JP2006130696A - Inkjet printer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enhance a detection precision of a deviated printing detection sensor by reducing the total manufacturing cost from the assembly of each of parts forming the deviated printing detection sensor to the completion of the whole printer in an inkjet printer. <P>SOLUTION: A sensor case section 38 for directly attaching a light emitting element 41, a first lens 42, a second lens 43, a light sensitive element 44, a circuit board 45, a cover member 46, and a metallic plate 47 to a side face of a cradle 33 is integrally formed with the cradle 33. The components such as the light emitting element 41, the first lens 42, the second lens 43, the light sensitive element 44 and the like are sequentially assembled in the sensor case section 38 in an assembly line in a manufacturer of a inkjet printer 1. As a result, it is possible to obviate a process of coupling a sensor case member to the cradle 33, which has been necessary heretofore, to reduce the manufacturing cost and to enhance the detection precision of the deviated printing detection sensor 4. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an ink jet printer having a function of automatically correcting a printing deviation that occurs when an ink cartridge is mounted.

  Conventionally, in an ink jet printer, after mounting an ink cartridge, a predetermined print deviation detection pattern is formed on a recording paper by a recording head, the pattern is read by a print deviation detection sensor, and the recording head is controlled based on the result. A device having a function of automatically correcting a printing deviation by adjusting the timing has been put into practical use.

  FIG. 4 shows the configuration of a print deviation detection sensor and its peripheral part used in such a conventional ink jet printer. The print misalignment detection sensor 104 includes a light emitting element 141, a first lens 142, a second lens 143, a light receiving element 144, a circuit board 145, a cover member 146, a sensor case member 150 on which these components are mounted, and the like. Has been. The sensor case member 150 is coupled to the cradle 133 with a screw 148 in an assembly state in which the light emitting element 141, the first lens 142, the second lens 143, the light receiving element 144, the circuit board 145, and the cover member 146 are mounted. . The cradle 133 is reciprocated in a so-called main scanning direction that is substantially orthogonal to the recording paper conveyance direction while supporting the ink cartridges 131 and 132. A side surface of the cradle 133 is formed with a pair of protrusions 161 for positioning the sensor case member 150 and a cylindrical portion 162 into which a screw 148 is screwed. On the other hand, the sensor case member 150 is provided with a slit 156 and a hole 157 corresponding to the protrusion 161 and the cylindrical portion 162, and the light emitting element 141, the first lens 142, the second lens 143, and the light receiving element 144, respectively. Recesses 151, 152, 153, and 154 are provided.

  Hereinafter, an assembly procedure of the print deviation detection sensor 104 in such a conventional ink jet printer will be described. First, the light emitting element 141, the first lens 142, the second lens 143, and the light receiving element 144 are fitted and mounted in the recesses 151, 152, 153, and 154 of the sensor case member 150, and the light emitting element 141 and the light receiving element 144 are mounted. Are inserted into a through hole 149 provided in the circuit board 145 and soldered. In this state, since the terminals of the light emitting element 141 and the light receiving element 144 are exposed, they are insulated by covering with a cover member 146 made of resin molding. Thereby, the sensor assembly 104A is completed. The assembly of the sensor assembly 104A is usually performed by another component manufacturer independent of the assembly line of the ink jet printer manufacturer, and the ink jet printer manufacturer has a sensor assembly 104A in a completed state. Delivered. Therefore, in the assembly line of the manufacturer of the ink jet printer, the sensor assembly 104A delivered from the parts manufacturer and the metal plate 147 for preventing static electricity are mounted on the side of the cradle 133 so that the print deviation detection sensor 104 is mounted on the cradle 133. Can be incorporated. The sensor assembly 104A is fixed to the cradle 133 by a screw 148, and the metal plate 147 is fixed to the cradle 133 by a predetermined screw (not shown) prepared separately.

  However, in such a conventional printer, since a process for coupling the sensor case member 150 (sensor assembly 104A) formed separately from the cradle 133 to the cradle 133 is required, the assembling work becomes complicated and the inkjet printer is Incurs high manufacturing costs. In addition, the sensor case member 150 is delivered through a predetermined inspection process after various parts such as the light emitting element 141, the first lens 142, the second lens 143, and the light receiving element 144 are assembled at a parts manufacturer. The cost is high and the manufacturing cost of the ink jet printer further increases. Furthermore, since a slight backlash occurs at the joint between the sensor case member 150 and the main body of the cradle 133, the mounting posture of the sensor assembly 104A with respect to the cradle 133 varies from product to product, and the detection accuracy of the print misalignment detection sensor 104 is detected. Gets worse.

Patent Document 1 discloses a light beam detector that increases the detection accuracy while reducing the number of components and reducing the manufacturing cost in a polarization scanning light beam detector used in a laser beam printer. ing.
JP-A-9-203873

  The present invention has been made in order to solve the above-described problems, and reduces the total manufacturing cost from assembling individual parts constituting the print deviation detection sensor to completing the entire printer, while reducing the print deviation detection sensor. An object of the present invention is to provide an ink jet printer capable of increasing detection accuracy.

  In order to achieve the above object, an invention according to claim 1 includes an ink cartridge having an ink tank for storing ink, a recording head for discharging an ink stored in the ink tank to form an image on recording paper, and the ink. A cartridge supporting member for supporting the cartridge; a driving means for driving the cartridge supporting member to reciprocate in a direction substantially perpendicular to the recording paper conveyance direction; and a predetermined print deviation detection formed on the recording paper by the recording head. Print deviation detection sensor comprising a print deviation detection sensor for reading a pattern, and a print deviation correction control means for correcting the print deviation by controlling the ejection timing of the recording head based on the print deviation detection pattern read by the print deviation detection sensor. The sensor projects a light emitting element that emits light and the light emitted from the light emitting element onto a recording sheet. The first lens to be connected, the second lens for converging the light reflected by the recording paper, the light receiving element for receiving the light transmitted through the second lens, the light emitting element and the terminals of the light receiving element are connected. In an ink jet printer having a circuit board, a cover member formed by resin molding covering the circuit board, and a metal plate for anti-static measures mounted on the outside of the cover member, the cartridge support member includes a light emitting element, a first The sensor case for directly mounting the first lens, the second lens, the light receiving element, the circuit board, the cover member, and the metal plate to the cartridge support member is integrally formed and formed separately from the cartridge support member. It is possible to omit the step of coupling the sensor case member to the cartridge support member, and Eliminating the backlash of the coupling portion of the main body portion of the cartridge support member, in which enhanced detection accuracy of the print shift detector.

  According to a second aspect of the present invention, there is provided an ink cartridge having an ink tank for storing ink, a recording head for discharging the ink stored in the ink tank to form an image on recording paper, and a cartridge support member for supporting the ink cartridge. A drive means for driving the cartridge support member to reciprocate in a direction substantially perpendicular to the conveyance direction of the recording paper, and a print deviation detection sensor for reading a predetermined print deviation detection pattern formed on the recording paper by the recording head And a print deviation correction control means for correcting the print deviation by controlling the ejection timing of the recording head based on the print deviation detection pattern read by the print deviation detection sensor. A sensor for directly mounting the components that make up the print misalignment detection sensor. The case portion is integrally formed, and it is possible to omit the step of coupling the sensor case member formed separately from the cartridge support member to the cartridge support member, and the main body of the sensor case member and the cartridge support member. This eliminates the backlash of the connecting part with the part, and improves the detection accuracy of the print misalignment detection sensor.

  According to the invention of claim 1, the sensor case portion for mounting components such as the light emitting element, the first lens, the second lens, and the light receiving element is formed integrally with the cartridge support member. Conventionally, it is possible to omit the step of coupling a sensor case member formed separately from the cartridge support member to the cartridge support member, and to reduce the manufacturing cost of the ink jet printer. In particular, the ink-jet assembly of components such as a light-emitting element, a first lens, a second lens, and a light-receiving element, which has been conventionally performed by another component manufacturer independent of an assembly line of an inkjet printer manufacturer, has been used. It becomes possible to carry out in a series of assembly lines of the printer, and it becomes possible to reduce the total manufacturing cost from assembly of individual parts to completion of the entire printer. In addition, since the sensor case portion is integrally formed with the cartridge support member, it is possible to avoid the occurrence of backlash at the connecting portion between the sensor case member and the main body portion of the cartridge support member, which has been unavoidable in the past. As a result, the detection accuracy of the print deviation detection sensor can be increased.

  According to the invention of claim 2, since the sensor case portion for mounting the components constituting the print deviation detection sensor is formed integrally with the cartridge support member, conventionally, it is formed separately from the cartridge support member. The step of coupling the sensor case member to the cartridge support member can be omitted, and the manufacturing cost of the ink jet printer can be reduced. In particular, it has become possible to incorporate each part of an assembly line of an ink jet printer, which has been conventionally performed by another part manufacturer, independent of the assembly line of the ink jet printer manufacturer. It is possible to reduce the total manufacturing cost from assembly of parts to completion of the entire printer. In addition, since the sensor case portion is integrally formed with the cartridge support member, it is possible to avoid the occurrence of backlash at the connecting portion between the sensor case member and the main body portion of the cartridge support member, which has been unavoidable in the past. Thereby, the relative positional relationship between the print deviation detection sensor and the recording paper can be made constant, and the detection accuracy of the print deviation detection sensor can be increased.

  An ink jet printer according to the best mode for carrying out the present invention will be described with reference to the drawings. FIG. 1 shows the configuration of an inkjet printer. On the front surface of the housing 10 of the ink jet printer 1, the operation switch 11 for selecting various functions of the ink jet printer 1 or inputting the print size, the number of sheets, etc., and the selected function and input data are confirmed. In addition, a display element 12 such as a liquid crystal display (LCD) for displaying the operation state of the inkjet printer 1 is provided. A paper feed tray 13 for holding the recording paper 2A to be printed is provided behind the upper surface of the housing 10, and a paper discharge tray for discharging the printed recording paper 2B is provided below the front surface. 14 is provided.

  A control circuit 6 for controlling the entire inkjet printer 1 is provided inside the housing 10. The control circuit 6 not only has a function of forming an image on the recording paper 2A based on image data transmitted from a personal computer (not shown), but also transmitted from the digital camera 20 or the like, for example, JPEG compressed. It also has a function to decompress image data.

  Inside the housing 10, the recording paper 2A is conveyed in the sub-scanning direction (Y direction) from the paper feed tray 13 to a predetermined printing position, and further, the printed recording paper 2B is discharged to the paper discharge tray 14. An image is formed on the recording paper 2A by ejecting ink toward the recording paper 2A while reciprocating in the main scanning direction (X direction) orthogonal to the paper transport mechanism 15 and the sub-scanning direction (Y direction). A carriage 3 is provided.

  FIG. 2 is a perspective view of the carriage 3. The carriage 3 includes a carriage main body 30, a cradle (cartridge support member) 33 that removably supports the ink cartridges 31 and 32, a black ink cartridge 31, a color ink cartridge 32, and the like. A shaft 34 arranged so as to be parallel to the recording paper 2 being conveyed is supported so as to be reciprocable in the main scanning direction. The carriage main body 30 is driven by a drive mechanism (not shown) including a motor, a pulley, a belt, and the like to reciprocate.

  Since the cradle 33 has a structure that removably supports the ink cartridges 31 and 32 (see FIG. 3), the positional relationship between the ink cartridges 31 and 32 mounted by the user and the cradle 33 (alignment of the ink cartridges 31 and 32). ) Fluctuates slightly for each wearing. Along with this, the relative positional relationship of the recording head 36 (see FIG. 3) with respect to the recording paper 2 may fluctuate, and printing misalignment may occur. Therefore, the ink jet printer 1 is provided with the print misalignment detection sensor 4 (see FIG. 3) on the side surface of the cradle 33 to detect the print misalignment as necessary after the ink cartridges 31 and 32 are replaced. It has a function to correct. The print deviation is detected by forming a predetermined print deviation detection pattern on the recording paper 2 by the recording head 36 while scanning the carriage 3 in the main scanning direction, and reading the print deviation detection pattern by the print deviation detection sensor 4. Is made by Further, the correction of the printing deviation is performed by the control circuit 6 controlling the ejection timing of the recording head 36 provided in the ink cartridges 31 and 32 based on the printing deviation detection pattern read by the printing deviation detection sensor 4. Made.

  FIG. 3 shows the configuration of the ink cartridges 31 and 32, the cradle 33, and the print deviation detection sensor 4. Each of the ink cartridges 31 and 32 includes an ink tank 35 that stores ink and a recording head 36 that discharges the ink stored in the ink tank 35 to form an image on the recording paper 2. The cradle 33 is formed by resin molding and has a cartridge mounting portion 37 for mounting the ink cartridges 31 and 32 and a sensor case portion 38 for directly mounting each component constituting the print deviation detection sensor 4. . A portion of the cartridge mounting portion 37 corresponding to the recording head 36 is provided with an opening 39 through which the recording head 36 is inserted into the recording paper 2 side (the lower side in the drawing). The sensor case portion 38 is integrally formed on the side surface of the main body portion of the cradle 33.

  The print misalignment detection sensor 4 converges light reflected by the recording paper 2, a light emitting element 41 that emits light, a first lens 42 that projects the light emitted from the light emitting element 41 onto the recording paper 2, and the like. A second lens 43 to be received, a light receiving element 44 that receives light transmitted through the second lens 43, a circuit board 45 to which the light emitting element 41 and the terminals of the light receiving element 44 are connected, and a resin that covers the circuit board 45 A cover member 46 formed by molding and a metal plate 47 for countermeasure against static electricity attached to the outside of the cover member 46 are provided. The sensor case portion 38 includes recesses 51, 52, 53, and 54 for incorporating the light emitting element 41, the first lens 42, the second lens 43, and the light receiving element 44, and screws for fixing the cover member 46, respectively. A screw hole 55 into which 48 is screwed is provided.

  Hereinafter, an assembly process of the print deviation detection sensor 4 will be described. In the print misalignment sensor 4 of the present embodiment, unlike the conventional one shown in FIG. 4, the sensor case portion 38 is integrally formed on the side surface of the main body of the cradle 33. Upon receipt of individual components such as the light emitting element 41, the first lens 42, the second lens 43, and the light receiving element 44 from the component manufacturer, these are assembled into the sensor case section 38 on the assembly line of the manufacturer of the inkjet printer 1. become. First, the light emitting element 41, the first lens 42, the second lens 43, and the light receiving element 44 are fitted into the corresponding recesses 51, 52, 53, and 54, respectively, and the terminals of the light emitting element 41 and the light receiving element 44 are installed. Is inserted into a through hole 49 provided in the circuit board 45 and soldered. In this state, since the terminals of the light emitting element 41 and the light receiving element 44 are exposed, the cover member 46 is covered and insulated by resin molding, and the cover member 46 is fixed to the sensor case portion 38 with a screw 48. Thereafter, the metal plate 47 for preventing static electricity is attached to the outside of the cover member 46, and a predetermined screw (not shown) prepared separately is fastened, whereby the assembly of the print misalignment detection sensor 4 is completed.

  As described above, according to the ink jet printer 1 of the present embodiment, the sensor case portion 38 for mounting components such as the light emitting element 41, the first lens 42, the second lens 43, and the light receiving element 44 is provided in the cradle. 33, the step of joining the sensor case member 150 formed separately from the cradle 133 to the cradle 133 in the conventional ink jet printer shown in FIG. The manufacturing cost can be reduced. In particular, components such as the light-emitting element 41, the first lens 42, the second lens 43, and the light-receiving element 44 that have been conventionally performed by another component manufacturer independent of the assembly line of the inkjet printer manufacturer. Can be incorporated in a series of assembly lines of the ink jet printer 1, and the total manufacturing cost from assembly of individual parts to completion of the entire printer can be reduced. Further, since the sensor case portion 38 is formed integrally with the cradle 33, it is possible to avoid the occurrence of play at the joint portion between the sensor case member 150 and the main body portion of the cradle 33, which has been unavoidable in the past. As a result, the relative positional relationship between the print deviation detection sensor 4 and the recording paper 2 can be made constant, and the detection accuracy of the print deviation detection sensor 4 can be increased.

  The present invention is not limited to the configuration of the above-described embodiment, and various modifications can be made. For example, the components constituting the print deviation detection sensor 4 include the light emitting element 41, the first lens 42, and the second lens. 43, the light receiving element 44, the circuit board 45, the cover member 46, and the metal plate 47, other components may be added or omitted as appropriate. Further, the position and shape of the sensor case portion 38 are not limited to those shown in FIG. 3, and an arbitrary shape can be obtained after securing the positional relationship between the recording paper 2 and each component constituting the print deviation detection sensor 4. can do.

1 is a perspective view illustrating a configuration of an inkjet printer according to an embodiment of the present invention. The perspective view of the carriage of the printer. FIG. 3 is an assembled perspective view illustrating the configuration of an ink cartridge, a cradle, and a print deviation detection sensor of the printer. FIG. 6 is an assembled perspective view illustrating the configuration of an ink cartridge, a cradle, and a print deviation detection sensor of a conventional inkjet printer.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Inkjet printer 4 Printing deviation detection sensor 6 Control circuit (printing deviation correction control means)
31, 32 Ink cartridge 33 Cradle (cartridge support member)
35 Ink Tank 36 Recording Head 38 Sensor Case 41 Light-Emitting Element 42 First Lens 43 Second Lens 44 Light-Receiving Element 45 Circuit Board 46 Cover Member 47 Metal Plate

Claims (2)

An ink tank that stores ink, an ink cartridge having a recording head that discharges ink stored in the ink tank to form an image on recording paper, a cartridge support member that supports the ink cartridge, and the cartridge support member Drive means for driving to reciprocate in a direction substantially orthogonal to the recording paper conveyance direction, a print deviation detection sensor for reading a predetermined print deviation detection pattern formed on the recording paper by the recording head, and a print deviation detection sensor Printing misalignment correction control means for correcting the printing misalignment by controlling the ejection timing of the recording head based on the print misalignment detection pattern read by
The printing deviation detection sensor is
A light emitting element that emits light, a first lens that projects the light emitted from the light emitting element onto the recording paper, a second lens that converges the light reflected by the recording paper, and the second lens. A light receiving element that receives the transmitted light, a circuit board to which the light emitting element and the terminals of the light receiving element are connected, a cover member formed by resin molding covering the circuit board, and static electricity attached to the outside of the cover member In an inkjet printer having a metal plate for countermeasures,
The cartridge support member is integrally provided with a sensor case portion for directly mounting the light emitting element, the first lens, the second lens, the light receiving element, the circuit board, the cover member, and the metal plate to the cartridge support member. Molded,
It is possible to omit the step of coupling the sensor case member formed separately from the cartridge support member to the cartridge support member, and to prevent the play of the coupling portion between the sensor case member and the main body of the cartridge support member. An inkjet printer characterized in that the detection accuracy of the print deviation detection sensor is improved. An ink tank that stores ink, an ink cartridge having a recording head that discharges ink stored in the ink tank to form an image on recording paper, a cartridge support member that supports the ink cartridge, and the cartridge support member Driving means for driving to reciprocate in a direction substantially perpendicular to the recording paper conveyance direction, a print deviation detection sensor for reading a predetermined print deviation detection pattern formed on the recording paper by the recording head, and a print deviation detection sensor In an ink jet printer provided with a print misalignment correction control means for correcting the print misalignment by controlling the ejection timing of the recording head based on the print misalignment detection pattern read by
The cartridge support member is integrally formed with a sensor case portion for directly mounting components constituting the print deviation detection sensor,
It is possible to omit the step of coupling the sensor case member formed separately from the cartridge support member to the cartridge support member, and to prevent the play of the coupling portion between the sensor case member and the main body of the cartridge support member. An inkjet printer characterized in that the detection accuracy of the print deviation detection sensor is improved.

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