JP2004123394A - Paper size detection device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a paper size detection device capable of precisely detecting paper size even when a shock is applied on a tray. <P>SOLUTION: A gear 18 with a cam turns centered on a support point 17 in accordance with a travel position of a paper feeding direction paper guide moving in the direction 12 of paper feeding along a cam channel and a slit 13, and movable plates 101 move in the same direction by a tooth 102 provided at its one end. A plurality of detection switches 106 are arranged at positions opposing to the movable plates 101 to detect paper size by changing on/off patterns of them. The paper feeding direction paper guide 15 is securely fixed to a desired position by a grip 131 using a spring to prevent the occurrence of error for a shock. A stepwise shape of the cam channel 22 serves also for preventing the occurrence of an error in the direction 12 of paper feeding. <P>COPYRIGHT: (C)2004,JPO

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper size detection device used in an image processing apparatus such as a copier, a facsimile machine or a printer, and more particularly to a paper feed tray for storing paper by moving the paper in a direction perpendicular to the paper feed direction according to the paper size. The present invention relates to a sheet size detection device suitable for use in a paper size detection device.

(2) In image processing apparatuses such as copiers, facsimile machines, and printers, sheets of various sizes are often selectively used depending on the purpose of use. In such an apparatus, a dedicated cassette tray is often used for each paper size from the beginning, but various papers may be set and used in one tray each time. A manual tray is also a type of the latter tray. In such a tray on which various types of paper can be set, it is necessary to detect what size paper is currently set in the tray. For this reason, such trays are often provided with a paper size detecting device.

FIG. 6 shows an example of a paper feeding device using a conventional paper size detecting device. In this paper feeding device, a slit 13 cut in a paper feeding direction 12 in a tray main body 11, a width direction paper guide 14 movable in a direction orthogonal to the slit 13, and a slit 13 are provided. And a paper feed direction paper guide 15 movably disposed in the paper feed direction along the paper feed direction. To set the paper 16 of an arbitrary size on the tray main body 11, the paper guide 14 is moved in a direction perpendicular to the paper feeding direction 12 in accordance with the width direction of the paper 16, and the paper The paper feed direction paper guide 15 is moved in accordance with the paper feed direction.

In the tray main body 11, a cam gear 18 having a "Y" shape is rotatably disposed about a fulcrum 17. The cam gear 18 has teeth 19 carved over a predetermined length on one end surface corresponding to the lower end of the "Y" (the lower left end in the figure). Meshing with teeth. A cam groove 22 is formed on the side of the head of the cam-equipped gear 18 that branches into two so as to straddle those branch points. A pin 23 that penetrates both the groove of the cam groove 22 and the slit 13 is attached to the paper guide 15 in the paper feeding direction. That is, when the paper guide 15 in the paper feed direction is moved in the paper feed direction 12 or in the opposite direction, the pin 23 is moved while sliding on the cam groove 22, and the gear 18 with the cam is moved along with the fulcrum 17. Around the center. The spur gear 21 meshing with the teeth 19 will rotate its shaft 25 accordingly. The shaft 25 constitutes a part of a paper size detecting mechanism described below.

FIG. 7 shows a paper size detection mechanism. The paper size detecting mechanism is provided with a first disk switch 31 to a third disk switch 31 to 33 each having a disk shape and having a projection 29 at one position on a shaft 25 arranged in a direction perpendicular to the paper surface in FIG. The actuators of the first to third micro switches 34 to 36 are arranged at positions corresponding to the first to third disk switches 31 to 33, respectively. . The projections 29 of the first to third disk switches 31 to 33 are set at different rotation angles.

FIG. 8 is for explaining the detection operation of the corresponding second microswitch, taking the second disk switch as an example. When the paper guide 15 shown in FIG. 6 is moved in the paper feeding direction 12 or in the opposite direction, the gear 18 with cam (FIGS. 6 and 7) rotates and the spur gear 21 (FIGS. 6 and 7). Rotates with this, and the shaft 25 rotates. Thus, the second disk switch 32 shown in FIG. 8 also rotates together with the other disk switches 31, 33 (FIG. 7). The rotation angle at which the protrusion 29 of the second disk switch 32 moves the actuator 37 to operate the second micro switch 35 corresponds to the position where the paper feed direction paper guide 15 stops corresponding to the predetermined paper size. ing. Therefore, with the second micro switch 35 turned on, the paper size detection device can detect that a paper of the predetermined paper size is set. The protrusions 29 of the first and third disk switches 31 and 33 are also set to rotation angles corresponding to different paper sizes, respectively, and when paper of those paper sizes is set in the paper feeding device. , Will be detected.

In such a conventional paper size detecting device, it is necessary to design the paper size detecting mechanism shown in FIG. Therefore, it is necessary to reduce the size of each of the disk switches 31 to 33 and the projections 29 shown in FIG. 8, and there is a problem that a detection error of the microswitch 35 is large. That is, in the conventional paper size detection device, when the tray body 11 shown in FIG. 6 is pushed into an image processing device such as a copying machine (not shown) or pulled toward the front to replenish the paper, the vibration is caused by the vibration. There is a problem that a different paper size is detected.

Accordingly, it is an object of the present invention to provide a paper size detecting device capable of accurately detecting a paper size even when an impact is applied to a tray.

In the paper size detecting device according to the first aspect of the present invention, (a) a tray body for stacking and storing a plurality of sheets of an arbitrary size, and (b) a paper feeding direction of the paper housed in the tray body. A paper guide movably arranged in the paper feeding direction or the opposite direction so as to contact the rear end side, and (c) the movement of the paper guide is transmitted to the vicinity of the end of the tray body along the paper feeding direction. (E) a movable member having irregularities in the paper feeding direction and movable in the paper feeding direction or in the opposite direction in accordance with the movement of the paper guide transmitted by the transmitting means; Detecting means for detecting the size of the sheet stored in the tray body corresponding to the position of the movable member, facing the unevenness of the movable member; and Position corresponding to A section that moves then towards the position corresponding to the long paper size in the paper feeding direction, is characterized in that pause transmission.

That is, according to the first aspect of the present invention, when the paper guide for setting the position on the rear end side in the paper feeding direction is moved for paper setting in the paper feeding direction or the opposite direction, this is transmitted by the transmission means. The movement is transmitted as a movement in the paper feeding direction or in the opposite direction near the end of the tray body along the paper feeding direction. Then, the size of the sheet is detected by the detecting means using the movement of the movable member which has irregularities in the sheet feeding direction and is movable in the sheet feeding direction or in the opposite direction in accordance with the movement of the sheet guide. Here, the transmission unit pauses transmission in a section in which the paper guide moves from a position corresponding to one paper size to a position corresponding to the next longer paper size in the paper feeding direction. Even if the paper guide is set to a position slightly larger than the position corresponding to the size, or if the paper guide moves to such a position due to an impact, paper size detection is performed. There is an advantage that it can be performed accurately.

According to the second aspect of the present invention, in the paper size detecting device according to the first aspect, the transmitting unit is configured to position the paper guide corresponding to the next longer paper size in the paper feeding direction with respect to the position corresponding to one paper size. Immediately before the transmission.

In other words, according to the second aspect of the present invention, the transmitting means starts transmitting for the first time immediately before the position where the paper guide corresponds to one paper size and the position corresponding to the next longer paper size in the paper feeding direction. Therefore, even if the positioning is performed with the paper guide longer than the length of the paper in the paper feeding direction, the paper size is not erroneously detected as a larger size, and the paper size is detected. Can be performed accurately.

According to a third aspect of the present invention, there is provided a paper size detecting device, wherein (a) a tray body for stacking and storing a plurality of sheets of an arbitrary size, and (b) a paper feeding direction of the paper housed in the tray body. A paper guide movably arranged in the paper feeding direction or the opposite direction so as to contact the rear end side, and (c) the movement of the paper guide is transmitted to the vicinity of the end of the tray body along the paper feeding direction. (E) a movable member having irregularities in the paper feeding direction and movable in the paper feeding direction or in the opposite direction in accordance with the movement of the paper guide transmitted by the transmitting means; Detecting means for detecting the size of the sheet stored in the tray main body corresponding to the position of the movable member, facing the unevenness of the movable member; Position corresponding to In section then moves toward a paper feeding direction corresponding to the long paper size position, is characterized by having a linear cam groove of a predetermined length.

That is, in the invention according to claim 3, the transmission means is a section in which the paper guide moves from the position corresponding to one paper size to the position corresponding to the next longer paper size in the paper feeding direction, and Even if the paper guide is set to a position slightly larger than the position corresponding to the paper size, the provision of the cam-shaped grooves makes it possible to prevent the paper guide from being impacted. Therefore, even when the paper guide is moved to such a position, there is an advantage that the paper size can be accurately detected.

According to a fourth aspect of the present invention, in the paper size detecting device according to the third aspect, the transmitting unit is configured to direct the paper guide from a position corresponding to one paper size to a position corresponding to the next longer paper size in the paper feeding direction. In the section where the moving is performed, a linear cam groove is provided for each predetermined length.

In other words, according to the fourth aspect of the present invention, the transmission means is a section in which the sheet guide moves from a position corresponding to one sheet size to a position corresponding to the next longer sheet size in the sheet feeding direction, by a predetermined length. Because the paper guide has a straight cam groove, even if the paper guide is set loosely on the size side slightly larger than the location corresponding to the paper size, or if the paper feed direction paper Even when the guide moves, the paper size can be accurately detected.

As described above, according to the first aspect of the present invention, when the paper guide for setting the position on the rear end side in the paper feeding direction is moved for paper setting in the paper feeding direction or the opposite direction. This is transmitted by the transmission means as movement in the paper feeding direction or in the opposite direction near the end of the tray body along the paper feeding direction. Here, the transmission unit pauses transmission in a section in which the paper guide moves from a position corresponding to one paper size to a position corresponding to the next longer paper size in the paper feeding direction. Even if the paper guide is set to a position slightly larger than the position corresponding to the size, or if the paper guide moves to such a position due to an impact, paper size detection is performed. Can be done accurately.

According to the second aspect of the present invention, the transmission unit starts transmission for the first time immediately before the position where the paper guide corresponds to one paper size and the position corresponding to the next longer paper size in the paper feeding direction. Therefore, even if positioning is performed with the paper guide longer than the length of the paper in the paper feeding direction, the paper size is not erroneously detected as a one-step larger size, and Can be accurately detected.

According to the third aspect of the present invention, a linear cam having a predetermined length is provided in a section in which the paper guide moves from a position corresponding to one paper size to a position corresponding to the next longer paper size in the paper feeding direction. With the groove, even if the paper guide is set loosely on the size side slightly larger than the position corresponding to the paper size, or if the paper guide is moved to such a position by impact In this case, the paper size can be detected accurately.

According to the fourth aspect of the present invention, the transmission means is provided in a section in which the paper guide moves from a position corresponding to one paper size to a position corresponding to the next longer paper size in the paper feeding direction. Since the paper guide has a linear cam groove for each length, even if the paper guide is set loosely to a position slightly larger than the position corresponding to the paper size, or if the paper guide is set to such a position by impact, There is an advantage that the paper size can be accurately detected even when the paper moves.

The present invention will be described in detail below with reference to examples.

FIG. 1 shows a paper feeding device using a paper size detecting device according to an embodiment of the present invention. In the tray body 11, a cam gear 18 having a "Y" shape is rotatably arranged about a fulcrum 17. The cam-equipped gear 18 has teeth 19 carved over a predetermined length on one end surface corresponding to the lower end of the “Y” (the lower left end in the figure), and meshes with the teeth of the spur gear 102. I have. An elongated cam groove 22 is formed on the side of the head of the cam-equipped gear 18 that branches into two parts so as to straddle those branch points. A pin 23 that penetrates both the groove of the cam groove 22 and the slit 13 is attached to the paper guide 15 in the paper feeding direction. That is, when the paper guide 15 in the paper feeding direction is moved in the paper feeding direction 12 or in the opposite direction (the direction in which the tray main body 11 is inserted and removed), the pins 23 are moved in sliding contact with the cam grooves 22, and the gears with cams are moved. 18 rotates with the fulcrum 17 as a center.

The teeth 19 are engaged with the teeth 102 engraved on one side of the movable plate 101, and have a pinion-rack relationship. The movable plate 101 is movable in the sheet feeding direction 12 or in the opposite direction by a holding member (not shown). Therefore, when the cam gear 18 rotates about the fulcrum 17, the movable plate 101 also moves in the paper feeding direction 12 or the opposite direction. The movable plate 101 has a plurality of switch actuating pieces 104 arranged on the surface opposite to the surface on which the teeth 102 are engraved with a predetermined width and interval. Further, a plurality of detection switches 106 are arranged at predetermined intervals on the immovable member 105 at the tip of the tray facing the movable plate 101.

2 and 3 are for explaining the principle of detecting the paper size by moving the movable plate. In these figures, the movable plate 101 stops its movement at a predetermined position in the direction of the arrow 111 in accordance with the size of the paper accommodated in the tray main body 11 (FIG. 1). For example, when the movement stops at the position shown in FIG. 2, the second second detection switch 106 ₂ counted from the left in the figure is actuated by the third switch operating piece 104 ₃ . For example, when the movement stops at the position shown in FIG. 3, the second to fourth detection switches 106 _{2 to} 106 ₄ are depressed by the second and third switch operating pieces 104 ₂ , 104 ₃ . Actuated. As described above, one or more of the first to _fourth detection switches 106 _{1 to} 1064 are simultaneously turned on by the stop position of the movable plate 101, and the length of the sheet stored in the tray main body 11 in the paper feeding direction 12 is determined by the combination thereof. As a result, the paper size is detected. Moreover, since the actuating direction of the detection switches 106 ₁ to 106 ₄ coincides with the sheet feed direction 12, it can be reliably these detection operation using the stroke during mounting of the tray main body 11.

In the paper size detection device of the present embodiment, the paper size detection mechanism is disposed in the form of a sheet elongated in the paper feeding direction near the side plate of the tray, and the detection is performed in parallel by a plurality of detection switches. This improves the accuracy of detecting the paper size. In addition, in the paper size detecting device of the present embodiment, the occurrence of malfunction due to vibration when the tray main body 11 is moved in the paper feeding direction 12 or the opposite direction is prevented as much as possible. Therefore, these measures will be described.

FIG. 4 shows a sectional structure of a portion where the paper guide in the paper feeding direction is attached to the gear with cam. The slit 13 shown in FIG. 1 is cut in the tray bottom plate 121 for storing sheets. A pin 23 is inserted through the cam groove 22 from the lower surface of the cam-equipped gear 18 into the paper feed direction paper guide 15 arranged so as to be loosely fitted to the guide rails 122 arranged on both sides of the slit 13. ing.

FIG. 5 shows a mechanism for stopping the paper guide in the paper feeding direction with respect to the cam groove of the gear with cam. A knob 131 is attached to the side surface of the paper guide 15 in the paper feeding direction arranged above the gear 18 with cam. By pressing the compression spring (not shown) against the guide rail 122 shown in FIG. It is possible to move in the opposite direction. When the paper feed direction paper guide 15 stops at a desired position determined by the relationship with the paper size, the above-mentioned member presses against the guide rail 122 by removing the knob 131, and the paper feed direction paper guide 15 is moved in the paper feed direction. Will be blocked.

In this way, the paper guide 15 in the paper feeding direction can be prohibited from moving when the knob 131 is not being picked up, so that the gear 18 with the cam is not affected by the vibration when the tray body 11 (FIG. 1) is moved. Slight rotation can be reliably prevented, and erroneous detection of the paper size can be prevented.

Further, as shown in FIG. 5, the cam groove 22 is formed in a step-like shape having a predetermined length in the sheet feeding direction. This is to prevent the cam-equipped gear 18 from rotating around the fulcrum 17 even when the paper guide 15 in the paper feeding direction moves in the one linear portion. As a result, in the paper size detection device of the present embodiment, even if the pin 23 (FIG. 4) moves, for example, one linear portion 141, the detection of the paper size remains one type. Therefore, even if the operator fixes the tab 131 in a state where the paper feed direction paper guide 15 is not properly touched to the end of the paper 16 when setting the paper size, that is, the paper feed direction paper guide 15 Even when the positioning is performed in a state where the paper 16 is longer than the length in the paper feeding direction 12, the paper size is not erroneously detected as "one step larger size". This has the advantage of preventing the image processing apparatus from forming an image as a sheet larger than the sheet size actually set.

In the guide rail 122, locking grooves are arranged at positions corresponding to the respective paper sizes, and by operating the knob 131, a locking piece (not shown) interlocked with this is locked to this. The movement in the sheet feeding direction 12 or the opposite direction may be prevented, or the engagement with the engagement groove may be released to enable the movement in these directions. Further, in the embodiment has been a mechanical detection switch each switch of the first to fourth detection switches 106 ₁ to 106 _4, of course it may be a switch for detecting optically or magnetically .

In the embodiment, the switch operating piece 104 is attached to the movable plate 101, and the switch 106 actuated by the switch operating piece 104 is disposed at a fixed position facing the movable plate 101. It is obvious that the switch 106 may be arranged at the fixed position and the switch operating piece 104 may be arranged at the fixed position. Further, it is natural that a plurality of switch operating pieces 104 and switches 106 may be arranged as in the embodiment, or only one of them may be arranged in plural.

FIG. 2 is a partially cutaway plan view showing a sheet feeding device using the sheet size detecting device according to the embodiment of the present invention. FIG. 7 is a side view illustrating a detection state of a sheet size at a movement position of a movable plate. FIG. 9 is a side view illustrating a detection state of a sheet size at another moving position of the movable plate. FIG. 3 is a cross-sectional view illustrating a cross-sectional structure of a portion where a paper guide in a paper feeding direction is attached to a gear with a cam. FIG. 4 is a plan view showing a stop mechanism of a paper guide in a paper feeding direction with respect to a cam groove of a gear with a cam. FIG. 10 is a plan view of a paper feed device using a conventional paper size detection device, with a part thereof cut away. FIG. 7 is a side view illustrating a guide rail paper size detection mechanism used in the paper size detection device of FIG. 6. It is the top view which showed the detection operation of the 2nd micro switch by the 2nd disk switch.

Explanation of reference numerals

11 tray main body 12 paper feeding direction 13 slit 15 paper feeding direction paper guide 16 paper 17 fulcrum 18 gear with cam 22 cam groove 23 pin 101 movable plate 102 tooth 104 switch operating piece 106 detection switch 122 guide rail 131 knob

Claims (4)

A tray body for stacking and storing a plurality of sheets of any size,
A paper guide movably disposed in the paper feeding direction or the opposite direction so as to abut on the rear end side of the paper stored in the tray body in the paper feeding direction,
Transmitting means for transmitting the movement of the paper guide to the vicinity of the end of the tray body along the paper feeding direction;
A movable member having irregularities in the paper feeding direction, and being movable in the paper feeding direction or in the opposite direction according to the movement of the paper guide transmitted by the transmission means,
Detecting means for detecting the size of the paper accommodated in the tray body corresponding to the position of the movable member facing the unevenness of the movable member,
The sheet size is characterized in that transmission is paused in a section where the sheet guide moves from a position corresponding to one sheet size to a position corresponding to the next longer sheet size in the sheet feeding direction. Detection device. 2. The transmission device according to claim 1, wherein the transmission unit starts transmission immediately before a position corresponding to the next longer paper size in the paper feeding direction with respect to a position where the paper guide corresponds to one paper size. Paper size detection device. A tray body for stacking and storing a plurality of sheets of any size,
A paper guide movably disposed in the paper feeding direction or the opposite direction so as to abut on the rear end side of the paper stored in the tray body in the paper feeding direction,
Transmitting means for transmitting the movement of the paper guide to the vicinity of the end of the tray body along the paper feeding direction;
A movable member having irregularities in the paper feeding direction, and being movable in the paper feeding direction or in the opposite direction according to the movement of the paper guide transmitted by the transmission means,
Detecting means for detecting the size of the paper accommodated in the tray body corresponding to the position of the movable member facing the unevenness of the movable member,
The transmission means may have a linear cam groove having a predetermined length in a section in which the paper guide moves from a position corresponding to one paper size to a position corresponding to the next longer paper size in the paper feeding direction. Characteristic paper size detection device. The transmission means may have a linear cam groove for a predetermined length in a section in which the paper guide moves from a position corresponding to one paper size to a position corresponding to the next longer paper size in the paper feeding direction. 4. The paper size detecting device according to claim 3, wherein:

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