Patent Grant
11752790
This application is a U.S. National Stage Application which claims the benefit under 35 U.S.C. § 371 of International Patent Application No. PCT/US2018/032100 filed on May 10, 2018, the contents of which are incorporated herein by reference.
A finisher refers to an apparatus for processing a recording medium supplied from an image forming apparatus. The finisher can be connected to the image forming apparatus to receive the recording medium during a job, and is in communication with the image forming apparatus. For example, the finisher may perform a stapling operation, an alignment operation, and/or a folding operation with respect to the recording medium supplied from the image forming apparatus.
An image forming apparatus refers to an apparatus that forms images on a recording medium according to inputted signals. Examples of an image forming apparatus include a printer, a copy machine, a scanner, a facsimile, and a multi-function peripheral device that combines and implements various functions of the printer, copy machine, scanner, and/or facsimile. Examples of a printer include an inkjet printer or a laser printer.
Previously, finishers were often sold contractually and therefore a purchaser did not need to setup the finisher as setting up the finisher was contracted out to a qualified third party. However, when a finisher is sold to a client that requires the client to setup and/or move the finisher, the finisher needs to meet more stringent safety requirements than if the finisher was sold contractually. The finisher sold to a client that requires the client to setup and/or move the finisher may need to meet safety specification IEC 60950-1. For example, these requirements may be that a finisher remains stable when subject to an angle of up to 10 degrees. In addition, the requirements may include a finisher needing to remain stable when subject to a force equaling up to 20% of the finisher mass is applied to the highest vertical surface from the ground. These requirements may also include a finisher needing to remain stable when this force is applied to each of the sides of the finisher. Previous finishers have had difficulty meeting these more stringent safety requirements as pervious finishers may have had difficulty being stable at an angle of 10 degrees and being stable when a force of 20% of the finisher mass is applied to a finisher at the highest vertical surface from the ground on each side of the finisher.
A base device for a finisher includes a base pan that includes a section which protrudes outward from a first side of the base pan. The base device further includes a first plurality of casters coupled to the base pan to contact a surface when the base pan is level with respect to the surface, each of the first plurality of casters being beside a respective separate corner of the base pan and at least two of the first plurality of casters being beside the section. The base device further includes a second plurality of casters coupled to the section of the base pan, to be positioned above the surface when the base pan is level with respect to the surface and to contact the surface when the base pan is inclined to a threshold to help prevent the finisher from falling over when the base pan is inclined. Each of the second plurality of casters have a diameter smaller than a diameter of each of the first plurality of casters. The base pan further includes a recess, included in the section of the base pan between at least two of the second plurality of casters, to receive a tip foot to help prevent the finisher from falling over when the base pan is inclined. Therefore, the base device prevents the finisher from tipping over when the finisher is inclined at an angle of 10 degrees. The base device also prevents the finisher may be prevented from tipping over when a force of 20% of the finisher mass is applied to the finisher at the highest vertical surface from the ground on each side of the finisher.
The finisher may also include a sensor to detect an amount of recording media in an output bin, and when the detected amount of recording media is above a predetermined threshold, the finisher will inform a control panel the amount of recording media in the output bin is greater than the predetermined threshold so the control panel can then inform a user to remove recording medium from the output tray to remove excess recording medium from the output bin to reduce the chances of the finisher falling over when the finisher is being moved.
Various examples of the disclosure will now be described in greater detail with reference to the accompanying drawings, wherein like reference characters denote like elements. Examples to be explained in the following may be modified and implemented in various different forms.
When it is stated in the disclosure that one element is “connected to” or “coupled to” another element, the expression encompasses not only an example of a direct connection or direct coupling, but also a connection with another element interposed therebetween. Further, when it is stated herein that one element “includes” another element, unless otherwise stated explicitly, it means that yet another element may be further included rather than being excluded.
The printer 100 prints an image on a sheet-type medium, which may also be referred to as a recording medium, provided from a paper feeder. The recording medium may include, for example, paper such as glossy paper, plain paper, art paper, overhead projector film, cardstock, and the like. The paper feeder may be, for example, a main cassette feeder 210 installed under the printer 100, or secondary cassette feeders 220 and 230 installed under the main cassette feeder 210. Although not illustrated, the paper feeder may further include a multi-purpose tray (MPT), a high capacity feeder installed at a side of the printer 100, or a combination thereof.
The printer 100 may also include a control panel 130 to receive an input from a user to control the image forming apparatus, for example to perform a function of the image forming apparatus. The control panel 130 may include a keyboard, a button, a display, or combinations thereof for the user to operate the image forming apparatus. The display may be a touchscreen to receive the input from the user.
The printer 100 may print an image on a recording medium by using various printing methods such as an electrophotography method, an inkjet method, a thermal transfer method, and a thermal sublimation method. For example, the image forming apparatus may print a color image on the recording medium by using an inkjet method. The printer 100 may be a S path-type of printer or a C path-type of printer, for example.
The scanner 300 reads an image recorded on a document. The scanner 300 may have any of various structures such as a flatbed mechanism where a document is at a fixed position and an image is read while a reading member is moved, a document feeding mechanism where a reading member is at a fixed position and a document is fed, and a combination structure thereof.
The finisher 400 may include a sheet folding device (not illustrated) for folding, one or more times, the recording medium discharged from the printer 100. The finisher 400 may further include an alignment device (not illustrated) for aligning the recording medium discharged from the printer 100. The alignment device may have a structure for stapling the recording medium at an end portion thereof or punching a hole in an end portion of the recording medium. The finisher 400 may further include a stapler for stapling the paper at a center portion thereof. Other example processes or functions the finisher 400 may perform include hole punching, binding, embossing, gluing, coating, varnishing, foil stamping, texturing, lamination, cutting, creasing, stacking, binding, splicing, rewinding, or combinations thereof.
The finisher 400 in
The finisher 400 may include a controller 410 and machine readable storage 420. The controller 410 may execute instructions stored in the machine readable storage 420. The printer 100 may also include a control panel 130 and a scanner 300. The finisher 400 and printer 100 may be connected with one another in a wired and/or wireless manner such that the finisher 400 and printer 100 can communicate with one another to exchange information, including job information regarding an image forming job performed or to be performed by the image forming apparatus including the printer 100 and scanner 300, a finishing job performed or to be performed by the finisher 400, or combinations thereof.
The controllers 110, 410, may include, for example, a processor, an arithmetic logic unit, a central processing unit (CPU), a graphics processing unit (GPU), a digital signal processor (DSP), an image processor, a microcomputer, a field programmable array, a programmable logic unit, an application-specific integrated circuit (ASIC), a microprocessor, or combinations thereof.
The machine readable storages 120, 420, may be any electronic, magnetic, optical, or other physical storage device that stores executable instructions. For example, the machine readable storages 120, 420, may include a nonvolatile memory device, such as a Read Only Memory (ROM), Programmable Read Only Memory (PROM), Erasable Programmable Read Only Memory (EPROM), and flash memory, a USB drive, a volatile memory device such as a Random Access Memory (RAM), a hard disk, floppy disks, a blue-ray disk, or optical media such as CD ROM discs and DVDs, or combinations thereof.
The base device 20 includes a base pan 22. The base pan 22 may be a variety of polygon shapes. The base pan 22 may also be substantially square with a few sections extending outward to create a multi-sided polygon. The base pan 22 may be a variety of thicknesses. In an example, the thickness of the base pan 22 is between 0.6 mm and 2.0 mm. In another example, the thickness of the base pan 22 is 1.0 mm. However, the thickness of the base pan 22 is not limited to the thicknesses listed above.
For example, in
For example, the second casters 28 are coupled to the protruding section 24 of the base pan 22. The base pan 22 may also include a recess 34 to receive a tip foot 32. For example, the recess 34 to receive the tip foot 32 is located between the second casters 28. While
The recess 34 to receive the tip foot 32 may be located on the bottom side of the base pan 22 and/or on the bottom side of the section 24. In another example, the recess 34 may be located on first side 40 of the base pan 22. As an example, the recess may be comprised of sheet metal, but may be made of other substance as well.
For example,
For example, the first casters 26 may be a variety of diameters. For example, the second casters 28 may also be a variety of diameters, such as, but not limited to, 5 mm or 10 mm. For example, in
As an example, due to the location of the first casters 26 and the second casters 28, the finisher 400 may rotatable when it is moved. In addition, the finisher may also be rotatable and movable while it is inclined or pushed while it is inclined.
For example, the tip foot 32 is removable with respect to the recess 34. The tip foot 32 may be inserted into the recess 34 and coupled to the base pan 22 by a variety of ways. The tip foot 32 extends outward from the perimeter of the base pan 22 and is located slightly above the surface when the tip foot 32 is inserted into the recess 34 and the base pan 22 is level to the surface. For example, the tip foot 32 may be “S”-shaped, but with straight lines. The tip foot 32 may also be other similar shapes or any other shape that will enable the tip foot 32 to have one end be inserted into the recess while the other end of the tip foot extends outward from the perimeter of the base pan 22 and resides slightly above the surface when the base pan is level. For example, the tip foot 32 may be 1-3 mm above the surface when the base pan 22 is level. However, the amount the tip foot 32 is above the surface when the base pan is level is not limited to this amount. For example, the tip foot 32 may extend outward from the perimeter of the base pan 22 by 10-40 mm. However, the amount the tip foot 32 is extend outward from the perimeter of the base pan 22 is not limited to this amount.
As an example, the tip foot 32 may made of dense plastic. However, the tip foot 32 may also be made of other substances as well.
For example, the first side 40 of the base pan 22 is located below a side of a finisher 400 that will receive media output from the printer 100. For example, the second side 42 of the base pan 22 is located below a side of the finisher 400 that outputs media to the first output bin 480 and the second output bin 490. For example, the third side 44 of the base pan 22 is located below a side of the finisher 400 that is on the same side of the control panel 110 of the printer 100 when the printer 100 is connected with the finisher 400. For example, the fourth side 46 of the base pan 22 is located opposite the third side 44 of the base pan.
For example,
In an example, if the amount of recording medium in either the first output bin 480 or second output bin 490 is greater than a threshold, the finisher 400 will be at a greater risk of falling over when the finisher 400 is put on an incline of 10 degrees or has a force applied to its highest point. For example, the threshold could be 400 pages of recording medium.
For example, the finisher 400 or printer 100 could determine a height of recording medium output in either the first output bin 480 or the second output bin 490. In the following example, we will discuss the sensor 440 locating a height of recording medium in the second output bin 490. However, a sensor 440 may also be used to locate a height of recording medium in the first output bin 480 as well. The finisher 400 could determine a height of recording medium in the second output bin 490 based on a proximity sensor or light sensor that measures a distance to an object. The sensor 440 can include the proximity sensor and/or the light sensor. The measured distance can be used to calculate or infer a height of the stack of media. The proximity sensor or light sensor could be located inside the finisher 400 at a location capable of measuring the height of the media in the output bin 490 and the height information could be transmitted to the controller 410. The height information could also be transmitted to the controller 110. The proximity sensor or light sensor can calculate the height of the stack media using time-of-flight principles, for example.
In another example, the sensor 440 may be located a position in the finisher 400 that detects the presence of the second output bin 490 or recording medium in the second output bin 490. The second output bin 490 is movable and moves downward when more recording medium is output into the output bin 490. When the second output bin 490 is moved downward enough due to the presence of a certain amount of recording medium, the sensor 440 will sense the presence of the second output bin 490. If even more recording medium is output to the output bin 490 where the second output bin 490 moves past the area where it can be sensed by the sensor 440, the sensor will locate the presence of the recording medium in the second output bin 490.
For example,
For example, the threshold for the sensor 440 to sense either the second output bin 490 or the recording medium in the second output bin 490 could be 400 pages of recording medium. In this example, if the amount of recording medium in the second output bin 490 is 400 pages or more, the sensor 440 would sense either the second output bin 490 or the recording medium.
The proximity sensor or light sensor can transmit a signal to the controller 410 which includes the height information regarding the stack of media or that the sensor sensed the presence of the second output bin 490 or sensed the presence of recording medium in the second output bin 490. The proximity sensor or light sensor can also transmit a signal to the controller 110 which includes the height information regarding the stack of media that the sensor sensed the presence of the second output bin 490 or sensed the presence of recording medium in the second output bin 490. An amount of recording medium in the second output bin 490 can then be determined by the controller 410 based on the height information received from the proximity sensor or light sensor.
The finisher 400 can determine a height of the stack of media according to other methods. For example, the finisher 400 could determine a height of the stack based on a weight of the stack of media determined using a weight sensor. The sensor 440 can include the weight sensor. The weight sensor can transmit a signal to the controller 410 which indicates the weight of the stack of media. The weight sensor can also transmit a signal to the controller 110 which indicates the weight of the stack of media. However, the total weight of the stack of media may not directly correlate with the height of the stack of recording media as certain media may be heavier than others.
As another example, based on the total weight of the stack of media in the upper output bin 480 or in lower output bin 490, a weight of a single recording medium, and a thickness of the recording medium, the controller 410 or controller 110 can determine a number of sheets in the stack and thereafter determine a height of the stack of media. For example, the weight of the single recording medium and the thickness of the recording medium can be determined based on the job information received from the printer 100 or by reference to information stored in the machine readable storage 420. For example, if the total weight sensed by the weight sensor is 250 grams, and the controller 410 receives job information from the printer 100 indicating each recording medium has a thickness of 0.05 mm and a weight of 5 grams, the controller 410 can calculate that 50 sheets are in the upper output bin 480 or in lower output bin 490 and have a stack height of 2.5 mm.
As an example, when the controller 410 determines the sensor 440 sensed the presence of either the second output bin 490 or sensed the presence of recording medium on the second output bin 490, the controller determines the amount of recording medium on the second output bin is greater than a threshold. If the controller 410 determines the amount of recording medium in the second output bin 490 is greater than a threshold, the controller instructs the control panel 130 to display a warning to remove recording medium from the second output bin 490 to help prevent too heavy a load being present in the second output bin 490 when the finisher 400 is to be moved.
As another example, when the controller 410 determines the height of the sheets, the controller 410 then determines if the determined height is greater than a threshold value. If the controller 410 determines the height is greater than a threshold, the controller instructs the control panel 130 to display a warning to remove recording medium from the second output bin 490.
As another example, when the controller 410 determines the weight of the sheets, the controller 410 then determines if the determined weight is greater than a threshold value. If the controller 410 determines the weight is great than a threshold, the controller instructs the control panel 130 to display a warning to remove recording medium from the second output bin 490.
As an example, when the controller 110 determines the sensor 440 sensed the presence of either the second output bin 490 or sensed the presence of recording medium on the second output bin 490, the controller determines the amount of recording medium on the second output bin is greater than a threshold. If the controller 110 determines the amount of recording medium in the second output bin 490 is greater than a threshold, the controller instructs the control panel 130 to display a warning to remove recording medium from the second output bin 490.
In another example, when the controller 110 determines the height of the sheets, the controller 110 then determines if the determined height is greater than a threshold value. If the controller 110 determines the height is greater than a threshold, the controller instructs the control panel 130 to display a warning to remove recording medium from the second output bin 490.
As another example, when the controller 110 determines the weight of the sheets, the controller 110 then determines if the determined weight is greater than a threshold value. If the controller 110 determines the weight is great than a threshold, the controller instructs the control panel 130 to display a warning to remove recording medium from the second output bin 490.
Executable instructions to perform processes or operations in accordance with the above-described examples may be recorded in a machine readable storage. A controller may execute the executable instructions to perform the processes or operations. Examples of instructions include both machine code, such as that produced by a compiler, and files containing higher level code that may be executed by the controller using an interpreter. The instructions may be executed by a processor or a plurality of processors included in the controller. The machine readable storage may be distributed among computer systems connected through a network and computer-readable codes or instructions may be stored and executed in a decentralized manner.
The foregoing examples are merely examples and are not to be construed as limiting the disclosure. The disclosure can be readily applied to other types of apparatuses. Also, the description of the examples of the disclosure is intended to be illustrative, and not to limit the scope of the claims.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/US2018/032100 | 5/10/2018 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2019/216899 | 11/14/2019 | WO | A |
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| Number | Date | Country | |
|---|---|---|---|
| 20210016582 A1 | Jan 2021 | US |
