DE102008011652A1 - Ink cartridge has frame, which limits ink chamber, and section, which is illuminated with light, where wall forms part of outer circumference of frame - Google Patents

Abstract

The ink cartridge (10) has a frame (110), which limits an ink chamber, and a section, which is illuminated with light, where a wall forms a part of an outer circumference of the frame. The section has two elements, where a third element is provided between the two elements in a direction. The three elements lie on a line, and extend in a direction. Independent claims are included for the following: (1) an ink cartridge identifying device for the identification of cartridge type; and (2) a method for identifying the cartridge type.

Description

[Technical area]

The The present invention relates to an ink jet recording apparatus used ink cartridge and an identification device as well an identification method for identifying the type of a Ink cartridge.

[Relevant prior art]

A known ink jet recording apparatus is designed to Output ink onto a sheet of paper to record an image on the paper sheet. The known ink jet recording apparatus has a recording head. The recording head is designed to selectively select ink from nozzles to eject on the paper sheet. A known ink cartridge is designed to be removable to be attached to the ink jet recording apparatus. The ink cartridge has an ink chamber adapted thereto is to stock ink therein and ink from the ink chamber becomes supplied to the recording head, when the ink cartridge is attached to the ink jet recording apparatus is appropriate.

It were also a recording device designed to that the type of ink cartridge, the remaining amount of ink, etc. can be detected and an ink cartridge used in this recording apparatus known. The ink cartridge has a light blocking portion. Of the Light blocking section is along a different position a displacement direction of a carriage arranged, and in Each attachment of an ink cartridge can provide various information to be obtained.

The However, ink cartridge is mounted on a carriage, with the carriage moves at a constant speed, so that an optical sensor reliably detects the light blocking portion can.

Moreover An ink jet recording apparatus has been known which has a Cartridge mounting unit separately from the carriage. If in this recording apparatus, the ink cartridge in the cartridge mounting unit is attached, the type of the ink cartridge is identified. If the ink cartridge is mounted in the cartridge mounting unit, For example, the recording device detects presence or absence the absence of the light blocking portion of the ink cartridge. The recording apparatus determines the type of the ink cartridge on the basis of existence or nonexistence of the light blocking section.

[Disclosure of the invention]

[Technical problem]

It is therefore an object of the present invention, an ink cartridge, an ink cartridge identification device and an ink cartridge identification method to disposal to be able to provide an identification of the type Carrying out an ink cartridge with a simple construction, and furthermore the reliability to improve an identification result.

[Activities for problem solving]

at an ink cartridge with an ink chamber, at least in one Framework is limited and a framework for storing ink includes, and a section that is irradiated with light and itself from a first wall forming part of the outer periphery, extends in a first direction, one of the ink chamber leading away Direction corresponds to the light-irradiated section first element, a second element, and one in the first direction provided between the first element and the second element third element, wherein the first element, the second element and the third element each lie on a line that is extends in the first direction. This can be an identification the type of ink cartridge can be performed with a simple structure.

A Cartridge identification device for identifying a cartridge when mounting the cartridge in a cartridge mounting unit an identification device with an identification unit for identifying the type of cartridge based on the result a light photograph when a first element, a second element and a third element of the cartridge forms a beam path between one Light emitting portion and a light receiving portion on the cartridge mounting unit traverse. This allows the reliability of the identification result be improved.

A method for identifying the type of a cartridge mounted in a cartridge mounting unit having a light emitting portion and a light receiving portion is an identification method comprising: a first step of blocking light from the light emitting portion by the cartridge in a mounting operation; a second step of picking up light from the light emitting portion at a light receiving portion by the cartridge in the attaching operation, and a third step of identifying the type of the cartridge based on the light picking result of the two step. This can improve the reliability of the identification result.

[Brief Description of the Drawing]

1 Fig. 15 is a perspective view of the external appearance of the structure of an ink cartridge 10 ,

2 is a schematic representation of the structure of the ink cartridge 10 wherein (A) is a schematic rear view of the ink cartridge 10 and (B) a longitudinal sectional view of the ink cartridge 10 is.

3 is a cross-sectional view taken along the line III-III of 2 ,

4 Fig. 12 is a cross-sectional view showing the structure of an ink supply device 120 in longitudinal section shows.

5 Fig. 10 is a schematic view of an operation for inserting a detection unit 140 in the space between a light output element 113 and a light receiving element 114 ,

6 shows exemplary timing diagrams of one of the optical sensors 123 . 124 output sensor signal.

7 is a block diagram illustrating the structure of an identification device 200. shows.

8th Fig. 10 is a flowchart showing an example of the procedure of a main controller 250 executed type identification processing shows.

9 is a schematic cross-sectional view of an ink cartridge 41 according to a modification 1 of the present invention.

10 is a side view of an ink cartridge 42 according to a modification 2 of the present invention.

11 is a side view of an ink cartridge 43 according to a modification 3 of the present invention.

12 is a side view of an ink cartridge 44 according to a modification 4 of the present invention.

13 is a schematic rear view of an ink cartridge 45 according to a modification 5 of the present invention.

[Full Description of Embodiments]

An ink cartridge 10 as an example of an ink cartridge according to an embodiment of the present invention and an identification device 200. as an example of an ink cartridge identification device will be described with reference to the drawings. The following embodiments are merely examples obtained in the course of carrying out the present invention, which of course can be appropriately modified without departing from the subject matter of the present invention.

[Ink Cartridge 10 ]

First, referring to the 1 to 3 an ink cartridge 10 as an object of identification by the identification device 200. described.

The ink cartridge 10 is used for an image recording apparatus such as a so-called ink jet printer or a copying machine, a facsimile machine or the like, and ink of any color is respectively in the ink cartridge 10 stored. This ink cartridge 10 is used while in a cartridge case 121 is attached, with which the ink supply 120 is provided.

As shown in 1 owns the ink cartridge 10 the shape of a substantially planar hexahedron, e.g. B. a substantially rectangular Parallelepipedform, and can in a by an arrow 51 indicated width direction narrower than in a by an arrow 52 indicated height direction and in one by an arrow 53 be indicated depth direction. This ink cartridge 10 will be in the in 1 shown location of mounting in the recording device in the cartridge housing 121 used according to 1 with the front wall 102 first in an insertion direction 50 (first direction) is used, and their bottom surface 104 as the bottom and its top surface 103 as the top is provided.

The ink cartridge 10 consists essentially of a main body 20 , a registration unit 140 one arm 60 an atmospheric air connection port 81 and an ink supply port 91 , These parts are made of plastic materials. For example, nylon, polyethylene, polypropylene, etc. may be used as the plastic materials. The present invention is directed to an ink cartridge 10 Applicable with a housing that essentially covers the entire main body 20 covering, a protective device, the the atmospheric air connection port 81 or the ink supply port 91 covering, or the like is provided.

The main body consists of a frame 110 and a slide 70 , The frame 110 is an element that houses the body of the ink cartridge 10 represents, and makes six pages 101 to 106 the ink cartridge 10 , In the following description, the respective surfaces of the frame are 110 using reference numerals ( 101 to 106 ), which correspond to the respective surfaces of the ink cartridge 10 assigned.

The frame 110 is formed by injection molding of translucent plastic material. The frame 110 can be formed of any plastic material, as long as the plastic material transmits light, and is formed in the present embodiment of a transparent plastic.

The frame 110 is over the front 101 , the top 103 , the front wall (first wall) 102 and the floor area 104 formed substantially circumferentially, and openings are in the left side 105 and the right side 106 of the frame 110 educated. A thin foil 70 made of translucent plastic is on the left side 105 and the right side 106 of the frame 110 welded. The one from the frame 110 and the foil 70 enclosed space is considered an ink chamber 12 limited (see 2 B) ). In the thus partitioned ink chamber 12 ink is stored. In this embodiment, the ink chamber is 12 through the frame 110 and the foil 70 trained, however, can the frame 110 itself as a rectangular-parallelepiped-shaped container, so that the ink chamber 12 is formed in the container.

A detection section 140 (a section to be irradiated with light) is on the front wall 102 of the frame 110 arranged. The detection section 140 is designed as a box shape, one with the side of the ink chamber 12 communicating opening and communicating with the opening interior 147 having. The detection section 140 is through a rectangular front wall 141 leading to the front wall 102 is parallel and away from the front wall 102 extends in a direction away from the ink chamber direction, a pair of side walls 142 through which the right and left sides of the front wall 141 with the front wall 102 connected, and a top wall 143 and a bottom wall 144 through which the upper and lower sides of the front wall 141 each with the front wall 102 are limited. The width of the front wall 141 (the dimension in the direction of the arrow 51 ) is set to be smaller than the width of the ink cartridge 10 is.

The detection section 140 is made of the same material as the frame 110 formed, ie made of translucent plastic, and is transparent or transparent plastic. In this embodiment, the front wall 141 of the detection section 140 formed of transparent plastic, and therefore is an infrared absorbing tape 73 on the side wall 142 to the side of the front wall 141 attached. It represents a target area through a light output element 113 (please refer 5 ) of an optical sensor 123 that is attached to a cartridge case 121 is fixed, is irradiated with light. The blocking of light is not limited to the blocking of infrared light, and any element which changes the optical path between the light emitting element and the light receiving element by blocking can be used. In particular, light from the light emitting element may be reflected by the reflective tape attached to the outer wall of the cartridge in an up-down direction, or may pass through and be attenuated by a portion of the cartridge. Here, the change of the beam path may be a change of the beam path on the connecting line between the light emitting element and the light receiving element.

As shown in 2 is an arm 60 in the ink chamber 12 intended. The arm 60 is at one end with a float section 63 and at the other end with an indicator section 62 Mistake. A wave 66 is essentially at the center position between the indicator section 62 and the float section 63 intended. The wave 66 is from one to the frame 110 provided bearing (not shown), so that the arm 60 in the ink chamber 12 is rotatable. The indicator section 62 of the arm 60 is in the room 147 arranged.

The arm 60 is formed of light-blocking plastic material. It consists for example of nylon, polyethylene, polypropylene (PP), polycarbonate, polyolefin, acrylic resin with an addition of carbon black or the like. It is sufficient if at least the indicator section 62 of the arm 60 has a light blocking property while it is not necessary that the arm 60 has a total of a light-blocking property.

The float section 63 with a hollow portion provided therein is at an end portion of the arm 60 intended. The float section 63 is dependent on the ink level in the ink chamber 12 movable in vertical direction. Thus, the arm becomes 60 according to the amount of movement of the float section 63 around the shaft 66 turned. It is sufficient if the float section 63 only so much buoyancy he shows that he is floating on the ink level, so that it is not limited to the hollow structure.

An indicator section 62 is at the other end of the arm 60 intended. The indicator section 62 is in the room 147 of the detection section 140 , The indicator section 62 is according to the turning operation of the arm 60 in the up-down direction in the room 147 movable. In 2 B) is a first position at which the indicator section 62 on the bottom wall 144 abuts, indicated by a solid line, the float section 63 abuts against the bottom wall of the cartridge, and a second position at which the indicator portion 62 is outside a light incidence range is indicated by a dashed line.

When the float section 63 according to the amount of ink in the ink chamber 12 moving in the up-down direction, the arm becomes 60 around the shaft 66 rotated, and the indicator section 62 correspondingly moves in the up-down direction in the room according to the turning operation concerned 147 , In particular, when the float section 63 moved up, the arm becomes 60 in the direction of an arrow 67 around the shaft 66 rotated, and the indicator section 62 moves in the room 147 downward. When the indicator section 62 the bottom wall 144 of the detection section 140 reached, is the indicator section 62 at the first position where he is at the bottom wall 144 is present (the in 2 B) indicated by a solid line position). Here is the indicator section 62 in the light incidence area 142A the side wall 142 of the detection section 140 (the in 1 section enclosed by a dashed line). At the first position is on the light incidence area 142A incident light through the light incidence area 142A passed through and from the indicator section 62 blocked.

In contrast, when ink is consumed and the amount of ink is less than a predetermined amount, the float section moves 63 corresponding to the ink level down. Thus, the arm becomes 60 in the direction of an arrow 68 around the shaft 66 rotated, and the indicator section 62 moves in the room 147 up. When the float section 63 reaches the bottom wall of the main body, there is the indicator section 62 at the second position where the indicator section 62 near the top wall 143 located (in 2 B) indicated by a dashed line location). Here is the indicator section 62 outside the light incidence area 142A (please refer 1 ). When the light incidence area 142A At this second position, light is irradiated, the light passes through the detection section 140 passed through without the indicator section 62 to be blocked.

In this embodiment, when the ink cartridge 10 in the cartridge case 121 is attached, the light incidence area 142A the side wall 142 irradiated with light coming from the light output element 113 (please refer 5 ) of the optical sensor 123 on the light receiving element 114 is directed. When the indicator section 62 is at the first position, the light from the indicator section 62 blocked. When the indicator section 62 At the second position, the light reaches the light receiving element 114 (please refer 5 ). Thus, based on the waveform of an output signal of the light receiving element 114 to be detected, whether the amount of ink in the ink chamber 12 less than a predetermined amount.

The atmospheric air connection port 81 lies to the upper side of the front wall 102 of the frame 110 and the ink feed port 91 lies to the lower side. The atmospheric air connection port 81 , the ink feed port 91 and the detection section 140 are on the front wall (first wall) 102 intended.

The atmospheric air connection port 81 is located above the detection section 140 the front wall 102 , The atmospheric air connection connection 81 is a hole through which the interior of the ink chamber 12 with the outside of the ink cartridge 10 communicated. As long as the ink cartridge 10 is not appropriate, the atmospheric air connection port becomes 81 closed by a sealing element (not shown). The sealing member is removed to the interior of the ink chamber 12 to bring to the outside air pressure. If the cartridge 10 then in the cartridge case 121 is attached, becomes a pin 137 (please refer 4 ) in the atmospheric air connection port 81 used.

The ink supply port 91 is located under the detection section 140 the front wall 102 , The ink supply port 91 has a hole for conducting ink from the ink chamber 12 towards the outside. As long as the ink cartridge 10 is not appropriate, is the ink feed port 91 closed by the sealing element (not shown). If the ink cartridge 10 in the cartridge case 121 is attached pierces an ink needle 134 (please refer 4 ) the sealing member (not shown) at the ink supply port 91 so that the ink feed port 91 communicates with the outside.

As the sealing member for closing the atmospheric air connection port 81 and the ink supply port 91 may be a simple element such as a foil or the like, the atmospheric air connection port 81 and the ink supply port 91 covers a valve for closing the atmosphere air connection port 81 and the ink supply port 91 from the side of the ink chamber 12 be used by means of spring force, or the like.

In this embodiment, the arm 60 so provided that the tip of the indicator section 62 in the insertion direction 50 on the back of the front wall 141 of the detection section 140 is located as in 3 is shown. Light from the light output element 113 of the optical sensor 123 gets through the room 148 between the inner wall surface of the front wall 141 and the tip portion of the indicator portion 62 passed through and reaches the light receiving element 114 that the optical sensor 123 is arranged opposite.

For the ink cartridge 10 According to the present embodiment, moreover, the distance between the inner wall surface of the front wall varies 141 and the indicator section 62 depending on the type. As types of ink cartridge 10 For example, a large-capacity type is considered for commercial users who consume a large amount of ink and a standard type for general users. In the case of the large-capacity type, an initial volume of ink for filling the cartridge is large. As an example of another type of ink cartridge 10 can have a different color in the ink cartridge 10 stockpiled ink, the difference between dye ink and pigment ink, the difference between foreign specifications and domestic specifications, etc., are taken into account. In the present embodiment, an ink cartridge in which the distance from the light blocking portion 73 to the top of the indicator section 62 is equal to L1, as an "ink cartridge 10A "(see 3 (A) ), and an ink cartridge, where the distance between the front wall 141B and the top of the indicator section 62 is equal to L2, is called "ink cartridge 10B "(see 3 (B) ). As previously described, allows a type-specific change of the length L in the depth direction 53 of the room 148 an identification of the type of ink cartridge by the identification device 200. (please refer 7 ). In the following description, both the ink cartridge 10A as well as the ink cartridge 10B in the absence of specific information generic as an ink cartridge 10 designated. The length L1 in the depth direction 53 of the room 148 can be set to a detectable dimension, ie, to such a dimension that a waveform in the output of the light output element 114 of the optical sensor 123 can occur (see 5 ). The light blocking section 73 changes the length L1 in the depth direction 53 of the room 148 However, it is possible to change the thickness of the front wall 141 to change and to capture the time during which the light is blocked.

The structure of the ink supply device 120 in which the ink cartridge 10 is attached, with reference to 4 described. The ink feeder 120 supplies ink to a printhead (not shown). The ink feeder 120 has a cartridge case 121 on, in which several ink cartridges 10 can be attached. The cartridge case 121 will be described in detail below.

As shown in 4 has the cartridge case 121 an opening 127 , An ink cartridge 10 gets through the opening 127 in the cartridge case 121 used.

The optical sensor 123 is on the back of the cartridge case 121 arranged. The optical sensor 123 is with a control device 250 (please refer 7 ) of the identification device 200. connected. The optical sensor 123 is on the wall surface 129 provided, which the rear surface of the cartridge housing 121 represents. The optical sensor 123 captures the front wall 141 of the detection section 140 , the room 148 (that of the inner surface of the front wall 141 and the top of the indicator section 62 and the light incident area of the sidewall space) and the indicator section 62 , In this embodiment, a photo-interrupter of the transmissive type which is the light-emitting element 113 and the light receiving element 114 has (see 5 ) and designed with a U-shape than the optical sensor 123 used. If the ink cartridge 10 in the cartridge case 121 is attached, is the light incidence area 142A (please refer 1 ) of the sidewall 142 of the detection section 140 in the beam path 115 (please refer 5 ) between the light output element 113 and the light receiving element 114 arranged. From the light output element 113 output infrared light is stray light and therefore has a predetermined spot diameter, which is schematically referred to as the beam path 115 is shown.

The optical sensor 124 is on the back of the wall surface 130 provided, which is the top of the cartridge case 121 represents. The optical sensor 124 detects an attachment or non-attachment of the ink cartridge 10 in the cartridge case 121 , If the ink cartridge 10 in the cartridge case 121 is attached, is the upper end of the ink cartridge 10 between the light output element 116 of the optical sensor 124 and the light receiving element 117 ,

One from the back of the cartridge housing 121 to the inside of the cartridge housing 121 continuous hole 132 is at a lower position of the wall surface 129 educated. A tubular ink needle 134 is with the hole 132 inside the cartridge housing 121 connected. This needle 134 is arranged to be the ink supply port 91 the ink cartridge is opposite. An ink tube 135 is with the back of the hole 132 connected.

A pen 137 is at an upper position of the wall surface 129 intended. The pencil 137 is disposed so as to communicate with the atmosphere air communication port 81 the ink cartridge is opposite. If the ink cartridge 10 in the cartridge case 121 is attached, the pin becomes 137 in the atmosphere air connection port 81 used.

[Operation for attaching the ink cartridge 10 ]

The operation for attaching the ink cartridge 10 in the cartridge case 121 is referring to the 4 and 5 described.

If the ink cartridge 10 as shown in 4 (A) not in the cartridge case 121 is mounted (in the unassembled state), is the beam path of the optical sensor 123 not blocked. Further, the atmospheric air connection port is 81 and the ink supply port 91 closed by the sealing element (not shown).

If the ink cartridge 10 in the cartridge case 121 is inserted, the pin in the atmosphere air connection port 81 used. Thereby, the atmospheric air connection port becomes 81 opened, and the ink chamber 12 communicates with the outside, so that the air pressure in the ink chamber 12 is equal to the outside air pressure. If the ink cartridge 10 from this state further into the cartridge housing 121 is used, the ink needle 134 in the ink feed port 91 used. Thus, the ink chamber communicates 12 over the ink needle 134 and the hole 132 with the ink tube 135 , In this condition, ink may be in the ink chamber 12 over the ink tube 135 fed to the print head (not shown).

In the process of installing the ink cartridge 10 in the cartridge case 121 blocks the top of the ink cartridge 10 that of the light output element 116 and the light receiving element 117 of the optical sensor 124 formed beam path. At this time, the presence or absence of the ink cartridge 10 in the cartridge case 121 based on the output waveform of the optical sensor 124 be recorded. In this embodiment, the upper end of the cartridge is located through the beam path of the optical sensor 124 extends / intersects, not on a line along the insertion direction 50 which the beam path 115 contains, on the front wall 141 , the light incidence area 142A and the indicator section 62 lie.

After the top of the ink cartridge 10A from the optical sensor 124 was detected, / intersects extends the detection section 140 through the beam path 115 of the optical sensor 123 , If the detection section 140 in the process of inserting the detection section 140 is set to the position where the light blocking portion 73 the side wall 142 and the beam path 115 of the optical sensor 123 cover each other (see 5 (A) ) becomes the light blocking portion 73 irradiated with light, that of the light output element 113 is issued. At this time, the light passes through the light blocking section 73 greatly attenuated, and a predetermined amount of light reaches the light receiving element 114 Not. If the ink cartridge 10A Subsequently, it continues to be used and reaches the position in which the room 148 through the beam path 115 extends (see 5 (B) ), the light passes through the side wall 142 , the room 148 and then through the side wall 142 on the opposite side. This passing light is from the light receiving element 114 added. If the detection section 140 is then placed in the position in which the indicator section 62 through the beam path 115 extends (see 5 (C) ), that gets through the sidewall 142 passing light from the indicator section 62 blocked. In this case, a predetermined amount of light reaches the light receiving element 114 Not. In the state in which the ink cartridge 10A in the cartridge case 121 is attached, lies the indicator section 62 in the beam path 115 ,

The waveform (variation of the signal level) of the output signal of the optical sensor 123 in the process of attaching the ink cartridge 10 will be referred to below with reference to 6 described. As shown in 6 (A) At time T0, the upper end of the cartridge blocks the beam path of the light-emitting element 116 and the light receiving element 117 of the optical sensor 124 , Thus, the light output element becomes 113 of the optical sensor 123 output light from the cartridge is blocked so that the signal level is LOW.

As in the 6 (B) and (C) is shown, the front wall 141 of the detection section 140 detected at a time T1 even if one of the ink cartridges 10A . 10B in the cartridge case 121 is appropriate. That is, at a time T1 becomes because of the front wall 141 a predetermined amount of light not from the light receiving element 114 which causes the signal level to change from HIGH to LOW.

If the ink cartridge 10A in the cartridge case 121 is attached, traverse the front wall 141A , the light incidence area 142A and the indicator section 62 the beam path 115 in this order. The signal level remains LOW while the beam path 115 from the front wall 141 is blocked. At a time T3, where the front wall 141A passes, pass through the light incidence area 142A the side wall 142 and the room 148 the beam path 115 , and light enters through the sidewall 142 and reaches the light receiving element 114 so that the signal level changes from LOW to HIGH. The ink cartridge 10A is still used, and the indicator section 62 blocks the beam path 115 at a time T4 after the lapse of ΔT11 from the time T3. This changes the signal level from HIGH to LOW. When the indicator section 62 At the second position, the light reaches the light receiving element 114 so that the signal level remains HIGH (see the dashed line of 6 (A) ). When the signal level from the time when the signal level was HIGH, due to the light incident area 142A the sidewall remains HIGH for a predetermined time or longer and the room remains 148 is detected, it is decided that a nearly empty cartridge is attached, so that an error processing is performed.

If the ink cartridge 10B in the cartridge case 121 is attached, traverse the front wall 141B , the light incidence area 142A and the indicator section 62 the beam path 115 in this order. That is, the front wall 141B , the light incidence area 142A and the indicator section 62 lie on a line that runs along the first direction 50 extends, which the beam path 115 contains. The signal level remains LOW, while the front wall 141B the beam path 115 blocked from the time T1 to the time T2. If the ink cartridge 10B the room is covered 148 and the beam path 115 each other at the time T2, and the light passes through the room 148 and reaches the light receiving element 114 so that the signal level changes from LOW to HIGH. Subsequently, the ink cartridge 10B used further, in which case the indicator section 62 the beam path 115 at time T4 after ΔT12 has passed since time T3. ΔT12 is longer than ΔT11, and the time during which the signal level is HIGH is in the case of the ink cartridge 10B longer than in the case of the ink cartridge 10A , Here, the light from the indicator section 62 blocked, causing the signal to change from HIGH to LOW again. When the indicator section 62 At the second position, the light reaches the light receiving element 114 so that the signal level remains HIGH (see the dashed line of 6 (B) ).

[Identification device 200. ]

Next, the identification device 200. with reference to 7 described. The identification device 200. is designed for the ink cartridge 10A and the ink cartridge 10B to identify. 7 is a block diagram showing the schematic structure of the identification device 200. shows.

As shown in 7 has the identification device 200. a main controller 250 and an optical sensor 123 on. The main controller 250 will be described below.

The main controller 250 controls the entire operation of the identification device 200. , The main controller 250 consists of a microcomputer, which in the main a CPU 251 , a ROM 252 , a ram 253 , an EEPROM 254 and an ASIC 255 has, as in 7 is shown. In the main controller 250 are the respective parts by the bus 257 communicatively connected.

Programs for controlling various types of operations of a copying machine 10 through the CPU 251 etc. are in ROM 252 saved. The RAM 253 is used as a storage area or work area for temporarily storing various kinds of data used when the above programs are used by the CPU 251 be executed. Settings to be held after turning off the power, flags, etc. are in the EEPROM 254 saved.

The optical sensor 123 is with the ASIC 255 connected. In the details are the light output element 113 and the light receiving element 114 of the optical sensor 123 with the ASIC 255 connected. The light output element 113 Gives light on the basis of one of the ASIC 255 received driver signal. The light output element 114 gives a signal corresponding to the amount of light of the recorded light to the ASIC 255 out. The ASIC 255 decides whether the electrical level (voltage or current value) of the input signal is equal to a predetermined threshold or more. If it is equal to the predetermined threshold or more, the signal level in question is judged to be HIGH, and if it is less than the predetermined threshold, the signal in question is judged LOW.

In this embodiment, the type in the cartridge case 121 mounted ink cartridge 10 from the main controller 250 on the basis of the light receiving element 114 of the optical sensor 123 identified signal. The procedure of type identification processing for identifying whether in the ink cartridge housing 121 attached ink cartridge 10 the ink cartridge 10A or the ink cartridge 10B will be described below with reference to the flowchart of 8th described. 8th FIG. 10 is a flowchart showing an example of the procedure of the type identification processing executed by the main controller 250 is performed.

First, in step S0, it is decided whether the upper end of the cartridge from the optical sensor 124 is detected. In particular, this decision is based on the change of the signal level of the optical sensor 124 hit from HIGH to LOW when the beam path of the optical sensor 124 from the top of the cartridge is blocked (see the time T0 of 6 ).

If this decides that the front wall 141 is detected (Yes in S0), the next detection of the optical sensor 123 executed. The decision processing of step S0 is executed until the front wall 141 is detected. In step S1, it is decided whether the front wall 141 from the optical sensor 123 is detected. Especially if the front wall 141 the beam path of the optical sensor 123 blocked, it is decided whether the signal level of the optical sensor 123 changed from HIGH to LOW (see point T1 of 6 ). If this detects that the front wall 141 is detected (Yes in S1), this detection timing (detection timing) in the next step S2 in RAM 253 saved. The decision processing of step S1 is executed until the front wall 141 is detected.

In the next step S3 it is decided whether the room 148 is detected. In particular, it is decided whether the signal level of the optical sensor 123 has changed from LOW to HIGH (see times T2, T3 of 6 ). If it is decided that the room 148 is detected (Yes in S3), in the next step S4, this detection timing (detection timing) in the RAM 253 saved. The decision processing of step S3 is executed until the space 148 is detected.

In step S5, based on the two in RAM 253 stored acquisition timings the time difference .DELTA.T between them from the main controller 250 calculated. Thereafter, in step S6, the calculated time difference ΔT is compared with a predetermined reference value, and it is decided whether or not the respective time difference ΔT is equal to the reference value or more. The reference value can be obtained by taking in advance the average of the time difference ΔT11 (see FIG 6 (A) ) in the last five operations for installing the ink cartridge 10A in the cartridge case 121 or the average of the time difference ΔT12 (see 6 (B) ) in the last five operations for installing the ink cartridge 10B in the cartridge case 121 is calculated, and then based on these data, a threshold is determined to identify whether the ink cartridge is the ink cartridge 10A or the ink cartridge 10B is. The reference value thus obtained is stored in advance in the RAM 253 saved. The decision of step S6 is not limited to the method of comparing the time difference ΔT with the reference value, and a method of making the decision based on a decision may be applied as to whether the time difference ΔT is within a predetermined reference range. A method may be used in which, instead of the time difference ΔT, the amount of light received at the light receiving element at the signal level HIGH is stored in the RAM 253 stored and compared.

In this embodiment, when it is decided in step S6 that the time difference ΔT is less than the reference value (No in S6), a bit flag corresponding to the ink cartridge becomes 10B stands, in the register of the CPU 251 , the ram 253 or the like (S8). If it is decided in step S6 that the time difference ΔT is equal to the reference value or more (Yes in S6), a bit flag corresponding to the ink cartridge becomes 10A is in the register of the CPU 251 , the ram 253 or the like (S7).

The in the register of the CPU 251 , the ram 253 or the like can be set by the CPU 251 as information indicating the condition of the ink cartridge 10 represented, to be output to a display unit or the like, with the identification device 200. connected is.

As described above, according to the identification device 200. the present embodiment in the process for attaching the ink cartridge 10 the type of ink cartridge 10 in an appropriate and accurate manner based on the signal level of the optical sensor 123 be identified. In addition, the type of ink cartridge 10 be identified by a very simple construction, in which the distance between the inner wall surface of the front wall 141 the ink cartridge 10 and the indicator section 62 for each type of ink cartridge 10 is varied. In this embodiment, the identification is made by deciding whether the light-receiving time in the room 148 between the inner wall surface of the front wall 141 and the indica gate section 62 within a reference range, however, the decision may also be made by deciding whether the obstruction time of the front wall 141 within a reference range. In this case, it is decided whether the time difference ΔT between the time T1 and the time T2 is within a reference range.

In this embodiment, the processing for identifying two types, namely, the ink cartridge 10A and the ink cartridge 10B , shown. However, a specific type of ink cartridge may also be among three or more types of ink cartridges 10 be identified. Further, in a recording apparatus having a pigment type black ink cartridge and a dye type black ink cartridge, the identification processing for identifying these two ink cartridges can be used to prevent mixed types of black ink from being mixed with each other or erroneously loaded become.

Modifications of the present invention will be made with reference to FIGS 9 to 13 described. In the 9 to 13 are common parts of the above-described ink cartridge 10 by the same reference numerals as the parts of the ink cartridge 10 designated.

[Modification 1]

As shown in 9 is with the ink cartridge 41 a modification 1 of the detection section 140 , which is in the direction of insertion 50 opposite direction, not on the front wall 102 intended. Therefore, the arm 60 holding the indicator section 62 entirely in the ink chamber 12 added. The ink chamber 12 is with a jetty 72 for regulating the downward movement of the indicator section 62 Mistake. If the arm 60 in the direction of an arrow 67 is rotated, lies the indicator section 62 therefore against the jetty 72 on, and this state is maintained. In the state in which the indicator section 62 against the jetty 72 is present, is the room 148 between the inner wall surface of the front wall 102 and the indicator section 62 educated. For the ink cartridge 41 as described above, the distance between the inner wall surface of the front wall 102 and the indicator section 62 for each type of ink cartridge 41 varies, causing the type as in the case of ink cartridges 10A and 10B can be identified. By an ink cartridge 41 used with a different distance, the type of ink cartridge 41 from the identification device 200. based on the light-receiving time at the light-receiving element 114 of the optical sensor 123 be identified.

[Modification 2]

As shown in 10 is with the ink cartridge 42 a modification 2 of the light blocking section 173 for blocking light on the sidewall 142 of the detection section 140 intended. The light blocking section 173 in one of the sidewall 142 pointing away direction as one from the main body 20 different element on the side wall 142 appropriate. The light blocking section 173 For example, it may be formed of plastic material that attenuates or absorbs infrared light, or of plastic material that reflects infrared light. The light blocking section 173 is on the side of the front wall 141 the side wall 142 attached, at least the light output element 113 is opposite. In the above-described ink cartridge 42 becomes the length of the light blocking portion 173 in the depth direction 53 for each type of ink cartridge 42 varies, causing the type as in the case of ink cartridges 10A and 10B can be identified. That is, in the above embodiment, the identification is made by using the light-receiving time in passing the light-transmissive member 142 performed. According to the modification 2, the identification in the identification device becomes 200. however, instead of the light-receiving time using the light-blocking time in the passage of the light-blocking portion 173 performed. In particular as in 6 is shown in the case of the ink cartridge 10A the time difference between the time T1 and the time T3 measured while in the case of the ink cartridge 10B the time difference between the time T1 and the time T2 is measured, and it is then decided whether the measured time difference is within a reference range.

[Modification 3]

As shown in 11 is with the ink cartridge 43 a modification 3, a light blocking section 74 to block light on the side surface 105 . 106 the ink cartridge 43 intended. The light blocking section 74 is located under the detection section 140 , The length of the light blocking section 74 in the depth direction 53 Will for every type of ink cartridge 43 varied. An optical sensor 75 which essentially has the same construction as the optical sensor 123 owns, is under the optical sensor 123 on the back of the cartridge housing 121 intended. If the ink cartridge 43 in the cartridge case 121 is inserted, light from the light output element 113 of the optical sensor 75 from the light blocking section 74 blocked. The identification device 200. may be the type of ink cartridge 43 based on time identify while the light blocking section 74 the light is blocked.

[Modification 4]

As shown in 12 is the ink cartridge 44 according to a modification 4 with a plate 75 provided by means of two coil springs 76 to the front wall 102 can be approximated and removed from it. For the ink cartridge 44 are the coil springs 76 at the top and bottom of the detection section 140 on the front wall 102 attached. The plate 75 is from the coil springs 76 so worn from the front wall 141 of the detection section 140 is spaced. That is, between the plate 75 and the top of the indicator section 62 is a room 78 educated.

If the ink cartridge 44 in the cartridge case 121 is used (see 4 ), blocks the plate 75 the beam path 115 of the optical sensor 123 , If the ink cartridge 44 continues to be used, light emerges from the light output element 113 through the room 78 and is from the light receiving element 114 added. The distance between the plate 75 and the top of the indicator section 62 Will for every type of ink cartridge 44 varied. If an ink cartridge 44 with a separate range of space into the ink cartridge 44 is used identifies the identification device 200. hence the type of ink cartridge 42 based on the light-receiving time at the light-emitting element 114 when passing through the room 78 ,

If the ink cartridge 44 continue in the insertion direction 50 is pressed in after the plate 75 the ink cartridge 44 the beam path 115 of the optical sensor 123 blocked, becomes the main body 20 against the biasing force of the coil springs 76 in the insertion direction 50 pressed. In this case, the detection section blocks 140 the beam path 115 of the optical sensor 123 , Also the just described ink cartridge 44 may be the presence or absence of the ink cartridge 44 based on the output signal of the optical sensor 123 to capture.

[Modification 5]

As shown in 13 is an ink cartridge 54 according to a modification 5 instead of the indicator section 62 the embodiment with a first modification element 242 , a second modification element 243 , a third modification element 244 and a fourth modification element 245 Mistake. The first modification element 242 and the fourth modification element 245 are reflective tapes attached to surfaces with a slope of 45 °, which correspond to the outer wall surface of the ink cartridge. In modification 5, the beam path is changed by the reflective bands. The second modification element 243 and the third modification element 244 are areas of a prism 80 ,

The light output element 113 (please refer 5 ) is on the side of the first modification element 242 right from the middle of 13 arranged. From the light output element 113 in the horizontal direction (left of the center of 13 ) is output from the first modification element 242 the ink cartridge 45 downwards reflected (conducted). Light from the first modification enters the prism 80 one. When the amount of ink is less than a predetermined amount, the light entering the prism becomes the second modification element 243 in the horizontal direction (left of the center of 13 ) and from the third modification element 244 reflected upwards. That of the third modification element 244 Guided light is from the fourth modification element 245 in the horizontal direction (left of the center of 13 ) and from the left of the first modification element 245 located light receiving element 114 added. When the amount of ink is equal to a predetermined amount or more, the prism and the ink have substantially the same refracting power, so that in the second modification element 243 entered light enters straight into the ink. The beam path 215 represents a beam path over which the light output from the light emitting element passes through the first modification element 242 , the second modification element 243 , the third modification element 244 and the fourth modification element 245 and then picked up by the light receiving element. In the modification 5, the reflective ribbons on the outer wall surface of the cartridge are the first deflecting element 243 and the fourth modification element 245 appropriate. Instead of the reflecting ribbons, a prism may be formed on the outer wall surface of the cartridge, or a space is formed inside the inclined surfaces by blow molding or the like, and interfaces are formed through the space to be reflective surfaces.

The prism 80 forms a wall surface of a small chamber 13 connected to the interior of the ink chamber 12 communicates. This prism 80 represents the second modification element 243 and the third modification element 244 If the prism 80 as the second modification element 243 and the third modification element 244 with ink in the small chamber 13 comes in contact, the light emerges from the first modification element 242 in the prism 80 enters through the second modification element 243 and straight on through the Ink in the small chamber 13 because the ink and the prism have substantially the same refractive power. Therefore, when the ink is consumed and the amount of ink is less than a predetermined amount, the ink comes into the small chamber 13 not with the prism 80 in contact, and air is between the prism 80 and the ink level. An interface is formed because the air and the prism have different refractive powers. The light from the first modification element 243 enters the prism 80 and is of the second modification element 243 reflected in the horizontal direction. The reflected light passes through the prism and becomes the third modification element 244 in which the interface is formed, directed in the vertical direction, as between the prism 80 and the air in the ink is present. The light from the third modification element becomes the fourth modification element 245 reflected in the horizontal direction, the same optical axis as that of the light output element 113 outputted light, and of the light receiving element 114 to the left of the center of 13 added. As a result, the identification device determines that the amount of ink is less than the predetermined amount.

In the modification 5, the first modification element becomes 242 , the second modification element 243 , the third modification element 244 and the fourth modification element 245 instead of the indicator section 62 used. The first modification element 242 , the second modification element 243 , the third modification element 244 and the fourth modification element 245 however, instead of the light blocking section 73 and the room 148 be used. In this case, it is possible as in the case of the first modification element 242 and the fourth modification element 245 not the prism, which is a wall surface of the communicating with the ink chamber small chamber, but to use the reflective tapes.

Claims (21)

Ink cartridge, comprising: a frame, the at least one ink chamber defined therein, in which the ink chamber Ink stored; and a section that is irradiated with light becomes and extends from a first wall that forms part of an outer perimeter of the frame, extending in a first direction, that of leading away from the ink chamber, wherein the light irradiated portion comprises: a first Element; a second element; and one in the first direction provided between the first element and the second element third element, wherein the first element, the second element and the third element lie on a line that is in the first Direction extends. The ink cartridge of claim 1, wherein the third Element located between the first element and the second element. The ink cartridge according to claim 1 or 2, wherein the distance between the first element and the second element accordingly an initial capacity of the Ink cartridge is varied. An ink cartridge according to any one of claims 1 to 3, wherein the third element comprises: a first modification element, which irradiation light in one to the line in the first direction vertical direction, a second modification element, which the guided by the first modification element light in a horizontal Direction derives, a third modification element, that of the second modification element led light in a line to in the first direction perpendicular direction, and a fourth direction Modification element, which is the one guided by the third modification element Light on the same axis conducts as the light with which the first Abwandlungselement is irradiated. An ink cartridge according to any one of claims 1 to 4, wherein the second element comprises: a first modification element, the emitted light in one to the line in the first direction vertical direction, a second modification element, which the guided by the first modification element light in a horizontal Direction derives, a third modification element, that of the the light directed to the second modification element in a line to the line in the first direction vertical direction, and a fourth direction Modification element, that of the third modification element directed light on the same axis as the light conducts, with the first modification element is irradiated, and wherein the second Modification element and the third modification element a prism represent a chamber continuous with the ink chamber separates. Ink cartridge according to one of claims 1 to 5, wherein the third element is translucent. An ink cartridge according to any one of claims 1 to 6, wherein the first element in the first direction relative to the first Wall is movable. An ink cartridge according to any one of claims 1 to 7, wherein an elastic element between the first element and the first wall is arranged. Ink cartridge according to one of claims 1 to 4, 6 to 8, wherein the second member moves from a first position lying in the first-direction extending line to a second position which is away from said line in accordance with a decrease in the amount of ink. The ink cartridge of claim 9, further comprising Arm element, which is carried so that it corresponds to the Amount of ink is movable, wherein the arm member at one end with the second element and at the other end provided with a float is, so that the float the ink level moves accordingly. Ink cartridge according to one of claims 1 to 10, wherein the light-irradiated portion having an interior is provided, which communicates with the ink chamber, so that a Fluid exchange between the interior and the ink chamber is possible, and the second element is disposed in the interior space. Ink cartridge according to one of claims 1 to 11, wherein an ink supply section, through which the ink chamber and the outside communicate with each other, disposed under the light irradiated portion of the first wall is. Ink cartridge according to one of claims 1 to 12, wherein an atmospheric air communication section, through which the ink chamber and the outside communicate with each other, above the arranged with light irradiated portion of the first wall. Ink cartridge according to one of claims 1 to 13, which further comprises a fourth element arranged so is that it continues farther than the first element from the first wall is and is spaced from the line in an up-down direction. Ink cartridge, comprising: a frame, the at least one ink chamber defined therein, in which the ink chamber Ink stored; and a section that is irradiated with light becomes and extends from a first wall that forms part of an outer perimeter of the frame, extending in a first direction, that of leading away from the ink chamber and irradiated with light, wherein the light-irradiated portion having: a first element; a second element; and one in the first direction between the first element and the second Element provided third element, wherein the first element, the second element and the third element lie on a line, the in the first direction he stretches, and the second element like that it is arranged that it is from the said line in one direction spaced, which intersects the said line. Ink cartridge identification device for identifying the type of a cartridge when the cartridge in a cartridge mounting unit attached, which has an identification unit, which the type of cartridge based on a light pickup result identifies if a first element, a second element and a third element of the cartridge forms a beam path between one Light output section and one on the cartridge mounting unit traverse through the light receiving section provided. An ink cartridge identification device according to claim 16, wherein the identification unit is the type of the ink cartridge identified on the basis of a light-receiving result of the third element. An ink cartridge identification device according to claim 16 or 17, wherein the identification unit is an initial one Ink Capacity identified as the type of ink cartridge. Method of identifying the type of cartridge in a light receiving section and a light emitting section mounted cartridge mounting unit is mounted, wherein the Method includes: a first step of blocking Light from the light emitting portion through the cartridge in a mounting operation; one second step of picking up light from the light emitting section at the light receiving portion through the cartridge in the mounting operation; and a third step of identifying the type of cartridge on the basis of a light-recording result in the second step. Cartridge type identification method according to claim 19, further comprising a fourth step of blocking the light from the light emitting portion by cartridge in the mounting operation the second step. Cartridge type identification method according to claim 19 or 20, wherein the type of the cartridge based on a light absorption time is identified at the light receiving section in the second step.