JP3772966B2 - Paper discharge driven roller holder, paper discharge device, and recording apparatus provided with the paper discharge device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a discharge driven roller holder for holding a discharge driven roller that plays a role of discharging a recording material from a recording unit in a recording apparatus represented by, for example, an ink jet printer.
[0002]
[Prior art]
In a recording apparatus such as an ink jet printer, as shown in FIG. 6, a recording material P such as printing paper is transported to a recording unit 51 having a recording head 100 and recording is performed. A configuration including a paper discharge roller 10 that discharges the material P from the recording unit 51 is generally employed. Here, a plurality of rollers according to the width of the recording material P are main-scanned in the discharge roller 10 at a downstream position in the sub-scanning direction (that is, the conveyance direction of the recording material P) with respect to the recording unit 51 of the recording apparatus. It is provided side by side in the direction. The paper discharge roller 10 includes a paper discharge driving roller 11 and a paper discharge driven roller 12. The paper discharge driven roller 12 has a plurality of teeth around it, and the tips of the teeth make point contact with the printing surface. In this way, a toothed roller having an acute angle is used, and a holder for a paper discharge driven roller (not shown in FIG. 6). Stored). Further, a discharge roller 60 that is driven and rotated by the feeding force of the recording material is provided further downstream of the discharge roller 10 in the sub-scanning direction. The term “paper ejection driven roller” in the present invention is a concept including both the paper ejection driven roller 12 and the paper ejection roller 60 illustrated in FIG. 6, and when simply referred to as “paper ejection driven roller”, the paper ejection driven roller is used. It means one or both of the roller 12 and the discharge roller 60.
[0003]
By the way, the paper discharge driven roller that rotates while being in contact with the recording material is inclined from the state in which the teeth of the roller are in contact with the paper surface perpendicularly to the paper surface while the recording material is conveyed. There is. In this state where the vertical angle change (tilt) occurs, the discharge driven roller cannot rotate smoothly. Therefore, the surface (printing surface) is finely formed by the teeth of the discharge driven roller contacting the recording material. The dents and scratches are made and the printing quality is lowered.
[0004]
In particular, when a so-called coated paper whose surface is coated with chemicals or synthetic resins is used as the recording material, the rotation direction of the discharge driven roller is parallel to the conveyance direction of the recording material (hereinafter referred to as “recording material”). However, the contact of the teeth in the unnatural state is as much as possible because the printed surface is more likely to be damaged as the surface of the coated paper becomes finer due to the contact of the teeth of the discharge driven roller. It is necessary to avoid it.
[0005]
That is, when the teeth come into contact with the coated paper with the inclination from the vertical direction, the coating layer around the dent is slightly peeled off or the coating layer around the dent is turned up (so-called “fogging”). Formation). Therefore, if peeling or fuzzing is formed in high-quality printing equivalent to a photograph, the finish after printing is impaired.
[0006]
Further, the peeling of the coating layer and the formation of fraying are most problematic when the paper discharge driven roller is rotated in the reverse direction. For example, in printing using continuous recording material such as roll paper, a cutting mechanism for cutting the recording material after printing is provided on the downstream side in the transport direction from the paper discharge roller, so that extra paper is discharged. It is necessary to reversely feed the sheet back to the upstream side in the transport direction from the recording unit, and for this purpose, the rollers are rotated in reverse. However, if peeling or fraying is formed during this reversal, there will be peeling or fuzzing on the surface of the recording material returned to the recording part (that is, the paper surface before printing). The effect on print quality tends to be large.
[0007]
In addition to the above-described peeling and fraying problems, it is convenient for the user to set the discharge driven roller not to contact the surface of the recording material depending on the purpose of printing.
[0008]
[Problems to be solved by the invention]
It is an object of the present invention to prevent the surface of a recording material from being scratched, peeled off, or frayed by preventing the teeth of a paper discharge driven roller from contacting the recording material in accordance with the purpose of printing. It is to provide a possible printing mechanism.
[0009]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention of the holder for the discharged paper driven roller according to claim 1 is provided with a discharged paper driven roller that is arranged downstream of the recording portion and rotates while being in contact with the recording surface of the recording material. A holder for a paper discharge driven roller that is rotatably held, and the holder has a structure in which a tip end side can swing up and down with a base end side as a fulcrum. The holder is provided to be switchable between a normal position where the paper discharge driven roller can contact the recording material and a retracted position where the paper discharge driven roller does not contact the recording material. Two wall bodies having a structure in which the front end side is slightly swung left and right as a fulcrum, and is substantially parallel to the rotation direction of the paper discharge driven roller so that the paper discharge driven roller is sandwiched from both sides of the front end side. The recording material transport of the two wall bodies Wherein the distance between the inner wall of the downstream side is set to be longer than the distance between the inner wall of the recording material conveying direction upstream side.
[0010]
According to this feature, there is provided a release mechanism capable of switching the discharge driven roller holder between a normal position where the paper discharge driven roller can contact the recording material and a retracted position where the discharge driven roller does not contact the recording material. Therefore, for example, when printing using coated paper is performed in the retracted position, the printing conditions that do not leave tooth marks on the surface of the recording material are selected according to the purpose of printing, such as avoiding the occurrence of peeling or fraying. Is possible.
Here, with the base end side of the holder as a fulcrum, the tip side (side where the paper discharge driven roller is stored) “slightly swings” means that the holder can be swung up and down. Accordingly, it corresponds to a slight backlash generated by the backlash corresponding to a slight backlash generated in the support portion of the holder. Further, when the distance between the inner walls on the downstream side in the conveyance direction of the recording material is formed to be “longer” than the distance between the inner walls on the upstream side in the conveyance direction, the range in which the discharge driven roller can be returned to the parallel state. It means the extension of the distance at. The distance between the extending inner walls is appropriately set depending on the diameter of the paper discharge driven roller and the size of the holder.
According to the above feature, the distance between the inner walls on the downstream side in the recording material conveyance direction of the two wall bodies of the discharge driven roller holder provided in parallel so as to sandwich the driven roller therebetween is defined as upstream in the conveyance direction. Since the discharge driven roller holder is inclined to the left and right with respect to the recording material conveyance direction, the discharge driven roller is easily parallel to the recording material conveyance direction. Can return to the state. Accordingly, the teeth of the paper discharge driven roller can be brought into contact with the paper surface in a normal state, and the coating layer can be prevented from being peeled off or fuzzed even in the printing of the coated paper. In addition, with the adoption of a release mechanism that allows the holder to swing up and down, an abnormal contact state of the discharged paper driven roller with the recording material due to left and right swinging generated in the support portion of the holder By improving, it is possible to prevent scratches, peeling, fraying, etc. on the surface of the recording material.
[0015]
A holder for a discharged paper driven roller that is disposed on the downstream side of the recording unit and holds the discharged paper driven roller that is driven to rotate while being in contact with the recording surface of the recording material. The tip side is swingable up and down with the end side as a fulcrum, and the holder uses the swing mechanism to swing the normal position where the discharge driven roller can contact the recording material, and the discharge mechanism. In the discharge driven roller holder provided so that the paper driven roller can be switched to a retracted position where it does not come into contact with the recording material, the holder has a structure in which the front end side is slightly swung left and right with the base end side as a fulcrum. In addition, two wall bodies are provided on the leading end side so as to sandwich the paper discharge driven roller from both sides, and the holder is placed on the inner wall surface of the two wall bodies by the swinging of the recording material. In a slightly inclined state with respect to the transport direction of Te, wherein the relief portion is provided that allows to position in parallel with the discharge follower roller with respect to the transport direction of the recording material. Here, the tip end side “slightly swings” with the base end side of the holder as a fulcrum has the same meaning as in the first aspect, and the “escape portion” means the oblique direction. The space inside the holder is expanded to a sufficient extent so that the discharged paper driven roller becomes a parallel state without being obstructed by the inner wall of the holder in the holder which is also inclined by the slight swinging. Means.
[0016]
According to the above feature, the holder is inclined with respect to the recording material conveying direction by forming the relief portion on the inner wall surface of the two wall bodies provided so as to sandwich the paper discharge driven roller therebetween However, the return of the paper discharge drive roller to the parallel state is not hindered, and it is possible to avoid peeling of the coating layer and fraying in the printing on the coated paper as in the first aspect. In addition, with the adoption of a release mechanism that allows the holder to swing up and down, the recording material of the paper discharge driven roller caused by the left and right swing corresponding to a slight backlash generated in the support portion of the holder By improving the abnormal contact state, it is possible to prevent scratches, peeling, fraying, etc. on the surface of the recording material.
[0017]
According to a second aspect of the present invention, the distance between the inner walls on the downstream side in the recording material conveyance direction is longer than the distance between the inner walls on the upstream side in the recording material conveyance direction. As a means to do this, a step portion is formed on the inner wall surface so that the wall thickness on the downstream side in the transport direction of the wall body is thinner than the wall thickness on the upstream side in the transport direction.
[0018]
According to this feature, since the stepped portion is formed so that the wall thickness on the downstream side in the conveyance direction of the wall body of the discharge driven roller holder is thinner than the wall thickness on the upstream side in the conveyance direction, the discharge driven roller holder itself It is possible to extend the distance between the inner walls on the downstream side without increasing the width.
[0019]
According to a third aspect of the present invention, there is provided a holder for a paper discharge driven roller according to the first or second aspect, wherein the holder supports the driven roller by an elastically deformable shaft body. To do.
[0020]
According to this feature, since the discharge driven roller is pivotally supported by the elastically deformable shaft body, the discharge driven roller can easily be returned to the parallel state by the alignment action of the shaft body.
[0021]
According to a fourth aspect of the present invention, there is provided the holder for the discharge driven roller according to any one of the first to third aspects, wherein the release mechanism rotates a cam provided on a fixed rotation shaft. A cam mechanism that contacts and releases the cam follower on the proximal end side of the holder swings the holder to switch between a normal position and a retracted position.
[0022]
According to this feature, the paper discharge driven roller held by the holder whose tip side is swingable up and down is released by swinging the holder together with the cam mechanism, so that the release is ensured with a simple structure. It becomes possible to do.
[0023]
According to a fifth aspect of the present invention, there is provided the holder for the discharge driven roller according to any one of the first to third aspects, wherein the release mechanism slides a plate provided at a lower portion of the holder back and forth. The holder is swung by a slide mechanism that makes contact with and releases the contact with the bottom of the base and switches between a normal position and a retracted position.
[0024]
According to this feature, the paper discharge driven roller held by the holder whose tip side can be swung up and down is swung together with the holder using the slide mechanism of the plate and released, so it is reliable with a simple structure. It will be possible to release.
[0025]
According to a sixth aspect of the present invention, there is provided the holder for the discharged paper driven roller according to the fifth aspect, wherein the plate is formed with a corrugated side on the upstream side in the conveying direction of the recording material. .
[0026]
According to this feature, since one side of the plate on the upstream side with respect to the recording material conveyance direction is formed into a waveform, it is possible to avoid the recording material from being caught and to prevent the occurrence of paper jam or paper jam. In other words, when the plate of the slide mechanism is mounted on the discharge path side of the lower surface of the discharge frame, even if the recording material jumps up until it comes into contact with the plate due to curl or the like, Since catching is avoided by flowing the paper, it is possible to prevent the occurrence of paper jam or paper jam.
[0027]
According to a seventh aspect of the present invention, there is provided a discharge device according to any one of the first to sixth aspects, wherein the discharge driven roller is held by the discharge driven roller holder and the recording material is in contact with the discharge driven roller. And a paper discharge drive roller that rotates and conveys the recording material. With this feature, a paper discharge device having the same function and effect as that of the first aspect of the present invention can be obtained.
[0028]
An invention of a recording apparatus according to an eighth aspect is characterized by including the paper discharge apparatus according to the seventh aspect. With this feature, a recording apparatus having the same function and effect as that of the seventh aspect of the invention can be obtained.
[0029]
According to a ninth aspect of the present invention, there is provided a recording apparatus according to the eighth aspect, wherein the switching lever for switching between the normal position and the retracted position of the holder is housed in a cover that covers the main body of the recording apparatus. It is characterized in that it is provided so as to protrude forward in the front of the recording apparatus so that it can be operated even in the mounted state. According to this feature, since the switching lever for switching between the normal position and the retracted position of the holder protrudes forward in the front of the recording apparatus, it is excellent in operability and the switching operation of the holder can be performed very easily. . Further, by providing it in front of the recording apparatus, it can be easily seen from the front, and when the switching lever is operated, forgetting to return to the normal position can be reduced.
[0030]
According to a tenth aspect of the present invention, in the ninth aspect, the operation of returning the holder from the retracted position to the normal position by the switching lever is performed in conjunction with another mechanism of the recording apparatus. It is characterized by. According to this feature, since the operation of returning the holder from the retracted position to the normal position is performed in conjunction with other mechanisms of the recording apparatus, for example, the user forgets to return the switching lever to the normal position, Even when the position is left as it is, it can be automatically returned to the normal position. The paper discharge driven roller plays a role in preventing a lift by contacting the recording material in the paper discharge device during normal printing, so it automatically recovers from an abnormal paper discharge state due to forgetting to switch the lever. Can be avoided. Here, examples of the “other mechanism” for executing the return operation in conjunction with each other include, for example, a mechanism for closing the discharge tray, and an initial stage of the carriage driven when the ink jet printer is turned on. Examples include a mechanism for operation.
[0031]
The discharge driven roller holder according to the eleventh aspect of the present invention is a discharge unit that is disposed downstream of the recording portion and holds the discharge driven roller that rotates while being in contact with the recording surface of the recording material. A holder for a paper driven roller, wherein the holder includes a first holder and a second holder held by the first holder, and the second holder is independent of the first holder. The distal end side can be swung up and down with the base end side as a fulcrum, and the second holder can normally contact the recording material with the discharge driven roller by the release mechanism using the swing. The second holder has a structure in which the front end side is slightly swung left and right with the base end side as a fulcrum, provided so as to be switchable between a position and a retracted position where the discharge driven roller does not contact the recording material. And the discharge follower from both sides to the tip side. And two wall bodies that are substantially parallel to the rotation direction of the discharge driven roller so as to sandwich the roller between them, and the distance between the inner walls of the two wall bodies on the downstream side in the recording material conveyance direction is the recording target It is characterized by being longer than the distance between the inner walls on the upstream side in the material conveying direction.
[0032]
According to this feature, the discharge driven roller holder includes the first holder and the second holder held by the first holder, and the second holder is independent of the first holder. Since the discharge driven roller can be switched between a normal position where the discharge driven roller can contact the recording material and a retracted position where the discharge driven roller does not contact the recording material, a large mechanism is not required for the release operation. Therefore, it is possible to make the apparatus compact. This is because a smaller part than the first holder can be adopted as the second holder, so that the distance from the fulcrum to the tip of the holder can be set smaller than the release mechanism in which the holder swings integrally. by.
[0033]
According to a twelfth aspect of the present invention, there is provided a discharge device according to the eleventh aspect, wherein the discharge driven roller is held by the discharge driven roller holder and the recording material is driven and rotated by itself while being in contact with the recording material. And a paper discharge driving roller for conveying the paper. With this feature, a paper discharge device having the same effect as that of the 11th aspect of the invention can be obtained.
[0034]
According to a thirteenth aspect of the present invention, a recording apparatus according to the thirteenth aspect includes the paper discharge device according to the twelfth aspect. With this feature, a recording apparatus having the same function and effect as that of the twelfth aspect of the invention can be obtained.
[0035]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a plan view showing an arrangement state of paper discharge rollers 10 in an ink jet recording apparatus 1 as an embodiment of the present invention. The paper discharge roller 10 is provided with the discharge driven roller 12 portion exposed at the top of the paper discharge frame 2 and is arranged side by side at a plurality of locations in the main scanning direction according to the width of the recording material P. ing. A so-called discharge roller 60 is disposed further downstream in the transport direction than the discharge roller 10. The discharge rollers 60 are normally provided in a smaller number than the discharge rollers 12 (three in this embodiment), and form a part of the discharge device (see FIG. 5). The following description will be made based on the paper discharge driven roller 12, but the discharge roller 60 is not prevented from having the same mechanism.
[0036]
In FIG. 1, when the recording material is fed forward, the recording material is conveyed from the upstream in the conveying direction (above the paper surface in FIG. 1), and here, a paper discharge driving roller and a paper discharge driven roller (not shown) 12 is discharged to the outside of the recording apparatus via a discharge roller 60 disposed downstream in the conveying direction (downward on the paper surface in FIG. 1). In the case of reverse feeding, the recording material P is conveyed upward in FIG. 1, and at this time, the paper discharge driven roller 12 rotates in the reverse direction. In the present invention, the terms “upstream in the transport direction” and “downstream in the transport direction” are based on the normal feed unless otherwise specified.
[0037]
FIG. 2 is an enlarged view of the main part of FIG. 1, and shows a state in which the paper discharge frame 2 is removed in order to clarify the internal structure. FIG. 3 is a cross-sectional view of a principal part taken along the line III-III in FIG.
[0038]
In this aspect, the discharge driven roller holder includes a main holder 21 as a first holder and a plurality of small holders 22 as a second holder. The main holder 21 itself is integrally formed, and a space is secured in the main holder 21 so that all the small holders 22 and the paper discharge driven roller 12 can be held. The small holder 22 is held by the main holder 21, but has a cam follower 23 of a cam 31 to be described later on the base end side, and as shown in FIGS. The front end side that holds the roller 12 is provided on a bearing portion (not shown) of the main holder so that it can swing up and down independently of the main holder 21 with the support portion 24 as a fulcrum. The switching of the vertical position of the small holder 22 is performed by a cam mechanism including the cam 31 of the switching means 30 and the cam follower 23.
[0039]
That is, in this example, the cam 31 is provided so as to be rotatable, and by operating the switching means 30, the cam 31 is not in contact with the state in which the cam 31 is in contact with the cam follower 23 while rotating (FIG. 3B). The release mechanism is configured by switching to the state [FIG. 3A]. At the central portion from the proximal end side to the distal end side of the small holder 22 (on the upstream side in the transport direction from the support portion 24), the bar spring 33 presses the small holder 22 and is urged downward. . Therefore, when the cam 31 is not in contact with the cam follower 23, the leading end side of the small holder 22 is lowered with the support portion 24 as a fulcrum by the urging force of the bar spring 33, and the normal position where the recording material can be contacted is obtained. [FIG. 3 (a)]. On the other hand, the switching means 30 causes the cam 31 to come into contact with the cam follower 23 so that the tip side of the small holder 22 swings upward with the support portion 24 as a fulcrum against the downward biasing force of the bar spring 33. Then, it shifts to the retracted position [see FIG. 3B]. With this release mechanism, a normal position (FIG. 3A) where the paper discharge driven roller 12 can contact the recording material and a retracted position [FIG. 3B] where the paper discharge driven roller 12 does not contact the recording material. Two positions can be selected.
[0040]
In addition, an inclined surface 28 is provided at the tip of the small holder 22 so that the conveyed paper can be discharged through the discharge path (in FIG. 3) regardless of whether the small holder 22 is in the normal position or the retracted position. Can be guided to the sheet discharge driven roller 12 and the sheet discharge drive roller 11).
[0041]
The paper discharge driven roller 12 is a set of two paper discharge driven rollers having teeth 13 on the outer periphery and stored in parallel in one small holder 22 (hereinafter referred to as “double roller)”. , One discharge driven roller stored in the small holder 22 (hereinafter referred to as “one roller”) is alternately arranged, and the one roller is slightly in the transport direction than the two-roller roller. Due to this arrangement, the single roller also serves as a spring-up prevention roller for preventing the recording material from jumping up.
[0042]
Each paper discharge driven roller 12 is separately supported by a small holder 22 so as to be rotatable by a shaft body 14, and the shaft body 14 penetrates the left and right wall bodies 26 a and 26 b of the small holder 22 and It is supported by bearings 25 provided integrally with the small holder 22 on both sides of the walls 26a, 26b. Here, the shaft body 14 may be a metal rod, but is preferably an elastically deformable shaft body having a centering action, and in this embodiment, a bar spring is employed.
[0043]
In this embodiment, a vertical step portion 27 (see FIG. 4) is provided on the inner wall surface of the two wall bodies 26a, 26b of the small holder 22 on the inner wall surface slightly upstream of the support portion by the shaft body 14 for transport. By reducing the wall thickness on the downstream side in the direction, the distance between the inner surfaces of the wall bodies 26a and 26b is longer than that on the upstream side in the transport direction. With this structure, a space on the downstream side in the transport direction in the small holder 22 is widened, and an escape portion that allows the paper discharge driven roller 12 to be positioned parallel to the transport direction of the recording material is formed. Even when the holder 22 is tilted in the oblique direction, the paper discharge driven roller 12 can easily return to the normal direction.
[0044]
Hereinafter, the principle of the paper discharge driven roller 12 returning to the parallel state will be described with reference to FIG. In FIG. 4, for convenience of explanation, the features of each part, the inclination angle, and the like are emphasized. Further, the arrows in the figure indicate the conveyance direction of the recording material.
[0045]
During conveyance of the recording material, the paper discharge driven roller 12 may be inclined slightly from left to right from the state where the teeth 13 are in contact with the paper surface perpendicularly. In order to eliminate the change (inclination) of the angle in the vertical direction, the paper discharge driven roller 12 is transported from the state in which the orientation in the small holder 22 is parallel to the transport direction while rotating (FIG. 4, (a)). The state is changed to a state having an angle slightly oblique to the direction [the same, (b)]. On the other hand, the small holder 22 originally plays a role of regulating the rotation direction of the paper discharge driven roller 12. However, as described above, since the small holder 22 is configured to be able to swing in the vertical direction, the support for supporting the small holder 22 is provided. The portion 24 has some play (play), and the small holder 22 has a room to swing slightly to the left and right with the support portion 24 as a fulcrum by the amount of play. For this reason, with the change in the direction of the paper discharge driven roller 12, the small holder 22 having a slight swing left and right with respect to the transport direction is also pushed by the paper discharge driven roller 12 from the inside by the amount of the swing. It tilts in an oblique direction and stops at the tilt limit [the same, (c)]. Here, the paper discharge driven roller 12 has the property of naturally returning to the normal direction while rotating, but the small holder 22 is still in an inclined state, so that the inner wall of the small holder 22 becomes an obstacle and becomes normal. Return to direction is prevented. If conveyance of the recording material is continued in this state, the discharge driven roller 12 cannot rotate smoothly, and the teeth 13 cause the surface (printing surface) of the recording material to be finely dented or scratched and peeled off. This may cause fraying and decrease print quality.
[0046]
For this reason, in this embodiment, a step portion 27 is provided on the inner wall surface of the wall bodies 26a and 26b of the small holder 22 so that the distance between the inner walls on the downstream side in the transport direction is longer than the distance between the inner walls on the upstream side in the transport direction. Accordingly, the downstream portion in the transport direction of the paper discharge driven roller 12 to be returned can escape into the space (relief portion) widened by the stepped portion 27 in the small holder 22 to discharge the paper. The driven roller 12 can quickly return to the normal direction [the same, (d)]. In this way, creating a situation in which the paper discharge driven roller 12 is likely to return to the normal direction minimizes the time during which the teeth 13 are in contact with the paper surface while being inclined with respect to the paper surface. It is possible to avoid peeling or fraying when using scratches or coated paper. Further, as in the present embodiment, when an elastically deformable bar spring is used as the shaft body 14 that is the rotation shaft of the paper discharge driven roller 12, the return to the normal direction is promoted by the aligning action.
[0047]
As described above, the ink jet recording apparatus has been described as an example, but the holder structure for the discharged paper driven roller of the present invention can be applied to a printer, a copier, a facsimile machine, and the like provided with a similar recording material discharging mechanism.
[0048]
Next, a second embodiment of the present invention will be described based on FIGS. FIG. 7 is a perspective view of the configuration example of the ink jet printer according to the second embodiment as seen from diagonally forward, and FIG. 8 is a perspective view of the inkjet printer as seen from diagonally backward. This inkjet printer includes a carriage 105 having a recording head 100 in a main body 101 covered with a cover 101a, a carriage drive mechanism (not shown), an auto sheet feeder (automatic continuous paper feed mechanism) (not shown), a paper gap switching unit / paper discharge. A driven roller release unit / driven roller separation unit 200 is disposed, a paper discharge port 102 is provided on the front surface of the main body 101, and a manual paper supply port 103 is provided on the rear surface of the main body 101.
[0049]
Further, a tray 104 for an automatic sheet feeder is disposed above the paper feed port 103 on the rear surface of the main body 101, and a paper gap switching unit / paper discharge driven roller release unit / driven roller is provided beside the paper feed port 103. An operation lever 201 constituting the operation means 200C (see FIG. 9) of the separation means 200 is disposed so as to protrude from the main body 101.
[0050]
The recording head 100 includes ink cartridges (not shown) for a total of four colors, for example, yellow, magenta, cyan, and black, and is configured to be capable of full color printing. The ink ejection timing of the recording head 100 and the scanning of the head drive mechanism are controlled by a dedicated controller board or the like built in the main body 101, so that highly accurate ink dot control, halftone processing, and the like are executed. ing.
[0051]
The recording material fed to the tray 104 is automatically fed out by an auto sheet feeder, and is further fed out by being sandwiched between a paper feed main driving roller (not shown) and a driven roller (not shown), and is discharged from the paper discharge port 102. It has become so. The recording material manually fed to the paper feed port 103 is similarly held between the paper feed roller and the driven roller and sent out, and is discharged from the paper discharge port 102.
[0052]
As the recording material fed from the tray 104, plain paper, special paper, recommended OHP sheet, glossy paper, glossy film, label sheet, government postcard, and the like can be used. As the recording material fed manually, thick materials such as thick paper and extra-thick paper (including an information recording disk tray), that is, a material that is difficult to bend, can be used in addition to the above-mentioned paper.
[0053]
The operation lever 201 constituting the operation means 200C slides stepwise along the slit 110 provided linearly in the main body 101 in the direction of the arrow a in the figure, and paper gap switching means / paper discharge driven roller release means / driven. The roller separating means 200 can be set. Here, the paper gap switching means is a distance between the paper surface and the nozzle opening surface of the recording head 100, that is, the paper gap, in order to keep the printing accuracy at a substantially constant high accuracy regardless of the thickness of the recording material. The recording head 100 can be moved and adjusted so that is always substantially constant. The paper discharge driven roller release means can release the paper discharge driven roller to a retracted position where it does not come into contact with the recording material when necessary according to the type of the recording material. The driven roller separating means applies a pressure to the driven roller in order to sandwich the recording material between the paper feed main driving roller and the driven roller or to extract the recording material from between the main driving roller and the driven roller. The driven roller is pressed against the main roller, or the pressure is released to separate the driven roller from the main roller.
[0054]
FIG. 9 is a block diagram showing the relationship between the operation means 200C, the paper gap switching means 200A, the paper discharge driven roller release means 200D, and the driven roller separation means 200B in the paper gap switching means / paper discharge driven roller release means / driven roller separation means 200. It is a block diagram. As shown in FIG. 9, the operating means 200C is disposed mechanically associated with the paper gap switching means 200A and the driven roller separating means 200B, respectively, and the paper gap switching means is connected to the discharged paper driven roller release means 200D. It is linked. In other words, the paper gap switching unit 200A, the discharge driven roller release unit 200D, and the driven roller separation unit 200B are operated by a stepwise slide operation of only one operation lever 201 constituting the operation unit 200C, and the recording head 100 is operated. The paper discharge driven roller 12 and the driven roller 202 can be set in a desired state.
[0055]
FIG. 10 is a side view showing detailed examples of the operation means 200C, the paper gap switching means 200A, the paper discharge driven roller release means 200D, and the driven roller separation means 200B. The operation means 200 </ b> C includes a first partial gear 211 having a control lever 201, a second partial gear 212, and a third partial gear 214. The paper gap switching unit 200A includes an eccentric cam 236 to which a carriage including a first link 231, a second link 232, a third link 233, a fourth link 234, a fifth link 235, and a recording head 100 is attached. . The paper discharge driven roller release means 200D includes a U-shaped receiving portion 317, a cam shaft 35 having a cam 31, a paper discharge driven roller holder having a cam follower 23, and an arm portion (sixth link 311) connected to the paper gap switching means 200A. ) And a guide groove 315 as a guide structure (see FIGS. 18 to 21). In the driven roller separating means 200B, a fourth intermittent gear 213, a fifth intermittent gear 215, and a driven roller 202, which have a shaft 213a with a part of the peripheral surface formed flat, are rotatably mounted. A driven roller arm 204 and a coil spring 205 are provided.
[0056]
The operation lever 201 is integrally formed so as to protrude from the circumferential portion of the first toothless gear 211, and a ratchet 222 is engaged with the first toothless gear 211. As a result, the operation lever 201 can reciprocate in the direction indicated by the arrow a around the shaft 211a of the first toothless gear 211, and can be positioned step by step from position A, position B, position C, and position D. It has become.
[0057]
Here, when the operation lever 201 is positioned at the position A, it is a position where a normal recording material such as plain paper is used, and when it is positioned at the position B, the thickness is A position where a slightly thick recording material such as thick paper is used, and when positioned at position C, a position where a very thick recording material such as a very thick paper including an information recording disk tray is used. It is. Further, when the operation lever 201 is positioned at the position D, the driven roller 202 is a position away from the main driving roller 203.
[0058]
The first segmented gear 211 is disposed so as to be able to mesh with the second segmented gear 212, and the second segmented gear 212 is disposed so as to be meshed with the fourth segmented gear 213. Further, the third partial gear 214 arranged coaxially with the second partial gear 212 is arranged so as to be able to mesh with the fifth partial gear 215.
[0059]
The shaft 213a of the fourth partial gear 213 is a so-called D-axis in which a part of the peripheral surface is formed as a flat surface. The other end of the driven roller arm 204, to which the driven roller 202 is rotatably mounted, is rotatably attached to the D shaft 213a. At the substantially central portion of the driven roller arm 204, one end side is locked to the driven roller 202, and the other end side is locked to the central portion of the coil spring 205 that is in contact with the D shaft 213a.
[0060]
Of the first and second links 231 and 232 connected to the shaft 215a of the fifth toothless gear 215 in a substantially L shape by the hinge 231a, the free end of the first link 231 is fitted. The free end of the second link 232 is located on the hinge 233a side of the third link 233 among the third, fourth and fifth links 233, 234, 235 connected in a substantially U shape by the hinges 233a, 234a. The end portion is connected to the hinge 232a. The free end of the third link 233 is connected to the carriage 105 via an eccentric cam 236, and the free end of the fifth link 235 is rotatably supported by the main body 101.
[0061]
The sixth link 311 is a connecting arm having a crank shape, one end of which is connected to a hinge 234a that connects the fourth and fifth links 233 and 234, and a U-shape (not shown) by a pin 313 serving as a protrusion on the other end. It is engaged with the mold receiving part (see FIGS. 18 to 20).
[0062]
The discharge driven roller holder includes a main holder 21 as a first holder and a plurality of small holders 22 as second holders. The main holder 21 itself is integrally formed, and a space is secured in the main holder 21 so that all the small holders 22 and the paper discharge driven roller 12 can be held. The paper discharge driven roller 12 is a set of two rollers having teeth 13 on the outer periphery and is stored in one small holder 22 in parallel, and one roller is stored in the small holder 22. The single rollers are alternately arranged, and the single rollers are located slightly upstream of the double roller assembly in the transport direction (see FIG. 25).
[0063]
Each paper discharge driven roller 12 is rotatably supported by a small holder 22 by a shaft 14. Here, the shaft body 14 may be a metal rod, but is preferably an elastically deformable shaft body having a centering action, and in this embodiment, a bar spring is employed.
[0064]
In addition, an inclined surface 28 is provided at the tip of the small holder 22, and the recording material conveyed is discharged through the discharge path (FIG. 5) regardless of whether the small holder 22 is in the normal position or the retracted position. 21 can be smoothly guided to the sheet discharge driven roller 12 and the sheet discharge drive roller 11.
[0065]
The small holder 22 is held by the main holder 21, but has a cam follower 23 of a cam 31 on the base end side thereof, and as shown in FIGS. 21A and 21B, the paper discharge driven roller 12. The support side 24 is provided on the bearing portion (not shown) of the main holder so as to be able to swing up and down independently of the main holder 21. At the central portion from the proximal end side to the distal end side of the small holder 22 (on the upstream side in the transport direction from the support portion 24), the bar spring 33 presses the small holder 22 and is urged downward. . The vertical position of the small holder 22 is switched by a cam mechanism including a cam 31 and a cam follower 23.
[0066]
That is, in this example, the cam 31 is provided so as to be rotatable, and can be switched between a state of contact with the cam follower 23 [FIG. 21B] and a non-contact state [FIG. 21A]. As a result, the discharge driven roller 12 can be released. When the cam 31 is not in contact with the cam follower 23, the leading end side of the small holder 22 is lowered with the support portion 24 as a fulcrum by the urging force of the bar spring 33, and is in a normal position where it can contact the recording material. [FIG. 21 (a)]. On the other hand, by bringing the cam 31 into contact with the cam follower 23, the tip side of the small holder 22 swings upward with the support portion 24 as a fulcrum against the urging force downward by the bar spring 33, and shifts to the retracted position. [Refer to FIG. 21 (b)]. With this cam mechanism, it is possible to select two positions, a normal position where the paper discharge driven roller 12 can contact the recording material and a retracted position where the paper discharge driven roller 12 does not contact the recording material.
[0067]
A limit switch 241 for turning on / off the automatic sheet feeder and a limit switch 242 for turning on / off the printer are disposed below the first toothless gear 211. The main roller 203 is attached with an encoder 243 used for control when printing on a recording material.
[0068]
As described above, the operation means 200C for operating the three systems of the paper gap switching means 200A, the paper discharge driven roller release means 200D, and the driven roller separation means 200B in series is provided, so that only the operation means 200C can be operated. Paper gap switching, paper discharge driven roller release state switching, and driven roller separation state switching can be performed. For this reason, it is possible to smoothly perform the paper gap switching, the paper discharge driven roller release operation, and the driven roller separation operation without making a mistake, and the user convenience can be improved.
[0069]
Further, since the functions of paper gap switching, paper discharge driven roller release and driven roller separation and their operation functions are integrated, operation means 200C, paper gap switching means 200A, paper discharge driven roller release 200D, and The structure of the driven roller separating means 200B becomes simple, the design is facilitated, design errors can be reduced, and manufacturing and assembly costs and man-hours can be reduced.
[0070]
In such a configuration, an outline of the operation will be described with reference to FIGS. 10, that is, when the operation lever 201 is positioned at the position A, as shown in FIG. 11, the driven roller 202 presses the plain paper P sent between the main driving roller 203. The elastic force of the coil spring 205 pressed by the D axis 213a is applied. The recording head 100 is set to have a paper gap ha that matches the plain paper P. Since the recording head 100 at this time has a thickness of about 0.6 mm or less including variations of plain paper, for example, the recording head 100 is moved and adjusted so that the paper gap ha is about 1.2 mm.
[0071]
10, the sixth link 311 is in the most inclined state, and the pin 313 provided at the free end of the sixth link as shown in FIG. 18 is a U-shape of the U-shaped receiving portion 317 to be engaged. It is located in the vicinity of the tip of the shape portion, and the U-shaped receiving portion 317 is not yet pressed. For this reason, as shown in FIG. 21A, the cam shaft 35 is not rotated, and the cam 31 is not in contact with the cam follower 23 of the small holder 22. Accordingly, the paper discharge driven roller remains in a normal position where it can come into contact with a recording material such as plain paper.
[0072]
At this time, the limit switches 241 and 242 are both turned on, and the lamps 106 and 107 shown in FIG.
[0073]
Next, when the operation lever 201 is positioned from the position A to the position D in the state shown in FIG. 12, the first segmented gear 211 first rotates together with the second segmented gear 212 in the direction indicated by the arrow b1. The fourth partial gear 214 rotates in the direction of the arrow c1 shown in the drawing, and the fifth partial gear 215 rotates in the direction of the arrow d1 shown in the drawing. As a result, each of the links 231 to 235 turns in the direction of the illustrated arrow e1, and as shown in FIG. 13, the recording head 100 moves, that is, rises in the direction of the illustrated arrow f1. For example, since the recording head 100 has a thickness of about 1.6 mm to 2.5 mm including variations in extremely thick paper, the recording head 100 is further raised by about 2.8 mm from the position of the plain paper in FIG. .
[0074]
Further, in the middle of the above operation, as shown in FIG. 12, the third toothless gear 213 starts to rotate in the direction of the arrow g1, so the coil spring 205 is applied to the flat portion of the D shaft 213a as shown in FIG. The driven roller 202 is released from the elastic force of the coil spring 205 and is separated from the main driving roller 203 in the direction of the arrow m1 in the figure.
[0075]
Further, when the operation lever 201 is switched from the position A to the position D, the sixth link 311 shifts to the most upright state. The pin 313 at the free end of the sixth link 311 has a guide groove 315 extending from the tip position of the U-shaped receiving portion 317 (see FIG. 18) to the position where the U-shaped receiving portion 317 is most deeply engaged (see FIG. 20). The straight portion 315a is moved, and the U-shaped receiving portion 317 is further pressed to rotate the U-shaped receiving portion 317 in the r2 direction in FIG. 19 along the arc portion 315b of the guide groove 315. As a result, as shown in FIG. 21B, the cam shaft 35 rotates and the cam 31 comes into contact with the cam follower 23 of the small holder 22 and pushes down the proximal end side of the small holder 22. As a result, the front end side of the small holder 22 swings against the pressing force of the bar spring 33 with the support portion 24 as a fulcrum, and the paper discharge driven roller 12 does not come into contact even when extremely thick paper such as a CD-R tray is inserted. Retreat to the position. The paper discharge driven roller 12 in this state (standby position) is displaced about 3 mm above the normal position. Although the target to be released to the retracted position may be all the paper discharge driven rollers 12, here, the paper discharge to be released among the plurality of paper discharge driven rollers 12 arranged in the width direction of the recording material. The driven roller 12 is biased to a predetermined width. That is, when viewed from the U-shaped receiving portion 317 side, only the discharge driven roller 12 corresponding to the width of the CD-R is released. By doing so, it is possible to release the camshaft 35 stably and reliably because it is not necessary to apply an extra load to the camshaft 35.
[0076]
At this time, the limit switches 241 and 242 are both turned off, and the lamps 106 and 107 shown in FIG.
[0077]
Next, when the operation lever 201 is positioned from the position D to the position B in the state shown in FIG. The toothed gear 214 rotates in the direction of the arrow c2 shown in the figure, and the fifth toothless gear 215 rotates in the direction of the arrow d2 shown in the figure. As a result, each of the links 231 to 235 turns in the direction of the arrow e2 shown in FIG. 15, so that the recording head 100 moves in the direction of the arrow f2 shown in FIG.
[0078]
Since the recording head 100 at this time has a thickness of about 0.7 mm to 1.5 mm including the variation of the thick paper, for example, the recording head 100 is about 1.5 mm away from the position of the plain paper in FIG. The movement is adjusted as follows. At the same time, as shown in FIG. 14, the third toothless gear 213 rotates in the direction indicated by the arrow g2, and the coil spring 205 is pushed against the D shaft 213a as shown in FIG. Is applied with the elastic force of the coil spring 205 pressed by the D-axis 213a so as to turn in the direction of the arrow m2 and press the cardboard PP sent to the main driving roller 203.
[0079]
When the operation lever 201 is moved to the position B, the pin 313 of the sixth link 311 is engaged with the U-shaped receiving portion 317 at the bottom portion of the U-shape, and is circular along the guide groove 315 as shown in FIG. The U-shaped receiving portion 317 that moves to the vicinity of the boundary between the arc portion 315b and the straight portion 315a of the guide groove 315 in the circumferential direction and rotates with the pin 313 is also rotated in the r1 direction. As a result of the cam shaft 35 rotating in synchronization with the rotation of the U-shaped receiving portion 317, the cam 31 is released from contact with the cam follower 23, and the distal end side of the small holder 22 is pushed down by the pressing force of the bar spring 33. Then, it returns to a normal position where it can come into contact with a recording material such as plain paper or cardboard [see FIG. 21 (a)].
[0080]
At this time, the limit switch 241 is turned off, the limit switch 242 is turned on, the lamp 106 shown in FIG. 7 disposed on the front surface of the main body 101 blinks, and the lamp 107 is lit.
[0081]
Next, when the operation lever 201 is positioned from the position D to the position C in the state shown in FIG. 16, the second missing gear 212 and the fourth missing gear are rotated by the rotation of the first missing gear 211 in the direction indicated by the arrow b2. The tooth gear 214 rotates in the direction indicated by the arrow c2, and the third toothless gear 213 rotates in the direction indicated by the arrow g2. As a result, as shown in FIG. 17, the coil spring 205 is pushed by the D-axis 213a, so that the driven roller 202 is rotated in the direction of the arrow m2 in the drawing and sent to the main driving roller 203. The elastic force of the coil spring 205 pressed by the D-axis 213a is applied so as to press.
[0082]
On the other hand, when the operation lever 201 is switched between the position D and the position C, since the fifth toothless gear 215 does not interlock with the fourth toothless gear 214, the links 231 to 235 do not move and the recording head 100 does not move. Therefore, the recording head 100 is maintained at a position displaced by about 2.8 mm from the position of the plain paper in FIG. Further, since the sixth link 311 is not displaced, the engagement state between the pin 313 and the U-shaped receiving portion 317 is the same as that in 19, and the paper discharge driven roller 12 is maintained in the retracted position.
[0083]
At this time, the limit switch 241 is turned off, the limit switch 242 is turned on, the lamp 106 shown in FIG. 7 disposed on the front surface of the main body 101 blinks, and the lamp 107 is lit.
[0084]
As described above, in the ink jet printer according to the present embodiment, the paper gap is switched to the three stages of the normal paper at the position A, the thick paper at the position B, and the CD-R tray at the position C by switching the operation lever 201. The paper driven roller 12 is not released at the positions A and B, but is released at the positions C and D (separated from the driven roller). In order to release the paper discharge driven roller 12 only at a necessary timing while interlocking with the paper gap switching unit 200A, a guide groove 315 including a linear portion 315a and an arc portion 315b and a U-shaped receiving portion 317 are used. . That is, when the operation lever 201 is switched from the position A to the position B, the movement of the paper gap switching means 200A is released as the movement of the linear portion 315a of the pin 313 and is not converted into the rotation of the U-shaped receiving portion 317. By switching from the position B to the position C, the pin 313 moves along the arc portion 315b so that the movement of the paper gap switching means 200A is converted into the rotation of the U-shaped receiving portion 317, and the cam mechanism is operated. Yes.
[0085]
In the above paper gap switching means 200A, when printing a CD-R, if the paper gap is set to normal (operation lever 201 is position A) or thick paper (operation lever 201 is position B). A thickness error is caused by the paper thickness detection means provided separately with the CD-R tray, and printing cannot be performed.
[0086]
As described above, the ink jet printer according to the second embodiment moves the recording head 100 to displace the paper gap switching means 200A for switching the paper gaps having different intervals, and displaces the paper discharge driven roller 12 so that the normal position and the retracted position are set. A three-system driving operation of a discharge driven roller release means 200D that switches between the two and a driven roller separation means 200B that applies or releases pressure to the driven roller 220 and adjusts the pressing force to the recording materials having different thicknesses. Since the switching can be realized with one operating lever 201 constituting the operating means 200C, a switching operation can be performed reliably and with high accuracy.
[0087]
That is, by operating one operation lever 201, the paper gap setting of the recording head 100 at different intervals by the paper gap switching means 200A via the second toothless gear 212 and the third toothless gear 214, the paper gap setting. The paper discharge driven roller 12 is displaced in conjunction with the release to release the paper discharge driven roller for switching from the normal position to the retracted position, the application of the pressure of the driven roller 202 by the driven roller separation means 200B, and the driven roller separation means. Step-by-step switching between releasing the pressure of the driven roller 202 by 200B can be performed smoothly. Furthermore, the operation means 200C, the paper gap switching means 200A, the paper discharge driven roller release means 200D, and the driven roller separation means 200B can be realized with a simple configuration of a gear mechanism, a link mechanism, and a cam mechanism.
[0088]
The ink jet printer according to the second embodiment is used for a user's purpose of use in addition to a discharge means (hereinafter sometimes referred to as “first release means”) 200D of a discharge driven roller interlocked with the paper gap switching means. Accordingly, there is provided release means (hereinafter referred to as “second release means”) capable of releasing the paper discharge driven roller 12 even when printing normal paper or thick paper. Hereinafter, the second release means will be described with reference to FIGS.
[0089]
The second release means can release the paper discharge driven roller 12 independently of the first release means 200D. In the present embodiment, the plate 80 illustrated in FIG. 22 is used.
[0090]
The plate 80 is a flat plate made of a material such as SUS, for example, and is attached to the paper discharge frame 2 from the lower side of the small holder 22 as shown in FIG. Seven hooks 83 are formed on the front portion of the plate 80 (upper side in FIG. 22), and engage with the main holder 21 so as to be slidable back and forth. Similarly, the four engaging portions 82 are engaged with claws (not shown) formed on the paper discharge frame 2 so as to be slidable back and forth. The plate 80 is mounted with two positioning portions 87 inserted into the slits of the paper discharge frame 2 so that the left and right positions are defined. Unlike the first release means, in the second release means, the width of the plate 80 corresponds to the width of the arranged discharged paper driven rollers 12 so as to swing all the discharged paper driven rollers 12. . A large opening 88 is provided at a position corresponding to the discharge roller 60 (see FIG. 25) when the plate 80 is mounted, and when the discharge driven roller 12 swings to the standby position, a small holder is provided. A small opening 89 is formed so that the distal end of the base end side of 22 can escape. Further, the plurality of small protrusions 84 form a slidable contact surface during positioning and sliding in the height direction of the plate.
[0091]
Since the plate 80 is mounted on the discharge path side of the lower surface of the discharge frame 2, the front end of the plate 80, that is, one side 87 on the side facing the recording material to be discharged is formed in a waveform. Even if the recording material jumps up to the plate 80 due to curl or the like and is transported, a paper jam or a paper jam occurs in order to avoid catching by passing the leading edge of the paper at the corrugated side 87. Can be prevented.
[0092]
FIG. 24 is a view for explaining the operation of releasing the paper discharge driven roller 12 by the second release means. FIG. 24A shows a state in which the paper discharge driven roller 12 is in a normal position. When the plate 80 is slid forward (rightward toward the plane of FIG. 24) from this position, FIG. As described above, the upper surface of the plate 80 is in sliding contact with the bottom of the small holder 22, so that the tip end side of the small holder 22 is swung upward with the support 24 as a fulcrum. By this swinging, the discharge driven roller 12 is released to the retracted position. The swing width (displacement amount of the paper discharge driven roller 12) in the second release means is smaller than the swing width by the cam mechanism in the first release means 200D described in FIG. It is set to have a swing width of about 1 mm. In the first release means 200D, the release operation of the paper discharge driven roller 12 is interlocked with the paper gap switching means 200A, and the displacement width at the time of release is set to the same width as the paper gap adjustment. For this reason, when the paper discharge driven roller 12 is released, the paper gap is always large, and the carriage is inevitably displaced to the upper position with the same width. On the other hand, in the second release means, the paper discharge driven roller 12 can be released independently, for example, with the paper gap kept at a minimum, regardless of the paper gap adjustment. If the displacement amount 12 is too large, the paper discharge driven roller 12 in the retracted position may collide with the carriage that reciprocates in the low position in the state of the minimum paper gap, thereby preventing normal printing. For this reason, in this embodiment, the displacement amount of the second release means is set to about 1 mm, for example, to avoid contact with the carriage at the low position.
[0093]
FIG. 25 is a plan view of an essential part of the paper discharge device of the ink jet printer, for explaining the operation unit 90 in the second release means. The operation unit 90 is provided in the vicinity of the center of the front surface of the ink jet printer so that the second operation lever 91 protrudes to a position where the second operation lever 91 can be easily viewed and operated from the front of the ink jet printer. The second release means can be switched by swinging 91 to the left and right. More specifically, the operation unit 90 is attached to the paper discharge frame 2 so as to be rotatable about the support unit 93 as a fulcrum, and is directed downward to the engagement unit 92 at a position slightly away from the support unit 93. Engaging projections (not shown) are inserted into the engaging holes 81 of the plate 80 through the guide holes 86 of the paper discharge frame 2. When the second operation lever 91 is swung to the right from the state shown in FIG. 25 where the second control lever 91 is at the reference position, the engaging projection is lowered through the guide hole 86 of the paper discharge frame 2 with the support portion 93 as a fulcrum. 24 is slid forward to place the paper discharge driven roller 12 in a retracted state [FIG. 24B]. Conversely, when the second operation lever 91 is swung to the reference position to the left from the state (separated position of the second operation lever 91) toward the paper surface, the engaging protrusion is moved to the plate 80 with the support portion 93 as a fulcrum. Is slid rearward to return the paper discharge driven roller 12 to the normal position [FIG. 24 (a)].
[0094]
FIG. 26 is a perspective view of the ink jet printer according to the present embodiment as viewed from the front upper side, and shows a state in which the paper discharge tray 109 is unfolded. In the discharge tray 109, when the tray 109 is closed, the second operation lever 91 is returned to the position corresponding to the second operation lever 91 to the reference position (the left position facing the paper surface in FIG. 26). Returning means 94 is provided. As the return means 94, when a part of the upper surface of the paper discharge tray 109 comes into contact with the second operation lever 91 in the separated position with the paper discharge tray 109 closed, and the lever returns to the reference position 91. Is formed as an inclined surface with a small coefficient of friction at an angle that does not contact. The inclined surface may be the entire upper surface of the paper discharge tray 109, or may be a surface curved and inclined in an arc shape, for example. When the user tries to close the paper discharge tray 109 while keeping the second operation lever 91 at the separation position of the paper discharge driven roller 12 (right position toward the paper surface of FIG. 26), the second operation lever Since the tip of 91 comes into contact with the inclined surface as the return means 94, the tip of the second operation lever 91 is slid along the inclined surface by using the pressing force during the closing operation, and the discharge driven roller 12 It can be automatically returned by swinging to the reference position. A rotating structure may be provided at the tip of the second operation lever 91 as necessary so that the pressing force of the closing operation of the discharge tray 109 can be efficiently converted into the returning operation.
[0095]
Another example of the return means 94 is a structure that can be engaged with the second operation lever during the initial operation of the carriage 105 that is driven when the power of the inkjet printer is turned on. A mechanism that returns the second operating lever 91 to the reference position in association with the reciprocating movement of the carriage in operation can also be employed.
[0096]
In the ink jet printer according to the second embodiment, a linear scale, which is a moving position detecting unit in the main scanning direction of the carriage 105, can be displaced in conjunction with the paper gap adjustment by the paper gap switching unit. Hereinafter, the linear scale interlocking mechanism will be described with reference to FIGS.
[0097]
FIG. 27 is a main part perspective view showing a state in which the holder 510 is mounted on the ink jet printer of this embodiment, and FIG. 28 is a main part sectional view around the holder 510 of FIG.
[0098]
The carriage guide shaft 502 is supported on the left and right side frames 501 via an eccentric mechanism 530 so as to be displaced in the vertical direction. An eccentric shaft may be employed as the eccentric mechanism 530, but here, an eccentric bush is used as the eccentric mechanism 530. By using this eccentric bush, a shaft body having a concentric cross section can be used as the carriage guide shaft 502, and the displacement distance can be increased without increasing the diameter of the carriage guide shaft 502 itself. The width can be widened, and the degree of freedom in adjusting the paper gap is increased.
[0099]
The shape of the holder 510 is arbitrary as long as the carriage guide shaft 502 and the linear scale 504 can be interlocked. In this aspect, a flat plate-like member is used, and the carriage is formed in a slightly lower portion. A fitting portion 513 of a linear scale 504 is provided on the upper portion of the guide shaft 502, and an intermediate portion between the two portions rises from the lower side to the upper side substantially vertically, and has a rising portion 512 that comes into contact with the wall surface of the side frame 501. ing. The holder 510 has a substantially semicircular bearing-shaped portion corresponding to the outer periphery of the small-diameter shaft 503 of the carriage guide shaft 502 at the engaging portion with the carriage guide shaft 502, and the carriage-guide shaft is formed on the bearing-shaped portion. The small-diameter shaft 503 of 502 is engaged with the carriage guide shaft 502. The bearing-shaped portion of the holder 510 is larger than the outer circumference of the carriage guide shaft 502 to the extent that the rotation of the carriage guide shaft 502 is not hindered, and the carriage guide does not come off during the displacement operation of the carriage guide shaft 502. It is formed so that it can move in synchronization with the shaft 502. In addition, a disc spring 551 is sandwiched between the engagement portion with the carriage guide shaft 502 and biased so as to press the holder 510 against the side frame 501.
[0100]
The shape of the peripheral holder 510 that engages with the carriage guide shaft 502 is formed in a substantially U-shaped cross section, and the upper and lower sides of the inverted U-shape are in contact with the side frame 501. However, the plate-shaped plane around the engaging portion is formed with a spaced-apart portion 511 so as to be separated from the wall surface of the side frame 501. By this separated shape portion 511, the load on the carriage guide shaft 502 is released to the side frame 501 so as to straddle the eccentric mechanism 530 fitted to the side frame 501, and the load on the eccentric mechanism 530 is reduced. ing.
[0101]
In other words, the carriage guide shaft 502 is subjected to a horizontal load associated with the reciprocating movement of the carriage in the main scanning direction, and a vertical load associated with the carriage's own weight and the vertical displacement caused by the eccentric mechanism 530. Since the shaft 502 is concentrated on the eccentric mechanism 530 that pivotally supports the shaft 502 at both ends, the load applied to the eccentric mechanism 530 is reduced by letting the load to the side frame 501 that is a structural member by the separated shape portion 511 of the holder 510. is doing.
[0102]
The attachment portion 513 of the linear scale 504 is substantially perpendicular to the flat surface of the holder 510 at the upper portion of the holding portion 510 mounted so as to rise from below (that is, parallel to the tape-like linear scale 504). A so-called hook-shaped engagement flange 514 is formed by bending a part of the bent mounting portion approximately twice at a right angle. The linear scale 504 is attached so that the hook portion 514 is hooked in the engagement hole at the end of the linear scale 504.
[0103]
FIG. 29 is a perspective view of the main part showing the state of the holder 510 attached to the side frame 501 on the opposite side to FIG. 27 in the recording apparatus of the same embodiment. The basic configuration of the holder 510 is the same as that shown in FIGS. 27 and 28, and is formed using a flat plate-like member, and a spaced-apart portion 511 that is separated from the side frame 501 at the bottom (this side has a cross-sectional view is omitted). This portion is engaged with the carriage guide shaft 502. In FIG. 29, unlike FIG. 27, the linear scale 504 is attached not to the holder 510 directly but to the leaf spring 520 attached to the holder 510. That is, an opening hole is formed near the center of the holder 510, and a leaf spring 520 is inserted into the opening hole. The leaf spring 520 is locked to the holder 510 by means (not shown) in the lower part, and is attached so as to be vertically displaceable along the same locus as the carriage guide shaft 502 and the holder 510. An upper portion of the plate spring 520 is provided with a linear scale 504 attachment portion formed by bending so as to be substantially perpendicular to the flat surface of the plate spring 520 (that is, parallel to the tape-like linear scale 504). 27, similarly to the attachment part 513 of the linear scale 504 in FIG. 27, a hook part for attaching the linear scale 504 is formed, and this hook part is hooked into the engagement hole at the end part of the linear scale 504, A linear scale 504 is attached. In this way, the attachment portion of the linear scale 504 is provided on the leaf spring 520 inserted into the holder 510, and the attachment of the linear scale 504 to this attachment portion allows the tension to be applied using the urging force of the leaf spring 520. The linear scale 504 can be held. In this embodiment, the leaf spring 520 is formed as a separate part from the holder 510. However, a part of the holder 510 can be elastically deformed to obtain the same urging action as the leaf spring 520.
[0104]
The upper portion of the holder 510 in FIG. 29 is bent so as to be substantially perpendicular to the flat plate surface of the holder 510 (that is, parallel to the tape-like linear scale 504), whereby the height of the linear scale 504 is obtained. Directional positioning part 515 is provided. In the positioning portion 515 provided by bending, a protruding piece 516 is formed by further bending a part thereof at a substantially right angle, and by inserting the protruding piece 516 into a height positioning hole provided in the linear scale 504, The height of the linear scale 204 can be defined so that the vertical position does not shift.
[0105]
As shown in FIGS. 28 and 30, a protrusion 521 is provided on a flat plate-like rising portion 512 that rises substantially vertically from below, and this protruding portion 521 is formed on the side frame 501. Together with the guide hole 541, a guide structure that defines a trajectory when the holder 510 is moved up and down is formed. Since the shape of the lower half of the guide hole 541 is formed so as to be the same locus as the displacement locus of the carriage guide shaft 502, the protrusion 521 fitted in the guide hole 541 moves in the guide hole 541 during the displacement operation. It is guided along the same locus as the carriage guide shaft 502. Accordingly, the linear scale 504 attached to the holder 510 moves along the same path as the carriage guide shaft 502, and thus the carriage, and the displacement in a state in which the relative position between the linear scale 504 and the carriage is ensured. enable. Further, the tip end side of the protrusion 521 is formed in a T-shaped cross section, and functions as a retaining action portion 522 from the guide hole 541. Note that the upper portion of the guide hole 541 is formed wider than the lower trajectory shape, and the guide hole 541 of the protrusion 521 is inserted by inserting the protrusion 521 from the upper portion of the guide hole 541 when the holder 510 is mounted. It is possible to easily fit into. Further, the protrusion 521 is connected to the side frame 501 by a backlash spring 552 for preventing backlash in the guide hole 541 and is guided in the guide hole 41 in a stable state.
[0106]
Based on the above, the operation of the linear scale interlocking mechanism in this embodiment will be described.
[0107]
The linear scale 504 is attached to a holder 510 (or a leaf spring 520 attached to the holder 510). The holder 510 has a carriage guide shaft 502 provided with an eccentric mechanism 530 for adjusting a paper gap. Since the linear scale 504 is displaced up and down in synchronization with the displacement, the linear scale 504 is displaced up and down in conjunction with the carriage guide shaft 502 as a result.
[0108]
As described above, as a result of attaching the holder 510 of the linear scale 504 to the carriage guide shaft 502 adopting the eccentric mechanism 530 in a synchronizable manner, the carriage guide shaft 502 and the linear scale 504 are displaced in conjunction with each other. Thus, the paper gap adjustment and the position of the linear scale 504 can be changed by only one switching operation. The eccentric mechanism 530 is not limited to the eccentric bush described above, and a known mechanism such as an eccentric shaft can be employed.
[0109]
Although the present invention has been described with reference to various embodiments, the present invention is not limited to the above embodiments, and may be applied to other embodiments within the scope of the invention described in the claims. Of course. For example, the second toothless gear 212 and the third toothless gear 214 that switch the driving operation between the paper gap switching means 200A (and the paper discharge driven roller release means 200D) and the driven roller separating means 200B are manufactured separately. Then, they may be joined so as to be coaxial, or may be integrally manufactured in advance.
[0110]
In the above-described embodiment, the switching position of the operation lever 201 is the position A where the recording material having a normal thickness, i.e., plain paper, is used, and the recording material, i.e., the thick paper, having a slightly thick thickness. Position B, position C where a very thick recording material, that is, extremely thick paper including an information recording disk tray, and position D where the driven roller 202 is separated from the main driving roller 203 are divided into four stages. Although the case where it was continuously provided was described, the present invention is not limited to this. The position P for setting the first paper gap, and the position Q for setting the second paper gap larger than at least the first paper gap, The present invention can be applied to the case where the three stages of the position R where the driven roller 202 is separated from the main driving roller 203 are connected.
[0111]
Further, the switching positions provided continuously are not limited to the order of A, B, C, and D, and the present invention can be applied in any order. For example, in the case of the switching positions P, Q, and R, the switching positions P, Q, and R, the switching positions R, P, and Q, and the switching positions P, R, and Q can be applied.
[0112]
Further, in the above embodiment, the first release means 200D uses the cam mechanism including the cam 31 and the cam follower 23, and the second release means uses the slide mechanism of the plate 80. It is possible to employ other mechanisms that can be achieved.
[0113]
Further, the pressing means of the driven roller 202 in the driven roller separating means 200B is not limited to the coil springs 205 and 305, and any elastic member such as rubber can be applied. Further, if the D axis 213a is formed into an acute fan shape, the operation angle of the operation lever 201 can be increased.
[0114]
【The invention's effect】
According to the holder of the present invention, a paper discharge device provided therewith, and a recording device provided with the paper discharge device, the paper discharge driven roller holder can be brought into contact with the recording material at a normal position and the paper discharge driven roller. Provides a release mechanism that can be switched to a retracted position that does not come into contact with the recording material.For example, printing using coated paper is performed at the retracted position to avoid peeling or crease. According to the purpose, it becomes possible to select a printing condition in which no tooth trace remains on the surface of the recording material.
[Brief description of the drawings]
FIG. 1 is a plan view showing an outline of a paper discharge driven roller according to an embodiment of the present invention.
FIG. 2 is an enlarged view of a main part of FIG.
FIG. 3 is a cross-sectional view of main parts taken along line III-III of a paper discharge driven roller.
FIG. 4 is a schematic diagram illustrating a state of a discharge driven roller and a holder during conveyance of a recording material.
FIG. 5 is a cross-sectional view of a main part showing a paper discharge device portion in the recording apparatus of the present invention.
FIG. 6 is a cross-sectional view of a main part showing an outline of the periphery of a recording unit of an inkjet recording apparatus.
FIG. 7 is a perspective view of a configuration example of an ink jet printer according to another embodiment of the present invention viewed obliquely from the front.
FIG. 8 is a perspective view of the ink jet printer of FIG. 7 as viewed obliquely from the rear.
9 is a block diagram showing the relationship between the operation means, paper gap switching means, paper discharge driven roller release means, and driven roller separation means of the ink jet printer of FIG. 7;
10 is a side view showing a detailed example of a first state of the paper gap switching unit / discharged driven roller release unit / driven roller separating unit of the ink jet printer of FIG. 7; FIG.
11 is a side view showing a first operation example of paper gap switching means / discharged driven roller release means / driven roller separating means of the ink jet printer shown in FIG. 7; FIG.
12 is a side view showing a detailed example of a second state of the paper gap switching unit / discharged driven roller release unit / driven roller separation unit of the ink jet printer of FIG. 7; FIG.
13 is a side view illustrating a second operation example of the paper gap switching unit / discharged driven roller release unit / driven roller separation unit of the ink jet printer of FIG. 7; FIG.
14 is a side view showing a detailed example of a third state of the paper gap switching unit / discharged driven roller release unit / driven roller separating unit of the ink jet printer of FIG. 7; FIG.
15 is a side view showing a third operation example of the paper gap switching unit / paper discharge driven roller release unit / driven roller separation unit of the ink jet printer of FIG. 7; FIG.
16 is a side view showing a detailed example of a fourth state of the paper gap switching unit / discharged driven roller release unit / driven roller separation unit of the inkjet printer of FIG. 7; FIG.
17 is a side view showing a fourth operation example of the paper gap switching unit / paper discharge driven roller release unit / driven roller separation unit of the ink jet printer of FIG. 7; FIG.
18 is a perspective view of a main part for explaining a discharge driven roller release unit in the state of FIG. 10;
FIG. 19 is a perspective view of a main part for explaining the discharged paper driven roller release means in the state shown in FIGS. 12 and 16;
20 is a perspective view of a main part for explaining the paper discharge driven roller release means in the state of FIG. 14; FIG.
FIGS. 21A and 21B are diagrams for explaining the operation of the paper discharge driven roller release means, where FIG. 21A is a normal position and FIG. 21B is a retracted position;
FIG. 22 is a plan view for explaining a plate used in the slide mechanism of the second release means.
23 is a diagram for explaining a state in which the plate of FIG. 22 is mounted.
FIGS. 24A and 24B are diagrams for explaining the operation of the second release means, in which FIG. 24A is a normal position and FIG. 24B is a retracted position.
FIG. 25 is a view for explaining an operation unit of a second release means.
FIG. 26 is a view for explaining return means of the second release means.
27 is a perspective view of a main part for explaining a linear scale interlocking mechanism of the ink jet printer shown in FIG. 7;
FIG. 28 is a cross-sectional view of a principal part for explaining a linear scale interlocking mechanism of the ink jet printer of FIG.
29 is a perspective view of a principal part for explaining a linear scale interlocking mechanism of the ink jet printer shown in FIG. 7;
30 is a main part side view showing a state of the outside of the side frame of the ink jet printer of FIG. 7; FIG.
[Explanation of symbols]
1 Inkjet recording device
2 Output frame
10 Paper discharge roller pair
11 Discharge drive roller
12 Discharged driven roller
13 teeth
14 Shaft
21 Main holder
22 Small holder
23 Cam Follower
24 Support part
25 Bearing
26a, 26b wall
27 steps
28 Inclined surface
29 escape
30 switching means
31 cams
33 Bar spring
35 Camshaft
40 Paper feed roller pair
50 platen
51 Recording unit
60 discharge roller
80 plates
81 engagement hole
82 Section
83 hook
84 Small protrusion
85 Waveform side
86 Guide hole
87 Positioning part
88 large opening
89 Small opening
90 Operation unit
91 Control lever
92 engaging part
93 Supporting part
94 Return means
100 recording head
101 body
101a cover
102 Paper exit
103 Paper feed slot
104 trays
105 Ink cartridge
106 Lamp
107 lamp
109 Output tray
110 slits
200 Paper gap switching means / paper discharge driven roller release means / driven roller separation means
200A Paper gap switching means
200B Followed roller separation means
200C operation means
200D paper discharge driven roller release means
201 Operation lever
202 Followed roller
203 Paper feed roller
204 Followed roller arm
205 Coil spring
211 First partial gear
212 Second toothless gear
213 4th partial gear
214 Third toothless gear
215 fifth toothless gear
213a D axis
222 Ratchet
231 First link
232 Second link
233 Third link
234 4th link
235 5th link
241 Limit switch
242 Limit switch
243 Encoder
311 6th link
313 pin
315 Guide groove
315a Straight line part
315b Arc part
317 U-shaped receiving part
501 Side frame
502 Carriage guide shaft
503 Small diameter shaft
504 linear scale
510 holder
511 Separated shape part
512 Rising part
513 mounting part
514 Buttocks
515 Positioning part
516 Projection
520 leaf spring
521 Protrusion
522 Retaining prevention action part
530 Eccentric mechanism
531 Paper Gap Adjustment Bush
532 Parallelism adjustment bush
533 Locking part
541 Guide hole
542 mounting hole
543 Locking means
551 Disc spring
552 Anti-backlash spring

Claims (13)

A holder for a discharge driven roller that is disposed downstream of the recording unit and holds the discharge driven roller that is driven to rotate while being in contact with the recording surface of the recording material;
The holder has a structure in which the distal end side can swing up and down with the base end side as a fulcrum, and the holder can be contacted with the recording material by the discharge mechanism using the swing. A position and a retracted position where the paper discharge driven roller does not contact the recording material,
Further, the holder has a structure in which the tip end side is slightly swung left and right with the base end side as a fulcrum, and the discharge driven roller is rotated so as to sandwich the discharge driven roller from both sides on the tip end side. Having two wall bodies substantially parallel to the direction,
A discharge roller driven holder, wherein the distance between the inner walls of the two walls on the downstream side in the recording material conveyance direction is longer than the distance between the inner walls on the upstream side in the recording material conveyance direction.   2. The wall thickness downstream of the wall in the transport direction is defined as the means for making the distance between the inner walls downstream in the recording material transport direction longer than the distance between the inner walls upstream in the recording material transport direction. A holder for a discharge driven roller, wherein a step portion is formed on the inner wall surface so as to be thinner than a wall thickness on the upstream side.   3. The paper discharge driven roller holder according to claim 1, wherein the holder supports the driven roller by an elastically deformable shaft body.   4. The cam according to claim 1, wherein the release mechanism rotates a cam provided on a fixed rotation shaft so as to contact and release the cam follower on the proximal end side of the holder. 5. A discharge driven roller holder, wherein the holder is swung by a mechanism to switch between a normal position and a retracted position.   4. The release mechanism according to claim 1, wherein the release mechanism includes a slide mechanism that slides a plate provided at a lower portion of the holder back and forth so as to contact and release the bottom of the holder. 5. A holder for a discharged paper driven roller, wherein the holder is switched between a normal position and a retracted position.   6. The paper discharge driven roller holder according to claim 5, wherein the plate has a corrugated side on the upstream side with respect to the recording material conveyance direction.   A paper discharge driven roller held by the paper discharge driven roller holder according to any one of claims 1 to 6, and a paper discharge drive for conveying the recording material by driving and rotating while abutting the recording material. And a paper discharge device.   A recording apparatus comprising the paper discharge device according to claim 7.   9. The recording apparatus according to claim 8, wherein the switching lever for switching between the normal position and the retracted position of the holder is accommodated in a cover that covers the main body of the recording apparatus and can be operated even when the cover is attached. A recording apparatus, wherein the recording apparatus is provided so as to protrude forward in front of the recording medium.   The recording apparatus according to claim 9, wherein the operation of returning the holder from the retracted position to the normal position by the switching lever is performed in conjunction with another mechanism of the recording apparatus. A holder for a discharge driven roller that is disposed downstream of the recording unit and holds the discharge driven roller that is driven to rotate while being in contact with the recording surface of the recording material;
The holder includes a first holder and a second holder held by the first holder,
The second holder has a structure in which the distal end side can swing up and down with the base end side as a fulcrum independently of the first holder,
By the release mechanism using the swing, the second holder is moved to a normal position where the discharge driven roller can come into contact with the recording material and a retracted position where the discharge driven roller does not come into contact with the recording material. Provided to be switchable,
Further, the second holder has a structure in which the distal end side slightly swings left and right with the base end side as a fulcrum, and the discharge driven roller is sandwiched between the discharge driven rollers from both sides of the distal end side. Having two walls substantially parallel to the rotational direction of the roller,
A holder for a discharge driven roller, characterized in that the distance between the inner walls of the two walls on the downstream side in the recording material conveyance direction is longer than the distance between the inner walls on the upstream side in the recording material conveyance direction. .   A discharge driven roller that is held by the discharge driven roller holder according to claim 11, and a discharge driving roller that drives and rotates by itself while being in contact with the recording material to convey the recording material. Paper device.   A recording apparatus comprising the paper discharge device according to claim 12.

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