EP0769387B1 - Printing device with roll paper detection - Google Patents
Printing device with roll paper detection Download PDFInfo
- Publication number
- EP0769387B1 EP0769387B1 EP19960307524 EP96307524A EP0769387B1 EP 0769387 B1 EP0769387 B1 EP 0769387B1 EP 19960307524 EP19960307524 EP 19960307524 EP 96307524 A EP96307524 A EP 96307524A EP 0769387 B1 EP0769387 B1 EP 0769387B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- paper
- roll
- printing
- type
- detection unit
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/009—Detecting type of paper, e.g. by automatic reading of a code that is printed on a paper package or on a paper roll or by sensing the grade of translucency of the paper
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J15/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in continuous form, e.g. webs
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H16/00—Unwinding, paying-out webs
- B65H16/02—Supporting web roll
- B65H16/06—Supporting web roll both-ends type
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H35/00—Delivering articles from cutting or line-perforating machines; Article or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers
- B65H35/0006—Article or web delivery apparatus incorporating cutting or line-perforating devices
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/41—Winding, unwinding
- B65H2301/415—Unwinding
- B65H2301/4152—Finishing unwinding process
- B65H2301/41524—Detecting trailing edge
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2511/00—Dimensions; Position; Numbers; Identification; Occurrences
- B65H2511/40—Identification
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2511/00—Dimensions; Position; Numbers; Identification; Occurrences
- B65H2511/50—Occurence
- B65H2511/51—Presence
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2511/00—Dimensions; Position; Numbers; Identification; Occurrences
- B65H2511/50—Occurence
- B65H2511/51—Presence
- B65H2511/514—Particular portion of element
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2511/00—Dimensions; Position; Numbers; Identification; Occurrences
- B65H2511/50—Occurence
- B65H2511/515—Absence
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2513/00—Dynamic entities; Timing aspects
- B65H2513/50—Timing
- B65H2513/51—Sequence of process
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/10—Handled articles or webs
- B65H2701/13—Parts concerned of the handled material
- B65H2701/131—Edges
- B65H2701/1311—Edges leading edge
Definitions
- This invention relates to a printing device like an ink jet printer for ejecting ink onto roll paper for printing. More specifically, this invention relates to a printing device for detecting type of roll paper loaded, the presence or absence of the roll paper, the leading end of the roll paper, and a preferable roll paper to be used in a printng device.
- an electrophotographic copier which causes a toner to adhere onto an electrostatic potential image formed on the paper roll and transcript the toner image onto the printing paper
- a printing device which is called an ink jet printer of the aforementioned ink jet type or a printing device which is called a thermal transfer printer of a thermal transfer type which is adapted to melt the ink on the ink ribbon by means of a heated thermal head or cause the heat sensitive paper to be colored
- the roll paper payed out from the paper roll is fed in an opposite direction to the regular feed direction to reduce a margin space in the leading end of the paper as much as possible.
- the printing device is constructed such that it performs the printing operation by switching the printing conditions in accordance with the type of printing paper to be used
- printing can be done on a condition other than suited for the paper if the operator makes an erroneous setting concerning the type of printing paper with the result that the printing quality desired by the operator cannot be obtained.
- the operator uses a printing device of the ink jet type which for example can perform a printing operation in not prescibed ink quantity for some type of printing paper. In this way, if setting is done on the basis of a wrong type of paper, extra ink used can adhere to some portions of the printing device to such an extent as thus staining the printing device or the printing paper.
- Detecting devices used in a conventional printing device are known as a lever type, an optical type, etc.
- an optical type paper detection mechanism includes a reflection type in which a light irradiated by the light emitting portion onto the paper to be reflected thereby is detected by the light receiving portion and a transmission type in which a light transmitted is detected by a light receiving portion positioned opposite the'light emitting portion.
- optical paper detection mechanism of reflection type permits the variation of the intensity of reflection of the light irradiated by the light emitting portion on the basis of the presence or absence of the printing paper to be converted into the variation of the electrical output for detection.
- optical paper detection mechanism of transmission type converts into the variation of electrical output the variation of intensity of light determined depending on whether or not to interrupt the light irradiated by the light emitting portion on the basis of the presence or absence of the printing paper.
- the mechanism In the conventional printing paper detect mechanism, it is possible to detect the presence or absence of the printing paper regardless of the light transmitting property whether transparent or opaque if the mechanism is of a lever type.
- such mechanism has a problem that it is necessary to bring the lever in contact with the platen by way of the printing paper in order to detect the presence or absence of the printing paper at the printing portion, causing the lever to contact the platen directly if there is no printing paper thereat with the result that the platen can be damaged. Therefore, an optical paper detect mechanism of reflection type is used in general as a paper detection mechanism.
- Such optical paper detection mechanism of reflection type has another problem that it is impossible as is to detect the presence or absence of the printing paper if the paper is a light transmitting transparent sheet such as OHP paper. Then, a light reflecting opaque portion is formed at an end portion (said end portion taken in a direction perpendicular to the paper feed) of the transparent sheet so that said opaque portion reflects the light to be detected.
- a light reflecting opaque portion is formed at an end portion (said end portion taken in a direction perpendicular to the paper feed) of the transparent sheet so that said opaque portion reflects the light to be detected.
- such method also has a problem that the opaque portion at the end of the printing paper makes it impossible to effectively use the entire surface of the printing paper and makes the opaque portion too conspicuous to prevent the printed image from viewed easily when projected by an over head projector.
- a printing device is characterized by a holder engaging member which is movable and can be applied onto peripheral surface of the flange of said holders of said paper roll held by said paper roll holding mechanism, by a paper type detection unit for detecting type of said roll paper according to the position of said flange engaging correspondingly to outer diameter of said flange representing type of said roll paper used, by a paper presence/absence detection unit for detecting the presence or absence of said roll paper without contact therewith is located in said printing portion so as to oppose to said platen, by a paper leading end detection unit for detecting the leading end of said roll paper is located between said printing portion and a cutting portion, and control means for controlling actions of the relevant portions on the basis of the detection result of each detection unit.
- said paper type detection unit can automatically detect type of paper only by amounting a flange, outer diameter of which is adapted to type of roll paper
- said paper presence/absence detection unit can automatically detect the presence or absence of said roll paper without contact therewith
- said paper leading end detection unit can automatically detect whether the paper leading end of said roll paper is in a appropreate position or not
- control means can control appropreate actions of the relevant portions on the basis of the detection result of each detection unit.
- the printing device is characterized in that the detecting unit of paper presence/absence is composed of a photosensor while the control means is constructed to determine the paper type by reversing information from the photo sensor on the basis of a result whether or not light transmission.
- the it is possible to automatically detect the presence/absence of the roll paper by means of the photosensor notwithstanding the result as to whether or not the roll paper is of light transmitting nature.
- the printing device according to Claim 3 is characterized by the roll paper being formed of a light transmitting transparent sheet and having a light reflector at the trailing end thereof.
- An embodiment of printing device 1 according to the present invention as shown in Fig.1 and Fig.2, has a housing 2, in which a cylindrical platen 3 is rotatably mounted with its axis extending in horizontal direction. Said surface of platen 3 can absorb light and is controlled not to reflect light such as a coarse surface to assure difused reflection or blacked surface to absorb light.
- a driven pulley (not-shown) is supported by one end to said platen 3, a belt 5 driven by a first reversible motor 4 being wound on said driven pulley. Accordingly, said platen 3 can be driven by driving force of said first motor 4 in the normal transporting direction or in the reverse direction.
- a paper roll 6 having an axis parallel to said platen 3 is mounted on the rear side of said platen 3 in said housing 2.
- roll paper 6a to be used is released out of paper roll 6 to be wound on the upper side of said platen 3.
- Said paper roll 6 is supported as shown in Fig. 3 on a pair of holding portions 9A and 9B of the paper roll holding mechanism over a base section 7 of the printing device 1 with a spacing therebetween in a longitudinal direction.
- the holding portion 9B is detachably 'loaded at a plurality of positions on a holding portion supporting plate 10 to fit the width of the roll paper 6a.
- a detection unit 11 of paper type for detecting the type of the roll paper 6a used as a printing paper.
- said paper roll 6 comprises said roll paper 6a wound on a paper tube (not-shown), said paper tube having paper tube holders 6b, 6b mounted on its both ends, and these paper tube holders being held respectively by said roll holders 9A, 9B.
- Said each paper tube holder 6b, 6b has round flange portion 6c having a diameter larger than that of roll paper 6a.
- the diameter of said flange portions 6c has different size according to the type of roll paper 6a wound on said paper tube, i.e. common paper, coat paper, film for OHP, back print film, burnished film and the like. Accordingly, one can identify the paper type according to the diameter of flanges 6c used.
- a light reflecting portion 12a is provided only at a trailing end of the light transmitting transparent sheet 12 as shown in Fig. 5(a).
- the light reflecting portion 12a may be provided at opposite sides perpendicular to the longitudinal direction as shown in Fig. 5 (b). So long as provided at the trailing end thereof, the structure is not limited to this embodiment.
- said detection unit of paper type 11 for outputting detection signals for detecting type of said roll paper 6a has a base plate 13 located adjacent to one of said roll holders 9A. Said base plate 13 supports above it a pair of parallel guide rods 14, 14 which are parallel to each other and extend in horizontal direction so as to verticaly cross the axis of said paper roll 6.
- a sliding table 15 is mounted on said guide rods 14,14 so as to shift along the extending direction of said rods 14.
- a bracket 16 extends upwardly on the one end of said sliding table 15, and said bracket 16 supports thereon a flange abutting block member 17 having its one side surface 17a used as a flange abutting surface.
- a coil spring 18 is provided between said base plate 13 and said sliding table 15 so as to urges said sliding table 15 in the direction A shown in Fig. 6(A) for pressing said flange abutting member 17 onto said flange 6c of said paper roll 6.
- a wire 19 as a manipulating member is connected to said bracket 16.
- a hollow tube 20 is fixed on an edge portion of said base plate 13 so as to extend from the fixing point of said wire 19 on said bracket 16 in a reverse direction B to the urging direction A of said coil spring 18.
- Said wire 19 passes through said tube 20 and extends outside of said base plate 13, the other end of said wire 19 being fixed onto said cover 2A (Fig.2). Consequently, when opening said cover 2A, said sliding table 15 is shifted by said wire 19 in the direction B' against the urging force of said coil spring 18. Accordingly, when exchanging paper roll 6, said flange abutting member 17 as an example of roll holder abutting member is retracted into a retracted position. Further, when said cover 2A is closed, said wire 19 is relaxed and said sliding table 15 is pulled in the direction A due to the urging force of said coil spring 18.
- Three photosensors 21A,21B,21C and an output connector 23 for outputting signals from respective photosensors 21 to said controller 22 are located on said base plate 13.
- Said respective photosensors 21 have respectively a U-form, and three state setting sheets 25 having each plate form to be inserted into the hollow portions of corresponding photosensors 21 are supported on the rear side surface of said sliding table 15 so as to engage into respective photosensors 21.
- Each state setting sheet 25 is a shielding plate for shielding light from light emitting portion of each photosensor so as not to reach light receiving portion thereof, while said state setting sheet 25 has slits (not-shown) allowing light from light emitting portion thereof to reach light receiving portion thereof.
- Each photosensor 21 has a construction such that it outputs signal ON when light from light emitting portion reaches light receiving portion, while it outputs signal OFF when light from light emitting portion does not reach light receiving portion.
- the position of sliding table 15 with respect to said base plate 13 is changed correspondingly to diameter of said flange 6c at the end of paper roll 6.
- each photosensor 21A,21B,21C outputs ON signal or OFF signal to said CPU board 26 (Fig.7) according to the position of said slits of corresponding state setting sheet 25.
- said CPU of said CPU board 26 of the control means 22 can thus detect the type of paper (roll paper 6a) according to the flange diameter obtained by combination of ON or OFF signals issued from respective three photosensors 21 as shown in the following Table 1.
- the types of paper thus detected are output to said CPU board 26 and are displayed on a displaying panel (not-shown) of the printing device 1.
- Paper Type Flange Diameter (mm) Sensor A Sensor B Sensor C No Paper 0 ON ON ON ON 1 48 - 52 OFF ON OFF 2 58 - 62 OFF OFF ON 3 70 - 74 ON OFF ON 4 80 - 84 OFF ON ON 5 88 - 92 ON ON OFF 6 98 - 102 ON OFF OFF OFF
- Sensors A, B and C shown in this Table 1 designated respectively said photosensors 21A, 21B and 21C.
- Said CPU board 26 can carry out image processing and driving of ink jet heads (not-shown) shown in Table 2 correspondingly to detected type of paper.
- a carriage 27A of said ink jet unit 27 has thereon a plurality of ink jet heads (not-shown) which are directed agaist said platen 3. The position where said ink jet heads discharge ink toward the roll paper 6a held against the outer periphery of the platen 3 is designated as a printing portion PP (Fig. 2) to do the printing against the roll paper 6a.
- a driving belt 28 is connected to said ink jet unit 27, and said driving belt 28 is wound about a driving pulley 30 which is driven by a second motor 29 of reversible type. Accordingly, when driving said second motor 29, said ink jet unit 27 is reciprocated along said platen 3 under the guidance of a guide shaft 31 located in parallel to said platen 3.
- a pump unit 32 for covering the nozzles of restrictive ink jet heads of said ink jet unit 27 for the purpose of recovering operation thereof is located on one side of the other end portion of said platen 3, and an exhaust liquid tank 33 is provided adjacent to said pump unit 32.
- Photointerrupters 34 of transmission type are located with a distance therebetween in the front and back direction of said carriage 27A on the bottom side of said carriage 27A of said ink jet unit 27, and a linear encoder 35 comprising a thin plate having therein a number of small holes corresponding to printing resolution is located along the whole range of shifting ink jet unit 27.
- a detection unit 36 for detecting roll paper 6a on said platen 3 is located on the upstream side of said ink jet unit 27 in the normal conveying direction of said roll paper 6a so as to oppose said platen 3.
- Said roll paper presence/absence detection unit 36 has photosensors 37 to emit a light from the light emitting portion toward the outer periphery of the platen 3. The thus emitted light is reflected by the roll paper 6a positioned on the platen 3 such that the intensitiy of the reflected light is converted into an electrical signal by the light receiving portion to be sent to the control means 22 which will be explained later.
- Cutting unit 40 consisting of long sized fixed blade 38 and movable blade 39 for cutting printed roll paper 6a is located below said platen 3 and ink jet unit 27.
- Said paper detection unit 41 for detecting roll paper 6a is located between said printing portion PP and said cutting portion CP.
- the detection unit 41 of the paper leading end is for determining whether or not the reverse feed amount of the roll paper 6a is adequate at such a time as the cut roll paper 6a to be subjected to printing is fed backwardly of the regular feed direction.
- a lever switch not shown detects the leading end (cut end) of the roll paper 6a
- a detect signal is emitted to the control means 22 which will be explained later. Then, said control means 22 stops driving the first motor 4 which is feeding the roll paper 6a backwardly.
- Each driving portion such as said both paper detection units 11,36,41 and said both motors 4,29 and ink jet unit 27 is respectively connected to a control means 22, so that when signals about roll paper 6a from said paper detection units 11,36,41 are input into said control means 22, this control means 22 controls said respective motor 4,29 and ink jet unit 27 conrrespondingly to the input signals.
- the upper opening (not-shown) of said housing 2 is covered by a closing cover 2A.
- Fig. 7 shows a control block diagram of printing device including said control means 22.
- said control means 22 consisits of a mother board 42 having a control panel (not-shown); a CPU board 26, a mechanical control board 43 and a head control board 44 connected to each other via said mother board 42.
- Said mother board 42 is connected to a paper detection unit 11 for detecting the type of roll paper 6a used, a paper presence/absence detection unit 36 for detecting the presence or absence of said roll paper, a paper leading end detection unit 41 for detecting the leading end of said roll paper, said pump unit 32; said exhaust liquid tank 33; a CR unit 45 for driving said second motor 29 shifting said ink jet unit 27; a LF unit 46 for driving said first motor 4 conveying said roll paper 6a.
- Said CPU board 26 has built-in CPU, ROM, RAM and the like, among which ROM has programs for operation and graphic processing, and carrying out printing based on corresponding deteciton result, such as type of paper, presence or absence of paper, leading end of paper by detecting signals provided by each detection unit 11,36 and 41.
- Said mechanical control board 43 includes drivers (not-shown) for driving said detection units 11,36 and 41, pump unit 32, CR unit 45 and LF unit 46. Further, said mechanical control board 43 can transfer signals to said CPU of said CPU board 26.
- Said head control board 44 has ink detection board 47 and head drive board 48, and transfers a detection signal of residual ink quantity detected by said ink detection board 47 located on said ink jet unit 27 to said CPU of said CPU board 26, and, in said head drive board 48, said head control board 44 also transfers logical signals based on information from said CPU for driving said ink jet unit 27. Based on said logical signals, said head drive board 48 generates driving signals for driving respective ink jet head 49 and respective ink cartridge 50.
- said linear encoder 35 is connected in parallel to said second motor 29, said linear encoder 35 outputting to said CPU of said CPU board 26 signals correspondingly to rotational speed of said second motor 29 for equalizing the shifting speed of said ink jet unit 27.
- said mother board 42 is provided with interface unit 51,52 for connecting this printing device 1 to personal computer and the like.
- the program stored in said CPU board 26 determines the presence of the paper upon detection of an intense reflection and outputting an electrical signal HIGH by the photosensor 37 of the detection unit 36 of paper presence/absence when the paper (roll paer 6a) detected by the detection unit 11 of paper type is opaque.
- the paper detected by the detection unit 11 of the paper type is transparent, most of the light emitted by the light sensor 36 of the detection unit 36 of the paper presence/abasence permeates the paper to be absorbed by the surface of the platen such that the photosensor 37 of the detection unit 36 of the paper presence/absence will not detect the reflection and emits an electrical signal LOW to determine the presence of the paper.
- control means 22 is constructed to perform a reverse determination concerning the information from the photosensor 37 of the detection unit 36 of paper presence/absence based on the result obtained by the detection unit 11 of the paper type as to whether the paper 6a is of light transmitting nature or not.
- cover 2A is opened for mounting a paper roll 6 including a desired type of roll paper 6a onto roll holding mechanism 8.
- Wire 19 connected to this cover 2A is thus pulled in the direction B against the urging force of coil spring 18, so that sliding table 15 connected to this wire 19 is also pulled in the same direction B and flange abutting member 17 is retracted into a retraction place so as not to impede inserting operation of paper roll 6.
- holders 6b having each flange 6c of outer diameter adapted to that of roll paper 6a mount paper roll 6 on both roll holders 9A, 9B of roll holding mechanism 8.
- CPU of CPU board 26 Upon switching printing device power supply into ON, CPU of CPU board 26 initializes respecvtive parts 26,43,44,47,48 and respective units 27,32,45,46 and respective detection mechanism 11,36,41 and than recognizes type of paper used, presence or absence of paper on the prinnting portion PP, position of leading end of paper, by means of signals from paper detection unit, paper presence/absence detection unit and paper leading end detection unit, respectively.
- the recognition of the paper by means of the photosensor of the detection unit 36 of the paper presence/absence for the control means 22 is constructed to perform a determination by reversing the information from the photosensor 37 of the detection unit 36 of the paper presence/absence on the basis of the result as to whether the paper is light transmitting or not.
- the photosensor 37 of the detection unit 36 of paper presence/absence detects an intense reflection by the surface of the roll paper 6a to emit an electrical signal HIGH for the control means 22 to provide a determination of "paper present” when the roll paper 6a is on the platen 3 whereas the light emitted by the photosensor 37 is directly irradiated onto the surface of the platen 3 to be absorbed by its surface such that the photosensor 37 will not detect the reflected light and emits an electrical signal LOW for the control means 22 to provide a determination of "paper absent".
- the photosensor 37 will not detect the reflected light because most of the light irradiated by the photosensor 36 of the detection unit 36 of paper presence/absence permeates the paper directly onto the surface of the platen 3 to be absorbed thereby when the roll paper 6a is positioned on the platen 3. In such situation, the photosensor emits an electrical signal LOW such that the contorl means 22 provides a determination of "paper present".
- the photosensor detects an intense reflection from the light reflecting portion 12a formed of a transparent sheet and positioned at the trailing end of the roll paper 6a on the platen and outputs an electrical signal HIGH such that the control means 22 provides a determination of "paper absent".
- control means 22 is constructed to perform a determination by reversing the output (information) from the photosensor 37 based on the result obtained by the detection unit 11 of the paper type as to whether the roll paper 6a is of light transmitting nature or not.
- the roll paper 6a is cut off at its trailing end by the paper cutting unit 40 after the printing action to form a separate sheet of paper which is discharged to complete the printing operation.
- the printing operation of a sheet of paper it is needed for performing the next printing action to rewind the roll paper 6a by a predetermined distance by the first motor 4 because the distance from the printing portion PP to the cutting portion CP is larger than the margin formed at the leading end of the paper at the time of an ordianry printing action.
- the amount of reverse feed of the roll paper 6a is sufficiently compensated for by feeding the roll paper 6a backwardly a constant amount if the leading end of the roll paper 6a is always positioned at the cutting portion CP.
- the position of the leading end of the roll paper 6a varies depending on situations so that the amount of reverse feed of the roll paper 6a is determined by the result of detection of the leading end of the roll paper 6a by means of detection unit 41 of the paper leading end.
- the control means 22 controls the amount of reverse feed for the roll paper 6a by driving the second motor 29 until the detection unit 41 of the leading end of the paper detects the leading end of the roll paper after the roll paper 6a is cut off at its trailing end by the paper cutting mechanism 40 such that position of the leading end of the roll paper 6a for the printing action is done at a position suitable for printing.
- said CPU receives signals for recognizing ink type. By using the data of detected type and type of ink and/or paper, said CPU looks up data table written in ROM of said CPU board 26, thereby to set the procedure of the printing data and to set servo constant to determine the printing speed.
- the printing is done in accordance with the type of ink and paper.
- type of paper can be automatically detected upon mounting of said paper roll 6 onto roll holder 9A,9B as described above, double printing and/or inferior image quality due to input error of paper type by operator can be prevented. Further, since paper used is automatically detected according to outer diameter of flanges 6c, more various types of paper can be handled by increasing the number of sensors. Further, since flange abutting member 17 is retracted when exchanging paper roll 6, flange abutting member 17 does not impede the exchange of paper roll 6.
- said detection unit 11 of the paper type is capable of automatically detecting the paper type from the position of the flange abutting member 17 abutting againt said flange 6c merely by attaching a flange 6c to the paper roll 6, said flange having an outer diameter corresponding to the type of the roll paper 6a.
- Said detection unit 36 of the paper presence/absence is capable of automatically detecting the presence/absence of the roll paper 6a without contact.
- Said detection unit 41 of the paper leading end is capable of automatically detecting the leading end of the roll paper 6a subjected to printing to determine whether said leading end is properly positioned or not.
- Said control means 22 is capable of controlling the relevant portions such that a proper printing action onto the roll paper is assured on the basis of the detection result of the respective detection units 11, 36 and 41 and capable of automatically detecting the presence/absence of the roll paper to be positioned at the printing portion PP by means of the photosensors 37, regardless of whether the roll paper 6a is of light transmitting nature or not.
- said detection unit 11 of paper type is adapted to output a signal indicating "paper absent" when the. paper roll 6 is not loaded to the paper roll holding mechanism 8 while the control means 22 makes the printing action impossible.
- the roll paper 6a is formed of a transparent sheet which is light transmitting, with the trailing end of said transparent sheet 12 being formed with a light reflecting portion 12a. Therefore, it is possible to effectively use the entire surface of the roll paper 6a even if the roll sheet formed of the transparent sheet 12 of light transmitting nature is used. Moreover, the light reflecting portion 12a of the roll paper 6a makes it possible for the photosensors 37 in the detection unit 36 of paper presence/absence to automatically detect the trailing end of the roll paper 6a.
- the present invention is not limited to the above described embodiments but can be modified if necessary.
- the present invention is characterized in that the detection unit of paper type is capable of automatically detecting the paper type on the basis of the position of the flange abutting member which abuts against the flange merely if the flange having an outer diameter corresponding to the type of the roll paper is attached to the paper roll, that the detection unit of paper presence/absence is capable of automatically detect the presence/absence of the paper without contact thereto, that the detection unit of the paper leading end is capable of automatically detecting the paper leading end to determine whether said leading end is properly positioned, and that the control means is capable of controlling the relevant portions to perform the proper printing actions on the basis of the detection result of the respective detection units.
- the roll paper used by the present invention makes it possble to effectively use the entire surface of the roll paper when the roll paper formed of the transparent sheet of light transmitting nature is used and to automatically detect the trailing end of the roll paper in the detection unit of paper presence/absence by means of the light reflecting portions of the roll paper.
Description
- This invention relates to a printing device like an ink jet printer for ejecting ink onto roll paper for printing. More specifically, this invention relates to a printing device for detecting type of roll paper loaded, the presence or absence of the roll paper, the leading end of the roll paper, and a preferable roll paper to be used in a printng device.
- Nowadays, it has become possible for everybody to easily perform image printings thanks to the progress of computers and printing devices. Among the characteristic examples of printing devices is known an electrophotographic copier which causes a toner to adhere onto an electrostatic potential image formed on the paper roll and transcript the toner image onto the printing paper, a printing device which is called an ink jet printer of the aforementioned ink jet type or a printing device which is called a thermal transfer printer of a thermal transfer type which is adapted to melt the ink on the ink ribbon by means of a heated thermal head or cause the heat sensitive paper to be colored
- While color printing in general is required to have a good color tone quality and wheatherproofness, a wide application of printing media varing from paper, cloth, film or the like is seen and in order to maintain a printing quality in an excellent condition, the printing conditions are in general subjected to review on the basis of the type or property of a printing medium.
- While it is possible to discriminate types of paper used through its factors such as surface roughness, light transparency and rigidity, but it is not practical to mount detection mechanism for that purpose upon printing device, because one detection device is necessary for anything of said paper factors, thus increasing condiderably the cost of printing device. When detecting type of paper using the factor of light transparency, only three states of paper, i.e. transparent, translucent and opaque, which limits adoptation to more and more various types of paper. As described above, direct detection of paper type has been difficult in technical and econmical view points.
- In general, users of printing device have input the type of paper used into printing device by any means. One of these means has been setting of the type of paper on the operating panel of printing device by user. More recently, the information about type of paper to be used is often transfered into printing device from personal computer together with printing data. In the last case, user selects his desired type of paper from Paper Menu printed on a software called Printer Driver containing types of paper such as common paper, coat paper, film for a overhead projector (OHP), back print film, burnished paper and the like.
- In addition, it is essential to set printing paper sheets neatly on the printing device. If not, it is not only impossible to maintain the printing quality but also likely to lead to the trouble in which the printing head can rub the printing face of the paper sheet or perform the printing action without the printing paper sheet being fed onto the platen with the result that the paper sheet is stained or the printing head and the platen are damaged to lead to the trouble of the printing device.
- Therefore, it is required in general to refrain from performing a printing operation when the printing paper is not set properly or has run out.
- In the case of a printing device which uses a long roll paper which necessitates a paper cut mechanism for cutting off the roll paper, it is often observed that an immediate start of the subsequent printing operation after the paper cutting operation to create an extra margin on the leading end of the paper sheet, which must be thrown away. This is not only a waste of paper but also another cutting operation must be done after the subsequent cutting of the roll paper, causing a duplication of work.
- In such conventional method of using the roll paper, the roll paper payed out from the paper roll is fed in an opposite direction to the regular feed direction to reduce a margin space in the leading end of the paper as much as possible.
- On the other hand, while there are several cases where one can easily discriminate paper used by means of appearance thereof and touch feeling thereon, there are so many papers which have resembling appearance and feeling. Therefore, users erroneously set different types of papers such as common paper and coat paper, both of which have same color at a glance, though they have quite different colors when reviewed carefully.
- In case where the printing device is constructed such that it performs the printing operation by switching the printing conditions in accordance with the type of printing paper to be used, printing can be done on a condition other than suited for the paper if the operator makes an erroneous setting concerning the type of printing paper with the result that the printing quality desired by the operator cannot be obtained. Further, if the operator uses a printing device of the ink jet type which for example can perform a printing operation in not prescibed ink quantity for some type of printing paper. In this way, if setting is done on the basis of a wrong type of paper, extra ink used can adhere to some portions of the printing device to such an extent as thus staining the printing device or the printing paper.
- Detecting devices used in a conventional printing device are known as a lever type, an optical type, etc.
- In said lever type printing paper detect mechanism, the lever position varies depending upon the presence or absence of the printing paper and said varied lever position is detected as ON/Off signals of the switch. On the other hand, an optical type paper detection mechanism includes a reflection type in which a light irradiated by the light emitting portion onto the paper to be reflected thereby is detected by the light receiving portion and a transmission type in which a light transmitted is detected by a light receiving portion positioned opposite the'light emitting portion.
- In said optical paper detection mechanism of reflection type permits the variation of the intensity of reflection of the light irradiated by the light emitting portion on the basis of the presence or absence of the printing paper to be converted into the variation of the electrical output for detection. On the other hand, the optical paper detection mechanism of transmission type converts into the variation of electrical output the variation of intensity of light determined depending on whether or not to interrupt the light irradiated by the light emitting portion on the basis of the presence or absence of the printing paper.
- In the conventional printing paper detect mechanism, it is possible to detect the presence or absence of the printing paper regardless of the light transmitting property whether transparent or opaque if the mechanism is of a lever type. However, such mechanism has a problem that it is necessary to bring the lever in contact with the platen by way of the printing paper in order to detect the presence or absence of the printing paper at the printing portion, causing the lever to contact the platen directly if there is no printing paper thereat with the result that the platen can be damaged. Therefore, an optical paper detect mechanism of reflection type is used in general as a paper detection mechanism.
- Such optical paper detection mechanism of reflection type has another problem that it is impossible as is to detect the presence or absence of the printing paper if the paper is a light transmitting transparent sheet such as OHP paper. Then, a light reflecting opaque portion is formed at an end portion (said end portion taken in a direction perpendicular to the paper feed) of the transparent sheet so that said opaque portion reflects the light to be detected. However, such method also has a problem that the opaque portion at the end of the printing paper makes it impossible to effectively use the entire surface of the printing paper and makes the opaque portion too conspicuous to prevent the printed image from viewed easily when projected by an over head projector.
- Further, excessive rewinding of the roll paper in the user's attempt at saving the paper or any possible misalignment of the leading end of the roll paper upstream of the correct position of printing portion can cause a printing action to be performed against the platen or cause a clogging of paper as a result of excessive rearward feed.
- In view of the above points, it is the object of the present invention to provide a printing device which is capable of automatically detecting the type of the roll paper.
- It is another object of the present invention to provide a printing device which is capable of effectively detecting the presence and absence of the roll paper formed of a light transmitting transparent sheet by means of an optical printing paper detect mechanism and a roll paper which is detected in a favorable condition by the optical printing paper detection mechanism.
- It is a further object of the present invention to provide a printing device which is capable of automatically detecting whether or not the leading end of the roll paper fed for the printing operation is positioned properly when the roll paper has been rewound in order to prevent an extra margin from being formed.
- In order to achieve the aforementioned object, a printing device according to
Claim 1 is characterized by a holder engaging member which is movable and can be applied onto peripheral surface of the flange of said holders of said paper roll held by said paper roll holding mechanism, by a paper type detection unit for detecting type of said roll paper according to the position of said flange engaging correspondingly to outer diameter of said flange representing type of said roll paper used, by a paper presence/absence detection unit for detecting the presence or absence of said roll paper without contact therewith is located in said printing portion so as to oppose to said platen, by a paper leading end detection unit for detecting the leading end of said roll paper is located between said printing portion and a cutting portion, and control means for controlling actions of the relevant portions on the basis of the detection result of each detection unit. - In such a construction, said paper type detection unit can automatically detect type of paper only by amounting a flange, outer diameter of which is adapted to type of roll paper, said paper presence/absence detection unit can automatically detect the presence or absence of said roll paper without contact therewith, said paper leading end detection unit can automatically detect whether the paper leading end of said roll paper is in a appropreate position or not, and control means can control appropreate actions of the relevant portions on the basis of the detection result of each detection unit.
- The printing device according to
Claim 2 is characterized in that the detecting unit of paper presence/absence is composed of a photosensor while the control means is constructed to determine the paper type by reversing information from the photo sensor on the basis of a result whether or not light transmission. - By adopting the aforementioned construction, the it is possible to automatically detect the presence/absence of the roll paper by means of the photosensor notwithstanding the result as to whether or not the roll paper is of light transmitting nature.
- The printing device according to
Claim 3 is characterized by the roll paper being formed of a light transmitting transparent sheet and having a light reflector at the trailing end thereof. - By adopting the aforementioned construction, it is possible to effectively use the entire surface of the roll paper if said roll paper is formed of a light transmitting transparent sheet and said light reflector of the roll sheet is capable of automatically detecting the presence/absence of the paper.
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- Fig. 1 is a perspective view showing an embodiment of the printing device according to the invention;
- Fig. 2 is a partial side view of the printing device shown in Fig. 1;
- Fig. 3 is a plan view showing the roll holding mechanism shown in Fig. 1;
- Fig. 4 is a front view of the paper roll used in the embodiments;
- Fig. 5 is perspective views showing the paper roll used in the embodiments;
- Fig. 6(A) is an enlarged perspective view of the paper type detection unit and Fig.6(B) is a perspective view of the essential portion of Fig. 6 (A); and
- Fig. 7 is a control block diagram including the control means of the printing device shown in Fig.1.
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- An embodiment of
printing device 1 according to the present invention as shown in Fig.1 and Fig.2, has ahousing 2, in which acylindrical platen 3 is rotatably mounted with its axis extending in horizontal direction. Said surface ofplaten 3 can absorb light and is controlled not to reflect light such as a coarse surface to assure difused reflection or blacked surface to absorb light. A driven pulley (not-shown) is supported by one end to saidplaten 3, abelt 5 driven by a first reversible motor 4 being wound on said driven pulley. Accordingly, saidplaten 3 can be driven by driving force of said first motor 4 in the normal transporting direction or in the reverse direction. - A
paper roll 6 having an axis parallel to saidplaten 3 is mounted on the rear side of saidplaten 3 in saidhousing 2. Aroll paper 6a to be explained later, being wound on the peripheral surface of saidpaper roll 6. When saidpaper roll 6 is rotated in counter-clockwise direction in Fig.2,roll paper 6a to be used is released out ofpaper roll 6 to be wound on the upper side of saidplaten 3. - Said
paper roll 6 is supported as shown in Fig. 3 on a pair ofholding portions printing device 1 with a spacing therebetween in a longitudinal direction. Of said two members, theholding portion 9B is detachably 'loaded at a plurality of positions on a holdingportion supporting plate 10 to fit the width of theroll paper 6a. Close to said holdingportion 9A, adetection unit 11 of paper type for detecting the type of theroll paper 6a used as a printing paper. - As shown in Fig. 4, said
paper roll 6 comprises saidroll paper 6a wound on a paper tube (not-shown), said paper tube havingpaper tube holders roll holders 9A, 9B. Said eachpaper tube holder round flange portion 6c having a diameter larger than that ofroll paper 6a. According to the invention, the diameter of saidflange portions 6c has different size according to the type ofroll paper 6a wound on said paper tube, i.e. common paper, coat paper, film for OHP, back print film, burnished film and the like. Accordingly, one can identify the paper type according to the diameter offlanges 6c used. - Further, in this embodiment, if the
roll paper 6a is formed of a light transmittingtransparent sheet 12 such as OHP paper, alight reflecting portion 12a is provided only at a trailing end of the light transmittingtransparent sheet 12 as shown in Fig. 5(a). In this connection, thelight reflecting portion 12a may be provided at opposite sides perpendicular to the longitudinal direction as shown in Fig. 5 (b). So long as provided at the trailing end thereof, the structure is not limited to this embodiment. - As shown in Fig. 6, said detection unit of
paper type 11 for outputting detection signals for detecting type of saidroll paper 6a has abase plate 13 located adjacent to one of said roll holders 9A.Said base plate 13 supports above it a pair ofparallel guide rods paper roll 6. A sliding table 15 is mounted on saidguide rods rods 14. A bracket 16 extends upwardly on the one end of said sliding table 15, and said bracket 16 supports thereon a flange abuttingblock member 17 having its oneside surface 17a used as a flange abutting surface. Acoil spring 18 is provided between saidbase plate 13 and said sliding table 15 so as to urges said sliding table 15 in the direction A shown in Fig. 6(A) for pressing saidflange abutting member 17 onto saidflange 6c of saidpaper roll 6. - One end of a
wire 19 as a manipulating member is connected to said bracket 16. On the other hand, ahollow tube 20 is fixed on an edge portion of saidbase plate 13 so as to extend from the fixing point of saidwire 19 on said bracket 16 in a reverse direction B to the urging direction A of saidcoil spring 18. Saidwire 19 passes through saidtube 20 and extends outside of saidbase plate 13, the other end of saidwire 19 being fixed onto saidcover 2A (Fig.2). Consequently, when opening saidcover 2A, said sliding table 15 is shifted by saidwire 19 in the direction B' against the urging force of saidcoil spring 18. Accordingly, when exchangingpaper roll 6, saidflange abutting member 17 as an example of roll holder abutting member is retracted into a retracted position. Further, when saidcover 2A is closed, saidwire 19 is relaxed and said sliding table 15 is pulled in the direction A due to the urging force of saidcoil spring 18. - Three
photosensors output connector 23 for outputting signals fromrespective photosensors 21 to said controller 22 (Fig.7) are located on saidbase plate 13. Saidrespective photosensors 21 have respectively a U-form, and threestate setting sheets 25 having each plate form to be inserted into the hollow portions of correspondingphotosensors 21 are supported on the rear side surface of said sliding table 15 so as to engage intorespective photosensors 21. Eachstate setting sheet 25 is a shielding plate for shielding light from light emitting portion of each photosensor so as not to reach light receiving portion thereof, while saidstate setting sheet 25 has slits (not-shown) allowing light from light emitting portion thereof to reach light receiving portion thereof. - Each
photosensor 21 has a construction such that it outputs signal ON when light from light emitting portion reaches light receiving portion, while it outputs signal OFF when light from light emitting portion does not reach light receiving portion. As a result, the position of sliding table 15 with respect to saidbase plate 13 is changed correspondingly to diameter of saidflange 6c at the end ofpaper roll 6. Thus, eachphotosensor state setting sheet 25. On the other hand, said CPU of said CPU board 26 of the control means 22 can thus detect the type of paper (rollpaper 6a) according to the flange diameter obtained by combination of ON or OFF signals issued from respective threephotosensors 21 as shown in the following Table 1. The types of paper thus detected are output to said CPU board 26 and are displayed on a displaying panel (not-shown) of theprinting device 1.Paper Type Flange Diameter (mm) Sensor A Sensor B Sensor C No Paper 0 ON ON ON 1 48 - 52 OFF ON OFF 2 58 - 62 OFF OFF ON 3 70 - 74 ON OFF ON 4 80 - 84 OFF ON ON 5 88 - 92 ON ON OFF 6 98 - 102 ON OFF OFF - Sensors A, B and C shown in this Table 1 designated respectively said
photosensors - Said CPU board 26 can carry out image processing and driving of ink jet heads (not-shown) shown in Table 2 correspondingly to detected type of paper.
Paper Type Image Processing Paper Feeding Ink Jet Head 1 Standard Standard Standard 2 Standard Standard Standard 3 Standard Standard Standard 4 Dedicated Standard Dedicated (Less Ink Ejecting) 5 Private Dedicated (Double Printing) Standard 6 Standard Standard Dedicated (Scan Speed Accelerated) - A paper hold (not-shown) to hold
roll paper 6a to be used is released out ofpaper roll 6 to be kept on the peripheral surface ofplaten 3 is mounted in the space opposing to saidplaten 3 in saidhousing 2, Further, anink jet unit 27 reciprocating along saidplaten 3 in a direction parallel to the axis thereof is provided in the space opposing to saidplaten 3 in saidhousing 2. Acarriage 27A of saidink jet unit 27 has thereon a plurality of ink jet heads (not-shown) which are directed agaist saidplaten 3. The position where said ink jet heads discharge ink toward theroll paper 6a held against the outer periphery of theplaten 3 is designated as a printing portion PP (Fig. 2) to do the printing against theroll paper 6a. - A driving
belt 28 is connected to saidink jet unit 27, and said drivingbelt 28 is wound about a drivingpulley 30 which is driven by asecond motor 29 of reversible type. Accordingly, when driving saidsecond motor 29, saidink jet unit 27 is reciprocated along saidplaten 3 under the guidance of aguide shaft 31 located in parallel to saidplaten 3. Apump unit 32 for covering the nozzles of restrictive ink jet heads of saidink jet unit 27 for the purpose of recovering operation thereof is located on one side of the other end portion of saidplaten 3, and anexhaust liquid tank 33 is provided adjacent to saidpump unit 32. -
Photointerrupters 34 of transmission type are located with a distance therebetween in the front and back direction of saidcarriage 27A on the bottom side of saidcarriage 27A of saidink jet unit 27, and alinear encoder 35 comprising a thin plate having therein a number of small holes corresponding to printing resolution is located along the whole range of shiftingink jet unit 27. - A
detection unit 36 for detectingroll paper 6a on saidplaten 3 is located on the upstream side of saidink jet unit 27 in the normal conveying direction of saidroll paper 6a so as to oppose saidplaten 3. Said roll paper presence/absence detection unit 36 hasphotosensors 37 to emit a light from the light emitting portion toward the outer periphery of theplaten 3. The thus emitted light is reflected by theroll paper 6a positioned on theplaten 3 such that the intensitiy of the reflected light is converted into an electrical signal by the light receiving portion to be sent to the control means 22 which will be explained later. - Cutting
unit 40 consisting of long sized fixedblade 38 andmovable blade 39 for cutting printedroll paper 6a is located below saidplaten 3 andink jet unit 27. - Said
paper detection unit 41 for detectingroll paper 6a is located between said printing portion PP and said cutting portion CP. Thedetection unit 41 of the paper leading end is for determining whether or not the reverse feed amount of theroll paper 6a is adequate at such a time as thecut roll paper 6a to be subjected to printing is fed backwardly of the regular feed direction. When a lever switch not shown detects the leading end (cut end) of theroll paper 6a, a detect signal is emitted to the control means 22 which will be explained later. Then, said control means 22 stops driving the first motor 4 which is feeding theroll paper 6a backwardly. - Each driving portion such as said both
paper detection units motors 4,29 andink jet unit 27 is respectively connected to a control means 22, so that when signals aboutroll paper 6a from saidpaper detection units respective motor 4,29 andink jet unit 27 conrrespondingly to the input signals. - As shown further in Fig. 2, the upper opening (not-shown) of said
housing 2 is covered by aclosing cover 2A. - Fig. 7 shows a control block diagram of printing device including said control means 22.
- As shown in Fig.7, said control means 22 consisits of a mother board 42 having a control panel (not-shown); a CPU board 26, a mechanical control board 43 and a head control board 44 connected to each other via said mother board 42.
- Said mother board 42 is connected to a
paper detection unit 11 for detecting the type ofroll paper 6a used, a paper presence/absence detection unit 36 for detecting the presence or absence of said roll paper, a paper leadingend detection unit 41 for detecting the leading end of said roll paper, saidpump unit 32; saidexhaust liquid tank 33; a CR unit 45 for driving saidsecond motor 29 shifting saidink jet unit 27; a LF unit 46 for driving said first motor 4 conveying saidroll paper 6a. - Said CPU board 26 has built-in CPU, ROM, RAM and the like, among which ROM has programs for operation and graphic processing, and carrying out printing based on corresponding deteciton result, such as type of paper, presence or absence of paper, leading end of paper by detecting signals provided by each
detection unit - Said mechanical control board 43 includes drivers (not-shown) for driving said
detection units pump unit 32, CR unit 45 and LF unit 46. Further, said mechanical control board 43 can transfer signals to said CPU of said CPU board 26. - Said head control board 44 has ink detection board 47 and head drive board 48, and transfers a detection signal of residual ink quantity detected by said ink detection board 47 located on said
ink jet unit 27 to said CPU of said CPU board 26, and, in said head drive board 48, said head control board 44 also transfers logical signals based on information from said CPU for driving saidink jet unit 27. Based on said logical signals, said head drive board 48 generates driving signals for driving respectiveink jet head 49 andrespective ink cartridge 50. - Further, in said CR unit 45, said
linear encoder 35 is connected in parallel to saidsecond motor 29, saidlinear encoder 35 outputting to said CPU of said CPU board 26 signals correspondingly to rotational speed of saidsecond motor 29 for equalizing the shifting speed of saidink jet unit 27. - Further, said mother board 42 is provided with interface unit 51,52 for connecting this
printing device 1 to personal computer and the like. - Further, the program stored in said CPU board 26 determines the presence of the paper upon detection of an intense reflection and outputting an electrical signal HIGH by the
photosensor 37 of thedetection unit 36 of paper presence/absence when the paper (rollpaer 6a) detected by thedetection unit 11 of paper type is opaque. On the other hand, if the paper detected by thedetection unit 11 of the paper type is transparent, most of the light emitted by thelight sensor 36 of thedetection unit 36 of the paper presence/abasence permeates the paper to be absorbed by the surface of the platen such that thephotosensor 37 of thedetection unit 36 of the paper presence/absence will not detect the reflection and emits an electrical signal LOW to determine the presence of the paper. - In other words, the control means 22 is constructed to perform a reverse determination concerning the information from the
photosensor 37 of thedetection unit 36 of paper presence/absence based on the result obtained by thedetection unit 11 of the paper type as to whether thepaper 6a is of light transmitting nature or not. - Next, the operation flow of said
printing device 1 will be explained hereinafter. - First,
cover 2A is opened for mounting apaper roll 6 including a desired type ofroll paper 6a ontoroll holding mechanism 8.Wire 19 connected to thiscover 2A is thus pulled in the direction B against the urging force ofcoil spring 18, so that sliding table 15 connected to thiswire 19 is also pulled in the same direction B andflange abutting member 17 is retracted into a retraction place so as not to impede inserting operation ofpaper roll 6. In this state of mechanism,holders 6b having eachflange 6c of outer diameter adapted to that ofroll paper 6amount paper roll 6 on bothroll holders roll holding mechanism 8. - Then, upon closing of
cover 2A,wire 19 is relaxed, sliding table 15 shifts in the direction A under the urging force ofcoil spring 18, and abuttingsurface 17a offlange abutting member 17 is urged onto peripheral surface offlange 6c. Correspondingly to the position of thus stopped sliding table 15, threephotosensors 21 are respectively ON state or OFF state, so that type of paper is detected as shown in Table 1. This information is output fromoutput connector 23 to said CPU board 26 which detects type of paper based on Table 1 and can indicate predetermined image processing and head driving corresponding to detected type of paper. - Upon switching printing device power supply into ON, CPU of CPU board 26 initializes respecvtive parts 26,43,44,47,48 and
respective units respective detection mechanism detection unit 36 of the paper presence/absence for the control means 22 is constructed to perform a determination by reversing the information from thephotosensor 37 of thedetection unit 36 of the paper presence/absence on the basis of the result as to whether the paper is light transmitting or not. - In other words, in case where the detection result as to the type of the
roll paper 6a by means of thedetection unit 11 of the paper type is that the paper is an ordinary opaque paper which will not allow a light to permeate therethrough, thephotosensor 37 of thedetection unit 36 of paper presence/absence detects an intense reflection by the surface of theroll paper 6a to emit an electrical signal HIGH for the control means 22 to provide a determination of "paper present" when theroll paper 6a is on theplaten 3 whereas the light emitted by thephotosensor 37 is directly irradiated onto the surface of theplaten 3 to be absorbed by its surface such that the photosensor 37 will not detect the reflected light and emits an electrical signal LOW for the control means 22 to provide a determination of "paper absent". - On the other hand, in case where the detection result as the type of the
roll paper 6a by means of thedetection unit 11 of the paper type is that the paper is formed of atransparent sheet 12 of light transmitting paper such as a paper for the over head projector, thephotosensor 37 will not detect the reflected light because most of the light irradiated by thephotosensor 36 of thedetection unit 36 of paper presence/absence permeates the paper directly onto the surface of theplaten 3 to be absorbed thereby when theroll paper 6a is positioned on theplaten 3. In such situation, the photosensor emits an electrical signal LOW such that the contorl means 22 provides a determination of "paper present". When the trailing end of theroll paper 6a is positioned on theplaten 3 after the printing has been done on theroll paper 6a, the photosensor detects an intense reflection from thelight reflecting portion 12a formed of a transparent sheet and positioned at the trailing end of theroll paper 6a on the platen and outputs an electrical signal HIGH such that the control means 22 provides a determination of "paper absent". - In other words, the control means 22 is constructed to perform a determination by reversing the output (information) from the photosensor 37 based on the result obtained by the
detection unit 11 of the paper type as to whether theroll paper 6a is of light transmitting nature or not. - In this connection, the
roll paper 6a is cut off at its trailing end by thepaper cutting unit 40 after the printing action to form a separate sheet of paper which is discharged to complete the printing operation. When the printing operation of a sheet of paper is finished, it is needed for performing the next printing action to rewind theroll paper 6a by a predetermined distance by the first motor 4 because the distance from the printing portion PP to the cutting portion CP is larger than the margin formed at the leading end of the paper at the time of an ordianry printing action. The amount of reverse feed of theroll paper 6a is sufficiently compensated for by feeding theroll paper 6a backwardly a constant amount if the leading end of theroll paper 6a is always positioned at the cutting portion CP. Actually, however, the position of the leading end of theroll paper 6a varies depending on situations so that the amount of reverse feed of theroll paper 6a is determined by the result of detection of the leading end of theroll paper 6a by means ofdetection unit 41 of the paper leading end. In other words, the control means 22 controls the amount of reverse feed for theroll paper 6a by driving thesecond motor 29 until thedetection unit 41 of the leading end of the paper detects the leading end of the roll paper after theroll paper 6a is cut off at its trailing end by thepaper cutting mechanism 40 such that position of the leading end of theroll paper 6a for the printing action is done at a position suitable for printing. - From the information about ink type stored in a nonvolatile memory in head control board 44, said CPU receives signals for recognizing ink type. By using the data of detected type and type of ink and/or paper, said CPU looks up data table written in ROM of said CPU board 26, thereby to set the procedure of the printing data and to set servo constant to determine the printing speed.
- In this way, the printing is done in accordance with the type of ink and paper.
- In this embodiment of the invention, since type of paper can be automatically detected upon mounting of said
paper roll 6 ontoroll holder flanges 6c, more various types of paper can be handled by increasing the number of sensors. Further, sinceflange abutting member 17 is retracted when exchangingpaper roll 6,flange abutting member 17 does not impede the exchange ofpaper roll 6. - Further, said
detection unit 11 of the paper type is capable of automatically detecting the paper type from the position of theflange abutting member 17 abutting againt saidflange 6c merely by attaching aflange 6c to thepaper roll 6, said flange having an outer diameter corresponding to the type of the roll paper 6a. Saiddetection unit 36 of the paper presence/absence is capable of automatically detecting the presence/absence of theroll paper 6a without contact. Saiddetection unit 41 of the paper leading end is capable of automatically detecting the leading end of theroll paper 6a subjected to printing to determine whether said leading end is properly positioned or not. Said control means 22 is capable of controlling the relevant portions such that a proper printing action onto the roll paper is assured on the basis of the detection result of therespective detection units photosensors 37, regardless of whether theroll paper 6a is of light transmitting nature or not. - The relationship between the detection result by said
respective detection units Detection Unit of Paper Type 11Detection Unit of Paper Presence/ Absence 36Detection Unit of Paper Leading End 41Control Means 22Paper: Present Transparent Light Reflection: Absent Paper: Present Printing Action: Suspended Paper: Present Transparent Light Transmission: Present Paper: Present Printing Action: Possible Paper: Present Opaque Light Reflection: Present Paper: Present Printing Action: Possible Paper: Present Opaque Light Transmission: Absent Paper: Present Printing Action: Suspended - Now, said
detection unit 11 of paper type is adapted to output a signal indicating "paper absent" when the.paper roll 6 is not loaded to the paperroll holding mechanism 8 while the control means 22 makes the printing action impossible. - Further, the
roll paper 6a is formed of a transparent sheet which is light transmitting, with the trailing end of saidtransparent sheet 12 being formed with alight reflecting portion 12a. Therefore, it is possible to effectively use the entire surface of theroll paper 6a even if the roll sheet formed of thetransparent sheet 12 of light transmitting nature is used. Moreover, thelight reflecting portion 12a of theroll paper 6a makes it possible for thephotosensors 37 in thedetection unit 36 of paper presence/absence to automatically detect the trailing end of theroll paper 6a. - The present invention is not limited to the above described embodiments but can be modified if necessary.
- As explained in the foregoing, the present invention is characterized in that the detection unit of paper type is capable of automatically detecting the paper type on the basis of the position of the flange abutting member which abuts against the flange merely if the flange having an outer diameter corresponding to the type of the roll paper is attached to the paper roll, that the detection unit of paper presence/absence is capable of automatically detect the presence/absence of the paper without contact thereto, that the detection unit of the paper leading end is capable of automatically detecting the paper leading end to determine whether said leading end is properly positioned, and that the control means is capable of controlling the relevant portions to perform the proper printing actions on the basis of the detection result of the respective detection units.
- Further, the roll paper used by the present invention makes it possble to effectively use the entire surface of the roll paper when the roll paper formed of the transparent sheet of light transmitting nature is used and to automatically detect the trailing end of the roll paper in the detection unit of paper presence/absence by means of the light reflecting portions of the roll paper.
Claims (3)
- A printing device (1) in which a paper roll (6) is supported in a paper roll holding mechanism by way of holders (6b) attached at the opposite ends of said paper roll (6), each holder (6b) being formed with a flange (6c), roll paper (6a) being payed out from said paper roll (6) such that printing is performed on said payed-out roll paper (6a) by means of a platen (3) and printing heads, said printed paper roll (6) being cut off by a paper cut mechanism (40),
said printing device (1) comprising a movable flange abutting member (17) adapted to be pressed against an outer periphery of said flange (6c) of the holder (6b) of the paper roll (6) held in said paper roll holding mechanism, said flange (6c) having an outer diameter set in correspondence with the type of said roll paper (6a); a detection unit (11) of paper type adapted to be subjected to positioning by said outer periphery of the flange (6c) for detecting said type of roll paper (6a); a detection unit (36) of paper presence/absence provided at a printing portion (PP) in facing relation to said platen (3) to detect the presence/absence of said roll paper (6a) without contact therewith; a detection unit (41) for detecting The leading edge of said roll paper (6a) arranged between said printing portion (PP) and a cutting portion (CP) to be subjected to a printing operation; and a control means (22) for controlling actions of the relevant portions on the basis of the detection result of each detection mechanism (11, 36, 41). - A printing device (1) according to Claim 1, wherein said detection unit (36) of paper presence/absence is composed of a photosensor (37), said control means (22) being constructed to determine the paper type by reversing information from the photosensor (37) on the basis of a detection result whether said roll paper is of a light transmitting nature or not.
- A printing device as claimed in Claim 1 or Claim 2, wherein said paper roll comprises a roll paper (6a) composed of a transparent sheet of light transmitting nature (12), in which a light reflecting portion is formed at the trailing end thereof.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP26830195A JP3405867B2 (en) | 1995-10-17 | 1995-10-17 | Recording device and roll paper |
JP268301/95 | 1995-10-17 | ||
JP26830195 | 1995-10-17 |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0769387A2 EP0769387A2 (en) | 1997-04-23 |
EP0769387A3 EP0769387A3 (en) | 1998-06-24 |
EP0769387B1 true EP0769387B1 (en) | 2001-07-25 |
Family
ID=17456634
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP19960307524 Expired - Lifetime EP0769387B1 (en) | 1995-10-17 | 1996-10-16 | Printing device with roll paper detection |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0769387B1 (en) |
JP (1) | JP3405867B2 (en) |
DE (1) | DE69614064T2 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE10158944B4 (en) * | 2001-12-03 | 2006-03-16 | Eastman Kodak Co. | Electrophotographic printing machine |
JP2005154148A (en) * | 2003-10-30 | 2005-06-16 | K D K Kk | Film sheet delivery means |
JP6311334B2 (en) * | 2014-02-03 | 2018-04-18 | セイコーエプソン株式会社 | Liquid ejection device and electromagnetic wave curable liquid curing method |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0729428B2 (en) * | 1985-12-24 | 1995-04-05 | セイコーエプソン株式会社 | Inkjet recording device |
JPS63237970A (en) * | 1987-03-26 | 1988-10-04 | Matsushita Electric Ind Co Ltd | Recorder and holder for rolled form recording paper |
JPH02175170A (en) * | 1988-12-27 | 1990-07-06 | Tokyo Electric Co Ltd | Paper-positioning method for printer |
EP0566259B1 (en) * | 1992-04-14 | 1997-10-15 | Tektronix, Inc. | Transparency sheet |
EP0750994B1 (en) * | 1995-06-27 | 2003-05-14 | Fuji Photo Film Co., Ltd. | Printing device |
-
1995
- 1995-10-17 JP JP26830195A patent/JP3405867B2/en not_active Expired - Fee Related
-
1996
- 1996-10-16 DE DE1996614064 patent/DE69614064T2/en not_active Expired - Lifetime
- 1996-10-16 EP EP19960307524 patent/EP0769387B1/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
EP0769387A3 (en) | 1998-06-24 |
JP3405867B2 (en) | 2003-05-12 |
DE69614064T2 (en) | 2002-03-21 |
DE69614064D1 (en) | 2001-08-30 |
EP0769387A2 (en) | 1997-04-23 |
JPH09109495A (en) | 1997-04-28 |
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