JP3785878B2 - Paper feeder - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper feeding device used in an image forming apparatus such as an electrophotographic type or electrostatic recording type printer or copying machine. The present invention relates to a sheet feeding device having an electrical connection structure for energizing the sheet feeding cassette.
[0002]
[Prior art]
Conventionally, in image forming apparatuses such as the above-described electrophotographic and electrostatic recording printers and copying machines, paper is fed from a paper feed cassette of a paper feed device to a transfer position of a photosensitive drum, An image is formed by transferring and fixing the toner image formed on the photosensitive drum onto a sheet.
[0003]
As a technology for feeding paper by pressing the paper stored in the paper feed cassette against a paper feed roller, a lifter mechanism has been proposed in which the paper support member on which the paper is placed is moved up and down and held at a substantially fixed position. Yes.
[0004]
As a technique related to this lifter mechanism, for example, there is one disclosed in Japanese Patent Laid-Open No. 8-319033. A sheet feeding apparatus according to Japanese Patent Application Laid-Open No. 8-319033 includes a lifter mechanism that raises and lowers a sheet stacking plate provided in a sheet storage container to maintain a height of a sheet upper surface at a predetermined height. In a sheet feeding apparatus that feeds the uppermost sheet held at a predetermined height by a lifter mechanism, a lifter for raising and lowering the sheet is configured to be movable in the mounting and detaching direction of the sheet storage container with respect to the apparatus main body. It is a thing.
[0005]
Further, in order to prevent the sheet from remaining in the apparatus main body when the sheet cassette is removed, a sheet support member for placing a large number of sheets is provided as disclosed in, for example, Japanese Patent Laid-Open No. 6-173699. A mechanism for moving the paper up and down according to an operation of attaching and detaching the paper feed tray to and from the paper feed unit, and an end of a shaft member for driving the paper support member. A drive shaft disposed in the paper feed unit in a device connected to a drive mechanism disposed in the paper feed unit when the paper feed tray is mounted on the paper feed unit. And a shaft provided on the tray, and a driving force transmission mechanism is provided at the position where the coupling provided on the driving shaft is slidable in the axial direction and presses the coupling. The means that does not transmit the driving force constitutes the paper feed tray After connecting the shaft to the drive shaft, the operation of pressing the shaft of the paper feed tray on the side to the drive shaft, which is constituted so as to release the transmission of the driving force between the two axes.
[0006]
[Problems to be solved by the invention]
However, the conventional technique has the following problems. That is, as disclosed in Japanese Patent Laid-Open No. 8-319033, the size of the paper feed cassette can be printed in the paper feed cassette that is inserted and removed in the same direction as the axial direction of the drive shaft that drives the lifter mechanism. There is a problem in that the maximum sheet size becomes large and the size of the apparatus main body increases. In order to solve this problem and to make the paper compact and print in a long longitudinal direction, it is necessary to insert and remove the paper feed cassette in a direction perpendicular to the drive shaft.
[0007]
Japanese Patent Laid-Open No. Hei 5-58480 has already been proposed as a technique that enables the paper feed cassette to be inserted and removed in a direction perpendicular to the drive shaft. Japanese Patent Application Laid-Open No. 5-58480 discloses a sheet feeding cassette bottom plate push-up mechanism having a sector gear and a bottom plate push-up lever which are integrally connected and slidably mounted, and push the bottom plate when the cassette is inserted. Drive means for raising operation, motor fixedly installed, drive gear meshing with sector gear, driving means for transmitting motor power to drive gear via worm means and gear means when inserting cassette, cassette insertion The cassette side arm that swings in conjunction with the pull-out and the drive gear, and the gear side that swings integrally with the cassette side arm by opening a predetermined angle, or escapes when the phase of the drive gear and sector gear is out of phase It has an arm and is provided with interlocking means for driving a motor when a cassette is inserted.
[0008]
However, in the case of the mechanism for raising the bottom plate of the paper feed cassette according to the above-mentioned Japanese Patent Application Laid-Open No. 5-58480, the bottom plate push-up lever for pushing up the bottom plate or the drive for driving the same at the back side where the paper feed cassette is pushed. Since a gear or the like is provided, there is a problem that it is difficult to remove a sheet when a sheet jam occurs in the sheet feeding unit.
[0009]
Therefore, it is most desirable that the paper feed cassette is configured to be inserted and removed in the paper running direction.
[0010]
Therefore, in order to satisfy the above conditions, when a push-up mechanism for raising and lowering the paper support member (bottom plate) of the paper feed cassette is disposed in the paper feed cassette and the paper feed cassette is mounted on the apparatus main body, It is conceivable to use a gear as means for transmitting the driving force to the cassette lifting mechanism.
[0011]
However, in this case, since the drive shaft and the load shaft of the push-up mechanism that lifts and lowers the paper support member of the paper feed cassette are separated on the apparatus main body side and the paper feed cassette side, the drive shaft depends on the magnitude of the load. It is difficult to keep the distance between the load shaft and the load shaft constant, and the gear that transmits the driving force between the drive shaft and the load shaft generates tooth skipping, etc. There is a problem that it cannot be held. In the above case, since the driving force is input to the load shaft at one end along the longitudinal direction of the load shaft, the load shaft is cantilevered and receives torsional stress. There is a problem that the sheet feeding cassette is twisted and the sheet feeding cassette is twisted, and it becomes difficult to feed the sheet horizontally, causing skewing and jamming.
[0012]
Therefore, even when the applicant is configured to insert and remove the paper feeding device in the paper traveling direction, the applicant drives between the drive shaft of the push-up mechanism that lifts and lowers the paper support member of the paper feeding device and the load shaft. There is no tooth jumping in the gear that transmits force, the paper support member can be held at a substantially constant position, and the load shaft is not twisted. In order to provide a paper feeding device capable of paper feeding, a paper feeding device in which a drive motor for raising a paper supporting member is mounted on a paper feeding cassette has been proposed (Japanese Patent Application No. 11-277344).
[0013]
Thus, when the drive motor for raising the paper support member is mounted on the paper feed cassette, it is necessary to use a connector device to energize the drive motor of the paper feed cassette.
[0014]
As a conventional connector device, as shown in FIG. 25, for example, the sheet feeding device main body 200 side has a backlash without fixing the connector member 201 with a screw 202 and can move in the thrust direction. On the sheet feeding cassette 203 side, the connector member 204 is fixed with screws 205, and the tapered surfaces 201a and 204a are provided on both the connector member 201 on the sheet feeding apparatus main body 200 side and the connector member 204 on the sheet feeding cassette 203 side. Some are formed and configured to absorb misalignment.
[0015]
However, in the case of the conventional connector device described above, although the connector member 201 on the paper feed device main body 200 side is not fixed and has a backlash, its allowable movement is small, and the removable paper feed cassette As the position shift of 203 is absorbed, there is a problem that a large margin cannot be made and a reliable electrical connection cannot be obtained. In the case of the conventional connector device described above, both the connector member 201 on the paper feed device body 200 side and the connector member 204 on the paper feed cassette 203 side are provided with tapered surfaces 201a and 204a. There is no change in receiving the impact when the cassette 203 is inserted, and the connector member 201 and the connector member 204 are not only likely to be damaged. It had the problem that there was a limit.
[0016]
Accordingly, the present invention has been made to solve the above-described problems of the prior art, and an object of the present invention is to stably feed paper by attaching a drive source to a paper feed cassette. Even in this case, the positional deviation of the paper cassette can be absorbed, and the electrical connection portion of the paper feeder main body side and the paper cassette can be reliably brought into contact with each other, and the paper cassette can be energized reliably. It is also possible to provide a paper feeding device that can be damaged and that there is no possibility of damage to the connector member.
[0017]
[Means for Solving the Problems]
In order to solve the above-described problem, the invention described in claim 1 is a paper feeding device that includes a paper feeding cassette that is slidably attached to the paper feeding device body, and that is capable of energizing the paper feeding cassette. A first connector member attached to the sheet feeding device main body side and a second connector member attached to the sheet feeding cassette side, wherein at least one of the first and second connector members is for energization An elastic member is provided that has an electrode and elastically supports the movable member so as to press-contact the current-carrying electrode of the other connector member. A second connector member is disposed on a side surface in a direction orthogonal to the insertion direction of the paper feed cassette, the paper feed cassette is mounted on the paper feed device body, and the first and second connector members are In a state where they are connected to each other, a guide portion for restricting the position of the movable member is provided so that the contact pressure between the energization electrodes of the first and second connector members can be obtained regardless of the elastic force of the elastic member. This is a paper feeding device.
[0020]
Claim 2 The invention described in Claim 1 In the apparatus according to claim 1, the energization electrodes of the first and second connector members have a plurality of electrodes, and at least one energization electrode is connected first when the first and second connector members are connected. The sheet feeding device is configured to be configured as described above.
or, Claim 3 The invention described in Claim 1 or 2 In the apparatus described in (1), the energization electrodes of the first and second connector members include at least grounding and voltage application electrodes. When the first and second connector members are connected, the energization for grounding is performed. In the sheet feeding device, the electrode is configured to be connected first.
[0021]
further, Claim 4 The invention described in claim 1 1 to 3 In the apparatus according to any one of the above, the paper feed cassette is provided with a drive motor that raises the paper support member on which the paper is placed, and a drive motor for the paper feed cassette is provided on the paper feed device body side. A sheet feeding device including a driving circuit for driving.
[0022]
[Action]
the above Claim 1 The first connector member attached to the sheet feeding apparatus main body side and the second connector member attached to the sheet feeding cassette side are provided, and the first and second connector members Since at least one of the movable members provided with the energization electrodes is provided, and the elastic member that elastically supports the movable member so as to be pressed against the energization electrodes of the other connector member is provided. At least one of the second connector member and the second connector member is provided with a movable member provided with a current-carrying electrode, so that the movable member can absorb a certain amount of misalignment of the paper feed cassette, and the connector member is damaged. Can be prevented. In addition, since the elastic member that elastically supports the movable member so as to be pressed against the current-carrying electrode of the other connector member is provided, the current-carrying electrodes of the first and second connector members are reliably brought into contact with each other. It is possible to reliably energize the sheet cassette.
[0023]
Also, Claim 1 In the invention described in the above, the second connector member is disposed on the side surface in the direction orthogonal to the insertion direction of the paper feed cassette, the paper feed cassette is mounted on the paper feed device body, and the first and first In a state where the two connector members are connected to each other, the position of the movable member is regulated so that the contact pressure between the energization electrodes of the first and second connector members can be obtained regardless of the elastic force of the elastic member. Since the guide part is provided, even when the moving amount of the movable member is set to be large to some extent and the positional deviation of the sheet feeding cassette can be absorbed, the position of the movable member is regulated by the guide part. The positional relationship between the energizing electrode and the energizing electrode of the other connector member can always be kept constant, and energization can be more reliably performed by the paper feed cassette.
[0024]
further, Claim 2 or 3 In the invention described in 1), the energization electrodes of the first and second connector members include electrodes for grounding wires and voltage application (including control), and the first and second connector members At the time of connection, since the grounding electrode is connected first, the voltage application electrode is connected before the grounding electrode is connected, and the operation of the drive circuit and the control circuit is performed. Instability can be prevented.
[0025]
By attaching a drive source for raising the paper support member to the paper feed cassette, the drive shaft and load shaft are basically directly connected, and the drive shaft can be transmitted without being twisted. Can be sent out. The connection and release of the drive means and the paper support member can be performed by the drive means moving in the axial direction in conjunction with the removal of the paper feed cassette.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0027]
Embodiment 1
FIG. 2 shows a laser printer as an image forming apparatus to which the paper feeding device according to Embodiment 1 of the present invention is applied.
[0028]
In FIG. 2, reference numeral 1 denotes a main body of the laser printer. Inside the printer main body 1, an image processing unit 2 that performs predetermined image processing on image information input from the outside, and the image processing An image output unit 3 that outputs an image based on image information that has been subjected to predetermined image processing by the unit 2 is provided. The image processing unit 2 in the printer body 1 is read by a host computer such as a personal computer (not shown), image information sent via a communication line such as a telephone line or a LAN, or an image reading device (not shown). Image information etc. are entered.
[0029]
The image output unit 3 in the printer body 1 is provided with a ROS 4 (Raster Output Scanner) that performs image exposure based on image information that has been subjected to predetermined image processing by the image processing unit 2. Image exposure with laser light LB is performed according to image information.
[0030]
In the ROS 4, as shown in FIG. 2, a laser beam LB is emitted from a semiconductor laser (not shown) according to the gradation data of the image information. The laser beam LB emitted from the semiconductor laser is deflected and scanned by a rotating polygon mirror (not shown), and is scanned on the photosensitive drum 5 as an electrostatic latent image carrier through a reflecting mirror (not shown).
[0031]
As the photoconductor drum 5 on which the laser beam LB is scanned and exposed by the ROS 4, for example, a photoconductor using an organic photoconductive substance (OPC) is used, and the photoconductor drum 5 includes a driving unit (not shown). Is rotated at a predetermined speed along the arrow direction. The surface of the photosensitive drum 5 is charged to a predetermined potential in advance by a charging roll 6 as a charging unit, and then an electrostatic latent image is formed by scanning and exposing the laser beam LB in accordance with image information. . The electrostatic latent image formed on the photosensitive drum 5 is developed by a developing roll 8 as a developer carrying member of the developing device 7 and becomes a toner image.
[0032]
The toner image formed on the photosensitive drum 5 is transferred onto a transfer sheet 10 as a transfer medium by a transfer roll 9 disposed so as to be in contact with the photosensitive drum 5, and the toner image is transferred. The transferred transfer paper 10 is separated from the photosensitive drum 5. As shown in FIG. 2, the transfer paper 10 is fed one by one by a nudger roll 13, a feed roll 14, and a retard roll 15 from a paper feeding cassette 12 of a paper feeding device 11 disposed at the lower part of the printer body 1. Paper. The transfer paper 10 fed from the paper cassette 12 is transported to a transfer position below the photosensitive drum 5 by a transport roll 16 and a resist roll 17.
[0033]
By the way, as shown in FIG. 2, the sheet feeding device 11 can be expanded by one stage, such as two stages or three stages, according to the user's needs. The transfer paper 10 having the same size can be fed from a plurality of paper feed cassettes 12.
[0034]
As shown in FIG. 2, the printer main body 1 has a manual feed tray 18 on the left side surface. By rotating the manual feed tray 18 counterclockwise to a substantially horizontal position, the printer main body 1 is stopped. From the manual feed tray 18, transfer media of different materials and sizes such as OHP sheets and postcards can be fed through the feed roll 19 and the retard pad 20 having a large diameter.
[0035]
Further, as described above, the transfer paper 10 onto which the toner image is transferred from the photosensitive drum 5 is separated from the surface of the photosensitive drum 5 and then conveyed to the fixing device 21. The transfer paper 10 separated from the surface of the photosensitive drum 5 is subjected to a switching lever after the toner image is fixed on the transfer paper 10 by heat and pressure by the heating roll 22 and pressure roll 23 of the fixing device 21. Then, the sheet is discharged onto a discharge tray 26 provided on the upper portion of the printer main body 1 by a discharge roll 25, and the image forming process is completed.
[0036]
Further, when images are printed on both sides of the transfer paper 10, the transfer paper 10 with the image printed on one side is not discharged onto the discharge tray 26 as it is, as shown in FIG. The transfer direction of the transfer paper 10 is switched by a switching lever 24 provided at the exit of the paper, and the double-sided roll 27 leads to a double-sided conveyance path 29 having a plurality of conveyance rolls 28, and the front and back of the transfer paper 10 are reversed. In this state, the sheet is conveyed again to the transfer position of the photosensitive drum 5.
[0037]
As shown in FIG. 2, the surface of the photosensitive drum 5 after the toner image transfer process is removed by a cleaning device 31 having a cleaner blade 30 to remove residual toner and paper dust. In preparation for the image forming process.
[0038]
FIG. 3 is an external perspective view showing a paper feeding cassette of a paper feeding device used in the laser printer, and FIG. 4 is an exploded perspective view showing the paper feeding device used in the laser printer.
[0039]
In this embodiment, a sheet support member on which a large number of sheets are placed is provided so as to be movable up and down within the sheet feed cassette, and the sheet support member is raised and pressed against the sheet feed roller to feed paper. In the sheet feeding device, the driving means for raising the sheet supporting member is mounted on the sheet feeding cassette.
[0040]
In this embodiment, the driving means and the paper support member are connected and released by moving the driving means in the axial direction in conjunction with the removal of the paper feed cassette.
[0041]
As shown in FIG. 2, the sheet feeding device 11 is arranged in a state where a plurality of stages (three stages in the illustrated example) are stacked below the laser printer main body 1. As shown in FIG. 4, the paper feeding device 11 is roughly divided into a paper feeding device main body 32, side panels 33 and 34 disposed on both sides of the paper feeding device main body 32, and a paper feeding device main body 32. The paper cassette 12 is detachably mounted on the paper cassette 12 and a paper feed unit 35 for feeding the transfer paper 10 from the paper cassette 12. The sheet feeder main body 32, the side panels 33 and 34, and the sheet feed unit 35 are integrally assembled with each other with screws.
[0042]
As shown in FIGS. 3, 4 and 5, the paper cassette 12 is formed in a planar rectangular box shape with an upper surface opened, and the paper cassette 12 is fed to the front side of the paper cassette 12. A handle 36 for pulling out from the main body 32 is provided, and a front panel 37 that also serves as a front panel of the paper feeding device 11 is provided. Inside the paper cassette 12, a paper support member (bottom plate) 39 for placing a large number of transfer papers 10 accommodated therein is tiltably provided. As shown in FIG. 3, the sheet support member 39 is attached to a rotating shaft 40 protruding from both side surfaces on the back side in the sheet cassette 12 so as to be tiltable. Further, a push-up lever 41 that pushes up the paper support member 39 is disposed inside the paper cassette 12 below the front end side of the paper support member 39. The push-up lever 41 is shown in FIG. In this way, the load shaft 42 is fixed to the rectangular section of the load shaft 42 by means such as screwing. The load shaft 42 is rotatably supported by a bearing portion provided at the bottom of the paper cassette 12. A drive shaft 45 of a drive motor 44 as a drive means is connected to one end of the load shaft 42 via a coupling means 43.
[0043]
Further, in this embodiment, as shown in FIG. 7, a driving means for raising the paper support member (bottom plate) 39 of the paper cassette 12 is provided on the printer main body 1 or the paper feeder main body 32 side. Instead, it is configured to be attached to the paper cassette 12.
[0044]
As shown in FIG. 7, the paper cassette 12 has a drive motor for raising the paper support member 39 of the paper cassette 12 outside the one side surface 12a in the direction orthogonal to the direction in which the paper cassette 12 is inserted and removed. 44 is attached. The drive motor 44 is not fixedly attached to the side surface 12 a of the paper cassette 12, but is movable along the axial direction of the drive shaft 45 of the drive motor 44 and the load shaft of the paper cassette 12. It is attached so as to be biased toward the 42 side. On the side surface 12a of the paper cassette 12, as shown in FIG. 8, four columnar columns 46 for mounting a drive motor are projected, and the drive motor 44 is provided at the tip of the column 46. A mounting plate 47 for slidably mounting is fixed by screws 48. A support shaft 47 a for slidably mounting the drive motor 44 toward the side surface 12 a side of the paper cassette 12 is integrally provided on the mounting plate 47. A metal plate A, to which the drive motor 44 is fixed, is slidably attached to the tip of the support shaft 47a via a synthetic resin bearing member B. A coil spring 50 is externally attached to the support shaft 47a so as to bias the drive shaft 45 of the drive motor 44 toward the load shaft 42 of the paper cassette 12.
[0045]
As shown in FIGS. 9 and 10, the coupling means for connecting the drive shaft 45 of the drive motor 44 and the load shaft 42 is provided so that the pin member 51 protrudes perpendicularly to the load shaft 42. . The drive shaft 45 of the drive motor 44 is provided with a coupling 52 fixed thereto, and the coupling 52 has a pin engagement groove 53 that engages with the pin member 51 of the load shaft 42. It is drilled in a cross shape.
[0046]
In a normal state, as shown in FIG. 9, the pin member 51 of the load shaft 42 and the pin engagement groove 53 of the coupling 52 provided on the drive shaft 45 of the drive motor 44 are engaged with each other. Thus, the driving force of the drive motor 44 is transmitted from the drive shaft 45 to the load shaft 42 via the coupling means.
[0047]
On the other hand, when the paper cassette 12 is pulled out from the paper feeder main body 32, as shown in FIGS. 10 to 12, a guide arm 54 projecting laterally from the drive motor 44 is provided on the paper feeder main body 32 side. When the guide arm 54 moves along the guide rail 55 and passes through the convex portion 55 a of the guide rail 55, the drive motor 44 together with the guide arm 54 moves outward in a direction orthogonal to the drawing direction of the paper cassette 12. Because of the movement, the coupling between the drive shaft 45 of the drive motor 44 and the load shaft 42 is removed, and the paper support member 39 is lowered by its own weight.
[0048]
The drive motor 44 is provided with guide arms 54 in the vertical direction at different positions along the drawing direction of the paper cassette 12, and the drive motor 44 is stable and parallel to the paper cassette. It can move to the outside in the direction orthogonal to the 12 pulling directions.
[0049]
As shown in FIG. 13, the guide rail 55 for moving the two guide arms 54 of the drive motor 44 is vertically parallel to the inner surface of the frame 35a of the paper feed unit 35 on the paper feed device main body 32 side, and is also a paper cassette. 12 are provided at different positions along the drawing direction.
[0050]
Further, as shown in FIG. 14, the sheet feeding device 11 includes an electromagnetic clutch 61 that controls on / off of transmission of driving force from the printer body 1 side to the transport roll 16, and driving from the printer body 1 side as well. An electromagnetic clutch 62 that controls on / off of transmission of force to the nudger roll 13 and a drive motor 44 provided in the paper feed cassette 12 are provided.
[0051]
In this embodiment, in a paper feeding device having an electric drive system for transporting paper supplied from a paper feed cassette, the electric drive system of the paper feed device and It is configured to include a power supply cutoff means for cutting off the power supply to the electric drive system of the sheet feeding device at the next stage.
[0052]
Further, in this embodiment, the paper feed cassette has a drive motor, and power is supplied to the drive motor of the paper feed cassette. A power supply line for feeding power to the paper feed cassette is branched to the electrical connection part on the paper feed cassette side, and the apparatus main body and the next stage on which the paper feed cassette is mounted A branching connecting portion for returning to the paper feeding device is provided.
[0053]
FIG. 15 is a circuit diagram showing an electric circuit of the sheet feeding device according to this embodiment.
[0054]
In FIG. 15, reference numeral 70 denotes a main control board provided in the printer main body 1. The main control board 70 includes a CPU 71 for controlling the image forming operation of the printer and the paper feeding operation of the paper feeding device 11. Is provided. The printer main body 1 is provided with a power supply board 72 for driving various drive motors. The power supply board 72 is connected to a power supply line 73 that supplies a DC voltage of 24 V and a ground potential. Power is supplied through the ground line 74. Each sheet feeding device 11 used in combination with a printer is provided with a cassette control board 75, and the cassette control board 75 has a CPU 75 a for controlling the sheet feeding operation of the sheet feeding device 11. Is provided. The cassette control board 75 has a 24V DC voltage and a ground potential via a power supply line 73 that feeds a 24V DC voltage from a power supply board 72 of the printer main body 1 and a ground line 74 that is connected to the ground potential. Is to be fed. The 24V DC voltage and the ground potential supplied to the cassette control board 75 are fed through a socket 76 provided on the paper feed device body 32 side and a connector 77 provided on the paper feed cassette 12 side. Power is supplied to a drive motor 44 provided at 12. Further, the DC voltage of 24 V and the ground potential supplied to the cassette control board 75 are connected to a solenoid of an electromagnetic clutch 62 provided on the sheet feeder main body 32 side.
[0055]
Further, the cassette control board 75 performs on / off control of switching transistor 78 for on / off control of power supply to the drive motor 44 of the paper feed cassette 12 and power supply to the solenoid of the electromagnetic clutch 62. For this purpose, a switching transistor 79 is provided. Further, in order to identify whether or not the paper feed cassette 12 is mounted on the cassette control board 75 by detecting whether or not a current flows between a DC voltage of 24V and the ground potential. Detection resistors R1 and R2 are provided.
[0056]
By the way, in this embodiment, a first connector member attached to the sheet feeder main body side and a second connector member attached to the sheet feed cassette side are provided, and the first and second connector members are provided. At least one is provided with a movable member provided with an energization electrode, and is provided with an elastic member that elastically supports the movable member so as to be in pressure contact with the energization electrode of the other connector member.
[0057]
In this embodiment, the first and second connector members are arranged on the side surface in the direction orthogonal to the insertion direction of the paper feed cassette, and the paper feed cassette is attached to the paper feed device body. When the first and second connector members are connected to each other, the position of the movable member is such that the contact pressure between the energizing electrodes of the first and second connector members can be obtained regardless of the elastic force of the elastic member. It is comprised so that the guide part which regulates may be provided.
[0058]
That is, in this embodiment, as shown in FIG. 13, it is attached to the paper feed unit 35 of the paper feeder main body 32 in a fixed state at a position corresponding to the side surface in the direction orthogonal to the insertion direction of the paper feed cassette 12. And a socket 76 as a first connector member. As shown in FIGS. 1, 16 and 17, the socket 76 is formed in a flat rectangular shape and includes a bottom plate portion 80 attached to the sheet feeding device main body 32 side. The side wall 81 that guides the connector member 77 on the paper feed cassette 12 side is provided upright. The insertion side 81a of the side wall portion 81 is formed obliquely so as to facilitate the introduction of the connector member 77 on the paper feed cassette 12 side. In addition, the bottom plate portion 80 of the socket 76 is provided with an electrode installation portion 85 for providing current-carrying electrodes 82, 83, 84 at a position retracted from the insertion side by a predetermined distance from the bottom plate portion 80. It is provided in a state of protruding to the cassette 12 side. An inclined surface 85a that is inclined obliquely is formed on the insertion side of the electrode installation portion 85, and even if the connector member 77 on the paper feed cassette 12 side is somewhat displaced, the connector member 77 can be securely connected. Can be guided to.
[0059]
The electrode installation portion 85 is provided with three recesses 86 for attaching the energization electrodes 82, 83, and 84, and three energization electrodes are provided inside the recesses 86. 82, 83, and 84 are attached such that their tip portions protrude from the surface of the electrode installation portion 85 by a predetermined height. The three energizing electrodes 82, 83, and 84 are configured by plating the surface of a metal leaf spring, and the tip-side portions 82 a, b, 83 a, b, 84 a, and b are two pieces. Even if any one of the energizing electrode portions 82a, b, 83a, b, 84a, b is deformed, the other energizing electrode portion is always used as the energizing electrode on the paper feed cassette 12 side. Designed to ensure contact.
[0060]
Further, a guide part 87 is projected inward over a predetermined width so as to face the front end portion of the side wall part 81 in parallel with the surface of the electrode installation part 85, and by this guide part 87, In a state where the paper feed cassette 12 is mounted on the paper feeder main body 11 and the socket 76 and the connector member 77 are connected to each other, between the energizing electrodes of the socket 76 and the connector member 77 regardless of the elastic force of the elastic member described later. The position of a movable member, which will be described later, on the paper feed cassette 12 side is regulated so that the contact pressure of 2 is obtained. The end portion 87a on the insertion side of the guide portion 87 is formed in a tapered shape so that the connector member 77 can be reliably guided even when the connector member 77 on the paper feed cassette 12 side is misaligned. Can be done.
[0061]
As shown in FIGS. 16 and 18, the socket 76 has an elastic electrode 82 for supplying a DC voltage of 24V and an elastic electrode 83 for returning the DC voltage of 24V to the ground potential. And an electrode 84 having elasticity for feeding a DC voltage of 24 V to the sheet feeding device 11 at the next stage.
[0062]
On the other hand, as shown in FIG. 19, a connector 77 as a second connector member is movably attached to the paper feed cassette 12 on the side opposite to the side shown in FIG. As shown in FIGS. 1, 20, and 21, the connector 77 includes a holder 88 that is fixed to the side wall 12 a of the paper cassette 12 and a direction perpendicular to the side surface of the paper cassette 12 to the holder 88. A movable connector 89 mounted so as to be movable to a certain extent (for example, about ± 3 mm) in the height direction Z of the paper feed cassette 12 and in the insertion direction Y of the paper feed cassette; It is composed of As shown in FIGS. 20 and 21, the movable connector 89 is formed in a substantially rectangular parallelepiped shape with an open bottom surface (not shown), and sockets 76 on the upper side of the upper end surface of the socket 76 on the paper feeder main body 11 side. A guide portion 90 that is guided by the side wall 81, the electrode installation portion 85, and the guide portion 87 and is positioned at a predetermined position is formed so as to protrude in the vertical direction. The end portion on the insertion side of the guide portion 90 is formed such that both the upper and lower side surfaces 90a and the upper surface 90b are inclined in a tapered shape so that the guide portion 90 is reliably guided into the socket 76 on the sheet feeding device body 11 side. It has become.
[0063]
Further, on the upper surface of the movable connector 89, as shown in FIG. 20, there are three energization electrodes 91, 92, 93 slightly on the back side (right side in FIG. 20) from the end on the insertion side. It is mounted so as to be flush with or slightly lower than the upper surface of 90. The three current-carrying electrodes 91, 92, 93 are formed by plating the surface of a metal flat plate, and the end portions 91a, 92a, 93a on the insertion side are formed in a tapered shape. ing. Of the three current-carrying electrodes 91, 92, 93, the current-carrying electrodes 91, 93 at both ends are connected to each other on the back side.
[0064]
As shown in FIGS. 18 and 20, the movable connector 89 provided on the paper cassette 12 side returns a fixed electrode 91 for supplying a DC voltage of 24V and a DC voltage of 24V to the ground potential. And a fixed electrode 93 connected to the fixed electrode 91 for supplying a DC voltage of 24V to the sheet feeding device 11 at the next stage. Further, the fixed electrode 91 and the fixed electrode 93 are connected inside the movable connector 89. The return fixed electrode 92 is formed such that the tip protrudes from the other fixed electrodes 91 and 93, and the return fixed electrode 92 is fixed before the other fixed electrodes 91 and 93. The electrode 92 is set to be connected. As a result, the return line is connected first at the time of insertion, and the return line is disconnected at the end of the extraction, so that the element (IC) on the board is protected. The socket 76 provided on the paper feeding device main body 32 side and the connector 77 provided on the paper feeding cassette 12 side connect the paper feeding cassette 12 to the paper feeding device main body 32, as shown in FIGS. It is possible to supply power to the sheet feeding device 11 at the next stage only by connecting the socket 76 and the connector 77 to each other.
[0065]
Further, as shown in FIGS. 20 and 21, flanges 94 are provided at the bottom of the movable connector 89 along the insertion direction of the movable connector 89 so that it can be moved to the holder 88 and prevented from coming off. Projected to
[0066]
As shown in FIG. 21, the holder 88 to which the movable connector 89 is movably attached is formed in a frame shape in which the central portion has an opening 95 corresponding to the size of the movable connector 89. The movable connector 89 is inserted into the holder 88 from an opening 96 provided on the side surface of the holder 88. Therefore, an opening 96 having a width W slightly larger than the length of the moving connector 89 is provided on the side surface of the holder 89, and a flange 94 of the moving connector 89 is provided at the bottom of the opening 96. A notch 97 for insertion is formed. The movable connector 89 is attached to the holder 88 through an opening 96 provided on the side surface of the holder 88 as shown in FIG.
[0067]
The movement of the moving connector 89 in the vertical direction (the height direction Z of the side surface of the sheet feeding cassette) is regulated by a side wall 99 provided at a position facing the opening 96 of the holder, and the opening 96 side of the holder 88 is This position is regulated by a projection (not shown) provided on the attachment portion of the side wall 12a of the sheet feeding cassette 12. Further, the movement of the moving connector 89 in the X direction perpendicular to the side surface of the paper feed cassette 12 is such that the guide 90 of the moving connector 89 comes into contact with the edge of the opening 95 provided on the upper surface of the holder 88. The bottom surface of the opening 95 of the holder 88 is regulated by the flange 94 of the movable connector 89 coming into contact therewith.
[0068]
The movement of the movable connector 89 in the insertion direction (Y direction) of the paper feed cassette 12 is almost impossible because the side surface of the movable connector 89 comes into contact with the opening 95 provided on the upper surface of the holder 88. It is regulated as possible. This is because the insertion direction (Y direction) of the sheet cassette 12 includes the energization electrodes 82, 83, 84 of the socket 76 on the sheet feeder main body 32 side and the energization electrode 91 of the moving connector 89 on the sheet cassette 12 side. , 92, 93 are determined, and if the movement of the movable connector 89 in the same direction is allowed, the energization electrodes 82, 83, 84 of the socket 76 on the sheet feeding device body 32 side, and the sheet feeding cassette This is because the energization position with the energization electrodes 91, 92, 93 of the 12-side movable connector 89 cannot be set with high accuracy. However, the positional deviation in the Y direction is structured such that there is no problem even if the electrodes 91, 92, and 93 are moved in the insertion direction to some extent (about ± 3 m).
[0069]
In addition, the movable connector 89 is a coil spring as an elastic member in a direction in which the movable connector 89 is movably attached to the holder 88 and is in pressure contact with the energizing electrodes 82, 83, 84 of the socket 76 on the paper feeder main body 32 side. 100 is urged from the back side and is elastically supported to allow movement.
[0070]
In the above configuration, in the sheet feeding device according to this embodiment, even when the sheet can be stably fed by attaching a drive source to the sheet feeding cassette as follows, the sheet feeding cassette In this case, it is possible to reliably contact the electrical connection portions of the paper feeding device main body side and the paper feeding cassette side with each other and reliably energize the paper feeding cassette, The connector member is not likely to be damaged.
[0071]
That is, in the paper feeding device according to this embodiment, as shown in FIG. 7, a drive motor 44 for raising the paper support member 39 is mounted on the paper feeding cassette 12. Then, as an electrical connection member for energizing the drive motor 44 mounted on the paper feed cassette 12, a socket 76 is attached to the paper feed device main body 32 side, and a connector 77 is attached to the paper feed cassette 12 side. .
[0072]
The movable connector 89 of the connector 77 attached to the paper cassette 12 side is a movable connector as shown in FIGS. 1B and 22 when the paper cassette 12 is detached from the paper feeder main body 32. 89 is biased by the coil spring 100 and stops in a state where it protrudes most from the holder 88. In this state, when the paper feed cassette 12 is attached to the paper feed device main body 32, the movement connector 89 on the paper feed cassette 12 side and the socket 76 on the paper feed device main body 32 side are connected to the side surface of the paper feed cassette 12. The position in the height direction (Z direction) is regulated by contact between the guide portion 90 of the moving connector 89 and the side wall 81 of the socket 76, and the moving connector 89 is guided into the socket 76. At this time, since the guide portion 90 of the moving connector 89 and the side wall 81 of the socket 76 are formed with inclined surfaces 90 a and 90 b and a tapered portion 81 a, the moving connector 89 is surely guided to the inside of the socket 76. It has come to be.
[0073]
Subsequently, when the sheet cassette 12 is further pushed into the sheet feeder main body 32, the guide portion 90 of the moving connector 89 moves along the electrode installation portion 85 of the socket 76, as shown in FIG. The energizing electrodes 91, 92, 93 provided inside the guide portion 90 of the moving connector 86 come into contact with the energizing electrodes 82, 83, 84 provided in the electrode installation portion 86 of the socket 76, and the moving connector 89. Is gradually pressed by the elastic force of the energizing electrodes 82, 83, 84 made of leaf springs provided in the electrode installation portion 85 of the socket 76, and the back surface 90 ′ of the guide portion 90 of the movable connector 89 is connected to the socket 76. The position is regulated in a state where it abuts against the inner surface 87 ′ of the guide portion 87 provided on both side walls 81. As described above, the total elastic force of the three energizing electrodes 82, 83, and 84 formed of the leaf springs is set larger than the elastic force of the coil spring 100 that elastically supports the moving connector 89.
In the case of claim 1 or 2, the total elastic force of the electrodes 82, 83, 84 and the elastic force of the coil spring 100 as the elastic member are balanced, or the elastic force of the coil spring 100 as the elastic member is A large contact pressure can be secured by pressing the electrodes 91, 92, 93 of the movable connector 89 against the surface of the electrode installation portion 86. In this case, the guide part 87 of the socket 76 becomes unnecessary.
[0074]
The position of the movable connector 89 in the height direction (Z direction) of the side surface of the paper feed cassette 12 is perpendicular to the side surface of the paper feed cassette 12 by the guide portion 90 of the movable connector 89 and the side wall 81 of the socket 76. The sheet cassette 12 is positioned at a predetermined position on the sheet feeding apparatus main body 32 while the position in the right direction (X direction) is regulated by the back surface of the guide portion 90 of the movable connector 89 and the inner surface of the guide portion 87 of the socket 76. At the same time as stopping in the mounted state, the energizing electrodes 91, 92, 93 of the moving connector 89 and the energizing electrodes 82, 83, 84 of the socket 76 are positioned in a predetermined state as shown in FIG. , Stop in the state of contact with electricity.
[0075]
As described above, the socket 76 attached to the sheet feeding device main body 32 side and the connector 77 attached to the sheet feeding cassette 12 side are provided, and the connector 77 includes the moving connector 89 provided with the energizing electrodes 91, 92, 93. And the coil spring 100 that elastically supports the movable connector 89 so as to be in pressure contact with the energization electrodes 82, 83, 84 of the other socket 76. , 92 and 93 are provided, so that the movable connector 89 can absorb a large displacement (about ± 3 mm) of the paper feed cassette 12 and the socket 76 and the connector 77 are damaged. Can be prevented. In addition, since the coil spring 100 that elastically supports the movable connector 89 so as to be in pressure contact with the energizing electrodes 82, 83, 84 of the other socket 76 is provided, the energizing electrodes of the socket 76 and the connector 77 are connected to each other. It is possible to make sure that the paper feed cassette 12 is energized with reliable contact.
[0076]
In this embodiment, a connector 77 is disposed on a side surface in a direction perpendicular to the insertion direction of the paper feed cassette 12, and the paper feed cassette 12 is mounted on the paper feeder main body 32, and the socket 76 In a state where the connectors 77 are connected to each other, as shown in FIG. 23, the current-carrying electrodes 82, 83, 84 and the current-carrying electrodes 91, 92, 93 of the socket 76 and the connector 77, regardless of the elastic force of the coil spring 100. Since the guide portion 87 for restricting the position of the movable connector 89 is provided so as to obtain a contact pressure therebetween, the amount of movement of the movable connector 89 can be set to be large to some extent, and the positional deviation of the paper feed cassette 12 can be absorbed. Even in this case, by restricting the position of the movable connector 89 with the guide portion 87, the current-carrying electrodes 91, 92, 93 of the movable connector 89 and the other The positional relationship between the current-carrying electrodes 82, 83, 84 of the socket 76 can always be made constant, it is possible to energize more surely by the sheet feed cassette 12.
[0077]
Therefore, by stabilizing the contact pressure between the energizing electrodes 82, 83, 84 of the socket 76 and the connector 77 and the energizing electrodes 91, 92, 93, electrical reliability can be improved and malfunction can be prevented. it can.
[0078]
Further, an excessive force does not act between the energizing electrodes 82, 83, 84 of the socket 76 and the connector 77 and the energizing electrodes 91, 92, 93, and the coil spring 100 as an elastic member is used to The impact during insertion can be absorbed, and the connector member can be prevented from being damaged.
[0079]
Furthermore, no excessive force is applied to the paper feed cassette 12 side, the position of the paper feed cassette 12 is not affected, and deterioration of paper feed performance such as a paper jam or a printing position failure is prevented. it can.
[0080]
Furthermore, in this embodiment, the energizing electrodes 82, 83, 84 and energizing electrodes 91, 92, 93 of the socket 76 and the connector 77 have an electrode for ground line and an electrode for voltage application. When the connector 77 is connected, the energization electrode for the ground line is connected first, so that the voltage application electrode is connected before the energization electrode for the ground line is connected, and the drive circuit And the operation of the control circuit can be prevented from becoming unstable.
[0081]
Embodiment 2
FIG. 24 shows a second embodiment of the present invention. The same reference numerals are given to the same parts as those in the first embodiment. In the second embodiment, the movable connector 89 is energized. Instead of the coil spring, the plate spring 110 formed integrally with the holder 88 is used as the elastic member. The holder 88 is integrally formed of, for example, a synthetic resin such as POM having elasticity, and the leaf spring 110 is integrally formed by utilizing the elasticity of the synthetic resin forming the holder 88. It is possible to reduce the score.
[0082]
【The invention's effect】
As described above, according to the present invention, even when paper can be stably fed by attaching a drive source to the paper feed cassette, the positional deviation of the paper feed cassette is absorbed and the paper feed is performed. The electrical connection portions of the apparatus main body side and the paper feed cassette side can be reliably brought into contact with each other, it is possible to reliably energize the paper feed cassette, and there is no possibility of damage to the connector member. A paper device can be provided.
[Brief description of the drawings]
FIGS. 1A and 1B are an exploded perspective view and a main part perspective view showing an electrical connection portion of a sheet feeding device according to Embodiment 1 of the present invention.
FIG. 2 is a block diagram showing an image forming apparatus to which a paper feeding device according to Embodiment 1 of the present invention is applied.
FIG. 3 is a perspective view showing a paper feed cassette.
FIG. 4 is an exploded perspective view showing a paper feeding device according to Embodiment 1 of the present invention.
FIG. 5 is a cross-sectional view showing a paper feeding device according to Embodiment 1 of the present invention.
FIG. 6 is a cross-sectional view illustrating a main part of the paper feeding device.
FIG. 7 is a plan configuration diagram showing the paper feeding device according to the first embodiment of the present invention.
FIG. 8 is a configuration diagram showing a drive motor of the paper feed cassette.
FIG. 9 is a block diagram showing coupling means.
FIG. 10 is a block diagram showing coupling means.
FIG. 11 is a configuration diagram showing a contact / separation mechanism of the coupling means.
FIG. 12 is a configuration diagram showing a contact / separation mechanism of the coupling means.
FIG. 13 is a perspective view showing an attached state of the guide rail.
FIG. 14 is a configuration diagram showing an electric circuit of the sheet feeding device according to the first embodiment of the present invention.
FIG. 15 is a circuit diagram illustrating an energization circuit of the sheet feeding device.
FIG. 16 is a plan view showing a socket on the sheet feeding apparatus main body side.
FIG. 17 is a perspective view showing a socket on the main body side of the paper feeding device.
FIG. 18 is an explanatory diagram illustrating a connection state between a socket on the paper feeding apparatus main body side and a connector on the paper feeding cassette side.
FIG. 19 is a perspective view showing a mounting state of the socket on the main body side of the paper feeding device.
FIG. 20 is a plan view showing a connector on the paper feed cassette side.
FIG. 21 is an exploded perspective view showing a connector on the paper feed cassette side.
FIG. 22 is a cross-sectional view showing a connection state between a socket on the paper feeding apparatus main body side and a connector on the paper feeding cassette side.
FIG. 23 is a cross-sectional view showing a connection state of a socket on the paper feeding apparatus main body side and a connector on the paper feeding cassette side.
FIG. 24 is a cross-sectional view showing a connection state between a socket on the sheet feeding device main body side and a connector on the sheet feeding cassette side in another embodiment.
FIG. 25 is a block diagram showing a connector device that can be used in a conventional paper feeding device.
[Explanation of symbols]
10: transfer paper, 11: paper feeding device, 12: paper feeding cassette, 32: paper feeding device body, 44: drive motor, 70: main control board, 71: CPU, 72: power supply board, 73: feeder line, 74 : Ground wire, 75: Cassette control board, 76: Socket (first connector member), 82-84: Electrode for energization, 77: Connector (second connector member), 89: Moving connector, 91-93: Energization Electrode, 100: coil spring (elastic member).

Claims (4)

In a paper feeding device that includes a paper feeding cassette that is slidably mounted on a paper feeding device body, and that is capable of energizing the paper feeding cassette.
A first connector member attached to the paper feeding apparatus main body side, and a second connector member attached to the paper feeding cassette side;
At least one of the first and second connector members is provided with a movable member provided with a current-carrying electrode, and elastically supports the movable member so as to be in pressure contact with the current-carrying electrode of the other connector member. Provided,
A second connector member is disposed on a side surface perpendicular to the insertion direction of the sheet feeding cassette, the sheet feeding cassette is mounted on the sheet feeding apparatus body, and the first and second connector members are connected to each other. In this state, a guide portion for restricting the position of the movable member is provided so that the contact pressure between the energization electrodes of the first and second connector members can be obtained regardless of the elastic force of the elastic member. Characteristic paper feeder. 2. The device according to claim 1 , wherein the energization electrodes of the first and second connector members have a plurality of electrodes, and at least one energization electrode is connected when the first and second connector members are connected. A sheet feeding device configured to be connected first. 3. The apparatus according to claim 1 , wherein the energization electrodes of the first and second connector members include at least grounding and voltage application electrodes, and when the first and second connector members are connected. A paper feeding device characterized in that a grounding electrode is connected first. 4. The apparatus according to claim 1 , wherein the paper feed cassette is provided with a drive motor for raising a paper support member on which paper is placed, and a paper feed body is provided on the paper feed device main body side. A sheet feeding device provided with a drive circuit for driving a cassette drive motor.

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