JP2012250852A - Automatic document feeder and image forming apparatus provided with the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic document feeder which reduces an installation space of a drive device, the number of components such as a drive motor so as to be a simple structure, and operation noise to improve noise reduction, and an image forming apparatus provided with the feeder.SOLUTION: The automatic document feeder has a switchback means having a branch guide for switching a conveying passage to read a second page after reading a first page of a document, and a pair of switchback rollers for resending the document to the conveying means after switching the conveying passage through the branch guide. The switching of the conveying passage of the branch guide, and the opening and closing of a nip of the pair of switchback rollers are performed by one driving means, so that the installation space of the driving means is reduced.

Description

  The present invention relates to an automatic document conveyance device that automatically conveys a document to a reading position, and an image forming apparatus including the automatic document conveyance device.

  2. Description of the Related Art Automatic document feeders used for multifunction machines, scanners, facsimiles, and the like are well known in a format that can reverse the front and back of a document in order to read both sides of the document. In recent years, the size of image forming apparatuses has been reduced, and not only the image forming unit of the image forming apparatus but also the automatic document feeder is required to be downsized.

  An example of the prior art of such an automatic document feeder is shown in FIG. The automatic document feeder includes a document stacking tray (101), a pick-up roller (102), a paper feed roller (103), a transport drum (104), and the like in order along the transport direction (arrow a direction) of the document (D). Pre-reading roller (105) and post-reading roller (106), branching member (107), reverse lower roller (108), discharge upper roller (109), reverse guide (110), and discharge tray disposed in contact therewith (111). A document reading position (R) is arranged between the pre-reading roller (105) and the post-reading roller (106) and below the transport drum (104). Here, for convenience of explanation, the upper surface of the document placed on the document stacking tray (101) is the A surface and the lower surface is the B surface.

  When only the A side of the original is read, the A side of the original (D) supplied from the original stacking tray (101) by the pickup roller (102) is read at the original reading position (R). The branching member (107) is supported so as to be swingable about the rear end portion, but when reading only the A surface of the document (D), it is at the position of the solid line shown in the figure, and the document (D ) Is discharged to the discharge tray (111).

  When reading both sides (A side and B side) of the document, after the A side of the document (D) conveyed from the document stacking tray (101) is read at the document reading position (R), the document (D) When the branch member (107) is in the position of the dotted line shown in the figure, the front and back are reversed by the reverse lower roller (108), the discharge upper roller (109) and the reverse guide (110), and the original reading position (R ) And the B side is read. The document (D) is turned upside down again by the same operation and discharged to the discharge tray (111) (see Patent Document 1).

  In Patent Document 1, by configuring the automatic document feeder as described above, members such as a conveyance roller for use in the automatic document feeder have been reduced. However, the branching member (107) and the reverse lower roller (108) are used. Since the drive devices are separately provided, there is a problem that a space for installing each drive device is required. In addition, when an inexpensive solenoid or the like is used as a drive device, the drive sound of the drive device increases, so it is necessary to take countermeasures for noise reduction, resulting in an increase in the number of parts and an increase in assembly man-hours. There was also a problem that led to an increase in manufacturing costs.

JP 2004-352434 A

  Therefore, in order to solve the above problems, the present invention can reduce the installation space of the drive device, reduce the number of parts such as the drive motor, and can have a simple configuration and can produce an operation sound. An object of the present invention is to provide an automatic document feeder capable of reducing noise and reducing noise, and an image forming apparatus including the automatic document feeder.

In order to achieve this object, the present invention has the following configuration.
According to a first aspect of the present invention, there is provided a document feeding unit that feeds a document from a document stacking tray, a transport unit that transports the fed document to a document reading position, and discharges the document after reading to a discharge tray. Discharging means, a branch guide for switching the conveyance path for reading the second surface after reading the first side of the original, and for feeding the original again to the conveyance means after switching the conveyance path by the branch guide The switchback means having a pair of switchback rollers is provided, and the switching of the conveying path by the branch guide and the opening and closing of the nip of the switchback roller pair are performed by one drive means, and the drive means is driven by the drive means A driving device that applies force, a driving member fixed to the driving device, and a driving force of the driving device to the branch guide and the switchback roller pair via the driving member The drive transmission mechanism comprises an operation transmission mechanism that converts the driving force from the drive device into a switching operation of a conveyance path of the branch guide and an opening / closing operation of a nip of a switchback roller pair, The motion transmission mechanism controls the switching of the conveyance path of the branch guide and the opening / closing operation of the nip of the switchback roller pair by a cam, and the cam is configured to switch the conveyance path of the branch guide and the A portion for opening and closing the nip of the switchback roller pair is disposed on the same axis, and further includes a position detection sensor for detecting the stop position of the cam, and the position detection sensor has the cam at the stop position. The present invention relates to an automatic document feeder characterized by detecting a stop position of the cam by detecting a shielding plate disposed on the same axis. .

  The invention according to claim 2 relates to the automatic document feeder according to claim 1, wherein the driving device comprises a single motor.

  The invention according to claim 3 relates to the automatic document feeder according to claim 2, wherein the drive transmission mechanism includes a driven member that transmits a driving force from the drive member to the operation transmission mechanism. .

  A fourth aspect of the present invention relates to an image forming apparatus comprising the automatic document feeder according to any one of the first to third aspects.

According to the first aspect of the present invention, a document feeding unit that feeds a document from a document stacking tray, a transport unit that transports the fed document to a document reading position, and a document that has been read out is a discharge tray. A discharge means for discharging the original document, a branch guide for switching the conveyance path for reading the second surface after reading the first side of the document, and for feeding the document again to the conveyance means after switching the conveyance path by the branch guide The switchback means having a pair of switchback rollers is provided, and switching of the conveyance path of the branch guide and opening / closing of the nip of the switchback roller pair are performed by one drive means, so that the installation space of the drive means is reduced. be able to. Further, since the number of parts such as a motor and the number of assembly steps can be reduced, the manufacturing cost can be reduced.
Further, the driving means transmits a driving device for applying a driving force to the driving device, a driving member fixed to the driving device, and transmits the driving force of the driving device to the branch guide and the switchback roller pair via the driving member. Since the drive transmission mechanism is provided, the conveyance path of the branch guide and the nip of the switchback roller pair can be opened and closed with a simple configuration. Therefore, the installation space for the driving means can be reduced, and the manufacturing cost can be reduced.
The drive transmission mechanism includes an operation transmission mechanism that converts a driving force from the drive device into a switching operation of a conveyance path of the branch guide and an opening / closing operation of a nip of a switchback roller pair, and the operation transmission mechanism includes Since the switching of the conveyance path of the branch guide and the opening / closing operation of the nip of the switchback roller pair are controlled by the cam, the configuration of the automatic document conveyance device can be further simplified. Accordingly, since the number of assembly steps can be reduced, the manufacturing cost can be further reduced. Further, it is possible to reliably control the switching of the conveyance path by the branch guide and the opening and closing of the nip of the switchback roller pair.

  According to the second aspect of the present invention, since only one motor is used as the driving means to be used, it is possible to reduce the noise of the document conveying device as compared with the case where a solenoid or the like is used as the driving means.

  According to the invention of claim 3, since the drive transmission mechanism includes a driven member that transmits the driving force from the driving member to the motion transmission mechanism, the driving force from the driving member is transmitted by the driven member. Can be transmitted to the mechanism.

  According to the fourth aspect of the present invention, since the image forming apparatus includes the automatic document feeder according to any one of the first to third aspects, the driving unit such as a motor of the automatic document feeder is provided. Since it can reduce, size reduction can be achieved. Therefore, it is possible to provide an image forming apparatus including an automatic document feeder that can reduce the number of assembling steps and the number of members and can reduce noise and power consumption of the image forming apparatus.

1 is a longitudinal sectional view of an automatic document feeder according to an embodiment of the present invention. FIG. 4 is a perspective view illustrating a driving unit of the automatic document feeder according to the present invention. FIG. 4 is a side view illustrating a driving unit of the automatic document feeder according to the present invention. FIG. 3 is an enlarged perspective view illustrating a driving unit of the automatic document feeder according to the present invention. FIG. 3 is a cross-sectional view of the automatic document feeder according to the embodiment of the present invention during single-sided conveyance. FIG. 3 is a cross-sectional view of the automatic document feeder according to the embodiment of the present invention during double-sided conveyance. FIG. 3 is a first operation state diagram of a cam, a branch guide, and a switchback roller pair of the automatic document feeder according to the embodiment of the present invention. FIG. 6 is a second operation state diagram of a cam, a branch guide, and a switchback roller pair of the automatic document feeder according to the embodiment of the present invention. FIG. 10 is a third operation state diagram of the cam, the branch guide, and the switchback roller pair of the automatic document feeder according to the embodiment of the present invention. FIG. 10 is a fourth operation state diagram of the cam, the branch guide, and the switchback roller pair of the automatic document feeder according to the embodiment of the present invention. FIG. 10 is a fifth operation state diagram of the cam, the branch guide, and the switchback roller pair of the automatic document feeder according to the embodiment of the present invention. FIG. 10 is a sixth operation state diagram of the cam, the branch guide, and the switchback roller pair of the automatic document feeder according to the embodiment of the present invention. It is a longitudinal sectional view of a conventional automatic document feeder.

An automatic document feeder according to an embodiment of the present invention and an image forming apparatus including the automatic document feeder will be described in detail with reference to the drawings.
FIG. 1 is a longitudinal sectional view of an automatic document feeder according to an embodiment of the present invention. In the following description, the left side of the drawing is the front end of the automatic document feeder, and the right side of the drawing is the rear end.

  As shown in FIG. 1, the automatic document feeder (1) includes a document stacking tray (2) on which documents are placed, and a document feeder that supplies the documents stacked on the document stacking tray (2) one by one. A paper means (3), a conveying means (4) for conveying a document fed by the document feeding means (3) to a document reading position (R), and a document read at the document reading position (R) is discharged. Discharging means (5), a branching guide (6) for switching the conveying path of the original, and a document introduced into the conveying path switched by the branching guide (6) are switched back and back to the conveying means (4) again. A switchback means (7) for conveying and a document discharge tray (8) for receiving the discharged document are provided.

The document stacking tray (2) is provided above the rear end side of the automatic document feeder (1). The document stacking tray (2) is formed in a substantially flat shape, and gently tilts downward toward the front end of the automatic document feeder (1), thereby supplying the document to the document feeding means (3). It has become easier.
The document placed on the document stacking tray (2) has its leading end abutted against the separation wall (9) and passes over the separation wall (9) when the document is supplied, thereby feeding the document one by one. To be supplied. Here, it is assumed that the document placed on the document stacking tray (2) is placed such that the first surface as the front surface faces upward and the second surface as the back surface faces downward.

  A set switch (10) that functions as a sensor for detecting the presence or absence of a document is disposed near the front end of the document stacking tray (2). The set switch (10) is supported so that it can swing above the document stacking tray (2). When a document is present on the document stacking tray (2), the set switch (10) is lightly placed on the document and takes a retracted position (not shown). On the other hand, when there are no more documents in the document stacking tray (2), the tip of the set switch (10) enters a hole (not shown) formed in the document stacking tray (2) and is shown in FIG. From the position of the double line to the operation position indicated by the single line (L). Thereby, for example, it is detected that the document has disappeared due to the tip of the set switch (10) blocking the optical path of the optical sensor.

  The document feeding means (3) includes a pickup roller (11) disposed in the vicinity of the set switch (10), a sheet feeding roller (12) and a separation roller (13) disposed downstream in the conveying direction. And. The pickup roller (11) is connected to a driving device (not shown), and is rotated clockwise by the driving device so as to contact the first surface of the document placed on the document stacking tray (2). Move (down) in the direction of contact.

  The paper feed roller (12) is disposed so as to contact the separation roller (13) from above the separation roller (13). The paper feed roller (12) is connected to a driving device (not shown), and is thereby driven to rotate in the clockwise direction, so that the original delivered from the pickup roller (11) is separated by a separation roller (13). Supply to the downstream side one by one. The separation roller (13) is connected to a torque limiter (not shown). When the number of documents taken out is one, the separation roller (13) is rotated and supplied to the conveyance unit. When the number of documents is two or more, the rotation is stopped. To prevent repeated feeding.

The conveying means (4) includes document conveying roller pairs (14) and (15) and a timing switch (16). The timing switch (16) rotates counterclockwise when the leading edge of the document comes into contact with the document and retracts to the retracted position, and is held at the retracted position until the document has passed. Next, when the document finishes passing, it returns to the position shown in FIG. The timing switch (16) is disposed so as to be associated with the optical sensor (17), for example, and is configured to open the optical path of the optical sensor (17) when the timing switch (16) is disposed at the retracted position. Yes. The automatic document feeder (1) detects that the leading edge of the document has reached the timing switch (16) when the optical path of the optical sensor (17) is opened, and the optical path of the optical sensor (17) is blocked. Thus, it can be detected that the document has passed the timing switch (16). The document detection information by the timing switch (16) is used for the operation timing of each roller, branching member, and the like.
A document reading section (18) is provided on the downstream side of the pair of document transport rollers (15) to read document information.

  The discharge means (5) includes a post-reading roller (19) and a discharge roller (20). A branch guide (6) is disposed downstream of the post-reading roller (19). The branch guide (6) is supported so as to be swingable with reference to the rear swing center (6a), and is further biased in the direction (upward) opposite to the discharge means (5) by a biasing means (not shown). Has been. As a result, the branch guide (6) moves its tip end up and down with reference to the rear swing center (6a).

  Switchback means (7) is arranged behind the branch guide (6) (on the right side in FIG. 1). The switchback means (7) includes a switchback upper roller (21), a switchback lower roller (22), and a lift plate (23). A drive means (not shown) is connected to the switchback lower roller (22), and can be driven to rotate clockwise or counterclockwise. The lift plate (23) is supported so as to be swingable with respect to the swing center (23a) at the tip end portion thereof, and a switchback upper roller (21) is disposed at the rear end portion thereof. The switchback upper roller (21) is disposed so as to contact the upper side of the switchback lower roller (22), and can be brought into contact with and separated from the switchback lower roller (22) by swinging of the lift plate (23). The lift plate (23) includes a spring (24) that is a biasing means that biases the switchback upper roller (21) and the switchback lower roller (22) in contact with each other. As a result, the nip between the switchback upper roller (21) and the switchback lower roller (22) can be opened and closed.

In the automatic document feeder (1) according to the present invention, the conveyance path of the branch guide (6) is switched, and the nip between the switchback upper roller (21) and the switchback lower roller (22) of the switchback means (7). Opening and closing is performed by one driving means.
The drive means includes a drive device, a drive member, and a drive transmission mechanism. The drive transmission mechanism is a driven member, switching of the conveyance path by the branch guide (6) and the nip of the switchback roller pair (21, 22). And an operation transmission mechanism for performing an opening / closing operation.
Hereinafter, an embodiment of the driving means will be described in detail.

  FIG. 2 is a perspective view for explaining the driving means of the automatic document feeder (1) according to the present invention. FIG. 3 is a side view for explaining the driving means of the automatic document feeder (1) according to the present invention. FIG. 4 is an enlarged perspective view for explaining the driving means of the automatic document feeder (1) according to the present invention.

  As shown in FIGS. 2 and 3, the drive means (25) is a drive device (26) that applies drive force to the drive means (25), and a drive that is used as a drive member fixed to the drive device (25). The gear (28) and the drive transmission mechanism (27) for transmitting the driving force of the driving device (26) to the branch guide (6) and the switchback roller pair (21, 22) via the driving gear (28). Yes.

  The drive transmission mechanism (27) is transmitted from a driven gear (29) (30) (31) used as a driven member for transmitting a driving force from the drive gear (28) and from the driven gear (29) (30) (31). The operation transmission mechanism (32) is configured to convert the driving force to be changed into a transfer path switching operation of the branch guide (6) and a nip opening / closing operation of the switchback roller pair (21, 22).

  The motion transmission mechanism (32) transmits the driving force transmitted from the driven gears (29), (30) and (31) to the nip of the conveying path of the branch guide (6) and the switchback roller pair (21, 22). A cam (33) that converts the opening / closing operation of the cam, a position detection sensor (34) that detects a stop position (home position) of the cam (33), and a switchback roller (21) that converts the operation converted by the cam (33). It consists of an actuating link (35) that communicates to

The driven gear (31) is rotatably attached to a support shaft (31a) extending substantially horizontally in the width direction of the document. The driven gear (31) is engaged with the driving gear (28) via the driven gears (29) and (30), and the driving force of the driving device (26) is transmitted to the driven gear (31).
In the case of this embodiment, the drive device (26) consists of one motor. Thereby, the installation space of a drive means can be made small.

The cam (33) is fixed to the end portion on the back side of the support shaft (31a) which is a rotating shaft. As a result, the cam (33) rotates in a plane perpendicular to the axial direction of the support shaft according to the rotation of the driven gear (31).
As shown in FIG. 4, the cam (33) is composed of two parts arranged in parallel along the longitudinal direction of the support shaft (31a), and a first part having a first peripheral surface (33a), And a second portion having a second peripheral surface (33b). As shown in FIG. 4, the first peripheral surface (33a) of the first portion of the cam (33) is in contact with the lower surface of the operating link (35), and the second peripheral surface (33b) of the second portion. ) Is in contact with a guide shaft (36) disposed vertically above the branch guide (6).

  One end of the operating link (35) is fixed to one end of a support shaft (35a) extending substantially horizontally in the width direction of the document, and the other end of the support shaft (35a) is the swing center of the lift plate (23). (23a). The operation link (35) is disposed so as to abut on the first peripheral surface (33a) of the cam (33). As a result, the operating link (35) swings as the cam (33) rotates, and its operation is transmitted to the lift plate (23) of the switchback means (7) via the support shaft (35a). Accordingly, the switchback upper roller (21) arranged on the lift plate (23) moves up and down around the swing center (23a), and the nip between the switchback upper roller (21) and the switchback lower roller (22). Is opened and closed.

  The branch guide (6) abuts on the second peripheral surface (33b) of the cam (33), and swings with reference to the swing center (6a) disposed in the rear part thereof according to the movement of the cam (33). To do. A guide shaft (36) is provided vertically above the branch guide (6) from the swing center (6a) of the branch guide (6). A convex portion (36a) extending horizontally is provided at an upper end portion of the guide shaft (36). This convex part (36a) always contacts each other with the second peripheral surface (33b) of the cam (33). As a result, the branch guide (6) moves its tip end up and down with respect to the document transport direction in accordance with the rotation of the cam (33) to switch the document transport direction.

  The position detection sensor (34) is for specifying the home position of the cam (33), and is composed of a photo interrupter that is an optical sensor. The position detection sensor (34) includes a light emitting portion and a light receiving portion that face each other, and a gap is provided therebetween. Since this position detection sensor (34) is for identifying the light emitted from the light emitting unit by receiving it at the light receiving unit, other members are interposed between the light emitting unit and the light receiving unit by shielding this light. Detect the presence.

The driven gear (31) includes a shielding plate (37) protruding from a part of the outer periphery thereof, and the shielding plate (37) is disposed so as to enter a gap provided in the position detection sensor (34). Yes. That is, since the driven gear (31) and the cam (33) are interlocked, the cam (33) is detected by detecting the position of the shielding plate (37) of the driven gear (31) by the position detection sensor (34). ) Position can also be specified. Normally, the home position of the cam (33) is when the shielding plate (37) of the driven gear (31) is present in the gap of the position detection sensor (34).
By adopting the above-described configuration, switching of the conveyance path of the branch guide (6) and opening / closing of the nip between the switchback upper roller (21) and the switchback lower roller (22) can be performed by one driving means.
In the present embodiment, the driving gear and the driven gear are used as the driving member and the driven member, but the driving member and the driven member are not limited to this. For example, the driving member may be a driving pulley, the driven member may be a driven pulley, and a belt may be suspended on both pulleys to transmit the driving force.

The operation of the automatic document feeder (1) will be described with reference to the drawings.
FIG. 5 is an internal cross-sectional view of the automatic document feeder according to the embodiment of the present invention during single-sided conveyance, and FIG. 6 is an internal cross-sectional view of the automatic document feeder according to the embodiment of the present invention during double-sided conveyance. In the following description, the position of the branch guide (6) shown in FIG. The arrows in the figure indicate the document conveyance direction.

The document transport path when reading only one side (first surface) of the document will be described in detail below with reference to FIG.
When the document is placed on the document stacking tray (2), the set switch (10) is retracted upward to complete preparation for document conveyance. Since the document is read only on the first surface, the cam (33) is not driven from the home position.
When the automatic document feeder (1) receives the start signal input from the operation panel, the pickup roller (11) rotates clockwise. Next, the pickup roller (11) descends to a position where it comes into contact with the document placed on the document stacking tray (2) and supplies the uppermost document to the document transport path (38). The documents supplied from the pickup roller (11) are supplied one by one to the document conveyance path (38) by the separation roller (13).

The supplied document is detected when the leading end of the document passes the timing switch (16), and the information is used for the operation timing of each roller, branch guide, and the like.
The original is conveyed to the original reading section (18) by the conveying roller, and is discharged to the original discharge tray (8) by rotating the post-reading roller (19) and the discharge roller (20) clockwise.

The document conveyance path in the automatic document conveyance device when reading both sides (first surface and second surface) of the document will be described in detail below with reference to FIG.
When the document is placed on the document stacking tray (2), the set switch (10) is retracted upward to complete preparation for document conveyance.

  When the automatic document feeder (1) receives the start signal input from the operation panel, the pickup roller (11) rotates clockwise. Next, the pickup roller (11) descends to a position where it comes into contact with the document placed on the document stacking tray (2) and supplies the uppermost document to the document transport path (38). The documents supplied from the pickup roller (11) are supplied one by one to the document conveyance path (38) by the separation roller (13).

  When the supplied document passes through the timing switch (16), the leading edge of the document is detected, and the driving device (26) starts driving. Accordingly, the cam (33) starts to rotate, and the branch guide (6) is arranged at the position shown in FIG. 6 according to the rotation of the cam (33). The original is read by the original reading section (18) through the original conveyance path (38), and then sent to the switchback conveyance path (39) by the post-original reading roller (19). The conveyed document is conveyed to the switchback conveyance path (39) by the switchback lower roller (22) rotating clockwise, and is turned upside down. After the reversal, the document is sent again to the document conveyance path (38) by rotating the switchback lower roller (22) counterclockwise. The position of the branch guide (6) at this time has returned to the home position. Thereby, it is possible to prevent the document from being fed back from the switchback conveyance path (39) to the document discharge path (40). Note that the front / back reversal timing of the original is measured based on the passage time of the front end of the original detected by the timing switch (16).

  After the original is detected again by the timing switch (16), the second side is read by the original reading unit (18). The branch guide (6) is disposed again at the position shown in FIG. 6, and the document is conveyed to the switchback conveyance path (39), so that the document is turned upside down. After the reversal, the document is sent to the conveyance path, but is not read by the document reading unit (18). Next, the position of the branch guide (6) is set to the home position. As a result, the original is discharged onto the original discharge tray (8) by the post-reading roller (19) and the discharge roller (20). This empty conveyance of the original is performed to align the front and back of the original.

Referring to FIGS. 7 to 12 regarding the rotation operation of the cam and the opening / closing operation of the nip of the branch guide and switchback roller when reading both sides of the document, and referring to FIGS. 5 and 6 regarding the conveyance path of the document. Detailed description.
FIG. 7 is a diagram showing the state of the cam (33) and the opening / closing state of the nip of the switchback roller pair (21, 22) from the start of the operation of the automatic document feeder (1) to the time of reading the first surface of the document. FIG. 8 is a diagram showing the state of the cam (33) from the reading of the first surface of the document to the conveyance to the switchback conveyance path (39) and the opening / closing state of the nip of the switchback roller pair (21, 22). FIG. 9 shows the state of the cam (33) and the open / close state of the nip of the switchback roller pair (21, 22) when the document is transported from the switchback transport path (39) to the document transport path (38). FIG. 10 shows the state of the cam (33) from the reading of the second side of the document to the conveyance to the switchback conveyance path (39) and the open / close state of the nip of the switchback roller pair (21, 22). It is a figure showing 1 is a diagram showing the state of the cam (33) and the open / close state of the nip of the switchback roller pair (21, 22) when the document is transported from the switchback transport path (39) to the document transport path (38). FIG. 12 shows the state of the cam (33) and the open / close state of the nip of the switchback roller when the document is transported from the switchback transport path (39) to the document transport path (38).
Here, regarding the cam (33) and the branch guide (6), the left side of the drawing at the position shown in FIG. 7 is the front end, the right side of the drawing is the rear end, the upper part of the drawing is the upper part, and the lower part of the drawing is the lower part. And In the following description, the positions of the cam (33), the switchback upper roller (21), and the branch guide (6) shown in FIG. 7 are the home positions.

  As described above, the first peripheral surface (33a) of the cam (33) is in contact with the operating link (35), and the second peripheral surface (33b) is the guide shaft (36) of the branch guide (6). ) Is always in contact with the convex portion (36a). Therefore, the branch guide (6) operates according to the rotation of the cam (33), and the switchback upper roller (21) connected to the operation link (35) also operates according to the rotation of the cam (33). Here, the direction in which the cam (33) rotates is the clockwise direction as shown by the arrow in FIG.

  Here, as shown in FIG. 7, the cam (33) does not operate from the start of the operation of the automatic document feeder (1) to the reading of the first surface of the document. Accordingly, the branch guide (6) and the switchback upper roller (21) are at the home position, and the nip between the switchback upper roller (21) and the switchback lower roller (22) is closed.

  FIG. 8 shows the operation of the cam (33) from the reading of the first surface of the document to the conveyance of the document to the switchback conveyance path (39). The tip of the second peripheral surface (33b) of the cam (33) pushes the projection (36a) of the guide shaft (36) of the branch guide (6) in the tip direction. As a result, the branch guide (6) rotates with the swing center (6a) as a reference, and the tip of the branch guide (6) is pushed downward. Thereby, as shown in FIG. 6, the document conveyance path (38) to the document discharge tray (8) is closed by the branch guide (6), and the document is supplied to the switchback conveyance path (39). In this case, since the nip between the switchback upper roller (21) and the switchback lower roller (22) is in a closed state, the switchback of the document is rotated by the clockwise rotation of the switchback lower roller (22). The conveyance to the conveyance path (39) is completed.

  When the document is transported from the switchback transport path (39) to the document transport path (38), the cam (33) rotates clockwise as shown in FIG. 9, and the second surface of the cam (33) The convex portion (36a) of the guide shaft (36) of the branching guide comes into contact with the lower recess between the front end portion and the rear end portion of the peripheral surface (33b). Accordingly, the branch guide (6) returns to the home position. As a result, the state shown in FIG. 5 is obtained, and the document is prevented from being fed back from the switchback conveyance path (39) to the document discharge path (40) and is reliably conveyed to the document conveyance path (38). .

When the document is transported to the document transport path and the leading end reaches the nip between the pair of transport rollers (14), the cam (33) further rotates as shown in FIG. The front end of the peripheral surface (33a) contacts the operating link (35). The operating link (35) is connected to the swing center (23a) of the lift plate (23) of the switchback means (7) via the support shaft (35a). Therefore, the lift plate (23) is pushed upward with reference to the swing center (23a) of the tip. As a result, the switchback upper roller (21) and the switchback lower roller (22) are separated. The rear end portion of the second peripheral surface (33b) of the cam (33) pushes the convex portion (36a) of the guide shaft (36) of the branch guide (6), and the branch guide (6) ) As a reference, the tip is pushed downward. As a result, the document is supplied to the switchback conveyance path (39) after the second surface is read.
It is necessary to open the nip because there is a time in which the conveyance direction of the leading edge and the trailing edge of the sheet is opposite to each other. This is because, when the paper length is a certain length or more, the leading end portion of the paper reaches the switchback conveyance path (39) at the time of reading the second side, but the rear end portion of the paper is still in the switchback conveyance path. (39) may remain. In this case, the front end portion of the sheet needs to be conveyed in the right direction of the switchback roller pair (21, 22), but the rear end portion of the sheet is in the left direction of the switchback roller pair (21, 22). That is, it is necessary to convey the document in the document conveyance path direction (38). Accordingly, the conveyance direction is reversed between the leading edge and the trailing edge of the sheet, and the sheet cannot be conveyed by the switchback roller pair (21, 22). Therefore, it is necessary to open the nip.

  When the document reaches the switchback conveyance path (39), the cam (33) further rotates as shown in FIG. 11, and the lower part of the first peripheral surface (33a) of the cam (33) is connected to the operating link ( 35). As a result, the lift plate (23) of the switchback means (7) is pushed down by the force of the spring (24) with reference to the swing center (23a) of the front end thereof, and is moved to the rear end of the lift plate (23). The provided switchback upper roller (21) contacts the switchback lower roller (22). At this time, the rear end portion of the second peripheral surface (33b) of the cam (33) is still in contact with the convex portion (36a) of the guide shaft (36) of the branch guide (6). The tip of (6) is pushed down.

  When the document is transported again from the switchback transport path (39) to the document transport path (38), the cam (33) rotates clockwise as shown in FIG. 12, and the second of the cam (33) The convex portion (36a) of the guide shaft (36) of the branch guide comes into contact with the indentation at the upper portion of the peripheral surface (33b). Accordingly, the branch guide (6) returns to the home position. As a result, the document is prevented from being fed back from the switchback conveyance path (39) to the document discharge path (40) and is reliably conveyed to the document conveyance path (38).

  Next, the document is discharged from the document transport path (38) through the document reading unit (18) onto the document discharge tray (8) by the post-reading roller (19) and the discharge roller (20). At this time, the cam (33) rotates once, and the cam (33) and the branch guide (6) return to the home position shown in FIG.

  The automatic document feeder and the image forming apparatus provided with the same according to the present invention can be suitably used for various copying machines, printers, and FAX machines.

DESCRIPTION OF SYMBOLS 1 ... Automatic document conveying apparatus 2 ... Document stacking tray 3 ... Document feeding means 4 ... Conveying means 5 ... Discharge means 6 ... Branch guide 7 ... Switchback means 21- -Switchback upper roller 22-Switchback lower roller 23-Lift plate 33-Cam 33a-First peripheral surface 33b-Second peripheral surface 35-Operation link 35a-Support shaft 36-Guide shaft 36a・ Convex

Claims (4)

A document feeder for feeding documents from the document stacking tray;
Conveying means for conveying the fed document to a document reading position;
A discharge means for discharging the document after reading to a discharge tray;
A branch guide for switching the conveyance path to read the second surface after reading the first surface of the original;
A switchback means having a switchback roller pair for re-feeding the original to the conveyance means after switching the conveyance path by the branch guide;
The switching of the conveyance path by the branch guide and the opening and closing of the nip of the switchback roller pair are performed by one drive means,
The driving means includes a driving device that applies driving force to the driving means, a driving member fixed to the driving device, and driving force of the driving device to the branch guide and the switchback roller pair via the driving member. It has a drive transmission mechanism that transmits,
The drive transmission mechanism comprises an operation transmission mechanism that converts a driving force from the driving device into a switching operation of a conveyance path of the branch guide and an opening / closing operation of a nip of a switchback roller pair,
The operation transmission mechanism controls the switching of the conveyance path of the branch guide and the opening / closing operation of the nip of the switchback roller pair by a cam;
In the cam, a portion for switching the conveyance path of the branch guide and a portion for opening and closing the nip of the switchback roller pair are arranged on the same axis,
A position detection sensor for detecting a stop position of the cam;
The automatic document feeder, wherein the position detection sensor detects a stop position of the cam by detecting a shielding plate arranged on the same axis when the cam is at a stop position.   The automatic document feeder according to claim 1, wherein the driving device includes a single motor.   The automatic document feeder according to claim 2, wherein the drive transmission mechanism includes a driven member that transmits a driving force from the drive member to the operation transmission mechanism.   An image forming apparatus comprising the automatic document feeder according to claim 1.

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