensor, described multiple second sensor electrical is connected to described processing module to position setting.

4. scanning means as claimed in claim 3, it is characterized in that, when described multiple second transducer is triggered and produces corresponding multiple secondary signal, be then described sideband signal with first sensor respective signal farthest described in described multiple second transducer middle distance.

5. scanning means as claimed in claim 2, is characterized in that, the boundary line that described location adjusting module adjoins near described first platform and described second platform is arranged.

6. scanning means as claimed in claim 1, it is characterized in that, the angle between described first platform and described second platform is between 90 degree to 180 degree.

7. scanning means as claimed in claim 1, is characterized in that, described boundary position be detect described object boundary dimensions or manually set.

8. scanning means as claimed in claim 1, is characterized in that, also comprise control interface to set the operator scheme of described scanning means.

9. scanning means as claimed in claim 8, is characterized in that, also comprise display module to show described operator scheme.

10. scanning means as claimed in claim 1, it is characterized in that, described object comprises books, bound document or file.