JP2016102984A - Image forming apparatus and recording material determination unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming apparatus that can accurately determine the type of a recording material and form a high-quality image.SOLUTION: The present invention is an image forming apparatus including an image forming part that forms an image on a recording material, the image forming apparatus including: a first output part that outputs an output value related to a value of a voltage to be supplied from an external power source; a second output part that detects a recording material and outputs an output value related to the characteristics of the recording material; and a control part that controls image forming conditions for the image forming part on the basis of the output value related to the voltage value output from the first output part and the output value related to the characteristics output from the second output part.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a technique for accurately discriminating the type of recording material.

  2. Description of the Related Art Conventionally, some image forming apparatuses such as copiers and printers include a sensor for determining the type of recording material inside the image forming apparatus. In these apparatuses, the type of recording material is automatically determined, and transfer conditions (for example, transfer voltage and recording material conveyance speed at the time of transfer) and fixing conditions (for example, fixing temperature and recording material at the time of fixing) are determined according to the determination result. Is controlled).

  Patent Document 1 discloses an image forming apparatus including a recording material determination unit that determines the type of a recording material by irradiating the recording material with light and capturing the light reflected by the recording material as an image by a CMOS sensor. Have been described. In this image forming apparatus, fixing conditions are controlled in accordance with the type of recording material determined by the recording material determination unit.

JP 2002-182518 A

  However, the same detection result may be obtained even with different types of recording materials due to the influence of manufacturing variations of the recording materials. In such a case, it is difficult to accurately determine the type of the recording material, and it is determined that the recording material is the wrong type of recording material, and the image is formed under an image forming condition (fixing condition) that does not match the type of the recording material. In some cases, the image quality is deteriorated. The control described in Patent Document 1 sufficiently satisfies the image quality desired at that time, but in order to satisfy the image quality that has recently been required, further improvement of the discrimination accuracy of the recording material type Was desired.

  An object of the present invention is to provide an image forming apparatus capable of accurately discriminating the type of recording material and forming a high quality image.

  In order to achieve the above object, a first image forming apparatus of the present invention outputs an output value related to a voltage value supplied from an external power source in an image forming apparatus having an image forming unit for forming an image on a recording material. A first output unit; a second output unit that detects a recording material and outputs an output value related to the type of the recording material; an output value related to the voltage value output by the first output unit; It has a control part which controls the image formation conditions of the image forming part based on the output value about the kind outputted by the 2nd output part.

  In order to achieve the above object, a second image forming apparatus of the present invention is a first output that outputs an output value related to the size of a recording material in an image forming apparatus having an image forming unit that forms an image on the recording material. A second output unit that outputs an output value related to the type of recording material that is different from the size, an output value related to the size output by the first output unit, and the second output unit. It has a control part which controls image forming conditions of the image forming part based on the outputted output value about the kind.

  According to the present invention, it is possible to provide an image forming apparatus capable of accurately determining the type of recording material and forming a high-quality image.

1 is a configuration diagram of an image forming apparatus according to an embodiment of the present invention. FIG. 2 is a block diagram showing the configuration of a recording material discrimination unit and a power supply unit in Embodiment 1 of the present invention A plot of multiple detection results on the recording material discrimination table and table The figure which shows the recording material discrimination | determination table in the Example of this invention. Flowchart in the embodiment of the present invention Flow chart of table selection in embodiment 1 of the present invention The figure which shows the control board in Example 2 of this invention. FIG. 6 is a block diagram showing the configuration of a recording material discrimination unit and a size detection unit in Embodiment 2 of the present invention. Flow chart of table selection in embodiment 2 of the present invention The block diagram which showed the structure of the recording material discrimination | determination unit and power supply part in other Examples The block diagram which showed the structure of the recording material discrimination | determination unit and size detection part in other Examples

  Embodiments of the present invention will be described below with reference to the drawings. In addition, the Example shown below is an example, Comprising: It is not the meaning which limits the scope of the present invention only to them.

  An outline of an electrophotographic image forming apparatus to which this embodiment is applicable will be described. FIG. 1 is a schematic configuration diagram of an image forming apparatus 1 that employs an intermediate transfer belt 17 and has an image forming unit 50 for forming an image on a recording material P.

<Overview of Image Forming Apparatus 1>
The apparatus 1 is a tandem type color laser beam printer, and superimposes toners that are four color developers of yellow (Y), magenta (M), cyan (C), and black (K) to form a color image. It is configured to output. Reference numeral 2, which is an example of a storage unit, is a cassette that stores the recording material P. The apparatus 1 is provided with a supply roller 4 for supplying the recording material P from the cassette 2, a conveying roller pair 5 for conveying the recording material P supplied by the roller 4, and a registration roller pair 6. These rollers are examples of a conveyance unit that conveys the recording material P. In the vicinity of the roller pair 6, a registration sensor 34, which is an example of a detection unit that detects the leading edge and the trailing edge of the recording material P, is provided.

  Reference numerals 11 (11Y, 11M, 11C, and 11K) denote photosensitive drums that carry toners of respective colors. Reference numerals 12 (12Y, 12M, 12C, 12K) denote charging rollers for respective colors for uniformly charging the drum 11 to a predetermined potential. Reference numerals 13 (13Y, 13M, 13C, 13K) denote laser scanners corresponding to the respective colors. 14 (14Y, 14M, 14C, 14K) is a process cartridge for visualizing the electrostatic latent image formed on the drum 11 by the scanner 13. Reference numeral 15 (15Y, 15M, 15C, 15K) denotes a developing roller that sends the toner in the cartridge 14 to the drum 11. Reference numeral 16 (16Y, 16M, 16C, 16K) denotes a primary transfer roller that primarily transfers an image formed on the drum 11 to the belt 17. The belt 17 is driven and rotated by 18 drive rollers. Reference numeral 19 denotes a secondary transfer roller for transferring an image formed on the belt 17 to the recording material P. The rollers 18 and 19 form a nip portion, and the image formed on the belt 17 is transferred to the recording material while the recording material is nipped and conveyed at the nip portion. These are examples of a transfer unit that secondarily transfers an image to the recording material P. The fixing device 20 is an example of a fixing unit that melts and fixes the toner image secondarily transferred to the recording material P while conveying the recording material P. Reference numeral 22 denotes a high-voltage output unit that outputs a voltage applied to each part of the apparatus 1 such as the roller 16 or the roller 19. In addition, a sensor 35 that is an example of a detection unit that detects the front end and the rear end of the recording material P is provided in the conveyance path between the transfer unit and the fixing unit. The drum 11 to the fixing device 20 described above constitute an example of the image forming unit 50.

  A discharge roller 21 discharges the recording material P fixed by the fixing device 20 to the outside of the apparatus 1. Reference numeral 30 denotes a recording material discrimination unit for discriminating the type of the recording material P that has been conveyed. In order to determine the type of the recording material P, the unit 30 detects the recording material P and outputs a predetermined output value relating to the characteristics of the recording material P. A power supply unit 40 converts a voltage value supplied from a commercial power supply 50 (also referred to as an external power supply) into a voltage value for use in the apparatus 1. Details of the unit 30 and the power supply unit 40 will be described later. The control unit 10 is composed of an MPU (not shown) provided with a CPU (not shown) and the like, and has a function for controlling the apparatus 1. The control unit 10 also includes a ROM 101 that is a storage unit that stores various programs related to signal processing for image formation and various constants. Further, the control unit 10 is a determination unit that controls the electrophotographic process and determines the type of the recording material P based on the output value output by the unit 30. The control unit 10 determines a printing mode corresponding to the determined type of the recording material P, and controls various image forming conditions. The image forming conditions here are, for example, the conveyance speed of the recording material P, the voltage value applied to the rollers 16 and 19, the temperature at which the image is fixed on the recording material P by the fixing device 20, and the like. Further, the control unit 10 may control the rotation speed of the rollers 16 and 19 when transferring an image as an image forming condition. Further, the control unit 10 may control the rotation speed of the fixing roller included in the fixing device 20 when fixing an image as an image forming condition.

<Description of Recording Material Discrimination Unit 30>
The unit 30 and the power supply part 40 in a present Example are demonstrated in detail using FIG. First, the configuration of the unit 30 will be described. As shown in the block diagram of FIG. 2, the unit 30 includes a basis weight detection unit 301 that detects the basis weight of the recording material P and a surface property detection unit 311 that detects the surface property of the recording material P.

  The detection unit 301 includes an ultrasonic transmission unit 303 that transmits ultrasonic waves, and an ultrasonic reception unit 304 that receives ultrasonic waves transmitted from the transmission unit 303. Here, the transmission unit 303 and the reception unit 304 are arranged to face each other so as to sandwich the recording material P being conveyed. The transmission unit 303 and the reception unit 304 are connected to the ultrasonic control unit 302. The transmission unit 303 transmits ultrasonic waves having a predetermined frequency in accordance with instructions from the control unit 302. The receiving unit 304 receives the ultrasonic wave that has passed through the recording material P, and outputs a voltage value corresponding to the received ultrasonic wave. The control unit 302 outputs the peak value of the voltage value output from the reception unit 304 to the control unit 10.

  The ultrasonic wave that has passed through the recording material P attenuates the peak value of the waveform according to the basis weight of the recording material P. For example, the recording material P with a small basis weight has a large ultrasonic peak value, and the recording material P with a large basis weight has a small ultrasonic peak value. The control unit 10 determines the basis weight of the recording material P based on the output peak value. For example, when the basis weight determined by the control unit 10 is small, the control unit 10 determines that the type of the recording material P is thin paper, and when the determined basis weight is large, the control unit 10 determines the type of the recording material P. Judged to be cardboard.

  The following effects can be obtained by appropriately setting the fixing temperature of the fixing device 20 according to the basis weight or type determined by the control unit 10. For example, in the case of the recording material P having a small basis weight such as thin paper, the required power is reduced by setting the fixing temperature lower, and conversely in the case of the recording material P having a large basis weight such as thick paper, the fixing temperature. The fixing property is improved by setting the value to a higher value or lowering the conveyance speed of the recording material P. As described above, the control unit 10 controls the image forming conditions of the apparatus 1 based on the basis weight or the type discrimination result. Further, the control unit 10 may control the image forming conditions of the apparatus 1 directly from the peak value output from the control unit 302 without determining the basis weight or type of the recording material P.

  The detection unit 311 includes a light source 314 that irradiates light on the surface of the recording material P and an imaging unit 316 that receives reflected light reflected by the surface of the recording material P and images the received light as an image. Yes. In this embodiment, a line sensor in which a plurality of light receiving elements are arranged in the width direction of the recording material is used as the imaging unit 316. By using the line sensor, it is possible to capture an image while conveying the recording material P. The light source drive circuit 313 controls the light emission amount and the light emission period of the light source 314, and the waveform shaping circuit 315 converts the intensity of light received by the plurality of light receiving elements of the imaging unit 316 into a voltage value and outputs it as image information. The surface property detection processing unit 312 transmits and receives signals to and from the circuits 313 and 315. For example, the processing unit 312 issues an instruction for starting a detection operation to the circuit 313. Further, based on the image information output from the circuit 315, the processing unit 312 outputs information related to surface properties, such as the difference between the maximum density value and the minimum density value included in the image information, to the control unit 10.

  The image to be picked up varies depending on the surface property (unevenness) of the recording material P. For example, in the case of the recording material P having a rough surface (deep unevenness), an image with a high shadow ratio is obtained by the irradiated light. On the other hand, in the case of the recording material P having a relatively smooth surface (shallow unevenness), the image has few shadows. The control unit 10 discriminates the surface property of the recording material P based on the output surface property information. For example, when the control unit 10 determines that the surface of the recording material P is rough, the control unit 10 determines that the type of the recording material P is rough paper and determines that the surface of the recording material P is smooth. The control unit 10 determines that the type of the recording material P is coated paper.

  The recording material P having a smooth surface such as coated paper has a relatively low resistance value, and requires a larger transfer current and higher transfer voltage to transfer the toner agent than a rough recording material such as rough paper. . For this reason, it is also effective for improving the image quality that the control unit 10 controls the transfer current and the transfer voltage according to the determination result of the surface property. As described above, the control unit 10 controls the image forming conditions of the apparatus 1 based on the determination result of the surface property. Further, the control unit 10 may directly control the image forming conditions of the apparatus 1 from the information output from the circuit 315 without discriminating the surface property or type of the recording material P.

<Description of Power Supply 40>
Next, the configuration of the power supply unit 40 will be described. As shown in the block diagram of FIG. 2, the power supply unit 40 in this embodiment includes an AC / DC conversion unit 400 and a type signal output unit 401. The converter 400 converts an AC commercial voltage value supplied from the commercial power supply 50 into a DC voltage. The voltage Vcc converted into a DC voltage by the converter 400 is supplied into the device 1. The output unit 401 outputs the Type signal shown in FIG. 2 to the control unit 10, and the control unit 10 can detect the type of power supply from the notified Type signal.

  Here, the type of power supply will be described. Depending on the region where the device 1 is used, the commercial voltage value supplied from the commercial power supply 50 may be 115V (voltage standard range 100V to 127V) or 230V (voltage standard range 220V to 240V). is there. For this reason, the power source mounted on the apparatus 1 is usually manufactured in accordance with the area to be shipped, and there are many cases in which the configuration differs. The control unit 10 detects the difference between these configurations as the type of power supply.

  A method in which the control unit 10 detects the type of power supply based on the Type signal will be described. In the present embodiment, the device 1 that operates on the power supply unit 40 of either of the two types of 115V range and 230V range will be described, but the present invention is not limited to this. The power supply type may be a so-called universal power supply configuration that can be used regardless of whether the power source type is 115 V or 230 V. The Type signal output by the output unit 401 is output by the voltage Vcc generated in the power supply unit 40 and the element R1 or R2. For example, in the case of a 115V power supply, R1 in FIG. 2 is not mounted (the signal line is opened). As a result, when a commercial voltage value of 115 V is supplied from the commercial power supply 50, the output unit 401 outputs a GND level Type signal. In the case of a power supply for 230 V range, R2 in FIG. 2 is not mounted (the signal line is opened). As a result, when a commercial voltage value of 230 V is supplied from the commercial power supply 50, the output unit 401 outputs a Type signal at the Vcc level. Based on the Type signal, the control unit 10 detects whether the type of the power supply unit 40 is for 115V range or 230V range.

  In the above-described example, the identification of the 115V range and the 230V range has been described. However, at least two types of commercial voltage values may be identified, and the present invention is not limited to these two types. For example, the commercial voltage value may be identified even in a voltage range that does not fall within the 115V range or the 230V range. Further, for example, the 115V range (voltage standard range 100V to 127V) may be divided into 100V range (voltage standard range 100V to 110V) and the other 115V range (voltage standard range 110V to 127V). . In this case, the control unit 10 selects the recording material discrimination table 2 when in the 100V range or 230V range, and selects the recording material discrimination table 1 when in the other 115V range.

<Description of recording material type determination method>
A method for discriminating the type of the recording material P and a method for controlling the image forming conditions in this embodiment will be described. First, a recording material determination table for the control unit 10 to determine the type of the recording material P will be described with reference to FIG. 3 indicates the basis weight of the recording material P (detection result of the detection unit 301), and the vertical axis of FIG. 3 indicates the surface property of the recording material P (detection result of the detection unit 311). FIG. 3 is a diagram visually showing a recording material discrimination table stored in the ROM 101, and a plurality of areas (area A and area B) are formed by a threshold Th. This table defines image forming conditions for recording materials belonging to the corresponding area. Here, the image forming conditions defined in FIG. 3 are a fixing temperature, a transfer bias value, and a recording material conveyance speed. The control unit 10 can select the specific area from the detection results of the detection unit 301 and the detection unit 311, thereby determining the type of the recording material P and controlling the image forming conditions. In the present embodiment, in the recording material discrimination table shown in FIG. 3A, a threshold is simply set only for the basis weight detection result, but for example, a threshold is also set for the surface property. However, it is possible to increase the area. Furthermore, in this embodiment, the control unit 10 determines the type of the recording material P using the recording material determination table, but includes the detection results of the detection unit 301 and the detection unit 311 as parameters instead of the recording material determination table. The type of the recording material P may be determined using a calculation formula. In this case, it is assumed that information on the calculation formula is stored in the ROM 101.

  Next, a case where it is difficult for the control unit 10 to correctly determine the type of the recording material P based only on the detection results of the detection unit 301 and the detection unit 311 will be described. FIG. 3B is a diagram plotting the result of detecting a plurality of different types of recording materials A and B as an example. The recording material A is plain paper of A4 size and basis weight of 75 g mainly distributed in the 230V range. The recording material B is a plain paper having a LETTER size and a basis weight of 80 g mainly distributed in the 115V range. Thus, the recording material A and the recording material B have very close basis weights. In addition, as shown in FIG. 3B, the detection results of the recording material A and the recording material B have variations due to the influence of manufacturing variations and the like. As a result, the detection results of the recording material A and the recording material B may overlap. In this case, it is difficult to accurately determine the type of each recording material P using the threshold Th as shown in FIG. 3A, and there are different image forming conditions despite the same type of recording material P. It may be set.

  Here, the relationship between the commercial voltage value and the type of the recording material P will be described. In general, the distribution region of the recording material P is often different depending on the type. For example, the A4 size recording material A and the LETTER size recording material B of this embodiment have a large difference in the distribution amount in the same region. Therefore, if the area can be estimated, the type of recording material P to be used can be estimated. For example, in the 230V range, A4 size recording material A is often used, and on the contrary, LETTER size recording material B is rarely used. On the other hand, in the 115V range, the LETTER size recording material B is often used, and conversely, the A4 size recording material A is rarely used.

  Based on the above relationship, the control unit 10 selects a specific recording material determination table from the plurality of recording material determination tables stored in the ROM 101 according to the commercial voltage value, and determines the type of the recording material P. This method will be described with reference to FIG. 4A and 4B are recording material discrimination tables in which different threshold values are set. FIG. 4A shows the recording material discrimination table 1 that is selected when the commercial voltage value is 115 V, that is, when the control unit 10 detects that the power source type is for the 115 V range. FIG. 4B is a recording material discrimination table 2 that is selected when the commercial voltage value is 230 V, that is, when the control unit 10 detects that the power source type is for 230 V range. The control unit 10 selects a table from a plurality of tables prepared according to the commercial voltage value, determines the type of the recording material P according to the selected table, and controls the image forming conditions. In each table, areas divided by threshold values are set as described above, and image forming conditions are set according to the areas.

  As an example, when the apparatus 1 is used in the 115V range, the control unit 10 selects the “recording material discrimination table 1” shown in FIG. In the table of FIG. 4A, a threshold Th1 is set. In the table of FIG. 4A, it is determined that the recording material P showing the detection result of the overlapping range is the recording material B of LETTER size. When the device 1 is used in the 230V range, the control unit 10 selects the “recording material determination table 2” shown in FIG. In the table of FIG. 4B, a threshold value Th2 is set. In the table of FIG. 4B, it is determined that the recording material P showing the detection result of the overlapping range described above is the recording material A of A4 size. By doing so, it is possible to prevent different image forming conditions from being set for the same type of recording material P. Selecting the recording material determination table in this way corresponds to selecting (determining) a predetermined threshold value from a plurality of threshold values for determining the type of the recording material P. That is, this corresponds to selecting (determining) a rule for determining the type of the recording material P.

<Explanation regarding processing of control unit 10>
Next, the process of the control part 10 in a present Example is demonstrated using the flowchart of FIG. 5 and FIG. The control based on the flowcharts of FIGS. 5 and 6 is executed by the control unit 10 based on a program stored in the ROM 101 or the like.

  First, in step (hereinafter abbreviated as S) 501, when the apparatus 1 is turned on, the control unit 10 starts an initialization operation of each unit. As an initialization operation, the control unit 10 energizes a heater disposed inside the fixing device 21 in order to increase the temperature of the fixing device 21, and adjusts the temperature of the fixing device 21 to a temperature in a standby state. In step S <b> 502, the control unit 10 detects the type of the power supply unit 40 based on the Type signal output from the output unit 401. In step S <b> 503, the control unit 10 selects a specific table from a plurality of tables stored in the ROM 101 based on the type of the power supply unit 40 detected in step S <b> 502.

  The table selection method in S503 will be described in detail with reference to the flowchart of FIG. In S601 of FIG. 6, the control unit 10 determines whether or not the detected type of the power supply unit 40 is for the 115V range. When the detected type is the 115V range, the process proceeds to S602, and the control unit 10 selects the recording material determination table 1 which is a table for the 115V range. If the detected type is not the 115V range, the process proceeds to S603, and the recording material discrimination table 2 that is a table for the 230V range is selected. After executing the above table selection process, the control unit 10 returns to S504 and performs the process.

  In step S504, the control unit 10 waits for a print job from a host computer (not shown). When a print job is received, the process proceeds to step S505, and the control unit 10 issues an instruction to start driving to each unit in order to perform an image forming operation. In step S <b> 505, the control unit 10 rotates the roller 4 to supply the recording material P from the cassette 2. In S <b> 506, an instruction to start the detection operation of the recording material P is issued to the unit 30 at a timing when the recording material P conveyed after a predetermined time has passed from the supply operation reaches the unit 30. The unit 30 that has received the instruction detects the basis weight of the recording material P conveyed by the detection unit 301, detects the surface property of the recording material P by the detection unit 311, and transmits the detection result to the control unit 10. When the control unit 10 receives a detection result from the unit 30 in S507, the process proceeds to S508. In step S508, the control unit 10 determines the type of the recording material P based on the table selected in step S503 and the detection result received in step S507, and controls image forming conditions according to the determined result. Then, in accordance with the set image forming conditions, the control unit 10 instructs each unit to perform image forming processing on the recording material P (S509), and ends the control.

  As described above, by using information on the type of the power supply unit 40, that is, the voltage value supplied from the commercial power supply 50, the type of the recording material can be accurately discriminated and a high-quality image can be formed. Can be provided.

  In the present embodiment, the configuration in which the control unit 10 detects the type of power source of the apparatus 1 and the voltage value supplied from the commercial power source 50 by the power source unit 40 has been described. However, it is not limited to this. For example, an input unit (not shown) through which a user can input various information is provided in the apparatus 1, and the control unit 10 controls the power supply unit based on information on the voltage value supplied from the commercial power supply 50 input therefrom. The structure which detects 40 types may be sufficient.

  Next, a method for determining the type of the recording material P in this embodiment will be described. The description of the main part is the same as that of the first embodiment, and only the parts different from the first embodiment will be described here. In the first embodiment, in order to select a specific table from a plurality of tables, information on the type of the power supply unit 40, that is, the voltage value supplied from the commercial power supply 50 is used. Use information about the size of.

<Description of Size Detection Unit 44>
First, the size detection unit 44 that detects the size of the recording material P in this embodiment will be described with reference to FIGS. FIG. 7 is a diagram showing members around the cassette 2 of the apparatus 1. In this embodiment, the cassette 2 is provided with a regulating plate 445 that regulates the rear end of the recording material P accommodated in the cassette 2 (the upstream end in the conveyance direction of the recording material P). The restriction plate 445 is configured to be movable by the user according to the size of the recording material P accommodated.

  Next, FIG. 8 is a block diagram showing the configuration of the unit 30 and the detection unit 44 in the present embodiment. Since the configuration of the unit 30 is the same as that of the first embodiment, the description thereof is omitted. The detection unit 44 includes a restriction plate 445, switches 443 and 444 that are switched ON and OFF depending on the position of the restriction plate 445, and elements R3 and R4. The detection unit 44 is connected to the control unit 10 through signal lines SIZE A4 and SIZE LTR, and the control unit 10 detects the size of the recording material P from the combination of the signal levels received through the respective signal lines. The detection unit 44 described in the present embodiment only needs to detect at least two kinds of sizes including at least the A4 size or the LETTER size.

  As an example, a case where the size of the recording material P is A4 size will be described. When the user sets the A4-sized recording material P in the cassette 2, the user sets the regulating plate 445 at a position corresponding to the A4 size. The switch 443 is turned on by the regulation plate 445, and in the circuit of the detection unit 44, a current flows from the power supply Vcc to the GND via the resistor R441, and the signal line SIZE A4 becomes a potential at the GND level. Further, the switch 444 is turned off by the restriction plate 445, and the potential of the signal line SIZE LTR becomes the Vcc level. The control unit 10 detects that the recording material P set from the potential level of each signal line is A4 size. When the size of the recording material P is the letter size, the ON / OFF states of the switches 443 and 444 are reversed, and the relationship between the potential levels output from the respective signal lines is also reversed. In the present embodiment, the case where two signal lines are connected between the detection unit 44 and the control unit 10 has been described. However, when two types of sizes are detected, one signal line may be used.

<Description on Recording Material Type Determination Method and Control Unit 10>
In this embodiment, the ROM 101 stores a plurality of recording material discrimination tables. Then, according to the size of the recording material P, the control unit 10 selects a specific table from among a plurality of recording material determination tables stored in the ROM 101. As an example, the table 1 in FIG. 4A is selected when it is detected that the size of the recording material P is the LETTER size, and the table 2 in FIG. 4B is the size of the recording material P is the A4 size. Selected when detected.

  Next, the process of the control part 10 in a present Example is demonstrated using the flowchart of FIG. 5 and FIG. The control based on the flowcharts of FIGS. 5 and 9 is executed by the control unit 10 based on a program stored in the ROM 101 or the like. The processing of the control unit 10 in the present embodiment is different from the processing in the first embodiment in S502 and S503. Since other processes are the same as those in the first embodiment, description thereof is omitted. In this embodiment, the process of S502 is replaced with a process in which the control unit 10 detects the size of the recording material P based on the signal value output from the detection unit 44. Further, the process of S503 is replaced with a process of selecting a specific table from a plurality of tables stored in the ROM 101 based on the size of the recording material P detected by the control unit 10 in S502.

  The table selection method in S503 will be described in detail with reference to the flowchart of FIG. In S611 of FIG. 9, the control unit 10 determines whether or not the detected size of the recording material P is the LETTER size. When the detected size is the LETTER size, the process proceeds to S612, and the control unit 10 selects the table 1 described in FIG. If the detected size is not the LETTER size, the process proceeds to S613, and the table 2 described in FIG. 4B is selected. After executing the above table selection process, the control unit 10 returns to S504 and performs the process.

  Thus, by selecting a table according to the size of the recording material P and discriminating the type of the recording material P with the selected table, the same effect as in the first embodiment can be obtained. That is, it is possible to prevent different image forming conditions from being set for the same type of recording material P.

  As described above, by using the information regarding the size of the recording material P, it is possible to provide an image forming apparatus that can accurately determine the type of the recording material and form a high-quality image.

  In the present embodiment, the size detection unit 44 that detects the size of the recording material P based on the position of the regulation plate 445 has been described. However, the means for detecting the size of the recording material P is not limited to this. For example, when a first image is formed after the recording material P is stored in the cassette 2, the timing at which a specific sensor (sensor 34 or sensor 35) detects the leading edge and the trailing edge of the recording material, and conveyance of the recording material The control unit 10 may be configured to detect the size of the recording material based on the speed. Further, similarly to the first embodiment, the user inputs information related to the size of the recording material P from an input unit (not shown), and the control unit 10 detects the size of the recording material P based on the information. Good.

  Further, in addition to the above-described embodiment, the apparatus 1 may have both the configurations of Embodiment 1 and Embodiment 2. In this case, for example, when the power supply unit 40 detects that the power supply type is for the 115 V range and the size of the recording material P is the LETTER size, the control unit 10 may select the table 1. . Then, when either one shows another value, the table selection operation may not be executed. As a result, it is possible to prevent an erroneous table from being selected, and as a result, the discrimination accuracy of the type of the recording material P is lowered.

  In the above embodiment, the configuration in which the recording material determination unit 30 includes the basis weight detection unit 301 and the surface property detection unit 311 has been described. However, it is sufficient that at least one detection unit capable of detecting information related to the characteristics of the recording material P for determining the type of the recording material P is provided, and the characteristics and detection means thereof are not limited thereto. Therefore, the unit 30 may have only one of the detection unit 301 and the detection unit 311. Alternatively, a detection unit may be provided that irradiates the recording material P with light, receives light transmitted through the recording material, and detects the thickness of the recording material P from the amount of the received light. Alternatively, a detection unit may be provided that irradiates the recording material P with light, receives light reflected by the recording material P, and detects the surface property of the recording material P from the amount of the received light. Each light receiving unit may be an imaging unit that captures received light as an image.

  In the above embodiment, the control for selecting a specific table from the plurality of recording material determination tables based on the information on the voltage value supplied from the commercial power supply 50 or the information on the size of the recording material P is described. did. However, it is not limited to this. There may be one table stored in the storage unit, and the threshold value of the table may be corrected based on information on voltage values or information on sizes. Or you may make it correct | amend the coefficient of the calculation formula containing the detection result of the detection part 301 and the detection part 311 as a parameter. These controls correspond to correcting (determining) a rule for determining the type of the recording material P.

  Furthermore, the detection result (output value) of the detection unit 301 or the detection unit 311 may be corrected based on information on the voltage value or information on the size. For example, when it is detected that the type of the power supply unit 40 is the type for the 115V range or the size of the recording material P is the LETTER size, the detection result is displayed in the right direction in the horizontal axis direction of the table in FIG. Correct to shift to. As a result, the same effect as in the above embodiment can be obtained.

  In the above-described embodiment, the recording material determination unit 30 is fixed to the image forming apparatus 1. However, the unit 30 may be configured to be detachable from the apparatus 1. If the unit 30 is configured to be detachable, for example, when the unit 30 breaks down, the user can easily replace it. Alternatively, the unit 30 may be configured to be additionally mountable on the apparatus 1.

  In the above-described embodiment, the recording material determination unit 30 and the control unit 10 may be integrated to be detachable from the image forming apparatus 1. This configuration is shown in FIGS. FIG. 10 is a block diagram of the unit 30 including the power supply unit 40, and FIG. 11 is a block diagram of the unit 30 including the size detection unit 44. In this way, if the unit 30 and the control unit 10 can be integrated and replaced, the user can easily replace the sensor with a new function when the function of the unit 30 is updated or added. it can. Or the unit 30 and the control part 10 may be simply integrated, and the structure which can be additionally mounted | worn with respect to the apparatus 1 may be sufficient.

  Here, the apparatus to which the recording material determination unit 30 is attached is not limited to the image forming apparatus 1. For example, by including the recording material determination unit 30 in the image reading image scanner, it is possible to set an optimal reading condition according to the recording material P.

  In the above embodiment, an example of a laser beam printer is shown. However, the image forming apparatus to which the present invention is applied is not limited to this, and a printer of another printing system such as an ink jet printer or a copying machine. But you can.

DESCRIPTION OF SYMBOLS 1 Image forming apparatus 10 Control part 30 Recording material discrimination | determination unit 40 Power supply part 50 Image forming part

Claims (31)

In an image forming apparatus having an image forming unit for forming an image on a recording material,
A first output unit for outputting an output value related to a voltage value supplied from an external power source;
A second output unit for detecting the recording material and outputting an output value relating to the characteristics of the recording material;
A control unit that controls an image forming condition of the image forming unit based on an output value related to the voltage value output by the first output unit and an output value related to the characteristic output from the second output unit. An image forming apparatus comprising:   The first output unit is a power supply unit corresponding to a plurality of voltage standards, and when the voltage value supplied from the external power supply is the first voltage value, a predetermined output value is output from the external power supply. The image according to claim 1, wherein when the supplied voltage value is a second voltage value different from the first voltage value, an output value different from the predetermined output value is output. Forming equipment. In an image forming apparatus having an image forming unit for forming an image on a recording material,
A first output unit for outputting an output value relating to the size of the recording material;
A second output unit for detecting the recording material and outputting an output value relating to the characteristics of the recording material;
A control unit configured to control an image forming condition of the image forming unit based on an output value related to the size output from the first output unit and an output value related to the characteristic output from the second output unit; An image forming apparatus comprising: A storage section for storing the recording material;
A restriction plate for restricting the position of the recording material accommodated in the accommodating portion;
The image forming apparatus according to claim 3, wherein the first output unit outputs an output value related to the size according to a position of the restriction plate. A transport unit for transporting the recording material;
A detection unit that detects the recording material being conveyed by the conveyance unit;
The first output unit outputs an output value related to the size based on a time from when the leading end of the recording material is detected by the detecting unit to when the trailing end of the recording material is detected and the conveyance speed of the recording material. The image forming apparatus according to claim 3, wherein the image forming apparatus outputs the image. It has an input unit that can input information on a voltage value supplied from an external power supply or information on the size of the recording material,
The first output unit outputs an output value related to the voltage value or an output value related to the size based on the information input by the input unit. The image forming apparatus described in the item.   The second output unit includes a transmission unit that transmits ultrasonic waves and a reception unit that receives the ultrasonic waves transmitted from the transmission unit, and the ultrasonic waves are transmitted by the transmission unit, and the recording material passes through the recording material. The image forming apparatus according to claim 1, wherein the second output unit outputs an output value related to the characteristic in accordance with an ultrasonic wave received by the receiving unit.   The image forming apparatus according to claim 7, wherein the transmission unit and the reception unit are disposed to face each other, and the reception unit receives an ultrasonic wave transmitted by the transmission unit and transmitted through a recording material.   The second output unit includes an irradiating unit that irradiates light and a light receiving unit that receives light irradiated by the irradiating unit, and is irradiated with light by the irradiating unit, and is received by the light receiving unit via a recording material. The image forming apparatus according to claim 1, wherein the second output unit outputs an output value related to the characteristic in accordance with received light.   The image forming apparatus according to claim 9, wherein the light receiving unit receives the light irradiated by the irradiation unit and reflected by the recording material.   The image forming apparatus according to claim 9, wherein the light receiving unit receives light irradiated by the irradiation unit and transmitted through the recording material.   The image forming apparatus according to claim 9, wherein the light receiving unit is an imaging unit that captures received light as an image.   The control unit corrects the output value output from the second output unit with the output value output from the first output unit, or the output value output from the first output unit. 13. The rule for controlling the image forming condition is determined, and the image forming condition is controlled based on the corrected output value or the determined rule. The image forming apparatus described. A storage unit for storing a plurality of thresholds as the rule;
The control unit selects a predetermined threshold from the plurality of thresholds stored in the storage unit based on the output value output from the first output unit, and outputs from the second output unit The image forming apparatus according to claim 13, wherein the image forming condition is controlled by comparing the output value thus selected with the selected predetermined threshold value. A storage unit for storing at least one threshold as the rule;
The control unit corrects the threshold value stored in the storage unit based on the output value output from the first output unit, and corrects the output value output from the second output unit. The image forming apparatus according to claim 13, wherein the image forming condition is controlled by comparing threshold values.   When the control unit detects that the voltage value supplied from the external power source is 115 V based on the output value related to the voltage value output from the first output unit, or output from the first output unit The first threshold value that is determined when it is detected that the size of the recording material is a LETTER size based on the output value related to the size is the voltage output from the first output unit by the control unit. When it is detected that the voltage value supplied from the external power supply is 230 V based on the output value related to the value, or the size of the recording material is A4 size based on the output value related to the size output from the first output unit The image forming apparatus according to claim 14, wherein the image forming apparatus is smaller than a second threshold value that is determined when it is detected.   The image forming apparatus according to claim 1, wherein the image forming condition is a temperature at which a fixing unit included in the image forming unit fixes an image on a recording material. .   The image forming apparatus according to claim 1, wherein the image forming condition is a voltage value supplied to a transfer unit included in the image forming unit.   The image forming apparatus according to claim 1, wherein the image forming condition is a conveyance speed of a recording material. A first output unit for outputting an output value related to a voltage value supplied from an external power source;
A second output unit for detecting the recording material and outputting an output value relating to the characteristics of the recording material;
A discriminating unit that discriminates the type of the recording material based on the output value related to the voltage value output by the first output unit and the output value related to the characteristic output from the second output unit; Characteristic recording material discrimination unit. A first output unit for outputting an output value relating to the size of the recording material;
A second output unit for detecting the recording material and outputting an output value relating to the characteristics of the recording material;
A discriminating unit that discriminates the type of the recording material based on the output value related to the size output from the first output unit and the output value related to the characteristic output from the second output unit; Recording material discrimination unit.   The second output unit includes a transmission unit that transmits ultrasonic waves and a reception unit that receives the ultrasonic waves transmitted from the transmission unit, and the ultrasonic waves are transmitted by the transmission unit, and the recording material passes through the recording material. The recording material discrimination unit according to claim 20 or 21, wherein the second output unit outputs an output value related to the characteristic in accordance with an ultrasonic wave received by the receiving unit.   The transmitting unit and the receiving unit are disposed to face each other, the receiving unit receives ultrasonic waves transmitted by the transmitting unit and transmitted through a recording material, and the determination unit outputs an output value related to the size and an output related to the characteristic 23. The recording material discrimination unit according to claim 22, wherein the basis weight of the recording material is discriminated based on the value.   The second output unit includes an irradiating unit that irradiates light and a light receiving unit that receives light irradiated by the irradiating unit, and is irradiated with light by the irradiating unit, and is received by the light receiving unit via a recording material. 24. The recording material discrimination unit according to claim 20, wherein the second output unit outputs an output value related to the characteristic in accordance with received light.   The light receiving unit receives the light irradiated by the irradiation unit and reflected by the recording material, and the second output unit outputs an output value related to the type according to the amount of light received by the light receiving unit, 25. The recording material discrimination unit according to claim 24, wherein the discrimination unit discriminates the surface property of the recording material based on the output value relating to the size and the output value relating to the characteristic.   The light receiving unit receives the light irradiated by the irradiation unit and transmitted through the recording material, and the second output unit outputs an output value related to the type according to the amount of light received by the light receiving unit, 25. The recording material discrimination unit according to claim 24, wherein the discrimination unit discriminates a thickness of the recording material based on an output value relating to the size and an output value relating to the characteristic.   The light receiving unit is an imaging unit that captures received light as an image, the second output unit outputs an output value related to the type according to the image captured by the imaging unit, and the determination unit is the size 27. The recording material discriminating unit according to claim 24, wherein the surface property or thickness of the recording material is discriminated based on the output value relating to the characteristic and the output value relating to the characteristic.   The determination unit corrects the output value output from the second output unit with the output value output from the first output unit, or the output value output from the first output unit. 28. The rule for determining the type of the recording material is determined, and the type of the recording material is determined based on the corrected output value or the determined rule. The recording material discrimination unit described. A storage unit for storing a plurality of thresholds as the rule;
The determination unit selects a predetermined threshold value from the plurality of threshold values stored in the storage unit based on the output value output from the first output unit, and outputs the threshold value from the second output unit. 29. The recording material determination unit according to claim 28, wherein the type of the recording material is determined by comparing the output value thus selected with the selected predetermined threshold value. A storage unit for storing at least one threshold as the rule;
The determination unit corrects the threshold value stored in the storage unit based on the output value output from the first output unit, and corrects the output value output from the second output unit. 29. The recording material discrimination unit according to claim 28, wherein the type of the recording material is discriminated by comparing the threshold values. When the determination unit detects that the voltage value supplied from the external power source is 115 V based on the output value related to the voltage value output from the first output unit, or output from the first output unit The first threshold value determined when it is detected that the size of the recording material is the LETTER size based on the output value relating to the size is the voltage output from the first output unit by the determination unit. When it is detected that the voltage value supplied from the external power supply is 230 V based on the output value related to the value, or the size of the recording material is A4 size based on the output value related to the size output from the first output unit 31. The recording material discrimination unit according to claim 29 or 30, wherein the recording material discrimination unit is smaller than a second threshold value that is determined when it is detected.

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