JP5338222B2 - Liquid ejector - Google Patents

Description

The present invention improves, for example, relates to a liquid ejecting apparatus mounting tower multiple assembling modularized liquid ejecting head module liquid ejecting head such as an ink jet recording head, in particular, the workability in replacing the liquid jet head The present invention relates to a liquid ejecting apparatus that can be made to operate.

  For example, a liquid ejecting apparatus is an apparatus that includes a liquid ejecting head capable of ejecting liquid and ejects various liquids from the liquid ejecting head. As a typical example of this liquid ejecting apparatus, for example, an ink jet recording head (hereinafter simply referred to as a recording head) as a liquid ejecting head is provided, and liquid ink is recorded on recording paper or the like from a nozzle opening of the recording head. An image recording apparatus such as an ink jet printer that records an image or the like by ejecting and landing on a medium (a target to be ejected) to form dots can be given. In recent years, liquid ejecting apparatuses have been applied not only to this image recording apparatus but also to various manufacturing apparatuses such as a manufacturing apparatus for color filters such as liquid crystal displays.

  By the way, in the printer described above, a plurality of recording heads (unit heads) are arranged in the conveyance direction of the recording medium to constitute a head unit, and this head unit is arranged in a staggered manner in a direction perpendicular to the conveyance direction to constitute a head module. (For example, refer to Patent Document 1). According to this configuration, it is not necessary to move the recording head in the main scanning direction. For example, an image or the like can be recorded only by transporting the recording medium in the sub-scanning direction. Recording time can be shortened.

JP 2005-88523 A

  However, in a conventional head module, when a certain recording head fails, it is necessary to remove it for each head unit even if only the failed recording head is replaced, and the replacement work takes a lot of labor and time, In addition, with the recent miniaturization of printers, it has become increasingly difficult to secure a working space for workers.

The present invention has been made in view of such circumstances, and an object thereof is to provide a liquid ejecting apparatus capable of improving the workability of replacement work of a liquid ejecting head.

The liquid ejecting apparatus of the present invention has been proposed in order to achieve the above object, a plurality of liquid ejecting head in the liquid ejecting apparatus provided with a plurality of respective detachable liquid ejecting head module mounted against the frame There,
An electric signal supply member for supplying an electric signal to each liquid ejecting head;
A liquid supply member for supplying a liquid to each liquid jet head;
An electrical signal relay member connected to the plurality of electrical signal supply members described above,
The electrical signal supply member and the liquid supply member are respectively provided in a separate and independent state for each of a plurality of liquid ejecting heads constituting the head module,
The electric signal supply member is configured to be extendable and contractible,
An adjustment member for adjusting a relative position between the electric signal relay member and the frame is provided, and an electric signal supply member disposed between the electric signal relay member and the liquid ejecting head is expanded and contracted by the adjustment member. To do.
Further, in the above configuration, the adjustment member is provided in an expandable / contractable state between the electric signal relay member and the frame,
The adjustment member is extended to extend an electric signal supply member disposed between the electric signal relay member and the liquid ejecting head, and a space is formed between the electric signal relay member and the liquid ejecting head. It is desirable to adopt a configuration in which the liquid ejecting heads can be individually replaced from the space.
Note that “expandable” means changing the linear distance from one end to the other end.

According to this configuration, the electric signal supply member that supplies an electric signal to each liquid ejecting head, the liquid supply member that supplies the liquid to each liquid ejecting head, and the electric signal relay member connected to the plurality of electric signal supply members The electric signal supply member and the liquid supply member are provided separately for each of the plurality of liquid ejecting heads constituting the head module, and the electric signal supply member is configured to be extendable and contractable, thereby repeating the electric signal. An adjustment member for adjusting the relative position between the member and the frame is provided, and the electric signal supply member disposed between the electric signal relay member and the liquid ejecting head is expanded and contracted by the adjustment member. The gap between the electric signal relay member and the frame can be increased by the adjusting member in a state where the electric signal relay member is arranged between the liquid jet head and the liquid jet head. For this reason, a work space can be secured between the electric signal relay member and the liquid ejecting head, and even if each liquid ejecting head fails, only the failed liquid ejecting head can be replaced. As a result, it is possible to improve the workability of the replacement operation of the liquid ejecting head.

Further, in the above-described configuration, a common liquid supply member that communicates with the plurality of liquid supply members and supplies the liquid from the liquid storage unit to each liquid supply member,
The liquid supply member is configured to be extendable and contractible,
The common liquid supply member is preferably attached between the electric signal relay member and the liquid ejecting head.

  According to this configuration, the common liquid supply member that communicates with the plurality of liquid supply members and supplies the liquid from the liquid storage unit to each liquid supply member is provided, and the liquid supply member is configured to be extendable and retractable. Since the member is attached between the electric signal relay member and the liquid ejecting head, even if the liquid in the common liquid supply member leaks out, the liquid dripping from the common liquid supply member should contact the electric signal relay member Can be prevented.

The liquid ejecting apparatus of the present invention is a liquid ejecting apparatus provided with a plurality of liquid ejecting head module detachably mounted respectively against a plurality of liquid ejecting heads to the frame,
An electric signal supply member for supplying an electric signal to each liquid ejecting head;
A liquid supply member for supplying a liquid to each liquid jet head;
A common liquid supply member that communicates with the plurality of liquid supply members and supplies each liquid supply member with the liquid from the liquid reservoir, and
The electrical signal supply member and the liquid supply member are respectively provided in a separate and independent state for each of a plurality of liquid ejecting heads constituting the head module,
The liquid supply member is configured to be extendable and contractible,
An adjustment member that adjusts a relative position between the common liquid supply member and the frame is provided, and the liquid supply member disposed between the common liquid supply member and the liquid ejecting head is expanded and contracted by the adjustment member. .
In the above configuration, the adjustment member is provided in an expandable / contractable state between the common liquid supply member and the frame,
Extending the adjustment member to extend the liquid supply member disposed between the common liquid supply member and the liquid jet head, and forming a space between the common liquid supply member and the liquid jet head; It is desirable to employ a configuration in which the liquid ejecting heads can be individually replaced from the space.
And it has an electric signal relay member connected to a plurality of said electric signal supply members,
The electric signal supply member is configured to be extendable and contractible,
It is desirable to place the common liquid supply member between the electrical signal relay member and the liquid ejecting head.

In the above configuration, it is desirable that the liquid supply member is configured by a spirally formed tube.
According to this configuration, since the liquid supply member is configured by a spirally formed tube, the volume change of the liquid supply member due to expansion and contraction can hardly occur. Therefore, ink leakage can be suppressed.

  The best mode for carrying out the present invention will be described below with reference to the drawings. In the embodiments described below, various limitations are made as preferred specific examples of the present invention. However, the scope of the present invention is not limited to the following description unless otherwise specified. However, the present invention is not limited to these embodiments. In the present embodiment, an image recording apparatus that is one form of the liquid ejecting apparatus, and more specifically, a length corresponding to the maximum recording width of a recording sheet that becomes an ejection target (or recording medium) at equal intervals between nozzle openings. An ink jet printer (hereinafter simply referred to as a printer) equipped with a long liquid ejecting head (hereinafter referred to as a recording head) disposed in FIG.

  FIG. 1 is a cross-sectional view illustrating a schematic configuration of a printer 1 according to the present invention, and FIG. 2 is a perspective view of a head module 3 in the printer 1. The printer 1 according to the present embodiment includes a plurality of unit heads 11 (books) in a direction (hereinafter referred to as a first direction Y) perpendicular to the transport direction (relative feed direction; hereinafter referred to as a second direction X) of the recording paper 4 by the transport unit 7. A paper feed tray for storing a head module 3 (a kind of a liquid jet head module of the present invention) and a recording paper 4 (a kind of a jetting object) in a stacked state. 5a and a lower sheet feeding cassette 5b provided at the lower part of the apparatus, and a recording sheet 4 fed from these sheet feeding units 5a and 5b is passed under the head module 3 to be ejected from a sheet discharge tray. A transport unit 7 transported to the 10 side, and a paper discharge tray 10 for holding the recording paper 4 on which recording is performed by the head module 3 and discharged from the transport unit 7 side. It is configured to be able to record text or images, etc. to the full width of the recording area of the recording paper 4 without scanning.

  Although not shown, an ink cartridge (a type of liquid storage unit) that stores ink is disposed inside the housing 2. Then, the ink stored in the cartridge is stored in a reservoir 29 (a kind of common liquid supply member of the present invention) described later of the head module 3 from the liquid inflow path 8 by pressurization in the ink cartridge by an air pump or the like. Later, it is configured to branch from the reservoir 28 through each ink supply tube 28 (a kind of the liquid supply member of the present invention) and to be supplied (pressure fed) to each unit head 11. It is also possible to employ a configuration in which recording is performed while scanning the head module 3 in the first direction Y with respect to the recording paper 4. Also, a so-called on-carriage type configuration in which the ink cartridge and the unit head 11 are directly connected can be employed.

  The paper feed tray 5a is configured to be movable in the vertical direction. The upper surface of the recording paper bundle (the upper surface of the uppermost recording paper 4) is always in contact with the pickup roller 6 with a constant pressure. The vertical position is controlled. Then, according to the execution timing of the recording operation by the head module 3, the recording paper 4 is pulled out from the uppermost part of the recording paper bundle by the pickup roller 6, separated one by one by the separation roller 12 and the separation pad 13 and downstream. It is to be fed to the side. After passing between paper sensors (not shown), the recording paper 4 abuts against the nip portion of the pair of upper and lower registration rollers 14a and 14b. The recording paper 4 from the lower paper feed cassette 5b reaches the nip portion of the registration rollers 14a and 14b after passing through a plurality of intermediate rollers 15. Thereby, the leading edge posture of the recording paper 4 is aligned, and the skew of the recording paper 4 is corrected. Thereafter, the registration rollers 14a and 14b feed the recording paper 4 one by one to the conveying unit 7 side by side with a predetermined timing, and the recording paper 4 reaches the conveying belt 17 of the conveying unit 7. The nip state is released at a predetermined timing.

  The transport unit 7 is stretched between a driving roller 18 rotated by a driving force of a driving motor (not shown), a driven roller 19 disposed upstream of the driving roller 18, and the driving roller 18 and the driven roller 19. The endless conveyor belt 17 is configured by a tension roller 20 that applies tension to the conveyor belt 17 and a presser roller 21. The tension roller 20 is disposed between the driving roller 18 and the driven roller 19, abuts against the conveyor belt 17 from the inside, and applies tension to the conveyor belt 17 by an urging force of an urging member such as a spring. . The pressing roller 21 is disposed directly above the driven roller 19 with the conveyance belt 17 interposed therebetween, and presses the recording paper 4 on the conveyance belt toward the conveyance belt 17 so that the adhesion of the recording paper 4 to the conveyance belt 17 is achieved. Increase.

  The driving roller 18 is configured to rotate the conveying belt 17 by being driven in synchronization with the recording operation of the head module 3 and to convey the recording paper 4 to the downstream side through the lower side of the head module 3. ing. Further, the rotation amount of the conveyor belt 17 is detected by an encoder. The encoder detection signal is output to the printer controller 9 as an encoder pulse.

  When recording is performed on only one side of the recording paper 4, the recording is performed from the transport unit 7 to the paper discharge tray 10 after the recording on one side is completed. On the other hand, when recording is performed on both sides of the recording paper 4, after recording on one side is completed, the recording paper 4 is transported to the paper reversing path R <b> 2 by the flapper 22 disposed downstream of the transport unit 7. After the recording paper 4 reaches the U-turn portion T of the paper reversing path, the conveyance direction is changed, and the recording paper 4 is sequentially sent again to the registration rollers 14a and 14b and the conveyance belt 17 to complete the recording on the other side. After that, the paper is discharged from the transport unit 7 to the paper discharge tray 10.

  As shown in FIG. 2, the head module 3 includes a head holder 24 (a kind of frame in the present invention), a unit head 11, a moving base member 25, and an FFC (flexible flat cable) 26 (electric signal supply according to the present invention). A kind of member), a circuit board 27 (a kind of electric signal relay member of the present invention), a liquid supply tube 28, a reservoir 29, and an adjusting member 30. The head holder 24 is formed in a rectangular shape that is long in the first direction Y, and a head insertion opening 32 is formed in each head arrangement region corresponding to a flange portion 36 of the unit head 11 described later ( (See FIG. 4). The head holder 24 has a plurality of head insertion openings 32 formed in a zigzag shape in the Y direction, and the unit heads 11 are inserted and attached to the head insertion openings 32 to attach the plurality of unit heads 11 in a zigzag form. Are arranged. In the present embodiment, the four head modules 3 a to 3 d are attached to the module attachment frame 31 at regular intervals in the first direction Y with the head longitudinal direction aligned with the second direction X.

  FIG. 3 is a perspective view of the head module 3 as viewed from the nozzle forming surface 34 side of the unit head 11. The unit head 11 causes pressure fluctuations in a flow path unit (not shown) that forms an ink flow path including a pressure generation chamber that communicates with a nozzle opening formed in the nozzle formation surface 34, and ink in the pressure generation chamber. A pressure generating means (not shown) such as a piezoelectric vibrator or a heating element is provided in the head case 35, and a driving signal from the printer controller 9 side is applied to the pressure generating means to drive the pressure generating means. A recording operation is performed in which ink (a kind of liquid in the present invention) is ejected from the nozzle openings and landed on the recording paper 4.

  FIG. 4 is a perspective view showing a state in which the adjustment member 30 of the head module 3 is extended. The head case 35 is a hollow box-like member, and a flow path unit is fixed to the tip side of the head case 35 with the nozzle forming surface 34 exposed. Further, a pressure generating means such as a piezoelectric vibrator is accommodated in an accommodation space formed inside the head case 35, and a drive signal from the printer controller 9 side is sent to the base end surface side opposite to the front end surface. A cover member that houses a part of the FFC 26 for supplying the pressure to the pressure generating means and the ink supply tube 28 for supplying ink to the flow path unit is disposed. Further, a flange portion 36 extending toward the side is formed on the base end side of the head case 35 over the outer periphery of the head case 35. Therefore, when each unit head 11 is inserted into the head insertion opening 32 from the nozzle forming surface 34 side, the flange portion 36 is supported by the outer edge of the head insertion opening 32 and the unit head 11 is fixed to the head holder 24.

  A plurality of nozzle openings for ejecting ink are provided along the second direction X on the nozzle forming surface 34 of each unit head 11 to form a nozzle row (a kind of nozzle group), and this nozzle row is arranged in the first direction. A plurality of Y are arranged side by side. One nozzle row includes, for example, 360 nozzle openings opened at a pitch of 360 dpi. Each unit head 11 is formed with a total of two nozzle rows arranged in the first direction Y. As described above, the nozzle forming surface 26 of the unit head 11 in the present embodiment has a long shape in the second direction X in plan view. In the state of being attached to the head holder 24, the long side direction of the nozzle forming surface 34 in plan view is configured to be parallel to the second direction X.

  The head module 3 has an arrangement layout in which the unit heads 11 are alternately arranged in a two-stage zigzag manner at an arrangement interval such that the nozzle openings are arranged at 360 dpi as a whole when viewed in the second direction X. Note that the number of unit heads 11 in one head module 3 is determined according to the maximum size of the recording paper 4 that the printer 1 can handle. A module mounting frame 31 shown in FIG. 1 is a rectangular frame member, and is formed of metal or the like. The inside of the module mounting frame 31 is an empty portion, and each unit head 11 of the head module 3 is arranged in this empty portion.

  The moving base member 25 is a rectangular flat plate whose plane shape is substantially the same as that of the head holder 24, and is arranged in parallel to the head holder 24, and positions the unit head 11 between the head holder 24. At the four corners of the moving base member 25, protruding pieces 38 to which a rod 41 of the adjusting member 30 described later is fixed are formed outward along the arrow X direction.

  The FFC 26 is a film-like wiring member on which a wiring pattern for supplying a driving signal to the pressure generating means is formed. A connector terminal (not shown) that is electrically connected to a connection terminal (not shown) of the pressure generating means is formed at one end of the FFC 26, and a circuit board 27 is provided at the other end. Connector terminals (not shown) that are electrically connected to the board connector terminals (not shown) are formed. As shown in FIG. 2, the flexible FFC 26 as described above is in a state of being folded in a bellows shape in a normal state, and is configured to be stretchable.

  The circuit board 27 is mounted with conductive patterns and various electronic components for various driving signals to be supplied to the pressure generating means of each unit head 11, and is connected to the connector terminal at the other end of the FFC 26 (not shown). ). Further, wiring 39 from the printer controller 9 is electrically connected to the other connector terminals mounted on the circuit board 27. The circuit board 27 is formed in a rectangular shape having substantially the same planar shape as the moving base member 25 and the head holder 24, and is attached to the upper surface of the moving base member 25. Therefore, the circuit board 27 is disposed above the moving base member 25 in a state where the unit head 11 is positioned on the head holder 24.

  The ink supply tube 28 is formed of a flexible material such as synthetic resin, and is configured by a cylindrical tube having one end communicating with the flow path unit of each unit head 11 and the other end communicating with the reservoir 29. Has been. As shown in FIG. 2, the ink supply tube 28 is formed in a spiral shape, and is normally arranged in a dense state in the axial direction of the spiral, and is configured to be stretchable.

  The reservoir 29 is formed in a horizontally long box shape, and one end communicates with the liquid inflow passage 8 and the other end communicates with each ink supply tube 28, and is configured to store ink therein. The reservoir 29 is formed in substantially the same planar shape as the circuit board 27, the moving base member 25, and the head holder 24, and is attached to the lower surface of the moving base member 25 opposite to the circuit board 27. Therefore, the reservoir 29 is arranged between the unit head 11 attached to the head holder 24 and the circuit board 27.

  The reservoir 29 stores the ink stored in the cartridge through the liquid inflow path 8, branches to each ink supply tube 28, and supplies the ink to each unit head 11 connected to the ink supply tube 28. To do. By arranging the reservoir 29 below the circuit board 27 in this way, it is possible to prevent ink from adhering to the circuit board 27 in the event of ink leakage.

  As shown in FIG. 4, the adjustment member 30 includes a cylindrical guide 42 erected on the head holder 24, and a rod 41 that is slidably mounted in the guide 42 up and down. The upper ends of the movable base members 25 are fixed from the projecting pieces 38 of the movable base member 25 from below. The adjustment members 30 provided at the four corners of the head module 3 are aligned with each other, and move up and down while keeping the movable base member 25 and the head holder 24 in parallel (hereinafter, the third direction Z). ). The third direction Z is a direction orthogonal to the first direction Y and the second direction X.

  In the normal state shown in FIG. 2, the head module 3 configured as described above supports the moving base member 25 and the circuit board 27 in a lowered state, so that the whole is not bulky and can be operated in a compact state. . On the other hand, when trouble occurs and repair is performed, the adjustment member 30 is extended (hereinafter referred to as an extended state). Then, the movable base member 25 and the head holder 24 are separated from each other, and as shown in FIG. 4, the FFC 26 and the reservoir 29 disposed between the circuit board 27 and each unit head 11, and each unit head 11. The ink supply tube 28 disposed between the two is gradually extended. A space is created between the reservoir 29 attached to the moving base member 25 and the head holder 24. For this reason, it is possible to secure a work space for the operator or the like to the unit head 11, and even if the individual unit head 11 breaks down, it is possible to easily replace only the failed unit head 11. As a result, it is possible to improve the workability of the replacement work of the unit head 11 during the maintenance of the printer 1, and it is possible to continue to provide the printer 1 with high reliability.

  In addition, since the reservoir 29 is attached between the circuit board 27 and the unit head 11, the reservoir 29 is positioned below the circuit board 27. For this reason, even if the ink in the reservoir 29 leaks out, the ink can be prevented from adhering to the circuit board 27.

  Further, since the ink supply tube 28 is formed in a spiral shape, even if the state is changed between a dense state and a sparse extended state in the axial direction of the spiral as the adjustment member 30 extends. , It is difficult to change the volume inside. Therefore, the risk of ink leakage can be reduced.

  By the way, the present invention is not limited to the above-described embodiments, and various modifications can be made based on the description of the scope of claims. In the above embodiment, the example in which the FFC 26, the reservoir 29, and the adjustment member 30 are attached to the moving base member 25 has been described. However, the moving base member 25 may not be provided. That is, the FFC 26 and the reservoir 29 may be attached to each other, or the adjusting member 30 may be directly disposed on the FFC 26 or the reservoir 29 without being disposed on the moving base member 25.

  Moreover, if this invention is provided with the head module which consists of a some liquid ejecting head, the color material ejecting head used for manufacture of color filters, such as a liquid crystal display, an organic EL (Electro Luminescence) display, FED (surface) Applied to other liquid ejecting heads such as an electrode material ejecting head used for forming electrodes such as a light emitting display), a bioorganic material ejecting head used for manufacturing a biochip (biochemical element), and a liquid ejecting apparatus including the same. can do.

It is sectional drawing explaining the structure of a printer. It is a perspective view which shows the structure of a head module. It is the perspective view which looked at the head module from the nozzle formation surface side. It is a perspective view explaining the state which extended the adjustment member of the head module.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Printer, 3 ... Head module, 11 ... Unit head, 24 ... Head holder, 26 ... FFC, 27 ... Circuit board, 28 ... Ink supply tube, 29 ... Reservoir, 30 ... Adjustment member

Claims (7)

A liquid ejecting apparatus provided with a plurality of liquid ejecting head module detachably mounted respectively against the plurality of the liquid ejecting head on the frame,
An electric signal supply member for supplying an electric signal to each liquid ejecting head;
A liquid supply member for supplying a liquid to each liquid jet head;
An electrical signal relay member connected to the plurality of electrical signal supply members described above,
The electrical signal supply member and the liquid supply member are respectively provided in a separate and independent state for each of a plurality of liquid ejecting heads constituting the head module,
The electric signal supply member is configured to be extendable and contractible,
An adjustment member for adjusting a relative position between the electric signal relay member and the frame is provided, and an electric signal supply member disposed between the electric signal relay member and the liquid ejecting head is expanded and contracted by the adjustment member. Liquid ejecting device . The adjustment member is provided in an expandable / contractable state between the electric signal relay member and the frame,
The adjustment member is extended to extend an electric signal supply member disposed between the electric signal relay member and the liquid ejecting head, and a space is formed between the electric signal relay member and the liquid ejecting head. The liquid ejecting apparatus according to claim 1 , wherein the liquid ejecting heads can be individually replaced from the space . A common liquid supply member that communicates with the plurality of liquid supply members and supplies liquid from the liquid reservoir to each liquid supply member;
The liquid supply member is configured to be extendable and contractible,
The liquid ejecting apparatus according to claim 1, wherein the common liquid supply member is attached between the electric signal relay member and a liquid ejecting head . A liquid ejecting apparatus including a plurality of liquid ejecting head modules each having a plurality of liquid ejecting heads detachably mounted on a frame,
An electric signal supply member for supplying an electric signal to each liquid ejecting head;
A liquid supply member for supplying a liquid to each liquid jet head;
A common liquid supply member that communicates with the plurality of liquid supply members and supplies each liquid supply member with the liquid from the liquid reservoir, and
The electrical signal supply member and the liquid supply member are respectively provided in a separate and independent state for each of a plurality of liquid ejecting heads constituting the head module,
The liquid supply member is configured to be extendable and contractible,
An adjustment member for adjusting a relative position between the common liquid supply member and the frame is provided, and the liquid supply member disposed between the common liquid supply member and the liquid ejecting head is expanded and contracted by the adjustment member . that liquid body injection system. The adjustment member is provided in an expandable / contractable state between the common liquid supply member and the frame,
Extending the adjustment member to extend the liquid supply member disposed between the common liquid supply member and the liquid jet head, and forming a space between the common liquid supply member and the liquid jet head; The liquid ejecting apparatus according to claim 4, wherein the liquid ejecting heads can be individually replaced from the space . An electrical signal relay member connected to the plurality of electrical signal supply members;
The electric signal supply member is configured to be extendable and contractible,
The liquid ejecting apparatus according to claim 4 , wherein the common liquid supply member is disposed between the electric signal relay member and the liquid ejecting head . The liquid ejecting apparatus according to claim 3, wherein the liquid supply member is configured by a spirally formed tube.

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