BACKGROUND
1. Technical Field
[0001] The present invention relates to a liquid discharge apparatus.
2. Related Art
[0002] In the related art, a liquid discharge apparatus such as a recording apparatus which
performs recording by discharging liquid such as ink and the like on a medium, is
disclosed. Such a liquid discharge apparatus includes a liquid discharge unit and
a drive substrate for driving the discharge unit.
[0003] For example, in
JP-A-2010-179499 and
JP-A-2014-94454, a liquid discharge apparatus including a liquid discharge unit and a drive substrate
for driving the discharge unit is disclosed.
[0004] A drive substrate is heated when being driven. Meanwhile, there is a case where adverse
effects such as a nozzle for discharging liquid being easily clogged, and the like
occur, when the temperature of the discharge unit is increased. In addition, since
the drive substrate is generally provided in the vicinity of the discharge unit, it
is desired that heat generated due to driving of the drive substrate is not transmitted
to the discharge unit.
[0005] EP 2 543 513 discloses an ink jet printing head that includes a head portion, an ink tank, a first
rigid circuit board, a second rigid circuit board, a flexible printed circuit board,
and a connector. The connector is disposed on a top surface of the ink tank, the first
rigid circuit board is disposed on a side of the ink tank, the second rigid circuit
board is disposed between the ink tank and the head portion, and the flexible printed
circuit board is disposed in a bent condition between the first rigid circuit board
and the second rigid circuit board.
SUMMARY
[0006] An advantage of some aspects of the invention is to suppress heat of the drive substrate
transmitted to the discharge unit.
[0007] According to a first aspect of the invention, there is provided a liquid discharge
apparatus as defined in claim 1.
[0008] According to the aspect, the discharge unit accommodating unit that accommodates
the discharge unit and the drive substrate accommodating unit that accommodates the
drive substrate for driving the discharge unit are provided separately. Therefore,
it is possible to suppress the transmission of the heat of the drive substrate to
the discharge unit.
[0009] When the transmission distance of signals (data) between the discharge unit and the
drive substrate is long, there is a possibility that the loss of the transmission
is generated at the time of transmitting the signals. However, according to the aspect,
since the discharge unit accommodating unit and the drive substrate accommodating
unit are connected by the connector terminal provided in the discharge unit accommodating
unit and the connector terminal provided in the drive substrate accommodating unit
(not connected by cable having long transmission distance), it is possible to shorten
the transmission distance of signals between the discharge unit and the drive substrate.
Therefore, it is possible to suppress the loss of the transmission at the time of
transmitting the signals.
[0010] The liquid discharge apparatus may further include a liquid flow path for supplying
the liquid to the discharge unit, and the liquid flow path may be connected up to
the discharge unit through the discharge unit accommodating unit, without being disposed
in the drive substrate accommodating unit.
[0011] When liquid leaks from the liquid flow path and the liquid adheres to the drive substrate,
there is a possibility that the drive substrate is short-circuited. In addition, when
the heat of the drive substrate is transmitted to the liquid flowing in the liquid
flow path, there is a possibility that the discharge stability of the liquid from
the discharge unit is reduced due to change in physical properties of the liquid such
as viscosity or the like. Meanwhile, according to the aspect, the liquid flow path
is connected up to the discharge unit through the discharge unit accommodating unit
(from liquid accommodating unit or the like), without being disposed in the drive
substrate accommodating unit. Therefore, it is possible to suppress that the liquid
flowing in the liquid flow path adheres to the drive substrate or that the heat of
the drive substrate is transmitted to the liquid flowing in the liquid flow path.
[0012] The discharge unit and the first connector terminal provided in the discharge unit
accommodating unit may be connected by a flexible flat cable, and the drive substrate
and the second connector terminal provided in the drive substrate accommodating unit
may be connected by a flexible flat cable.
[0013] Accordingly, the discharge unit and the connector terminal provided in the discharge
unit accommodating unit are connected by the flexible flat cable, and the drive substrate
and the connector terminal provided in the drive substrate accommodating unit are
connected by the flexible flat cable. Therefore, it is possible to connect the discharge
unit and the connector terminal provided in the discharge unit accommodating unit,
and the drive substrate and the connector terminal provided in the drive substrate
accommodating unit by using a simple configuration.
[0014] The drive substrate may be provided by being disposed so as not to face the discharge
unit.
[0015] Accordingly, the drive substrate is provided by being disposed so as not to face
the discharge unit. Therefore, it is possible to effectively suppress the transmission
of the heat generated by the drive substrate to the discharge unit.
BRIEF DESCRIPTION OF THE DRAWINGS
[0016] Embodiments of the invention will now be described by way of example only and with
reference to the accompanying drawings, wherein like numbers reference like elements.
Fig. 1 is a schematic perspective view illustrating a recording apparatus of an embodiment
of the invention.
Fig. 2 is a schematic plan view illustrating the recording apparatus of the embodiment
of the invention.
Fig. 3 is a schematic front view illustrating the recording apparatus of the embodiment
of the invention.
Fig. 4 is a schematic side view illustrating the recording apparatus of the embodiment
of the invention.
Fig. 5 is a schematic rear view illustrating the recording apparatus of the embodiment
of the invention.
Fig. 6 is a schematic front view illustrating a main part of the recording apparatus
of the embodiment of the invention.
Fig. 7 is a schematic side perspective view illustrating a main part of the recording
apparatus of the embodiment of the invention.
Fig. 8 is a schematic perspective view illustrating a main part of the recording apparatus
of the embodiment of the invention.
Fig. 9 is a schematic perspective view illustrating a main part of the recording apparatus
of the embodiment of the invention.
Fig. 10 is a schematic side view illustrating a main part of the recording apparatus
of the embodiment of the invention.
Fig. 11 is a schematic perspective view illustrating a main part of the recording
apparatus of the embodiment of the invention.
Fig. 12 is a schematic perspective view illustrating a main part of the recording
apparatus of the embodiment of the invention.
Fig. 13 is a schematic perspective view illustrating a main part of the recording
apparatus of the embodiment of the invention.
Fig. 14 is a schematic perspective view illustrating a main part of the recording
apparatus of the embodiment of the invention.
Fig. 15 is a block diagram illustrating the recording apparatus of the embodiment
of the invention.
DESCRIPTION OF EXEMPLARY EMBODIMENTS
[0017] Hereinafter, a recording apparatus according to an embodiment as a liquid discharge
apparatus of the invention will be described in detail with reference to drawings.
[0018] First, an overview of a recording apparatus 1 according to the embodiment of the
invention will be described.
[0019] Fig. 1 is a schematic perspective view of the recording apparatus 1 of the embodiment.
In addition, Fig. 2 is a schematic plan view of the recording apparatus 1 of the embodiment.
In addition, Fig. 3 is a schematic front view of the recording apparatus 1 of the
embodiment. In addition, Fig. 4 is a schematic side view of the recording apparatus
1 of the embodiment. In addition, Fig. 5 is a schematic rear view of the recording
apparatus 1 of the embodiment. From Fig. 1 to Fig. 5, a state where a part of a configuration
member is detached from the recording apparatus 1 of the embodiment is illustrated,
and for example, a state where a sub-carriage 5 (see Fig. 6 to Fig. 10) is detached
from a carriage 6 is illustrated.
[0020] The recording apparatus 1 of the embodiment includes a transportation mechanism 3
for transporting a target recording medium (medium) in a transportation direction
A by an adhesive belt 2 (endless belt) for supporting the target recording medium
on a supporting surface to which adhesive is attached. In addition, the recording
apparatus 1 includes a feeding portion not illustrated capable of setting a roll shape
target recording medium and feeding the target recording medium to the transportation
mechanism 3. In addition, on a transportation region of the target recording medium
by the transportation mechanism 3, the recording apparatus 1 includes a recording
mechanism 4 for performing recording by reciprocally scanning the carriage 6 including
a recording head 7 as a discharge unit in a reciprocation direction B intersecting
the transportation direction A of the target recording medium. Furthermore, the recording
apparatus 1 includes a winding mechanism not illustrated capable of winding the target
recording medium recorded in the recording mechanism 4.
[0021] The transportation mechanism 3 of the embodiment includes the adhesive belt 2 for
transporting the target recording medium by mounting the target recording medium fed
from the feeding portion, a drive roller 8 for driving the adhesive belt 2, and a
follower roller 9. The target recording medium is mounted by being attached to a supporting
surface of the adhesive belt 2.
[0022] However, an endless belt as a transportation belt is not limited to the adhesive
belt. For example, an electrostatic adsorption type endless belt may be used.
[0023] The recording apparatus 1 of the embodiment includes the transportation mechanism
3 of the configuration. However, the configuration is not limited to the transportation
mechanism. A configuration in which the target recording medium is transported by
being supported with a movement tray or the like, a configuration in which the target
recording medium is transported by a pair of rollers or the like, or the like, may
be implemented. Furthermore, the target recording medium is fixed by a supporting
portion, and is recorded by moving the recording head 7 with respect to the fixed
target recording medium. The target recording medium may be used as a so-called flat
bed type recording apparatus.
[0024] The recording mechanism 4 includes a carriage motor 30 (see Fig. 15) for reciprocally
moving in the reciprocal movement direction B of the carriage 6 including the recording
head 7 capable of discharge ink (liquid).
[0025] In the recording apparatus 1 of the embodiment, at the time of recording, the recording
is performed by reciprocally scanning the carriage 6 including the recording head
7. However, in the course of record scanning (in the course of movement of carriage
6), the transportation mechanism 3 stops the transportation of the target recording
medium. Alternatively expressed, at the time of recording, the reciprocal scanning
of the carriage 6 and the transportation of the target recording medium are alternately
performed. That is, at the time of recording, the transportation mechanism 3 intermittently
transports (intermittently transports adhesive belt 2) the target recording medium,
corresponding to the reciprocal scanning of the carriage 6.
[0026] The recording apparatus 1 of the embodiment includes the recording head 7 that performs
recording while reciprocally moving. However, the recording apparatus including a
so-called line head in which a plurality of nozzles for discharging ink are provided
in the intersecting direction intersecting the transportation direction A may be implemented.
[0027] Here, the "line head" is the recording head used in the recording apparatus in which
a nozzle region formed in the intersecting direction intersecting the transportation
direction A of the target recording medium is formed so as to cover most of the entirety
of the intersecting direction of the target recording medium, and an image is formed
by relatively moving a recording head or the target recording medium. A nozzle region
of the intersecting direction of the line head need not cover the entirety of the
intersecting direction of the entirety of the target recording medium corresponding
to the recording apparatus.
[0028] In a pipe 11a constituting a frame portion of the recording apparatus 1 of the embodiment,
a rail 10a extended in the reciprocal movement direction B is configured, and in a
pipe 11b constituting the frame portion of the recording apparatus 1 of the embodiment,
a rail 10b extended in the reciprocal movement direction B is configured. Accordingly,
in the carriage 6 of the embodiment, by receiving a bearing portion not illustrated
in the rail 10a and the rail 10b, the movement in the reciprocal movement direction
B is guided to the rail 10a and the rail 10b.
[0029] In addition, at a position of a lower portion of the pipe 11b, a blower unit 12 extended
in the reciprocal movement direction B, and blowing air from a plurality of air blowing
ports not illustrated thereof in the opposite direction to the transportation direction
A, is provided. Accordingly, at the position of the lower portion of the pipe 11a,
a mist recovery unit 13, extended in the reciprocal movement direction B, capable
of recovering the mist of the ink discharged from the recording head 7, is provided.
In the mist recovery unit 13, a recovery port 16 extended in the reciprocal movement
direction B is provided at the position of the lower portion of the pipe 11a.
[0030] In addition, in the downstream side in the transportation direction A of the recording
apparatus 1 of the embodiment, as illustrated in Fig. 3, a plurality of blower fans
14 (three) for generating air blowing force by the blower unit 12 are installed. By
the air blowing force generated from the blower fan 14, a blower unit 12 can blow
air from the outside (position of downstream side in transportation direction A) of
the recovery unit 13 toward the recovery port 16. Accordingly, in the upstream side
in the transportation direction A of the recording apparatus 1 of the embodiment,
as described in Fig. 5, a plurality of (three) suction fans 15 as a suction unit for
generating an air stream from the recovery port 16 toward the inside of the recovery
unit 13, furthermore, from the inside of the recovery unit 13 toward the outside of
the recording apparatus 1, are provided.
[0031] Next, the carriage 6 that is a main part of the recording apparatus 1 of the embodiment
and the sub-carriage 5 mounted in the carriage 6 will be described.
[0032] Here, Fig. 6 is a schematic front view of the carriage 6. In addition, Fig. 7 is
a schematic side perspective view of the sub-carriage 5. In addition, Fig. 8 is a
schematic perspective view of the sub-carriage 5. Fig. 9 is a schematic perspective
view of the sub-carriage 5 in a state where housings 22 and 45 are removed.
[0033] As illustrated in Fig. 6, the carriage 6 of the embodiment is configured so as to
be able to reciprocally scan in the reciprocal movement direction B, by mounting a
plurality of the sub-carriages 5.
[0034] In addition, as illustrated in Fig. 7, the sub-carriage 5 includes a discharge unit
accommodating unit 20 in which the recording head 7 is accommodated and a drive substrate
accommodating unit 19 in which a drive substrate 40 for driving the recording head
7 is accommodated. Accordingly, the drive substrate accommodating unit 19 and the
discharge unit accommodating unit 20 are connected by a connection portion 38 (connector
terminal) of the drive substrate accommodating unit 19 side and the connection portion
39 (connector terminal) of the discharge unit accommodating unit 20 side. Furthermore,
the drive substrate 40 and the connection portion 38 are connected by an FFC (flexible
flat cable) 43, and the recording head 7 and the connection portion 39 are connected
by the FFC 44.
[0035] In addition, as illustrated in Fig. 8, the drive substrate accommodating unit 19
includes a housing 22, and the discharge unit accommodating unit 20 includes a housing
45. So as to suppress the increment (heat is confined) of temperature inside the drive
substrate accommodating unit 19 in accordance with the heat generation of the drive
substrate 40, a plurality of holes 48 are provided in the housing 22.
[0036] In addition, as illustrated in Fig. 9, the drive substrate accommodating unit 19
includes a heat transfer plate 21 that is in contact with the housing 22 inside the
housing 22 and the drive substrate 40 at the same time, and easily transmits the heat
of the drive substrate 40 to the housing 22.
[0037] In addition, as illustrated in Fig. 8 and Fig. 9, inside the discharge unit accommodating
unit 20, an ink flow path 46 (liquid flow path) for supplying the ink from the ink
cartridge (liquid containing portion) not illustrated to the recording head 7 is provided.
In the sub-carriage 5, the ink flow path 46 is configured in only the discharge unit
accommodating unit 20 without going through the drive substrate accommodating unit
19 (disposed in only discharge unit accommodating unit 20, and not disposed in drive
substrate accommodating unit 19).
[0038] In addition, as illustrated in Fig. 8 and Fig. 9, a protrusion portion 42 is formed
in the discharge unit accommodating unit 20, and a fitting hole 41 fitted with the
protrusion portion 42 is formed in the drive substrate accommodating unit 19. In addition,
in the drive substrate accommodating unit 19, a handle 49 is formed on the opposite
side (vertical direction on C side) to a side connected with the discharge unit accommodating
unit 20. By the configuration, it is possible for the sub-carriage 5 of the embodiment
to easily bond the discharge unit accommodating unit 20 and the drive substrate accommodating
unit 19, and it is possible for the sub-carriage 5 of the embodiment to easily remove
the drive substrate accommodating unit 19 from the discharge unit accommodating unit
20.
[0039] Next, the discharge unit accommodating unit 20 of the sub-carriage 5 will be described
in more detail.
[0040] Here, Fig. 10 is a schematic side sectional view of the sub-carriage 5, and illustrates
the drive substrate accommodating unit 19 in which the inside thereof is omitted.
In addition, Fig. 11 is a schematic perspective view of the discharge unit accommodating
unit 20. In addition, Fig. 12 is a schematic perspective view of the discharge unit
accommodating unit 20 in a state where the housing 45 is removed. In addition, Fig.
13 is a schematic perspective view of a part of the discharge unit accommodating unit
20 in a state where a part of a head unit 47 is removed from the discharge unit accommodating
unit 20. In addition, Fig. 14 is a schematic perspective view of a part of the discharge
unit accommodating unit 20.
[0041] As illustrated in Fig. 10, Fig. 12, Fig. 13, and Fig. 14, the discharge unit accommodating
unit 20 of the embodiment includes a plate shape portion 36 and a heat transfer plate
37. In addition, as illustrated in Fig. 10, the FFC 44 is connected with the connection
portion 39 in a state where the FFC 44 is in contact with the plate shape portion
36, the plate shape portion 36 and the heat transfer plate 37 are in contact with
each other, and the heat transfer plate 37 and the housing 45 are in contact with
each other. By the configuration, a configuration where the heat of the FFC 44 (and
recording head 7) can be transmitted (released) to the housing 45, can be implemented.
[0042] In addition, as illustrated from Fig. 12 to Fig. 14, the discharge unit accommodating
unit 20 of the embodiment is configured so as to be able to remove the head unit 47
of four pairs of the recording head 7 on a unit basis. As illustrated in Fig. 13,
on the bottom portion of the discharge unit accommodating unit 20, mounting holes
50 for and corresponding to the recording heads 7 are formed. In addition, as illustrated
in Fig. 14, by fixing the head unit 47 at a screw fixing portion 51, the head unit
47 can be fixed to the discharge unit accommodating unit 20.
[0043] Next, an electrical configuration in the recording apparatus 1 of the embodiment
will be described.
[0044] Fig. 15 is a block diagram of the recording apparatus 1 of the embodiment.
[0045] A CPU 24 for controlling the entirety of the recording apparatus 1 is provided in
a control unit 23. The CPU 24 is connected to a ROM 26 for storing various control
programs or the like executed by the CPU 24 and to the RAM 27 which can temporally
store data, through a system bus 25.
[0046] In addition, the CPU 24 is connected to a head drive unit 28 for driving the recording
head 7, through the system bus 25.
[0047] In addition, the CPU 24 is connected to a motor drive unit 29 for driving the carriage
motor 30, a transportation motor 31, a feeding motor 32, a winding motor 33, a blower
fan motor 17, and a suction fan motor 18, through the system bus 25.
[0048] Here, the carriage motor 30 is a motor for moving the carriage 6 including the recording
head 7. In addition, the transportation motor 31 is a motor for driving the drive
roller 8. In addition, the feeding motor 32 is a drive motor of the feeding portion
for feeding the target recording medium set to the feeding portion not illustrated
to the transportation mechanism 3. In addition, the winding motor 33 is a drive motor
for driving the winding mechanism not illustrated for winding the target recording
medium on which recording is performed. In addition, the blower fan motor 17 is a
motor for driving the blower fan 14. Similarly, the suction fan motor 18 is a motor
for driving the suction fan 15.
[0049] Furthermore, the CPU 24 is connected to an input and output unit 34 through the system
bus 25, and the input and output unit 34 is connected to a PC 35 for performing the
communication of data of recording data or the like and signals.
[0050] Here, when summarizing the recording apparatus 1 of the embodiment, the recording
apparatus 1 of the embodiment includes the recording head 7 for discharging the ink,
the discharge unit accommodating unit 20 accommodating the recording head 7, the drive
substrate 40 for driving the recording head 7, and the drive substrate accommodating
unit 19 separately provided from the discharge unit accommodating unit 20 and accommodating
the drive substrate 40. That is, the recording apparatus 1 includes the discharge
unit accommodating unit 20 accommodating the recording head 7, and the drive substrate
accommodating unit 19 accommodating the drive substrate 40 for driving the recording
head 7, as a separate body. Therefore, it is possible to implement a configuration
which can suppress the heat of the drive substrate 40 transmitted to the recording
head 7.
[0051] In the recording apparatus 1 of the embodiment, the position of the control unit
23 as a control substrate (substrate for controlling the entire driving of recording
apparatus 1) is not apparent. However, for example, it is possible for the control
unit 23 to be installed in the drive substrate accommodating unit 19.
[0052] In addition, the recording apparatus 1 of the embodiment includes the ink flow path
46 for supplying the ink to the recording head 7, and the ink flow path 46 is connected
from the ink cartridge not illustrated to the recording head 7 through the discharge
unit accommodating unit 20, without being disposed in the drive substrate accommodating
unit 19.
[0053] There is a possibility that ink leaks from the ink flow path 46 and the drive substrate
40 is short-circuited when the ink is attached to the drive substrate 40. In addition,
when the heat of the drive substrate 40 is transmitted to the ink flowing in the ink
flow path 46, there is a possibility that the discharge stability of the ink from
the recording head 7 is reduced by changing physical properties of the ink such as
viscosity or the like. Meanwhile, in the recording apparatus 1 of the embodiment,
the ink flow path 46 is connected from the ink cartridge not illustrated to the recording
head 7 through the discharge unit accommodating unit 20, without being positioned
in the drive substrate accommodating unit 19. Therefore, it is possible to implement
a configuration which can suppress that the ink flowing in the ink flow path 46 is
attached to the drive substrate 40 or the heat of the drive substrate 40 is transmitted
to the ink flowing in the ink flow path 46.
[0054] In addition, as described above, in the recording apparatus 1 of the embodiment,
the discharge unit accommodating unit 20 and the drive substrate accommodating unit
19 are connected by the connector terminal (connection portion 39) provided in the
discharge unit accommodating unit 20 and the connector terminal (connection portion
38) provided in the drive substrate accommodating unit 19.
[0055] When the transmission distance of signals (data) between the recording head 7 and
the drive substrate 40 is long, there is a possibility that the loss of transmission
is generated at the time of transmitting the signals. However, in the recording apparatus
1 of the embodiment, since the discharge unit accommodating unit 20 and the drive
substrate accommodating unit 19 are connected by the connector terminal (connection
portion 39) provided in the discharge unit accommodating unit 20 and the connector
terminal (connection portion 38) provided in the drive substrate accommodating unit
19 (not connected by cable having a long transmission distance), it is possible to
shorten the transmission distance of signals between the recording head 7 and the
drive substrate 40. Therefore, the loss of signals at the time of transmitting signals
is suppressed.
[0056] In addition, as illustrated in Fig. 7 or the like, in the recording apparatus 1 of
the embodiment, the recording head 7 and the connection portion 39 provided in the
discharge unit accommodating unit 20 are connected by the FFC 44, and the drive substrate
40 and the connection portion 38 provided in the drive substrate accommodating unit
19 are connected by an FFC 43. According to the configuration, the recording head
7 and the connection portion 39 provided in the discharge unit accommodating unit
20, and the drive substrate 40 and the connection portion 38 provided in the drive
substrate accommodating unit 19 are connected by using a simple configuration.
[0057] In addition, as illustrated in Fig. 7 and Fig. 9, the drive substrate 40 of the embodiment
is provided along a direction (vertically upward direction C) relative to the recording
head 7. Expressed in another way, the drive substrate 40 of the embodiment is provided
by being disposed so as not to face the recording head 7. Therefore, it is possible
to effectively suppress the transmission of the heat generated by the drive substrate
40 to the recording head 7.
[0058] The invention is not limited to the above embodiments, various modifications are
possible within the scope of the invention as defined by the appended claims, and
it goes without saying that various modifications are also included within the scope
of the invention.