CN103913969A - Image Forming Device And Confirmation Tone Generating Method Therein - Google Patents
Image Forming Device And Confirmation Tone Generating Method Therein Download PDFInfo
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Abstract
The present invention provides an image forming device for adjusting the volume of the confirmation tone for user operation according to the noise status around a device and a confirmation tone generating method in the image forming device. An operation input part accepts the operation input from a user, a loudspeaker outputs the confirmation tone for the operation input. The image forming device executes the image forming processing consisting of electrification, exposure, development, transfer and fixation, and forms a desired image on a paper. An action status obtaining part obtains the action status in the image forming unit. A noise determination information table defines the relationship between the action status and the noise determination information. A confirmation volume adjusting part refers to the noise determination information table according to the action status obtained by the action status obtaining part, and on the condition that the noise determination information corresponding to the obtained action status possesses noise, the confirmation tone outputted by the loudspeaker is adjusted greater than an initial set value.
Description
Technical field
Embodiments of the present invention relate to the confirmation sound producing method in image processing system and image processing system.
Background technology
In recent years, the confirmation sound of having exported while having proposed with polytype setting operation equipment is to improve the conception of the awareness that makes user.For example, as the confirmation sound of the user operation in image processing system, pre-stored input validation, input invalid, be ready to complete, the confirmation sound of the various variations such as attention, different according to operation, read the type and regenerate.
[prior art document]
Patent documentation 1: TOHKEMY 2006-215188 communique
But in above-mentioned technology,, to equipment noise situation around and the consideration of relation of confirming sound, user does not understand or is difficult to hear confirmation sound, thereby there is user and can not carry out swimmingly the such problem of operation of equipment.
Summary of the invention
Therefore, the present invention is in view of the problem of above-mentioned prior art, and its object is to solve the volume of confirmation sound of adjusting the operation to user according to equipment noise situation around as problem.
The image processing system related according to one embodiment of the present invention, it comprises operation inputting part, loudspeaker, image formation unit, running-active status obtaining section, noise determination information table and confirms volume adjustment part.Operation inputting part is accepted the operation input from user.The confirmation sound of loudspeaker output to operation input.Image formation unit is carried out the image formation processing being made up of charged, exposure, development, transfer printing and photographic fixing, and on paper, forms desired image.Running-active status obtaining section obtains the running-active status in image formation unit.Relation between noise determination information table definition running-active status and noise determination information.Confirm that volume adjustment part is next with reference to noise determination information table according to the running-active status being obtained by running-active status obtaining section, be to have noise at the noise determination information corresponding to the running-active status obtaining, the size of the confirmation sound from loudspeaker output is adjusted to such an extent that be greater than initial set value.
Accompanying drawing explanation
Fig. 1 is the hardware configuration example that shows the related image processing system of embodiment 1.
Fig. 2 is the figure that shows the concrete example of the control panel shown in Fig. 1.
Fig. 3 is the schematic diagram that shows the configuration example of the image formation unit shown in Fig. 1.
Fig. 4 is the block diagram that shows the function of the controller shown in Fig. 1.
Fig. 5 is the figure that shows the concrete example that is stored in the data in the noise determination information table shown in Fig. 4.
Fig. 6 is the process flow diagram that shows the concrete example of the volume adjustment processing in the controller shown in Fig. 1.
Fig. 7 is the block diagram that shows the function of the controller in embodiment 2.
Fig. 8 is presented at the figure that is stored in the concrete example of the data in noise determination information table in embodiment 2.
Fig. 9 is the process flow diagram that shows the concrete example of the volume adjustment processing in the controller shown in Fig. 7.
Embodiment
Below, relevant embodiments of the present invention will be explained with accompanying drawing.
< embodiment 1>
Fig. 1 is the figure that shows the hardware configuration example of image processing system 1.Image processing system 1 in present embodiment is MFP(The Multi-Function Peripheral, multi-function printer).MFP is following digit apparatus: except scanning and read with appointed resolution, antiquarian the copy function of printed copy image, can also synthetically utilize FAX(fax) image receiving function, Email(mail) image receiving function, via the function of the various office equipment such as the printing images receiving function of network 2.
As shown in Figure 1, image processing system 1, except possessing processor 11, storer 12 and the auxilary unit 13 that forms controller 10, also possesses communicator 14, control panel 15, image formation unit 16 and loudspeaker 17.
Processor 11 is CPU(Central Processing Unit of the blanket action of controlling image processing system 1, central processing unit) equal controller.Storer 12 is storages for making the special ROM(Read-Only Memory that reads of base program, environment file etc. that computing machine works, ROM (read-only memory)), the RAM(Random Access Memory of the needed data of execution of program that storage of processor 11 is carried out and program, random access memory).Auxilary unit 13 is HDD(Hard Disk Drive, hard disk drive) etc. jumbo memory storage, be stored in control program, the tables of data etc. of image processing system 1 interior action.
Communicator 14 and the equipment (for example personal computer) that is connected via the network such as the Internet, LAN (diagram omit) between supply with reception information.Fig. 2 is the figure that shows the concrete example of the control panel 15 shown in Fig. 1.As shown in the drawing, control panel 15 is the input devices for example, with soft key (bookbinding on the touch panel etc.) 15b of the display part 15a, the input setting value that show actions menu picture etc. and hardware keys (, the duplicating in Fig. 2 etc.) 15c.In the present embodiment, no matter be hardware keys and soft key, in the time that button is pressed by user, set the confirmation sound (" ratio " such sound) that pipes identical from loudspeaker 17.
Fig. 3 is the schematic diagram that shows the configuration example of the image formation unit 16 shown in Fig. 1.As shown in Figure 3, image formation unit 16 possesses: photoreceptor 16a, Charging system 16b, exposure device 16c, developing apparatus 16d, transfer device 16e, stripping off device 16f, clearer 16g, transfer roller 16h and fixing device 16i, image formation unit 16 is carried out the image formation processing being made up of charged, exposure, development, transfer printing and photographic fixing, to form desired image on paper.
Photoreceptor 16a is along sub scanning direction (photoreceptor 16a's is circumferential) rotation.Charging system 16b is configured near the surrounding of photoreceptor 16a, makes the surface uniform ground of photoreceptor 16a charged.Exposure device 16c scans on one side semiconductor laser, on one side according to picture signal and luminous/turn off the light.The laser penetrating from this semiconductor laser becomes along the light of main scanning direction (the turning axle direction of photoreceptor 16a) scanning by polarizers such as polygon mirrors.Then, the optical systems such as scioptics, laser is irradiated on photoreceptor 16a.If irradiating laser on the surface of charged photoreceptor 16a, the electromotive force at irradiated position declines, and forms electrostatic latent image.Developing apparatus 16d is by applying developer on the electrostatic latent image being formed on photoreceptor 16a, thereby forms toner image on photoreceptor 16a.
Transfer device 16e is transferred to toner image on the paper being supplied to.Stripping off device 16f peels off paper from photoreceptor 16a.Clearer 16g is connected to photoreceptor 16a and arranges, and after transfer printing finishes on paper at toner image, removes the residual toner on photoreceptor 16a.The paper that is transferred toner image sends fixing device 16i to by transfer roller 16h.Fixing device 16i makes toner image photographic fixing on paper.In the inside of fixing device 16i, be provided with halogen lamp or load coil as thermal source, along with the increase of the electric weight of supplying with from power supply, heating-up temperature rises.Then, photoreceptor 16a is returned to original state, becomes holding state until Next image formation processing starts.By repeating above image formation processing, carry out continuously the printing of view data.
In addition, the controller 10 of image processing system 1 is configured to possesses the function that makes user pass on the accepted confirmation sound of input operation (" ratio " such sound) generation, can periodically adjust the volume of confirming sound.At this, these two stages of level while can be adjusted to the noise of common level (initial set value) and the volume larger than common level.
Fig. 4 is the block diagram that shows the function of the controller 10 shown in Fig. 1.As shown in the drawing, controller 10 possesses: running-active status obtaining section 10A, noise determination information table 10B, confirmation volume adjustment part 10C, user's operation detection part 10D and confirmation sound generating unit 10E.
Running-active status obtaining section 10A is to be the running-active status of monitoring picture forming unit 16 and will monitor that the running-active status ID that the moment obtains is stored in the control program on storer 12 all the time in during connecting (ON) at the power supply of image processing system 1.The cycle of obtaining of running-active status can at random change.
Fig. 5 is the figure that shows the concrete example that is stored in the data in the noise determination information table 10B shown in Fig. 4.Noise determination information table 10B is with the running-active status of ID managing image forming unit 10 and the definition list of relation of judging the noise determination information that noise has or not.In the present embodiment, imagination due to the noise producing from the machine, is difficult to hear confirmation sound in the action of image processing system 1.In this table, in order to be determined with noiselessness in controller 10, running-active status ID intrinsic in the running-active status of image formation unit 16 of image processing system 1 and the relation of noise level are defined.
Confirm that volume adjustment part 10C obtains noise determination information according to the running-active status ID from monitoring the 10A of condition monitoring portion output with reference to noise determination information table 10B, is determined with noiselessness.Particularly, in the time being judged to be noiselessness according to the noise determination information of noise determination information table 10B, confirmation volume adjustment part 10C remains the volume that makes loudspeaker 17 conventionally the control information of the state of (initial set value) to confirming sound generating unit 10E output.Contrary with it, in the time being judged to be noise according to noise determination information, confirm that volume adjustment part 10C is adjusted into than the control information of conventionally large state (level when noise) volume that makes loudspeaker 17 to confirming sound generating unit 10E output.
User's operation detection part 10D exports to and confirms volume adjustment part 10C and confirm sound generating unit 10E for detection of the operation input of the user on control panel 15 and by the detection information of operation input.
Confirm that sound generating unit 10E is in the time having inputted the detection information of user's operation, to export the confirmation sound to user's operation in the volume of confirming to be set in the 10C of volume adjustment part from loudspeaker 17 from user's operation detection part 10D.
The action of the image processing system 1 below, explanation being configured as described above.Fig. 6 is the process flow diagram that shows the concrete example of the volume adjustment processing in the controller 10 shown in Fig. 1.
First,, if running-active status obtaining section 10A obtains the running-active status (S601) in image formation unit 16, the running-active status ID corresponding to acquired running-active status is temporarily stored in (S602) in storer 12.
Next, confirm that reference has defined the noise determination information table 10B of the relation of running-active status and noise determination information to volume adjustment part 10C according to being stored in the running-active status ID on storer 12, obtains the noise determination information (S603) of the running-active status current corresponding to the machine.
Next, confirm that volume adjustment part 10C judges whether the noise determination information of obtaining in S603 has noise (S604).At this, in the time being judged to be to have noise (S604 is yes), the control information that the size of the confirmation sound that makes to export from loudspeaker 17 is adjusted greatlyr than initial set value is exported (S605) to confirmation sound generating unit 10E, and returns to S601.Contrary with it, in the time being judged to be noiselessness (S604 is no), the size of the confirmation sound that makes to export from loudspeaker 17 being directly made as to the control information of initial set value to confirming sound generating unit 10E output (S606), and returning to S601.
Above-mentioned processing is because the power supply at image processing system 1 is for during connecting (ON), repeat with cycle of regulation and the timing (timing) that is switched of running-active status, once thereby accept the operation input from user, produce the confirmation sound of the volume adjusting according to the running-active status in that moment from loudspeaker.
For example, while being holding state at the image formation unit 16 of image processing system 1, user A carries out scanning operation, and due to the state of image formation unit 16 for stopping, thereby running-active status ID is " situation _ 1 ".Confirm the result of volume adjustment part 10C with reference to noise determination information table 10B, be judged to be noiselessness.Because result of determination is noiselessness, thereby confirm that volume adjustment part 10C remains the volume of confirming sound conventionally, in the time that user A operates on operating means (control panel) 15, just confirm sound with common volume from loudspeaker 17 outputs.
Next, explanation image processing system 1 user A in the time printing in action is carried out to the situation of scanning operation.This situation is before user A scans, and user B has carried out print instruction, and image formation unit 16 becomes to be printed in action.Because image formation unit 16 is in printing, thereby running-active status ID is " situation _ 4 ", confirm volume adjustment part 10C according to running-active status ID with reference to the result of noise determination information table 10B, be judged to be noise, the volume of the confirmation sound of exporting from loudspeaker 17 has been adjusted into than common large state.Then, confirm that sound generating unit 10E is in the time that user A operates on operating means (control panel) 15, just under the state than conventionally large, confirm sound from loudspeaker 17 outputs.
Like this, the image processing system 1 related according to present embodiment,, can increase the confirmation sound to user's operation during that for producing the running-active status of noise at image formation unit 16.Its result, just can make the former thereby secondary that can not understand confirmation sound due to user press the such misoperation minimizing of button, can make operation smooth and easyization of user to equipment.
< embodiment 2>
Below, by the relevant embodiments of the present invention 2 of explanation.In addition, as representing the symbol of same target, description thereof is omitted with the common symbol of each figure of above-mentioned embodiment 1, and the difference with embodiment 1 is described with reference to the accompanying drawings.Fig. 7 is the block diagram that shows the function of the controller 10 in present embodiment, and Fig. 8 is the figure that shows the concrete example that is stored in the present embodiment the data in noise determination information table 10B.
Noise determination information table 10B in present embodiment classifies noise determination information and is defined as and the multiple noise levels that are in proportion of noise, and the expectation volume based on measured value is set up corresponding with each noise level.In addition, confirm that volume adjustment part 10C is according to the size of noise level, the control information that the size of the confirmation sound of exporting from loudspeaker 17 is periodically adjusted greatlyr than common level (initial set value) is exported to confirmation sound generating unit 10E.For example, the in the situation that of Fig. 8, because the noise level in printing is the highest, thereby confirm that the change of tune obtains maximum.
In addition, image processing system 1 also possesses the volume determination part 10F of surrounding that is connected to Mike 18 and measures surrounding's audio volume level of the body of image processing system 1.Confirm that volume adjustment part 10C is in the time that volume is low around the volume ratio of the noise level expectation obtaining according to running-active status and from noise determination information table 10B, according to the new noise level based on volume is upgraded, the size of the confirmation sound of exporting from loudspeaker 17 is adjusted than the large control information of initial set value and to confirming sound generating unit 10E output around.; in above-mentioned embodiment 1; according to the running-active status of body; the adjustment of the confirming sound with reference to having pre-defined the noise determination information that has or not the noise of exporting towards periphery; and be following result in the present embodiment: also measure volume around; the expectation volume of noise level and the surrounding's volume of practical measurement estimated more in advance, confirm the adjustment of sound using a large side as benchmark.
Fig. 9 is the process flow diagram that shows the concrete example of the volume adjustment processing in the controller 10 shown in Fig. 7.
First,, if running-active status obtaining section 10A obtains the running-active status (S901) in image formation unit 16, the running-active status ID of the running-active status corresponding to obtaining is temporarily stored in (S902) in storer 12.
Next, confirm that reference has defined the noise determination information table 10B of the relation of running-active status and noise determination information to volume adjustment part 10C according to being stored in the running-active status ID on storer 12, obtain the noise determination information (noise level and expectation volume) of the running-active status current corresponding to the machine (S903).
Next, around volume determination part 10F measures surrounding's volume of the body of inputting from Mike 18, and to confirming volume adjustment part 10C output (S904).
Next, confirm volume adjustment part 10C judge in S904, measure around volume whether exceed the volume that the noise level obtained is estimated in S903.At this, when volume exceedes the expectation volume of noise level around being judged to be (S905 is yes), upgrade noise level (S906) according to volume around, and enter S907.Contrary with it, when volume does not exceed the expectation volume of noise level around being judged to be (S905 is no), do not upgrade noise level and enter S907.
In S907, confirm that volume adjustment part 10C is determined with noiselessness according to the noise level being determined.At this, in the time being judged to be to have noise (S907 is yes), the control information that the size of the confirmation sound that makes to export from loudspeaker 17 is adjusted greatlyr than initial set value is exported (S908) to confirmation sound generating unit 10E, and returns to S901.In the present embodiment, due to noise level be classified as multiple, thereby can be according to the height of noise level, adjust the volume of confirming sound with multiple stages.
Contrary with it, in the time being judged to be noiselessness (S907 is no), the size of the confirmation sound that makes to export from loudspeaker 17 being directly made as to the control information of initial set value to confirming sound generating unit 10E output (S909), and returning to S901.
Like this, the image processing system 1 related according to present embodiment, due to having or not of the noise of not only considering to estimate to produce due to the running-active status of the machine, but also consider the measured value of noise around, thereby confirmation sound that can the operation input to user with appropriate volume output.For example, although the machine in stopping, the image processing system of adjacency is in print execution time, the situation to the confirmation sound of in-local in being difficult to hear, thereby consider the measurement result of volume around and produce the confirmation sound larger than common level.Its result, no matter environment how, can make the former thereby secondary that can not understand confirmation sound due to user press the such misoperation minimizing of button, and can make operation smooth and easyization of user to equipment.
Above, although several embodiment of the present invention has been described, these embodiments are suggested as example, are not to be intended to limit scope of invention.These novel embodiments can be implemented with other variety of ways, and not departing from the scope of aim of the present invention, can carry out various omissions, replacement, change.These embodiments and modification thereof are included among scope of invention or aim, within being also included in the invention and its impartial scope of recording in claims simultaneously.
Symbol description
1 image processing system 10 controllers
10A running-active status obtaining section 10B noise determination information table
10C confirms that volume adjustment part 10D confirms sound generating unit
10E user's operation detection part 11 processors
12 storer 13 auxilary units
14 communicator 15 control panels
16 image formation unit 17 loudspeakers
Claims (10)
1. an image processing system, is characterized in that, comprising:
Operation inputting part, accepts the operation input from user;
Loudspeaker, the confirmation sound of output to described operation input;
Image formation unit, carries out the image formation processing being made up of charged, exposure, development, transfer printing and photographic fixing, and on paper, forms desired image;
Running-active status obtaining section, obtains the running-active status in described image formation unit;
Noise determination information table, defines the relation between described running-active status and noise determination information; And
Confirm volume adjustment part, come with reference to described noise determination information table according to the running-active status being obtained by described running-active status obtaining section, be to have noise at the described noise determination information corresponding to the described running-active status obtaining, the size of the confirmation sound from the output of described loudspeaker is adjusted to such an extent that be greater than initial set value.
2. image processing system according to claim 1, is characterized in that,
Described image processing system also comprises user's operation detection part, and described user's operation detection part detects user's described operation and inputs and export the detection information of described operation input.
3. image processing system according to claim 2, is characterized in that,
Described image processing system also comprises confirms sound generating unit, described confirmation sound generating unit, when inputted the detection information of described user's operation from described user's operation detection part, is exported the confirmation sound to described user's operation with the volume being set in described confirmation volume adjustment part from described loudspeaker.
4. image processing system according to claim 1, is characterized in that,
Described image processing system also comprises volume determination part around, and described volume determination part is around measured surrounding's volume of the body of described image processing system.
5. image processing system according to claim 1, is characterized in that,
Described noise determination information table is classified described noise determination information and is defined as and the multiple noise levels that are in proportion of noise, and described confirmation volume adjustment part is according to the size of described noise level, the size of the confirmation sound from described loudspeaker output is periodically adjusted to such an extent that be greater than described initial set value.
6. image processing system according to claim 5, is characterized in that,
Described confirmation volume adjustment part is in the case of volume around the expectation volume ratio corresponding with the described noise level of obtaining according to described running-active status and from described noise determination information table is low, according to the new noise level upgrading based on described volume around, the size of the confirmation sound from described loudspeaker output is adjusted to such an extent that be greater than described initial set value.
7. the confirmation sound producing method in image processing system, is characterized in that, comprising:
Running-active status obtains step, obtains the running-active status of carrying out in the image formation processing being made up of charged, exposure, development, transfer printing and photographic fixing the image formation unit that forms desired image on paper;
Noise determination information is obtained step, come with reference to having defined the noise determination information table of the relation between described running-active status and noise determination information according to the described running-active status obtaining in described running-active status obtains step, and obtain the described noise determination information corresponding to described running-active status;
Confirming volume set-up procedure, is to have noise at the described noise determination information of obtaining, and the size of the confirmation sound from loudspeaker output is adjusted to such an extent that be greater than initial set value;
Operation input step, accepts the operation input from user; And
Confirm that sound produces step, produce the confirmation sound to described operation input from described loudspeaker.
8. the confirmation sound producing method in image processing system according to claim 7, is characterized in that,
Confirmation sound producing method in described image processing system also comprises:
Volume determination step around, measures surrounding's volume of the body of described image processing system.
9. the confirmation sound producing method in image processing system according to claim 7, is characterized in that,
Described noise determination information table is classified described noise determination information and is defined as and the multiple noise levels that are in proportion of noise, and in described confirmation volume set-up procedure, according to the size of described noise level, the size of the confirmation sound from the output of described loudspeaker is periodically adjusted to such an extent that be greater than described initial set value.
10. the confirmation sound producing method in image processing system according to claim 9, is characterized in that,
In described confirmation volume set-up procedure, in the case of volume around the expectation volume ratio corresponding with the described noise level of obtaining according to described running-active status and from described noise determination information table is low, according to the new noise level upgrading based on described volume around, the size of the confirmation sound from described loudspeaker output is adjusted to such an extent that be greater than described initial set value.
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JP2012287468A JP5705823B2 (en) | 2012-12-28 | 2012-12-28 | Image forming apparatus and method for generating confirmation sound in image forming apparatus |
JP2012-287468 | 2012-12-28 |
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CN114600069A (en) * | 2019-11-08 | 2022-06-07 | 索尼互动娱乐股份有限公司 | Input system, input method, and program |
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JP2018152704A (en) | 2017-03-13 | 2018-09-27 | 富士ゼロックス株式会社 | Information processing device |
JP7101564B2 (en) * | 2018-08-10 | 2022-07-15 | シャープ株式会社 | Image forming device, control program and control method |
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CN114600069B (en) * | 2019-11-08 | 2024-04-30 | 索尼互动娱乐股份有限公司 | Input system, input method, and storage medium |
Also Published As
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JP5705823B2 (en) | 2015-04-22 |
JP2014130217A (en) | 2014-07-10 |
CN103913969B (en) | 2016-08-17 |
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