JP4300943B2 - Paper feeder - Google Patents

Description

  The present invention relates to a sheet feeding device, and more particularly, to a sheet feeding device including a sheet width detecting unit that can reduce the number of detection sensors.

In general, an electrophotographic copying machine or a facsimile apparatus includes an automatic document feeder (ADF device) that separates documents set on a document tray one by one and continuously supplies them to a reading unit. In the case of the above-described apparatus and printer, a cassette type paper feed unit and a manual feed tray are provided so that recording sheets are separated one by one and continuously supplied to the recording unit. In the above-described ADF apparatus and a paper feed apparatus using a manual feed tray, a sheet width detecting unit for determining the size of the sheet to be fed is provided in the sheet placing portion and the sheet conveying path. Based on the detection information, the reading unit and the recording unit are controlled (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 08-133551

In the sheet (paper) conveyance device disclosed in Patent Document 1, for example, in the case of a standard specification device that uses A3 paper as a maximum size, at least A4 (vertical), B4 (vertical), and A3 (vertical) paper are used. The three sensors that are turned on by the respective actions are arranged side by side at appropriate intervals in the direction orthogonal to the paper feeding direction to constitute the paper width detecting means. As described above, in the standard specification apparatus in which the A3 sheet is the maximum size, at least three sensors are required as the sheet width detecting means, which is a factor in increasing the cost. In addition, it is necessary to secure the installation space in a limited space, and design restrictions cannot be ignored. Here, (vertical) means that the long side of the paper is facing the paper feeding direction.
In addition, a slide-type volume resistor that constitutes the paper width detection means is also used. However, using such means increases the cost of the apparatus and increases the cost, and the control sequence is complicated. It is expected that

  The present invention has been made in view of the above circumstances, and can detect the sheet width that can reduce the number of sensors with a simple structure, reduce costs, and reduce design constraints. The present invention provides a paper feeding device provided with means.

The present invention relates to a paper feeding device that feeds papers placed on a paper placement unit along a paper conveyance path while feeding the papers one by one, and the invention of claim 1 relates to the paper placement unit. A sheet width detecting means in which a first sensor and a second sensor that are turned on and off based on the presence or absence of a sheet are spaced apart from each other in the width direction are provided corresponding to the first sensor. And a second working size that is provided corresponding to the second sensor and receives the action from the paper when the paper width is equal to or larger than the first size, and the paper width is larger than the first size. In the above case, the second action part that receives the action from the paper and the first sensor is provided corresponding to the first sensor, and the action from the paper when the paper width is equal to or larger than the third size larger than the second size. receiving a third working section, wherein the first sensor, the first When the paper width is smaller than the first size, or when the paper width is greater than or equal to the third size, an off signal is output, and the paper width is greater than or equal to the first size. When the paper size is smaller than the third size, the second sensor outputs an on signal, and when the paper width is smaller than the second size, the second sensor outputs an off signal by the operation of the second action unit. but in the case of the above second size is characterized also be output from the oN signal.

According to a second aspect of the present invention, the first and second sensors are photoelectric sensors, and the first to third action portions are displaced according to the presence or absence of paper, and the light accompanying the displacement of the sensor filler is obtained. The photoelectric sensor is turned on and off by transmission or blocking.

According to a third aspect of the present invention, there is provided a paper feeding device that feeds the papers placed on the paper placement unit along the paper conveyance path while separating the papers one by one, from the paper placement unit. A plurality of sensors that are turned on and off based on the presence or absence of paper are provided at appropriate positions leading to the conveyance path, and are provided with paper width detection means, and the detection unit of at least one of the sensors includes: Two action portions respectively corresponding to two different sizes of paper are provided, and in the standby state, one of the two action portions is maintained in the sensor-off position and the other is kept in the sensor-on position. Thus, one is displaced from the sensor-off position to the sensor-on position, and the other is displaced from the sensor-on position to the sensor-off position, and the sensor comprises a photoelectric sensor. Swing but a sensor fillers is displaced by the presence or absence of paper, on-off of the photoelectric sensor by transmission or blocking of light due to the displacement of the sensor filler is made, one of the sensors filler above, the detection portion of the photoelectric sensor The other sensor filler is a disk-shaped piece that is formed with a notch having a shape corresponding to the fan-shaped piece and swings in the detection part of the photoelectric sensor. The sensor filler is maintained in a position that blocks the detection light of the photoelectric sensor by making a fan-shaped piece, and the other sensor filler is maintained in a position that has a notch and overlaps the fan-shaped piece. And

  In the first aspect of the present invention, one of the two action portions corresponding to two different size sheets is moved from the sensor-off position to the sensor-on position, and the other is moved from the sensor-on position. Since it is configured to be displaced at the sensor-off position, the widths of the two types of paper can be estimated by combining the on / off signals from one sensor. Therefore, at least one sensor can be reduced here, and cost reduction and space saving can be achieved.

  Further, in the inventions of claims 2 and 3, since the above functions can be achieved by utilizing the characteristics of the photoelectric sensor of the filler type and a simple device on the structure of the filler, a significant change in design is possible. It can be realized without it, so its practical value is great.

  The best mode for carrying out the present invention will be described below with reference to the drawings. FIG. 1 is a longitudinal sectional view of a main part of an ADF 1 in a facsimile machine, a copying machine, or a so-called multifunction machine having both functions of a facsimile and copying. The ADF 1 shown in the figure is configured as an automatic document feeder for reading images on both sides of a sheet of document D one by one and outputting them as digital signals.

  A document tray 2b is detachably attached to the document supply port 2a of the ADF 1 so that the document tray 2b is inclined downward toward the document supply port 2a, and a document placement unit is formed by the document supply port 2a and the document tray 2b. A (paper placing portion) 2 is configured. A pickup roller 3 for feeding out the original (paper) D deposited on the original placing portion 2 from the upper layer portion is disposed on the original supply port portion 2a. A document separating means 4 for separating and feeding the sheets one by one is provided. The document separating means 4 includes a separation roller 4a and a separation pad 4b urged so as to elastically contact the peripheral body of the separation roller 4a. The document fed out by the pickup roller 3 is introduced between the separation roller 4a and the separation pad 4b, and is separated one by one due to the difference in the friction coefficient with respect to both papers accompanying the rotation of the separation roller 4a. Be fed. 4c is a compression spring for elastically bringing the separation pad 4b into contact with the periphery of the separation roller 4a.

  The originals separated one by one by the original separating means 4 are registered rollers 6, first conveying rollers 7, and the like arranged sequentially along an original conveying path (original feeding path) 5 formed in a U-turn shape. The resist is conveyed by the second conveying roller 8 to the first reading point (reading unit) P1, and further fed to the second reading point P2 by the third conveying roller 9, and discharged to the discharge tray 11 by the discharge roller 10. Is done. A platen 12 is disposed at the first reading point P1, and when the document passes over the platen 12, the image information on the surface of the document is sequentially read by the reading and scanning device 13 waiting under the platen 12. As a digital signal.

  The reading scanning device 13 includes a light source 13a formed of a fluorescent lamp or a cold cathode tube, a plurality of mirrors 13b..., A condensing lens 13c, and a CCD (charge coupled device) 13d. It is mounted on 13e. Irradiation light from the light source 13a is reflected by the original passing through the reading point P1 on the platen 12, and then repeatedly reflected by the four mirrors 13b, is condensed by the condenser lens 13c, and enters the CCD 13d ( (Refer to the light path of the one-dot chain line). In the CCD 13d, image information drawn on the surface of the document is converted into an electric signal and output as a digital signal.

  The reading scanning device 13 in the figure is configured to be used also as a flat bed scanner (FBS). That is, although a part of the illustration is omitted, the FBS part 14 is coupled to the right side of the broken part in FIG. Although the carriage 13e is stationary at the reading position of the ADF document in the illustrated example, when the FBS document is read, the carriage 13e moves into the FBS unit 14 and reciprocates in the FBS unit 14 along the lower surface of the platen glass 15. The image information of the document placed on the platen glass 15 is read by the reading scanning device 13 in the same manner as described above. The ADF 1, the document tray 2b, and the discharge tray 11 are integrated to form a platen cover, and can be opened and closed up and down with the back side of the paper surface as a hinge portion (not shown). Accordingly, when the FBS unit 14 reads a document, the platen cover is opened and the document is placed on the exposed platen glass 15.

  As described above, the original whose surface image has been read at the first reading point P1 is further conveyed by the third conveying roller 9 to reach the second reading point P2, and this second reading point P2 is The contact point between the contact image sensor 16 disposed on the back side of the transported document and the platen roller 17 disposed in contact therewith. That is, the document introduced between the contact image sensor 16 and the platen roller 17 is fed while sliding the contact surface of the contact image sensor 16 by the rotation of the platen roller 17. The image is read by the mold image sensor 16, converted into an electrical signal, and output as a digital signal.

  The separation roller 4a, the registration roller 6, the first to third transport rollers 7 to 9, the platen roller 17 and the discharge roller 10 use a single motor (not shown) as a drive source and appropriately transmit gears or belts. Drive transmission is made through (same as above), and ON / OFF control is performed individually by an electromagnetic clutch (same as appropriate).

  The pickup roller 3 is configured to be driven and transmitted from the drive shaft 4d of the separation roller 4a. Briefly, a frame 3a is attached to the drive shaft 4d via a torque limiter (not shown) so as to be swingable up and down, and a support shaft 3b is supported on the front side of the frame 3a so as to be rotatable. ing. A belt 3d is stretched between a pulley 4e attached to the drive shaft 4d and a pulley 3c attached to the support shaft 3b, and the rotation of the drive shaft 4d passes through the pulley 4e, the belt 3d and the pulley 3c. The rotation of the support shaft 3b is transmitted to the pickup roller 3 via a one-way clutch (not shown).

  The pickup roller 3 configured as described above is positioned above the frame 3a in the standby state, and when the drive shaft 4d rotates in the forward direction (A direction), the frame 3a acts on the drive shaft 4d as a fulcrum by the action of the torque limiter. Swings downward. This swinging is stopped when the pickup roller 3 is pressed against the uppermost layer portion of the document D deposited on the document placing portion 2, but the transmission system (pulley 4e, belt) is driven by the continued rotation of the drive shaft 4d. The pickup roller 3 rotates via 3d and the pulley 3c). In this way, while the drive shaft 4d is rotating forward, the pickup roller 3 rotates while being pressed against the uppermost layer portion of the stacked originals D, so that the original document D is sequentially fed out from the uppermost layer portion. When the drive shaft 4d is temporarily stopped and reversely rotated (counter A direction), the frame 3a swings upward by the action of the torque limiter, and is held stationary in a standby state by the subsequent stop of the drive shaft 4d.

  The separation roller 4a is driven and transmitted from the drive shaft 4d via a not-shown one-way clutch. Accordingly, the document D is fed out from the pickup roller 3 as described above by the forward rotation of the drive shaft 4d, and the fed document is introduced between the separation roller 4a and the separation pad 4b, one by one as described above. Separated and fed downstream. The document D fed from the separation roller 4a is registered by the registration roller 6 and conveyed further downstream. The peripheral speeds of the rollers 7, 8, 9, 17, and 10 after the registration roller 6 are as follows. The peripheral speed of the separation roller 4 a and the pickup roller 3 is set to be larger than the peripheral speed of the separation roller 4 a and the registration roller 6. Accordingly, when the leading edge of the document D fed from the separation roller 4a reaches the registration roller 6, a transport load (tensile force) is applied to the document due to the difference in peripheral speed. However, the separation roller 4a and the pickup roller 3 are not described above. Thus, a one-way clutch (not shown) is incorporated, whereby both rollers 4a and 3 are idly rotated, and the conveying load is alleviated.

  Pressure rollers 6a, 7a, 8a, 9a and 10a are respectively provided on the registration roller 6, the first to third conveying rollers 7, 8, 9 and the discharge roller 10, and the original is nipped and conveyed by these rollers. The The separation roller 4a and the pickup roller 3 and pressure rollers 6a and 7a associated with the separation roller 4a are attached to the inside of a jam access cover 18 pivotally attached to the hinge pin 18a so as to be opened and closed vertically. Accordingly, when a document jam occurs in the document conveyance path 5 up to the second conveyance roller 8, the jam access cover 18 is opened to connect the separation pad 4b, the registration roller 6, and the first conveyance roller 7. Can be easily removed.

  The second conveying roller 8, the third conveying roller 9, the pressure rollers 8a, 9a, the platen roller 17 and the discharge roller 10 which are paired with the second conveying roller 8, the machine frame 19 forming the machine frame of the platen cover including the ADF 1, and the same. It is attached to a cylindrical intermediate inner guide frame 20 fixed to the frame. Further, the contact image sensor 16 and the pressure roller 10a are attached to an intermediate frame 21 pivotally attached to the drive shaft 6b of the registration roller 6 so that the drive shaft 6b can be opened and closed vertically. When the jam occurs at the third conveyance roller 9 or later, if the intermediate frame 21 is opened after the jam access cover 18 is opened, the contact between the contact image sensor 16 and the platen roller 17, and the discharge roller 10 and the pressure roller 10a Since the nip relationship is released, the jammed document can be easily taken out at this portion.

  A document (paper) width detecting unit 22 is disposed on the document supply port 2 a of the document placing unit 2, and a lead sensor 23 is disposed in the vicinity of the upstream side of the second conveying roller 8. In addition, although not shown in the drawings, a document presence / absence sensor is appropriately disposed on the document placing portion 2, and a registration sensor or the like is appropriately disposed in the vicinity of the upstream side of the registration roller 6. The read sensor 23 outputs a signal for controlling the operation of the second transport roller 8 and the reading / scanning device 13. When the lead sensor 23 detects the leading edge of the fed document, the control means (not shown) Based on the detection signal, the second conveying roller 8 is operated to control the original to be conveyed to the reading point P, and the operation of the reading scanning device 13 is controlled in synchronization with the feeding of the original. The registration sensor also controls the operation of the registration roller 6 using the control means based on the detection signal.

  The document width detecting means 22 will be described in detail below with reference to FIGS. The document width detecting means 22 includes two photoelectric (photo) sensors 24, 25, three sensor fillers (acting portions) 26, 27, 28 acting on the photoelectric sensors 24, 25, and these sensor fillers 26. 27, 27, 28, 27, 27, 28, 27, 28, and 27, 27, 27, 27, 27, 27, 27, 27. It becomes more. The photoelectric sensors 24 and 25 are conventionally known, and a light emitting portion (not shown) and a light receiving portion (same) are provided in a U-shaped main body 24a and 25a so as to receive light from the light emitting portion. When the light is received, the signal is turned on and when it is not received, the off signal is output as an electrical signal. The sensor fillers 26, 27, and 28 are provided at positions that block the optical path between the light emitting portion and the light receiving portion.

  The paper-side filler pieces 29, 30, and 31 are arranged at positions that are affected by the A4 (T) original, the B4 (T) or B5 (Y) original, and the A3 (T) or A4 (Y) original, respectively. Yes. An arrow B in FIGS. 2 and 3 indicates the document feeding / feeding direction, where (T) indicates the vertical placement along the document feeding / feeding direction B, and (Y) indicates the document feeding. The horizontal orientation perpendicular to the direction B is meant respectively.

  The detection unit of the first photoelectric sensor 24 includes a sensor filler 26 associated with the A4 (T) document filler piece 29 and a sensor filler 28 associated with the A3 (T) or A4 (Y) document filler piece 31. The second photoelectric sensor 25 is provided with a sensor filler 27 associated with the B4 (T) document filler part 30. The sensor fillers 26 and 27 are fan-shaped pieces, and are maintained at positions where the optical paths of the sensors 24 and 25 are blocked (sensor off) in the standby state (the filler pieces 29 and 30 are not subjected to the action of the original). The sensor filler 28 is formed of a disk-shaped piece having a fan-shaped notch 28a having substantially the same shape as the sensor filler 26. In the standby state (the filler piece 31 is not affected by the original), the fan-shaped notch The portion 28a is maintained at a position overlapping the sensor filler 26. Accordingly, in the case of the sensor filler 28 alone, the light is transmitted through the notch 28a, so that the sensor is turned on, but in the standby state, the sensor 24 is turned off by the sensor filler 26.

  FIG. 3 is a schematic plan view for explaining how the document width detecting means 22 detects the document width. In the example shown in the drawing, each document is aligned on the right side in the document feeding / feeding direction B, but center alignment or left side alignment is not excluded. In the example of FIG. 3, the maximum document size is A3. In such an arrangement of the document width detection means, when the document sheet to be used is a rated sheet, the bundle of documents placed on the document placement unit 2 By the operation, the following document width information is obtained.

The following is based on the premise that a document is placed on the document placement unit 2 by the document presence / absence sensor (not shown).
(1) When the original does not act on any of the filler pieces 29, 30, 31 and the photoelectric sensors 24 and 25 are turned off by the sensor fillers 26 and 27, the original size is B5 (T) or less. Is the size of
(2) The original acts on the filler piece 29 and the sensor filler 26 is displaced to the sensor-on position, but the original does not act on the filler pieces 30 and 31, and the photoelectric sensor 24 (the sensor filler 28 is at the sensor-on position). If the photoelectric sensor 25 is turned off by the sensor filler 27, the document size is A4 (T).
(3) Although the original acts on the filler piece 29 and the filler piece 30 and the sensor fillers 26 and 27 are displaced to the sensor-on position, the original does not act on the filler piece 31 and the photoelectric sensors 24 and 25 When both are turned on, the document size is B4 (T) or B5 (Y).
(4) The original acts on all filler parts 29, 30, and 31, and the sensor fillers 26 and 27 are displaced to the sensor-on position, the sensor filler 28 is displaced to the sensor-off position, the photoelectric sensor 24 is turned off, and 25 When it is on, the document size is A3 (T) or A4 (Y).

  In this way, by providing two fillers 26 and 28 that are geometrically correlated to the detection part of one photoelectric sensor 24, a sensor is provided for each filler piece 29, 30, 31 as in the past. The same function as that in the case of detecting the document width can be achieved, so that one sensor can be surely reduced. Further, it is not necessary to secure an installation space for this purpose, and the degree of freedom in design increases.

  In the above (3) and (4), the document size has not yet been determined, but is determined by the combination of the document width detection information and the detection information by the document length detection means. For example, the document length is calculated from the time difference between detection of the leading edge and the trailing edge of the fed document by a sensor disposed at an appropriate position on the document conveyance path 5, and the combination of the calculated value and the document width detection information determines the document length. The size is fixed. In this case, the size of the rated paper is determined only by information on whether or not the document length exceeds 1/2 of the maximum document length (210 mm when the maximum document is A3). That is, in the case of (3), it is clear that if the document length does not reach 210 mm, it is B5 (Y), and if it exceeds B4 (T), and in the case of (4), the document length It is clear that A4 (Y) is greater than 210 mm and A3 (T) is greater. It goes without saying that other appropriate means can be adopted as such document length measuring means.

  In FIG. 1, reference numeral 32 denotes a document leading edge aligning shutter that protrudes on the document placing portion 2 and can align the leading edge of the document D set on the document tray 2b in a standby state. The shutter 32 is provided in a link mechanism (not shown) 33 that swings up and down in conjunction with the rotation of the separation roller 4a. It is configured to As described above, since the shutter 32 is caused to appear and retract on the document placing portion 2 mechanically interlocking with the separation roller 4a, it can be easily configured without using expensive electric parts such as a solenoid. it can. The document width measuring means 22 is installed in the vicinity of the upstream side of the shutter 32. If the document bundle is placed on the document placing portion 2 so that the leading edges of the documents are aligned by the shutter 32, the document width measuring means is provided. 22 is reliably activated.

  In the above embodiment, an example in which the document width measuring unit 22 is disposed on the document placing unit 2 has been described. However, the document width measuring unit 22 may be disposed at an appropriate position on the document conveying path 5. In this way, when arranged on the downstream side of the separation roller 4a, the peripheral speed of the rollers after the registration roller 6 is set larger than that of the separation roller 4a, so that a page interval is ensured between the fed documents. Thus, it is possible to detect the document width for each fed document, and it is also possible to accurately determine the size of a so-called mix-stacked document on the document placement unit 2 for each document. Further, although an example in which the present invention is applied to an ADF apparatus has been shown, the present invention can also be applied to a sheet feeding apparatus using a manual feed tray of a recording sheet in an image forming apparatus including a printer. Furthermore, although an example for double-sided reading has been shown as an ADF device, it goes without saying that the present invention can also be applied to an ADF device for single-sided reading. In addition, although the example which employ | adopted the photoelectric sensor as a sensor was shown, it cannot be overemphasized that the sensor which show | plays the other similar function is also employable.

It is a longitudinal cross-sectional view which shows the principal part of ADF and a scanning device. It is a perspective view showing a schematic structure of document width detecting means. FIG. 5 is a schematic plan view for explaining an aspect of document width detection by a document width detection unit.

Explanation of symbols

1 ADF (paper feeder)
2 Document placement section (paper placement section)
5 Document transport path (paper transport path)
22 Document width detection means (paper width detection means)
24 First photoelectric sensor (sensor)
25 Second photoelectric sensor (sensor)
26 Sensor filler (action part)
28 Sensor filler (action part)
28a Notch D Original (paper)

Claims (3)

A paper feeding device that feeds paper placed on a paper placement section along a paper conveyance path while feeding out paper one by one,
A sheet width detecting means in which first and second sensors that are turned on and off based on the presence or absence of a sheet are spaced apart in the width direction at appropriate positions from the sheet placing section to the sheet conveyance path ;
A first action unit that is provided corresponding to the first sensor and receives an action from the paper when the paper width is equal to or larger than the first size;
A second action unit that is provided corresponding to the second sensor and receives an action from the paper when the paper width is equal to or larger than a second size larger than the first size;
A third action unit that is provided corresponding to the first sensor and receives an action from the paper when the paper width is not less than a third size larger than the second size;
With
The first sensor is operated by the operations of the first and third action units.
i) If the paper width is smaller than the first size, or if the paper width is greater than or equal to the third size, an off signal is output,
ii) If the paper width is greater than or equal to the first size and smaller than the third size, an on signal is output,
The second sensor is operated by the operation of the second action unit.
iii) When the paper width is smaller than the second size, an off signal is output,
iv) the paper width, in the case of the above second size, paper feeding apparatus according to claim also be output from the ON signal. The first and second sensors are photoelectric sensors, and the first to third action portions are sensor fillers that are displaced depending on the presence or absence of paper,
2. The sheet feeding device according to claim 1, wherein the photoelectric sensor is turned on and off by transmitting or blocking light according to the displacement of the sensor filler. A paper feeding device that feeds paper placed on a paper placement section along a paper conveyance path while feeding out paper one by one,
A plurality of sensors that are turned on and off based on the presence or absence of a sheet are provided at appropriate positions from the sheet placement unit to the sheet conveyance path, and include a sheet width detection unit provided in the width direction;
At least one sensor among the sensors is provided with two action portions corresponding respectively to two different size sheets,
In the standby state, one of the two action parts is maintained at the sensor-off position and the other is maintained at the sensor-on position.
Due to the action of the corresponding paper, one is displaced from the sensor off position to the sensor on position, and the other is displaced from the sensor on position to the sensor off position.
The sensor is a photoelectric sensor, and the two action parts are sensor fillers that are displaced depending on the presence or absence of paper,
The photoelectric sensor is turned on and off by transmission or blocking of light accompanying the displacement of the sensor filler,
The one sensor filler is a fan-shaped piece that swings in the detection part of the photoelectric sensor,
In addition, the other sensor filler is formed of a disk-shaped piece that is formed with a notch having a shape corresponding to the fan-shaped piece and swings within the detection part of the photoelectric sensor.
In the standby state, one of the sensor fillers is kept in a position that blocks the detection light of the photoelectric sensor as a fan-shaped piece,
Sheet feeding device other sensor filler you characterized in that so as to be maintained at a position overlapping the sector piece with the notch.

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