| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 流体制品分配器 | CN200480017440.2 | 2004-05-14 | CN1809396A | 2006-07-26 | F·普拉尔 |
| 本发明涉及流体制品分配器,其具有一主体(1)、一流体制品容器(2)、一安装在所述容器(2)上的分配机构例如一泵或一阀、以及一用于指示从所述容器分配的或有待分配的剂量数量的剂量指示装置,其特征在于,所述剂量指示装置具有一第一安全系统,其用于即使分配器未完成整个动作行程,也使剂量指示装置从分配器的预定的部分动作行程开始进行动作。 | ||||||
| 2 | 单向计数机构 | CN01822584.5 | 2001-11-28 | CN1237480C | 2006-01-18 | E·布尔吉 |
| 本发明涉及一种单向计数器,其包括有一传动的蜗轮(1)和至少一个由蜗轮(1)的转动所驱动的数字指示器(3)。该蜗轮(1)经第一棘轮掣爪系统(6,7a,b)与第一系统齿轮(8)连接。所述的第一棘轮掣爪系统(6,7a,b)包括至少一对掣爪(7a,b),而该两个连接的掣爪(7a,b)一前一后排列地工作。此外,蜗轮(1)驱动一个反向齿轮(10),而该反向齿轮(10)经第二棘轮掣爪系统(12,13a,b)与第二系统齿轮(14)连接。所述的第二棘轮掣爪系统(12,13a,b)包括第二对掣爪(13a,b),而该两个连接的掣爪(13a,b)一前一后排列地工作。本发明即使在转向改变时仍可以达到尽可能精确累计以及显示所用能量单位,由此第一和第二棘轮掣爪系统(6,7a,b,12,13a,b)的每一系统上的一掣爪(7a,b,13a,b)处于啮合位置,指向棘轮齿(6,12),或者直接与棘轮齿(6,12)接触。 | ||||||
| 3 | 流体制品分配器 | CN200480017440.2 | 2004-05-14 | CN100592925C | 2010-03-03 | F·普拉尔 |
| 本发明涉及流体制品分配器,其具有一主体(1)、一流体制品容器(2)、一安装在所述容器(2)上的分配机构例如一泵或一阀、以及一用于指示从所述容器分配,的或有待分配的剂量数量的剂量指示装置,其特征在于,所述剂量指示装置具有一第一安全系统,其用于即使分配器未完成整个动作行程,也使剂量指示装置从分配器的预定的部分动作行程开始进行动作。 | ||||||
| 4 | 仪表开启检测装置 | CN99104942.X | 1999-04-06 | CN1161722C | 2004-08-11 | 让-路易斯·吉隆 |
| 一种仪表开启检测装置,仪表包括第一和第二结构元件,当仪表关闭时,它们彼此相对处于一个给定位置,该装置的特征在于:一个移动件,设置成随着所述结构件之一相对于所述结构件之另一个的位移而处于一稳态或一非稳态;保持构件,保持所述移动件处于其非稳态以及能够使之变到稳态;检测构件,能确定移动件的状态,并且当移动件处于一预定状态时发出一打开信号。 | ||||||
| 5 | 单向计数机构 | CN01822584.5 | 2001-11-28 | CN1489749A | 2004-04-14 | E·布尔吉 |
| 本发明涉及一种单向计数器,其包括有一传动的蜗轮(1)和至少一个由蜗轮(1)的转动所驱动的数字指示器(3)。该蜗轮(1)经第一棘轮掣爪系统(6,7a,b)与第一系统齿轮(8)连接。所述的第一棘轮掣爪系统(6,7a,b)包括至少一对掣爪(7a,b),而该两个连接的掣爪(7a,b)一前一后排列地工作。此外,蜗轮(1)驱动一个反向齿轮(10),而该反向齿轮(10)经第二棘轮掣爪系统(12,13a,b)与第二系统齿轮(14)连接。所述的第二棘轮掣爪系统(12,13a,b)包括第二对掣爪(13a,b),而该两个连接的掣爪(13a,b)一前一后排列地工作。本发明即使在转向改变时仍可以达到尽可能精确累计以及显示所用能量单位,由此第一和第二棘轮掣爪系统(6,7a,b,12,13a,b)的每一系统上的一掣爪(7a,b,13a,b)处于啮合位置,指向棘轮齿(6,12),或者直接与棘轮齿(6,12)接触。 | ||||||
| 6 | 仪表开启检测装置 | CN99104942.X | 1999-04-06 | CN1236103A | 1999-11-24 | 让-路易斯·吉隆 |
| 一种仪表开启检测装置,仪表包括第一和第二结构元件,当仪表关闭时,它们彼此相对处于一个给定位置,该装置的特征在于:一个移动件,设置成随着所述结构件之一相对于所述结构件之另一个的位移而处于一稳态或一非稳态;保持构件,保持所述移动件处于其非稳态以及能够使之变到稳态;检测构件,能确定移动件的状态,并且当移动件处于一预定状态时发出一打开信号。 | ||||||
| 7 | 计数器 | CN93119805.4 | 1993-10-29 | CN1096122A | 1994-12-07 | 塚越繁 |
| 本发明系关于用电磁力作驱动源,根据电流的通断、线圈中产生或消失磁力而驱动数字齿轮的计数器,特别是关于以线圈可相对于框架自由拆装为特征的计数器。 | ||||||
| 8 | 자성잉크 유무를 검출하는 지폐 계수장치 | KR1020070033551 | 2007-04-05 | KR100857880B1 | 2008-09-10 | 이경운 |
| A bank note counting apparatus detecting whether there exists magnetic ink is provided to maximize magnetization of magnetic ink of the bank note while minimizing a noise occurring at a magnetic sensor. A bank note counting apparatus includes a bank note transfer roller unit, a sensor unit and a controller(300). The bank note transfer roller unit is composed of a supply roller, a feeding roller and a take-out roller. The supply roller supplies bank notes, supplied from a bank note input opening, for the feeding roller one by one. The feeding roller feeds the bank note. The take-out roller takes out the bank note supplied by the supply roller and the feeding roller. The sensor unit includes a magnetic unit and magnetic sensors. The magnetic unit magnetizes magnetic ink printed on the bank note which has passed through the bank note input opening. The magnetic sensors senses the bank note magnetized by the magnetic unit. The magnetic unit includes magnets which are divided into plural ones and then adhered to one another. The controller makes a bank note side magnet discharge a stronger magnetic force and a magnetic sensor side magnet discharge a weaker magnetic force such that the magnetization of the magnetic ink is maximized while the noise at the magnetic sensor is being minimized. A first color sensor(220) is installed at a guide plate to sense color information on one side of the bank note. | ||||||
| 9 | 계수기 | KR1020000050895 | 2000-08-30 | KR1020020017518A | 2002-03-07 | 정진구 |
| PURPOSE: A counter is provided to count the number of goods, specially to prevent malfunction, to elongate a life span, to simplify the structure, to reduce manufacturing processes, and to reduce a manufacturing cost. CONSTITUTION: The apparatus comprises a display(2), a micro-computer(1), an up counting module(3), a down counting module(4), a reset key(5), an external signal counting key(6), and a limit switch(60). The up counting module(3), the down counting module(4), and the reset key(5) are installed at the micro-computer(1). The external signal counting key(6), installed in parallel with the up counting module(3), includes various input devices. The external signal counting key(6) is detachable to a main body by forming a connector hole(61) at the main body, and includes a jack(62) at one end for being inserted into the connector hole(61). In the case of an up counting process, the goods touch the up counting module(3), and the touch number is displayed on the display(2), and in the case of a down counting process, the goods touch the down counting module(4), and the touch number is displayed on the display(2). In the case of counting the number of repeated actuation in a machinery, the jack(62) gets inserted into the connector hole(61), and the limit switch(60) gets installed at a proper position of the machinery. According to the repeated actuation of the machinery, the limit switch(60) transmits signals to the micro-computer(1) and the micro-computer(1) displays the counting number on the display(2). | ||||||
| 10 | A COUNTER AND A RECORDER FOR A PILL DISPENSER | EP07787129.1 | 2007-07-05 | EP2037861A2 | 2009-03-25 | ANDERSON, Gregor, John, McLennan; COLLINS, James, Terence; PEARSON, Allen, John |
| A counter (or recorder) for a pill dispenser (24), the counter (or recorder) comprising two relatively moveable chassis components (50, 52) forming part of a pill dispensement mechanism (21), a pill delivery or dispensement channel (32) for a pill or tablet (28) to pass through for dispensement and a counting (or recording) mechanism. The counting (or recording) mechanism comprises one or more actuation indicators (11), a ratchet pawl (14) for incrementally advancing a first (12) of the one or more actuation indicators (11) and a drive mechanism (16) for activating the ratchet pawl (14). The ratchet pawl (14) is mounted to a first of the two chassis components (50, 52). The drive mechanism (16) is mounted to the second of the two chassis components (50, 52). By this arrangement, by moving the two chassis components (50, 52) relative to each other, the drive mechanism (16) is moved relative to the ratchet pawl (14) and the pill dispensement mechanism (21) is actuated. The drive mechanism (16) is connected to a pill detect feature (18) that can move between a positive dispensement position and a negative dispensement position if the channel (32) is clear, the negative dispensement position being such that at least a part of the pill detect feature (18) is positioned within or blocking the pill delivery or dispensement channel (32), whereby the non-presence of a pill (28) within the channel (32) for dispensement, and therefore a failed dispensement, is confirmed. The movement from the positive dispensement position to the negative dispensement position prevents the drive mechanism (16) from activating the ratchet pawl (14) as the drive mechanism (16) moves relative to the ratchet pawl (16). | ||||||
| 11 | UNIDIREKTIONALES ZÄHLWERK | EP01983748.3 | 2001-11-28 | EP1346317B1 | 2008-10-08 | BÜRGI, Ernst |
| The invention relates to a unidirectional counter comprising a driven worm gear (1) and a least one numerical display (3), driven by the rotation of the worm gear (1). The worm gear (1) is connected to a first system gear (8) by means of a first ratchet-pawl system (6, 7a, b). Said first ratchet-pawl system (6, 7a, b) comprises at least a first pair of pawls (7a, b) with two connected pawls (7a, b) working in tandem. Furthermore a reverse gear (10) may be driven by the worm gear (1), which is connected to a second system gear (14) by means of a second ratchet-pawl system (12, 13a, b). Said second ratchet-pawl system (12, 13a, b) comprises a second pair of pawls (13a, b) with two connected pawls (13a, b) working in tandem. According to the invention, an exact as possible totalisation and display of used energy units even on a change in direction may be achieved, whereby at least one pawl (7a, b, 13a, b) on each of the first and second ratchet-pawl systems (6, 7a, b; 12, 13a, b) are in the engaged position, pointing towards a ratchet tooth (6, 12), or are in direct contact with a ratchet tooth (6, 12). | ||||||
| 12 | COUNTER FOR USE WITH A MEDICAMENT DISPENSER | EP05708349.5 | 2005-02-15 | EP1730676A2 | 2006-12-13 | AUGUSTYN, Stephen Edward; HARVEY, S. J.; c/o GlaxoSmithKline |
| There is provided a dose counter (1) for use with a medicament dispenser. The dose counter comprises a first count wheel (20) arranged to rotate about a first axis of rotation, the first count wheel including a set of primary drive teeth (24) arranged annularly thereon for drivable rotation of the first count wheel about the first axis of rotation; a second count wheel (30) arranged to rotate about the first axis of rotation, the second count wheel including a set of secondary drive teeth (34) arranged annularly thereon; and a kick wheel (40) arranged to rotate about a second axis of rotation offset from the first axis of rotation, the kick wheel including a set of kick teeth (44) arranged annularly thereon and in meshed relationship with the set of secondary drive teeth of the second count wheel such that rotary motion of the kick wheel results in rotary motion of the second count wheel. The first count wheel further includes a fixed index tooth (28) arranged for intermittent meshing with the kick teeth of the kick wheel such that rotary motion of the kick wheel results from rotary motion of the first count wheel only when the intermittent meshing occurs. | ||||||
| 13 | Flexible microsurgical instrument with rotatable clevis | EP03006447.1 | 1995-01-04 | EP1325709A1 | 2003-07-09 | Palmer, Matthew A. |
The instrument includes a flexible coil (14), a flexible pull wire (16) extending through the coil (14), a clevis (40) which is rotatably coupled to the distal end of the coil (14), a handle (12) coupled to the proximal end of the coil (14), and end effectors (18) coupled to the clevis (40) and the pull wire (16). The clevis (40) is coupled to the distal end of the flexible coil (14) by a bushing (60) which allows axial rotation of the clevis (40) relative to the coil (14). The pull wire (16) is formed from torsionally obdurate material and is coupled at its distal end to the end effector (18) and at its proximal end to a movable part of the handle (12). The handle (12) is provided with mechanism for rotating the pull wire (16) relative to the coil (14) and a mechanism for translating the pull wire (16) relative to the coil (14). Translation of the pull wire (16) relative to the coil (14) moves the end effector (18) relative to the clevis (40) and rotation of the pull wire (16) relative to the coil (14) rotates the clevis (40) and end effector (18) relative to the coil (14). |
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| 14 | Elektromechanisches Zählwerk | EP90117021.7 | 1990-09-05 | EP0418645B1 | 1997-03-19 | Banholzer, Kurt; Kübler, Fritz |
| 15 | FLEXIBLE MICROSURGICAL INSTRUMENT WITH ROTATABLE CLEVIS | EP95906153.0 | 1995-01-04 | EP0746242A1 | 1996-12-11 | PALMER, Matthew, A. |
| The instrument includes a flexible coil (14), a flexible pull wire (16) extending through the coil (14), a clevis (40) which is rotatably coupled to the distal end of the coil (14), a handle (12) coupled to the proximal end of the coil (14), and end effectors (18) coupled to the clevis (40) and the pull wire (16). The clevis (40) is coupled to the distal end of the flexible coil (14) by a bushing (60) which allows axial rotation of the clevis (40) relative to the coil (14). The pull wire (16) is formed from torsionally obdurate material and is coupled at its distal end to the end effector (18) and at its proximal end to a movable part of the handle (12). The handle (12) is provided with mechanism for rotating the pull wire (16) relative to the coil (14) and a mechanism for translating the pull wire (16) relative to the coil (14). Translation of the pull wire (16) relative to the coil (14) moves the end effector (18) relative to the clevis (40) and rotation of the pull wire (16) relative to the coil (14) rotates the clevis (40) and end effector (18) relative to the coil (14). | ||||||
| 16 | Verfahren zur Prüfung von Zählern, insbesondere von Elektrizitäts-, Gas- und Wasser-zählern sowie Vorrichtung zur Durchführung des Verfahrens | EP90101281.5 | 1990-01-23 | EP0380046B1 | 1996-01-17 | Woelki, Peter Dipl. Ing. |
| 17 | Verfahren zur Prüfung von Zählern, insbesondere von Elektrizitäts-, Gas- und Wasser-zählern sowie Vorrichtung zur Durchführung des Verfahrens | EP90101281.5 | 1990-01-23 | EP0380046A3 | 1992-01-02 | Woelki, Peter Dipl. Ing. |
Ein Verfahren zur Prüfung von Zählern mit mechanischen Zählwerken, insbesondere zur Prüfung von Elektrizitäts-, Gas- und Wasserzählern. Der Zähler besitzt ein rotierendes Element mit längs seines Umfangs periodisch wechselndem optischen Reflexionsvermögen oder wechselnder optischer Durchlässigkeit. Auf das rotierende Element wird ein Lichtbündel (LE) gerichtet und das reflektierte oder das durchgelassene Lichtbündel (LR) wird im Hinblick auf Periodizität der Lichtintensität analysiert. Aus der ermittelten Periode wird die Rotationsgeschwindigkeit des rotierenden Elementes ermittelt. Zur Erhöhung der Genauigkeit und des Auflösungsvermögens des Verfahrens wird ein aus kohärentem Licht bestehendes Lichtbündel (LE) verwendet, das beispielsweise von einer Laser-Halbleiterdiode (2) erzeugt sein kann. Das reflektierte Lichtbündel LR) wird über einen Fotoempfänger (5) empfangen und einer Auswertevorrichtung (6-7-8) zugeführt. |
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| 18 | Verfahren zur Prüfung von Zählern, insbesondere von Elektrizitäts-, Gas- und Wasser-zählern sowie Vorrichtung zur Durchführung des Verfahrens | EP90101281.5 | 1990-01-23 | EP0380046A2 | 1990-08-01 | Woelki, Peter Dipl. Ing. |
Ein Verfahren zur Prüfung von Zählern mit mechanischen Zählwerken, insbesondere zur Prüfung von Elektrizitäts-, Gas- und Wasserzählern. Der Zähler besitzt ein rotierendes Element mit längs seines Umfangs periodisch wechselndem optischen Reflexionsvermögen oder wechselnder optischer Durchlässigkeit. Auf das rotierende Element wird ein Lichtbündel (LE) gerichtet und das reflektierte oder das durchgelassene Lichtbündel (LR) wird im Hinblick auf Periodizität der Lichtintensität analysiert. Aus der ermittelten Periode wird die Rotationsgeschwindigkeit des rotierenden Elementes ermittelt. Zur Erhöhung der Genauigkeit und des Auflösungsvermögens des Verfahrens wird ein aus kohärentem Licht bestehendes Lichtbündel (LE) verwendet, das beispielsweise von einer Laser-Halbleiterdiode (2) erzeugt sein kann. Das reflektierte Lichtbündel LR) wird über einen Fotoempfänger (5) empfangen und einer Auswertevorrichtung (6-7-8) zugeführt. |
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| 19 | Gas meter | EP80101819.3 | 1980-04-03 | EP0017874A1 | 1980-10-29 | Albrecht, Charles W. |
A gas meter is disclosed having a one-way index (50) incorporated therein for causing the indicating means (20) thereof to run only in a forward direction regardless of the actual direction of gas flow. A pivoting member (64) is oscillated by a rotating cam (78) coupled to the measuring means of the meter and includes pawls (70, 72, 74) attached thereto for driving a ratchet wheel (52), coupled to the indicating (20) means, in one direction only. By this arrangement, the oscillation of the member (64) is independent of the direction of rotation of the cam (78), which rotation is indicative of the direction of gas flow. |
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| 20 | 카운터 | KR1020157017646 | 2013-12-18 | KR1020150096685A | 2015-08-25 | 두이그난카딸 |
| 본 발명은 일반적으로 카운터들에 관한 것이고 특히 디스펜서들에 사용되는 카운터들에 관한 것이며 카운터를 포함하는 디스펜서들에 관한 것이다. 더욱 구체적으로 본 발명은 정량-주입 흡입기들과 같은 정량-주입 디스펜서들에 사용되는 카운터들에 관한 것이다.
특히, 본 발명은, 카운트를 나타내는 제1 표시부를 갖고 축에 대해 증가에 따라 회전가능한 제1 링 부재; 및 제한 메커니즘을 포함하는 제한 부재를 포함하고, 제한 메커니즘은, 제1 링 부재에 대하여 방사상으로 작동하도록 배열된 체결 부분을 포함하고, 제1 링 부재와 접촉하여, 축 주위에서 제한 부재에 대한 제1 링 부재의 자유 회전이 제한된다. |
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