CN2818147Y - Ink box, device and imager for determining ink box and inspecting ink box height - Google Patents

Abstract

An ink box is provided with a first detection target part for detecting an ink height and a second detection target part for discerning the type of the ink box. An ink height detecting device scans the first detection target part of the ink box and the second detection target part of the ink box by using an optical sensor, and detects the ink height and the type of the ink box. The type of the ink box refers to an ink box contains standard quantity of ink or an ink box contains large quantity of ink. Therefore, an imaging number on recording media can be estimated and imaging failure due to ink shortage occurs in imaging processes can be avoided.

Description

Print cartridge, the sniffer of distinguishing print cartridge and ink level detection and imaging device

Technical field

The utility model relates to the print cartridge of imaging devices such as being used for printer, duplicator and facsimile machine.The utility model also relates to the sniffer of distinguishing print cartridge, and the imaging device that comprises print cartridge and sniffer.

Background technology

In being used for the conventional ink cartridge of ink jet recording device, some of them can be used the Optical devices ink level detection.

In general, the China ink in this print cartridge is kept in the housing with optical clear part.The light that light source sends enters in the housing by transparent part.Whether reflection light quantity depends in the print cartridge also has China ink and changes.This system can detect whether China ink is arranged.People such as Yoshiyama (Japanese patent publication No.2002-292890) have disclosed such print cartridge.

In the ink level sniffer of this print cartridge, when a large amount of China inks was kept in one of the print cartridge auxiliary black memory, because it is very approaching with the refractive index of China ink to constitute the refractive index of material of print cartridge, the light of optical transmitting set emission entered print cartridge inside.Reflect to the direction different by the reflector light that is arranged in the print cartridge then with optical receiver.Therefore the light quantity to the optical receiver reflection is very little.

When not having China ink in the auxiliary black memory, the light that optical transmitting set sends is (promptly at the prism place) reflection between the outer wall inboard and air of auxiliary black memory.At this moment the light quantity to the optical receiver reflection is bigger.As mentioned above, depend on from the light quantity of print cartridge reflection and whether to have stored China ink the print cartridge and change, and use optical receiver to survey from the difference of light quantity whether China ink is arranged.

Recently, along with user's imaging on a large amount of recording mediums, the consumption of China ink increases thereupon.There has been demand to replace the print cartridge that only contains the standard volume China ink that has at present with the print cartridge that contains a large amount of China inks.But, can't obtain such print cartridge at present and this print cartridge does not offer market.

Summary of the invention

For above-mentioned reasons, do not need a kind of device that can distinguish the print cartridge that contains the standard volume China ink and contain the print cartridge of a large amount of China inks in the past, therefore do not have this device yet.

But,, just need clearly to pick out print cartridge that contains the standard volume China ink and the print cartridge that contains a large amount of China inks if, provide the print cartridge that contains a large amount of China inks to market in order to meet consumers' demand.Error detector to the China ink amount can cause the imaging failure owing to lack China ink.

A purpose of the present utility model is to provide a kind of print cartridge to the ink jet recording device that is provided with sniffer, and it has with optical mode is convenient to survey the part of ink level in the print cartridge and is convenient to distinguish the part of toner cartridge type with optical mode.Utilize these parts can use the detection ink level and distinguish toner cartridge type.Utilize this print cartridge just can prevent from the error detector and the imaging of ink level are failed.

Another purpose of the present utility model provides a kind of sniffer, and it can either distinguish that the type that is installed in the print cartridge in the imaging device also can ink level detection, so can avoid the imaging failure.Another purpose of the present utility model provides a kind of imaging device with this sniffer.

In order to realize these and other objects, print cartridge of the present utility model can be removably mounted in the imaging device with sniffer, and can be kept at China ink in the box.Print cartridge comprises first detection of a target part, wherein utilize to survey sniffer and can survey the ink level and second detection of a target part in the box with optical mode, wherein utilizes sniffer can distinguish the type of print cartridge, and two parts all are arranged on the housing.

According to print cartridge of the present utility model, first detection of a target of ink level detection part and distinguish that second detection of a target of toner cartridge type partly is arranged on the housing, and use a sniffer can carry out effectively to the detection of ink level and distinguishing to toner cartridge type.Utilize this structure can avoid error detector, and avoid the imaging failure thus ink level.

First detection of a target part and second detection of a target section aligned of distinguishing toner cartridge type of ink level detection in preferred the utility model.

Therefore, can be simply carry out by moving sniffer in first and second detections of a target part with respect to the direction of print cartridge alignment and changing detecting location that ink level is surveyed and print cartridge is distinguished.

First and second detections of a target of above-mentioned print cartridge partly are preferably formed on the similar face of housing.

Above-mentioned layout to first and second detections of a target part can be simplified the print cartridge structure.

First detection of a target of preferred ink level detection partly comprises the reflection regulating part, and wherein the reflection of light state that emission comes to hull outside changes according to the ink level in the housing.

Therefore, by surveying the reverberation state of first detection of a target part, sniffer can be surveyed the ink level in the print cartridge at an easy rate.

In addition, the housing of print cartridge preferably includes one first reflector, and it has not and the surperficial parallel flat that is formed with first and second detections of a target part.When light from hull outside when predetermined direction is transmitted on the reflection regulating part, if residue China ink amount is equal to or greater than scheduled volume in the housing, light can enter housing from the reflection regulating part so, and can first reflector reflex to predetermined party in the opposite direction.If residue China ink amount is less than scheduled volume in the housing, light can reflex to predetermined direction from the reflection regulating part so.

Utilize said structure, if residue China ink amount is greater than scheduled volume in the housing, detection is to small reflection light, if residue China ink amount is less than scheduled volume in the housing, detection is to a large amount of reverberation.Therefore sniffer can be surveyed the ink level in the print cartridge easily.

Second detection of a target of preferably distinguishing print cartridge partly comprises one second reflector, and the ink level of its reflective condition and print cartridge is irrelevant, keeps constant.

If second reflector is arranged on second detection of a target part, it is constant that reflective condition keeps, if but do not have second reflector just can not keep constant.Therefore, can pick out toner cartridge type at an easy rate.

Preferably the reflectance factor of the reeflectance ratio reflection regulating part of second reflector is big when residue China ink amount is less than scheduled volume in the housing.

Because second reflector has higher reflectance factor, sniffer can be surveyed the ink level in the print cartridge at an easy rate and be easy to distinguish toner cartridge type.

A reflecting element of above-mentioned second reflector preferably is arranged on the surface of print cartridge.

Because the reflecting element of second reflector is arranged on the surface of print cartridge, the housing of same-type can be used for dissimilar print cartridges, and these print cartridges begin to contain different China ink amounts.Therefore can reduce the cost made from the corresponding different housings type of toner cartridge type number.

The reflection regulating part of preferred above-mentioned print cartridge comprises a prism.The reflection regulating part can utilize injection molding and housing to form simultaneously.

Above-mentioned second detection of a target part of print cartridge of distinguishing preferably can be set reflective condition at least in two zones.

Utilize said structure, can distinguish the print cartridge of 3 kinds or more kinds of types.

Sniffer of the present utility model is arranged in the imaging device with mounting portion, can print cartridge be installed in the mounting portion, and the sniffer utilization is arranged on the detection of a target on the print cartridge and partly surveys print cartridge ink level on the mounting portion.Polytype print cartridge can be installed in the mounting portion, and their contained initial China ink amounts are different but black color is identical.The detection of a target part of print cartridge partly is made of first and second detections of a target.Can detect print cartridge China and Mexico amount from first detection of a target part and whether be equal to or greater than reference quantity.Set reference quantity less than the contained black initial preservation China ink amount of measuring in that minimum print cartridge in all multiple print cartridges.Can pick out toner cartridge type from second detection of a target part.Sniffer comprises a detector, a conveyer, a determiner and a discriminator.Detector uses first and second detections of a target part of the print cartridge of installing to survey the toner cartridge type and the print cartridge China and Mexico amount that are installed on the mounting portion with optical mode and whether is equal to or greater than reference quantity.Conveyer is with respect to the detecting location of first and second detection of a target part mobile detectors of print cartridge.Whether the China ink amount that determiner is determined to be installed in to the performed optical detection result of first detection of a target part of print cartridge in the print cartridge on the mounting portion at first detecting location according to detector is equal to or greater than reference quantity, and wherein first detecting location is the relevant position of surveying first detection of a target part.Discriminator is distinguished the toner cartridge type that be installed in mounting portion at second detecting location to the performed optical detection result of second detection of a target part of print cartridge according to detector, and wherein second detecting location is the relevant position of surveying second detection of a target part.

According to above-mentioned sniffer, can utilize the simple structure of sniffer that the print cartridge that is installed in the mounting portion is carried out distinguishing of ink level detection and toner cartridge type.Can pick out the type of all print cartridges in the print cartridge that contains different China ink amounts, thereby the user can know the toner cartridge type of present use.What can estimate on recording medium, to form image.Therefore, can avoid in the middle of imaging owing to lack black caused imaging failure.

The detector of preferred sniffer comprises the optical receiver to the radiative optical transmitting set of detection of a target part of print cartridge and reception detection of a target partial reflection light.The discriminator of sniffer and determiner can be distinguished toner cartridge type and ink level detection according to the light quantity that optical receiver is accepted.

Utilization has the sniffer of said structure, can carry out print cartridge according to the light quantity that optical receiver receives and distinguish and the ink level detection, promptly can carry out deterministic process very simply according to data.

In addition, the optical receiver of the detector in the sniffer preferably receive optical transmitting set emission and at the light of detection of a target partial reflection.

In addition, when surveying first and second detection of a target parts, the detector of sniffer is preferably carried out at a plurality of detecting locations and is surveyed.

Compare with the detector of only carrying out the sniffer of surveying at a detecting location when surveying first and second detection of a target parts, above-mentioned sniffer can partly prevent the mistake of ink level detection at each detection of a target, and ink level detection more accurately.

Residue China ink amount is less than reference quantity in the print cartridge if determiner is determined, and the discriminator of preferred sniffer is not distinguished toner cartridge type.Process can be simplified by such system.

When from the position of the light of optical transmitting set emission during from first detection of a target change in location to second detection of a target position, the detector of sniffer can be stored in the light receiving signal from optical receiver output the memory as the light-receiving data.Discriminator and determiner can be carried out and to distinguish with ink level and survey according to being stored in light-receiving data in the memory.

Utilize said structure, data storage and the data separately carried out in the stored into memory are determined, this is because detector is stored in the light receiving signal that is arranged on first and second detections of a target part on the print cartridge in the memory as the light-receiving data, and discriminator and determiner are carried out print cartridge according to the light-receiving data of being stored and distinguished with ink level and survey.Like this, even outage takes place in the middle of the imaging or close for a certain reason and when restarting imaging device, this structure can be utilized the light-receiving data that are stored in the memory to carry out print cartridge and distinguish with ink level and survey.

Imaging device of the present utility model comprises the first ink level detector with above-mentioned sniffer, with the second ink level detector according to imaging amount ink level detection on recording medium, this detection was carried out when being installed in print cartridge on the mounting portion.When print cartridge was installed on the mounting portion, the toner cartridge type that the second ink level detector is distinguished out according to the first ink level detector was set the initial ink level of print cartridge under the service condition not at once.Subsequently, the second ink level detector upgrades ink level according to the ink-jet number of ink gun.When the first ink level detector was determined China ink amount in the print cartridge less than reference quantity, the second ink level detector was set at the predetermined altitude corresponding with reference quantity to ink level.Then, the second ink level detector upgrades ink level according to the ink-jet number of ink gun.

According to above-mentioned imaging device, in the demonstration of result of detection, reflect owing to toner cartridge type changes the initial ink level that causes to change.When determining ink level, according to initial ink level and imaging amount ink level is set at the predetermined altitude corresponding with reference quantity, and upgrades ink level from the China ink amount of ink gun ejection according to reality less than the reference quantity height.Therefore, even, also can confirm ink level according to the China ink amount of actual consumption because the China ink amount that environmental change (as temperature) ink gun once sprays changes once in a while.Can accurately carry out ink level detection and irrelevant with environment.

Preferred imaging device has corrector, its according at the result of detection of first and second corresponding with the first and second detections of a target part respectively detecting locations with respect to print cartridge correction at least the first detecting location that is installed on the mounting portion.

Imaging device with said structure can be according to the result of detection correction detecting location (only to first detecting location or first and second detecting locations) of detector at first and second detecting locations.

Owing to can revise detecting location, even each zone of each detection of a target part also needn't accurately be set first and second detecting locations or accurately arrange detection of a target part than regional narrow in second detection of a target traditional structure partly is not set.In addition, can also avoid error detector, partly survey at the detection of a target of mistake as detector.

Said structure can reduce accurate setting and arrange detecting location and required time and the workload of detection of a target part.Like this, can reduce the manufacturing cost of imaging device or print cartridge.

Detector is when comprising at least the first and second detecting locations regional if conveyer relatively moves, the light quantity that optical receiver received of detector changes more much biggerly than predeterminated level, preferred corrector is set new border between first and second detecting locations, and revises first and second detecting locations according to new border.

According to the imaging device of such structure, can carry out following detection more accurately to first and/or second detection of a target part.

Be a kind of makeover process that above-mentioned corrector can be taked below: first direction with resemble above the new border position correction spaced apart by a predetermined distance set be first detecting location, wherein first direction be meant when detector when comprising first and second detecting locations regional detector pass through direction; With being second detecting location with a new border position correction spaced apart by a predetermined distance in second direction, wherein second direction be with first party in the opposite direction.

In having the imaging device of said structure, being first detecting location in a first direction and default border set positions spaced apart by a predetermined distance, wherein first direction is along passing through direction; With being second detecting location in a second direction and default border set positions spaced apart by a predetermined distance, wherein second direction be with first party in the opposite direction.By the preset distance that leaves default border being set shorter than the width (along the length by direction) of first detection of a target part, detector can successfully be surveyed first detection of a target part.In addition, by the preset distance that leaves default border being set shorter than the width of second detection of a target part, detector can successfully be surveyed second detection of a target part.

Detector is when comprising at least the first and second detecting locations regional if conveyer relatively moves, the light quantity that optical receiver received of detector changes much biggerly unlike predeterminated level, can arrange that corrector partly is set at first and second detections of a target new first detection of a target part and revises first detecting location.This layout can be amplified the zone of first detection of a target part, and revises first detecting location to survey reliably in wideer zone.Therefore, carrying out ink level more accurately surveys.

The utility model also provides a print cartridge trace routine.This is the program of a computer system, is used for carrying out respectively each process of determiner, discriminator and corrector in the above-mentioned imaging device.

Above-mentioned print cartridge trace routine is made of a series of suitable orders with Computer Processing.This trace routine offers imaging device, computer system that this program wherein has been installed or the user who uses imaging device and computer system by recording medium (as FD, CD-ROM or storage card) or internet (as Internet).In order to carry out the print cartridge trace routine, can use the computer system that for example is installed in the imaging device, perhaps be connected and can carry out the computer system of data communication with printer by the wired or wireless communication path.

The utility model further provides a kind of modification method that is used for detecting location.Imaging device can adopt this modification method, imaging device comprises: a mounting portion, it can install print cartridge, and print cartridge has second detection of a target part whether the China ink amount of determining to be kept in the print cartridge is equal to or greater than first detection of a target part of reference quantity and distinguishes toner cartridge type; With a detector, it uses first and second detections of a target part that is installed in the print cartridge on the mounting portion to survey the ink level in the print cartridge and to distinguish toner cartridge type with optical mode, and it is according to the ink level of surveying at the result of detection of first detection of a target part in the print cartridge, according to distinguishing the toner cartridge type that is installed on the mounting portion at the result of detection of second detection of a target part.This detector of imaging device moves with respect to print cartridge, and first detecting location execution print cartridge first detection of a target part, that be scheduled to is surveyed and can survey second detecting location execution detection print cartridge second detection of a target part, predetermined surveying.According to result of detection, in this method, can revise a position in first and second detecting locations at least with respect to being installed in print cartridge on the mounting portion.

Description of drawings

Below with reference to the example that the accompanying drawing utilization is concrete the utility model is described.

Fig. 1 is a perspective view, schematically shows the structure according to the ink jet recording device of an embodiment of the present utility model;

Fig. 2 is the side cutaway view of the print cartridge that uses in the ink jet recording device among Fig. 1;

Fig. 3 A and 3B are the side views of print cartridge and sensor among Fig. 1;

Fig. 4 A is the perspective view that contains the print cartridge of standard volume China ink in the utility model, and Fig. 4 B is the fragmentary, perspective view of a variant of containing the print cartridge of standard volume China ink;

Fig. 5 A is the perspective view that contains the print cartridge of a large amount of China inks in the utility model, and Fig. 5 B is the fragmentary, perspective view of a variant of containing the print cartridge of a large amount of China inks;

Fig. 6 A is an explanatory diagram, show according to the optical pickocff of an embodiment of the utility model and the position relation between first and second detections of a target part, Fig. 6 B is the explanatory diagram that a comparative example is shown, Fig. 6 C is the explanatory diagram that a variant of the utility model is shown, and wherein first and second detections of a target part is not provided with at grade;

Fig. 7 shows the output voltage that is arranged on the locational optical pickocff shown in Fig. 6 A and the 6B;

Fig. 8 is a structure chart, shows the schematic structure according to the circuit in the ink jet recording device of an embodiment of the utility model;

Fig. 9 is a flow chart, shows the whole process performed according to the ink jet recording device of an embodiment of the utility model;

Figure 10 is the flow chart of data acquisition performed in the whole process shown in Figure 9;

Figure 11 is the flow chart of near-space state deterministic process performed in the whole process shown in Figure 9;

Figure 12 is the flow chart that print cartridge is distinguished process, and wherein print cartridge distinguishes that process is a performed control program in the whole process shown in Figure 9;

Figure 13 is the flow chart of the indication process of the print cartridge that contains a large amount of China inks performed in the whole process shown in Figure 9;

Figure 14 is the flow chart of the indication process of the print cartridge that contains the standard volume China ink performed in the whole process shown in Figure 9;

Figure 15 is the flow chart of the indication process of near-space state performed in the whole process shown in Figure 9;

Figure 16 is a flow chart, shows in order partly to carry out the print cartridge scanning process that detection is carried out in the target acquisition of print cartridge of the present utility model accurately;

Figure 17 A is a schematic diagram, shows the detecting location in first and second detections of a target part, and Figure 17 B and 17C show the light quantity of optical pickocff reception when the scanning print cartridge and the curve of output voltage, and Figure 17 D illustrates the explanatory view of revising the back detecting location;

Figure 18 illustrates to finish among Figure 16 the flow chart of performed detecting location makeover process after the print cartridge scanning process;

Figure 19 is a flow chart, shows the whole process of ink jet recording device when revising detecting location;

Figure 20 is the flow chart that data acquisition among another embodiment is shown;

Figure 21 is an explanatory diagram, the detecting location when showing ink level detection in another embodiment in first to the 3rd scanning; With

Figure 22 A is the zoomed-in view of second detection of a target part to Figure 22 C, and 2,3 and 4 s' the part of distinguishing is set respectively on second detection of a target part.

The specific embodiment

Ink jet recording device as an example of imaging device is described below.

With reference to figure 1, ink jet recording device 1 comprises the head unit 4 with printhead 3, wherein printhead 3 is the black heads that form image on recording medium P such as paper, the balladeur train 5 of print cartridge 2 and head unit 4 has been installed on it, on straight direction, move back and forth the driver element 6 of balladeur train 5, the direction that moves back and forth at balladeur train 5 is extended and in the face of the platen roller 7 of printhead 3, cleaning unit 8 and as the optical pickocff 19 (will be described below) of detector.In the present embodiment, optical pickocff 19 is fixed in the ink jet recording device 1.Three separator (not shown) are arranged on the loading station 4a of head unit 4.Between a pair of side cover 4b that is formed on loading station 4a both sides, separator is divided into four mounting portions to loading station 4a so that print cartridge 2 to be installed.

Driver element 6 comprises that being parallel to platen roller 7 passes the balladeur train axle 9 that extend the bottom of balladeur train 5, be parallel to the guide rod 10 that balladeur train axle 9 extends on balladeur train 5 tops, be separately positioned between balladeur train axle 9 and the guide rod 10, each two pulley 11 and 12 and above the end of balladeur train 9 around two pulleys 11 and 12 endless belts 13 that extend.

When the rotation direction of carriage motor 101 corresponding to pulley 11, when drive pulley 11 made it to rotate clockwise or counterclockwise, the balladeur train 5 that is connected on the endless belt 13 was done straight reciprocating motion along balladeur train axle 9 and guide rod 10.

Introduce between printhead 3 and the platen roller 7 from the feedboard (not shown) of the side that is arranged on ink jet recording device 1 or bottom, presenting the recording medium P that comes.Subsequently, the China ink of printhead 3 ejections forms predetermined picture on recording medium P, then recording medium P is discharged to ink jet recording device 1 outside.

Thereby the side that cleaning unit 8 is arranged on platen roller 7 is when head unit 4 during at reset position, and cleaning unit 8 is in the face of printhead 3.Cleaning unit 8 comprises near the opening of a plurality of nozzle (not shown) of printhead 3, covers cleaning cap 14, pump 15, cam 16 and the black storaging piece 17 of opening.When head unit 4 was positioned at reset position, cleaning cap 14 covers the nozzle of printhead 3 and in order to recover printhead 3, those that are accumulated in the cam 16 driving pumps 15 extraction printheads 3 have mixed China ink bubble, that the quality change is pickled with grains or in wine.The quality that pump 15 is extracted out becomes poor China ink and is stored in the black storaging piece 17.

At cleaning unit 8 side of platen roller 7 is set, wiper 20 is being set near cleaning unit 8.Wiper 20 forms spade.When balladeur train 5 moves, the nozzle surface of wiper 20 wiping printheads 3.When printing finishes printhead 3 when getting back to reset position, cap 18 covers a plurality of nozzles of printhead 3, so Mo Buhui does.

Optical pickocff 19 is arranged on and makes in the ink jet recording device 1 that light reversibly is transmitted on the exposed surface of print cartridge 2, thereby reduces the noise signal (unnecessary reverberation) from the exposed surface of print cartridge 2.Structure ink jet recording device 1 enables the type that the reflection light quantity that detected by optical pickocff 19 relatively and threshold value are surveyed the ink level in the print cartridge 2 and distinguished print cartridge 2.

More particularly, optical pickocff 19 is arranged near the end of driver element 6, and a side of platen roller 7 promptly is set at driver element 6.Optical pickocff 19 is relative across platen roller 7 with cleaning unit 8.Optical pickocff 19 comprises optical transmitting set 19a and optical receiver 19b (see figure 3).The light that light emission 19a is transmitted into print cartridge 2 is received by optical receiver 19b as reverberation.According to the reflection light quantity that optical receiver 19b receives, can detect the ink level of print cartridge 2 and pick out the type of print cartridge 2.

The internal structure of print cartridge 2 is described below with reference to Fig. 2.Fig. 2 is the side cutaway view of a print cartridge 2, shows wherein the not print cartridge 2 of storage China ink.

Print cartridge 2 forms box-like, and its inside is empty substantially.Dividing wall 41 and 42 is divided into air chamber 43, main black memory 44 and auxiliary black memory 45 to the inside of print cartridge 2.Air chamber 43 has the air slots 47 that surrounding air is introduced the space of main black memory 44 and this space diapire 46 by penetrating print cartridge 2 and is communicated with surrounding air.The top of air chamber 43 is communicated with main black memory 44.Surrounding air is incorporated in the main black memory 44 by the connected component of air chamber 43.

In order to store China ink and to deposit the black absorbent foam materials (porous body) 48 that absorbs and preserve China ink, main black memory 44 has seal cavity.The black slit 49 that penetrates dividing wall 42 has been formed at the bottom at main black memory 44.Main black memory and auxiliary black memory 45 are communicated with by black slit 49.Foamed material 48 is by utilizing capillarity that sponge or fibrous material that China ink is kept at are wherein made.Compressed foam 48 and it is stored in the main black memory 44.When for example print cartridge 2 fell down, this structure can prevent that China ink is leaked to main black memory 44 outsides and enters air chamber 43, and can stop the China ink that enters air chamber 43 to be leaked to print cartridge 2 outsides by air slots 47.

Auxiliary black memory 45 storage China inks, and it comprises sloping portion 51a, and the illumination that optical pickocff 19 sends is mapped to here.Auxiliary black memory 45 is formed on a side of print cartridge 2 and forms a roughly sealed space.Auxiliary black memory 45 is communicated with by above-mentioned black slit 49 with main black memory 44.The China ink that is stored in main black memory 44 and the auxiliary black memory 45 offers printhead 3 by the feedback China ink mouth 50 that penetrates print cartridge 2 diapires 46.

On the sidewall 51 of auxiliary black memory 45, formed sloping portion 51a tilts to main black memory 44.(in a side of main black memory 44) formed the prism 52 as detection of a target part in the sloping portion inboard, will be described later it.Prism 52 is used for surveying the type that is stored in the ink level in the print cartridge 2 and picks out print cartridge 2.Prism 52 is integrally formed on the sloping portion 51a of the sidewall of being made by the transparent material of light-transmissive 51.Top at auxiliary black memory 45 is provided with reflector 53, and it separates predetermined space in the face of prism 52 and with it.Reflector 53 is used for changing the light path of passing auxiliary black memory 45, and forms the pouch shape that has predetermined angular with prism 52, has air layer in its inside.

According to the print cartridge 2 of said structure, when printhead 3 consumes China ink, depend on consumption, air enters main black memory 44 from air chamber 43, and the China ink surface in the main black memory 44 descends.Further consumption and the China ink in main black memory 44 with inking consume the light time, and the China ink in the auxiliary black memory 45 offers printhead 3.During black in auxiliary black memory 45 is provided, the pressure in the auxiliary black memory 45 reduces.But, when air subsequently when air chamber 43 enters auxiliary black memory 45 by main black memory 44, alleviated that pressure in the auxiliary black memory 45 reduces and auxiliary black memory 45 in the China ink surface reduce.

In print cartridge 2, at first consume the China ink in the main black memory 44.Consume the China ink in the auxiliary black memory 45 behind the China ink in using up main black memory 44 again.Therefore, utilize optical pickocff 19 to survey the ink level that the ink level of assisting in the black memory 45 can detect whole print cartridge 2.

The principle of ink level detection is described below with reference to Fig. 3 A and Fig. 3 B.Fig. 3 A and 3B are the side views of print cartridge 2 and optical pickocff 19, also comprise the profile of print cartridge 2 some parts simultaneously.

As shown in Figure 3A, when having a large amount of China inks 71 in the print cartridge 2, because it is very approaching to form the refractive index of the refractive index of material of print cartridge 2 and China ink 71, the light that sends from the optical transmitting set 19a of optical pickocff 19 passes China ink 71 and advances print cartridge 2.Light arrives soon after and is arranged on the reflector 53 of assisting in the black memory 45.Because the refractive index of the material of formation reflector 53 is different with the air refraction in the reflector 53, the light that arrives reflector 53 reflects (light path Y) on the border surface between reflector 53 inner surfaces and the air 72.

On the other hand, when having only small volume of ink 71 in the auxiliary black memory 45 of print cartridge 2, promptly shown in Fig. 3 B, when the position of the surface ratio prism 52 when black 71 is low, because the refractive index of the material of formation print cartridge 2 is different with the refractive index of air 72 in the auxiliary black memory 45, the light (light path X) that the light emission 19a of optical pickocff 19 sends reflects i.e. reflection (light path Y) on prism 52 on the border surface between reflector 53 inner surfaces and the air 72.Therefore, from print cartridge 2 inside, arrive the reflection light quantity of optical receiver 19b of sensor 19 greater than when a large amount of black reflection light quantities 71 time are arranged in the print cartridge 2.

As mentioned above, change from the reflection light quantity (light path Y) of print cartridge 2 reflection surplus with inking 71.Therefore, it is poor to survey light quantity by the optical receiver 19b that utilizes optical pickocff 19, can detect the ink level in the print cartridge 2.

Said structure, promptly utilize that the optical transmitting set 19a of optical pickocff 19 sends, arrive auxiliary black memory 45 inside and survey black 71 the amount of remaining from the light quantity of this reflection and constituted the first ink level detector.

When the top of auxiliary black memory 45 does not have blackly 71 the time, promptly before with the China ink 71 in the light print cartridge 2, can detect print cartridge 2 is basic empty states (near-space state).This is because sloping portion 51a and reflector 53 are arranged on the top of auxiliary black memory 45.When the position of the surface ratio prism 52 when black 71 was low, as mentioned above, the optical receiver 19b of optical pickocff 19 accepted a large amount of reverberation.At this moment residual black 71 amount is the reference quantity (will be described below) of print cartridge 2 near-space states.

As mentioned above, China ink 71 is kept in black memory 44 of the master of print cartridge 2 and the auxiliary black memory 45 and offers printhead 3.In the present embodiment, used two types print cartridge.These print cartridges have been preserved the China ink of different amounts at first.Or rather, the amount that is kept at the China ink 71 in each auxiliary black memory 45 is identical, but is kept at the amount difference of the China ink 71 in each main black memory 44.According to the amount of the China ink 71 in the main black memory 44, these two kinds of print cartridges are respectively the print cartridge 2A that contains the standard volume China ink and contain the print cartridge 2B of a large amount of China inks.Unique difference between print cartridge 2A and the 2B is China ink 71 amounts that are kept in the main black memory 44.The size and dimension of these print cartridges is identical and can be installed in identical position to print cartridge 2A or 2B.

Fig. 4 A shows the print cartridge 2A that contains the standard volume China ink.The left-half of prism 52 is first detection of a target parts 82, and here whether the ink level of surveying in the print cartridge 2 with optical mode surpasses reference quantity to determine that residue China ink 71 is measured.Second detection of a target part 81 is formed on the sloping portion 51a of prism 52 right half part sidewalls 51, distinguishes the type of print cartridge 2 here with optical mode.

When optical pickocff 19 moved and be positioned at the detecting location corresponding with first detection of a target part 82 with respect to print cartridge 2A, whether the ink level that optical pickocff 19 can utilize first detection of a target part 82 to detect optically among the print cartridge 2A surpassed reference quantity with the amount of judging China ink 71.When optical pickocff 19 moved and be positioned at the detecting location corresponding with second detection of a target part 81 with respect to print cartridge 2A, optical pickocff 19 can utilize second detection of a target part 81 to determine the type of print cartridge 2A optically.

If a large amount of China ink 71 is arranged among the print cartridge 2A, the light that is transmitted into first and second detection of a target parts 82 and 81 from the optical transmitting set 19a of optical pickocff 19 passes China ink 71, advance in print cartridge 2A, and reflector 53 changes its light paths.Therefore, the reflection light quantity to optical receiver 19b reflection diminishes.

Fig. 4 B shows the variant of the print cartridge 2A that contains standard China ink amount.

In this variant, on print cartridge 2A, formed the ledge 21 that replaces sloping portion 51a.In front view, the left side of ledge 21 is first detection of a target parts 82, and the right side of ledge 21 is second detection of a target parts 81.In ledge 21, formed the space, make it possible to be connected and China ink can enter into wherein with auxiliary black memory 45.A large amount of when black when having in auxiliary black memory 45, China ink also is in this space.When having consumed China ink and the ink level step-down in auxiliary black memory 45, China ink also no longer is present in this ledge 21.

In this variant, the profile of optical pickocff 19 is roughly " U " shape.On the top of optical pickocff 19 19A and bottom 19B, optical transmitting set 19a and light-receiving are being set respectively

19b, thus a pair of optical transmitting set 19a and optical receiver 19b are toward each other.If light emission 19a is arranged on the 19A of top, light-receiving 19b is arranged on the 19B of bottom so.Their position also can exchange.When the ledge 21 of print cartridge 2A with respect to optical pickocff 19 between as the top 19A of Fig. 4 B optical pickocff that arrow is shown in 19 and bottom 19B when mobile, enough method ink level detections similar to the above embodiments of energy and the type of distinguishing print cartridge 2, and sensor 19 is surveyed respectively in first and second detection of a target parts 82 and 81 light quantities that transmit.At the ink level of surveying this variant with when distinguishing its toner cartridge type, utilize three highly to come to determine the light quantities that transmit, this will be in the part detailed description of the variant of description print cartridge 2B.

Fig. 5 A shows the print cartridge 2B that contains a large amount of China inks.On the right half part of the prism 52 that forms on the sloping portion 51a of sidewall 51, be arranged on the type that print cartridge 2 is distinguished in the there as identification parts such as aluminium foils 80.The right half part of prism 52 is second detection of a target parts 81, distinguishes the type of print cartridge 2 there photographically.The left-half of prism 52 is first detection of a target parts 82, surveys the ink level in the print cartridge 2 there photographically, judges whether the amount of China ink 71 surpasses reference quantity.

When the illumination of the optical transmitting set 19a of optical pickocff 19 emission was mapped on the aluminium foil 80 that is arranged on second detection of a target part 81, aluminium foil 80 utilized its catoptrical essential reverberation.Reflection light quantity to optical receiver 19b reflection is far longer than the reflection light quantity that reflects from print cartridge 2A when aluminium foil 80 not being set on the print cartridge 2A.Utilize the difference of reflection light quantity, can pick out print cartridge 2B that contains a large amount of China inks and the print cartridge 2A that contains the standard volume China ink.The profile of above-mentioned print cartridge 2A is the same with the profile of print cartridge 2B in being shown in Fig. 5 A, except be provided with aluminium foil 80 on print cartridge 2B.

As mentioned above, a lot of black 71 the time when having preserved among the print cartridge 2A that contains the standard volume China ink, optical receiver 19b receives only and seldom measures the light that sends from the optical transmitting set 19a of optical pickocff 19.Therefore, can pick out print cartridge 2A and print cartridge 2B reliably by surveying second detection of a target part 81.But, when the residue in print cartridge 2A China ink 71 amounts during less than reference quantity (print cartridge 2A is in the near-space state) and since the light that optical transmitting set 19a sends resemble above-described reflection on prism 52, optical receiver 19b receives a large amount of reverberation.What therefore, optical pickocff 19 was detected is significantly not different with light quantity from second detection of a target part 81 of the print cartridge 2A that contains standard volume from the light quantity of second detection of a target part 81 of the print cartridge 2B that contains a large amount of China inks.Therefore, if remaining black 71 amounts are less than reference quantity, just can not carry out distinguishing to print cartridge 2.Although originally two kinds of dissimilar print cartridge 2A and 2B contain the China ink 71 of different amounts when not using, when remaining black 71 amounts are less than reference quantity, distinguish that print cartridge is nonsensical.

Should notice that if aluminium foil 80 is arranged on the left-half of prism 52, the left-half of prism 52 becomes second detection of a target part 81, and its right half part becomes first detection of a target part 82.

Mobile balladeur train 5 makes the detecting location of first detection of a target part 82 (at prism 52) of print cartridge 2B in the face of the transmit direction of the optical transmitting set 19a of optical pickocff 19.So the illumination that the optical transmitting set 19a of optical pickocff 19 emits is mapped on the prism 52 of print cartridge 2B of current installation.Optical receiver 19b receives the reverberation that reflects from prism 52, and the difference according to reflection light quantity obtains the ink level data, thereby and data are stored utilizes the CPU91 be arranged in the ink jet recording device 1 to determine that whether the amount of China ink 71 of print cartridge 2B is more than or equal to reference quantity (will be described later).

Subsequently, being arranged on the mobile balladeur train 5 of controller 90 (will be described later) in the ink jet recording device 1 makes the detecting location (aluminium foil 80) of second detection of a target part 81 of print cartridge 2B in the face of the transmit direction of the optical transmitting set 19a of optical pickocff 19.The optical transmitting set 19a of optical pickocff 19 is transmitted into light on the aluminium foil 80.Thereby the reflection light quantity by reflection on aluminium foil 80 obtains data discrimination and data are stored utilize the CPU91 be arranged in the ink jet recording device 1 to judge that the print cartridge 2 that uses at present is print cartridge 2B or print cartridge 2A.

Whether the amount that can judge the residue China ink 71 in the print cartridge 2 that is installed in the said structure according to the reflection light quantity on the prism 52 is equal to or greater than reference quantity, wherein light is transmitted into (prism 52) first detection of a target part 82 from optical transmitting set 19a at first, and here it plays the effect of determiner.In addition, can pick out the print cartridge 2A that contains the print cartridge 2B of a large amount of China inks in the print cartridge 2 that in said structure, uses at present or contain the standard volume China ink according to the reflection light quantity on the prism 52, wherein light is transmitted into (prism 52) second detection of a target part 81 from the optical transmitting set 19a of optical pickocff 19 at first, and here it plays the effect of discriminator.

Also can keep utilizing in static shifter movable sensor 19 to carry out detection at balladeur train 5 to reflection light quantity.

With reference now to Fig. 5 B,, shows the variant of the print cartridge 2B that contains a large amount of China inks in the drawings.

In variant, on print cartridge 2B, replace sloping portion 51a and formed ledge 21.When observing from the front, the right side of ledge 21 is second detection of a target parts 81, and the left side of ledge 21 is first detection of a target parts 82.Aluminium foil 80 (discriminator) is arranged on second detection of a target part 81 on ledge 21 right sides of print cartridge 2B.In ledge 21, formed the space, make it possible to be connected and China ink can enter into wherein with auxiliary black memory 45.A large amount of when black when having in auxiliary black memory 45, China ink also is in this space.When having consumed China ink and the ink level step-down in auxiliary black memory 45, China ink also no longer is present in this ledge 21.

The profile of optical pickocff 19 is roughly " U " shape.Optical transmitting set 19a and optical receiver 19b are being set respectively, thereby a pair of optical transmitting set 19a and optical receiver 19b are toward each other on the top of optical pickocff 19 19A and bottom 19B.If optical transmitting set 19a is arranged on the 19A of top, optical receiver 19b is arranged on the 19B of bottom so.Their position also can exchange.When the ledge 21 of print cartridge 2B with respect to optical pickocff 19 between as the top 19A of Fig. 5 B optical pickocff that arrow is shown in 19 and bottom 19B when mobile, enough method ink level detections similar to the above embodiments of energy and the type of distinguishing print cartridge 2, and optical pickocff 19 is surveyed respectively in first and second detection of a target parts 82 and 81 light quantities that transmit.At the ink level of surveying this variant with when distinguishing toner cartridge type, utilize three light quantities of highly coming to determine transmission.In other words, difference is arranged between the light quantity that optical receiver 19b receives under following three kinds of situations: (1) is provided with aluminium foil 80 (distinguishing part), (2) aluminium foil 80 is not set but have a lot of black 71 and (3) aluminium foil 80 and a lot of China inks of residue not are not set.First kind of situation, optical receiver 19b does not receive the light that optical transmitting set 19a launches at all.Second kind of situation, optical receiver 19b receives half light that emits from light emission 19a.In the third situation, optical receiver 19b receives most of light that emits from optical transmitting set 19a.By the light quantity level of determining that optical receiver 19b receives under these three kinds of situations, can enough method ink level detections similar to the above embodiments and the type of distinguishing print cartridge 2.

Among the embodiment of Miao Shuing, optical pickocff 19 is fixed in the ink jet recording device 1 in the above.When balladeur train 5 moved, optical pickocff 19 was faced first detection of a target part 82 and second detection of a target part 81 that is installed on the print cartridge 2B, and obtains ink level data and data discrimination.In addition, can arrange that this structure makes that the balladeur train 5 that the print cartridge 2B that contains a large amount of China inks has been installed moves with respect to optical pickocff 19 and the ledge 21 of print cartridge 2B passes between the top of optical pickocff 19 19A and bottom 19B.Thereby perhaps can between the top of optical pickocff 19 19A and bottom 19B, pass with the ledge 21 that shifter mobile optical sensor 19 makes optical pickocff 19 move the print cartridge 2B that is installed on the balladeur train 5 with respect to static balladeur train 5.In brief, ledge 21 should pass between the top of optical pickocff 19 19A and bottom 19B.

In Fig. 5, above-mentioned being used for distinguishes that second detection of a target part 81 of print cartridge 2 types is arranged on the right half part of sloping portion 51a, and first detection of a target part 82 of surveying ink level in the print cartridge 2 is arranged on the left-half of sloping portion 51a.Their positions when making such layout, have been considered with respect to optical pickocff 19.

Or rather, in ink jet recording device 1, as shown in Figure 6A, the angular alignment that the optical axis of the light that first detection of a target part 82 and second detection of a target part 81 are launched with respect to optical pickocff 19 forms.First detection of a target part 82 of ink level detection is arranged on acute angle theta 1 one sides, distinguishes that second detection of a target part 81 of print cartridge 2 types then is arranged on obtuse angle θ 2 one sides.

Owing to shine obliquely on first detection of a target part 82 and second detection of a target part 81 from the light of optical pickocff 19 as mentioned above, can be the surperficial separated into two parts that first detection of a target part 82 and second detection of a target part 81 are set: have the part of acute angle theta 1 and have another part of obtuse angle θ 2.In this embodiment, the detection of a target part 82 of surveying remained ink is arranged on the part with acute angle theta 1, and the detection of a target part 81 of surveying ink tank information then is arranged on the another part with obtuse angle θ 2.

In other words, when optical pickocff 19 scans first detection of a target part 82 with ink level detection, and the distance between the optical pickocff 19 and first detection of a target part 82 is compared, and second detection of a target part 81 of distinguishing print cartridge 2 types is arranged on the position away from optical pickocff 19.

Utilization has first detection of a target part 82 and second detection of a target part 81 of this structure, when optical pickocff 19 scanned first detection of a target part 82 with ink level detection, the catoptrical detection of 19 pairs second detection of a target parts 81 of optical pickocff can not take place mistakenly.Can avoid optical pickocff 19 to detect unnecessary light like this.

Shown in Fig. 6 B, first detection of a target part 82 of ink level detection is arranged on the part with obtuse angle θ 2 if distinguish second detection of a target part 81 of print cartridge 2 types to be arranged on the part with acute angle theta 1, so when optical pickocff 19 scans with ink level detection on first detection of a target part 82, because second detection of a target part, 81 to the first detection of a target parts, 82 more close optical pickocffs 19, optical pickocff 19 may be surveyed the reverberation from second detection of a target part 81 mistakenly so.

Although the light that optical pickocff 19 sends has suitable directionality, light has diffusion to a certain degree in (direction that is shown in broken lines in the 6C at Fig. 6 A) near the optical axis (illustrating with solid line at Fig. 6 A) in 6C.If distinguish print cartridge 2 types, have second detection of a target part 81 than high reflectance be arranged on optical pickocff 19 near, so just can detect reverberation on second detection of a target part 81 at the regional A1 shown in Fig. 6 A and Fig. 6 B and A2.Reverberation among the A1 of zone does not enter optical pickocff 19, but the reverberation among the regional A2 enters optical pickocff 19.Therefore optical pickocff 19 can detect these unnecessary light.Be provided with second detection of a target part 81 of distinguishing print cartridge 2 types closely more, optical sensing 19 just may receive the light of scattering on second detection of a target part 81 more.Therefore, shown in Fig. 6 B, when optical pickocff 19 scans first detection of a target part 82 with ink level detection, distinguish that second detection of a target part 81 of print cartridge 2 and the degree of closeness of the absolute distance between the optical pickocff 19 are another factors that detects unnecessary light with leading to errors.

Fig. 7 shows the curve in the measurement result of optical pickocff 19 output voltages under two kinds of different situations: promptly have on the part (being referred to as the obtuse angle side from now on) that reflection adhesive board 80 is set on the part (being referred to as acute side from now on) of acute angle and has the obtuse angle reflection adhesive board 80 is set.Horizontal scale among the figure has provided the relative position of optical pickocff 19 and print cartridge 2, and vertical scale has then provided the output voltage of optical pickocff 19.The output voltage that does not detect light time optical pickocff 19 when optical pickocff 19 is higher, and the output voltage that detects light time optical pickocff 19 when optical pickocff 19 is lower.

If reflection adhesive board 80 is arranged on acute side (with reference to the line that has " acute side " mark among the figure 7), when optical pickocff 19 begins reflection adhesive board 80 (second detection of a target part 81) when scanning at the different relative positions between optical pickocff 19 and the print cartridge 2, the output voltage of optical sensing 19 sharply descend (in the drawings relative position be 4 to 10mm near).But, finish when optical pickocff 19 reflection adhesive board 80 (second detection of a target part 81) scanned and when beginning prism 52 (first detection of a target part 82) scan, the output voltage of optical pickocff 19 only be increased to 1.5 to 2.5V (in the drawings relative position be 11 arrive 18mm near).This expression is because optical pickocff 19 detects the reverberation outside the expection, although beginning scan prism 52 (first detection of a target part 82), the output voltage of optical pickocff 19 does not fully increase.If lower and threshold value is set higherly (as 3V) when attempting to determine ink level according to the reflection light quantity S/N ratio of prism 52, still be kept at and but determine a large amount of reverberation in the print cartridge 2 mistakenly although China ink 71 just may occur, determine print cartridge 2 thus mistakenly and be in the near-space state from prism 52 (first detection of a target part 82).Can set threshold value lowlyer (1V according to appointment) thus can not determine a large amount of reverberation from prism 52 (first detection of a target part 82).But if so, when print cartridge 2 is in the near-space state really, may determine not is really to have a large amount of reverberation to reflex to optical pickocff 19, even that is to say and no longer remain in the print cartridge 2 at black 71 o'clock, thinks that possible errors print cartridge 2 is not to be in the near-space state.

In contrast, if reflection adhesive board 80 is arranged on obtuse angle side (with reference to the line that has " obtuse angle side " mark among the figure 7), when optical pickocff 19 begins prism 52 (first detection of a target part) scanned at the different relative positions between optical pickocff 19 and the print cartridge 2, the output voltage of optical pickocff 19 keep higher value (in the drawings relative position be 4 to 10mm near).When optical pickocff 19 is finished prism 52 (first detection of a target part 82) scanning and is begun reflection adhesive board 80 (second detection of a target part 81) scanning subsequently, the output voltage of optical pickocff 19 sharply descend (in the drawings relative position be 12 to 18mm near).This expression optical pickocff 19 does not detect the reverberation outside any expection when scan prism 52 (first detection of a target part 82), and the output voltage of optical pickocff 19 remains on sufficiently high level.Under S/N ratio conditions of higher, can correctly determine a large amount of reverberation from prism 52 (first detection of a target part 82) and can determine the near-space state of print cartridge 2, and irrelevant with the minor variations of the output voltage of optical pickocff 19.

In ink jet recording device 1, when remaining China ink amount is equal to, or greater than scheduled volume, first detection of a target part 82 of ink level detection is set at first acquisition mode, the reflectance factor of second detection of a target part 81 that its reeflectance ratio is used for distinguishing is low.If the light amount ratio optical pickocff 19 that makes optical pickocff 19 detect owing to the reverberation from second detection of a target part 81 is big in the light quantity that first reflective condition detects, may make false judgment, promptly determine residue China ink amount mistakenly less than scheduled volume.But, utilize above-mentioned layout can avoid the error detector that reverberation caused, and can not cause above-mentioned false judgment by second detection of a target part 81 to first detection of a target part 82 and second detection of a target part 81.

In the example of Fig. 6 A and 6B, first detection of a target part 82 and second detection of a target part 81 are alignd on the direction of relative movement of optical pickocff 19 and print cartridge 2 and they are formed on the same plane.This layout and above-mentioned optical pickocff 19 and the dependency structure between first and second detection of a target parts 82 and 81 can prevent to detect the light of not expecting effectively.If first and second detection of a target parts 82 and 81 are not must form at grade, also can take other structure to avoid detecting the light of not expecting.

Fig. 6 C has provided an example of this structure.When optical pickocff 19 scannings first detection of a target part 82, by adjusting second detection of a target part 81 and, thereby the light of second detection of a target part, 81 deflectiometry sensors, 19 emissions can be set with certain angle from the angle between the optical axis of the light of optical pickocff 19.

As mentioned above, the light of optical pickocff 19 emissions has suitable directionality and near (direction that Fig. 6 C is shown in dotted line) scattering optical axis (illustrating with solid line) in Fig. 6 C.If near second detection of a target part 81 optical pickocff 19 has higher reflectance factor, can detect the light that on second detection of a target part 81, reflects among the regional A3 in Fig. 6 C.By adjusting the angle of second detection of a target part 81 shown in Fig. 6 C, regional A3 can leave optical pickocff 19 and can avoid detecting unnecessary light.

Below with reference to Fig. 8 circuit structure in the ink jet recording device 1 is described.Fig. 8 is the schematic diagram of ink jet recording device 1 circuit structure.

On the circuit board of ink jet recording device 1 main body, assembled the controller 90 of control ink jet recording device 1.Controller 90 comprises the microcomputer (CPU) 91 that comprises a chip, the control program that storage CPU 91 is performed and have the ROM 92 of fixed value data, the RAM 93 of temporary transient store various kinds of data, the permanent memory EEPROM 94 that can write, video memory 95 and gate array 96.EEPROM 94 comprises the first downward counter 94a, second downward counter 94b, FLAG1 storage area 94c, FLAG2 storage area 94d and the FLAG3 storage area 94e.

In FLAG1 storage area 94c, storage near-space sign (FLAG1).The near-space sign represents that print cartridge 2 is in the near-space state.When the amount of residue China ink 71 during, storage " 0 " in FLAG1 storage area 94c more than reference quantity, when the amount of China ink 71 is less than reference quantity, storage " 1 " in FLAG1 storage area 94c.In FLAG2 storage area 94d, storage replacing ink cartridge sign (FLAG2).Whether the replacing ink cartridge sign indicates has changed print cartridge 2.If do not change print cartridge 2, the replacing ink cartridge sign indicates print cartridge 2 types of present installation.When having changed print cartridge 2, " 0 " is stored among the FLAG2 storage area 94d, when not changing print cartridge 2 and the print cartridge 2B that contains a large amount of China inks has been installed at present, " 1 " is stored among the FLAG2 storage area 94d, when not changing print cartridge 2 and the print cartridge 2A that contains the standard volume China ink has been installed at present, " 2 " are stored among the FLAG2 storage area 94d.The storage print cartridge is distinguished sign (FLAG3) in FLAG3 storage area 94e.Print cartridge is distinguished print cartridge 2 types that the sign indication is installed at present, when present installation is when containing the print cartridge 2B of a large amount of China inks, in FLAG3 storage area 94e the storage " 0 ", when present installation be when containing the print cartridge 2A of standard volume China ink, in FLAG3 storage area 94e the storage " 1 ".

According to the control program that is stored in advance among the ROM 92, whether 91 couples of computing unit CPU survey has China ink 71 to carry out control in the print cartridge 2.CPU91 returns imaging and reset signal produces timing signal and signal is passed to gate array 96 respectively.Be connected to having on the CPU 91: the user sends the operation panel 107 of imaging order, drive the motor drive circuit 102 of balladeur train (CR) motor 101 with mobile balladeur train 5, drive the motor drive circuit 104 of line feed (LF) motor 103, the motor 103 that wherein enters a new line is presented recording medium P, survey the paper sensor 105 in recording medium P forward position, survey the original position sensor 106 in balladeur train 5 home positions, and sensor 19.Each is connected to moving of device on the CPU 91 CPU 91 control.Aforesaid ROM92, RAM 93, EEPROM 94 and gate array 96 all are connected on the CPU 91 by address path 98 and data path 99.

The first downward counter 94a and the second downward counter 94b as the second ink level detector are described below.

At first, describe below and only have a downward counter, be i.e. the second ink level detector of the first downward counter 94a.

The first downward counter 94a is arranged among the aforesaid EEPROM 94.The first downward counter 94a is a memory, and it is counted the jet number from the China ink 71 of printhead 3 ejection.For example, each is sprayed the first downward counter 94a and subtract " 1 ".If the ink drop size of ejection can change from printhead 3, the size according to ink droplet can change the number that deducts so.

Under primary condition, in print cartridge 2A and print cartridge 2B, preserved the China ink 71 of scheduled volume respectively.It is almost constant to be kept at the maximum number that the amount of the China ink 71 among print cartridge 2A and the print cartridge 2B can spray.When changing print cartridge 2, optical pickocff 19 is distinguished the type of the print cartridge 2 of new installation, and the maximum jet number corresponding with the amount of contained China ink 71 in the print cartridge 2 of new installation is stored among the first downward counter 94a.Carry out backward injection counting one time in case spray China ink 71, the first downward counter 94a.Roughly the China ink of Xiao Haoing is presented on the indicator 111 by the drive circuit 110 corresponding with counting.The user just can know approximately also have how many China inks to be left like this.

The amount that detects the China ink 71 in the print cartridge 2 when the first ink level detector (detects the near-space state) than reference quantity after a little while, and the demonstration to ink level on the indicator 111 becomes the demonstration that the near-space state is shown.Subsequently, set jet number, i.e. maximum jet number in the near-space state in the first downward counter 94a, for the China ink 71 of reference quantity.In other words, the detection of near-space state triggering is to the setting of the jet number of the reference quantity of China ink 71.

As mentioned above, at first from main black memory 44, consume the primary quantity of the China ink of preserving in the print cartridge 2 71.After main black memory 44 becomes sky, use the China ink 71 in the auxiliary black memory 45.Shown in Fig. 3 B, when the surface of the China ink 71 in the auxiliary black memory 45 becomes lower than the bottom of prism 52, the light that emits from the optical transmitting set 19a of optical pickocff 19 by prism 52 reflections to the optical receiver 19b of optical pickocff 19 (light path Y).So change (increase) the optical receiver 19b of optical pickocff 19 detect reflection light quantity.When reflection light quantity that optical receiver 19b detects was input among the CPU 91 with the form of signal, CPU 91 was identified as the change of this reflection light quantity the near-space state and opens corresponding near-space sign (FLAG1).Promptly " 1 " is stored in the FLAG1 storage area of EEPROM 94.

When opening near-space sign (FLAG1) (amount that detects China ink 71 is less than reference quantity), the China ink in the print cartridge 2 is not also used up fully.Therefore can carry out imaging operation always and become empty (jet number arrives black empty threshold value) fully up to print cartridge 2.When the maximum jet number in the first downward counter 94a, set under the near-space state, carry out sountdown and when sountdown near zero the time, print cartridge 2 really becomes sky and demonstration " replacing print cartridge ".

To the flow chart of Figure 15 the performed process of corresponding with each figure, CPU 91 is described below with reference to Fig. 9.

Fig. 9 shows the whole process that ink jet recording device 1 is carried out.Behind the power supply of opening ink jet recording device 1, perhaps press the open/close state of changing button and detecting lid, perhaps when each paper feeding, begin this process.At S1, determine and whether changed print cartridge 2.If changed print cartridge 2 (S1: be), reset near-space sign (FLAG1) (FLAG1=0), indication has a lot of black 71 in print cartridge 2.Subsequently, in S2, reset replacing ink cartridge sign (FLAG2) (FLAG2=0).Process advances to S3 then.In this process,,, just determine and carried out replacing ink cartridge as long as opening power is pressed the replacing ink cartridge button and surveyed the open/close state that covers even without real replacing print cartridge 2.

If do not change print cartridge 2, although for example supress the replacing ink cartridge button, do not detect the open/close state (S1: deny) of lid within the predetermined time, process skips over S2 and advances to S3.

At S3, determine whether near-space sign (FLAG1)=0, promptly whether in the FLAG1 of EEPROM 94 storage area, stored " 0 ".If carrying out this judgement in this stage is that process may be advanced to S12 (carrying out the process (back description) that shows the near-space state) and need not to carry out S4 (obtaining and store data discrimination and ink level data) owing to do not change print cartridge 2 (S1: deny) and FLAG1=1 (at the near-space state) (S3: deny).In other words, when going out the near-space state of print cartridge 2 in this phase detection, process can directly advance to the process of indication near-space state and need not to carry out time consuming S4.

On the other hand, if near-space sign (FLAG1)=0, if a large amount of China ink 71 (S3: be) is promptly arranged in print cartridge 2, process advances to S4.

In S4, carry out the process that obtains ink level data and data discrimination with optical pickocff 19 according to the flow chart that is shown in Figure 10.Should note obtaining ink level data and data discrimination three times respectively in flow chart, number of times can be any odd number, as five times or seven times.In addition, if want to make that process is simpler, also can only carry out once.

In this data acquisition, CR motor 101 at first drives mobile balladeur train 5 by carriage motor drive circuit 102, thereby first detection of a target part 82 of print cartridge 2 is in the face of the transmit direction of the optical transmitting set 19a of optical pickocff 19.In the present embodiment, three positions from first detection of a target part 82 obtain the ink level data and they are stored in EEPROM

In 94.In order to obtain " n " ink level data, at first in S15, " 1 " is stored in " n " storage area of RAM 93.Balladeur train 5 moves to predetermined detecting location to obtain " n " data then.Light is transmitted on first detection of a target part 82 (prism 52) of the print cartridge of being installed 2 from the optical transmitting set 19a of optical pickocff 19.Optical receiver 19b receives the reverberation from first detection of a target part 82, and reflection light quantity is converted to magnitude of voltage and output voltage values.A/D converter 19c relatively is converted to " 1 " or " 0 " from the magnitude of voltage of optical receiver 19b output and predetermined value and the value from optical receiver 19b output.When the magnitude of voltage of exporting from optical receiver 19b is higher than predetermined value, obtain " 1 ", when the magnitude of voltage of exporting from optical receiver 19b is lower than predetermined value, obtain " 0 ".As mentioned above, a lot of black 71 the time when having in the print cartridge 2, less from the light quantity of first detection of a target part, 82 reflections.The magnitude of voltage height of optical receiver 19b output at this moment.The predetermined value of voltage is set lowlyer than the high-voltage value of optical receiver 19b output.Therefore obtain " 1 " for the ink level data.When print cartridge 2 is in the near-space state, more from the light quantity of first detection of a target part, 82 reflections.The magnitude of voltage of optical receiver 19b output at this moment is low.The predetermined value of voltage is set than the low voltage value height of optical receiver 19b output.Therefore obtain " 0 " for the ink level data.The ink level data that are converted to " 1 " or " 0 " are stored in S16 among the EEPROM 94.When obtaining the ink level data first above resembling, " n " that be stored in " n " storage area added " 1 " at S17.In S18, judge whether n=4.If (S18: not), promptly also do not have all to obtain the ink level data from all three positions of first detection of a target part 82, process is returned S16 to obtain " n " ink level data not obtain n=4.On the other hand, if n=4 (S18: be) has promptly obtained the ink level data from all three positions of first detection of a target part 82 and they are stored in the EEPROM 94, process advances to S19.

In the present embodiment, three positions from second detection of a target part 81 obtain data discrimination and they are stored among the EEPROM 94.In order to obtain " m " data discrimination, at first in S19, " 1 " is stored in " m " storage area of RAM 93.Balladeur train 5 moves to predetermined detecting location to obtain " m " data then.Light is transmitted on second detection of a target part 81 (aluminium foil 80 or prism 52) of the print cartridge of being installed 2 from the optical transmitting set 19a of optical pickocff 19.Optical receiver 19b receives the reverberation from second detection of a target part 81, and reflection light quantity is converted to magnitude of voltage and output voltage values.A/D converter 19c relatively is converted to " 1 " or " 0 " from the magnitude of voltage of optical receiver 19b output and predetermined value and the value from optical receiver 19b output.When the magnitude of voltage of exporting from optical receiver 19b is higher than predetermined value, obtain " 1 ", when the magnitude of voltage of exporting from optical receiver 19b is lower than predetermined value, obtain " 0 ".As mentioned above, when aluminium foil 80 be not arranged on second detection of a target part 81 and have in the print cartridge 2 a lot of black 71 the time, less from the light quantity of second detection of a target part, 81 reflections.The magnitude of voltage height of optical receiver 19b output at this moment.Set predetermined value lowlyer than the high-voltage value of optical receiver 19b output.Therefore obtain " 1 " for data discrimination.It is, more from the light quantity of second detection of a target part, 81 reflections when aluminium foil 80 is arranged on second detection of a target part 81 or although aluminium foil 80 is not arranged on second detection of a target part 81 but print cartridge 2 when being in the near-space state.The magnitude of voltage of optical receiver 19b output at this moment is low.Set predetermined value than the low voltage value height of optical receiver 19b output.Therefore obtain " 0 " for data discrimination.The data discrimination that is converted to " 1 " or " 0 " is stored in S20 among the EEPROM 94.When obtaining data discrimination first above resembling, " m " that be stored in " m " storage area added " 1 " at S21.In S22, judge whether m=4.If (S22: not), promptly also do not have all to obtain data discrimination from all three positions of second detection of a target part 81, process is returned S20 to obtain " m " data discrimination not obtain m=4.On the other hand, if m=4 (S22: be) has promptly obtained data discrimination from all three positions of second detection of a target part 81 and they are stored in the EEPROM 94, stop data acquisition and process and advance to S5.

In S5, carry out near-space state deterministic process to determine whether print cartridge 2 is in the near-space state according to the flow chart that is shown in Figure 11.

In the S23 of near-space state deterministic process, in data acquisition (S4), be stored in six the ink level data and data discrimination among the EEPROM 94, read those three data relevant and determine whether that all data all are stored as " 1 " with ink level.If all data all are stored as " 1 " (S23: be), in S24, near-space sign (FLAG1) is set at " 0 " (FLAG1=0).In other words, determine a lot of in addition China inks 71 and print cartridge 2 and be not in the near-space state, " 0 " is stored among the FLAG1 storage area 94c of EEPROM 94, and stops near-space state deterministic process.

In contrast, (S23: not), process advances to S25 to determine whether that wherein two ink level data are stored as " 1 " all to be stored as " 1 " if not three all data.Because the data number of storage is an odd number, this judgement is according to majority principle.If wherein two ink level data are stored as " 1 " (S25: be), as " 1 ", " 1 " and " 0 ", process advances to S24.If wherein two ink level data are not stored as " 1 " (S25: not), as " 1 ", " 0 " and " 0 ", in S26 near-space sign (FLAG1) is set at " 1 " so.That is to say that determining print cartridge 2 is in the near-space state, " 1 " is stored among the FLAG1 storage area 94c of EEPROM94, and stop near-space state deterministic process.Determine that the process of near-space state plays the effect of determiner.

After near-space state deterministic process was finished, process advanced to S6.Be similar to S3, in S6, determine whether that " 0 " is stored among the FLAG1 storage area 94c of EEPROM 94 (FLAG1=0).This process is confirmed the up-to-date definite result in the near-space state deterministic process of S5.If print cartridge 2 is in the near-space state, promptly (S6: not), process advances to S12 to near-space sign (FLAG1)=1, in the indication process of S12 execution to the near-space state.Have only when just before S6, determining print cartridge 2 and be in the near-space state (in S5, obtaining FLAG1=0), just can obtain this result (FLAG1=1).At this moment in the first downward counter 94a, set the jet number (i.e. maximum jet number under the near-space state) of reference quantity.

When print cartridge 2 in S3 and S6 was in near-space state (FLAG1=0) respectively, the print cartridge that process always advances to the indication process (S12) of near-space state and do not carry out S8 was distinguished process (will be described later).This is because when the China ink in the print cartridge 2 71 uses up, and no matter is for containing the print cartridge that the standard China ink is measured the print cartridge of China ink or contained a large amount of China inks, all is skimble-skamble to distinguishing of print cartridge 2.

If FLAG1=0 promptly has a large amount of China ink 71 (S6: be) in print cartridge 2, process advances to S7.

In S7, it still is 2 that the value of judging the replacing ink cartridge sign (FLAG2) among the FLAG 2 storage area 94d be stored in EEPROM 94 equals 0,1.FLAG2=0 represents to have changed print cartridge 2.FLAG2=1 represents also not change print cartridge 2 and that install at present is the print cartridge 2B that contains a large amount of China inks.FLAG2=2 represents also not change print cartridge 2 and that install at present is the print cartridge 2A that contains the standard volume China ink.

If changed print cartridge 2 (S7:FLAG2=0), process advances to S8 and carries out print cartridge and distinguish that process is to determine the print cartridge of installing at present 2 and contain the print cartridge 2A of standard volume China ink or to contain the print cartridge 2B of a large amount of China inks.Carry out this according to the flow chart among Figure 12 and distinguish process.

Distinguish process (S27) at print cartridge, in data acquisition (S4), be stored in six the ink level data and data discrimination among the EEPROM94, read those three and distinguish relevant data and determine whether that all data all are stored as " 0 " with print cartridge.If all data all are stored as " 0 " (S27: be), in S28, print cartridge is distinguished that sign (FLAG3) is set at " 0 " (FLAG3=0).In other words, the print cartridge of changing 2 of determining to make new advances is the print cartridge 2B that contain a large amount of China inks, " 0 " is stored among the FLAG3 storage area 94e of EEPROM 94, and the termination print cartridge is distinguished process.

In contrast, (S27: not), process advances to S29 to determine whether that wherein two data discriminations are stored as " 0 " all to be stored as " 0 " if not three all data.Because the data number of storage is an odd number, this judgement is according to majority principle.If wherein two data discriminations are stored as " 0 " (S29: be), as " 0 ", " 0 " and " 1 ", process advances to S28.If wherein two data discriminations are not stored as " 0 " (S29: not), as " 1 ", " 1 " and " 0 ", in S30 print cartridge is distinguished that sign (FLAG3) is set at " 1 " (FLAG3=1) so.In other words, after the print cartridge 2 of determining the new installation in replacing back is to contain the print cartridge 2A of standard volume China ink, " 1 " is stored among the FLAG3 storage area 94e of EEPROM 94, and the termination print cartridge is distinguished process.The process of distinguishing print cartridge plays the effect of discriminator.

Execute after print cartridge distinguishes process, process advances to S9.In S9, determine whether that " 0 " is stored among the FLAG3 storage area 94e of EEPROM 94 FLAG3 (print cartridge is distinguished sign)=0.This process is confirmed to distinguish the result that distinguishes who obtains in the process at the print cartridge of S8.If changing the new print cartridge of installing 2 in back is the print cartridge 2B (FLAG3=0) (S9: be) that contain a large amount of China inks, obtains FLAG2 (replacing ink cartridge sign)=1 and in S10, " 1 " is stored among the FLAG2 storage area 94d of EEPROM 94.Process advances to S11 and carries out indication process to print cartridge 2B then.

On the other hand, are the print cartridge 2A (FLAG3=1) that contains the standard volume China ink (S9: not), obtain FLAG2 (replacing ink cartridge sign)=2 and in S13, " 2 " are stored among the FLAG2 storage area 94d of EEPROM 94 if change the new print cartridge of installing 2 in back.Process advances to S14 and carries out indication process to print cartridge 2A then.

In S7,, just needn't carry out S8 and distinguish process to the print cartridge of S10 if carry out to change the step of print cartridge 2 and that install at present is print cartridge 2B (S7:FLAG2=1).Process advances to S11 and carries out indication process to print cartridge 2B.

In addition, in S7,, distinguish process to the print cartridge of S13 with regard to also carrying out S8 if carry out to change the step of print cartridge 2 and that install at present is print cartridge 2A (S7:FLAG2=2).Process advances to S14 and carries out indication process to print cartridge 2A.

Be described among the step S11 the process of distinguishing below with reference to Figure 13 to print cartridge 2B.Figure 13 is a flow chart, it shows the process of ink jet recording device 1, wherein the LCD of indicator 111 shows to indicate and changes the back new that install is the print cartridge 2B that contains a large amount of China inks, does not perhaps carry out the replacing of print cartridge 2 but the print cartridge 2 that picks out present installation is print cartridge 2B.

When picking out in above-mentioned situation is when containing the print cartridge 2B of a large amount of China inks, obtains enumeration data from the first downward counter 94a.Sountdown when as previously mentioned, the maximum number that setting is sprayed in the first downward counter 94a when using print cartridge 2B replacing print cartridge 2 and China ink 71 each nozzles from printhead 3 spray.Therefore, by from the first downward counter 94a, obtaining the amount that enumeration data can be known the China ink 71 among the print cartridge 2B.According to the enumeration data that obtains, CPU 91 calculated data and show in S32 according to the LCD that the result of calculation among the S33 changes indicator 111.For example, if the maximum number that sprays be 100,000 and the counting that obtains at present be 30,000, the China ink 71 of surplus is 30% of a primary quantity so.The S33 of Figure 13 shows print cartridge 2B and also is not in near-space state and wherein in store about 30% China ink 71.Certainly, when after having changed print cartridge, print cartridge 2B being installed newly, show that the amount of residue China ink 71 is 100% in the first downward counter 94a, for the maximum number and the LCD of the China ink setting injection of full dose.In addition, because numerical value " 1 " is stored among FLAG2 (print cartridge is distinguished sign) the storage area 94d of EEPROM 94, the LCD of indicator 111 shows " LG (in a large number) ".Show that by this that the user can know present installation is print cartridge 2B.After the demonstration that in S33, has changed LCD, just finished the operation to ink jet recording device 1 of present embodiment shown in Figure 9.

Be described among the S14 indication process below with reference to Figure 14 to print cartridge 2A.Figure 14 is a flow chart, it shows the process of ink jet recording device 1, wherein the LCD of indicator 111 shows to indicate and changes the back new that install is the print cartridge 2A that contains the standard volume China ink, does not perhaps carry out the replacing of print cartridge 2 but the print cartridge 2 that picks out present installation is print cartridge 2A.

When picking out in above-mentioned situation is when containing the print cartridge 2A of standard volume China ink, obtains enumeration data in S34 from the first downward counter 94a.Sountdown when as previously mentioned, the maximum number that setting is sprayed in the first downward counter 94a when using print cartridge 2A replacing print cartridge 2 and China ink 71 each nozzles from printhead 3 spray.Therefore, by from the first downward counter 94a, obtaining the amount that enumeration data can be known the China ink 71 among the print cartridge 2A.According to the enumeration data that obtains, CPU 91 calculated data and LCD of changing indicator 111 in S36 in S35 show.For example, if the maximum number that sprays be 80,000 and the counting that obtains at present be 24,000, the China ink 71 of surplus is 30% of a primary quantity so.The S36 of Figure 14 shows print cartridge 2A and also is not in near-space state and wherein in store about 30% China ink 71.Certainly, when after having changed print cartridge, print cartridge 2A being installed newly, show that the amount of residue China ink 71 is 100% in the first downward counter 94a, for the maximum number and the LCD of the China ink setting injection of full dose.In addition, because numerical value " 2 " is stored among FLAG2 (print cartridge is distinguished sign) the storage area 94d of EEPROM 94, the LCD of indicator 111 shows " NM (routine) ".Show that by this that the user can know present installation is print cartridge 2A.After the demonstration that in S36, has changed LCD, just finished the operation to ink jet recording device 1 of present embodiment shown in Figure 9.

Be described among the S12 indication process below with reference to Figure 15 to the near-space state.Figure 15 is a flow chart, and the LCD that shows indicator 111 when obtaining FLAG1 (near-space sign)=1 in S3 or S6 shows the indication process of near-space state.

When obtaining FLAG1 (near-space sign)=1 in S3 or S6, the LCD of indicator 111 shows that at first changing to the near-space state in S47 indicates.Specifically, the display change of LCD illustrates the China ink 71 of about residue 10%.In addition, when numerical value " 1 " was stored among the FLAG1 storage area 94c of EEPROM94, the LCD of indicator 111 demonstrated " NE (near-space) ".By this demonstration, the user can know that print cartridge 2 is in the near-space state.Subsequently, in S38, from the first downward counter 94a, obtain enumeration data.As previously mentioned, when determining print cartridge 2 first and be in the near-space state (S6: in the time of not), in the first downward counter 94a, set the maximum number that the near-space state sprays, and when China ink 71 sprays from the nozzle of printhead 3 at every turn sountdown.Therefore, by from the first downward counter 94a, obtaining the amount that enumeration data can be known the China ink 71 in the print cartridge 2.In S39, whether determine the counting that from the first downward counter 94a, obtains less than predetermined value (as 1,000).If the counting that obtains from the first downward counter 94a is less than predetermined value (S39: be), the LCD display change of indicator 111 in S40 indicates and need change print cartridge 2, finishes this process then.In contrast, if greater than predetermined value (S39: not), finishing this process, the counting that obtains need not to carry out any other step from the first downward counter 94a.

Although the detecting location that optical pickocff 19 is surveyed is not carried out makeover process in the above-described embodiments, for fear of surveying in inappropriate position and can carrying out makeover process according to following method.Below with reference to Figure 16 to 19 the detecting location makeover process is described.

Because the process of listing has not below just carried out repetition of explanation with mistake described above and the same in the process shown in Figure 10 to 15.These processes comprise: data acquisition (S15 is to S22), near-space deterministic process (S23 is to S26), print cartridge is distinguished process (S27 is to S30), indication process (S31 is to S33) to print cartridge 2B, to the indication process (S34 is to S36) of print cartridge 2A with to the indication process (S37 is to S40) of near-space state.

When the power supply opening of ink jet recording device 1, when pressing the replacing ink cartridge button and detecting the open/close state of lid, the print cartridge scanning process of beginning Figure 16.That is to say, when changing print cartridge 2, begin this process.In this process, the CR motor drive circuit drives CR motor 101 and balladeur train 5 and moves (beginning to move) till the transmit direction of first detection of a target part 82 in the face of the optical transmitting set 19a of optical pickocff 19 always.In this embodiment, as described below, obtain the light quantity data 7 times and data are stored.Can certainly be greater or less than 7 times.Encoder (not shown) and CPU91 are set according to the position of determining optical pickocff 19 from the signal of this encoder output on CR motor 101.

In the S110 of the print cartridge scanning process of this embodiment,, before first detection of a target part 82 and second detection of a target part, 81 places survey reverberation from 7 points (being shown in Figure 17 A), " 1 " is stored in " x " storage area among the RAM 93 at optical pickocff 19.

In order to obtain " x " data, CPU is in wait state (S120: not) always before balladeur train 5 moves to predetermined detecting location.When balladeur train 5 moves to detecting location with acquisition " x " data (S120: be), the optical transmitting set 19a of optical pickocff 19 is transmitted into light on the print cartridge 2 (first detection of a target part 82 and second detection of a target part 81) in S130, and the magnitude of voltage V0 that pilot light receives the light quantity that 19b receives from print cartridge 2 (in the present embodiment, light quantity is many more, and magnitude of voltage is more little) be stored among the EEPROM 94 as the light quantity data.In the magnitude of voltage of these light quantity data and indication light quantity, also stored coordinate figure P (in the present embodiment, this coordinate figure of the left side of abscissa becomes big gradually in Figure 17 A), this coordinate figure has provided the detecting location when obtaining " x " data, thereby can determine coordinate figure P.

After from " x " data obtain, obtaining and storing the light quantity data, add " 1 " in S140, for " x " that be stored in " x " storage area.

In S150, whether determine x=8.If x also is not equal to 8, process is returned S120 to obtain the light quantity data from " x " data obtaining.

On the other hand, if x=8 (S150: be) stops the print cartridge scanning process.In Figure 17 B, longitudinal axis scale has provided the light quantity (light intensity) according to the light quantity data that acquire from above-mentioned first to the 7th data, and the transverse axis scale has provided the travel distance of optical pickocff 19 with respect to print cartridge 2.In Figure 17 C, longitudinal axis scale has provided magnitude of voltage V0, and the transverse axis scale has provided travel distance.

When stopping the print cartridge scanning process, the detecting location makeover process shown in the flow chart of beginning in Figure 18.At first in S210, " 1 " is stored in " y " storage area of RAM 93, and " 0 " is stored in " A " and " B " storage area.

In S220, the magnitude of voltage V0 of the light quantity data that detection of stored " y " data in EEPROM 94 acquire.

Whether in S230, it is bigger than predetermined upper limit Vh to determine the magnitude of voltage V0 that detects at back.Upper limit Vh is than the following little predetermined magnitude of voltage of a magnitude of voltage, and that magnitude of voltage is illustrated in the light reflection light quantity that reflex time optical receiver 19b expection does not receive on print cartridge 2 that sends as the optical transmitting set 19a from optical pickocff 19 in the above-mentioned print cartridge scanning process.

If the indicated magnitude of voltage V0 of the light quantity data that obtain from " y " data is greater than upper limit Vh (S230: be), in S240, the determined coordinate figure P of light quantity data that acquires from " y " data just is stored in " A " storage area of RAM 93 so.

In contrast, if the indicated magnitude of voltage V0 of light quantity data that obtains from " y " data is not more than upper limit Vh (S230: not), in S250, whether just determine magnitude of voltage V0 less than predetermined lower bound V1 so.Lower limit V1 is than the big predetermined magnitude of voltage of a following magnitude of voltage, and that magnitude of voltage is illustrated in the light reflection light quantity that reflex time optical receiver 19b expection receives on print cartridge 2 that sends as the optical transmitting set 19a from optical pickocff 19 in the print cartridge scanning process.

If the indicated magnitude of voltage V0 of light quantity data that obtains from " y " data is not less than lower limit V1 (S250: not), perhaps after S240, add " 1 " for " y " that be stored in " y " storage area in S260.

In S270, determine whether y=8.If also do not satisfy y=8, process is returned S220 to detect the indicated magnitude of voltage V0 of light quantity data that acquires from " y " data.

In above-mentioned process S250, if the indicated magnitude of voltage V0 of the light quantity data that acquire from " y " data is less than lower limit V1 (S250: be), at S280, the determined coordinate figure P of light quantity data that acquires from " y " data is stored in " B " storage area the RAM 93.

In S290, whether the value of detection of stored in " A " storage area be greater than " 0 ", and promptly whether coordinate P is stored in " A " storage area.

If the value that is stored in " A " storage area is not more than " 0 " (S290: not), urge the message of suitably changing print cartridge to be presented on the LCD of indicator 111, stop the detecting location makeover process then in S300.

As mentioned above, when optical pickocff 19 scanning print cartridges 2, optical pickocff 19 moves so that first detection of a target part 82 and second detection of a target part 81 are carried out detection.The detecting location makeover process is to carry out under the prerequisite of having changed print cartridge 2.Therefore, if correctly changed print cartridge 2, when optical pickocff 19 scanning print cartridges 2, optical receiver 19b does not receive the reverberation from first detection of a target part 82.

If but the user forgets replacing print cartridge 2 or has changed a print cartridge 2 that does not wherein contain enough China inks that optical receiver 19b receives the reverberation from first detection of a target part 82.At this moment, all light quantity data that are stored among the EEPRAM 94 show the magnitude of voltage littler than lower limit V1, and process does not advance to S240 from S230.Therefore, do not change the initial value " 0 " in " A " storage area.In other words, by the value of detection of stored in S290 in " A " storage area, can detect replacing ink cartridge to guarantee correctly to change print cartridge 2.

In S300,, in S310, print cartridge is distinguished that sign is set at FLAG3=0 so if be stored in value in " A " storage area greater than " 0 " (S300: be).That is to say that determining and changing the new print cartridge of installing 2 in back is the print cartridge 2B that contain a large amount of China inks, and " 0 " is stored among the FLAG3 storage area 94e among the EEPROM 94.

In S320, calculate the boundary position between first detection of a target part 82 and second detection of a target part 81.Boundary position is corresponding with the position of coordinate figure Pc, and it is arranged in the coordinate figure Pa that is stored in " A " storage area and is stored between the coordinate figure Pb of " B " storage area (being Pc=(Pa+Pb)/2).

According to the boundary position that in S320, calculates, in S330, correction distinguish detecting location k1 to k3 and surplus detecting location r1 to r3, wherein distinguishing that detecting location k1 receives reverberation from second detection of a target part 81 to k3 optical pickocff 19, at surplus detecting location r1 to the reverberation of r3 optical pickocff 19 receptions from first detection of a target part 82.Distinguish that detecting location k1 is the predefined parameter that uses during the course to k3 and ink level detecting location r1 to r3, this will be described later.Shown in Figure 17 D, second distinguish detecting location k2 on the boundary position right side with it at a distance of preset distance k0.The 3rd distinguishes that detecting location k3 is in half at a distance of preset distance k0 of k2 right side and k2.First distinguishes that detecting location k1 is in k2 left side and k2 half at a distance of preset distance k0.Preset distance k0 is corresponding to half of second detection of a target part, 81 width (length on the horizontal direction).The position of leaving boundary position preset distance k0 on the boundary position right side is the center of second detection of a target part 81.Therefore, can guarantee distinguishing that detecting location k1 receives reverberation from second detection of a target part 81 to k3.

The second ink level detecting location r2 in boundary position left side with it at a distance of preset distance r0.The 3rd ink level detecting location r3 is in r3 left side and r3 half at a distance of preset distance r0.The first ink level detecting location is in half at a distance of preset distance r0 of r2 right side and r2.Preset distance r0 is corresponding to half of first detection of a target part, 82 width (length on the horizontal direction).The position of leaving boundary position preset distance r0 in the boundary position left side is the center of first detection of a target part 82.Therefore, can guarantee to receive reverberation to r3 from first detection of a target part 82 at ink level detecting location r1.

Distinguish that detecting location k1 has constituted second detecting location to k3.Ink level detecting location r1 has constituted first detecting location to r3.

After finishing the process of S330, stop the detecting location makeover process.

Equaled before 8 at y, repeat the process of S210 to S270.When y=8 (S270: be), process advances to S340, and " 1 " is set in print cartridge and distinguishes (being FLAG3=1) in the sign.Determine and change the new print cartridge of installing 2 in back and are print cartridge 2A and " 1 " be stored among the FLAG 3 storage area 94e among the EEPROM 94.

Y=8 represents that the initial value " 0 " in " B " storage area is not changed because all are stored in light quantity data among the EEPROM 94 comprises magnitude of voltage V0 and the process bigger than lower limit V1 and do not advance to S280 from S250 in S270.Only in the scanning process that 19 pairs of print cartridges of optical pickocff 2 are carried out, when optical receiver 19b did not receive reverberation from first detection of a target part 82 and second detection of a target part 81, the light quantity data that are stored among the EPPROM 94 just all comprised the magnitude of voltage V0 bigger than lower limit V1.

Even this expression optical pickocff 19 scannings zone corresponding with the position of second detection of a target part 81, the light of launching from optical transmitting set 19a does not reflect yet.It is the print cartridge 2A that second detection of a target part 81 is not set that the print cartridge 2 of process single pass is picked out.In other words, by in S270, checking the numerical value that is stored in " B " storage area, detected the type (whether being the print cartridge 2A that contains the standard volume China ink) of print cartridge 2 simultaneously.

After finishing the process of S340, stop the detecting location makeover process.

In ink jet recording device 1 energising, begin the process shown in Figure 19 during each paper feeding.In S3, determine whether obtain FLAG1 (near-space sign)=0, promptly whether " 0 " is stored among the FLAG1 storage area 94c of EEPROM 94.If FLAG1=1, promptly (S3: not), process advances to the indication process (will be described below) that S12 carries out the near-space state to print cartridge 2, and needn't obtain and store data discrimination and ink level data in S4 at the near-space state.This is to carry out an advantage that judges whether FLAG1 (near-space sign)=0 in the early stage step S3 of process.In other words, if judge the near-space state of print cartridge 2 in S3, process may be advanced to the expression process of the near-space state among the S12 and needn't carry out S4 consuming time.

On the other hand, if FLAG1=0 promptly has a large amount of China ink (S3: be) in print cartridge 2, process advances to S4.

In S4, utilize optical pickocff 19 to carry out the process that obtains ink level data and data discrimination.This process is carried out according to the flow chart among Figure 10.Although according to this flow chart in the present embodiment, obtain ink level data and data discrimination respectively for three times and they are stored, the number that obtains data can be for three times or greater than any odd number of three.In addition, for the simplification process, can arrangement only once obtain the operation of ink level data and data discrimination respectively.

In obtaining the process of data, carriage motor drive circuit 102 at first drives CR motor 101 with mobile balladeur train 5, makes first detection of a target part 82 of print cartridge 2 face the transmit direction of the optical transmitting set 19a of optical pickocff 19.In this embodiment, obtain the ink level data in 3 positions of first detection of a target part 82 and data are stored among the EEPROM 94.Obtain the ink level data for n time, at first " 1 " is stored in " n " storage area of RAM 93 at S15.Balladeur train 5 moves to predetermined detecting location rm (with reference to figure 17D) and obtains data with " the n time " then.Light is transmitted on first detection of a target part 82 (prism 52) of the print cartridge of installing 2 from the optical transmitting set 19a of optical pickocff 19.Optical receiver 19b receives the reverberation from first detection of a target part 82, and reflection light quantity is converted to magnitude of voltage and output voltage values.A/D converter 19c relatively is converted to " 1 " or " 0 " from the magnitude of voltage of optical receiver 19b output and predetermined value and the value from optical receiver 19b output.In S16, the ink level data that are converted to " 1 " or " 0 " are stored among the EEPROM 94.As previously mentioned, a lot of black 71 the time when having in the print cartridge 2, less from the light quantity of first detection of a target part, 82 reflections.The magnitude of voltage height of optical receiver 19b output at this moment.In the present embodiment, the predetermined value of voltage is set lowlyer than the high-voltage value of optical receiver 19b output.Therefore obtain " 1 " for the ink level data.On the other hand, when print cartridge 2 is in the near-space state, more from the light quantity of first detection of a target part, 82 reflections.The magnitude of voltage of optical receiver 19b output at this moment is low.The predetermined value of voltage is set than the low voltage value height of optical receiver 19b output.Therefore obtain " 0 " for the ink level data.When obtaining the ink level data first above resembling, " n " that be stored in " n " storage area added " 1 " at S17.In S18, judge whether n=4.If (S18: not), promptly also do not have all to obtain the ink level data from all three positions of first detection of a target part 82 and they are stored, process is returned S16 to obtain " n " ink level data not obtain n=4.On the other hand, if n=4 (S18: be) has promptly obtained the ink level data from all three positions of first detection of a target part 82 and they are stored in the EEPROM 94, process advances to S19.

In the present embodiment, three positions from second detection of a target part 81 obtain data discrimination and they are stored among the EEPROM 94.In order to obtain " m " data discrimination, in S19, " 1 " is stored in " m " storage area of RAM 93.Balladeur train 5 moves to predetermined detecting location km (with reference to figure 17D) to obtain " m " data then.Light is transmitted on second detection of a target part 81 (aluminium foil 80 or prism 52) of the print cartridge of being installed 2 from the optical transmitting set 19a of optical pickocff 19.Optical receiver 19b receives the reverberation from second detection of a target part 81, and reflection light quantity is converted to magnitude of voltage and output voltage values.A/D converter 19c relatively is converted to " 1 " or " 0 " from the magnitude of voltage of optical receiver 19b output and scheduled voltage and the magnitude of voltage from optical receiver 19b output.The data discrimination that is converted to " 1 " or " 0 " is stored in S20 among the EEPROM 94.As mentioned above, when aluminium foil 80 be not arranged on second detection of a target part 81 and have in the print cartridge 2 a lot of black 71 the time, less from the light quantity of second detection of a target part, 81 reflections.The magnitude of voltage height of optical receiver 19b output at this moment.Therefore obtain " 1 " for data discrimination.On the other hand, although be arranged on second detection of a target part 81 or aluminium foil 80 when not being arranged on that print cartridge 2 is in the near-space state on second detection of a target part 81 when aluminium foil 80, more from the light quantity of second detection of a target part, 81 reflections.The magnitude of voltage of optical receiver 19b output at this moment is low.Therefore obtain " 0 " for data discrimination.When obtaining data discrimination first above resembling, " m " that be stored in " m " storage area added " 1 " at S21.In S22, judge whether m=4.If (S22: not), promptly also do not have all to obtain data discrimination from all three positions of second detection of a target part 81 and they are stored, process is returned S20 to obtain " m " data discrimination not obtain m=4.If m=4 (S22: be) has promptly obtained data discrimination from all three positions of second detection of a target part 81 and they are stored in the EEPROM 94, stop data acquisition and process and advance to S5.

Because the process of listing below is the same with the process of mistake described above, has not just carried out repetition of explanation.These processes comprise: near-space deterministic process (S23 is to S26), print cartridge are distinguished process (S27 is to S30), to the indication process (S31 is to S33) of print cartridge 2B, to the indication process (S34 is to S36) of print cartridge 2A with to the indication process (S37 is to S40) of near-space state.

As mentioned above, according to present embodiment, the detecting location r1 of ink level detection is to r3 and distinguish that detecting location k1 can be according to revising in the detecting location makeover process of the result of detection that obtains in the print cartridge scanning process among Figure 16 in Figure 18 to k3.Therefore, even the zone as first detection of a target part 82 is narrower than traditional structure (second detection of a target part 81 wherein is not set), can prevent that also optical pickocff 19 from carrying out error detector in the out of position, and need not on first detection of a target part 82 and second detection of a target part 81, detecting location be set accurately or first detection of a target part 82 accurately be set and second detection of a target part 81.

This structure decrease on first detection of a target part 82 and second detection of a target part 81, detecting location is set accurately and first detection of a target part 82 accurately is set and second detection of a target part, 81 needed time and workloads.Therefore can reduce the cost of ink jet recording device 1 or print cartridge 2.

In being shown in the S9 of Figure 19, utilize the numerical value that is stored among the FLAG3 can distinguish the type (FLAG3=1 means it is print cartridge 2A, and FLAG3=0 means it is print cartridge 2B) of print cartridge 2.In FLAG3, according to the light quantity that the optical receiver 19b of optical pickocff 19 in the detecting location makeover process among Figure 18 is received, storage " 0 " or " 1 " (S310, S340).We can say that light quantity that the optical receiver 19b according to optical pickocff 19 is received distinguishes the type of print cartridge 2 in Figure 19.

In the S6 of Figure 19, can determine print cartridge 2 and whether be in near-space state (FLAG1=0 means surplus greater than reference quantity, and FLAG1=1 means the near-space state) according to being stored in numerical value among the FLAG1.In FLAG1, according to the light quantity (using the voltage value representation) that the optical receiver 19b of optical pickocff 19 in the near-space deterministic process among Figure 11 is received, storage " 0 " or " 1 " (S24, S26).We can say that the light quantity that the optical receiver 19b according to optical pickocff 19 is received determines the near-space state in Figure 19.

In being shown in the S270 of Figure 18, when " y=8 ", " 1 " is stored among the FLAG3 (FLAG3=1), and can to pick out print cartridge 2 in the S9 of Figure 19 are print cartridge 2A.As mentioned above, the not reflection of light that optical transmitting set 19a sent when y=8 was illustrated in optical pickocff 19 scanning first detection of a target parts 82 and second detection of a target part 81, and the state of light reflection does not have acute variation (promptly indicating the magnitude of voltage V0 of light quantity not change to lower limit V1 from upper limit Vh).Therefore, we can say whether acute variation distinguishes that in Figure 18 the type of print cartridge 2 is print cartridge 2A (reflective condition does not have acute variation) or print cartridge 2B on earth according to catoptrical state

(from the reflective condition acute variation of first detection of a target part 82 and second detection of a target part 81).

Among the S320 in Figure 18, in the process of optical pickocff 19 scanning first detection of a target parts 82 and second detection of a target part 81, when light quantity acute variation that optical receiver 19b receives (indicating the magnitude of voltage V0 of light quantity to change to lower limit V1) from upper limit Vh, can determine the borderline region of first detection of a target part 82 and second detection of a target part 81 according to the position (being the position of the light first reflection of optical transmitting set 19a emission) of optical pickocff 19.

Among the S330 in Figure 18, the detecting location that separates in second detection of a target part, 81 1 sides with boundary position is corrected for distinguishes detecting location k1 to k3, and the detecting location that separates in first detection of a target part, 82 1 sides with boundary position is corrected for ink level detecting location r1 to r3.This correction can guarantee that more optical pickocff 19 can partly not survey reverberation at the detection of a target of mistake.

Survey in order to carry out accurate ink level, can carry out data acquisition according to the process that is shown among Figure 20.If FLAG3=0 is the print cartridge 2B (S400: be) that contain a large amount of China inks if promptly pick out print cartridge 2, with regard to implementation S15 and step subsequently.On the other hand, are the print cartridge 2A (S400: not), just carry out following process that contain the standard volume China ink if pick out print cartridge 2.

At first in S410, " 1 " is stored in " q " storage area among the RAM 93.At S420, balladeur train 5 moves to predetermined detecting location to obtain " q " data.Light is transmitted on first detection of a target part 82 (prism 52) of the print cartridge of installing 2 from the optical transmitting set 19a of optical pickocff 19.Optical receiver 19b receives the reverberation from first detection of a target part 82, and reflection light quantity is converted to magnitude of voltage.A/D converter 19c comparing voltage value and scheduled voltage (being predetermined threshold) and value is converted to " 1 " or " 0 " according to comparative result.The ink level data that are converted to " 1 " or " 0 " are stored among the EEPROM 94.For the above-mentioned detecting location that obtains " q " data is if pick out the detecting location that uses when print cartridge 2 is print cartridge 2A.In the present embodiment, as shown in figure 21, first detection of a target part 82 and second detection of a target part 81 all newly constitute first detection of a target part 82.Roughly, reset the ink level detecting location (q1 is to q3) that even first to the 3rd data disposed thereon are obtained in the center of new first detection of a target part, the 82 whole width that constitute.Can be modified to the ink level detecting location (q1 is to q3) that first to the 3rd data are obtained to three ink level detecting locations before setting according to coordinate figure Pc.That is to say,, can revise remaining two positions in both sides according to the alternate position spike between center and the coordinate figure Pc.After obtaining and storing the first ink level data, add " 1 " in S430, for " q " that be stored in " q " storage area.In S440, judge whether q=4.If " q " is less than 4, promptly also all do not obtain the ink level data and (S440: not), process is returned the ink level data of S420 to obtain acquiring from " q is individual " data also they not being stored from all three detecting locations of first detection of a target part 82.On the other hand, if q=4 has promptly obtained the ink level data and they are stored in (S440: be) the EEPROM 94 from all three positions of first detection of a target part 82, data acquisition finishes.Utilize the detecting location of above-mentioned almost center new settings in the first wideer detection of a target part 82 can survey residue China ink amount more accurately.

Explain of the present utility model embodiment although describe in detail in the above, the utility model is not limited to the foregoing description, and various improvement are possible.

In the above-described embodiments, the second ink level detector has only a downward counter, i.e. the first downward counter 94a.A variant of the explained later second ink level detector, it has two second ink level detectors, i.e. first and second ink level detector 94a and the 94b.

When changing print cartridge 2, in the first downward counter 94a, set maximum jet number according to the type of the print cartridge 2 of new installation.On the other hand, in the second downward counter 94b, set jet number to reference quantity.The each injection black 71 o'clock has only the counting among the first downward counter 94a to reduce (counting among the second downward counter 94b is constant).The ink level indication of indicator 111 indications is according to the change in count of the first downward counter 94a.When the first ink level detector detects the near-space state of print cartridge 2, begin to reduce the counting among the second downward counter 94b.The ink level indication of indicator 111 indications continues to change according to the counting of the first downward counter 94a.In other words, the near-space state-detection triggers the counting to the second downward counter 94b.When the power supply opening of ink jet recording device 1/when closing, the second downward counter 94b becomes and confirms that print cartridge 2 is whether really in a reference of near-space state.If the counting of the second downward counter 94b is less than the jet number of reference quantity, print cartridge 2 is really at the near-space state.If counting keeps the jet number of reference quantity constant, print cartridge 2 just also is not in the near-space state.

In the above-described embodiments, set the amount that reference quantity equals the China ink 71 in the near-space state.By changing the size of main black memory 44 and auxiliary black memory 45, can change to 50 to 40% of black 71 primary quantities to this reference quantity.Utilize this structure,,, reset the first downward counter 94a, set maximum jet number promptly for therein black 71 reference quantity when China ink 71 amount during less than reference quantity if the second ink level detector has only the first downward counter 94a.The quantitative change that always lasts till China ink 71 with counting becomes the structure of the amount of near-space state to compare, and the user can predict 71 times of using up of China ink.

In addition in the above-described embodiment, second detection of a target part 81 of print cartridge 2 have aluminium foil disposed thereon (distinguishing part) thus whole half part of 80 prisms 52 all has reflectivity.In fact, shown in Figure 22 A, can be provided with a kind of be used for two bits distinguish part 83.Distinguish that part 83 is divided into two zones, 83a and 83b.These two zones are made of light absorption part and photo-emission part branch respectively.Utilize this structure, form two kinds of reflections, and when optical pickocff 19 is surveyed second detection of a target part 81, can pick out four kinds of (2 * 2=4) print cartridges by output voltage in each zone.

In addition, can shown in Figure 22 B, be provided with a kind of be used for 3 bit data distinguish part 84.At this moment, distinguish that part 84 is divided into 3 zones.84a, 84b and 84c, and constitute by light absorption part and photo-emission part branch respectively.Utilize this structure, form two kinds of reflections, and when optical pickocff 19 is surveyed second detection of a target part 81, can pick out eight kinds of (2 * 2 * 2=8) print cartridges by output voltage in each zone.

In addition, can shown in Figure 22 C, be provided with a kind of be used for 4 bit data distinguish part 85.Distinguish that part 85 is divided into 4 zones.85a is to 85d, and is made of light absorption part and photo-emission part branch respectively.Owing to form two kinds of reflections in each zone, when optical pickocff 19 is surveyed second detection of a target part 81, can pick out 16 kinds of (2 * 2 * 2 * 2=16) print cartridges by output voltage.

As mentioned above, multidigit (as 2,3 or 4) data snooping data discrimination can be used, and print cartridge can be picked out more than two types (as 4,8 or 16 types).If although, just can pick out more kinds of print cartridges, because along with the zone narrows down, the difference of the voltage of optical pickocff 19 output diminishes, so number of regions is limited distinguishing that part is divided into more multizone.Optical pickocff 19 need not carry out 3 times at each performed detection number in zone, when each regional size decreases, can be reduced to 2 times even 1 time.

If can pick out print cartridge, can use the following examples so more than two types.For example, if having that three types black ink print cartridge contains respectively in a large number, standard volume and an a spot of China ink, use 2 bit data can pick out above every kind of print cartridge, this is because utilize 2 data discriminations can pick out nearly four types print cartridge.If there is the print cartridge that contains a large amount of China inks and standard volume China ink to hold the China ink of yellow, fuchsin, cyan and black respectively, these 8 kinds of print cartridges can be distinguished out with 3 data discriminations so.If more color is arranged, in this case, utilize 4 data discriminations can pick out the print cartridge of more kinds of types.

In addition, in the embodiment that is shown in Fig. 4 B or Fig. 5 B, if pick out above-mentioned all kinds print cartridge, each zone of second detection of a target part 81 can be constituted and be resembled Figure 22 A by light absorption part and photo-emission part branch arranges to Figure 22 C.

Among the embodiment of Miao Shuing, the first downward counter 94a or the first downward counter 94a and the second downward counter 94b are as the second ink level detector in front.Can use one or two counter that makes progress to replace downward counter.If only use a upwards counter, when unused print cartridge 2 is installed, the counter that makes progress will be reset to " 0 ".Can adopt suitable threshold according to every type of print cartridge 2, thereby can indicate residue China ink amount.When utilizing the first ink level detector to detect the near-space state, the ink level of indicator 111 shows that being changed to the near-space state shows that upwards counter resets to " 0 " and can adopt another threshold value as a reference when the China ink of reference quantity uses up.When upwards the counting of counter surpasses threshold value, can demonstrate " replacing print cartridge ".If use two upwards counters, when unused print cartridge 2 is installed will with first and second upwards counter all reset to " 0 ".During each ink-jet, have only first upwards the counting of counter increase, second upwards the counting of counter do not increase.Type according to print cartridge 2 is upwards indicated the employing appropriate threshold to ink level in the counter first.The ink level indication that shows on the indicator 111 is according to first change in count of counter upwards.When utilizing the first ink level detector to detect the near-space state of print cartridge 2, corresponding to the type of installation print cartridge 2, first upwards counter give to spray and set certain jet number with reference to the China ink amount, and begin the second counter counting upwards upwards.Being presented at ink level on the indicator 111 show to continue corresponding with first the make progress counting of counter.When second counting that makes progress counter surpassed threshold value, at this moment China ink should have been used up, and can demonstrate " replacing print cartridge ".

In addition, aluminium foil can replace aluminium foil with other reflecting material (as tinfoil paper) by part as distinguishing in the above-described embodiments.Distinguish that part can be arranged on the print cartridge 2A that contains the standard volume China ink and go up rather than be arranged on the print cartridge 2B that contains a large amount of China inks.These all improvement all are intended to be included in the scope of the present utility model.

Claims (21)

1. print cartridge that is removably mounted in the imaging device, it comprises:

A housing is kept at China ink in the housing;

It is characterized in that described print cartridge also comprises: first detection of a target part that is positioned on the housing, wherein utilize the sniffer of imaging device to survey ink level in the housing with optical mode; With

Second detection of a target part that is positioned on the housing wherein utilizes the sniffer of imaging device can distinguish the type of print cartridge with optical mode.

2. print cartridge according to claim 1 is characterized in that first and second detection of a target section aligned.

3. print cartridge according to claim 2 is characterized in that first and second detections of a target partly are formed on the similar face of housing.

4. print cartridge according to claim 1 is characterized in that first detection of a target that is used for ink level detection partly comprises a reflection regulating part, and the reflection of light state that comes from the hull outside emission changes according to the ink level the housing.

5. print cartridge according to claim 4 is characterized in that described print cartridge comprises main black memory, and the black memory of this master occupies the most space of described print cartridge inside; Auxiliary black memory, this auxiliary black memory is formed by the perisporium of black memory one side of described master and the housing that is positioned at a described side of described print cartridge in a side of described print cartridge, and the black memory of described master communicates with each other in its bottom and described auxiliary black memory; And air chamber, this air chamber is formed by the perisporium of the black memory opposite side of described master and the housing that is positioned at the described opposite side of described print cartridge at the opposite side of described print cartridge, described air chamber is communicated with the black memory of described master at an upper portion thereof, and described air chamber and described auxiliary black memory separate.

6. print cartridge according to claim 5 is characterized in that being formed with sloping portion on the top of the housing of the described side of described print cartridge, and described first and second detections of a target partly are formed on the surface of described sloping portion; First reflector is arranged on the top of described auxiliary black memory, has not parallel with the described surface of described sloping portion flat, in the face of described reflection regulating part and spaced apart with described reflection regulating part.

7. print cartridge according to claim 5, it is characterized in that being formed with ledge on the top of the housing of the described side of described print cartridge, the inner space of described ledge is connected with described auxiliary black memory, and described first and second detections of a target partly are formed on the surface of described ledge.

8. according to claim 6 or 7 described print cartridges, it is characterized in that being used to distinguish that second detection of a target of print cartridge partly comprises one second reflector that it is constant and irrelevant with the ink level of print cartridge that its reflective condition keeps.

9. print cartridge according to claim 8 is characterized in that the reflectance factor of reeflectance ratio reflection regulating part of second reflector is big.

10. print cartridge according to claim 9 is characterized in that second reflector comprises that is arranged on the lip-deep reflecting element of print cartridge.

11. print cartridge according to claim 4 is characterized in that reflecting regulating part and comprises a prism.

12. print cartridge according to claim 1 is characterized in that second detection of a target partly has the zone that at least two light reflection states differ from one another.

13. print cartridge according to claim 1,

It is characterized in that reflecting element is arranged on second detection of a target part of one type of print cartridge in two kinds of dissimilar print cartridges.

14. a sniffer is surveyed type and ink level according to the print cartridge of claim 1, it is characterized in that described sniffer comprises:

A detector, described detector uses first and second detections of a target part of print cartridge to survey toner cartridge type with optical mode, and whether the ink level of surveying print cartridge is equal to or greater than reference quantity, described detector comprises to the radiative optical transmitting set of detection of a target part of print cartridge and receives optical receiver from the light of detection of a target part; With

A conveyer, conveyer is with respect to the detecting location of first and second detection of a target part mobile detectors of print cartridge.

15. sniffer according to claim 14, it is characterized in that described optical transmitting set and described optical receiver partly are arranged side by side towards described first and second detections of a target, described first and second detections of a target partly are formed on the surface of sloping portion on the housing top that is positioned at described print cartridge one side.

16. sniffer according to claim 14, it is characterized in that described optical transmitting set and described optical receiver are provided with relative to one another, described first and second detections of a target partly are formed on the surface of ledge on the housing top that is positioned at described print cartridge one side, described ledge is between described optical transmitting set and described optical receiver, and the surface that is provided with described first and second detections of a target part is towards described optical transmitting set.

17. sniffer according to claim 14,

Optical axis direction first and second detections of a target that it is characterized in that optical transmitting set partly tilt,

First and second detections of a target part is alignd on the direction of the relative motion of optical transmitting set and print cartridge,

First detection of a target that first detection of a target partly is arranged on the optical axis of optical transmitting set and ink level detection partly forms a side of acute angle, the optical axis that second detection of a target partly is arranged on optical transmitting set with distinguish that second detection of a target of print cartridge partly forms a side at obtuse angle.

18. sniffer according to claim 14,

It is characterized in that first and second detections of a target parts is alignd on the direction of the relative motion of detector and print cartridge and

The mode of first and second detection of a target section aligned makes to be surveyed when being used for light reflection state in partly of first detection of a target of ink level detection when optical receiver, distinguishes that first detection of a target partial distance optical transmitting set of second detection of a target partial distance optical transmitting set ratio detection ink level of print cartridge is far away.

19. sniffer according to claim 14,

It is characterized in that first and second detection of a target section aligned and

Distinguish second detection of a target part of print cartridge with an angle setting, make that when optical receiver is surveyed the light reflection state that is being used in first detection of a target part of ink level detection the light indirect reference that optical transmitting set is launched is to detector in one direction.

20. sniffer according to claim 14 is characterized in that in the process of the relative motion of detector and print cartridge, at first surveys the light reflection state in first detection of a target part between first and second detections of a target part.

21. an imaging device, it forms image by the China ink in the print cartridge is provided on recording medium on the recording medium, and it comprises:

A mounting portion, a kind of print cartridge in polytype print cartridge can be installed on the mounting portion, the contained initial China ink of these print cartridges measures different but black color is identical, it is characterized in that print cartridge comprises first detection of a target part and second detection of a target part, whether the China ink amount that can detect in the print cartridge in first detection of a target part is equal to or greater than reference quantity, the initial China ink that this reference quantity is measured in that minimum print cartridge less than contained China ink in all polytype print cartridges is measured, and can pick out toner cartridge type in second detection of a target part; With

A sniffer,

Wherein sniffer comprises:

A detector, detector uses first and second detections of a target part of print cartridge to survey toner cartridge type with optical mode, and whether the ink level of surveying print cartridge is equal to or greater than reference quantity, described detector comprises to the radiative optical transmitting set of detection of a target part of print cartridge and receives optical receiver from the light of detection of a target part; With

A conveyer, conveyer is with respect to the detecting location of first and second detection of a target part mobile detectors of print cartridge.

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