This application is based on Japanese Patent Application No. 2005-358716 filed on Dec. 13, 2005, which is incorporated hereinto by reference.
The present invention relates to an image forming apparatus including a single machine function of a printer, a copying machine or facsimile machine, or multi-function thereof, an image forming method, and a sheet material conveyance device used therein, particularly to the art of improving the productivity by correcting the curl of the sheet material with an image formed thereon, and contributing to formation of great quantities of images by increasing the conveying speed.
When a sheet material on which an image has been formed passes through the fixing unit of an image forming apparatus, the sheet material will be curled during the passage through the fixing unit. One of the conventional ways of correcting the curl uses a curl correcting member, wherein the sheet material is conveyed by turning the belt with a conveying roller, and to pressing the sheet material conveyed by the belt in one direction using a rotatable pressing roller, whereby the sheet material is interposed and uncurled. If this procedure fails to correct the curl, the direction of conveyance is switched and the surface of the sheet material pressed by the pressing roller is changed. Then the sheet material is again passed through the curl correction device, whereby the sheet is uncurled (Patent Document 1, i.e., Official Gazette of Japanese Patent Tokkaihei 10-114454).
According to another conventional way of correcting the curl, a sheet material is interposed between a conveying member and a curling member during the conveyance wherein the ends of the sheet material are held. In this state, the conveyance speed of sheet material is reduced, and the sheet is uncurled (Patent Document 2, i.e., Official Gazette of Japanese Patent Tokkaihei 11-193160).
Separately from the aforementioned conventional art, it is required to increase the conveying speed and to improve productivity. When these requirements are to be met by the conventional image forming apparatus, it will be necessary to increase the conveying speed using a curl correcting mechanism and to install another conveyance mechanism on the downstream side thereof. When the art of the Patent Document 1, for example, is used to meet the former requirement, the sheet material is interposed (pressed). When this pressure has reached a predetermined level, the conveying speed is increased. This procedure allows a curl to remain on the trailing edge of the sheet material. To meet the latter requirement, the size of the apparatus has to be increased by the addition of another conveyance mechanism. These problems remain unsolved when the aforementioned requirements are to be met.
The object of the present invention is to provide the technology of reducing the curl and improving the productivity by ensuring that the conveying speed and the pressure for curl correction can be changed while a curl is corrected by a curl correcting mechanism.
The following structures are provided to achieve the aforementioned object.
(1) An image forming apparatus includes: an image forming section for forming an image on a sheet material; and a curl correcting mechanism for interposing and conveying the aforementioned sheet material on which an image is formed by the aforementioned image forming section, wherein the sheet material interposing pressure and conveying speed can be changed; wherein the curl correcting mechanism conveys the sheet material by changing the aforementioned conveying speed from the initial speed vs to the target speed vo (vo>vs) while the aforementioned sheet material is pressed, and changing the aforementioned pressure to a high pressure in response to the speed change, whereby the curl of the aforementioned sheet material is reduced.
(2) An image forming apparatus includes: an image forming section for forming an image on a sheet material; a curl correcting mechanism for interposing and conveying the aforementioned sheet material on which an image is formed by the aforementioned image forming section, wherein the pressure applied to one surface of the sheet material during the interposing operation and conveying speed can be changed; a timing detection section for detecting the timing when the sheet material with an image formed thereon is interposed by the aforementioned curl correcting mechanism, and for outputting the timing signal for changing the aforementioned conveying speed; and a controller for providing control in such a way that, upon receipt of the aforementioned timing signal, the aforementioned curl correcting mechanism changes the conveying speed from the initial speed vs to a higher speed as the target speed vo (vo>vs) and increases the aforementioned pressure in response to the new conveying speed.
(3) An image forming apparatus includes: an image forming section for forming an image on a sheet material; a first curl correcting mechanism for interposing and conveying the aforementioned sheet material on which an image is formed by the aforementioned image forming section, wherein the pressure applied to one surface of the sheet material and the conveying speed can be changed; and a second curl correcting mechanism, located downstream of the aforementioned first curl correcting mechanism, for interposing and conveying the aforementioned sheet material, wherein the pressure is applied to other surface opposite to the aforementioned one surface of the sheet material, and the conveying speed can be changed; wherein the aforementioned first curl correcting mechanism changes the aforementioned conveying speed from the initial speed vs to a higher speed as the medium speed vm (vm>vs) while pressing the sheet material; and the aforementioned second curl correcting mechanism changes the aforementioned conveying speed from the aforementioned medium speed vm to a higher speed as the target speed vo (vo>vm) while pressing the sheet material, whereby the curl of the aforementioned sheet material is reduced.
(4) An image forming apparatus includes: an image forming section for forming an image on a sheet material; a conveyance path for conveying the sheet material with an image formed thereon by the aforementioned image forming section, a first curl correcting mechanism, located on the aforementioned conveyance path, provided with a first belt conveying mechanism; and a first roller member for applying pressure to one side of the sheet material being conveyed, in the direction of engagement with the first belt of the aforementioned first belt conveying mechanism; wherein the conveying speed can be changed by driving either the aforementioned first belt conveying mechanism or the first roller member; a second the curl correcting mechanism which receives the sheet material outputted from the first curl correcting mechanism and is provided with a second belt conveying mechanism, and a second roller member for applying pressure to the side opposite to the aforementioned surface of the aforementioned sheet material being conveyed, in the direction of engagement with the second belt of the aforementioned second belt mechanism; wherein the conveying speed can be changed by driving either the aforementioned second belt conveying mechanism or the second roller member; a timing detection section for outputting the first timing signal showing the timing when the sheet material with an image formed thereon is interposed by the first belt and the first roller member, and the second timing signal showing the timing when the sheet material with an image formed thereon is interposed by the second belt and the second roller member; a first speed control section which, upon receipt of the first timing signal, controls the aforementioned first curl correcting mechanism to change the conveying speed from the initial speed vs to the medium speed vm (vm>vs); and a second speed control section which, upon receipt of the second timing signal, controls the second curl correcting mechanism to change the conveying speed from the aforementioned medium speed vm to target speed vo (vo>vm).
(5) An image forming apparatus includes: an image forming section for forming an image on a sheet material; a returning conveyance path for reversing the sheet material with an image formed on one surface thereof by the aforementioned image forming section, and for conveying it back to the aforementioned image forming section so as to print on the rear surface; a curl correcting mechanism on the returning side, located on the aforementioned returning conveyance path, for interposing and rotating the sheet material having an image formed on the aforementioned one surface, and for conveying it by applying a predetermined interposing pressure; a curl correcting mechanism which, upon receipt of the sheet material with images formed on both surfaces by the aforementioned image forming section, sandwiches, rotates and conveys the aforementioned sheet material, wherein pressure applied to the sheet material during an interposing operation and a conveying speed of the sheet material can be changed, and the curl correcting mechanism changes the aforementioned conveying speed from the initial speed vs to the target speed vo (vo>vs) while the aforementioned sheet material is pressed, and increases the pressure in conformity to the new speed, wherein the interposing pressure and the conveying speed can be changed.
(6) A sheet material conveying device includes: a conveyance mechanism for elastic interposing the sheet material with an image formed thereon; a roller member for pressing one surface of the aforementioned sheet material conveyed at the first speed against the aforementioned conveyance mechanism and interposing the sheet material, a curl correcting mechanism for driving the aforementioned conveyance mechanism or roller member in such a way that the conveying speed can be changed; wherein the aforementioned conveying speed is changed from the first speed to the second faster than the first speed while pressure is applied to the aforementioned sheet material, and the sheet material is conveyed.
Referring to
The following describes the schematic arrangement of the embodiment of the image forming apparatus with reference to
In this case, the transfer sheet is generally conveyed from the image forming section 100 to the sheet material conveying section 200 along the conveyance path at a predetermined conveying speed. When the transfer sheet is fed to the finishing section 300 from the sheet material conveying section 200 along the conveyance path, it is preferably fed at a speed higher than the aforementioned specified speed because a higher efficiency is ensured when there is a large amount of printing work to be handled. The following describes the embodiment that allows the conveying speed to be increased while correcting the curl.
The following describes the case where one curl correcting mechanism is used (the first embodiment) and the case where two curl correcting mechanisms are used (the second embodiment). Before that, the mechanism common to both embodiments such as the curl correcting mechanism will be described first.
(A) Mechanism and related components: Description of the mechanism of each of the sheet material conveying section and curl correcting mechanism.
This will be described with reference to
(B) First embodiment: One curl correcting mechanism.
The function structure diagram of
(C) Second embodiment: Two curl correcting mechanism.
The function structure diagram of
(D) Application example:
(A: Mechanism of Each of the Sheet Material Conveying Section and Curl Correcting Mechanism) (A1: Example of Using Two Curl Correcting Mechanisms)
Referring to
In
The first curl correcting mechanism 10ais constituted by: a belt 3a(endless belt); a conveying roller 1a (indicating the conveyance mechanism or belt conveying mechanism using the belt 3aand conveying roller 1a, as described in claims) composed of a pair of rotating rollers for rotating the belt; and a pressing roller 4awhich moves in the direction of engagement with the belt 3ato press one of the surfaces of the transfer sheet to be held in-between with the aid of the belt 3aand to squeeze the transfer sheet, wherein this pressing roller 4arotates. To convey the transfer sheet, either the pressing roller 4aor conveying roller 1ais driven by a motor (not illustrated). Then the other is also rotated. The explanation in this case assumes that the pressing roller 4ais driven and rotated. The pressure for pressing the transfer sheet can be adjusted by moving the pressing roller 4ato the side of the conveying roller 1a. Further, the conveying speed can be adjusted by changing the speed of the motor for driving the pressing roller 4a.
The second conveyance mechanism 60 conveys the transfer sheet from the first curl correcting mechanism 10ato the second curl correcting mechanism 10b through the second conveyance path 30.
The second curl correcting mechanism 10b can be designed to have the same structure as that of the first curl correcting mechanism 10a. The same numbers indicate the same function, although there is a difference between “a” and “b”; provided, however, that the second curl correcting mechanism 10b is located opposite to the first curl correcting mechanism 10awith the second conveyance path located in-between (they are located on the right and left opposite to each other). Namely, the first curl correcting mechanism 10a is arranged in such a way that the surface of the transfer sheet is pressed by the pressing roller 4aagainst the side engaged with the belt 3b; whereas the second curl correcting mechanism 10b is arranged in such a way that the rear surface of the transfer sheet is pressed in the direction of engagement with the belt 3b by the pressing roller 4b. It should be noted that the pressure and conveying speed can be changed as in the case of the pressing roller 4b and pressing roller 4a.
When the direction of the transfer sheet surface cannot be changed between the first curl correcting mechanism 10a and second curl correcting mechanism 10b, namely, along the second conveyance path 30, the first curl correcting mechanism 10aand second curl correcting mechanism 10b may be arranged on the same side of the second conveyance path 30.
The third conveyance mechanism 70 ensures that the transfer sheet having been outputted from the second curl correcting mechanism 10b to the third conveyance path 40 is conveyed from the outlet to the finishing section 300 and is outputted.
In the example wherein the first curl correcting mechanism 10aand the second curl correcting mechanism 10b are operated simultaneously, the conveying speed is changed from the initial speed vs to the medium speed vm (vm>vs) in the first curl correcting mechanism 10awhile it is holding (or applying pressure to) the transfer sheet. In the second the curl correcting mechanism 10b, the conveying speed is from the medium speed vm to the target speed vo (vo>vm) while it is holding the transfer sheet, (wherein target speed can be defined as the speed at which the finishing section 300, for example, receives the transfer sheet). The target speed vo is set in two phases. The timing of arrival is detected by the timing detection section 6 of
In this case, however, the pressure when the transfer sheet is interposing by the first curl correcting mechanism 10aand the second curl correcting mechanism 10b is constant for the time. Further, the first curl correcting mechanism 10areverses the curl of the transfer sheet having been conveyed. The transfer sheet provided with reversed curl is fed to the second curl correcting mechanism 10b, and the second curl correcting mechanism 10b finally corrects the curl (reversed curl) of the transfer sheet. (Details will be described later with reference to the second embodiment).
(A2: Example of Using Only One Curl Correcting Mechanism)
This is the case where only the first curl correcting mechanism 10ais enabled (wherein the second the curl correcting mechanism 10b is disabled). In this case, only one curl correcting mechanism is available, so only the first curl correcting mechanism 10aof
To be more specific, the conveying speed is changed from the initial speed vs to the target speed vo (vo>vs) (set to vo in one step) in such a way that the pressure is also increased in proportion. The timing of the arrival is detected by the timing detection section 6 of
(A3: Variation of the Curl Correcting Mechanism)
Each of the curl correcting mechanisms of
In
Such being the case, the following arrangement can also be adopted. Each of the conveying rollers 1aand 1b is constituted by one (or two) rotating roller(s). The circumferential portion of the rotating roller interposing the transfer sheet is made of an elastic member such as a sponge. The metallic pressing rollers 4aand 4b holding the transfer sheet in-between are pressed toward the elastic member, which is then conveyed (not illustrated).
(B: First Embodiment: Only One Curl Correcting Mechanism of
The following describes the case wherein, based on the functional structure of
When the timing detection section 6 of
The speed control section 71astores in advance the conveying speed of the transfer sheet when it passes through the first conveyance path from the image forming section 100 (this speed may be determined by the image forming section 100; hereinafter referred to as “initial speed vs”); and the conveying speed for conveying the sheet to the finishing section 300 through the second conveyance path 30 and the third conveyance path 40 (this speed may be determined by the finishing section 300; hereinafter referred to as “target speed vo”). For example, the timing signal is received at time t2. Then the timing and the amount of control for increasing the conveying speed from the initial speed vs to the target speed vo upon receipt of this signal are sent to the conveyance and drive section 2a. The conveyance and drive section 2ais made of a motor for driving the pressing roller 4a, for example. It increases the rotation speed by the amount of control specified at time t2. As a result, the pressing roller 4aconveys the transfer sheet at the target speed vo. Based on the information of the relationship between the rotation speed and conveying speed (so-called linear speed in contrast to the rotation speed), the speed control section 71aobtains the amount of control by computation (the amount of control equivalent to vo−vs).
As indicated by
The conveying speed of the transfer sheet in
(C: Second Embodiment: Example of Using Both of the Curl Correcting Mechanisms in
The following describes the art of using two curl correcting mechanisms to correct the curl based on the functional structure of
One timing detection section 6 of FIG, 5 is located at the inlet through which the transfer sheet enters the first curl correcting mechanism 10a (See
The speed control section 71astores in advance the initial speed vs an the medium speed vm of the transfer sheet passing through the first conveyance path 20 from the image forming apparatus 100. Interposing of the transfer sheet starts at time t1. After that, the timing signal is received at time t2. Upon receipt of this timing signal, the timing and the amount of control (the amount of control corresponding to vm−vs) for increasing the conveying speed from the initial speed vs to the medium speed vm are sent to the conveyance and drive section 2a. The conveyance and drive section 2aprovides control by the amount of control specified at time t2, and increases the rotation speed of the pressing roller 4a. As a result, the pressing roller 4a conveys the transfer sheet at the medium speed vm (See
The speed control section 71b stores in advance the medium speed vm and target speed vo of the transfer sheet conveyed along the second conveyance path 30. Interposing of the transfer sheet starts at time t4. After that, the timing signal is received at time t5. Upon receipt of this timing signal, the timing and the amount of control (the amount of control corresponding to vm−vs) for increasing the conveying speed from the medium speed vm to the target speed vo are sent to the conveyance and drive section 2b. The conveyance and drive section 2b provides control by the amount of control specified at time t5, and increases the rotation speed of the pressing roller 4b. As a result, the pressing roller 4b conveys the transfer sheet at the target speed vo (See
In terms of numerical values, the conveying speeds can be given as the initial speed vs=100 mm/s (linear speed), the medium speed vm=300 mm/s (linear speed) and target speed vo=900 mm/s (linear speed), for example. The first speed described in claims corresponds to the initial speed vs (or the medium speed vm), and the second speed described in claims corresponds to either the medium speed vm or target speed vo.
Each of the pressure control sections 72aand 72b controls the pressing and driving sections 5aand 5b in such a way that a predetermined pressure is applied with reference to time, independently of the timing (
As described above with reference to the conventional art, if the conveying speed is high, the curl of the trailing edge in the direction of conveyance of the transfer sheet tends to remain without being corrected. To solve this problem, the following measures are taken. The conveying speed of the second curl correcting mechanism 10b is higher than that of the first curl correcting mechanism 10a. Accordingly, the pressure of the first curl correcting mechanism 10ais adjusted to ensure that the curl of the leading edge of the transfer sheet reaching the second curl correcting mechanism 10b will be strong, and the curl of the trailing edge will be weak, as shown in the enlarged view of
The transfer sheet conveyance speed of
(C1: Variation of
(D: Example of Using the First Embodiment)
(1) When the document has arrived, the first conveyance path change section 400 sends the document to the image forming section 100, and an image is formed on one of the surfaces of the transfer sheet (front surface).
(2) The second conveyance path change section 500 feeds the transfer sheet coming from the image forming section 100, to the first curl correcting mechanism 10alocated on the side of the returning route 700 (returning conveyance path), according to the instruction of two-sided printing, wherein the sheet is uncurled. It should be noted that, unlike the case of
(3) In response to the instruction of two-sided printing, the first conveyance path change section 400 reverses the surface of the transfer sheet having received from the first curl correcting mechanism 10a, and sends it to the image forming section 100, whereby an image is formed on the rear surface.
(4) The second conveyance path change section 50 receives the transfer sheet on the rear surface of which an image has already been formed by the image forming section 100, and sends it to the first curl correcting mechanism 10a located on the side of the main route 600, wherein the sheet is uncurled and outputted. The conveying speed and pressure of the first curl correcting mechanism 10a in this case are changed according to the procedure described with reference to
In the example shown in
The second conveyance path change section 500 may be included in the composition of the main route 600 and returning route 700 shown in
According to the aforementioned application examples, an image is formed on the rear surface after the curl produced subsequent to fixing of the image on the surface has been corrected. This arrangement minimizes deviations in dimensions caused by curling.
The controllers 7aand 7b in each of the aforementioned embodiments can be constructed of a CPU and a memory storing the program for allowing the CPU to execute the aforementioned processing functions.
The present embodiment increases the sheet material conveying speed and the pressure to the sheet material for uncurling, during the correction by a curl correcting mechanism. This arrangement corrects the curl of the sheet material and improves the productivity (conveying speed) at the same time.
In the two-sided printing mode wherein the sheet material having an image formed on one of the surfaces thereof is sent back to the image forming section and an image is then formed on the other surface, the curl is first corrected by a correcting mechanism along the returning conveyance path, and an image is then formed on the other surface. This structure reduces the image deviation resulting from curling at the time of image formation on the other surface.
Number | Date | Country | Kind |
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2005-358716 | Dec 2005 | JP | national |
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5202737 | Hollar | Apr 1993 | A |
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5414503 | Siegel et al. | May 1995 | A |
6199859 | Schauer et al. | Mar 2001 | B1 |
6965750 | Muratani | Nov 2005 | B2 |
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0 807 862 | Nov 1997 | EP |
59-108641 | Jun 1984 | JP |
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9-301599 | Nov 1997 | JP |
10-114454 | May 1998 | JP |
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Number | Date | Country | |
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20070132174 A1 | Jun 2007 | US |