Method for manufacturing ink-jet print head

Abstract

According to one embodiment, a method for manufacturing an ink-jet print head includes bonding an actuator to a base plate. The actuator includes a plurality of pressure chambers provided in a fixed direction and a piezoelectric member forming a wall of each pressure chamber and configured to change capacity of the pressure chamber. The method further includes connecting a wire to the piezoelectric member, and bonding a nozzle plate so that the nozzle plate is laid over the base plate at a predetermined distance from the base plate. The nozzle plate includes a plurality of nozzles corresponding to the pressure chambers. The method further includes arranging the base plate in a recess in a support member. The support member includes a flat portion provided with an ink supply aperture and an ink discharge aperture to circulate and supply ink. The recess is formed in the flat portion.

Claims

1. A method for manufacturing an inkjet print head, comprising: bonding an actuator to a base plate, the actuator including a plurality of pressure chambers provided in a fixed direction, a piezoelectric member forming a wall of each pressure chamber and configured to change capacity of said pressure chamber; connecting a wire to the piezoelectric member; arranging the base plate in a recess in a support member, the support member including a flat portion provided with an ink supply aperture and an ink discharge aperture to circulate and supply ink, the recess in the support member being formed in the flat portion; and bonding a frame member and a nozzle plate including a plurality of nozzles corresponding to the plurality of pressure chambers to the base plate so that: the frame member is interposed between the base plate and the nozzle plate, surrounding the ink discharge aperture and the ink supply aperture, and the actuator i) divides a gap between the nozzle plate and the base plate into an outer channel and an inner channel and ii) is surrounded by the nozzle plate, the frame member, and the base plate, wherein the ink supply aperture supplies the ink into the inner channel, and wherein the ink discharge aperture receives the ink from the outer channel.

2. The method for manufacturing an ink-jet print head according to claim 1, wherein the flat portion of the support member includes a partition separating the ink supply aperture from the ink discharge aperture.

3. The method for manufacturing an ink-jet print head according to claim 1, wherein the frame member includes a partition separating the ink supply aperture from the ink discharge aperture, the partition extending from the frame member toward the actuator.

4. The method for manufacturing an ink-jet print head according to claim 1, wherein the plurality of nozzles are aligned along a longitudinal axis of the nozzle plate.

5. The method for manufacturing an ink-jet print head according to claim 2, wherein the partition comprises two partitions arranged on the flat portion of the support member such that the ink supply aperture is disposed between the two partitions.

6. The method for manufacturing an ink-jet print head according to claim 3, wherein the partition comprises two partitions extended from the frame member such that the ink supply aperture is disposed between the two partitions.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1A is a perspective view of an ink-jet print head according to a first embodiment;

(2) FIG. 1B is an explanatory view showing an ink circulation supply system;

(3) FIG. 2 is a plan view of the ink-jet print head from which a nozzle plate has been detached;

(4) FIG. 3 is a plan view illustrating one step in the manufacturing process for the ink-jet print head;

(5) FIG. 4 is a plan view illustration one step in the manufacturing process for the ink-jet print head;

(6) FIG. 5 is a plan view illustrating one step in the manufacturing process for the ink-jet print head;

(7) FIG. 6 is an explanatory view showing an example of the direction of flow of ink in the ink-jet print head;

(8) FIG. 7 is en explanatory view showing another example of the direction of the ink-jet print head;

(9) FIG. 8 is a plan view of an ink-jet print head according to a second embodiment, from which a nozzle plate has been detached;

(10) FIG. 9 is a partially cutaway perspective view of an example of an ink-jet print head; and

(11) FIG. 10 is a plan view of a main portion of the ink-jet print head.

DETAILED DESCRIPTION

(12) In general, according to one embodiment, an ink-jet print head according to the embodiment comprises: a support member including a flat portion with an ink supply aperture and an ink discharge aperture formed therein so as to circulate and supply ink, the flat portion including a recess; a base plate fitted in the recess of the support member; a nozzle plate laid over the base plate at a predetermined distance from the base plate and including a plurality of nozzles formed therein in a fixed direction; and an actuator disposed between the base plate and the nozzle plate and including a pressure chamber and a piezoelectric member, the pressure chamber being provided for each corresponding nozzle, and the piezoelectric member being provided to form a wall for the pressure chamber and configured to change capacity of the pressure chamber.

First Embodiment

(13) FIG. 1A is a perspective view of an ink-jet print head 10 according to a first embodiment, FIG. 1B is an explanatory view showing an ink circulation supply system, and FIG. 2 is a plan view showing the ink-jet print head 10 from which a nozzle plate 60 has been detached.

(14) As shown in FIG. 1A, the ink-jet print head 10 includes: a manifold (support member) 20 in which channels are formed for circulating and supplying ink; a base member (base plate) 30 laid over the manifold 20 using an adhesive or the like; actuators 40 laid in two lines over the base member 30; a frame member 50 disposed in an area surrounding the actuators 40; and a nozzle plate 60 disposed at a predetermined distance from the base member 30. In FIG. 1A, reference number 70 represents an ink circulation supply system, and reference number 80 represents a driving circuit. The ink-jet print head 10, the ink circulation supply system 70, the driving circuit 80, and the like constitute an ink-jet printer.

(15) The manifold 20 includes a main body 21 in the form of a rectangular parallelepiped; a flat portion 22 formed on one side of the main body 21; a recess 23 formed in the middle of the flat portion 22; and brackets 24 formed at both ends of the main body 21. Formed in the brackets 24 are screw holes 24a for attaching the ink-jet print head 10 to a printer main body (not shown).

(16) The flat portion 22 includes ink discharge apertures 25 and ink supply apertures 26 for circulating and supplying ink. The ink discharge apertures 25 and the ink supply apertures 26 are connected to the ink circulation supply system 70 via pipes 27 connected to the manifold 20.

(17) The flat portion 22 includes partitions 22a separating the ink discharge apertures 25 from the ink supply apertures 26. The partitions 22a are located along lines extended from the corresponding actuators 40, and one end of each partition 22a is in close contact with the corresponding end of each actuator 40.

(18) The base member 30 has a plate form and no aperture is formed therein. Wires 31 are formed on the base member 30.

(19) Each actuator 40 includes: a piezoelectric portion 41 formed by bonding two PZT plates so that their polarization directions are opposite to each other; driving elements 42 disposed along the piezoelectric portion 41; and pressure chambers 43 disposed between the driving elements 42. That is the driving elements 42 and the pressure chambers 43 are disposed alternately. Each driving element 42 is formed in a projecting shape so as to abut on the lower surface of the nozzle plate 60. Further, the wire 31 is connected to each driving element 42. The actuator 40 applies a voltage to each driving element 42 from the driving circuit 80, thereby deforming the corresponding pressure chamber 43 and changing the capacity of the chamber 43, thus electing ink from the pressure chamber 43 through a corresponding nozzle 61 (described later).

(20) As shown in FIG. 2, both ends 51 and 52 of the frame member 50 project from the flat portion 22 of the manifold 20 and surround the ink discharge apertures 25 and the ink supply apertures 26. The function of the frame member 50 is to form an ink channel in the base member 30.

(21) The nozzle plate 60 is made of polyimide and includes the aforementioned nozzles 61 disposed in a fixed direction and in positions corresponding to the pressure chambers 43.

(22) A first ink tank 71 is provided in the ink circulation supply system 70. The first ink tank 71 not only contains the ink Q for supply to the pressure chamber 43 in the ink-jet print head 10, but also additionally comprises a first atmospheric pressure source 71a.

(23) The ink Q within the first ink tank 71 is guided into the manifold 20 of the ink-jet print head 10 by a first ink channel 72. The guided ink Q runs through the pressure chamber 43 of the ink-jet print head 10 and flows out from the manifold 20 into to second ink channel 73. The ink Q flowing out into the second ink channel 73 is guided to a second in tank 74.

(24) The second ink tank 74 receives the ink Q flowing out from the pressure chamber 43 of the ink-jet print head 10, and additionally comprises a second atmospheric pressure source 74a.

(25) A third ink channel 75 is provided between the second ink tank 74 and the first ink tank 71. In a pump 76 and a filter 77 are provided in the third ink channel 75, and the ink Q is fed to the first ink tank 71 by operation of the second pump 76. The filter 77 removes foreign matter mixed into the ink Q running through the third ink channel 75.

(26) The first ink tank 71, the first ink channel 72, the ink-jet print head 10, the second ink channel 73, the second ink tank 74, the third ink channel 75, the second pump 76, and the filter 77 form a circulating path for the ink Q.

(27) The ink-jet print head 10 with the foregoing configuration is manufactured in the manner described below. Specifically, as shown in FIG. 3, piezoelectric material S, which is the material for the actuator 40, is bonded to the base member 30. Then, as shown in FIG. 4, using a diamond cutter or the like, a plurality of grooves are formed, thereby defining the pressure chambers 43. Subsequently, as shown in FIG. 5, the wires 31 are formed by means of plating or the like, and thus the actuator 40 is formed.

(28) Subsequently, as shown in FIG. 2, the frame member 50 is placed on the base member 30 in such an area that the frame member 50 surrounds the actuators 40, both ends 51 of the frame member 50 project from the flat portion 22 of the manifold 20 and surround the ink discharge apertures 25 and the ink supply apertures 26.

(29) Then, the nozzle plate 60 is joined onto the frame member 50. At this time, the pressure chambers 43 and the corresponding nozzles 61 are made to face each other. Next, the base member 30 is fitted in the recess 23 formed in the manifold 20.

(30) A predetermined gap is left between the base member 30 and the nozzle plate 60. The gap is divided by the actuators 40 into three spaces, i.e., outer channels 32 and 33 and an inner channel 34.

(31) The ink-jet print head 10 with the foregoing configuration ejects ink in the manner described below. Specifically, ink is supplied from the ink circulation supply system 70 via the pipes 27. Then, the ink thus supplied is further supplied to the inner channel 34 via the ink supply apertures 26. The ink supplied to the inner channel 34 flows into the outer channels 32 and 33 through the pressure chambers 43. The ink that has flowed into the outer channels 32 and 33 is discharged from the ink discharge apertures 25 and is returned into the ink circulation supply system 70 via the pipes 27. FIG. 6 schematically shows such now of the ink. Since ink is continuously supplied in such a manner, the pressure core 43 are filled with ink.

(32) Then, pulse voltages are applied to the driving elements 42 from the driving circuit 80 via the wires 31. As a result, the driving elements 42 are deformed, decreasing the capacity of the pressure chambers 43. Consequently, ink is discharged from the nozzles 61.

(33) Since the flat portion 22 is provided with the partitions 22a, ink is prevented from flowing into the inner channel 34 from the outer channels 32 and 33 without passing through the pressure chambers 43.

(34) The ink-jet print head 10 with the foregoing configuration eliminates the need to form apertures, such as the ink discharge apertures 25 and the ink supply apertures 26, in the base member 30, thus increasing the degree of freedom in the choice of material for the base member 30 and obviating the need for the formation of a large number of apertures, thus reducing manufacturing costs.

(35) The present embodiment eliminates the need for disposition of the wires 31 to avoid the apertures, and hence prevents occurrence of areas where the wires 31 are disposed at narrow pitches. Accordingly, the manufacturing process is simplified and manufacturing costs are reduced.

(36) FIG. 7 is an explanatory view showing another example of the direction of flow of ink in the ink-jet print head 10. That is, even reversal of the relative positions of the ink discharge apertures 25 and the ink supply apertures 26 will yield similar effects.

Second Embodiment

(37) FIG. 8 is a plan view of an ink-jet print head 10A according to a second embodiment, from which a nozzle plate 60 has been detached. In FIG. 8, components with functions similar to those in FIG. 1A are denoted with the same signs and detailed explanation thereof is omitted.

(38) In the ink-jet print head 10A, a frame member 50A is provided instead of the frame member 50, and a flat portion 22 of a manifold 20 includes no partition 22a.

(39) The frame member 50A includes ends 51 and 52 that include projecting portions 53 and projecting portions 54, respectively, extending inward therefrom. The projections 53 and 54 are formed in the same positions as the partitions 22a described above, and their functions are identical to those of the partitions 22a. Accordingly, even the ink-jet print head 10A yields the same effects as the ink-jet print head 10.

(40) While certain embodiments of the invention have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the inventions. Indeed, the novel embodiments described herein may be embodied in a variety of forms; furthermore, various omissions, substitutions and changes in the form of the embodiments described herein may be made without departing from the spirit of the inventions. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope and spirit of the inventions.