This application is the national phase under 35 U.S.C. § 371 of PCT International Application No. PCT/JP02/00917 which has an International filing date of Feb. 5, 2002, which designated the United States of America.
The present invention relates to a counting and feeding apparatus for counting small articles of solid medication such as tablets and capsules and food products of confectionary, supplements and so forth and feeding the small articles successively at a predetermined number into a container such as a packaging container or a packaging bag or to a packaging mechanism section.
A counting and feeding apparatus is conventionally known which feeds small articles of solid medication or food products subdivisionally in small numbers to packaging containers or packaging bags. For example, a counting, filling and packaging machine which counts and packages a predetermined number of medical tablets is proposed in the official gazette of Japanese Patent Laid-Open No. Sho 63-22301.
The counting and filling apparatus includes, as shown in
In particular, the tablets accommodated in each of the hoppers a successively drop onto a corresponding one of the supply feeders b and move at a predetermined speed to a corresponding one of the aligning feeders c by microvibration of the supply feeders b until they are accepted by and aligned in a row into an aligning groove (not shown) formed on the aligning feeder c. Thereafter, the tablets move at a predetermined speed in the aligning groove by microvibration of the aligning feeder c and drop one by one into a corresponding one of the temporary reservation chutes d so that they are reserved in the temporary reservation chute d. At this time, the tablets successively dropping from the aligning feeder c onto the temporary reservation chute d are detected and counted by a sensor k formed from light emitting and receiving elements attached to an upper end portion of the temporary reservation chute d. When the count number of the sensor k reaches a predetermined count number, the supply feeder b and the aligning feeder c are stopped, and a first shutter e provided for the temporary reservation chute d is opened. Consequently, the predetermined number of tablets reserved in each of the temporary reservation chutes d are collected into a rotary measure g through a collecting chute f and fed to the packaging mechanism section (not shown), by which subdivided packaging of them is performed.
If a number of tablets greater than the predetermined number is counted by the sensor k, then a second shutter h is opened in place of the first shutter e and tablets in the temporary reservation chutes d are discharged through a discharge chute j, whereafter the supply feeders b and the aligning feeders c are rendered operative to start counting of tablets again. Consequently, the predetermined number of tablets are collected with certainty from each of the temporary reservation chutes d into the rotary measure g.
In this manner, the counting, filling and packaging machine performs counting of tablets by means of each of four counting mechanism sections each including a hopper a, a supply feeder b, an aligning feeder c and a temporary reservation chute d and feeds a predetermined total number of tablets to the packaging mechanism section. Thus, since the counting mechanism sections can individually count predetermined numbers of different tablets, the counting, filling and packaging machine can package a plurality of different kinds of tablets by every predetermined different numbers into a package. Also it is possible for the counting mechanism sections to count tablets of the same type so that the counting, filling and packaging machine can count a single kind of tablets by a predetermined number.
However, the conventional counting, filling and packaging machine has a low processing capacity from a reason of its mechanism. For example, in such a case where a single kind of tablet is counted by several tens or more and filled into a container such as a bottle so that they are packed into the container, the conventional counting, filling and packaging machine exhibits a very low processing efficiency. In this manner, where a high processing capacity is required, the conventional counting, filling and packaging machine is not suitable for practical use.
In particular, in the counting, filling and packaging machine, when a predetermined number of tablets drop into a temporary reservation chute d, the corresponding supply feeder b and aligning feeder c are merely stopped to stop the feeding of tablets as described above. Therefore, after they are stopped, tablets are likely to drop from the aligning feeder c, resulting in overfeeding of tablets. Particularly where the feeding speed is raised, such overfeeding occurs frequently. Therefore, a high processing capacity cannot be achieved. Further, if overfeeding occurs, then the counting result is reset and the counting is performed again as described above. This also causes a drop in the processing capacity.
In this instance, it is a possible idea to increase the number of counting mechanism sections each including a hopper a, a supply feeder b, an aligning feeder c and a temporary reservation chute d to raise the processing capacity. However, this increases the apparatus scale significantly, and an increase in the number of counting mechanism sections raises the frequency of occurrence of overfeeding described above. Therefore, there is the possibility that the processing capacity may drop conversely.
Further, in the apparatus described above, since tablets are dropped by vibration from the aligning feeders c, the feeding speed of tablets is not always constant. Further, also the timing at which a predetermined number of tablets are fed into the rotary measure g finally is irregular depending upon the presence or the number of times of such re-counting as described above. Therefore, much complicated control is required for the starting/stopping of the supply feeders b and the aligning feeders c, the opening/closing operation of the first shutter e, the movement of the rotary measure g and other related movements. Further, since the timing at which tablets are fed into the rotary measure g is irregular, much complicated control is required to synchronize the packaging mechanism section (not shown) with the feeding timing of tablets and also the probability of the occurrence of failure in packaging is likely to rise.
A counting and filling apparatus shown in
In particular, as shown in
In the counting and filling apparatus, a predetermined number of tablets or capsules p (hereinafter referred to as “capsules”) counted by each of the counting sections a are reserved into the corresponding secondary reservation pipe c through the corresponding collecting funnel b. Then, the predetermined number of capsules p are fed alternately from the left and the right secondary reservation pipes into a bottle g through the communication member e and the chute f by the opening and closing operations of the shutters d. It is to be noted that the reference character h in
Each of the counting sections a which compose the counting and filling apparatus has a configuration such as shown in
The counting of capsules p by the counting section a is performed in the following manner. In particular, capsules p fed from a hopper (not shown) successively flow along the flow paths a6 of the capsule feeder a1 by microvibration and drop from the ends of the flow paths a6 into the primary reservation sections a3, a3 and the precise counting reservation section a4. Consequently, the capsules p are reserved in the primary reservation sections a3, a3 and the precise counting reservation section a4. At this time, the capsules p dropping from the flow paths a6 into the reservation sections a3, a3 and a4 are counted by the photoelectric sensor a2. At a point of time when a predetermined number of capsules p are reserved in each of the primary reservation sections a3, a3 and the precise counting reservation section a4, the primary reservation shutter (not shown) is opened and the predetermined numbers of capsules p are fed into the secondary reservation pipe c shown in
In this instance, in the counting sections a, the primary reservation sections a3, a3 perform counting of a major part of the predetermined number to be counted while the precise counting reservation section a4 performs counting of the remaining small number to perform a number adjustment to the predetermined number. In particular, the primary reservation sections a3, a3 perform counting for totaling 14 flow paths a6 from among the 15 flow paths a6, each for seven rows on the left or right and reserves the counted numbers of the capsules p. Meanwhile, the precise counting reservation section a4 performs counting only for the central one of the 15 flow paths a6 and reserves the counted number of the capsules p. For example, in order to count 100 capsules p, the primary reservation sections a3, a3 first count a number of capsules p around 80 (the number varies every time) and feed the approximately 80 capsules p to the secondary reservation pipes c. Then, the remaining number of capsules p around 20 is counted accurately by the precise counting reservation section a4, and the capsules p are fed to the secondary reservation pipes c so that 100 capsules p may be reserved into the secondary reservation pipes c. It is to be noted that, also while the precise counting is performed by the precise counting reservation section a4, the primary reservation sections a3, a3 perform counting of approximately 80 capsules p for the next cycle.
The counting and filling apparatus shown in
Further, a scraper a7 is attached to the capsule feeder a1 in an opposing relationship to the capsule flow paths a6 as shown in
Furthermore, since interception, transportation, feeding and so forth of capsules are controlled by opening and closing operations of the shutter, there is the possibility that a capsule may be broken by the movement of the shutter.
The present invention has been made in view of the circumstances described above, and it is an object of the present invention to provide a counting and feeding apparatus for small articles which can count and feed small articles such as tablets, even when the small articles are packaged in a unit of several tens of pieces into a bottle or a like container and can package the small articles with certainty a comparatively simple mechanism while eliminating a mixture of packages having contents with a wrong number of small articles.
In order to attain the object described above, according to the present invention, there is provided a counting and feeding apparatus for counting small articles such as solid medication or food articles and feeding the small articles successively by a predetermined number into a container such as a packaging container or a packaging bag or to a packaging mechanism section, characterized in that it includes a transport drum for suckingly holding the small articles on an outer peripheral surface thereof and rotating at a predetermined speed to transport the small articles, feeding means for feeding the small articles to the outer peripheral surface of the transport drum, and temporary reservation means for accepting and reserving the small articles from the transport drum and feeding the small articles to the container or packaging mechanism section, and that the feeding means feeds the small articles intermittently and successively by a plural number onto the outer peripheral surface of the transport drum so that the small articles are suckingly held on the outer peripheral surface of the transport drum such that a plurality of rows of the small articles aligned along a circumferential direction of the drum are formed on the outer peripheral surface of the transport drum and then the small articles are transported by rotation the transport drum, whereafter one of the small articles is thrown from each of the rows of the small articles into the temporary reservation means at a predetermined transport position, the series of operations being repeated to count the small articles successively in a unit of the number of rows of the small articles until a predetermined number of small articles are reserved by the temporary reservation means, the reserved small articles being fed into the container or packaging mechanism section.
In particular, according to the counting and feeding apparatus of the present invention, small articles such as solid medication, for example tablets and capsules or food products are suckingly held on the outer peripheral surface of the transport drum such that a plurality of rows of the small articles aligned along a circumferential direction of the drum are formed on the outer peripheral surface of the transport drum and then the small articles are transported by rotation the transport drum. Thereafter, one of the small articles is thrown from each of the rows of the small articles into the temporary reservation means at a predetermined transport position to count the small articles in a unit of the number of rows of the small articles suckingly held on the outer peripheral surface of the transport drum. Then, at a point of time when a predetermined number of small articles is counted, the reserved small articles are fed into a container of a suitable type or a packaging mechanism section from the temporary reservation means.
In this manner, with the counting and feeding apparatus of the present invention, the small articles suckingly held on the outer peripheral surface of the transport drum can be counted in a unit of the number of rows thereof. For example, tablets can be aligned along the circumferential direction on the outer peripheral surface of the transport drum, and ten such tablet rows can be formed to count the tablets in a unit of ten tablets. Even in a case wherein tablets are counted in a unit of several tens and then filled and packaged into a bottle or a like container, they can be counted and fed very efficiently. Further, from the transport drum on which the tablets are suckingly held at equal distances in an aligned state, the tablets are thrown into the temporary reservation means with certainty ten by ten at a fixed speed. Therefore, by feeding the tablets from the temporary reservation means into a container of a suitable type or the packaging mechanism section at a fixed timing, a predetermined number of tablets can be fed with certainty without particularly requiring a complicated counting operation or control. Further, since the tablets are fed at a fixed timing from the temporary reservation means, also the transporting mechanism for containers or the packaging mechanism section may be operated at a fixed speed in accordance with the feeding timing, and no complicated control is required.
As in an embodiment hereinafter described, the counting and feeding apparatus of the present invention may be configured such that a sensor for detecting a small article thrown into the temporary reservation means from each of the rows of the small articles suckingly held on the outer peripheral surface of the transport drum is disposed between the transport drum and the temporary reservation means to inspect a defective count (insufficient feeding).
In this instance, if a number of small articles corresponding to the number of rows of the small articles are not detected and insufficient feeding is detected, then the insufficient small article set may be collected through a separate path from the temporary reservation means without feeding the same from the temporary reservation means to a container or a packaging mechanism section. Preferably, however, also this insufficient small article set is fed in a normal manner to a container or a packaging mechanism section and filled or packed into the container, whereafter it is collected separately from normal products. In particular, where an insufficient product is collected after filling or packaging in this manner, the feeding timing from the temporary reservation means is normally fixed, and also the transporting mechanism for containers or the packaging mechanism section may be operated at a fixed speed. Thus, appearance of a product which contains an insufficient number of small articles can be prevented with certainty without requiring complicated control.
Furthermore, in the counting and feeding apparatus of the present invention, since the small articles are suckingly held on the outer peripheral surface of the transport drum and transported in a stable posture, it is possible to provide one or both of image pickup means for picking up an image of the small articles suckingly held on the outer peripheral surface of the transport drum and a thickness sensor and detect an abnormal appearance of any of the small articles or the thickness of the small articles from the image or thickness data. Consequently, mixture of an article of a different type or mixture of a defective article such as a cracked, broken or some other deformed article or an article to which a foreign article sticks can be prevented. It is to be noted that exclusion of such defective articles may be performed in a similar manner to the removal of products which contain an insufficient number of small articles.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings, which are given by way of illustration only, and thus are not limitative of the present invention, and wherein:
In the following, the present invention is described more particularly with reference to an embodiment of a counting and feeding apparatus of the present invention.
As shown in
The fixed amount feeder 21 which composes the tablet feeding section 2 includes, as shown in
The aligning feeder 22 which composes the tablet feeding section 2 includes a vibration feeder 23 which in turn includes a circular vibration disk 231 and a vibrator 232 for applying microvibration to the vibration disk 231.
The vibration disk 231 which composes the vibration feeder 23 has an outer circumferential wall 231a provided uprightly along an outer circumferential edge thereof as shown in
Eight aligning grooves 234 are provided in a juxtaposed relationship with each other along a circumferential direction at part of the tablet transport section 233 as shown in
As shown in
The vibration disk 231 is mounted on the vibrator 232 as shown in
Each of the tablet feeding paths 237 provided in the tablet chute 236 of the vibration feeder 23 is connected at an open end thereof to a communication member 24 as shown in
As shown in
As shown in
Referring to
The inner tube 11 has a through-groove 111 formed along a circumferential direction at a substantially half circumference portion thereof which coincides substantially with a transport region of the tablets t. Meanwhile, as shown in
The inside of the inner tube 11 is normally held in a decompressed state by a sucking action. Thus, in the transport region of the tablets t, the sucking action acts in the insides of the suction grooves 121 from the suction holes 122 of the outer tube 12 through the through-groove 111 to suckingly hold the tablets t on the suction grooves 121 in the outer peripheral surface of the outer tube 12 such that the tablets t extend between the rubber rings 123 during transportation of the tablets t. Compressed air jetting nozzles 13 are disposed at a lowermost portion in the inside of the inner tube 11 as shown in
As shown in
Referring now to
The rotary member 32 which composes the temporary reservoir 3 includes four partition blades 321 provided at positions thereof displaced by 90 degrees from each other as shown in
A bottle transporting mechanism section for transporting bottles k into which tablets t should be filled is provided below the temporary reservoir 3.
Referring to
The transport conveyor belt 41a and the defective article transport conveyor belt 41b are provided in a closely juxtaposed relationship with each other and are circulated at a predetermined speed in the same direction (in the rightward direction in
The bottle feeding table 42 is disposed in the proximity of the transport conveyor belt 41a at an upstream portion of the transport conveyor belt 41a and rotates at a predetermined speed in the clockwise direction in
The bottle collection table 43 is provided in the proximity of the transport conveyor belt 41a at a downstream portion of the transport conveyor belt 41a and rotates at a predetermined speed in the clockwise direction in
The counting and feeding apparatus counts tablets t thrown in the hopper h successively by a predetermined number and feeds the predetermined number of tablets t into the plastic bottle k. Now, the operation of the counting and feeding apparatus is described.
Tablets t thrown in the hopper h (refer to
The tablets t thrown in the tablet transport section 233 on the vibration disk 231 are revolved in the clockwise direction to move toward the outer side as shown in
In particular, the vibration disk 231 microvibrates in such a manner that it revolves by a small amount as described hereinabove, and the tablets t are revolved to move slowly to the outer side by the vibration until they advance into the aligning grooves 234. Then, as shown in
The tablets t having advanced into the communication paths 241 of the communication member 24 move to the tip end side of the communication member 24 by the inclination of the communication member 24 and the vibration by the vibrator 242 until they contact with and are stopped once by the projections 251 of the feed roller 25 as shown in
The tablets t fed to the outer peripheral surface of the transport drum 1 are suckingly held on the suction grooves 121 formed on the outer tube 12 of the transport drum 1 each in a state extending between adjacent ones of the rubber rings 123 by a sucking action through the suction holes 122. In this state, the tablets t are transported by rotation of the outer tube 12 as shown in
An image of the tablets t suckingly held and transported by the outer peripheral surface of the transport drum 1 in a state aligned in the circumferential direction and the axial direction is picked up by the image pickup apparatus 14 (refer to
After the appearance and thickness inspections, the tablets t are further transported by rotation of the transport drum 1. Then, as shown in
The eight tablets t thrown in the temporary reservoir 3 pass through the tablet paths 331 of the gate member 33 for the individual rows and are thrown into the tablet accommodating sections 322 partitioned by the partition blades 321 of the rotary member 32 as shown in
Then, the operation described is repeated by a predetermined number of times set in advance so that the tablets t are counted by the predetermined number of times for each number of rows of the tablets t held on the outer peripheral surface of the transport drum 1. For example, if it is set to repeat the operation described above by ten times, then eight tablets t are successively thrown into the tablet accommodating sections 322 of the temporary reservoir 3 by ten times. Consequently, totaling 8×10 tablets t, that is, 80 tablets t, are counted.
After the counting of the predetermined number of tablets t is performed, that is, after the operation described above is repeated by the predetermined number of times, the rotary member 32 of the temporary reservoir 3 is rotated by 90 degrees. Then, in this state, a similar operation to that described above is repeated, and eight tablets t are successively thrown into a next one of the tablet accommodating sections 322 until the predetermined number of tablets t is counted.
Then, the predetermined number of tablets t reserved in the tablet accommodating section 322 of the temporary reservoir 3 are thrown into the plastic bottle k disposed below the feeding chute 34 from an outlet opening provided in the lower wall of the temporary reservoir 3 through the feeding chute 34 when the temporary reservoir 3 is rotated by 180 degrees from the counting position as shown in
Here, empty plastic bottles k are successively fed to a position just below the feeding chute 34 by the bottle transporting mechanism section described hereinabove. In particular, as shown in
In the present apparatus, if a tablet-filled bottle which includes a tablet of a different type or a defective tablet or contains a wrong number of tablets (insufficient number of tablets) is produced, then this is collected separately. In particular, if a tablet of an abnormal appearance is detected by the inspection by the image pickup apparatus or passage of a tablet t is not detected even once by any of the sensors 332 provided on the gate member 33 of the temporary reservoir 3, then there is the possibility that the pertaining tablet set accommodated in the tablet accommodating section 322 may include a tablet of a different type, a defective tablet suffering from a crack or break or contain an insufficient number of tablets. Therefore, when a defective bottle k′ into which the tablet set has been thrown is transported, the defective article discharging door 414 is temporarily opened as indicated by an alternate long and short dash line in
In this manner, according to the inventive counting and feeding apparatus of the present embodiment, small articles such as tablets or capsules are suckingly held on the outer peripheral surface of the transport drum such that a plurality of rows of the small articles aligned along a circumferential direction of the transport drum are formed on the outer peripheral surface of the transport drum and then the small articles are transported by rotation the transport drum. Thereafter, one of the small articles is thrown from each of the rows of the small articles into the temporary reservation means at a predetermined transport position to count the small articles in a unit of the number of rows of the small articles suckingly held on the outer peripheral surface of the transport drum. Then, at a point of time when the predetermined number of small articles is counted, the small articles are fed into a container of a suitable type or a packaging mechanism section from the temporary reservation means.
With the counting and feeding apparatus of the present embodiment, tablets t suckingly held on the outer peripheral surface of the transport drum 1 can be counted in a unit of the number of rows thereof. In particular, in the present embodiment, the tablets t can be aligned along the circumferential direction on the outer peripheral surface of the transport drum 1, and eight such tablet rows can be formed to count the tablets t in a unit of eight tablets. For example, even in a case wherein up to 80 tablets t are counted and then filled and packaged into a plastic bottle k, they can be counted and fed efficiently. Further, from the transport drum 1 on which the tablets t are suckingly held at equal distances in an aligned state, the tablets are thrown into the temporary reservoir 3 with certainty eight by eight at a fixed speed. Therefore, by a comparatively simple operation only of feeding the tablets t from the temporary reservoir 3 into a bottle k at a fixed timing, a predetermined number of tablets can be fed with certainty without particularly requiring a complicated counting operation or control. Further, since a predetermined number of tablets t are fed at a fixed timing from the temporary reservoir 3, also the transporting mechanism for bottles k may be operated at a fixed speed in accordance with the feeding timing, and no complicated control is required.
Further, in the counting and feeding apparatus of the present embodiment, a sensor for detecting a tablet t to be thrown into the temporary reservoir 3 from each row of the tablets t suckingly held on the outer peripheral surface of the transport drum 1 is disposed between the transport drum 1 and the temporary reservation means to inspect a defective count (insufficient feeding). In this instance, even when a number of tablets t corresponding to the number of rows of the tablets t are not detected and insufficient feeding is detected, also this insufficient tablet set is fed in a normal manner to a plastic bottle k and filled or packed into the bottle k, whereafter it is collected separately from normal products. Therefore, also when an insufficient count is detected, the feeding timing from the temporary reservoir 3 is normally fixed, and also the bottle transporting mechanism may be operated at a fixed speed. Thus, appearance of a product containing an insufficient number of tablets can be prevented with certainty without requiring complicated control.
Furthermore, in the counting and feeding apparatus of the present embodiment, since the tablets t are suckingly held on the outer peripheral surface of the transport drum 1 and transported in a stable posture, an image of the tablets t suckingly held on the outer peripheral surface of the transport drum 1 can be picked up by the image pickup apparatus. Thus, an abnormal appearance of a tablet t can be detected from the thus picked up image. Further, the thickness of the tablets t can be measured. Consequently, mixture of a tablet of a different type or mixture of a defective tablet such as a cracked, broken or some other deformed tablet or a tablet to which a foreign article sticks can be prevented.
It is to be noted that the counting and feeding apparatus of the present invention is not limited to the embodiment described above but can be modified in various manners. For example, while the transport drum 1 in the embodiment described above has eight suction grooves to form eight tablet rows, the number of tablet rows to be formed on the transport drum 1 may otherwise be less than 8 or 9 or more. For example, ten tablet rows may be formed so that the tablets may be counted in a unit of ten tablets. Further, if it is intended to change the count value, then the change can be performed in a unit of the number of rows of the transport drum 1 (in the example described above, in a unit of eight rows) by adjusting the number of times by which tablets are thrown into the temporary reservoir 3. However, it is otherwise possible to replace the transport drum 1 with another transport drum which forms a different number of rows. Also it is possible to block a number of tablet feeding paths to the transport drum 1 equal to an arbitrary number of rows by suitable means to adjust the number of rows of tablets t to be formed on the transport drum 1.
Further, the configuration of the transport drum 1, tablet feeding section 2, temporary reservoir 3 and so forth can be modified suitably. For example, the transport drum 1 described above is not limited to that of the type wherein the tablets t are suckingly held on the suction grooves 121, but may be of a different type wherein the tablets t are held in holding pockets formed in an aligned relationship on an outer peripheral surface of the drum. Thus, any transport drum may be used only if the drum holds tablets on an outer circumference thereof and transports the tables. Further, while the embodiment described above is formed as an apparatus which counts and feeds tablets into a plastic bottle k, it may otherwise be formed as an apparatus which, for example, feeds counted tablets t to a packaging mechanism section (packaging apparatus) which performs subdivided packaging such as bagging of counted tablets t. Also the object of counting and feeding is not limited to tablets described above, but the counting and feeding apparatus may otherwise be configured as an apparatus for counting and feeding some other solid medication such as capsules, food products such as supplement or confectionary or other small articles.
Furthermore, the components of the counting and feeding apparatus of the embodiment described above from the tablet feeding section 2 to the transport drum 1 can be suitably used as a feeding apparatus for feeding small articles such as tablets and capsules into pockets of a plastic sheet for PTP packaging in order to PTP package the small articles.
In particular, a sheet transporting section for transporting a plastic sheet x for PTP packaging is provided below the transport drum 1 in place of the temporary reservoir 3 as shown in
In this instance, since the transport drum 1 suckingly holds the tablets t in a state wherein they project from the outer peripheral surface of the drum, a tablet t to be thrown into each accommodating recess y of the plastic sheet x from the transport drum 1 is placed into a state wherein it is inserted in the accommodating recess y while it remains in the state suckingly held on the outer peripheral surface of the transport drum 1 as shown in
As described above, according to the counting and feeding apparatus for small articles of the present invention, even where small articles such as tablets are packaged in a unit of several tens articles into a bottle or a like container, they can be counted and fed very efficiently and accurately. Besides, the small articles can be packaged with certainty using a comparatively simple mechanism, and mixture of a package containing a wrong number of small articles can be prevented to the utmost.
Number | Date | Country | Kind |
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2001-028506 | Feb 2001 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP02/00917 | 2/5/2002 | WO | 00 | 8/26/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/063554 | 8/15/2002 | WO | A |
Number | Name | Date | Kind |
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4063633 | Hall | Dec 1977 | A |
Number | Date | Country |
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63-22301 | Jan 1988 | JP |
6-329238 | Nov 1994 | JP |
11-96329 | Apr 1999 | JP |
11096329 | Apr 1999 | JP |
11-301601 | Nov 1999 | JP |
11301601 | Nov 1999 | JP |
2000-247433 | Sep 2000 | JP |
Number | Date | Country | |
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20040112909 A1 | Jun 2004 | US |