JP4237346B2 - Paper feeder - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention,Copy machines, facsimile machines, or printersSuch asThe present invention relates to an image forming apparatus, for example, a sheet feeding device used for sequentially feeding recording sheets stored in a sheet feeding cassette in order from the uppermost layer and supplying them to an image recording unit.
[0002]
[Prior art]
Conventionally, this type of paper feeding device is shown in FIGS. FIG. 5 is a perspective view showing a conventional paper feeding device, and FIG. 6 is an exploded perspective view showing a paper feeding arm, a paper feeding roller, and a weight in this paper feeding device.
[0003]
In the figure, reference numeral 1 denotes a paper feeding arm provided so as to be able to swing along a direction approaching and separating from the uppermost layer of the recording paper stacked on the paper feeding cassette with the support shaft 2 as a center, and 3 is a paper feeding arm. A paper feed roller 5 which is rotatably supported at the tip of the arm 1 by a support shaft 4 and comes into contact with the uppermost layer of the recording paper when the paper feeding arm 1 swings in the recording paper approaching direction, 5 approaches the uppermost layer of the recording paper The separating means 6 moves the paper feeding arm 1 at the separated position to the separated standby position and holds it at that position, and 6 releases the holding of the standby position and swings the paper feeding arm 1 in the recording paper approaching direction by its own weight. A release means 7 for rotating the rotation is a rotation driving means for imparting rotation to the sheet feeding roller in the recording sheet feeding direction.
[0004]
For example, a tension coil spring is used as the separating means 5 in addition to a lever for operating the paper feeding arm 1, and a solenoid is used as the releasing means 6 in addition to the lever for operating the paper feeding arm 1.
[0005]
When the paper feeding arm 1 swings in the recording paper approaching direction and the paper feeding roller 3 comes into contact with the uppermost recording paper layer, the uppermost recording paper is fed out by the rotation of the paper feeding roller 3 and fed toward the recording unit. Make paper.
[0006]
  In this type of paper feeding device, the paper feeding roller 3 comes into contact with the recording paper and rotates.Recording paperIn order to feed out the recording paper, a force is applied to the paper feed roller 3 to press it against the recording paper, and the recording paper is transported by generating a frictional force necessary to transport the recording paper between the paper feeding roller 3 and the recording paper. It is necessary to.
[0007]
In the conventional paper feeding device, as shown in FIGS. 5 and 6, a weight 8 is attached to the paper feeding roller 3, and the weight is used to press the paper feeding roller 3 against the recording paper to obtain a conveying force. .
[0008]
[Problems to be solved by the invention]
However, the method of transporting the recording paper by pressing the paper feed roller against the recording paper using the weight as described above has the following problems.
[0009]
When the weight 8 is attached to the paper feed roller 3, the tension coil spring which is the separating means 5 for swinging the paper feed arm 1 supporting the paper feed roller 3 to the standby position away from the recording paper adds the weight of the weight 8. Therefore, a force for pulling up the paper feeding arm I is required. For this reason, the tension coil spring needs to have a specification having a large spring force, and the cost of the parts is increased accordingly. Further, the solenoid as the releasing means 6 for releasing the holding of the sheet feeding arm 1 at the standby position by the tension coil spring as the separating means 5 needs to be operated with a larger force than the coil spring as the separating means 5. Become. For this reason, the solenoid is required to have a specification that generates a large suction force that exceeds the spring force of the tension coil spring, which increases the part cost and the power supplied to the solenoid, resulting in a problem of economy.
[0010]
In particular, if the weight of the paper feed roller is increased to increase the recording paper conveyance characteristics, it is necessary to make the tension coil spring stronger, and the solenoid must have a higher output. Costs and power supply are further increased, which impairs the merchandise of the paper feeder.
[0011]
  SUMMARY OF THE INVENTION An object of the present invention is to provide a simple and lightweight paper feeding device that can improve economy while ensuring stable conveyance characteristics of recording paper.
[0012]
[Means for Solving the Problems]
  In order to achieve the above object, a paper feeding device according to one aspect of the present invention includes:
  Paper feeding device that sequentially feeds the recording paper stored in the paper cassette in order from the top layerBecause
  Stacked on the paper feed cassette around the support shaftRecording paperA paper feed arm provided so as to be swingable along a direction of approaching and separating from
  Provided at the tip of this paper feed arm,The paper feed armRecording paperWhen swinging in the approach directionRecording paperA paper feed roller in contact with the top layer of
  SaidRecording paperThe paper feed arm in a position close toFrom the recording paperMove to a separate standby position,The separation means for holding at that position and the holding of the standby position are released, and the paper feeding arm is moved by its own weight.Recording paperRelease means for swinging in the approach direction;
  On the paper feed rollerRecording paperApplying rotation in the feeding direction, the top layerRecording paperRotational drive means for delivering
  By this rotational drive meansRecording paperThe rotational force of the paper feed roller that is rotated in the feeding direction is applied to the paper feed arm.Recording paperThe rotational force in the approaching direction is converted into the feed rollerRecording paperBraking means to act as a pressing force on the uppermost layer ofIt has.
  The braking means includes
  (1) A rotating member that rotates integrally with the paper feed roller in the recording paper feed direction and suppresses rotation of the paper feed roller in the recording paper feed direction when an external force opposite to the rotation direction is applied;
  (2) Centering on the support shaft of the paper feed arm, the recording paper is stacked in a direction that moves toward and away from the recording paper stacked in the paper feeding cassette, and the paper feeding arm swings in the recording paper approaching direction. When the paper feed roller comes into contact with the uppermost layer of the recording paper, it rotates in the recording paper approaching direction and engages with the rotating member to rotate the rotating member in the recording paper feeding direction. And a braking arm for blocking.
[0013]
  thisConstitutionAccording to the paper feed roller without attaching weightRecording paperCan be transported stablyAs well asIt is necessary to use a high specification for the separating means and the releasing means.Not economical.
  In addition, the braking means can convey the recording paper stably while being simple and lightweight by making use of the basic configuration of the paper feeding device.
[0016]
  According to one aspect of the present invention,The brake arm is swung to the standby position by the separation means and is held, and the holding of the standby position is released by the release means by its own weight.Recording paperSwinged in the approach directionIt is characterized by that.
[0017]
  thisConstitutionAccording to the separation to operate the paper feeding armmeansBy operating the brake arm in the brake means using the release means, the brake arm can be operated in conjunction with the operation of the paper feed arm with a simple configuration and stabilized.Recording paperTransport can be performed.
[0018]
  According to one aspect of the present invention,Rotating member,A torsion coil spring, the torsion coil spring having an inner diameter smaller than an outer diameter of a roller shaft integral with the paper feed roller, and fitted and held on the roller shaft, and the torsion coil spring isRecording paperIt has the latching | locking part which the said brake arm which rock | fluctuated to the approach direction latches.
[0019]
  thisConstitutionAccording to the present invention, the rotation member in the braking means has a simple configurationWhileStable by braking the paper feed rollerRecording paperTransport can be performed.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a perspective view showing a paper feeding device in this embodiment, FIG. 2 is an exploded perspective view showing a paper feeding arm, a paper feeding roller, and a rotating member provided in the paper feeding device, and FIG. FIG. 4 is a cross-sectional view showing a schematic configuration in a paper feeding state in the paper feeding device.
[0021]
This embodiment is directed to a paper feeding device that sequentially feeds recording papers stacked and accommodated in a paper feeding cassette in the facsimile device and supplies them to the image recording unit. The paper feeding device is a facsimile device. As shown in FIGS. 3 and 4, a large number of recording sheets P, which are disposed on the upper side of one end of the sheet cassette 101 and are stacked and accommodated in the sheet cassette 101, are stored inside the apparatus body of the apparatus. From the upper layer, the paper is fed in the direction C toward the outside of the paper feed cassette 101 and conveyed to the image recording unit.
[0022]
In the figure, reference numeral 11 denotes a paper feed arm, and this paper feed arm 11 is arranged along the C direction for feeding out the recording paper P at a position facing the central portion in the width direction of the recording paper P. The paper feed arm 11 is supported by a support shaft 12 provided at its base end (downstream end on the downstream side in the recording paper feeding direction) perpendicular to the recording paper feeding direction via a bearing (not shown). The vertical position (closer to the uppermost layer of the recording paper P) between the standby position A spaced from the uppermost layer of the recording paper P stacked and accommodated in the paper feed cassette 101 and the approaching position B approaching the uppermost layer. Oscillating along the direction of movement). As will be described later, the paper feed arm 11 may be attached with a paper feed roller 14 and can be tilted and swung by its own weight toward the uppermost layer of the recording paper with the support shaft 12 as a center. As will be described later, the support shaft 12 is rotatably supported by an apparatus main body (not shown) by a bearing (not shown) as a component of the rotation driving means.
[0023]
  The leading end of the paper feeding arm 11 (the upstream end in the recording paper feeding direction)InA support shaft 13 orthogonal to the recording paper feeding direction is attached, and a paper feed roller 14 is rotatably supported by the support shaft 13 via a bearing (not shown). This paper feed roller 14,As shown in FIG. 2, a roller shaft 15 forming a cylindrical body having a smaller diameter is integrally formed at one end portion in the axial direction on the same central axis, and the pulley 16 is identical at the other end portion. It is located on the central axis and formed integrally.
  Also, inside the paper feed roller 14,A hole 17 penetrating along the axial direction is formed. The paper feed roller 14 is arranged with the roller shaft 15 facing the paper feed arm 11.,The hole 17 is rotatably fitted to the support shaft 13.,Axial movement is blocked and held. When the paper feeding arm 11 swings to the approach position B approaching the uppermost layer of the recording paper P stacked and accommodated in the paper feeding cassette 101,Paper feed roller 14 is the top layerRecording paper PTo touch.
[0024]
Reference numeral 21 denotes a substantially V-shaped operation lever arranged in parallel with the paper feed arm 11, and the central portion of the operation lever 21 is arranged in parallel to the downstream side of the recording paper feeding direction with respect to the support shaft 12. The support shaft 22 is supported through a bearing (not shown) so as to be able to swing along the vertical direction (direction approaching and separating from the uppermost layer of the recording paper P stacked and accommodated in the paper feed cassette 101). The support shaft 22 is rotatably supported on the apparatus main body by a bearing (not shown) as a rotation shaft for supporting an auxiliary paper feed roller 19 described later.
[0025]
One piece 21 a of the operation lever 21 having a substantially V shape extends to the upstream side in the recording paper feeding direction beyond the support shaft 12, and the tip of this piece 21 a protrudes from the side surface of the paper feed arm 11. Is located below the pin 18. As a result, when the operating lever 21 swings in such a direction that the piece portion 21a is displaced upward, the tip end portion of the piece portion 21a hooks the pin 18 from below and lifts the sheet feeding arm 11 upward. It will be. The other piece 21b of the operation lever 21 extends to the upper side, and a tension coil spring 23 provided on the facsimile apparatus main body (not shown) is connected to this piece 21b on the downstream side in the recording paper feeding direction. As a result, the operating lever 21 is constantly applied with a force in a swinging direction so that the one piece 21a is displaced upward.
[0026]
  A solenoid 31 is provided on the side opposite to the operation lever 21 and provided on the side of the paper feed arm 11 and is supported by the apparatus main body. This solenoid 31,A plunger 32 is provided that is displaced along the recording paper feed direction. That is, the solenoid 31 isWhen energized by energization,The plunger 32 is sucked and moved backward toward the upstream side in the recording paper feeding direction.
  In addition, the plunger 32 of the solenoid 31 and the tip of the piece 21 b of the operating lever 21 are connected via a pin 33. Thus, when the solenoid 31 sucks the plunger 32,,The operating lever 21 is swung so that the piece 21a is displaced downward. In addition,The plunger 32 is used when the solenoid 31 is not excited.Then, it is pulled by the tension coil spring 23 via the operation lever 21 and is moved downstream in the recording paper feeding direction.
[0027]
Here, the operating lever 21 and the tension coil spring 23 constitute a separating means, and the operating lever 21 and the solenoid 31 constitute a releasing means.
[0028]
  A means for rotationally driving the paper feed roller 14 will be described. The support shaft 22 is rotated by the electric motor M. Support shaft 22InAn auxiliary paper feed roller 19 is attached. A pulley 41 provided integrally with the auxiliary paper feed roller 19 and a pulley 42 supported rotatably on the support shaft 12.BetweenEndless belt 43 is wrapped aroundHas been.further,A pulley 44 rotatably supported on the support shaft 12;Feed rollerPulley 16 integrally formed with 14BetweenAn endless belt 45 is wound around. This,The support shaft 22 is rotated by the electric motor M, and the auxiliary paper feeding roller 19 is rotated.
  The rotation of the support shaft 22 is,The support shaft 12 is rotated by being transmitted to the pulley 41, the belt 43, and the pulley 42. further,The rotation of the support shaft 12 isIt is transmitted to the pulley 16 via the pulley 44 and the belt 45 and integrated with the pulley 16.Roller shaft 15The paper feed roller 14 supported by the rotation is rotated in the direction of feeding the recording paper P.
[0029]
  Next, the braking means that is a feature of the present invention will be described. This braking means is driven by the rotational drive means.Recording paperThe rotational force of the paper feed roller 14 rotated in the feeding direction is,Converted into a rotational force in a direction approaching the uppermost layer of the recording paper P in the paper feeding arm 11,Finally, the recording paper P is fed to the paper feed roller 14.It acts as a force to press against the top layer of.
[0030]
  A roller shaft 15 formed integrally with the paper feed roller 14 is located between the end face of the paper feed roller 14 and the side surface of the front end of the paper feed arm 11, and a torsion coil spring 51 is provided on the outer periphery of the roller shaft 15. Is fitted. In other words, the torsion coil spring 51 is sandwiched between the end surface of the paper feed roller 14 and the side surface of the front end of the paper feed arm 11 so that it cannot move in the axial direction. The torsion coil spring 51 rotates in the recording paper feeding direction integrally with the paper feed roller 14.,This is a form of a rotating member that suppresses the rotation of the sheet feeding roller 14 in the recording sheet feeding direction when an external force opposite to the rotating direction is applied.
  That is, the inner diameter of the torsion coil spring 51 is equal to the feed roller.14Smaller than the outer diameter of the roller shaft 15 (the diameter of the outer peripheral surface).In other words,The outer diameter of the roller shaft 15 is set larger than the inner diameter of the torsion coil spring 51. The torsion direction of the torsion coil spring 51 is the same as the recording sheet feeding rotation direction of the sheet feeding roller 14. The torsion coil spring 51 has a close-fitting relationship with the roller shaft 15 formed integrally with the paper feed roller 14, and the torsion coil spring 51 and the paper feed roller 14 integrally rotate in the recording paper feeding direction. . A locking portion 51a along the axial direction is integrally formed on the outer peripheral portion of the torsion coil spring 51 using a spring element wire.
[0031]
  Reference numeral 52 denotes a brake arm, and the brake arm 52 is arranged in parallel with the paper feed arm 11 (recording paper).Feeding directionAlong the base end (recording paper)Feeding directionThe downstream end portion is arranged on the support shaft 12 through a bearing (not shown) in the vertical direction (the recording paper P stacked and accommodated in the paper feed cassette 101).Top layerIn the direction of approaching and moving away).
  The tip of the braking arm 52 (recording paperFeeding directionUpstream end)InDownwardofA locking portion 52a is formed, and this locking portion 52a is such that the braking arm 52 approaches the uppermost layer of the recording paper P.Approaching positionWhen the paper feed roller 14 swings to B, the recording paper feed-out rotation direction downstream of the paper feed roller 14 with respect to the locking portion 51a of the torsion coil spring 51 provided side by side with the paper feed roller 14soIt locks to prevent the torsion coil spring 51 from rotating.
  Further, a pin 53 protruding toward the one portion 21 a of the operating lever 21 is provided on the side surface portion of the braking arm 52.Is provided. The pin 53 is located above the tip of the piece 21a when the piece 21a of the operating lever 21 is in a downward position. ThisThe operation lever 21 is moved in the direction in which the piece 21a is displaced upward.When swinging, the tip of the piece 21aPin 53 isFrom the bottomCaughtLifted. Therefore, the braking arm 52 is swung upward about the support shaft 12.
[0032]
It should be noted that the positional relationship of the swinging direction of the piece 21a of the operating lever 21, the pin 18 of the paper feeding arm 11 and the pin 53 of the braking arm 52 is such that the operating lever 21 swings upward (recording paper separating direction). When this occurs, the piece 21a first pulls up the pin 53 and swings the braking arm 52 upward about the support shaft 12, and then the piece 21a pulls up the pin 18 and the paper feed arm 11 about the support shaft 12. It shall be swung upward.
[0033]
The operation of the sheet feeding apparatus configured as described above will be described.
As shown in FIG. 3, when the paper feeding device does not supply the recording paper P stacked and accommodated in the paper feeding cassette 101, the solenoid 31 is not energized and the coil spring 23 moves the operation lever 21 upward (recording). It is swung in the paper separating direction) and is positioned at the standby position A. As a result, the piece 21 a of the operating lever 21 moves upward to pull up the pin 18 of the paper feeding arm 11 and the pin 53 of the braking arm 52. As a result, the paper feed arm 11 and the brake arm 52 swing upward about the support shaft 12 and are positioned at the standby position A. For this reason, the paper feed roller 14 provided in the paper feed arm 11 is also separated from the uppermost layer of the recording paper P and is in the standby position A.
[0034]
As shown in FIG. 4, when the paper feeding device supplies the recording paper P stacked and accommodated in the paper feeding cassette 101, the solenoid 31 is energized and excited to resist the spring force of the coil spring 23. Suction. As the plunger 32 moves backward, the operating lever 21 swings downward (recording paper approaching direction) about the support shaft 22 via the pin 33. As a result, the piece 21 a of the operating lever 21 moves downward, and the support of the pin 18 of the paper feeding arm 11 and the pin 53 of the braking arm 52 is released. For this reason, the paper feeding arm 11 swings in the downward direction (recording paper approaching direction) by its own weight about the support shaft 12 and reaches the recording paper approaching position B, and the paper feeding roller 14 provided on the paper feeding arm 11 performs recording. Contact with the uppermost layer of the paper P stops the swing of the paper feed arm 11.
[0035]
  Further, the brake arm 52 swings in the downward direction (recording paper approaching direction) by its own weight with the support shaft 12 as the center, and the locking portion 52a at the front end is on the outer peripheral portion of the torsion coil spring 51 supported by the paper feed roller 14. The swinging of the braking arm 52 stops upon contact.
  Here, as described above, rotational drivemeansThe feed roller 14 is rotated by the operation ofBecauseTorsioncoilThe spring 51 also rotates integrally in the same direction. Therefore, the torsion coil spring 51ofThe locking portion 51a is in the recording paper feeding direction with respect to the locking portion 52a of the braking arm 52.FollowLocks upstream.By this locking, the torsion coil spring 51 in the recording paper feed directionRotation is prevented.
[0036]
  As described above, the outer diameter of the roller shaft 15 integrated with the paper feed roller 14 is,Larger than the inner diameter of the torsion coil spring 51. For this reasonWhen the rotation of the torsion coil spring 51 in the recording paper feeding direction stops, the roller shaft 15Recording paperFriction resistance is generated in a direction that inhibits rotation in the feeding direction. Then, the paper feed roller 14 integrated with the roller shaft 15 acts on the roller shaft 15.Recording paperAttempts to rotate against frictional resistance in a direction that inhibits rotation in the feeding direction. As a result, the feed roller 14Recording paperA rotational force in the feeding direction is generated.
  On the other hand, the paper feed arm 11 swings in the direction approaching the recording paper P around the support shaft 12.,The paper feed roller 14 is stopped in contact with the recording paper P. There, a rotational force is generated on the paper feed roller 14 in a direction to swing the recording paper feeding direction, that is, the paper feeding arm 11 in the recording paper approaching direction. For this reason, the rotational force generated in the paper feed roller 14 acts as a force for swinging the paper feed arm 11 in the direction of approaching the recording paper P around the support shaft 12. As a result, the paper feed arm 11 has the recording paper P around the support shaft 12.In a direction approachingTry to rock.
  like thisA paper feed roller 14 provided on the paper feed arm 11 by the operation of the paper feed arm 11.ButPressed against the uppermost layer of the recording paper P. Therefore, the paper feed roller 14,The uppermost recording paper P stacked on the paper feed cassette 101 is separated from the recording paper P stacked on the lower side, and is pressed into contact with the recording paper P with a force necessary for feeding and feeding in the C direction. A frictional force necessary for transporting the recording paper P between the paper roller 14 and the recording paper P is generated. And the paper feed roller 14Recording paperBy rotating in the feeding direction, the uppermost recording paper P is separated from the recording paper P stacked on the lower side and fed in the C direction to be conveyed. The fed recording paper P isauxiliaryThe paper is further conveyed by the paper feed roller 19.
[0037]
The magnitude of the force for pressing the paper feed roller 14 against the recording paper P is determined by the magnitude of the rotational force generated in the paper feed roller 14 by preventing the torsion coil spring 51 from rotating. The force that presses the paper roller 14 against the recording paper P is large. If the rotational force is small, the force that presses the paper supply roller 14 against the recording paper P also decreases.
[0038]
  In order to return from such a paper feeding state to the standby state shown in FIG. 3, as described above, the energization of the solenoid 31 is stopped,TensionThe operating lever 21 is swung in the upward direction (the recording paper separating direction) by the coil spring 23. Then, first, the operating lever 21 pulls up the pin 53.,The brake arm 52 is swung upward about the support shaft 12 to be separated from the recording paper P. The locking portion 52 a of the braking arm 52 is disengaged from the locking portion 51 a of the torsion coil spring 51, and the torsion coil spring 51 starts rotating together with the paper feed roller 14. For this reason, the rotational force generated in the paper feed roller 14 when the torsion coil spring 51 is prevented from rotating disappears, and the force for swinging the paper feed arm 11 toward the recording paper P is lost. .
  The force for swinging the paper feeding arm 11 toward the recording paper P in this wayButWhen it disappears, the paper feeding arm 11 is swung upward to record paper.PIt is possible to separate from. Next, the operating lever 21 is a pin18The paper feed arm 11 is swung upward about the support shaft 12 to be separated from the recording paper P.
[0039]
In order to swing the paper feeding arm 11 in the separating direction while the rotation of the torsion coil spring 51 is stopped, a force for swinging the paper feeding arm 11 in the approaching direction to the tension coil spring 23 is used. It is necessary to have a spring force to overcome Further, the solenoid 31 needs a suction force that overcomes the spring force of the tension coil spring 23.
[0040]
  Thus, by the braking means comprising the combination of the torsion coil spring 51 and the braking arm 52, the rotational force of the paper feeding roller 14 rotated in the recording paper feeding direction by the rotational driving means is applied.,Since it is converted into a rotational force in the recording paper approaching direction in the paper feeding arm 11 and acts as a force for pressing the recording paper P against the paper feeding roller 14, the paper feeding roller as in the prior art.3Direct weight8The recording paper P can be stably conveyed by pressing the paper feed roller 14 against the recording paper P without adopting a configuration for obtaining the force for pressing the paper feeding roller 3 against the recording paper.
  For this reason, the paper feed arm 11 that supports the paper feed roller 14 is swung in the direction of separating from the recording paper P.Tension coilThe spring (separating means) 23 is,Weight of paper feed arm 118Large and expensive specification with large spring force that swings by adding the weight ofTheThere is no need to adopt.
  Further, the paper feed arm 11 is the separating means.Tension coilRelease the holding by the spring 23 from the standby position AApproaching positionThe solenoid 31 that is the releasing means for swinging to B does not need to adopt a powerful and expensive specification that generates a suction force larger than the spring force of the strong spring.
[0041]
  The braking means rotates in the recording paper feeding direction integrally with the paper feed roller 14.,When an external force opposite to the direction of rotation is appliedPaper feed roller 14In contrast, a rotating member that suppresses rotation in the recording paper feeding direction, for example, a torsion coil spring 51 and a support shaft 12 of the paper feeding arm 11 are the center.Paper feedIt is provided so as to be able to swing along the direction of approaching and separating from the recording paper P stacked on the cassette 101.,The paper feed arm 11 is composed of a braking arm 52 that swings in the recording paper approach direction and the paper feed roller 14 is locked to the torsion coil spring 51 to prevent its rotation in the recording paper feed direction.
  Accordingly, the braking means stably transports the recording paper P while being simple and light by making use of the basic configuration of the paper feeding device that combines the paper feeding arm 11, the paper feeding roller 14, the separating means and the releasing means. can do.
[0042]
  Further, the brake arm 52 is swung and held at a position separated from the recording paper P by the separating means, and the holding position A is released by the releasing means, and the paper feeding arm 11 is moved in the recording paper approaching direction by its own weight. RockingMakeTherefore, it is operated in conjunction with the operation of the paper feed arm 11 with a simple configuration using means for operating the paper feed arm 11.,StableRecording paperTransport can be performed.
[0043]
Further, a torsion coil spring 51 is used as a rotating member, and this torsion coil spring 51 is fitted and held with an inner diameter smaller than the outer diameter of the roller shaft 15 integral with the paper feed roller 14, and this torsion coil spring. 51 has a locking portion 52a for locking the braking arm 52 that has moved in the recording paper approaching direction, so that the rotating member of the braking means is configured with a simple configuration and brakes the paper feeding roller 14. Stable recording paper conveyance can be performed.
[0044]
  In addition, this invention is not limited to embodiment mentioned above, It implements in various deformation | transformation.be able to. The present invention is not limited to the one that supplies recording paper, but can be applied to one that supplies originals.
[0045]
【The invention's effect】
  According to the paper feeding device of the present invention, recording paper can be stably conveyed without attaching a weight to the paper feeding roller, and it is not necessary to use a powerful and expensive specification for the separating means and the releasing means. Therefore, it is possible to improve the economy while ensuring stable conveyance characteristics of the recording paper.
  Furthermore, the braking means can convey the recording paper stably while making use of the basic configuration of the paper feeding device and being simple and lightweight.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating a paper feeding device according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view illustrating a sheet feeding arm, a sheet feeding roller, and a rotating member provided in the sheet feeding device according to the embodiment.
FIG. 3 is a cross-sectional view illustrating a schematic configuration of a sheet feeding device according to the embodiment.
FIG. 4 is a cross-sectional view illustrating a schematic configuration of a sheet feeding device according to the embodiment.
FIG. 5 is a perspective view showing a paper feeding device in a conventional form.
FIG. 6 is an exploded perspective view showing a paper feed arm, a paper feed roller, and a rotating member provided in the conventional paper feed device.
[Explanation of symbols]
11 ... paper feed arm,
12 ... support shaft,
14: Paper feed roller,
15 ... Roller shaft,
19: Auxiliary paper feed roller,
21 ... Operation lever,
22 ... support shaft,
23 ... Tension coil spring,
31 ... Solenoid,
32 ... Plunger,
43 ... Belt,
45 ... Belt,
51 ... Torsion coil spring
52 ... Brake arm.

Claims (3)

In the paper feeding device that sequentially feeds the recording papers stacked and stored in the paper feeding cassette from the top layer,
A paper feed arm provided so as to be swingable along a direction of approaching and separating from the recording paper stacked on the paper feed cassette around a support shaft;
Provided at the distal end portion of the feed arm, and the paper feed roller in contact with the uppermost layer of the recording paper when the paper feed arm is swung to the recording paper approaching direction,
Said the feeding arm in a position close to the recording paper is moved to the spaced apart standby position from the recording paper, its weight a separating means and said feeding arm to release the holding of the standby position to hold in that position Release means for swinging in the recording paper approach direction by,
A rotation driving means for paying out the uppermost recording sheet by applying a rotation of the recording paper feeding direction to the feed roller,
Said recording paper a rotational force of the feed roller is rotated in the paper feeding direction, it is converted into a rotational force to the recording paper approaching direction in the paper feed arm relative to the paper feed roller by the rotational driving means a braking means to act as a force for pressing the uppermost layer, was provided for,
The braking means includes
A rotating member that rotates integrally with the paper feed roller in the recording paper feed direction and suppresses rotation of the paper feed roller in the recording paper feed direction when an external force opposite to the rotation direction is applied;
Centering on the support shaft of the paper feed arm, the recording paper is stacked in a direction that moves toward and away from the recording paper stacked in the paper feeding cassette, and the paper feeding arm swings in the recording paper approaching direction. When the paper feed roller comes into contact with the uppermost layer of the recording paper, it rotates in the recording paper approaching direction and engages with the rotating member to rotate the rotating member in the recording paper feeding direction. A sheet feeding device comprising: a braking arm for blocking . 2. The brake arm according to claim 1, wherein the braking arm is swung to the standby position by the separating means and held in the standby position by the releasing means and is swung in the recording paper approaching direction by its own weight. A paper feeder characterized by that . 2. The rotating member according to claim 1, wherein the rotating member is a torsion coil spring, and the torsion coil spring has an inner diameter smaller than an outer diameter of a roller shaft integral with the paper feed roller and is fitted to the roller shaft. The paper feeding device , wherein the torsion coil spring includes a locking portion that is locked by the braking arm that has been swung in the recording paper approaching direction .

Images