JP2021160078A - Paper face turning-over device and paper face scan system for booklet - Google Patents

Abstract

To provide a paper face turning-over device for a booklet that automatically operates to turn over a bound booklet, page by page.SOLUTION: Robots 4L, 4R which have suction pads 9, 10 at hand tips are arranged in front of a booklet B placed on a work table 2. An auxiliary tool 5 comprises a bar 7 such that a base end side moves linearly along an X direction on the front side of the booklet and a tip side extends in a Y direction. An IPC 15 sucks an open side of a paper face P of the booklet B with the suction pad 9 once a back side of the booklet B is pressed with the suction pad 10 to lift the paper face P up to a predetermined height, and stops the robot 4L from operating for a predetermined time. Then, the bar 7 is put under a paper face Pu, and after the suction by the suction pad 9 is stopped, a next paper face Pd is sucked; and the bar 7 is moved to turn over the paper face Pu, and the paper face Pu is drawn with the suction pad 10 to level tensile flexure. Then, hand tips of the robots 4L, 4R are moved to outside the booklet B having the paper faces Pu, Pd opened, and the bar 7 is moved to its initial position.SELECTED DRAWING: Figure 1

Description

The present invention relates to a device for flipping the pages of a booklet on which at least a part of one side is bound one by one, and a paper surface scanning system including the device.

For example, for the purpose of saving space and improving accessibility, there is a request to convert the contents described in a partially bound booklet into data and save it. Therefore, in general, individual pages in which the closed part of the booklet is separated are scanned by a scanner and converted into data.

Japanese Unexamined Patent Publication No. 2009-32186

However, the above work is complicated and time-consuming, and each page of the bound booklet becomes disjointed.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a booklet page turning device capable of automatically flipping the pages of a bound booklet one by one, and a device thereof. The purpose is to provide a paper scanning system to be provided.

According to the paper-turning device of the booklet according to claim 1, on the front side of the booklet placed on the work table, both one end side and the other end side in the X direction are provided with suction portions at the hand. Place the 1st and 2nd arms. The auxiliary mechanism includes a bar whose base end side moves linearly along the X direction on the front side of the booklet and whose tip end side extends in the Y direction. The control unit
First step: When the first side of the booklet is pressed by the hand of the second arm,
Second step: When the second side of the paper surface of the booklet is sucked by the suction portion of the first arm and the paper surface is lifted upward to a predetermined height, a standby process for stopping the operation of the arm for a predetermined time is performed. In this standby process, for example, even if the paper surface that was in contact with the adsorbed paper surface before being lifted is lifted together due to the influence of static electricity or the like, it waits for the paper surface to fall due to its own weight.

Third step: Move the bar of the auxiliary mechanism so that it goes under the lifted paper.
Fourth step: By moving the bar of the auxiliary mechanism until it exceeds the first side, the paper is turned over, that is, the closed booklet is opened.
Fifth step: The suction portion of the second arm sucks the flipped second side of the paper surface and pulls the paper surface outward. This eliminates the bending of the flipped paper surface.

Sixth step: The hands of the first and second arms are moved to the outside of the booklet with the paper open, and the bar of the auxiliary mechanism is moved to the initial position. As a result, there are no obstacles in the space above the booklet in the open state, and the image of the booklet in the open state can be scanned by a scanner or the like.

That is, when the control unit periodically and repeatedly executes the first to sixth steps, the pages of the closed booklet are automatically turned one by one, and both pages are opened in sequence. Therefore, if the image is scanned by a scanner or the like and converted into data at the timing when each page is opened, all the contents described in the closed booklet can be converted into electronic data without the intervention of an operator. Will be possible.

According to the booklet paper turning device according to claim 2, in the second step, the control unit sucks the second side of the booklet paper surface by the suction unit of the first arm to raise the paper surface to a predetermined height. When lifting, the suction portion first suppresses the central portion on the second side side of the paper surface, the suction portion is once moved to the end portion in the Y direction, and then returned to the central portion again, and then the paper surface is lifted. With this control, the paper surface can be properly adjusted and lifted without being distorted.

According to the paper turning device of the booklet according to claim 3, in the third step, when the bar of the auxiliary mechanism is moved below the paper surface, the control unit lifts the paper surface upward to a predetermined height by the first arm. When the auxiliary mechanism is moved between the suction portion of the first arm and the first side of the paper surface in this state, it is once returned in the opposite direction. With this control, when the paper surface being turned over by the auxiliary mechanism is bent, the auxiliary mechanism returns in the opposite direction to eliminate the bending, and the paper surface is turned more reliably. You will be able to do it.

According to the paper-turning device of the booklet according to claim 4, when the control unit moves the bar of the auxiliary mechanism below the paper surface in the third step, the control unit stops the suction of the paper surface by the suction unit of the first arm. Press the second side of the next paper surface below the paper surface. By controlling in this way, it is possible to reliably prevent the next floating of the paper surface.

According to the paper turning device of the booklet according to claim 5, the first and second pressing mechanisms are arranged on one side of the booklet on the work table, and the paper surface of the closed side and the open side of the booklet, respectively. It operates to hold down a part of. Then, the control unit presses a part of the corresponding paper surface by the first pressing mechanism before starting the first step. This prevents the paper surface from bending when the hand of the second arm presses the first side of the booklet in the first step, and releases the pressed state before starting the second step. This prepares for the lifting operation of the paper surface by the first arm.

Further, after the standby process of the first arm is completed and the accompanyingly lifted paper surface falls due to its own weight as described above, a part of the paper surface is pressed by the first pressing mechanism. Further, even if the hands of the first and second arms are moved to the outside of the booklet in the sixth step by pressing a part of the corresponding paper surface by the second pressing mechanism after executing the fifth step. , The turned-up paper surface and the closed paper surface can be held in a stretched state by being pulled outward.

According to the paper turning device of the booklet according to claim 6, the control unit moves the bar of the auxiliary mechanism in the fourth step, and then moves the first side of the turned paper by the hand of the first arm. Press in the X direction. As a result, as a result of moving the bar of the auxiliary mechanism to exceed the first side, even if the operation of turning the paper surface is incomplete, the hand of the first arm presses the first side side of the paper surface in the X direction. By doing so, the operation of turning the paper can be assisted.

According to the paper-turning device of the booklet according to claim 7, when the control unit presses the first side of the paper surface in the X direction by the hand of the first arm in the fourth step, the control unit presses the suction unit with the paper surface and the bar. Try to get in between. Then, the hand is moved in the Y direction and then moved upward. By this operation, the operation of turning the paper can be brought to a perfect state.

According to the paper turning device of the booklet according to claim 8, when the control unit pulls the paper surface outward in the fifth step, the hand of the second arm is moved upward and then moved in the X direction. Pull it outward and move your hand downward to operate it so that the paper surface is pressed against the work table. As a result, it is possible to more reliably eliminate the bending of the turned-up paper surface.

According to the paper turning device of the booklet according to claim 9, a Bernoulli chuck is used for the suction portion of the first arm. By using Bernoulli chuck, it is possible to avoid excessive suction of a part of the paper surface, prevent damage such as wrinkles on the adsorbed part of the paper surface and its surroundings, and smoothly remove the adsorbed paper surface. Can be done.

According to the page-turning device for the booklet according to claim 10, an imaging unit for imaging the booklet on the workbench is arranged on the first arm, and the control unit captures the image captured by the imaging unit in the fourth step. Judge whether the paper has been turned over based on this. Then, if the paper is not turned over, error processing is performed. With this configuration, the control unit can reliably determine whether or not the paper has been turned over in the fourth step based on the image, perform a notification operation as necessary, or retry the fourth step. It becomes possible to perform error handling such as.

According to the paper-turning device of the booklet according to claim 11, the shape of the suction portion of the second arm is made into a rod shape extending in the Y direction. As a result, the second arm can more efficiently press the first side of the booklet along the side in the first step, or pull the paper surface turned out in the fifth step outward. ..

According to the paper turning device of the booklet according to claim 12, the bar of the auxiliary mechanism has a rectangular shape having a long side in the Y direction, and the surface of the bar is inclined in the direction of turning the paper with respect to the surface of the work table. By inclining the surface of the rectangular bar in this way, it becomes easier to insert the bar below the lifted paper surface when moving the bar in the third step.

According to the paper-turning device of the booklet according to claim 13, a vertical 6-axis type robot arm is used for the first and second arms. That is, by using a vertical 6-axis type robot arm having a relatively high degree of freedom, it is possible to easily execute the operations required as the first and second arms.

According to the paper scanning system according to claim 14, the paper turning device for the booklet according to any one of claims 1 to 13, the supply device for supplying the booklet to the workbench from the first arm side, and the workbench. It is provided with a scanning device for scanning the paper surface of the booklet in the above, a discharging device for discharging the booklet from the work table from the second arm side, and a control device for controlling the operation of each of these devices. With this configuration, the paper surface of the booklet supplied from the supply device is sequentially scanned by the scanning device while being turned by the paper turning device, and the booklet for which the scanning process has been completed is automatically ejected by the ejection device. Can be made. Therefore, it is possible to quickly perform the work of scanning the paper surface of the booklet and converting it into electronic data.

According to the paper scanning system according to claim 15, the control device uses the suction transfer unit to move the booklet located at the uppermost part of the suctioned supply side accommodating unit to the upper part of the transport unit and then stop the suction. Place it on the transport unit. Next, when the transfer unit is moved in the + X direction while being positioned above the stopper on the work table by the X-direction transfer unit on the supply side and the booklet is transferred to a predetermined position on the work table, the slit is a stopper. After locating the transport unit so that it hangs on, move it in the −X direction. The "+ X direction" is the direction from the first arm side to the second arm side, and the "-X direction" is the opposite direction. With this control, after the booklet is transferred to a predetermined position on the workbench by the transport unit, the second side of the booklet comes into contact with the stopper when the transport unit is retracted in the −X direction, so that the booklet moves to the transport unit. The booklet can be reliably placed in a predetermined position on the workbench without remaining.

According to the paper scanning system according to claim 16, the control device mounts the booklet whose transport unit has been scanned on the workbench in advance by the discharge side X-direction transfer unit before the booklet scan process is started. Move it to the position where it will be placed. Then, when the scanning process of the booklet is completed, the transport unit is moved in the + X direction while being positioned above the stopper provided near the discharge side accommodating unit, and when the slit reaches the position where the stopper is hooked. After lowering the transport unit so that the slit engages with the stopper, the transport unit is further moved in the + X direction to move the booklet to the discharge side accommodating unit. With this control, when the booklet is transferred to the discharge side accommodating unit by the transport unit, the first side of the booklet comes into contact with the stopper, so that the booklet does not remain in the transport unit and the booklet is transferred to the discharge side accommodating unit. Can be reliably placed in.

According to the paper scanning system according to claim 17, the control device sets the position of the booklet supplied to the workbench by the supply device based on the image captured by the image pickup device arranged on the second arm. A correction process is performed by the suction portion of the arm so that the corresponding sides are corrected so as to be along the Y direction and the X direction, respectively. With this control, even if the position of the booklet supplied by the supply device is displaced, each side can be corrected so as to follow the Y direction and the X direction, respectively.

A perspective view showing the appearance of the paper turning device according to the first embodiment. Top view showing the appearance of the paper turning device Side view showing the appearance of the paper turning device Functional block diagram showing the configuration of the control system Perspective view showing the initial state of the paper turning device Perspective view showing operation 1 The figure which shows typically the state which the suction pad 10 pressed the booklet B Perspective view showing operation 2 Perspective view showing operation 3 The figure which shows typically the state of the paper surface Pu, Pd which overlaps up and down in operation 3. Perspective view showing operation 4 (No. 1) Perspective view showing operation 4 (No. 1) from different angles Perspective view showing operation 4 (No. 2) Perspective view showing operation 4 (No. 2) from different angles Perspective view showing operation 5 Perspective view showing operation 5 from different angles The figure which shows typically the state which the paper surface P was pressed by the suction pad. Perspective view showing operation 6 Diagram schematically showing the virtual operation of the bar Perspective view showing operation 7 The figure which shows operation 8 schematically Perspective view showing operation 9 Perspective view showing operation 9 from different angles The figure which shows operation 9 schematically Perspective view showing operation 10 (No. 1) Perspective view showing operation 10 (No. 2) Perspective view showing operation 10 (No. 3) Perspective view showing operation 11 2nd embodiment, a perspective view showing operation 2 (No. 1) Perspective view showing operation 2 (No. 2) Perspective view showing operation 2 (No. 3) Perspective view showing operation 2 (No. 4) Perspective view showing operation 5 (No. 1) Perspective view showing operation 5 (No. 2) Perspective view showing operation 5 (No. 3) Perspective view showing operation 5 (No. 4) A perspective view (No. 1) showing an operation E2 as well as showing a paper surface scanning system according to a third embodiment. Functional block diagram showing the configuration of the control system Perspective view showing operations S1 and E1 (No. 1) Perspective view showing operation S1 (No. 2) Perspective view showing operation S2 Perspective view showing operation S3 Perspective view showing operation 0 (No. 1) Perspective view showing operation 0 (No. 2)

(First Embodiment)
Hereinafter, the first embodiment will be described with reference to FIGS. 1 to 28. 1 to 3 are a perspective view, a plan view, and a side view showing the appearance of the paper turning device of the present embodiment. The paper turning device 1 is provided with pedestals 3L and 3R on the rear side of the depth of the rectangular work table 2, and two vertical 6-axis robots 4L, which are relatively compactly configured on the pedestals 3L and 3R. 4Rs are arranged. The robots 4L and 4R correspond to the first and second arms, respectively. For the robot 4, for example, COBOTTA (registered trademark) of Denso Wave Incorporated is used.

In the following, the left-right direction of the workbench 2 is the X direction, and the depth direction of the workbench 2 is the Y direction in FIG. Further, the left and right are basically shown in a state where the robots 4L and 4R face the workbench 2, but depending on the figure, the left and right in the figure may be shown.

On the workbench 2, a booklet B bound on one side is initially placed on the left half surface side of the workbench 2 in a completely closed state. From this state, the page turning device 1 operates by using a robot 4 or the like to turn the pages P forming each page of the booklet B to the right side one by one.

A drive unit 6 of the auxiliary jig 5 is arranged between the work table 2 and the pedestal 3. The drive unit 6 is a linear actuator, and moves the movable unit 8 to which the base end portion of the bar 7 extending in the Y direction is attached linearly in the X direction. The drive source of the drive unit 6 is, for example, air. The bar 7 has a rectangular shape, and its surface is inclined so that the right side is slightly lower than the left side of the short side. The auxiliary jig 5 corresponds to an auxiliary mechanism.

A non-contact suction pad 9 as a suction portion is attached to the hand of the robot 4L. For the non-contact suction pad 9, for example, Bernoulli chuck or the like is used. The suction pad 9 has a cylindrical shape with a short outer shape, and generates a swirling flow inside the pad by ejecting air sent from a compressor (not shown) from a nozzle on the surface side facing the work table 2. Then, by releasing air into the atmosphere from the gap between the paper surface P to be adsorbed, a negative pressure is generated between the pad 9 and the paper surface P, and the paper surface P is adsorbed in a non-contact state. On the other hand, a suction pad 10 as a suction portion is attached to the hand of the robot 4R. The suction pad 10 has a bar shape extending in the Y direction, and sucks air from a nozzle on the surface side facing the workbench 2 with a compressor to suck the paper surface P in a contact state. Each of these pads 9 and 10 sucks and opens the paper surface P by controlling the air flow, and corresponds to a suction portion.

Further, a camera 11 corresponding to an imaging unit is attached to the wrist portion of the robot 4L. The camera 11 captures an image of the booklet B placed on the workbench 2, and based on the image, the IPC 15 described later is used to determine whether or not the operation of turning the paper surface P is surely executed. NS.

On the back side of the work table 2, a scanning device 12 that optically scans and reads the contents of the paper surface P and clampers 13L and 13R for pressing the upper end side of the paper surface P are arranged. By rotating a head (not shown), the scanning device 12 reads from the front side of the device 12 toward the depth direction by a line-type CCD sensor (not shown). The clampers 13L and 13R are arranged on both sides of the scanning device 12, and operate so as to press and release the upper end side of the paper surface P by rotating the clamp member 14 up and down using a stepping motor as an actuator, for example. .. The clampers 13L and 13R correspond to the first and second pressing mechanisms.

FIG. 4 is a functional block diagram showing the configuration of the control system. Each configuration of the paper turning device 1 is controlled by the IPC15, which is an industrial programmable controller. The IPC15 corresponding to the control unit controls the auxiliary jigs 5, suction pads 9 and 10, and clampers 13L and 13R via the IO port. The scanning device 12 is connected to the IPC 15 via a USB (Universal Serial Bus) interface. Further, the IPC 15 is connected to the robots 4L, 4R and the camera 11 by Ethernet (registered trademark) via the switching hub 16. The switching hub 16 also has a function of supplying electric power to the camera 11.

Next, the operation of this embodiment will be described. In the following, the side on which the booklet B is bound is referred to as the "dorsal side", and the side that is turned over facing the dorsal side is referred to as the "opening side". The dorsal side corresponds to the first side, and the open side corresponds to the second side. Further, the reference numerals of the respective parts are given only to the configurations that are the key points of the operation, and the hose that connects the pads 9 and 10 and the compressor to circulate air is not shown.

<Initial state; Initial scan>
As shown in FIG. 5, in the initial state, the auxiliary jig 5 is located on the left end side of the workbench 2, and the hands of the robots 4L and 4R are located on the left end side and the right end side of the workbench 2, respectively. .. Further, in each of the clampers 13L and 13R, the clamp member 14 is moved upward. A closed booklet B is placed on the left half surface of the workbench 2. In this state, the scanning device 12 first scans, and if the booklet B is placed, reading is started. If the booklet B is not placed, it is determined that the work target does not exist, and an error warning and a work completion report are given via IPC15 and a user interface (not shown).

<Operation 1; Hold the dorsal side of booklet B>
Next, as shown in FIG. 6, the robot 4R moves the suction pad 10 of the hand to the back side of the booklet B and presses it from above (first step). Further, the clamp member 14L of the clamper 13L is moved downward to press the upper end side of the booklet B. FIG. 7 schematically shows a state in which the suction pad 10 holds the booklet B. In order to prevent the paper surface P on the uppermost layer of the booklet B from slipping or slipping, it is desirable to hold the booklet B at a position slightly to the right of the left end in the figure.

<Operation 2; Adsorb the open side of booklet B>
Next, as shown in FIG. 8, the robot 4L moves the suction pad 9 of the hand to the opening side of the booklet B and presses it lightly from above, and the suction pad 9 sucks the uppermost paper surface P in a non-contact state. ..

<Operation 3; Lifting the top layer of paper P>
Next, as shown in FIG. 9, after moving the clamp member 14L of the clamper 13L upward, the robot 4L lifts the uppermost paper surface P upward and performs a standby process of waiting for a certain period of time in that state (the first). 2 steps). At this time, as shown in FIG. 10, the angle θ formed when the paper surface P is lifted upward and the robot 4L stops its operation is, for example, about 30 to 45 degrees. When the suction pad 9 lifts the uppermost paper surface Pu, the paper surface Pd in contact with the paper surface Pu is lifted together in a state of being attached to the paper surface Pu by the suction force and electrostatic force of the suction pad 9 acting slightly. Is assumed.

The paper surface Pd is pulled in the vertical direction by the force G1 in which gravity acts on its own weight. Assuming that the force with which the suction pad 9 sucks the uppermost paper surface Pu is F1 and the vertical component corresponding to the angle θ is F1-1, the angle θ may be such that (F1-1) <G1 is established. .. The standby process performed here is to wait for the paper surface Pd to be pulled by the force G1 and fall toward the workbench 2. When the standby process is completed, the clamp member 14L of the clamper 13L is moved downward to press the booklet B, that is, the upper end side of the paper surface Pd.

<Operation 4; Movement of bar 7 of auxiliary jig 5>
Next, as shown in FIGS. 11 to 14, the bar 7 of the auxiliary jig 5 is moved from the initial position in the X direction to be positioned below the paper surface P lifted by the robot 4L.

<Operation 5; Opening of the paper surface Pu by the suction pad 9 → Holding of the opening side of the paper surface Pd>
Next, as shown in FIGS. 15 and 16, when the suction pad 9 releases the suction of the paper surface Pu, the hand of the robot 4L is moved to the opening side of the paper surface Pd and pressed from above (third step). At this time, the suction pad 9 does not need to be sucked, and as shown in FIG. 17, there is no problem even if the booklet B is pressed at a position slightly protruding from the right end in the figure. Further, the hand of the robot 4R is moved upward to release the pressing on the back side of the paper surface Pu by the suction pad 10.

<Action 6; Movement of robot 4R to the right and turnover of paper Pu by bar 7>
Next, as shown in FIG. 18, the suction pad 10 is moved to the right; in the + X direction. The drive unit 6 is not controlled by using a sensor, and only moves from the initial position in the right direction when it is ON; in the + X direction and in the left direction when it is OFF; in the −X direction. Therefore, a stopper 17 is arranged in the middle of the movement path of the movable portion 8, and when the movable portion 8 comes into contact with the stopper 17, the bar 7 is generally located near the back side of the booklet B in the + X direction. The movement stops. At this point, the paper Pu is turned over by the bar 7 (fourth step).

As shown in FIG. 19, if the bar 7 is moved to a position slightly exceeding the back side of the booklet B, the paper surface Pu can be completely turned off, but in order to shorten the working time, It is desirable to turn off the drive unit 6 at the position where the movable unit 8 comes into contact with the stopper 17 and return it to the initial position.

<Operation 7; Confirmation of turnover of paper Pu by camera 11>
Next, as shown in FIG. 20, the wrist of the robot 4L is brought close to the central portion of the work table 2, and the image of the booklet B is captured from the camera 11. The IPC15 analyzes the image to check whether the paper Pu is turned over, that is, whether it is "turned over". If the paper surface Pu is not completely turned over, the following operation 8 is performed, for example, as an error process.

<Operation 8; Error handling, assist operation by robot 4L>
As the above error processing, for example, as schematically shown in FIG. 21, the hand of the robot 4L is moved in the + X direction so as to follow the movement of the bar 7, and the suction pad 9 is moved between the paper surface Pu and the bar 7. Let it get in. Then, the hand is moved in the + Y direction and then moved in the + Z direction. Suction pad 9 By operating in this way, the paper surface Pu is assisted so as to be turned over. As a plan to avoid the occurrence of an error in the operation 6, the drive unit 6 is not turned off when the bar 7 is moved to a position slightly exceeding the back side of the booklet B, and the right end side of the work table 2 is not turned off. It is also possible to move it until it reaches. In this case, the confirmation work in operation 7 may be omitted.

<Operation 9; Elimination of bending of the flipped paper surface Pu>
Even if the paper surface Pu is turned over in the operation 6, it is assumed that the paper surface Pu is bent in a bulging state in the vicinity of the back side of the booklet B. In the next operation 10, it is planned that the right end side of the paper surface Pu turned up by the suction pad 10 of the robot 4R is sucked. However, if the paper surface Pu is greatly bent near the back side of the booklet B, the hands of the robot 4R may not reach and suction by the suction pad 10 may not be possible. Therefore, as shown in FIGS. 22 to 24, the hand of the robot 4L is moved to the back side of the booklet B, and the bent portion of the paper surface Pu is pushed out in the + X direction by the suction pad 9. As a result, the bending of the paper surface Pu is eliminated to bring the paper surface closer to a flat state.

<Operation 10; Smoothing operation of the flipped paper surface Pu>
Next, as shown in FIGS. 25 to 27, when the hand of the robot 4R is moved to the right end side of the turned paper surface Pu and the paper surface Pu is sucked by the suction pad 10, the hand is moved slightly upward and then + X. Move in the direction and pull the paper Pu in the same direction to level it (fifth step). Then, the clamp member 14R of the clamper 13R is moved downward to press the upper end side of the paper surface Pu.

<Operation 11; Scanning of paper Pu and Pd>
Then, as shown in FIG. 28, the hands of the robots 4L and 4R are moved to the outside of the workbench 2 and the bar 7 is returned to the initial position (sixth step), and the paper surfaces Pu and Pd are opened to the left and right. , Scanning is performed by the scanning device 12, and the contents described on each paper are read and converted into electronic data.

With the above, a series of operations is completed, the process returns to operation 1 and the operation up to operation 11 is repeatedly executed. As a result, scanning by the scanning device 12 is performed while each page of the booklet B is sequentially turned one by one.

<Operation 12; Confirmation of end>
When the paper turning device 1 turns all the paper, the booklet B of the work table 2 is closed on the right half surface thereof. In this state, when the scanning device 12 scans in the operation 11, it is recognized that there is no paper surface on the left half surface of the work table 2. As a result, the controller determines that there is no paper to be turned next, and ends the operation of the paper turning device 1.

As described above, according to the paper turning device 1 of the present embodiment, the suction pads 9 and Robots 4L and 4R equipped with 10 are arranged. The auxiliary jig 5 includes a bar 7 whose base end side moves linearly along the X direction on the front side of the booklet B and whose tip end side extends in the Y direction. When the back side of the booklet B is pressed by the suction pad 10 on the robot 4R side, the IPC 15 sucks the open side of the paper surface P of the booklet B by the suction pad 9 on the robot 4L side to raise the paper surface P to a predetermined height. To perform a standby process to stop the operation of the robot 4L for a predetermined time.

Next, the bar 7 of the auxiliary jig 5 is moved so as to enter below the paper surface Pu, the suction by the suction pad 9 is stopped, and then the opening side of the next paper surface Pd is sucked. Then, when the bar 7 is moved beyond the back side to turn over the paper surface Pu, the suction pad 10 sucks the flipped open side of the paper surface Pu and pulls the paper surface Pu outward to even out the bending of the paper surface Pu. Then, the hands of the robots 4L and 4R are moved to the outside of the booklet B in the state where the paper surfaces Pu and Pd are opened, and the bar 7 is moved to the initial position.

When the IPC 15 repeatedly executes the above processing cyclically, the page P of the closed booklet B is automatically turned over one by one, and both pages are opened in sequence. Therefore, if the image is scanned by the scanning device 12 and converted into data at the timing when each page is opened, all the contents described in the closed booklet B can be converted into electronic data without the intervention of an operator. It becomes possible to change.

Further, the clampers 13L and 13R are arranged on the upper side of the booklet B on the workbench 2, and the IPC5 presses the upper side of the corresponding paper surface P by the clamper 13L before starting the first step. Therefore, it is possible to prevent the paper surface P from bending when the suction pad 9 presses the open side of the booklet B, and the pressed state is released before starting the second step, so that the paper surface P by the robot 4L can be pressed. Prepare for lifting operation.

Further, after the standby process of the robot 4L is completed and the paper surface Pd lifted together with the paper surface Pu falls due to its own weight, the upper side of the paper surface Pd is pressed by the clamper 13L. Further, even if the hands of the robots 4L and 4R are moved to the outside of the book B in the sixth step by pressing the upper side of the paper surface P corresponding to the clamper 13R after executing the fifth step. The paper surface P on the turned side and the closed side can be held in a state of being pulled outward and extended.

Further, after moving the bar 7 in the fourth step, the IPC 15 presses the back side of the turned-up paper surface P in the X direction by the pad 9 of the hand of the robot 4L. At that time, when the suction pad 9 is inserted between the paper surface Pu and the bar 7, the hand is moved in the + Y direction and then in the + Z direction. The suction pad 9 is operated in this way to perform an assist process so that the paper surface Pu can be turned over. As a result, even if the operation of turning the paper surface P is incomplete as a result of moving the bar 7, the operation of turning by the hand of the robot 4L can be assisted to reach a perfect state.

Further, when pulling the paper surface P outward in the fifth step, the IPC15 moves the hand of the robot 4R upward, then moves it in the X direction to pull it outward, and further moves the hand downward. The paper surface P is operated so as to be pressed against the work table 2. As a result, the bending of the flipped paper surface P can be more reliably eliminated.

Further, since the Bernoulli chuck is used for the suction pad 9, a part of the paper surface P is not excessively sucked, and it is possible to avoid damage such as wrinkles on the suctioned portion of the paper surface P and its surroundings, and suction is possible. The paper surface P can be smoothly removed.

Further, a camera 11 for photographing the booklet B on the workbench 2 is arranged on the robot 4L, and the IPC 15 determines whether or not the paper surface P is turned over based on the image captured by the camera 1 in the fourth step. .. Then, if the paper surface P is not turned over, error processing is performed. As a result, the IPC15 can reliably determine whether or not the paper surface P has been turned over, and can perform error processing such as performing a notification operation or retrying the fourth step as necessary. .. As the error processing here, the above-mentioned assist processing may be performed.

Further, since the suction pad 10 is shaped like a rod extending along the Y direction, the robot 4R can more efficiently perform operations such as pressing the back side of the booklet B and pulling the turned-up paper surface P outward. Can be done.

Further, the bar 7 has a rectangular shape having a long side in the Y direction, and the surface of the bar 7 is inclined in the direction of turning the paper surface P with respect to the surface of the workbench 2, so that the paper surface P is moved when the bar 7 is moved. It will be easier to get underneath. In addition, by using the vertical 6-axis type robot 4 for the first and second arms, it is possible to easily execute the operations required for the first and second arms.

(Second Embodiment)
Hereinafter, the same parts as those in the first embodiment are designated by the same reference numerals, description thereof will be omitted, and different parts will be described. In the first embodiment, in <Operation 2>, when the suction pad 9 sucks the uppermost paper surface P, the suction pad 9 is positioned at the center of the opening side of the paper surface P as shown in FIG. rice field.

On the other hand, in the <operation 2> of the second embodiment, as shown in FIGS. 29 to 32, when the suction pad 9 first suppresses the central portion on the opening side of the paper surface P, the suction pad 9 is once pressed. After moving it to the front end in the Y direction, it is returned to the center again, and then the paper surface P is sucked and lifted. With this control, the state of the paper surface P can be appropriately adjusted and lifted without being distorted.

Further, in the first embodiment, as shown in FIGS. 11 to 14, in <operation 4>, the bar 7 of the auxiliary jig 5 is pressed by the suction pad 10 of the robot 4R while the closed side of the paper surface P is pressed by the robot. When the 4L was positioned below the paper surface P being lifted, in the subsequent <operation 5>, the paper surface Pd was pressed from above by the suction pad 9 after the suction pad 9 released the suction of the paper surface Pu.

On the other hand, in <Operation 5> of the second embodiment, as shown in FIGS. 33 and 34, the suction pad 10 is retracted to the right side and then the movement of the bar 7 is started. Further, the suction pad 9 continues to suck the paper surface Pu without pressing the paper surface Pd. For example, if the paper surface Pu and the paper surface Pd below it can be separated without any problem in <operation 4> depending on the conditions such as the paper quality of the booklet B and the humidity during operation, this control may be performed.

Further, in the first embodiment, in <operations 4 to 6>, the bar 7 is moved in the + X direction at once until the movable portion 8 of the auxiliary jig 5 abuts on the stopper 17, and the paper surface Pu lifted by the robot 4L is lifted. I was turning over. On the other hand, in <operation 5> of the second embodiment, as shown in FIGS. 34 to 36, when the bar 7 is moved between the suction pad 9 and the first side of the paper surface Pu, the direction is once reversed. , That is, it is returned in the -X direction. Then, the movable portion 8 is moved again in the + X direction to come into contact with the stopper 17.

With this control, when the paper surface Pu that is being turned over by the bar 7 is bent, the bending or the like can be eliminated by returning the bar 7 in the opposite direction once, and the paper surface Pu can be further adjusted. You will be able to turn it over without fail.

(Third Embodiment)
The third embodiment shows a paper surface scanning system 23 in which a paper surface turning device 1 and a scanning device 12 are added with a booklet B supply device 21 and an ejection device 22. As shown in FIG. 37, the supply device 21 is arranged on the robot 4L side of the paper turning device 1, and the discharge device 22 is arranged on the robot 4R side.

The supply device 21 is a rectangular small desk type in which the longitudinal direction of the main body 24 is along the Y direction, and the upper surface thereof is substantially flush with the plane of the work table 2 of the paper turning device 1. A stocker 25 for accommodating a plurality of booklets B in a stacked state inside the main body 24 is provided in a portion of the main body 24 located on the left side of the robot 4L. Inside the stocker 25 corresponding to the supply side accommodating portion, a push-up mechanism 26 for pushing up the booklet B located at the uppermost portion to the vicinity of the upper surface is arranged.

A Y-direction transfer unit 27 that transfers the booklet B from the stocker 25 in the + Y direction is arranged on the main body 24. The Y-direction transfer unit 27 corresponding to the suction transfer unit is located below the linear transfer arm 28, the movable unit 29 that moves in the Y direction by the actuator along the transfer arm 28, and the movable unit 29. It is provided with a suction pad 30.

In front of the main body 24 in the drawing, an X-direction transfer unit 31 that transfers the booklet B to the workbench 2 of the paper turning device 1 is arranged. The robot 4L side of the workbench 2 is provided with two convex stoppers 18 arranged in the Y direction, which are related to the operation of the X-direction transfer unit 31. The X-direction transfer unit 31 on the supply side includes a linear transfer arm 32, a movable portion 33 that moves in the X direction by an actuator along the transfer arm 32, and a substantially L-shape whose base is fixed to the movable portion 33. A support arm 34 having a shape and a transport portion 35 attached to a tip end portion of the support arm 34 are provided.

The transport portion 35 has a plate shape having substantially the same area as the booklet B, and slits 36 aligned with the positions of the two stoppers 18 provided on the work table 2 are formed in the X direction. Further, the left end portion of the transport portion 35 is bent so as to stand up vertically, and the tip end portion of the support arm 34 is attached to the rising portion. The Y-direction transfer unit 27 and the X-direction transfer unit 31 correspond to a supply transfer mechanism.

The discharge device 22 is a rectangular small desk type in which the longitudinal direction of the main body 41 is along the X direction, and the upper surface thereof is substantially flush with the plane of the work table 2. A stocker 42 is provided in a portion of the main body 41 located to the right of the workbench 2 in which the booklets B for which the scanning process has been completed are stacked and housed in the main body 41. Inside the stocker 42 corresponding to the discharge side accommodating portion, a descent mechanism (not shown) for lowering and accommodating the position of the booklet B is arranged.

The main body 41 is provided with an X-direction transfer unit 44 that transfers the booklet B for which the scanning process has been completed from the work table 25 to the stocker 42. The X-direction transfer unit 44 corresponding to the discharge transfer mechanism has a linear transfer arm 45, a movable portion 46 that moves in the X direction by an actuator along the transfer arm 45, and a base fixed to the movable portion 46. It includes a substantially L-shaped support arm 47 and a transport portion 48 attached to the tip of the support arm 47. The right end portion of the transport portion 48 is bent so as to stand up vertically like the transport portion 35, and the tip end portion of the support arm 47 is attached to the rising portion.

Similar to the stopper 18, two convex stoppers 49 related to the operation of the X-direction transfer portion 44 are provided on the right side of the stocker 42. The transport portion 48 has a substantially plate-like shape having substantially the same area as the booklet B, and slits 50 aligned with the positions of the two stoppers 49 are formed in the X direction. As shown in FIG. 38, the operations of the supply device 21 and the discharge device 22 are controlled by the IPC 15 as a control device. The paper scanning system 23 is configured as described above. Further, the shape of the bar 19 of the paper turning device 1 is a shape in which convex piece portions 20 are provided at two locations in the Y direction on the lower surface side of the bar 7.

As shown in FIG. 38, the supply device 21 and the discharge device 22 are controlled by the IPC 15. A camera 11R is also arranged at the hand of the robot 4R, and the camera 11R is also connected to the IPC 15 via a switching hub 16. Along with this, the camera on the robot 4L side is a camera 11L.

Next, the operation of the third embodiment will be described with reference to FIGS. 39 to 44. In the following, the operation number related to the supply device 21 is indicated by the subscript "S", and the operation number related to the discharge device 22 is indicated by the subscript "E". Further, although the main body that controls the operation of the devices 21 and 22 is the IPC 15, it is described so that the devices 21 and 22 are the main bodies for the sake of simplification of the description. Further, since the operations of the devices 21 and 22 are mainly described below, for the sake of convenience, there are drawings that are not connected to the operation flow of the paper turning device 1.

<Operation S1; Supply of booklet B (1)>
As shown in FIGS. 39 to 40, the supply device 21 sucks the booklet B pushed up near the upper surface of the stocker 25 by the push-up mechanism 26 by the suction pad 30 of the Y-direction transfer unit 27, and the X-direction transfer unit 31. After being transferred above the transport unit 35, the suction is released and the booklet B is placed on the transport unit 35.

<Operation S2; Supply of booklet B (2)>
From the state shown in FIG. 37, as shown in FIG. 41, the transport unit 35 is moved in the X direction to supply the booklet B to the left half surface side of the work table 2. The movable portion 33 of the X-direction transfer unit 31 can be slightly moved up and down, and when the booklet B is supplied to the work table 2, the transfer unit 35 is used by the booklet B as the stopper 18 of the work table 2. It is positioned at a height that does not abut and is moved in the X direction.

<Operation S3; Supply of booklet B (3)>
When the opening side of the booklet B exceeds the position of the stopper 18, the transport portion 35 is moved downward so that the slit 36 is engaged with the stopper 18. Then, as shown in FIG. 42, the transport unit 35 is moved in the −X direction and retracted from the work table 2. At this time, even if the booklet B is dragged by the transport unit 35 and moves in the −X direction, the side on the opening side comes into contact with the stopper 18, so that the movement is prevented there.

<Operation 0; Position correction of booklet B>
Before starting the <initial scan> of the first embodiment, the paper turning device 1 sucks the position of the booklet B supplied to the workbench 2 based on the image captured by the camera 10R. The pad 10 is used for correction. As shown in FIG. 43, the suction pad 10 is applied to the closed side of the booklet B to correct it so as to follow the Y direction, and then the suction pad 10 is placed on the front side of the booklet B as shown in FIG. 44. Apply and correct so that it follows the X direction.

<Operation E1; Preparation for discharge of booklet B>
As shown in FIG. 39, the discharge device 22 moves the transport unit 48 of the X-direction transfer unit 44 to the right half surface side of the work table 2 in advance. From this stage, the paper turning device 1 executes <initial scan, operations 1 to 12>.

<Operation E2; Discharge of booklet B (1)>
When the operation 12 is completed, the entire booklet B is placed on the transport unit 48 in FIG. 37. Then, as shown in FIG. 41, the discharge device 22 moves the transport unit 48 of the X-direction transfer unit 44 in the X direction. The movable portion 46 can also move up and down slightly like the movable portion 33, and when the booklet B is discharged from the work table, the transport portion 46 is positioned at a height that does not abut on the stopper 49 in the X direction. Move to.

When the right end of the transport portion 46 exceeds the position of the stopper 49, the transport portion 46 is moved downward so that the slit 50 engages with the stopper 49. Then, the transport unit 35 is moved in the X direction. Then, the right end of the booklet B comes into contact with the stopper 49, the movement of the booklet B is blocked there, and as shown in FIG. 43, the booklet B separates from the transport section 46 and is housed in the stocker 42. Then, when the paper turning device 1 performs the operation 0, the discharging device 22 executes the operation E1.

As described above, according to the third embodiment, the supply device 21 flips the stocker 25 for accommodating the plurality of booklets B in the loaded state and the booklet B located at the uppermost position in the stocker 25 into the paper turning device 1. A supply transfer mechanism for transferring to the workbench 2 is provided, and a stopper 18 is provided on the second side of the booklet B in the workbench 2. The supply transfer mechanism includes an X-direction transfer unit 27 that sucks and transfers the booklet B from the stocker 25, and an X-direction transfer unit 31 that moves the 35 transfer unit in the X direction and transfers the booklet B to the workbench 2. In the IPC15, the suctioned booklet B is moved above the transporting section 35 by the X-direction transfer section 27, the suction is stopped, the booklet B is placed on the transport section 35, and the booklet B is placed on the transport section 35 by the X-direction transfer section 31. When the 35 is transferred to the left half side of the work table 2, the slit 36 is moved in the −X direction with the stopper 18 hooked on the stopper 18. With this control, the second side of the booklet B comes into contact with the stopper 18 when the transport unit 35 is retracted in the −X direction, so that the booklet B does not remain on the transport unit 35 and the booklet B can be used as a workbench. Can be reliably placed in the specified position.

Further, the IPC 15 moves the transport unit 46 to the right half side of the work table 2 in advance by the X-direction transfer unit 44 of the discharge device 22 before the scanning process of the booklet B is started. Then, when the scanning process of the booklet B is completed, the transport portion 46 is moved in the + X direction, and when the slit 50 reaches the position where the stopper 49 is hooked, the slit 50 of the transport portion 46 is engaged with the stopper 49. Then, the transport unit 46 is further moved in the + X direction to move the booklet B to the stocker 47. With this control, since the first side of the booklet B comes into contact with the stopper 49, the booklet B does not remain in the transport portion 46, and the booklet B can be reliably accommodated in the stocker 47.

Further, the IPC 15 corresponds to the position of the booklet B supplied to the work table 2 by the supply device 21 by the suction unit 10 of the robot 4R based on the image captured by the camera 12 arranged on the arm of the robot 4R. A correction process is performed to correct each side so that it follows the Y direction and the X direction, respectively. Therefore, even if the position of the booklet B supplied by the supply device 21 is displaced, each side can be corrected so as to be along the Y direction and the X direction, respectively.

The present invention is not limited to the embodiments described above or in the drawings, and the following modifications or extensions are possible.
The two arms are not limited to the vertical 6-axis type robot, and the specific configuration of each arm does not matter as long as the same work can be performed.
The flat surface of the bar 7 may be parallel to the work table 2. Further, the shape of the bar does not have to be rectangular, and may be, for example, a round bar or a square bar.
The non-contact suction pad 9 may be a non-contact suction pad other than the Bernoulli chuck, or a contact-type suction pad.

The shape of the suction pad 10 does not have to be rod-shaped, and may be, for example, a circular shape similar to the suction pad 9.
The camera 11 may be provided as needed.
Instead of the stopper 17, the bar 7 may be brought into contact with the robot 4R to regulate the moving position.
The back side of the booklet B does not have to be bound over the entire side, and at least a part of the side may be bound.

When the camera 10R placed on the hand of the robot 4R, for example, operation 10; when the hand is moved in the + X direction after sucking the paper Pu by the suction pad 10 in the fifth step, the paper Pu is based on the image captured by the camera 10R. Detects the tilt of. Then, the inclination may be corrected so that the paper surface Pu is moved in the + X direction in a state of being parallel to the work table 2. As a result, it is possible to more clearly read the paper surface Pu and Pd by the scanning device 12 in the subsequent operation 11.
An escape prevention member for preventing the paper from escaping in the −X direction may be provided on the lower surface side of the bar 7 so as to extend downward.

In the drawing, 1 is a paper turning device, 2 is a work table, 4L and 4R are robots, 5 is an auxiliary jig, 7 is a bar, 9 is a non-contact suction pad, 10 is a suction pad, 11 is a camera, and 12 is a scanning device. , 13L, 13R are clampers, 15 is IPC, 17 and 18 are stoppers, 21 is a supply device, 22 is a discharge device, and 23 is a paper scanning system.

Claims (17)

It is an operation to turn over the pages of each page of a booklet in which at least a part of one side is bound.
The workbench on which the booklet is placed and
If the direction along the lower side of the booklet is the X direction, which is orthogonal to the X direction, and the direction along the side of the booklet on the bound side is the Y direction, the paper surface is attracted to the hand. The first and second arms, which are provided with a portion and are arranged along the X direction on the work table facing the booklet,
An auxiliary mechanism having a bar whose base end side moves linearly along the X direction on the front side of the booklet and whose tip side extends in the Y direction.
It has the first and second arms and a control unit that controls an auxiliary mechanism.
When the booklet is closed, assuming that the side to be bound is the first side and the side facing the first side is the second side.
The control unit moves the bar of the auxiliary mechanism to the initial position on the second side.
The first step of pressing the first side of the booklet with the hand of the second arm, and
When the second side of the paper surface of the booklet is attracted by the suction portion of the first arm and the paper surface is lifted upward to a predetermined height, a standby process for stopping the operation of the first arm for a predetermined time is performed. The second step and
The third step of moving the bar of the auxiliary mechanism below the paper surface, and
In the fourth step of turning the paper surface by moving the bar of the auxiliary mechanism until it exceeds the first side,
The fifth step of sucking the flipped second side of the paper surface by the suction portion of the second arm and pulling the paper surface outward.
A booklet paper turning device that performs the sixth step of moving the hands of the first and second arms to the outside of the booklet with the paper surface open, and moving the bar of the auxiliary mechanism to the initial position. In the second step, the control unit attracts the second side of the paper surface of the booklet by the suction unit of the first arm to lift the paper surface upward to a predetermined height.
The claim that the suction portion first suppresses the central portion on the second side side of the paper surface, moves the suction portion to the end portion in the Y direction, then returns the suction portion to the central portion, and then lifts the paper surface. A device for turning the page of the booklet described in 1. In the third step, when the bar of the auxiliary mechanism is moved below the paper surface, the control unit raises the paper surface upward to a predetermined height by the first arm, and the auxiliary unit assists the paper surface. The paper-turning device for a booklet according to claim 1 or 2, wherein when the mechanism is moved between the suction portion of the first arm and the first side of the paper surface, the mechanism is once returned in the opposite direction. When the control unit moves the bar of the auxiliary mechanism below the paper surface in the third step, the control unit stops the suction of the paper surface by the suction unit of the first arm, and the following is located below the paper surface. The paper-turning device for a booklet according to any one of claims 1 to 3, which presses the second side of the paper. Arranged on the workbench on the side facing the first and second arms,
A first pressing mechanism that operates to press a part of the closed side of the booklet from above, and
It is equipped with a second pressing mechanism that operates to press a part of the open side of the booklet from above.
Before starting the first step, the control unit causes the first pressing mechanism to press a part of the corresponding paper surface.
Before starting the second step, the state of being pressed by the first pressing mechanism is released, and when the standby process of the first arm is completed, a part of the next paper surface below the paper surface is used as the first. Press by the pressing mechanism,
The paper-turning device for a booklet according to any one of claims 1 to 4, wherein a part of the corresponding paper surface is pressed by the second pressing mechanism after the fifth step is executed. Claims 1 to 5 in which the control unit moves the bar of the auxiliary mechanism in the fourth step and then presses the first side of the turned-up paper surface in the X direction by the hand of the first arm. The page-turning device for the booklet described in any one of the above. In the fourth step, when the hand of the first arm presses the first side of the paper surface in the X direction, the control unit causes the suction unit to enter between the paper surface and the bar. The paper-turning device for a booklet according to claim 6, wherein the hand is moved in the Y direction and then moved upward. In the fifth step, when the paper surface is pulled outward, the control unit moves the hand of the second arm upward, then moves it in the X direction and pulls it outward, and pulls the hand downward. The paper-turning device for a booklet according to any one of claims 1 to 7, which is moved so as to press the paper surface against the work table. The page-turning device for a booklet according to any one of claims 1 to 8, wherein a Bernoulli chuck is used for the suction portion of the first arm. An imaging unit for imaging a booklet on the workbench is arranged on the first arm.
In the fourth step, the control unit determines whether or not the paper surface has been turned over based on the image captured by the imaging unit, and if the paper surface is not turned over, performs error processing according to claims 1 to 9. The page-turning device for the booklet described in any one of the above. The paper-turning device for a booklet according to any one of claims 1 to 10, wherein the shape of the suction portion of the second arm is a rod shape extending along the Y direction. Any one of claims 1 to 11, wherein the bar of the auxiliary mechanism has a rectangular shape having a long side in the Y direction, and the surface of the bar is inclined in the direction of turning the paper surface with respect to the surface of the work table. Paper-turning device for the booklet described in. The paper-turning device for a booklet according to any one of claims 1 to 12, wherein a vertical 6-axis type robot arm is used for the first and second arms. The page-turning device for the booklet according to any one of claims 1 to 13.
A supply device that supplies a booklet from the first arm side to the work table of the paper turning device, and
A scanning device that scans the surface of the booklet on the workbench,
A discharge device that discharges the booklet from the workbench from the second arm side, and
A paper surface scanning system including the supply device, the paper surface turning device, the scanning device, and a control device for controlling the operation of the discharging device. The supply device includes a supply-side storage unit that stores a plurality of loaded booklets, and a supply-side storage unit.
It is provided with a supply transfer mechanism for transferring the booklet located at the uppermost part of the supply side accommodating portion to the work table of the paper turning device.
Convex stoppers are provided at two locations on the workbench on the second side of the booklet.
The supply transfer mechanism includes a suction transfer unit that sucks and transfers a booklet located at the top of the supply side storage unit.
It is provided with a supply-side X-direction transfer unit that moves the plate-shaped transport unit having slits formed in accordance with the positions of the two stoppers in the X direction and transfers the booklet to the workbench.
In the control device, the suction transfer unit moves the sucked booklet above the transport unit, then stops the suction to place the booklet on the transport unit.
When the transfer unit is moved in the + X direction by the supply-side X-direction transfer unit while being positioned above the stopper and the booklet is transferred to a predetermined position on the work table, the slit becomes the stopper. The paper scanning system according to claim 14, wherein the transport unit is positioned so as to hang and then moved in the −X direction. The discharge device includes a discharge side storage unit that stores a booklet for which scanning processing has been completed, and a discharge side storage unit.
A discharge transfer mechanism for transferring the booklet on the work table to the discharge side accommodating portion is provided.
Convex stoppers are provided at two locations on the first side side of the booklet in the discharge side accommodating portion.
The discharge transfer mechanism moves the plate-shaped transport unit having slits formed in accordance with the positions of the two stoppers in the X direction, and transfers the booklet to the discharge side accommodating unit in the discharge side X direction transfer unit. With and
Before the scanning process of the booklet is started, the control device moves the transport unit to a position where the booklet for which the scanning process has been completed is placed on the work table in advance by the discharge side X-direction transfer unit. Aside,
When the scanning process of the booklet is completed, the transport unit is moved in the + X direction while being positioned above the stopper, and when the slit reaches the position where the stopper is hooked, the transport unit is lowered. The paper surface scanning system according to claim 14 or 15, wherein the slit is brought into a state of being engaged with the stopper, and then the transport portion is further moved in the + X direction to move the booklet to the discharge side accommodating portion. The shape of the suction portion of the second arm of the paper turning device is rod-shaped.
An image pickup device arranged on the second arm is provided.
Based on the image captured by the image pickup device, the control device sets the position of the booklet supplied to the workbench by the supply device in the Y direction and each side corresponding to the suction portion of the second arm. The paper scanning system according to any one of claims 14 to 16, wherein a correction process for correcting along the X direction is performed.

Images