Ink jet printer

BACKGROUND OF INVENTION

1. Field of the Invention

This invention relates to a serial ink jet printer for supplying ink from an ink supply section at a fixed position to an ink jet head mounted on a carriage, moving the carriage in a print width direction, and printing on a recording medium passing through a print position. More particularly, the invention relates to a serial ink jet printer that includes a detection mechanism for detecting, among other things, the presence or absence of ink in an ink supply section and the move position of a carriage in the serial ink jet printer.

2. Related Art

Known as an ink jet printer is a serial ink jet printer for reciprocating a carriage on which an ink jet head is mounted in the print width direction of a transported recording paper and printing on a predetermined surface of the recording paper. As the serial ink jet printer, an off-carriage type serial ink jet printer is available, wherein an ink supply section such as an ink cartridge is not mounted on a carriage, but rather is placed at a fixed position and ink is supplied from the ink supply section via a flexible ink tube to an ink jet head mounted on the carriage.

In the off-carriage type serial ink jet printer, a plurality of ink tanks storing different color inks, for example, a plurality of ink cartridges, are placed in the ink supply section to perform multicolor print. In this case, it is necessary to detect the ink cartridges being placed in the ink supply section and the presence or absence of ink in each ink cartridge. To do this, in the related art, a dedicated detection mechanism for detecting each ink cartridge being placed and a dedicated detection mechanism for detecting the presence or absence of ink are used. Generally, each detection mechanism is made up of an optical detector, etc., and a detected part detected by the detector.

Further, in the serial ink jet printer of the related art, to control the move position of the carriage, a detection mechanism for detecting the home position of the carriage as the reference for controlling the move position of the carriage is used.

Therefore, for example, if the serial ink jet printer comprises the ink supply section in which two ink cartridges are placed, two detection mechanisms for detecting the presence or absence of the ink cartridges, two detection mechanisms for detecting the presence or absence of ink in the ink cartridges, and one detection mechanism for detecting the carriage home position (five detection mechanisms in total) are required.

Also known in the related art is a serial ink jet printer wherein an ink supply section can be switched between a single-color cartridge and a multicolor cartridge for use, and both single-color print and multicolor print can be performed. In this serial ink jet printer, single-color print or multicolor print is specified by operating a DIP switch, etc., installed on a printer controller.

However, to detect the presence or absence of each ink cartridge, the presence or absence of ink in the cartridges, and the carriage home position by separate detection mechanisms as in the related art, the number of the detection mechanisms increases, which in turn increases the costs and inhibits miniaturization of this type of ink jet printer.

With the serial ink jet printer wherein single-color print or multicolor print is specified by operating a DIP switch, etc., when the user forgets to switch the DIP switch, etc., a single-color print may be executed although the user intends to execute multicolor print and vice versa, for example.

SUMMARY OF THE INVENTION

It is therefore an object of the invention to make it possible to determine information concerning an ink supply section such as the presence or absence of ink, information concerning the move position of the carriage such as a home position of a carriage, and whether the print mode is single-color print or multicolor print by a fewer number of detection mechanisms in an off-carriage type serial ink jet printer.

To this end, according to the invention, there is provided an ink jet printer comprising an ink jet head, a carriage for moving the ink jet head in a print width direction, an ink supply section placed at a fixed position for supplying ink to the ink jet head, and a detector and one or more detected parts that can be detected by the detector, wherein the one or more detected parts are placed at a position along a move passage of the detector, and the one or more detected parts are operable to indicate at least one of information concerning the ink supply section and information concerning the move position of the carriage.

In the invention, the detector is mounted on the carriage and is moved together with the carriage for detecting the one or more detected parts. Therefore, if a plurality of detected parts are placed, the detector for detecting the detected parts can be made common. Thus, the invention is advantageous for cost reduction and miniaturization as compared with the detection system comprising detectors and detected parts provided in a one-to-one correspondence with the objects to be detected as in the related art.

In the invention, the information concerning the ink supply section may be, for example, at least one of information indicating whether or not ink exists in the ink supply section and information representing the type of ink stored in the ink supply section.

In addition, the information concerning the move position of the carriage may include information indicating whether or not the carriage is at the home position, etc.

Generally, as the one or more detected parts, a first detected part that can indicate the information concerning the ink supply section and a second detected part that can indicate the information concerning the move position of the carriage may be used.

The detector can be an optical detector comprising a light emission element and a light reception element. In this case, the one or more detected parts can each include a prism having one or more reflection faces for reflecting light from the light emission element toward the light reception element.

If the one or more detected parts indicate the information concerning the ink supply section, the corresponding prism may be formed in a side wall portion of an ink reservoir of the ink supply section. In doing so, if ink exists in the ink reservoir, the back of the one or more reflection faces of the corresponding prism are immersed in the ink and thus the one or more reflection faces do not function as a reflection face and therefore the detector does not detect reflected light. In contrast, if the ink reservoir becomes empty of ink, the one or more reflection faces of the corresponding prism are exposed from the ink and function as reflection faces and therefore the detector detects reflected light. Thus, the presence or absence of ink can be detected based on the presence or absence of reflected light.

To determine the type of ink stored in the ink supply section, the one or more reflection faces need to be made effective regardless of the presence or absence of ink. To do this, one or more of the detected parts may comprise a gap formed between the one or more reflection faces of a corresponding prism and the side wall portion opposed thereto on an opposite side to the light incidence direction from the detector on the corresponding prism. The one or more reflection faces are made effective regardless of the presence or absence of ink in the presence of the gap.

Next, the ink supply section may be a cartridge type having an ink cartridge placement section and an ink cartridge detachably placed therein.

In this embodiment, like above, if the one or more detected parts can indicate the information concerning the ink supply section, the information concerning the ink supply section can be at least one of information indicating whether or not the ink cartridge is placed in the ink cartridge placement section, information concerning the type of placed ink cartridge, and information indicating whether or not ink exists in the placed ink cartridge.

Also in this case, the detector can be an optical detector comprising a light emission element and a light reception element and the one or more detected parts can each include a prism having one or more reflection faces for reflecting light from the light emission element toward the light reception element.

Further, the one or more detected parts can indicate the information concerning the ink supply section and the prism of each of the one or more detected parts may be formed in a side wall portion of an ink reservoir of the ink cartridge.

Here, one or more of the detected parts can include a gap formed between the one or more reflection faces of its corresponding prism and the side wall portion opposed thereto on an opposite side to the light incidence direction from the detector on the corresponding prism.

Also, the one or more detected parts can be embodied as first and second detected parts. In this case, the first and second detected parts may be placed at different positions along the move passage of the detector in the side wall portion of the ink cartridge placed in the ink cartridge placement section.

Further, the second detected part can include a gap formed between the one or more reflection faces of its corresponding prism and the side plate portion opposed thereto on an opposite side to the light incidence direction from the detector on the corresponding prism.

In doing so, the first detected part can detect the presence or absence of ink in the ink cartridge. Moreover, the second detected part can detect the ink cartridge being placed in the ink cartridge placement section or can detect the type of ink cartridge.

To make it possible to detect the type of ink cartridge, the formation position of the second detected part may be a different position along the move passage of the detector in response to the type of ink cartridge.

Here, if a plurality of ink cartridges, for example, first and second ink cartridges are placed in the ink cartridge placement section, each of the first and second ink cartridges may be formed with the first and second detected parts.

In this case, for example, if a third ink cartridge placed singly in the ink cartridge placement section for use to perform single-color print is included, the third ink cartridge may also be formed with the first and second detected parts, and in a placement state in the ink cartridge placement section, the positions of the second detected parts of the first and second ink cartridges may be made to differ from the position of the second detected part of the third ink cartridge.

In doing so, the type of ink cartridge can be determined based on output of the detector mounted on the carriage and the detection position of reflected light, and whether the print mode is single-color print or multicolor print can be determined based on this determination.

Of course, in the invention, the detector mounted on the carriage may also be a plurality of detectors.

Further, according to the present invention, there is provided an ink jet printer comprising an ink jet head, a carriage mounting the ink jet head and moveable in a print width direction, an ink cartridge accommodating an ink supplied to the ink jet and attached to a ink cartridge holder, an optical detector including a light emission element and a light reception element, and mounted to one of the carriage and a mounting member fixed on a predetermined position, a detected member that can be detected by the optical detector, and the detected member is operable to change its position in accordance with an attached or removed condition of the ink cartridge with respect to the ink cartridge holder.

In the construction described above, the detected member is embodied as a movable type such that the position of the detected member is operable to change in accordance with the attached or removed condition of the ink cartridge. Thus, the attached or removed condition of the ink cartridge can be accurately detected.

Further, it is preferable for providing the detected member with a slidable and/or rotatable feature with respect to the ink cartridge holder. In this construction, the movable detected member is simply constructed to avoid increasing the manufacturing costs associated with the ink cartridge holder.

Still further, the detected member may be urged by an urging member to a first position, and move to a second position by contacting the ink cartridge.

BRIEF DESCRIPTION OF THE DRAWINGS

In the accompanying drawings:

FIG. 1

is a perspective view to show the structure of an ink jet printer incorporating the invention;

FIG. 2

is a schematically sectional view taken on line II—II in

FIG. 1

;

FIG. 3

is an exploded perspective view to show the ink jet printer in

FIG. 1

in a state in which main parts of the ink jet printer are disassembled;

FIG. 4

is a perspective view of a carriage and a head unit in the ink jet printer in

FIG. 1

;

FIG. 5

is a fragmentary sectional view taken on line V—V in

FIG. 4

;

FIG. 6

is a perspective view of a head maintenance unit in the ink jet printer in

FIG. 1

;

FIG. 7

is a front view of the head maintenance unit in

FIG. 6

from the back of the printer;

FIG. 8

is an exploded perspective view of an ink cartridge in the ink jet printer in

FIG. 1

;

FIG. 9

is an exploded perspective view of an ink cartridge in the ink jet printer in

FIG. 1

;

FIG. 10

is a sectional view taken on line A—A in FIG.

8

and line B—B in

FIG. 9

;

FIGS.

11

(A) and

11

(B) are schematic representations to describe the operation of an optical detector mounted on a carriage for detecting detected parts formed on the ink cartridges;

FIG. 12

is a schematic block diagram of a drive control system of the ink jet printer in

FIG. 1

;

FIG. 13

is a schematic representation to show a modification of the ink jet printer in

FIG. 1

;

FIG. 14

is a schematic representation to show another embodiment of the ink jet printer in

FIG. 1

;

FIG. 15

is a pulse timing chart based on a waveform detected by the optical detector shown in

FIG. 14

;

FIG. 16

is a flowchart for judgement of the cartridge;

FIG. 17

is a schematic representation to show another detection mechanism for detecting the presence or absence of ink and an ink cartridge being placed;

FIGS.

18

(A) and (B) are schematic representation to show the operation of a detection piece for indicating the presence or absence of ink in the ink cartridge in

FIG. 17

;

FIG. 19

is a plan view of a detected part on which the ink cartridge is loaded;

FIG. 20

is a perspective view of the ink cartridge and the a detected part from a back side;

FIGS.

21

(A) and (B) are schematic representations to describe the operation of the detected part along with the ink cartridge attached or removed operation in

FIG. 19

;

FIG. 22

is a top view of a part adjacent to the detected member; and

FIGS.

23

(A) and (B) are schematic representations to depict the operation of the detected part along with the ink cartridge attached or removed operation in FIG.

22

.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

Referring now to the accompanying drawings, there is shown an embodiment of an off-carriage type serial ink jet printer incorporating the invention.

FIG. 1

is a perspective view to show the internal structure of an ink jet printer of the embodiment,

FIG. 2

is a schematically sectional view taken on line II—II in

FIG. 1

, and

FIG. 3

is an exploded perspective view to show the ink jet printer in a state in which units are disassembled. Referring to

FIGS. 1

to

3

, the ink jet printer

1

of the embodiment comprises parts placed in a printer frame assembly

2

shaped like a flat rectangular box as a whole and a recording paper transport section

3

placed on the front end of the printer, formed with a recording paper transport passage

4

shaped like a V letter. Recording paper

5

passes through the recording paper transport passage

4

and is ejected to the top via a print position

6

.

A nozzle face

10

of a head chip

9

in which an ink jet head is built, mounted on a carriage

8

is opposed to a platen plate

7

placed in an upright position for defining the print position

6

. As the carriage

8

is moved, the head chip

9

is reciprocated in a printer width direction x of a print width direction for performing predetermined print on the surface of the recording paper

5

passing through the print position

6

. An ink supply section

12

for supplying ink to the head chip

9

is placed in the rear of a carriage move space

11

formed for moving the carriage

8

and extending in the printer width direction x. Ink is supplied from the ink supply section

12

via a flexible ink tube

13

(see

FIG. 4

) to the head chip

9

moved with the carriage

8

.

A head maintenance unit

14

is placed from the back to side of the recording paper transport section

3

. The head maintenance unit

14

comprises a wiper

15

and a head cap

16

opposed to the nozzle face

10

of the head chip

9

at one end of the move passage of the carriage

8

. Dirt of the nozzle face

10

is wiped by the wiper

15

. Ink is ejected from each ink nozzle of the head chip

9

in an opposed state to the head cap

16

or ink is ejected with the head cap

16

put on the nozzle face

10

, whereby the recovery operation of each ink nozzle is performed.

Next, the placement relationship among the parts of the described ink jet printer

1

and the detailed structure thereof will be discussed.

To begin with, the printer frame assembly

2

of the embodiment includes a left frame side plate member

21

and a right frame side plate member

22

opposed to each other in parallel on the left and right sides of the printer width direction x. At an intermediate position in the back and forth direction of the printer in the frame side plate members

21

and

22

, a guide shaft

23

extending in the printer width direction x is placed between the frame side plate members

21

and

22

. A subguide shaft

24

extending in the printer width direction x, placed between the frame side plate members

21

and

22

is placed at a rear position of the guide shaft

23

. The carriage

8

is mounted on the guide shaft

23

and the subguide shaft

24

in a state in which the carriage

8

can reciprocate in the printer width direction x along the shafts.

That is, the carriage

8

is formed with a through hole

25

through which the guide shaft

23

passes in a slidable state and is formed at the rear end with slide pieces

26

that can slide with the subguide shaft

24

. At a lower position of the guide shaft

23

, a cam shaft

27

extending in the printer width direction x is placed between the frame side plate members

21

and

22

. The cam shaft

27

is formed on an outer peripheral surface with a spiral cam groove

27

a

along the axial direction and a cam follower

28

extending downward from the back of the carriage

8

is inserted into the cam groove

27

a

in a slidable state. The cam shaft

27

is rotated through a reduction gear train

30

by a carriage motor

29

. As the cam shaft

27

rotates, the carriage

8

can move in the printer width direction x along the guide shaft

23

and the subguide shaft

24

.

A head unit

31

is mounted on the described carriage

8

.

FIGS. 4 and 5

are a perspective view of the carriage

8

and the head unit

31

and a fragmentary sectional view. As shown in the figures, the head unit

31

comprises a unit case

32

, the head chip

9

attached to the top of the unit case

32

, a damper chamber

33

formed in the unit case

32

, and an ink supply passage

34

formed in the unit case

32

for supplying ink to each ink nozzle (not shown) of the head chip

9

. A flexible printed wiring board

35

formed with wiring for connecting the head chip

9

and an external circuit, and ink tubes

13

(

13

a

and

13

b

) are drawn out from the unit case

32

.

The carriage

8

comprises a main portion

36

on which the head unit

31

is mounted and the through hole

25

and the slide pieces

26

formed in the main portion

36

. Further, an end face portion opposed to the ink supply section

12

in the main portion

36

of the carriage

8

comprises an attachment plate portion

37

extending downward, and an optical detector

38

comprising a light emission element and a light reception element is attached to the attachment plate portion

37

.

Referring again to

FIGS. 1

to

3

, the carriage move space

11

for reciprocating the carriage

8

with the head unit

31

mounted thereon in the printer width direction x is formed between the left and right frame side plate members

21

and

22

. The ink supply section

12

is placed between the frame side plate members

21

and

22

on the back of the carriage move space

11

and the recording paper transport section

3

is placed between the frame side plate members

21

and

22

on the front of the carriage move space

11

.

Since the recording paper transport section

3

has a length shorter than the spacing between the left and right frame side plate members

21

and

22

, on the left of the recording paper transport section

3

, a side gap portion

41

is formed between the recording paper transport section

3

and the left frame side plate member

21

. A back side gap portion

44

almost triangular in cross section extending in the printer width direction x, defined by a bottom

42

of the frame assembly

2

defined by the lower end faces of the frame side plate members

21

and

22

and a recording paper transport section back

43

is also formed on the back side of the recording paper transport section

3

. In the embodiment, the side gap portion

41

and the back side gap portion

44

are used to place the head maintenance unit

14

.

More particularly, the left frame side plate member

21

comprises a side plate portion

21

a

, a bottom plate portion

21

b

bent in the right angle from the lower end and extending to the right frame side plate member

22

, and an attachment plate portion

21

c

upright at the right angle from the tip of the bottom plate portion

21

b

and extending upward. The right frame side plate member

22

comprises a side plate portion

22

a

and a bottom plate portion

22

b

bent in the right angle from the lower end and extending to the left frame side plate member

21

. The bottom

42

of the printer frame assembly

2

is defined by the backs of the bottom plate portions

21

a

and

22

b.

The recording paper transport section

3

comprises a recording paper guide plate

51

attached to the right frame side plate member

22

and a recording paper transport unit

52

placed on the recording paper guide plate

51

from the top in a printer thickness direction z. The recording paper guide plate

51

is bent almost like a V letter open upward in cross section. It comprises a bottom plate portion Sa extending in parallel to the bottom

42

of the frame assembly

2

at an upper position of the bottom

42

, a vertical plate portion

51

b

in an upright position from the rear margin of the bottom plate portion

51

a

, and an inclined plate portion

51

c

extending in an upward slanting direction from the front margin of the bottom plate portion

51

a

toward the front (in other words, inclined upward as it is away from the side of the carriage move space).

The described recording paper guide plate

51

is fixed at both ends to the attachment plate portion

21

c

of the left frame side plate member

21

and the side plate portion

22

a

of the right frame side plate member

22

. A guide plate

53

made of a thin plate comprising a spring and having projections

53

a

projected upward at both ends is attached to the front end face of the vertical plate portion

51

b

so as to slightly narrow the angle with the inclined plate portion

51

c

. From the guide plate

53

, a driven roller

54

for transporting recording paper slightly projects toward the front of the printer. The back side gap portion

44

is formed by the bottom plate portion

51

a

of the recording paper guide plate

51

and a back

51

d

of the inclined plate portion

51

c

. Further, a paper feed motor

50

attached to the right frame side plate member

22

is placed on the lower side on the right end side in the recording paper guide plate

51

.

In contrast, the recording paper transport unit

52

comprises a unit base

55

having such a contour shape to bridge the upper part of the recording paper guide plate

51

bent like a V letter in cross section. The platen plate

7

is attached to the unit base

55

. A recording paper transport roller

56

is attached to the tapered lower end part of the unit base

55

for rotation, and the front face of the unit base

55

is a recording paper guide face

57

inclined in an upward slanting direction from the lower end part.

With the recording paper transport unit

52

placed on the recording paper guide plate

51

, the recording paper guide face

57

on the unit side is opposed to the inclined plate portion

51

c

of the recording paper guide plate

51

, the driven roller

54

is pressed against the recording paper transport roller

56

, and the projection

53

a

of the guide plate

53

is pressed against the platen plate

7

in the upright position by a slight force. Accordingly, the recording paper transport passage

4

shaped like a V letter is formed. A driven gear

58

attached to the right end of the rotation shaft of the recording paper transport roller

56

meshes with a drive gear

59

attached to the rotation shaft of the paper feed motor

50

. Thus, the recording paper transport roller

56

is rotated by the paper feed motor

50

for transporting recording paper via the print position

6

along the recording paper transport passage

4

.

Next,

FIGS. 6 and 7

are a perspective view and a front view of the head maintenance unit

14

from the back. Referring to the figures, the head maintenance unit

14

comprises the head cap

16

and the wiper

15

placed in the side gap portion

41

, and a waste ink pump

61

, a motor

62

, and a power transmission mechanism

63

for transmitting the rotation power of the motor

62

to the waste ink pump

61

, the wiper

15

, and the head cap

16

. The waste ink pump

61

, the motor

62

, and the power transmission mechanism

63

are placed in the back side gap portion

44

.

The head maintenance unit

14

of the embodiment comprises a unit base

64

placed between the left and right frame side plate members

21

and

22

, and the parts

15

,

16

,

61

,

62

, and

63

are mounted on the unit base

64

.

The unit base

64

of the embodiment is shaped roughly like an L letter comprising an end plate portion

64

a

whose outer face becomes the front end face of the ink jet printer

1

when the unit base

64

is placed in the frame assembly

2

, and a side plate portion

64

b

bent at the right angle and extending along the side plate portion

21

a

of the frame side plate member

21

from the end of the end plate portion

64

a

on the side of the frame side plate member

21

. The waste ink pump

61

, the motor

62

, and the power transmission mechanism

63

are installed inside the end plate portion

64

a

, and the head cap

16

and the wiper

15

are installed on the side plate portion

64

b.

Next, the ink supply section

12

of the embodiment is placed between the left and right frame side plate members

21

and

22

and comprises an ink cartridge holder

71

shaped like a rectangular box with the top opened and two ink cartridges

72

and

73

detachably placed in the ink cartridge holder

71

from above. Left and right side plate portions

71

a

and

71

b

of the ink cartridge holder

71

are attached to the side plate portions

21

a

and

22

a

of the left and right frame side plate members

21

and

22

. A bottom plate portion

71

c

of the ink cartridge holder

71

is positioned on the same plane as the bottom plate portions

21

b

and

22

b

of the frame side plate members

21

and

22

and defines the bottom

42

of the frame assembly

2

. Further, an end plate portion

71

d

on the back of the ink cartridge holder

71

is perpendicular to the sides of the frame side plate members

21

and

22

and defines the rear end face of the ink jet printer

1

.

FIGS. 8 and 9

are exploded perspective views of the ink cartridges

72

and

73

respectively.

FIG. 10

is a sectional view taken on line A—A in FIG.

8

and line B—B in

FIG. 9

in a state in which the ink cartridges

72

and

73

are placed in the ink cartridge holder

71

.

To begin with, referring to

FIGS. 8 and 10

, the ink cartridge

72

is a color ink cartridge storing color ink and comprises a case main body

81

and a case lid

82

. The case main body

81

contains a color ink reservoir

84

storing color ink with which an absorption body

83

is filled, a color ink reservoir

85

storing color ink in liquid form, and a waste ink collection chamber

87

for collecting waste ink in a contained ink absorption body

86

. The color ink reservoirs

85

and

84

are separated from each other in the upper portions and communicate with each other at a position in the vicinity of the bottom.

The case main body

81

is formed in the bottom portion with an ink supply port

88

in the portion where the color ink reservoir

84

is positioned and a waste ink collection port

89

in the portion where the waste ink collection chamber

87

is positioned. When the ink cartridge

72

is placed in the ink cartridge holder

71

, the ink supply port

88

and the waste ink collection port

89

communicate with a color ink supply section (not shown) and a waste ink collection section (not shown) formed on the bottom of the ink cartridge holder

71

.

Next, referring to

FIGS. 9 and 10

, the ink cartridge

73

will be discussed. The ink cartridge

73

is a black ink cartridge storing black ink and comprises a case main body

91

and a case lid

92

. The case main body

91

contains a black ink reservoir

94

storing black ink with which an absorption body

93

is filled, and a black ink reservoir

95

storing black ink in liquid form; these communicate with each other at a position in the vicinity of the bottom. A black ink supply port

96

is formed in the bottom portion of the case main body

91

where the black ink reservoir

94

is positioned. When the ink cartridge

73

is placed in the ink cartridge holder

71

, the ink supply port

96

communicates with a black ink supply section (not shown) formed on the bottom of the ink cartridge holder

71

.

When the ink cartridges

72

,

73

are thus placed, an ink supply passage to the head chip

9

is formed via the ink tube

13

a

,

13

b

and at the same time, a waste ink collection passage for collecting waste ink collected in the head maintenance unit

14

is formed.

The frame assembly

2

of the ink jet printer

1

of the embodiment described above is made up of the left and right frame side plate members

21

and

22

, the unit base

64

of the head maintenance unit

14

attached to the front end face of the printer, and the ink cartridge holder

71

of the ink supply section

12

attached to the rear end of the printer. The head maintenance unit

14

is placed so that it is put in the rectangular frame assembly

2

using the back side gap portion

44

formed between the back of the recording paper guide plate

51

of the recording paper transport section

3

and the bottom

42

of the frame assembly

2

and the side gap portion

41

formed between the recording paper transport section

3

and the frame side plate member

21

.

Therefore, in the ink jet printer

1

, the recording paper transport section

3

and the ink supply section

12

are placed compactly in front and rear with the move space

11

of the carriage

8

between, and using the empty spaces on the back and side of the recording paper transport section

3

, the head maintenance unit

14

is placed compactly. Therefore, a flat and small-sized ink jet printer can be provided.

In the embodiment, the recording paper transport mechanism and the portion for head maintenance requiring maintenance and inspection are put into units. Therefore, although the printer is small-sized, assembly work is easy to perform and disassembly and assembly at maintenance and inspection time are also easy to perform.

(Ink Cartridge Detection Mechanism)

Next, the ink jet printer

1

of the embodiment comprises a detection mechanism for detecting the ink cartridges

72

and

73

being placed in the ink jet holder

71

and detecting the presence or absence of ink in the ink cartridges

72

and

73

. The detection mechanism of the embodiment is made up of the single optical detector

38

attached to the carriage

8

and a plurality of detected parts

101

and

102

and

121

and

122

formed on the ink cartridges

72

and

73

.

As seen in

FIGS. 8 and 10

, the two detected parts

101

and

102

are formed on a front wall portion

100

of the color ink cartridge

72

of the embodiment on the side of the carriage move space

11

. The detected parts

101

and

102

are formed away from each other along the move direction of the optical detector

38

, namely, the carriage move direction x and are positioned within the detection area of the optical detector

38

.

The detected part

101

comprises a right-angle prism

103

provided by projecting a bottom side portion of the front wall portion

100

made of a plastic material having a light transmission property to the inside. Two reflection faces

104

and

105

orthogonal to each other in the right-angle prism

103

are exposed to the interior of the color ink reservoir

85

. An irregular reflection prevention face

106

sized to include the reflection faces

104

and

105

is formed on the surface side of the front wall portion

100

where the right-angle prism

103

is formed. Further, the rectangular irregular reflection prevention face

106

is formed at the center with a rectangular recess part

107

.

The other detected part

102

also comprises a right-angle prism

113

provided by projecting a bottom side portion of the front wall portion

100

to the inside. A bottom plate portion

110

of the case main body

81

contiguous to the front wall portion

100

where the right-angle prism

113

is formed with an almost rectangular recess part

111

in the portion adjacent to a peripheral wall portion

88

a

of the ink supply port

88

. Therefore, the inner and outer faces of the end plate portion where the right-angle prism

113

is formed are exposed to the exterior of the color ink reservoir

84

. That is, a gap is formed between two reflection faces

114

and

115

orthogonal to each other in the right-angle prism

113

and a recess part lateral wall portion

112

forming a part of a lateral wall portion of the color ink reservoir

84

.

An irregular reflection prevention face

116

sized to include the reflection faces

114

and

115

is formed on the surface side of the front wall portion

100

where the right-angle prism

113

is formed. Further, the rectangular irregular reflection prevention face

116

is formed at the center with a rectangular recess part

117

.

Next, the two detected parts

121

and

122

are also formed on a front wall portion

120

of the black ink cartridge

73

on the side of the carriage move space

11

. The detected parts

121

and

122

are formed away from each other along the move direction of the optical detector

38

, namely, the carriage move direction x and are positioned within the detection area of the optical detector

38

.

The detected part

121

has the same structure as the detected part

101

and comprises a right-angle prism

123

provided by projecting a bottom side portion of the front wall portion

120

to the inside. Two reflection faces

124

and

125

orthogonal to each other in the right-angle prism

123

are exposed to the interior of the black ink reservoir

95

. An irregular reflection prevention face

126

sized to include the reflection faces

124

and

125

is formed on the surface side of the front wall portion

120

where the right-angle prism

123

is formed. Further, the rectangular irregular reflection prevention face

126

is formed at the center with a rectangular recess part

127

.

The other detected part

122

also comprises a right-angle prism

133

provided by projecting a bottom side portion of the front wall portion

120

to the inside. The right-angle prism

133

is formed by projecting the bottom side portion of the front wall portion

120

to the inside like a right triangle and forming in the part an L-shaped recess part

131

from the side of a bottom plate portion

130

of the case main body

91

. The right-angle prism

133

comprises two reflection faces

134

and

135

orthogonal to each other. Therefore, the reflection faces

134

and

135

of the right-angle prism

133

are not directly exposed to ink and a gap is always provided by the recess part

131

.

An irregular reflection prevention face

136

sized to include the reflection faces

134

and

135

is formed on the surface side of the front wall portion

120

where the right-angle prism

133

is formed. Further, the rectangular irregular reflection prevention face

136

is formed at the center with a rectangular recess part

137

.

Of the detected parts

101

,

102

,

121

, and

122

, the detected parts

101

and

121

are provided for indicating the presence or absence of ink in the color ink cartridge

72

and the black ink cartridge

73

. Taking the detected part

121

as an example, as shown in FIG.

11

(

a

), when the black ink reservoir

95

contains ink, the two reflection faces

124

and

125

orthogonal to each other are immersed in ink

140

and thus do not function as reflection faces. Thus, when the optical detector

38

mounted on the carriage

8

is opposed to the detected part

121

(position

38

B), light emitted from the light emission element

38

a

is not reflected on the reflection face

124

and the light reception element

38

b

does not receive reflected light.

In contrast, as shown in FIG.

11

(

b

), when the black ink reservoir

95

becomes empty of ink, the two prism reflection faces

124

and

125

orthogonal to each other function as reflection faces. Thus, at the position

38

B, light emitted from the light emission element

38

a

of the detector

38

is reflected on the reflection faces

124

and

125

and is incident on the light reception element

38

b

. Therefore, the presence or absence of ink can be detected based on the light reception amount at the light reception element

38

b.

Next, the detected parts

102

and

122

are provided for detecting the color ink cartridge

72

and the black ink cartridge

73

being placed in the ink cartridge holder

71

. Taking the detected part

122

as an example, as shown in

FIG. 11

, the gap (recess part

131

) is formed on the rear side of the two reflection faces

134

and

135

orthogonal to each other and thus the reflection faces always have a reflection function regardless of whether or not ink exists. Thus, if the black ink cartridge

73

is placed in the ink cartridge holder

71

, when the optical detector

38

is opposed to the detected part

122

(position

38

A), the detector

38

detects reflected light. If the black ink cartridge

73

is not placed, no reflected light is detected. Therefore, the presence or absence of the ink cartridge can be detected based on the light reception amount at the light reception element

38

b.

Next,

FIG. 12

is a schematic block diagram to show a drive control system of the ink jet printer

1

of the embodiment. The drive control system comprises a control section

151

configured centering on a computer containing a CPU, ROM, RAM, etc., and print information is supplied from an external system

152

to the control section

151

. The control section

151

drives the paper feed motor

50

through a driver

153

based on the supplied print information for transporting recording paper (not shown) to the print position

6

. The control section

151

also drives the carriage motor

29

through a driver

155

for moving the carriage

8

on which the head chip

9

is mounted in the printer width direction x. Further, the control section

151

drives the ink jet head built in the head chip

9

at a predetermined timing through a head driver

157

for performing predetermined print on the surface of the recording paper passing through the print position. In addition, maintenance processing of the ink jet head is also performed. As a non-limiting example, the maintenance processing may contain processing of moving the carriage

8

to the home position where the head cap

16

of the head maintenance unit

14

is positioned and ink droplets are ejected from each nozzle of the ink jet head or performing a suction operation of ink from each ink nozzle with the head cap

16

put on the nozzle face of the ink jet head. The motor

62

as the drive source for the maintenance processing is also driven through a driver

159

.

The control section

151

detects the carriage

8

being positioned at the home position

8

(HP) by a sensor

161

placed at the home position

8

(HP). The control section

151

detects each of positions

8

(

1

) to

8

(

4

) on the move passage of the carriage

8

based on the number of steps of the carriage motor

29

or the like, for example, with the home position

8

(HP) as the reference. The position

8

(

1

) is a position at which the optical sensor

38

mounted on the carriage

8

is opposed to the detected part

122

of the black ink cartridge

73

; the position

8

(

2

) is a position opposed to the detected part

121

; the position

8

(

3

) is a position at which the optical sensor

38

is opposed to the detected part

102

of the color ink cartridge

72

; and the position

8

(

4

) is a position opposed to the detected part

101

.

When the carriage

8

is placed at the positions

8

(

1

) to

8

(

4

), the control section

151

determines whether or not the ink cartridges

73

and

72

are placed and the presence or absence of ink in the ink cartridges

73

and

72

based on a detection signal of the optical detector

38

.

As described above, in the ink jet printer

1

of the embodiment, the ink cartridge

72

is formed on one side with the detected parts

101

and

102

each comprising a right-angle prism and the ink cartridge

73

is formed on one side with the detected parts

121

and

122

each comprising a right-angle prism. The detected parts are detected by the common optical detector

38

mounted on the carriage

8

, whereby whether or not the ink cartridges

73

and

72

are placed and the presence or absence of ink in the ink cartridges

73

and

72

are determined.

In the related art, to detect such four types of information, four detection mechanisms need to be placed. However, this embodiment makes it possible to provide a similar function by using only the four detected parts and the single detector. Therefore, the invention is advantageous for cost reduction and miniaturization of an ink jet printer.

(Other Embodiments)

In the above-described embodiment, the mechanism for detecting the carriage being positioned at the home position is not specifically described. As such a detection mechanism, an optical detection mechanism, a mechanical detection mechanism, etc., can be adopted. However, it is desirable that the configuration shown in

FIG. 13

be used. Parts identical with or similar to those of the ink jet printer

1

previously described with reference to the accompanying drawings are denoted by the same reference numerals in FIG.

13

. In an ink jet printer

170

shown in the figure, a detected part

171

made of a right-angle prism for detecting a home position is placed on a slightly inner side from the return point of an optical detector

38

mounted on a carriage

8

. In the configuration, when a carriage motor

29

is rotated in one direction and the carriage

8

is reciprocated in a printer width direction x by a cam shaft

27

comprising an endless cam groove

27

a

, two successive detection signals of the detected part

171

are detected in the vicinity of the return point at a side of the detected part

171

. Since the interval between the detection signals of the detected part

171

is shorter than that between detection signals of detected parts

101

and

102

of an ink cartridge

72

or detected parts

121

and

122

of an ink cartridge

73

, the carriage

8

being positioned at the home position

8

(HP) can be detected, so that the mechanism for detecting the home position of the carriage

8

can be made simple.

In this embodiment, the cam groove

27

a

is shaped in a spiral and is formed endless so that the carriage is reciprocated in the printer width direction x as the cam shaft

27

rotates in one direction. If the cam groove is not formed in an endless manner, the carriage

8

is reciprocated by changing the carriage motor

29

rotation direction. In this case, it is also possible to rotate the carriage motor

29

a predetermined number of steps for abutting the carriage

8

against a frame side plate member

21

, and then change the rotation direction of the carriage motor

29

and adopt the position at which the first detection signal is detected as the home position.

Next, the description of the ink jet printer

1

assumes that the two types of ink cartridges

72

and

73

are placed. However, the present invention includes an ink supply section in which three types of ink cartridges can also be installed. FIGS.

14

(

a

) and (

b

) show an ink jet printer

180

comprising such an ink supply section

12

A. Parts identical with or similar to those of the ink jet printer

1

previously described with reference to the accompanying drawings are denoted by the same reference numerals in FIGS.

14

(

a

) and (

b

). A color ink cartridge

72

and a black ink cartridge

73

can be placed in the ink supply section

12

A as shown in FIG.

14

(

a

) and a single black ink cartridge

74

shown in FIG.

14

(

b

) can also be placed in the ink supply section

12

A. When the two ink cartridges

72

and

73

are placed, multicolor print is executed; when the single ink cartridge

74

is placed, single-color print is executed. To thus switch the print mode, it is necessary to determine whether or not the ink cartridge

74

is placed. To do this, in the embodiment, the ink cartridge

74

is formed with a detected part

182

for indicating that the ink cartridge

74

is placed and a detected part

181

for indicating the presence or absence of ink in the ink cartridge

74

. The detected part

182

can have the same configuration as the above-described detected part

102

,

122

and the detected part

181

can have the same configuration as the above-described detected part

101

,

121

.

In the embodiment, however, the detected part

182

is formed at a position where it is opposed to an optical detector

38

mounted on a carriage

8

when the carriage

8

reaches a position

8

(

1

A) between positions

8

(

1

) and

8

(

2

). Therefore, whether or not the ink cartridge

74

is placed can be determined based on an output signal of the optical detector

38

when the carriage

8

is placed at the position

8

(

1

A). The print mode can be switched into either of multicolor print and single-color print based on the determination result.

Thus, the ink jet printer

180

of the embodiment eliminates the need for operating a DIP switch, etc., placed on a printer controller for switching the print mode as in the related art, so that the detrimental effects caused by the user who forgets to operate the switch can be avoided. Accordingly, it is made possible to determine the print mode using this configuration.

In the embodiment, a position

8

(

3

A) of the detected part

181

formed on the ink cartridge

74

is also different from positions

8

(

1

) to

8

(

4

). Therefore, a detection signal of the optical detector

8

is determined at the six carriage move positions. However, the detected part

181

is provided for detecting the presence or absence of ink and thus if the position of the detected part

181

is set to the same position as any of the positions

8

(

1

) to

8

(

4

), no problem arises; detection can also be made with the position difference of the positions

8

(

1

) to

8

(

4

).

Next, this detection process is described in more detail using

FIGS. 15 and 16

hereinbelow.

FIG. 15

depicts a pulse timing chart based on a waveform detected by the optical detector shown in

FIG. 14

, and

FIG. 16

shows a flowchart for judgement of the cartridge.

When starting the printer, the printer initializes such that, for example, the carriage

8

is positioned at a home position. In this case, the carriage motor

2

of the step motor may be driven in the predetermined step driving to bring the carriage

8

into contact with the frame side plate member

21

. After that, the carriage motor rotation direction is changed to primary confirm the detecting signal (HP).

After confirming the home position P(HP), the counter is reset (ST

2

) and the carriage

8

is moved according to one step movements (ST

3

) where the counter starts to count (ST

4

) every one step movement of the carriage

8

.

The pulse detected by the optical detector

38

is detected along with the movement of the carriage

8

(ST

5

) When the pulse is detected, the confirmation is performed by a cartridge judgement routine (ST

6

).

As shown in FIG.

14

(

a

), when the ink cartridge

73

exists, the pulse P

8

(

1

) is detected, whether or not the counter value of the detected pulse is within that of the predetermined set position to judge the color of ink cartridge. In this case, the first detected pulse P

8

(

1

) is judged as a position

8

(

1

) to recognize that the black cartridge

73

is loaded (ST

10

).

Then, the ink cartridge condition is specified by collating the counter value of the detected pulse with the counter value corresponding to the predetermined region (ST

10

to ST

15

).

On the other hand, when the counter value is recognized to the condition where the carriage

8

is positioned at the left end within the carriage

8

movement region, the routine is finished to return to start.

In order to confirm the home position, the operation that the carriage

8

is brought into contact with the frame side plate member

21

is only performed at the start. After subtracting the counter value corresponding to the carriage movement and several counts from the counter, the first pulse is recognized as the home position after changing the movement direction, again.

While the ink is consumed by printing, in other words, when the pulse P

8

(

2

) shown in

FIG. 15

is detected to judge that the black ink cartridge

73

is empty (ST

12

), the error processing is subjected. As described above, this process is operable for determining the type of cartridge and the ink end thereof by judging the pulse detected in every carriage movement.

Next, in the above-described embodiments, the optical detection mechanism of reflection type comprising the optical detector and the detected parts each implemented as a right-angle prism is adopted, but any other type of detection mechanism can also be adopted. For example, a generally used optical detector of a transmission type or a mechanical switch such as a microswitch can also be used. Further, as the structure of each detected part, any other than the right-angle prism can be adopted.

FIGS. 17 and 18

are drawings to describe an example of a detection mechanism having a different configuration than the above-described configuration containing the optical detector and the detected parts. Referring to the figures, detection pieces

191

and

192

as detected parts are projected from one side of an ink cartridge

190

. The detection piece

191

is a projection formed integrally with a cartridge case

193

for detecting the ink cartridge

190

being placed. The other detection piece

192

is projected to the outside through a slit

194

made in the cartridge case

193

when the ink cartridge

190

becomes empty of ink.

A transmission type optical detector

197

is attached to the side of a carriage

196

on which an ink jet head

195

is mounted, opposed to the detection pieces

191

and

192

of the ink cartridge

190

. As the carriage

196

moves, the detection pieces

191

and

192

are positioned between a light emission element

197

a

and a light reception element

197

b

of the optical detector

197

and thus can be detected. A detection piece

198

having a slit so as to provide a different detection waveform from that of the detection piece

191

,

192

is placed at a home position of the carriage

196

. As the detection piece

198

is detected, it is determined that the carriage

196

is placed at the home position.

As shown in FIG.

18

(

a

), a flexible ink bag

199

storing ink is placed in the ink cartridge

190

. As the ink bag

199

becomes empty of ink, the ink bag

199

becomes thin and the detection piece

192

attached to the ink bag

199

moves accordingly. When the ink bag

199

is completely empty of ink, the detection piece

192

is projected to the outside through the slit

194

made in the cartridge case

193

and can be detected by the optical detector

197

.

Next, further embodiments of the present invention will be described hereinbelow.

The detection mechanism described above employs the construction such that the detected part is equipped to each ink cartridge for recognizing the presence or absence of the ink cartridge. Of course, the present invention is not limited by this type of the mechanism. It is also applicable for employing the structure such that the detected part is movably equipped to the ink cartridge holder. This mechanism will be described hereinbelow using

FIGS. 19

to

23

.

FIG. 19

is a plan view of the detected part on which the ink cartridge is loaded,

FIG. 20

is a perspective view of the ink cartridge and the detected part from a back side, and FIGS.

21

(A) and (B) are schematic representations to describe the operation of the detected part along with the ink cartridge attached or removed operation.

The difference between an ink cartridge

75

and the ink cartridge

72

described in a previous embodiment is that while a detected part

201

of ink cartridge

75

may correspond to the detected part

101

of the previous embodiment, in this embodiment, there is no member equipped as the detected part

102

. Rather, the recess portion

75

i

is formed at a position where the detected part

102

is provided.

Further, at a front plate

71

e

of the ink cartridge holder

71

, an opening portion

71

f

is formed at a portion facing the recess portion

75

i

of the ink cartridge

75

and a detected member

202

is movably equipped such that the position of the detected member

202

is changed along with the attached or removed operation.

The detected member

202

includes a right-angle prism

203

having two reflection faces

204

and

205

defined to a right-angle therebetween and protrudes toward the inside of the ink cartridge holder

71

. The detected member

202

is slidably supported in an up to down direction along with the guide grooves

71

g

formed on the front plate

71

e

at the right and left sides the opening

71

f

, and is pressed upwardly by a compression spring

71

h

(i.e., an urging member).

As shown in FIG.

21

(A), when the ink cartridge is not attached, the detected member

202

is disposed upwardly from a position facing the optical detector

38

, whereas when the ink cartridge

75

is attached on the ink cartridge holder

71

, an upper surface

203

a

of the prism

203

is left down until a position facing the optical detector

38

by pressing a contact surface

75

a

of the ink cartridge holder

75

to position the detected member

202

into the recess portion

75

i

formed at the ink cartridge

75

, as shown in FIG.

21

(B).

As shown in

FIG. 19

, while attaching the ink cartridge

75

, the optical detector

38

moves to a position facing the detected member

202

and emits a light to the detected member

202

so that the irradiated light passes through the inside of the detected member

202

and subsequently reflects by the reflection faces

204

and

205

to be received to a receiving element

38

b

of the optical detector

38

as an incident light.

On the other hand, in the condition that the ink cartridge

75

is not attached, the detected member is disposed upwardly. Thus, if the light is irradiated, the reflection light reflected by the reflection surfaces

203

and

204

is not incident to the receiving element

38

b

of the optical detector

38

.

In this configuration, the attached or removed condition of the ink cartridge

75

can be detected by the optical detector

38

without employing a refection portion for detecting an ink cartridge attached or removed condition to the ink cartridge

75

.

Next, a further embodiment will be described such that the detected part for detecting whether or not the ink cartridge is attached or removed is rotatably provided with the ink cartridge holder.

FIG. 22

depicts a top view of a part adjacent to the detected member, and FIGS.

23

(A) and (B) are schematic representations to describe the operation of the detected part along with the ink cartridge attached or removed operation.

As shown in these figures, the detected member

206

has the prism

207

including the reflection faces

204

and

205

defined to a right angle therebetween and protruding towards the inside of the cartridge holder

71

. The detected member

206

in this embodiment is rotatably supported about an axis

71

i

provided on the end portion of the opening

71

f

of the front plate

71

e

and is urged upwardly by a twisted coil spring (not shown).

As shown in FIG.

23

(A), when the ink cartridge

76

is not attached, the prism

207

provided on the detected member

206

is disposed upwardly from a position facing the optical detector

38

, whereas when an ink cartridge

76

is attached on the ink cartridge holder

71

, an engagement portion

206

a

of the detected member

206

is pressed by a contact surface

76

a

of the ink cartridge

76

to rotate the detected member

206

in a counterclockwise direction.

In this construction, as similar to the previous embodiment, the attached or removed condition of the ink cartridge

76

can be detected by the optical detector

38

without employing a refection portion for detecting an ink cartridge attached or removed condition to the ink cartridge

75

.

The description described above is addressed to a single ink cartridge. Of course, when two or more ink cartridges are employed, the detected member corresponding to the each ink cartridge is equipped to enjoy the same effect and advantages.

As described above, the detected part for detecting the ink cartridge presence or absent condition is movably mounted on the cartridge holder side so that it is free from the detected part for detecting the ink cartridge present or absent condition. Thus, the ink cartridge shape is simplified and the manufacturing cost for ink cartridge is reduced.

Further, the detected member may be rotatably and/or slidably supported with respect to the cartridge holder so that the movable detected member is simply constructed to prevent the ink cartridge manufacturing cost from being increased.

In the above-described embodiments, the single detector is mounted on the carriage, but two detectors can also be mounted, for example. In this case, a detection method can be provided wherein at the same position of the carriage, one detector detects the presence or absence of an ink cartridge and the other detector detects the presence or absence of ink or the like.

Further, in the above-described embodiments, the prism comprising the two reflection faces orthogonal to each other is used, but the prism may comprise multiple reflection faces having a plurality of detectable positions. In this case, the number of detectable occasions is increased and thus the detection accuracy can be improved.

Still further, in the above-described embodiments, the ink cartridge is attached to the printer body side. The present invention could be applied to the printer such that the ink cartridge is attached to the carriage. Namely, the detected member is equipped to the cartridge holder mounted on the carriage, and the detected member is detected by the optical detector arranged on the printer body to enjoy the same effect and advantage of the embodiments described above.

As described above, according to the invention, in the off-carriage type serial ink jet printer, the detector is mounted on the carriage and the detected parts that can be detected by the detector are formed on the ink cartridges, etc., making up the ink supply section along the move passage of the carriage. A detected part may also be placed at the position indicating the home position of the carriage or the like.

Therefore, according to the invention, the common detector and the detected parts can detect the information concerning the ink supply section and the information concerning the carriage move position. The invention is extremely advantageous for cost reduction and miniaturization of the printer as compared with the case where a plurality of detection mechanisms must be placed in response to the types of information to be detected as in the related art.

Since the type of ink cartridge placed is also detected, the detrimental effects caused by the user who forgets to operate the switch as with the case where the DIP switch is operated for switching the print mode between single-color print and multicolor print as in the related art can be avoided.

Number	Name	Date	Kind
4709248	Piatt et al.	Nov 1987	A
5721581	Saito et al.	Feb 1998	A
5997121	Altfather et al.	Dec 1999	A
6155664	Cook	Dec 2000	A
6443546	Takagi	Sep 2002	B1

Number	Date	Country
0 361 753	Apr 1990	EP
0 540 244	May 1993	EP
0626 267	Nov 1994	EP
0 689 936	Jan 1996	EP
0 718 104	Jun 1996	EP

Ink jet printer

Information

Patent Number

Date Filed

Date Issued

Inventors

Original Assignees

Examiners

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CPC

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