JP7318786B2 - Image forming apparatus, information processing method and program for recording medium - Google Patents

Description

The present invention relates to an image forming apparatus such as a copier, a printer, or a multifunctional digital multi-function peripheral called an MFP, an information processing method for a recording medium, and a program.

As an image forming apparatus, a user sets the attributes (type, etc.) of a recording medium such as a sheet on which an image is formed from an operation panel, etc., and based on this setting, images are formed under optimal image forming conditions for the recording medium. It has been known.

Further, recently, an image forming apparatus has been provided that automatically determines the physical properties of a recording medium using an optical sensor or the like.

Further, Japanese Patent Application Laid-Open No. 2002-100003 discloses a first mode in which image forming conditions of an image forming unit are set according to information for determining the type of recording medium obtained based on information detected by a detection sensor, and a first mode in which the image forming conditions are set in advance. In an image forming apparatus capable of switching to a second mode for setting the image forming conditions of the image forming unit according to the type of recording medium, even if the type of recording medium is specified in advance in the second mode, the detection operation is not performed. At possible timing, the type determination parameter is detected for the recording medium that is temporarily stopped before being conveyed to the image forming unit, and information for determining the type of the recording medium is stored in the storage unit. An image forming apparatus is disclosed that sets image forming conditions according to information for determining the type of recording medium in a mode when information for determining the type of recording medium is stored in a storage unit.

Japanese Patent Application Laid-Open No. 2002-200002 detects the media characteristics of a recording material being conveyed to an image forming unit, and detects the detected first media characteristics of the recording material being conveyed and the information obtained at the time of the previous image formation stored in a RAM. When the recording material differs from the second media characteristics and the image forming conditions according to the first media characteristics and the image forming conditions according to the second media characteristics are different, the image forming process is interrupted; discloses an image forming apparatus that prompts a user to input media characteristics through an input means after interruption and resumes image forming operations under image forming conditions corresponding to the input media characteristics.

Japanese Patent No. 05435984 JP 2018-106112 A

However, the attribute of the recording medium set in the image forming apparatus by the user's input is not always correct. If image formation is forcibly performed under these image formation conditions, problems such as so-called jams in which the recording medium is jammed on the conveying path may occur. If such a problem occurs, the serviceman will respond as necessary, but it is not possible to identify the cause because it is unknown how it was used, so it is difficult to propose an improvement plan. can't Therefore, there is a need for a technique that contributes to identifying the cause of the failure, but the techniques described in Patent Documents 1 and 2 cannot satisfy such a request.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an image forming apparatus, an information processing method for a recording medium, and a program that can contribute to identifying the cause of troubles such as jams. .

The above objects are achieved by the following means.
(1) receiving means for receiving setting of the type of recording medium by the user;
detection means for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the setting of the type is received by the receiving means, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; a storage means for storing at least two pieces of information from
with
The detecting means detects a recording medium whose type is not set by the user in a first detection mode, and detects a recording medium whose type setting is received by the receiving means in the first detection mode. in a different second detection mode,
The image forming apparatus, wherein the detection time is shorter in the second detection mode than in the first detection mode.
(2) receiving means for receiving a setting of the type of recording medium by the user;
detection means for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the setting of the type is received by the receiving means, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; a storage means for storing at least two pieces of information from
with
The detecting means detects a recording medium whose type is not set by the user in a first detection mode, and detects a recording medium whose type setting is received by the receiving means in the first detection mode. in a different second detection mode,
The image forming apparatus, wherein the first detection mode has higher parameter detection accuracy than the second detection mode.
(3) receiving means for receiving setting of the type of recording medium by the user;
detection means for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the setting of the type is received by the receiving means, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; a storage means for storing at least two pieces of information from
with
The detecting means detects a recording medium whose type is not set by the user in a first detection mode, and detects a recording medium whose type setting is received by the receiving means in the first detection mode. in a different second detection mode,
The detection range of parameters for the recording medium by the detection means is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. An image forming apparatus characterized by:
(4) The image forming apparatus according to any one of the preceding items 1 to 3, wherein the accumulation means associates and accumulates a plurality of pieces of information to be accumulated.
(5) The image forming apparatus according to any one of (1) to (3) above, wherein the accumulation means also accumulates trouble information that has occurred in the image forming apparatus.
(6) The information about the type includes image information about the presence or absence of an image on the surface of the recording medium, transmittance information, reflectance information, stiffness information, thickness information, basis weight information, size information, eye direction information, color information, At least one of moisture information, smoothness information, resistance information, friction information, recording medium configuration information and print information is included,
The configuration information of the recording medium includes at least one of pulp, coat, fluorescent agent, filler, and coloring material, and the print information includes the brand of the recording medium, environmental information, paper feed port information, and image formation. 4. The image forming apparatus according to any one of items 1 to 3, wherein at least one of the information is included.
(7) the detection means includes a light source and a light receiving sensor capable of receiving transmitted light and/or reflected light of the light emitted from the light source onto the recording medium;
Detecting at least one of transmittance, reflectance, basis weight, thickness, color, smoothness, and constituent elements of a recording medium based on the transmitted light and/or the reflected light received by the light receiving sensor. 4. The image forming apparatus according to any one of 1 to 3 above.
(8) analysis means for analyzing the possibility of failure occurrence based on the information accumulated in the accumulation means;
notification means for notifying the user of the possibility of occurrence of the problem analyzed by the analysis means;
4. The image forming apparatus according to any one of the preceding items 1 to 3, comprising:
(9) Any one of the preceding items 1 to 3, wherein the setting of the type of recording medium by the user is performed by an external print instruction means, and the reception means receives the setting made by the print instruction means via a network. The described image forming apparatus.
(10) The image forming apparatus according to (2) or (3) above, wherein the detection time in the second detection mode is shorter than that in the first detection mode.
(11) An image forming means for forming an image on the recording medium is provided, and the image forming means forms an image on the recording medium for which the type setting is received by the receiving means without reflecting the determination result in the image forming process. 4. The image forming apparatus according to any one of the preceding items 1 to 3.
(12) An image forming means for forming an image on the recording medium is provided, and the image forming means receives the setting of the type of the recording medium when the analysis means analyzes that there is a possibility that a problem may occur. 9. The image forming apparatus according to the preceding item 8, wherein the image forming condition is switched to the image forming condition corresponding to the discriminated type.
(13) The image forming apparatus according to (1) or (3) above, wherein the first detection mode has higher parameter detection accuracy than the second detection mode.
(14) The detection range of parameters for the recording medium by the detection means differs between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are different from those in the second detection mode. 3. The image forming apparatus according to the preceding item 1 or 2, which is equivalent or higher.
(15) The image forming apparatus according to (3) above, wherein the second detection mode has a wider detection range than the first detection mode.
(16) The image according to any one of the preceding items 1 to 3, further comprising image forming means for forming an image on the recording medium, wherein the image forming means is capable of printing information accumulated in the accumulating means on the recording medium. forming device.
(17) The image forming apparatus according to any one of (1) to (3) above, wherein the information accumulated in the accumulation means can be transmitted to a display device connected via a network.
(18) The image forming apparatus according to any one of (1) to (3) above, wherein the information accumulated in the accumulation means can be displayed on display means of the apparatus itself.
(19) The image forming apparatus according to any one of (1) to (3) above, wherein information accumulated in the accumulation means can be output to a storage medium externally attached to the apparatus.
(20) The image forming apparatus according to any one of (1) to (3) above, wherein the information accumulated in the accumulation means can be output by an audio output device.
(21) learning means for learning information accumulated in the accumulation means;
4. The image forming apparatus according to any one of the preceding items 1 to 3, wherein the learning means interrupts image formation and/or notifies a warning by a notification means based on the learning result.
(22) The image forming apparatus according to any one of (1) to (3) above, wherein the information stored in the storage means is classified for each combination, and the frequency is digitized and stored.
(23) The image forming apparatus according to (22) above, wherein the original information whose frequency is digitized is deleted.
(24) The image forming apparatus according to (22) above, wherein characteristic data representative for each classification is saved, and similar data is saved by number of times.
(25) When the amount of stored information reaches the storage capacity of the storage means, the information on the first recording medium after insertion/removal of the recording medium supply cassette is retained, and the other information is deleted. 4. The image forming apparatus according to any one of 1 to 3.
(26) The image forming apparatus according to any one of (1) to (3) above, wherein when the amount of stored information reaches the storage capacity of the storage means, only the information in which the problem occurs is retained and other information is deleted. .
(27) The image forming apparatus according to (21) above, wherein the learning means notifies the user when the same trouble occurs a plurality of times.
(28) learning means for learning information accumulated in the accumulation means;
4. The image forming apparatus according to any one of the preceding items 1 to 3, wherein the learning result by the learning means is reflected in the image forming process by the image forming means.
(29) learning means for learning information accumulated in the accumulation means;
4. The image forming apparatus according to any one of the preceding items 1 to 3, wherein the learning result by the learning means is transmitted to an external server.
(30) learning means for learning information accumulated in the accumulation means;
4. The image forming apparatus according to any one of items 1 to 3, wherein the learning result by the learning means is shared with other image forming apparatuses.
(31) The image forming apparatus according to any one of (1) to (3) above, wherein the accumulation means is built in the apparatus itself.
(32) The image forming apparatus according to any one of (1) to (3) above, wherein the accumulation means is an external storage device externally attached to the apparatus.
(33) detection means for detecting the physical properties of the recording medium;
an image forming means for forming an image on the recording medium;
Accumulation for accumulating at least two pieces of setting information set regarding the recording medium, detection information of the recording medium detected by the detection means, and information regarding match/disagreement between the setting information and the detection information. means and
with
The detection means detects a recording medium for which no settings have been made in a first detection mode, and detects a recording medium for which settings have been made in a second detection mode different from the first detection mode,
The image forming apparatus, wherein the detection time is shorter in the second detection mode than in the first detection mode.
(34) detection means for detecting physical properties of a recording medium;
an image forming means for forming an image on the recording medium;
Accumulation for accumulating at least two pieces of setting information set regarding the recording medium, detection information of the recording medium detected by the detection means, and information regarding match/disagreement between the setting information and the detection information. means and
with
The detection means detects a recording medium for which no settings have been made in a first detection mode, and detects a recording medium for which settings have been made in a second detection mode different from the first detection mode,
The image forming apparatus, wherein the first detection mode has higher parameter detection accuracy than the second detection mode.
(35) detection means for detecting physical properties of the recording medium;
an image forming means for forming an image on the recording medium;
Accumulation for accumulating at least two pieces of setting information set regarding the recording medium, detection information of the recording medium detected by the detection means, and information regarding match/disagreement between the setting information and the detection information. means and
with
The detection means detects a recording medium for which no settings have been made in a first detection mode, and detects a recording medium for which settings have been made in a second detection mode different from the first detection mode,
The detection range of parameters for the recording medium by the detection means is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. An image forming apparatus characterized by:
(36) The image forming apparatus according to (35) above, wherein the second detection mode has a wider detection range than the first detection mode.
( 37 ) a receiving step of receiving the setting of the recording medium type by the user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. in a different second detection mode,
A recording medium information processing method, wherein the detection time in the second detection mode is shorter than that in the first detection mode.
( 38 ) a receiving step of receiving the setting of the recording medium type by the user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. in a different second detection mode,
An information processing method for a recording medium, wherein the first detection mode has higher parameter detection accuracy than the second detection mode.
( 39 ) a receiving step of receiving the setting of the type of recording medium by the user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. in a different second detection mode,
The detection range of parameters for the recording medium in the detection step is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. An information processing method for a recording medium, characterized by:
( 40 ) The information processing method for a recording medium according to ( 39) above, wherein the second detection mode has a wider detection range than the first detection mode.
( 41 ) a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the image forming apparatus, and
In the detection step, detection of a recording medium for which settings have not been made is performed in a first detection mode, and detection of a recording medium for which settings have been made is performed in a second detection mode different from the first detection mode,
A recording medium information processing method, wherein the detection time in the second detection mode is shorter than that in the first detection mode.
( 42 ) a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the image forming apparatus, and
In the detection step, detection of a recording medium for which settings have not been made is performed in a first detection mode, and detection of a recording medium for which settings have been made is performed in a second detection mode different from the first detection mode,
An information processing method for a recording medium, wherein the first detection mode has higher parameter detection accuracy than the second detection mode.
( 43 ) a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the image forming apparatus, and
In the detection step, detection of a recording medium for which settings have not been made is performed in a first detection mode, and detection of a recording medium for which settings have been made is performed in a second detection mode different from the first detection mode,
The detection range of parameters for the recording medium in the detection step is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. An information processing method for a recording medium, characterized by:
( 44 ) The information processing method for a recording medium according to ( 43) above, wherein the second detection mode has a wider detection range than the first detection mode.
( 45 ) a receiving step of receiving the setting of the recording medium type by the user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. A program for causing the computer to execute processing performed in a different second detection mode,
A program, wherein a detection time is shorter in the second detection mode than in the first detection mode.
( 46 ) a receiving step of receiving the setting of the recording medium type by the user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. A program for causing the computer to execute processing performed in a different second detection mode,
A program, wherein the first detection mode has higher parameter detection accuracy than the second detection mode.
( 47 ) a receiving step of receiving the setting of the recording medium type by the user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. A program for causing the computer to execute processing performed in a different second detection mode,
The detection range of parameters for the recording medium in the detection step is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. A program characterized by being
( 48 ) The program according to the preceding item 47 , wherein the second detection mode has a wider detection range than the first detection mode.
( 49 ) a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the setting is not performed is performed in a first detection mode, and the detection of the recording medium for which the setting is performed is performed in a second detection mode different from the first detection mode. A program to be executed by the computer,
A program, wherein a detection time is shorter in the second detection mode than in the first detection mode.
( 50 ) a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the setting is not performed is performed in a first detection mode, and the detection of the recording medium for which the setting is performed is performed in a second detection mode different from the first detection mode. A program to be executed by the computer,
A program, wherein the first detection mode has higher parameter detection accuracy than the second detection mode.
( 51 ) a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
at least two pieces of setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information about match/disagreement between the setting information and the detection information in a storage means an accumulation step that accumulates;
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the setting is not performed is performed in a first detection mode, and the detection of the recording medium for which the setting is performed is performed in a second detection mode different from the first detection mode. A program to be executed by the computer,
The detection range of parameters for the recording medium in the detection step differs between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. A program characterized by being
( 52 ) The program according to the preceding item 51 , wherein the second detection mode has a wider detection range than the first detection mode.

According to the invention described in the preceding item (1), the user's setting of the type of recording medium is accepted, and detection is performed by the detecting means for determining the type of recording medium on which an image is to be formed.

Then, for the recording medium for which the type setting has been accepted, information on the accepted type of recording medium, information on the discriminated type of recording medium, and information on match/mismatch between the accepted type and the discriminated type. are stored in the storage means.

Therefore, since the at least two pieces of information obtained each time the setting of the type of recording medium by the user is accepted are stored in the storage means, the at least two pieces of information are stored in the storage means over time. It will be.

As a result, for example, when a problem such as a jam occurs in an image forming apparatus for a recording medium whose type has been set by the user, the image forming apparatus determines whether the recording medium has a large amount of inconsistent information based on the accumulated information. , the user's setting error can be identified as the cause, so that the image forming apparatus can contribute to identification of the cause of the problem.

According to the invention described in the preceding item ( 4 ), a plurality of pieces of information to be accumulated are associated with each other and accumulated in the accumulation means, which facilitates handling.

According to the invention described in the preceding item ( 5 ), since the trouble information occurring in the image forming apparatus is also accumulated in the accumulation means, it becomes easy to analyze and identify the cause when trouble occurs in the image forming apparatus.

According to the invention described in the preceding item ( 6 ), image information about the presence or absence of an image on the surface of the recording medium, transmittance information, reflectance information, stiffness information, thickness information, basis weight information, size information, eye direction information, color At least one of the information, moisture information, smoothness information, resistance information, friction information, recording medium configuration information, and print information is accumulated in the accumulation means as reception information and/or determination information. The configuration information of the recording medium includes at least one of pulp, coat, fluorescent agent, filler, and coloring material. At least one of information is included.

According to the invention described in the preceding item ( 7 ), the transmittance, reflectance, basis weight, thickness, color, smoothness of the recording medium and the characteristics of the recording medium are determined based on the transmitted light and/or the reflected light received by the light receiving sensor. At least one of the components is sensed.

According to the invention described in the preceding paragraph ( 8 ), the possibility of trouble occurrence is analyzed and notified based on the accumulated information, so the user can recognize the possibility of trouble occurrence.

According to the invention described in the preceding item ( 9 ), when the user sets the type of recording medium using the external print instruction means, the setting is accepted by the image forming apparatus via the network.

According to the invention described in the preceding item ( 10 ), the second detection mode is performed in a shorter detection time than the first detection mode.

According to the invention described in the preceding item ( 11 ), regarding the recording medium for which the type setting is accepted, the determination result is not reflected in the image forming process, in other words, the image forming process corresponding to the accepted type is reflected. to form an image.

According to the invention described in the preceding item ( 12 ), when it is analyzed that there is a possibility of occurrence of a problem, by switching to the image forming conditions corresponding to the discriminated type, the recording medium can be printed under appropriate image forming conditions. An image can be formed, and problems such as jamming can be prevented.

According to the invention described in the preceding item ( 13 ), the parameter detection by the detection means is performed with higher detection accuracy in the first detection mode than in the second detection mode.

According to the invention described in the preceding item ( 14 ), the detection range of the parameter by the detection means differs between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are the first. 2 detection mode or higher.

According to the invention described in the preceding item ( 15 ), the detection range is set wider in the second detection mode than in the first detection mode.

According to the invention described in the preceding item ( 16 ), the user can check the information accumulated in the accumulation means by printing it on the recording medium.

According to the invention described in the preceding item ( 17 ), the user can confirm the information accumulated in the accumulation means by displaying it on the display device connected via the network.

According to the invention described in the preceding item ( 18 ), the user can check the information accumulated in the accumulation means by displaying it on the display means of the image forming apparatus.

According to the invention described in the preceding item ( 19 ), the information accumulated in the accumulation means can be output and stored in a storage medium externally attached to the image forming apparatus.

According to the invention described in the preceding item ( 20 ), the information accumulated in the accumulation means can be output as audio by the audio output device.

According to the invention described in the preceding item ( 21 ), the image forming apparatus can learn the information accumulated in the accumulation means, and can interrupt image formation and/or issue a warning by the notification means based on the learning result. .

According to the invention described in the preceding item ( 22 ), the information accumulated in the accumulation means is classified for each combination, and the frequency is digitized and saved.

According to the invention described in the preceding item ( 23 ), since the original information in which the frequency is digitized is deleted, it is possible to prevent the storage capacity of the storage means from being squeezed by the storage of unnecessary information.

According to the invention described in the preceding paragraph ( 24 ), data with characteristic features representing representatives for each classification are stored, and similar data are stored by the number of times. gets better.

According to the invention described in the preceding item ( 25 ), when the amount of stored information reaches the storage capacity of the storage means, the information on the first recording medium after insertion/extraction of the recording medium supply cassette is retained. However, since other information is erased, it is possible to secure the storage capacity of the storage means while holding only the minimum necessary information.

According to the invention described in the preceding item ( 26 ), when the amount of stored information reaches the storage capacity of the storage means, only the information in which the problem occurs is retained, and the other information is erased. It is possible to prevent the storage capacity of the storage means from being squeezed due to the storage of unnecessary information.

According to the invention described in the preceding item ( 27 ), since the notification is performed when the same defect occurs multiple times, the notification can be performed when the probability of occurrence of the defect is high.

According to the invention described in the preceding item ( 28 ), the information stored in the storage means is learned, and the learning result is reflected in the image forming process by the image forming means, so that more appropriate image formation can be performed. .

According to the invention described in the preceding item ( 29 ), the information accumulated in the accumulation means is learned, and the learning result is transmitted to the external server. Can be centrally managed.

According to the invention described in ( 30 ) above, the information accumulated in the accumulation means can be learned, and the learning result can be shared with other image forming apparatuses.

According to the invention described in the preceding item ( 31 ), information can be accumulated in the accumulation means built in the own device.

According to the invention described in the preceding item ( 32 ), information can be accumulated in the accumulation means externally attached to the own device.

According to the inventions described in the preceding paragraphs (33) and ( 41 ), the setting information set regarding the recording medium, the detection information of the recording medium detected by the detection means, and the information regarding match/disagreement between the setting information and the detection information. Since at least two pieces of information are accumulated in the accumulation means, the at least two pieces of information are accumulated and saved in the image forming apparatus over time. As a result, for example, when a problem such as a jam occurs in an image forming apparatus for a recording medium whose type has been set by the user, by examining whether the recording medium has a large amount of inconsistent information based on the accumulated information, Since it is possible to specify that the cause is a user's setting error, the image forming apparatus can contribute to specifying the cause of the problem.

According to the invention described in the preceding item ( 37 ), when a problem such as a jam occurs in the image forming apparatus for a recording medium whose type is set by the user, recording with a large amount of inconsistent information is performed based on the accumulated information. By checking whether it is a medium or not, it is possible to identify that the cause is a user's setting error, which contributes to identifying the cause of the malfunction of the image forming apparatus.

According to the invention described in the preceding paragraph ( 45 ), receiving setting of the type of the recording medium by the user, performing detection for determining the type of the recording medium on which the image is to be formed, and receiving information about the received type; The computer of the image forming apparatus can be caused to store at least two pieces of information about the determined type and information about match/mismatch between the accepted type and the determined type in the storage means. .

According to the invention described in the preceding item ( 49 ), the physical properties of the recording medium are detected by the detecting means, an image is formed on the recording medium, and the setting information set regarding the recording medium and the detection information of the detected recording medium are obtained. , and information about match/dismatch between the setting information and the detection information, the computer of the image forming apparatus can be made to execute a process of storing at least two pieces of information in the storage means.

FIG. 2 is a diagram schematically showing a part of a conveying path of a sheet on which an image is printed in the image forming apparatus according to the first embodiment of the present invention; FIG. 4 is an explanatory diagram of an optical sensor; It is explanatory drawing of an ultrasonic sensor. 2 is a block diagram showing the electrical configuration of the image forming apparatus; FIG. 2 is a block diagram for explaining the functional configuration of a control section of the image forming apparatus; FIG. 4 is a flow chart showing the operation of the image forming apparatus during printing; It is a graph which shows an example of an analysis result. 9 is a graph showing another example of analysis results; 9 is a graph showing still another example of analysis results; FIG. 10 is a diagram showing a screen display example for notifying the user that a problem may occur; 1 is a configuration diagram of an information sharing system; FIG. FIG. 4 is a diagram showing a state in which accumulated information is displayed on the display section of the operation panel section; FIG. 4 is a diagram showing a state in which accumulated information is printed on paper; FIG. 4 is a diagram showing a state in which accumulated information is transmitted to and displayed on an external display device connected via a network; FIG. 3 is a diagram showing a state in which accumulated information is output to an external storage medium such as a USB memory and displayed on an external personal computer (PC); FIG. 10 is a diagram showing how accumulated information is output as audio through a speaker or the like provided in the image forming apparatus; 9 is a flow chart showing the operation of the image forming apparatus when transmitting information to be transmitted to the server in the second embodiment.

Embodiments of the present invention will be described below with reference to the drawings.
[First embodiment]
FIG. 1 is a diagram schematically showing a part of a conveying path of a recording medium on which an image is printed in an image forming apparatus 1 according to the first embodiment of the invention.

As the image forming apparatus 1, a copying machine, a printer, an MFP, or the like is used, although not limited thereto. In this embodiment, the image forming apparatus 1 allows the user to set information about the type (sheet type or paper type) of a recording medium such as paper on which an image is to be printed (hereinafter, the recording medium is also referred to as a sheet or paper). and an automatic detection mode in which the image forming apparatus automatically determines the sheet type information without the user setting the sheet type information.

In FIG. 1, a paper feeding unit 60 is provided in the lower part of the image forming apparatus 1. In this paper feeding unit 60, an upper first stage paper feeding cassette 60a and a lower second stage paper feeding cassette 60b are arranged. In addition, a sheet conveying path 8 is formed in the vertical direction so as to communicate with the sheet feeding port 8a of the first sheet feeding cassette 60a and the sheet feeding port 8b of the second sheet feeding cassette 60b. Then, the sheet fed to the sheet conveying path 8 from the sheet feeding port 8a of the first sheet feeding cassette 60a or the sheet feeding port 8b of the second sheet feeding cassette 60b is placed at the upper position of the sheet conveying path 8. The sheet conveying path 8 is conveyed upward as indicated by an arrow A to the pair of skew correction rollers 72 . A manual feed tray (not shown) is provided on the opposite side of the first paper feed cassette 60a with the sheet conveying path 8 interposed therebetween. It is configured to be supplied to the path 8 . A reference numeral 71 shown in FIG. 2 denotes a conveying roller for conveying a sheet fed from the second sheet feeding cassette 60b.

The skew correction roller 72 is a roller for correcting the skew (inclination) of the sheet conveyed through the sheet conveying path 8 .

Two media detection sensors 91 and 92 are arranged upstream and downstream in the transport direction in the sheet transport path 8 between the sheet feed port 8a of the upper first stage sheet feed cassette 60a and the skew correction roller 72. ing. These media detection sensors 91 and 92 detect a discrimination parameter for discriminating information related to the sheet type, and the upstream media detection sensor 91 detects light irradiated to the sheet as a discrimination parameter. The media detection sensor 92 on the downstream side, which is an optical sensor, is an ultrasonic sensor that detects ultrasonic waves output toward the sheet as a determination parameter. The optical sensor 91 may be arranged upstream and the ultrasonic sensor 92 may be arranged downstream.

FIG. 2 is an explanatory diagram of the optical sensor 91. As shown in FIG. The optical sensor 91 includes a transmission light source 91a such as an LED, a reflection light source 91b, and a light receiving element 91c such as a photodiode. A light receiving element 91c detects the amount of transmitted light 93 that passes through M and the amount of reflected light 94 that is reflected by the sheet M from the light emitted from the reflection light source 91b. Then, based on the levels of the detected transmitted light amount and reflected light amount, the control unit 100, which will be described later, determines information about the sheet type including the type of the sheet M (basis weight, OHP, recycled paper, coated paper, etc.). The optical sensor 91 may be composed of a plurality of sensor groups corresponding to red, green, and blue, for example.

FIG. 3 is an explanatory diagram of the ultrasonic sensor 92. As shown in FIG. The ultrasonic sensor 92 includes a pair of ultrasonic wave transmitters 92a and ultrasonic wave receivers 92b that are obliquely opposed to each other across the sheet conveying path 8 (see FIG. 1) with respect to the passing direction of the sheet M. As shown in FIG. The ultrasonic sensor 92 transmits ultrasonic waves from an ultrasonic wave transmitting portion 92a to the passing sheet M, and receives the ultrasonic waves transmitted through the sheet M at an ultrasonic wave receiving portion 92b. Then, the control unit 100, which will be described later, determines whether the sheet M is a single sheet or an envelope based on the amount of attenuation of ultrasonic waves by the sheet M. FIG.

FIG. 4 is a block diagram showing the electrical configuration of the image forming apparatus 1. As shown in FIG. As shown in FIG. 4, the image forming apparatus 1 includes a control unit 100, a storage device 110, an image reading device 120, an operation panel unit 50, an image forming unit 10, a paper feeding unit 60, the above-described optical sensor 91, an ultrasonic sensor, and the like. 92 , a printer controller 150 , a network interface (network I/F) 160 and the like, which are connected to each other via a system bus 175 .

The control unit 100 includes a CPU (Central Processing Unit) 101, a ROM (Read Only Memory) 102, an S-RAM (Static Random Access Memory) 103, an NV-RAM (Non Volatile RAM) 104, a clock IC 105, and the like.

The CPU 101 comprehensively controls the entire image forming apparatus 1 by executing an operation program stored in the ROM 102 or the like. For example, in addition to controlling the execution of the copy function, printer function, scan function, etc., particularly in this embodiment, in the above-described automatic detection mode, the optical sensor 91 detects the amount of light and the ultrasonic sensor 92 detects ultrasonic waves. Based on the detection result, the sheet type information is discriminated, and at the time of printing, based on the discriminated result of the sheet type information, the image forming conditions corresponding to the sheet type are automatically set and the printing is executed. Furthermore, in the user setting mode, print job settings including sheet type settings made by the user by operating the operation panel unit 50 or through a network from a terminal device such as a personal computer, tablet, or smart phone are accepted. At the same time, it sets image forming conditions corresponding to the received sheet type and executes printing. Furthermore, in this embodiment, the optical sensor 91 detects the amount of light and the ultrasonic sensor 92 detects ultrasonic waves for the sheet type set by the user in the user setting mode. Discriminate the sheet type. Then, it checks whether the received sheet type and the discriminated sheet type match or do not match, and executes control processing such as storing and accumulating necessary information including the check result in the storage device 110 .

The ROM 102 stores programs executed by the CPU 101 and other data.

The S-RAM 103 serves as a work area when the CPU 101 executes programs, and temporarily stores programs and data used when the programs are executed.

The NV-RAM 104 is a non-volatile memory backed up by a battery, and stores various settings related to image formation, the number of pixels of the display section 54, various screen data displayed on the display section 54, and the like. .

The clock IC 105 measures time and functions as an internal timer to measure processing time.

The storage device 110 is composed of a hard disk or the like, and stores programs, various data, and the like. In particular, in this embodiment, information on the sheet type accepted by the user, information on the sheet type determined based on the detection results of the optical sensor 91 and the ultrasonic sensor 92, and sheets determined as the received sheet type It functions as a storage means for storing necessary information including at least two of information on species match/mismatch.

The image reading device 120 has a scanner or the like, reads an original set on a platen glass by scanning, and converts the read original into image data.

The operation panel unit 50 is used when a user instructs a job or the like to the image forming apparatus 1 or performs various settings, and has a reset key 51, a start key 52, a stop key 53, a display unit 54, a touch panel 55, and the like. I have.

A reset key 51 is used to reset settings, a start key 52 is used to start operations such as scanning, and a stop key 53 is pressed to interrupt an operation. is.

The display unit 54 is composed of, for example, a liquid crystal display device, and displays messages, various operation screens, etc. A touch panel 55 is formed on the screen of the display unit 54 and detects user's touch operation.

The image forming unit 10 prints on paper a copied image generated from image data of a document read by the image reading device 120 or print data transmitted from an external terminal device 3 or the like. A printing engine 18 consisting of image forming hardware parts such as a drum, charging device, exposure device, developing device, transfer belt, transfer roller, etc., and a fixing unit 19 that heats and presses a sheet on which an image is formed to fix the image. etc.

The network I/F 160 functions as communication means for transmitting and receiving data to and from an external server, terminal device, other image forming device, etc. via the network 4 .

FIG. 5 is a block diagram for explaining the functional configuration of the control unit 100. As shown in FIG. The control unit 100 functionally includes a media detection control unit 100a, a sheet type setting control unit 100b, an image formation control unit 100c, a storage unit 100d, an external communication control unit 100e, and an edge processing unit 100f. .

The media detection control unit 100a operates the optical sensor 91 and the ultrasonic sensor 92, which are media detection sensors, and determines the sheet type based on the detection result. As described above, the optical sensor 91 and the ultrasonic sensor 92 are operated to determine not only the sheet type in the automatic detection mode, but also when the user sets the sheet type in the user setting mode based on the detection result. Determine the sheet type.

The sheet type setting control section 100b receives the sheet type set by the user in the print job from the operation panel section 50 or the terminal device 3 in the user setting mode.

In the user setting mode, the image forming control unit 100c is based on the sheet type set by the user accepted by the sheet type setting control unit 100b. An image is printed on a sheet by controlling the image forming section 10 under image forming conditions corresponding to each sheet type.

The storage unit 100d stores the sheet type set by the user and the sheet type determined by the media detection control unit 100a.

The external communication control unit 100e corresponds to the network I/F 160 in FIG. 2, and performs data transmission/reception between the terminal device 3, an external server, another image forming device, or the like.

In addition, the sheet type setting control unit 100b accumulates in the storage device 110, as reception information, information about the sheet type that has been set by the user. Information about the sheet type automatically determined by the media detection control unit 100a is stored in the storage device 110 as determination information. Further, the sheet type setting control unit 100b determines whether the accepted sheet type and the discriminated sheet type match or disagree, and together with one of the information relating to the accepted sheet type and the information relating to the discriminated sheet type, Information may be stored in storage device 110 . Alternatively, the storage device 110 may store all of the information on the received sheet type, the information on the discriminated sheet type, and the information on match/mismatch.

At the time of accumulation, each piece of information to be accumulated is associated with each other and accumulated by a method such as assigning the same ID. This facilitates handling of each piece of information.

The edge processing unit 100f has an analysis function and a learning function, and uses information accumulated in the storage device 110 to analyze the possibility of occurrence of problems such as paper jams. Also, the learning result obtained by the learning function is reflected in the image forming process by the image forming unit 10, transmitted to an external server or the like, or shared with other image forming apparatuses. One example of the learning function is correction of a threshold value for sheet type determination.

Next, the operation of the image forming apparatus 1 will be described with a focus on the control by the control unit 100. FIG.

A user operates the operation panel unit 50 to instruct a print job, or instructs the image forming apparatus 1 to execute a print job from the terminal device 3 . In the user setting mode, the user can set the type of sheet on which an image is formed (sheet type) when instructing a print job. A print job including sheet type setting is accepted by the control unit 100 . When a print job instruction including sheet type setting is issued at the terminal device 3 , the print job is transmitted to the image forming apparatus 1 via the network 4 and accepted by the control unit 100 of the image forming apparatus 1 . As a scene where the user sets the sheet type and performs printing (image formation), for example, the user may set thick paper as plain paper in order to increase productivity.

When receiving a print job, the control unit 100 of the image forming apparatus 1 feeds the sheet from the first sheet feeding cassette 90a or the second sheet feeding cassette 90b to the sheet conveying path 8, and skews the fed sheet. It is conveyed toward the correction roller 72 .

The control unit 100 causes the optical sensor 91 and the ultrasonic sensor 92 to detect the parameter for discriminating the sheet type while the conveyed sheet is being conveyed. Specifically, the light receiving element 91c receives the transmitted light and/or the reflected light of the light emitted from the light sources 91a and 91b of the optical sensor 91 onto the sheet. In addition, the ultrasonic waves transmitted from the ultrasonic wave transmitting section 92a of the ultrasonic sensor 92 are received by the ultrasonic wave receiving section 92b.

Based on the amount of light received by the light receiving sensor 91c of the optical sensor 91 and the amount of light received by the ultrasonic wave receiving section 92b of the ultrasonic sensor 92, the control section 100 determines information about the sheet type.

Detection of discrimination parameters by the optical sensor 91 and the ultrasonic sensor 92 and discrimination of the sheet type based on the detection results are performed for both the sheet for which the user has not set the sheet type and the sheet for which the user has set the sheet type. .

In this embodiment, detection of discrimination parameters by the optical sensor 91 and the ultrasonic sensor 92 is performed in the first detection mode in the automatic detection mode in which the user does not set the sheet type, and in the user setting mode, in the first detection mode. A second sensing mode, different from the sensing mode, is performed. In the automatic detection mode, the sheet type is determined based on the detection result of the first detection mode, and printing is performed on the sheet under image forming conditions corresponding to the determined sheet type. On the other hand, in the user setting mode, the sheet type is determined based on the detection result of the second detection mode. Printing is performed on the sheet according to the conditions. Therefore, printing is performed without reflecting the detection results of the optical sensor 91 and the ultrasonic sensor 92 .

In the first detection mode, since the sheet type is unknown, the sheet conveying speed is reduced so that any sheet can be conveyed. Specifically, as shown in FIG. 1, the productivity is reduced as much as possible by performing detection after the sheet reaches the media detection sensors 91 and 92 and before reaching the skew correction roller 72. Image formation is performed under the conditions corresponding to the automatically determined sheet type.

On the other hand, in the second detection mode, the conveying speed is set according to the sheet type set by the user. For this reason, depending on the type of sheet, the conveying speed is faster than in the first detection mode, so the time from when the sheet reaches the media detection sensors 91 and 92 to when it reaches the skew correction roller 72 is shortened. , thus shortening the detection time.

For example, after the sheet reaches the media detection sensors 91 and 92 and before it reaches the skew correction roller 72, the range in which the detection results are stable is assumed to be 25 mm for each of the media detection ranges, and the sheet conveying speed in the first detection mode is : 150 mm/s, sheet transport speed in the second detection mode: 150 mm/s to 400 mm/s, the first detection time is 25 mm÷150 mm/s≒167 ms, and the second detection time is at least 25 mm ÷400mm/s≒63ms.

Detection of discrimination parameters by the media detection sensors 91 and 92 is performed by sampling a plurality of times. This sampling is performed within the processing power and control requirements of the CPU 100a, and in the second detection mode, the number of data samples may be smaller than in the first detection mode, resulting in lower detection accuracy. Conversely, the first detection mode has higher detection accuracy than the second detection mode.

However, in the second detection mode, the determination parameter can be detected in a range different from that in the first detection mode, and the detection time and detection accuracy can be equal to or higher than those in the first detection mode. Specifically, by performing detection even when the leading edge of the sheet has passed over the skew correction roller 72, it is possible to expand the detection range (detection length). The detection range of the detection mode is wider than the detection range of the first detection mode, and the detection time and detection accuracy of the second detection mode can be equal to or higher than those of the first detection mode. In the second detection mode, the automatically discriminated sheet type information is not reflected in the image forming process, so there is no effect on productivity.

In the automatic detection mode in which the user does not set the sheet type, the media detection control unit 100a executes detection in the first detection mode, determines the sheet type based on the detection result, and the image formation control unit 100c performs image formation. The unit 10 is controlled to print an image on the sheet under image forming conditions corresponding to the discriminated sheet type. Also, the sheet type setting control unit 100b accumulates in the storage device 110 information about the sheet type determined.

On the other hand, in the user setting mode, the sheet type setting control section 100b receives the sheet type set by the user, and the image forming control section 100c controls the image forming section 10 under the image forming conditions corresponding to the received sheet type, and to print the image. Further, the media detection control unit 100a causes the media detection sensors 91 and 92 to perform detection in the second detection mode, and determines the sheet type based on the detection result. The sheet type setting control unit 100b controls at least two of information about the determined sheet type, information about the accepted sheet type set by the user, and information about match/mismatch between the accepted sheet type and the determined sheet type. Information is stored in storage device 110 .

Note that the accumulation of information in the storage device 110 may be performed each time a print job is completed, may be performed for each of a plurality of jobs, may be performed at a predetermined time, or may be stored at a limited time. is not done. Further, the sheet type determination may be performed for all sheets of the print job, or may be performed only for the first sheet of the print job as a representative.

FIG. 6 is a flow chart showing the operation of the image forming apparatus 1 during printing. This operation is executed by the CPU 101a of the control unit 100 of the image forming apparatus operating according to an operation program stored in the ROM 101b or the like.

In step S01, it is checked whether or not the sheet type has been set by the user (whether or not the setting has been received). If the sheet type is not set (“No” in step S01), the first detection mode is applied in step S02, and the sheet type is automatically detected and determined in step S03.

Next, in step S04, image formation is performed under image forming conditions corresponding to the automatically detected and determined sheet type, and in step S05, information on the automatically detected and determined sheet type is accumulated in the storage device 110. FIG.

On the other hand, if the sheet type is set by the user in step S01 ("yes" in step S01), the second detection mode is applied in step S06, and the sheet type is automatically detected and determined in step S07.

Next, in step S08, image formation is performed under the image forming conditions corresponding to the sheet type set by the user. Seeds are stored in storage device 110 . It is also possible to accumulate information on the match/disagreement between the accepted sheet type and the automatically detected/discriminate sheet type, or change the match/mismatch between the automatically detected/discriminate sheet type and the received sheet type. Information about discrepancies may be stored.

Table 1 shows an example of information stored in the storage device 110 in the automatic detection mode in which the sheet type is not set by the user.

The information in Table 1 is generated for each print job using information about a representative sheet (for example, the first sheet). The same applies to Table 2 and after. In the table, "accumulation date and time" is the date and time when the information was accumulated in the storage device 110, and "detection ID" is identification information corresponding to the print job for which information regarding the sheet type was detected and discriminated. The "detection date and time" is the date and time when information related to the sheet type was detected and discriminated. This is information indicating the sheet type. In this embodiment, as described above, the sheet type is automatically detected and determined only for one sheet, such as the first sheet of a print job. "Number of sheets passed at detection ID" indicates the number of sheets printed in the job, and "Problem information at detection ID" indicates whether there is a problem such as a jam during execution of the print job.In this example, a problem occurred. It is shown that they are not.

Table 2 shows an example of information accumulated in the storage device 110 when the media detection sensors 91 and 92 do not perform automatic detection/determination in the user setting mode.

In Table 2, in addition to the "accumulation date and time" and "machine information" in Table 1, "user-set sheet type", "number of sheets passed for each set sheet type", and "defect information for each set sheet type" are accumulated. This example shows that the user has set thick paper 2 and a fusing jam occurred during printing.

Table 3 shows a first example of information accumulated in the storage device 110 when automatic detection/determination by the media detection sensors 91 and 92 is performed in the user setting mode.

The information in Table 3 is generated for each print job. The same information as Table 1, "Accumulation date and time", "Detection ID", "Detection date and time", "Machine information", "Media detection sheet type", "Number of sheets passed at detection ID", and "Failure information at detection ID" In addition, "user set sheet type" indicating the sheet type set by the user is accumulated. In this example, even though the user has set thick paper 2 as the sheet type, the sheet type determined based on the media detection sensors 91 and 92 is thin paper, indicating that the two are different. It also indicates that a fixing jam problem has occurred during a print job. Incidentally, the problem is not limited to the jam, and even in the case of the jam, it is possible to indicate that the jam occurred at a portion other than the fixing section 19, for example, the finisher.

Table 4 shows a second example of information accumulated in the storage device 110 when automatic detection/determination by the media detection sensors 91 and 92 is performed in the user setting mode.

In the example of Table 4, instead of the "user-set sheet type" in Table 3, information about "relationship with user-set sheet type" is transmitted. "Relationship with user-specified sheet type" is information about whether the sheet type set by the user matches or does not match the result of sheet type determination by the media detection sensor (thin paper in this example). ing. Note that both the "user-set sheet type" in Table 3 and the "relationship with user-set sheet type" in Table 4 may be stored.

Table 5 shows a third example of information accumulated in the storage device 110 when automatic detection/determination by the media detection sensors 91 and 92 is performed in the user setting mode.

In the example of Table 4, the match/mismatch between the sheet type set by the user and the discriminated result of the sheet type by the media detection sensors 91 and 92 is directly shown for the "relationship with user set sheet type". In the example of Table 5, the difference in basis weight level is shown as the sheet type information. In other words, based on thick paper 2, if thick paper 1 is -1 rank, plain paper + is -2 rank, plain paper is -3 rank, and thin paper is -4 rank on the lower basis weight classification side, the sheet set by the user Assuming that the type is thick paper 2, the difference between thick paper 2 and thin paper, which is the sheet type that is automatically detected and discriminated, is -4 ranks in basis weight classification. Note that the "user setting sheet type" in Table 3 may also be stored together.

In the examples of Tables 3 to 5, a combination of "media detection sheet type" and "user-set sheet type" or a combination of "media detection sheet type" and "relationship with user-set sheet type" is stored in the storage device 110. It was configured to However, as described above, it is also possible to accumulate combinations of "user-specified sheet types" and "relationships with user-specified sheet types", or At least two pieces of information out of "relationship with sheet type" should be accumulated.

Further, since each piece of information is assigned a detection ID, the information is associated with each other via the detection ID and accumulated. can be handled in association with each piece of information.

FIG. 7 shows the results of analysis by the edge processing unit 100f of the image forming apparatus 1, showing the results of printing under image forming conditions corresponding to the sheet type determined based on the detection results of the media detection sensors 91 and 92. 3 is a graph showing the number of sheets passed and the jam rate for each sheet type in a certain period; A bar graph indicates the number of sheets passed for each sheet type automatically detected, and a line graph indicates the ratio of the number of jammed sheets to the number of sheets passed (jam rate). This analysis is based on the media detection sheet type and defect information (jam count) included in the data (Table 1) accumulated in the storage device 110 when the image forming apparatus 1 installed in the market operates in the automatic detection mode. Is going. It can be seen from FIG. 7 that the frequency of occurrence of jams is low.

Next, FIG. 8 shows the number of sheets passed and the jam rate for each sheet type when printing is performed based on the sheet type set by the user. This analysis was also performed by the edge portion 100f of the image forming apparatus 1 operating based on the user settings, based on the user-set sheet types and defect information included in the data (Table 2) accumulated in the storage device 110. be. It can be seen from FIG. 8 that the frequency of jam occurrence is higher than in the case of FIG. In particular, the jam rate of thick paper is higher than that of other sheet types.

By the way, the jam rate for the total number of sheets passed in automatic detection mode in Fig. 7 is 0.0070%, and the same jam rate in user setting mode in Fig. 8 is 0.0186%, which is higher than in automatic detection mode. . Further, in the user setting mode, the thick paper passing ratio is higher and the thin paper passing ratio is lower than in the automatic detection mode.

FIG. 9 shows a case in which printing is performed based on the sheet type set by the user in the user setting mode, and the sheet type is automatically detected and discriminated by the media detection sensors 91 and 92 (referred to as active detection in FIG. 9). 10 is a graph showing the number of sheets passed and the jam rate for each sheet type analyzed in 2004. FIG. In this case, the number of sheets passed is the number of sheets passed when the sheet type set by the user does not match among the number of sheets passed for each sheet type automatically detected and discriminated, and the jam rate for this number of sheets passed is. In this analysis, the data accumulated in the storage device 110 (Tables 3 to 5) also includes the edge processing unit 100f of the image forming apparatus 1 that performs printing based on user settings and also automatically detects the sheet type. , media detection sheet type, user-set sheet type, relationship with user-set sheet type, and defect information. It can also be seen from FIG. 9 that the jam rates of thick paper and thin paper are higher than those of other sheet types.

As described above, in this embodiment, in the user setting mode, information about the sheet type set by the user and accepted by the image forming apparatus 1, information about the sheet type automatically detected and discriminated by the image forming apparatus 1, and At least two pieces of information out of the information on the set sheet type and the information on match/mismatch of the information on the automatically detected and discriminated sheet type are accumulated in the storage device 110 . By using the accumulated information, it is possible to analyze which sheet type has many setting errors by the user, and to identify the cause of the problem. can be grasped. Then, at the time of printing or the like, the control unit 100 displays a message or the like based on the analysis result on the display unit 54 to prompt the user to confirm the appropriate sheet type setting, thereby preventing the occurrence of problems due to setting errors. can.

Furthermore, when a problem such as a jam occurs, the image forming apparatus 1 also accumulates specific problem information in the storage device 110, so that the user's setting error is associated with the problem and stored. Data can be analyzed. For example, when thick paper is set by the user, the sheet type is determined to be thin paper by automatic detection and determination, and it is analyzed from accumulated data that jams occur frequently as defect information, the analysis result is acquired as defect occurrence information. . In practice, when printing is performed on thin paper under the image forming conditions set by the user for thick paper, the paper is heated more than necessary, curling occurs, and the fixing unit 19 tends to jam.

In the image forming apparatus 1, when the sheet type automatically detected and discriminated is, for example, thin paper, and the sheet type set by the user is, for example, thick paper, a jam may occur as shown in FIG. A warning display indicating this can be displayed on the display unit 54 to notify the user. The user can select whether to continue printing or cancel. When continuing printing, depending on whether or not the "Print on automatically detected paper type" item is checked, the user will either print on the thick paper set by the user, You can select whether to print on automatically detected and distinguished thin paper.

Note that the notification to the user may be displayed on the screen of the terminal device 3 instead of the display on the display unit 54 of the image forming apparatus 1 shown in FIG. Notification by e-mail may be used, or notification by voice may be used. In the case of voice, after stopping printing, the message "If you continue printing, a jam may occur. If you want to continue, press the start button. If you want to cancel, press the stop button and change the paper type." Please send a message such as

Further, the edge processing unit 100f of the image forming apparatus 1, which has analyzed the possibility of occurrence of a problem, issues an instruction to switch to the image forming conditions corresponding to the automatically detected and discriminated sheet type or an instruction to interrupt the image forming process. You may also go to the image formation control section 100c. The image forming section 10 that has received this instruction performs printing under the image forming conditions for the instructed sheet type, or suspends printing. Further, the user may be notified of the switching of the image forming conditions or the interruption of the image forming process. Further, the configuration may be such that the notification is made only when the same problem occurs multiple times.

Further, the analysis results and learning results performed by the edge processing unit 100f of the image forming apparatus 1 are held not only by the image forming apparatus 1, but also by one or more devices connected to the network 4 as shown in FIG. The information may be transmitted to a plurality of other image forming apparatuses 21 to 26 so that the image forming apparatus 1 and the other image forming apparatuses 21 to 26 may share, for example, the possibility of failure occurrence. Also, the analysis results and learning results may be transmitted to the server (including the cloud server) 5 . In this case, the server 5 can centrally manage the analysis results and learning results transmitted from the image forming apparatus 1 and the other image forming apparatuses 21-26.

Also, the image forming apparatus 1 agrees/does not agree with the information on the sheet type received by the other image forming apparatuses 21 to 26, the information on the discriminated sheet type, and the information on the accepted sheet type and the information on the discriminated sheet type. , and further analysis results and learning results from the other image forming apparatuses 21 to 26, and may serve as a server.

Next, a method of utilizing the information stored in the storage device 110 in the market by a serviceman or the like will be described.

When jams and troubles frequently occur in a specific image forming apparatus, the cause can be investigated if the conditions under which the jams and troubles occur are known.

As a method of obtaining information for investigation, a list of information accumulated in the image forming apparatus 1 is printed out for reference, a terminal device 3 such as a tablet or a smartphone connected via a network, or a display unit of the operation panel 50 is used. 54.

FIG. 12 shows a state in which the accumulated information is displayed on the display section 54 of the operation panel section 50. As shown in FIG. The displayed information may be all or part of the information accumulated for each job. In FIG. 12, the date and time (detection date and time), the sheet type set by the user, the sheet type detected and discriminated by the media detection sensors 91 and 92, the number of sheets passed, and the failure status are displayed. Information hidden on the screen can be displayed in order by scrolling. Also, it may be configured so that the date and time and the presence/absence of a problem can be searched as search items.

FIG. 13 shows a state printed on paper P as a list. The printed contents are the same as in the case of the panel display in FIG.

FIG. 14 shows a state in which information accumulated in the image forming apparatus 1 is transmitted to and displayed on a terminal device 3 such as a tablet or a smartphone as a display device connected via a network.

Furthermore, as shown in FIG. 15, the data can be output to an external storage medium such as a USB memory 300 and displayed on an external personal computer (PC) for reference, or can be sent to the image forming apparatus 1 as shown in FIG. It is also possible to confirm by outputting by voice from the provided speaker 400 or the like.

As described above, information on the sheet type detected and discriminated by the media detection sensors 91 and 92, information on the sheet type set by the user, match/mismatch information of the sheet types, and machine fault information are added. , it is possible to investigate the cause of the failure by storing them in the storage device 110, but the capacity of the storage device 110 is limited and cannot be stored forever.

Therefore, in this embodiment, the amount of information is compressed by accumulating the results of analysis of the accumulated information by the edge processing unit 100 .

Specifically, as shown in FIG. 9, the accumulated information is classified for each combination of thin paper, plain paper, plain paper +, thick paper 1 to 4, coated paper, etc., and the occurrence frequency such as the jam rate is quantified. to save. In addition, the amount of stored information is compressed by deleting the original information that has been saved by digitizing the frequency. Alternatively, the amount of data may be reduced by a method such as storing representative characteristic data for each classification and storing similar data by the number of times.

As another method, when the accumulated information reaches the capacity of the storage device 110, the data of the first sheet after insertion/removal of the paper feed cassettes 60a and 60b is retained, and the other information is erased. You can As long as the paper feed cassettes 60a and 60b are not inserted and removed, the types of sheets to be fed are considered to be the same, and it is conceivable that the sheet types may have changed when the paper feed cassettes 60a and 60b are inserted and removed. It's for. In addition, the amount of data may be reduced by holding the data at the time of jam or trouble occurrence and deleting other information, and by selecting and saving more useful information, the storage device 110 can be saved. Accumulation without load on the capacity becomes possible.

Although one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment.

For example, the information on the sheet type may include information on the sheet type itself and various types of information in addition to the information shown in Tables 3-5. For example, image information about the presence or absence of an image on the sheet surface, sheet transmittance information, reflectance information, stiffness information, thickness information, basis weight information, size information, grain direction information, color information, moisture information, smoothness information, At least one of resistance information, friction information, sheet configuration information, and print information may be included. The sheet configuration information includes at least one of pulp, coat, fluorescent agent, filler, and coloring material, and the print information includes sheet brand, environmental information, paper feed port information, and image forming information. At least one is included.

Table 6 summarizes each of these pieces of information for each detection means to be acquired. For example, from the optical sensor 91, it is possible to obtain information on the paper type, transmittance, and reflectance determined from the optical characteristics. Paper size information is obtained from the paper feed cassettes 90a and 90b, stiffness information is obtained from the sheet conveying motor (mechanical mechanism), and sheet thickness information is obtained by measuring the amount of displacement of the sheet conveying roller with a displacement sensor. From the sensors used, information on paper grain direction, smoothness, and color can be obtained. "User setting" is information set by the user.

Table 7 shows the relationship between sheet type and basis weight.

By accumulating such information in the storage device 110, the image forming apparatus 1 can analyze, for example, the relationship between the basis weight, the fixing heat amount, and the defect from the accumulated sheet type setting error information and defect information. and notify the user of the analysis results.

Also, the case where information is accumulated in the storage device 110 built in the image forming apparatus 1 has been described, but a print server or the like called a Fiery externally attached to the image forming apparatus 1 as an expansion option may be used. information may be stored in
[Second embodiment]
The hardware configuration of the image forming apparatus 1 according to the second embodiment is the same as the hardware configuration of the image forming apparatus 1 shown in FIGS. 1 to 5, so description thereof will be omitted.

In the first embodiment, the image forming apparatus 1 uses information about the sheet type set by the user, information about the automatically detected and discriminated sheet type, and information about match/mismatch between these two sheet types. A case where at least two pieces of information of are accumulated in the storage device 110 has been described.

However, the information stored in the storage device 110 is not limited to these, and includes setting information set regarding sheets, sheet detection information detected by detection means such as the media detection sensors 91 and 92, and setting information. A configuration may be employed in which at least two of the information and the information on match/mismatch of the detection information are accumulated in the storage device 110 . Alternatively, information regarding match/mismatch between the setting information and the detection information may be accumulated without transmitting the setting information and the detection information. The sheet type setting control unit 100b determines whether the setting information matches the detection information.

"Setting information set regarding sheets" includes information such as the sheet type set by the user when executing a print job, information set by the user through the operation panel for the paper feed cassettes 60a and 60b, and image forming information. It is information set in advance for the paper feed cassettes 60a and 60b at the time of shipment (initial) of the apparatus 1, and any information set in the image forming apparatus 1 for sheets is applicable.

The "sheet detection information" is the physical property detection information of the sheet. The information includes smoothness information, resistance information, friction information, and the like, and any information detected by a sensor with respect to the sheet is applicable.

FIG. 17 is a flow chart showing the operation of the image forming apparatus 1 when storing information to be stored in the storage device 110 . This operation is executed by the CPU 101a of the control unit 100 of the image forming apparatus operating according to an operation program stored in the ROM 101b or the like.

In step S11, the presence or absence of setting information set regarding the sheet is checked. If there is no setting information (“No” in step S11), the process proceeds to step S12, and if there is setting information (“Yes” in step S11), the process proceeds to step S16. A sheet setting mode may be provided so that the user or the like can select the sheet setting mode, and if the sheet setting mode is not selected, the process proceeds to step S12, and if the sheet setting mode is selected, the process proceeds to step S16.

In step S12, the first detection mode is applied, and in step S13, the physical properties of the sheet are automatically detected. In the first detection mode, as in the first detection mode in the first embodiment, since the information about the sheet is unknown, the sheet conveying speed is reduced so that any sheet can be conveyed. there is

Next, in step S14, image forming conditions corresponding to the automatically detected sheet detection result are automatically set and image formation is performed. .

On the other hand, the second detection mode is applied in step S16, and the physical properties of the sheet are automatically detected in step S17. In the second detection mode, as in the second detection mode in the first embodiment, the conveying speed is set according to the sheet setting information.

Next, in step S18, image forming conditions corresponding to the setting information set regarding the sheet are automatically set and image formation is performed. Information is stored in storage device 110 . It is also possible to accumulate information on match/disagreement between the setting information set regarding the sheet and the detection information automatically detected, or to change either the detection information automatically detected or the setting information set regarding the sheet. information about matches/mismatches may be accumulated. Alternatively, the information on match/mismatch may be stored without storing the automatically detected detection information and the setting information set for the sheet.

Alternatively, the sheet type setting control unit 100b may determine the sheet type based on the automatically detected sheet type, and store the determined sheet type in the storage device 110 together.

In the second embodiment, at least two of the setting information set regarding the sheet, the detection information of the sheet automatically detected by the image forming apparatus 1, and the information regarding match/mismatch between the setting information regarding the sheet and the detection information. Since the storage device 110 stores information about the match/mismatch between the sheet-related setting information and the detection information, the storage device 110 stores these pieces of information over time. In addition, by using the accumulated information, it is possible to analyze which sheet has many setting errors by the user, identify the cause of the problem, and obtain the analysis result regularly, at any timing, or in real time. can. Then, at the time of printing or the like, the control unit 100 displays a message or the like based on the analysis result on the display unit 54 to prompt the user to confirm proper sheet settings, thereby preventing problems due to setting errors. .

Furthermore, when a problem such as a jam occurs, the image forming apparatus 1 accumulates specific problem information in the storage device 110, so that setting errors and problems related to sheets, such as user setting errors, can be detected. It is possible to associate and accumulate and analyze the accumulated data.

1 image forming apparatus 3 terminal device (external print instruction means)
4 network 5 server 8 sheet conveying path 10 image forming unit 21 to 26 other image forming apparatuses 50 operation panel unit 54 display unit 60 paper feeding unit 72 skew correction roller 91 optical sensor (media detection sensor)
91a, 91b light source 91c light receiving detection element 92 ultrasonic sensor (media detection sensor)
91a Ultrasonic transmitting unit 91b Ultrasonic receiving unit 100 Control unit 100a Media detection control unit (discrimination means)
100b sheet type setting control unit (accepting means)
100c image formation control unit 100d storage unit 100e external communication control unit (transmitting means, receiving means)
100f edge processing unit 110 storage device (storage means)

Claims (52)

receiving means for receiving a setting of a recording medium type by a user;
detection means for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the setting of the type is received by the receiving means, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; a storage means for storing at least two pieces of information from
with
The detecting means detects a recording medium whose type is not set by the user in a first detection mode, and detects a recording medium whose type setting is received by the receiving means in the first detection mode. in a different second detection mode,
The image forming apparatus, wherein the detection time is shorter in the second detection mode than in the first detection mode. receiving means for receiving a setting of a recording medium type by a user;
detection means for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the setting of the type is received by the receiving means, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; a storage means for storing at least two pieces of information from
with
The detecting means detects a recording medium whose type is not set by the user in a first detection mode, and detects a recording medium whose type setting is received by the receiving means in the first detection mode. in a different second detection mode,
The image forming apparatus, wherein the first detection mode has higher parameter detection accuracy than the second detection mode. receiving means for receiving a setting of a recording medium type by a user;
detection means for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the setting of the type is received by the receiving means, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; a storage means for storing at least two pieces of information from
with
The detecting means detects a recording medium whose type is not set by the user in a first detection mode, and detects a recording medium whose type setting is received by the receiving means in the first detection mode. in a different second detection mode,
The detection range of parameters for the recording medium by the detection means is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. An image forming apparatus characterized by: 4. The image forming apparatus according to any one of claims 1 to 3, wherein said accumulation means associates and accumulates a plurality of pieces of information to be accumulated. 4. The image forming apparatus according to any one of claims 1 to 3, wherein said accumulation means also accumulates trouble information that has occurred in said image forming apparatus. The information about the type includes image information about the presence or absence of an image on the surface of the recording medium, transmittance information, reflectance information, stiffness information, thickness information, basis weight information, size information, grain direction information, color information, moisture information, at least one of smoothness information, resistance information, friction information, recording medium configuration information and print information;
The configuration information of the recording medium includes at least one of pulp, coat, fluorescent agent, filler, and coloring material, and the print information includes the brand of the recording medium, environmental information, paper feed port information, and image formation. 4. The image forming apparatus according to any one of claims 1 to 3, wherein at least one of the information is included. The detection means comprises a light source and a light receiving sensor capable of receiving transmitted light and/or reflected light of the light emitted from the light source onto the recording medium,
Detecting at least one of transmittance, reflectance, basis weight, thickness, color, smoothness, and constituent elements of a recording medium based on the transmitted light and/or the reflected light received by the light receiving sensor. 4. The image forming apparatus according to any one of claims 1 to 3. analysis means for analyzing the possibility of failure occurrence based on the information accumulated in the accumulation means;
notification means for notifying the user of the possibility of occurrence of the problem analyzed by the analysis means;
4. The image forming apparatus according to claim 1, comprising: 4. The apparatus according to any one of claims 1 to 3, wherein the setting of the type of recording medium by the user is performed by external print instruction means, and the acceptance means accepts the settings made by the print instruction means via a network. Image forming device. 4. The image forming apparatus according to claim 2, wherein the detection time in the second detection mode is shorter than that in the first detection mode. An image forming means for forming an image on the recording medium, wherein the image forming means forms an image on the recording medium for which the type setting is received by the receiving means without reflecting the determination result in the image forming process. Item 4. The image forming apparatus according to any one of items 1 to 3. An image forming means for forming an image on the recording medium is provided, and the image forming means discriminates the recording medium for which the type setting is accepted when the analysis means analyzes that there is a possibility that a problem may occur. 9. The image forming apparatus according to claim 8, wherein the image forming conditions are switched to those corresponding to the selected type. 4. The image forming apparatus according to claim 1, wherein the first detection mode has higher parameter detection accuracy than the second detection mode. The detection range of parameters for the recording medium by the detection means is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. 3. The image forming apparatus according to claim 1 or 2. 4. The image forming apparatus according to claim 3, wherein said second detection mode has a wider detection range than said first detection mode. 4. The image forming apparatus according to any one of claims 1 to 3, further comprising image forming means for forming an image on said recording medium, wherein said image forming means is capable of printing information accumulated in said accumulating means on said recording medium. . 4. The image forming apparatus according to any one of claims 1 to 3, wherein the information accumulated in said accumulation means can be transmitted to a display device connected via a network. 4. The image forming apparatus according to any one of claims 1 to 3, wherein the information accumulated in said accumulation means can be displayed on display means of the apparatus itself. 4. The image forming apparatus according to any one of claims 1 to 3, wherein information accumulated in said accumulation means can be output to a storage medium externally attached to said apparatus. 4. The image forming apparatus according to any one of claims 1 to 3, wherein the information accumulated in said accumulation means can be output by an audio output device. Learning means for learning information accumulated in the accumulation means,
4. The image forming apparatus according to any one of claims 1 to 3, wherein the learning means interrupts image formation and/or notifies a warning by the notifying means based on the learning result. 4. The image forming apparatus according to any one of claims 1 to 3, wherein the information accumulated in said accumulation means is classified for each combination, and the frequency is digitized and saved. 23. The image forming apparatus according to claim 22, wherein the original information whose frequency is digitized is deleted. 23. The image forming apparatus according to claim 22, wherein data having a representative characteristic is saved for each classification, and similar data is saved by number of times. When the amount of stored information reaches the storage capacity of the storage means, the information about the first recording medium after insertion/removal of the recording medium supply cassette is retained, and the other information is erased. 4. The image forming apparatus according to any one of 3. 4. The image forming apparatus according to any one of claims 1 to 3, wherein when the amount of stored information reaches the storage capacity of the storage means, only information in which a problem has occurred is retained and other information is deleted. 22. The image forming apparatus according to claim 21, wherein the learning means notifies when the same trouble occurs multiple times. Learning means for learning information accumulated in the accumulation means,
4. The image forming apparatus according to claim 1, wherein the learning result of said learning means is reflected in the image forming process of said image forming means. Learning means for learning information accumulated in the accumulation means,
4. The image forming apparatus according to claim 1, wherein the learning result by said learning means is transmitted to an external server. Learning means for learning information accumulated in the accumulation means,
4. The image forming apparatus according to claim 1, wherein the learning result by said learning means is shared with other image forming apparatuses. 4. The image forming apparatus according to any one of claims 1 to 3, wherein said storage means is built in said apparatus. 4. The image forming apparatus according to any one of claims 1 to 3, wherein said storage means is an external storage device externally attached to said apparatus. a detection means for detecting physical properties of a recording medium;
an image forming means for forming an image on the recording medium;
Accumulation for accumulating at least two pieces of setting information set regarding the recording medium, detection information of the recording medium detected by the detection means, and information regarding match/disagreement between the setting information and the detection information. means and
with
The detection means detects a recording medium for which no settings have been made in a first detection mode, and detects a recording medium for which settings have been made in a second detection mode different from the first detection mode,
The image forming apparatus, wherein the detection time is shorter in the second detection mode than in the first detection mode. a detection means for detecting physical properties of a recording medium;
an image forming means for forming an image on the recording medium;
Accumulation for accumulating at least two pieces of setting information set regarding the recording medium, detection information of the recording medium detected by the detection means, and information regarding match/disagreement between the setting information and the detection information. means and
with
The detection means detects a recording medium for which no settings have been made in a first detection mode, and detects a recording medium for which settings have been made in a second detection mode different from the first detection mode,
The image forming apparatus, wherein the first detection mode has higher parameter detection accuracy than the second detection mode. a detection means for detecting physical properties of a recording medium;
an image forming means for forming an image on the recording medium;
Accumulation for accumulating at least two pieces of setting information set regarding the recording medium, detection information of the recording medium detected by the detection means, and information regarding match/disagreement between the setting information and the detection information. means and
with
The detection means detects a recording medium for which no settings have been made in a first detection mode, and detects a recording medium for which settings have been made in a second detection mode different from the first detection mode,
The detection range of parameters for the recording medium by the detection means is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. An image forming apparatus characterized by: 36. The image forming apparatus according to claim 35, wherein the second detection mode has a wider detection range than the first detection mode. a receiving step of receiving a setting of a recording medium type by a user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. in a different second detection mode,
A recording medium information processing method, wherein the detection time in the second detection mode is shorter than that in the first detection mode. a receiving step of receiving a setting of a recording medium type by a user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. in a different second detection mode,
An information processing method for a recording medium, wherein the first detection mode has higher parameter detection accuracy than the second detection mode. a receiving step of receiving a setting of a recording medium type by a user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. in a different second detection mode,
The detection range of parameters for the recording medium in the detection step is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. An information processing method for a recording medium, characterized by: 40. The information processing method for a recording medium according to claim 39 , wherein said second detection mode has a wider detection range than said first detection mode. a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the image forming apparatus, and
In the detection step, detection of a recording medium for which settings have not been made is performed in a first detection mode, and detection of a recording medium for which settings have been made is performed in a second detection mode different from the first detection mode,
A recording medium information processing method, wherein the detection time in the second detection mode is shorter than that in the first detection mode. a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the image forming apparatus, and
In the detection step, detection of a recording medium for which settings have not been made is performed in a first detection mode, and detection of a recording medium for which settings have been made is performed in a second detection mode different from the first detection mode,
An information processing method for a recording medium, wherein the first detection mode has higher parameter detection accuracy than the second detection mode. a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the image forming apparatus, and
In the detection step, detection of a recording medium for which settings have not been made is performed in a first detection mode, and detection of a recording medium for which settings have been made is performed in a second detection mode different from the first detection mode,
The detection range of parameters for the recording medium in the detection step is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. An information processing method for a recording medium, characterized by: 44. The information processing method for a recording medium according to claim 43 , wherein said second detection mode has a wider detection range than said first detection mode. a receiving step of receiving a setting of a recording medium type by a user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. A program for causing the computer to execute processing performed in a different second detection mode,
A program, wherein a detection time is shorter in the second detection mode than in the first detection mode. a receiving step of receiving a setting of a recording medium type by a user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. A program for causing the computer to execute processing performed in a different second detection mode,
A program, wherein the first detection mode has higher parameter detection accuracy than the second detection mode. a receiving step of receiving a setting of a recording medium type by a user;
a sensing step for determining the type of recording medium on which an image is to be formed;
With respect to the recording medium for which the type setting is received in the receiving step, information regarding the type of the received recording medium, information regarding the type of the determined recording medium, and information regarding match/mismatch between the received type and the determined type; storing in a storage means information of at least two of
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the type is not set by the user is performed in the first detection mode, and the detection of the recording medium for which the type setting is received in the reception step is performed in the first detection mode. A program for causing the computer to execute processing performed in a different second detection mode,
The detection range of parameters for the recording medium in the detection step is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. A program characterized by being 48. The program according to claim 47 , wherein the second detection mode has a wider detection range than the first detection mode. a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the setting is not performed is performed in a first detection mode, and the detection of the recording medium for which the setting is performed is performed in a second detection mode different from the first detection mode. A program to be executed by the computer,
A program, wherein a detection time is shorter in the second detection mode than in the first detection mode. a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the setting is not performed is performed in a first detection mode, and the detection of the recording medium for which the setting is performed is performed in a second detection mode different from the first detection mode. A program to be executed by the computer,
A program, wherein the first detection mode has higher parameter detection accuracy than the second detection mode. a detection step of detecting the physical properties of the recording medium by means of a detection means;
an image forming step of forming an image on the recording medium;
At least two pieces of information among setting information set for the recording medium, detection information of the recording medium detected by the detecting step, and information regarding match/disagreement between the setting information and the detection information are stored in a storage means. an accumulation step that accumulates;
is executed by the computer of the image forming apparatus, and
In the detection step, the detection of the recording medium for which the setting is not performed is performed in a first detection mode, and the detection of the recording medium for which the setting is performed is performed in a second detection mode different from the first detection mode. A program to be executed by the computer,
The detection range of parameters for the recording medium in the detection step is different between the first detection mode and the second detection mode, and the detection time and detection accuracy in the first detection mode are equal to or higher than those in the second detection mode. A program characterized by being 52. The program according to claim 51 , wherein said second detection mode has a wider detection range than said first detection mode.

Images