| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 241 | Registering mechanism. | US1914836135 | 1914-05-04 | US1245665A | 1917-11-06 | BOHAN WILLIAM JAMES |
| 242 | g-ajardo | US552431D | US552431A | 1895-12-31 | ||
| 243 | solomon c | US548243D | US548243A | 1895-10-22 | ||
| 244 | Electrically operated kea register | US534961D | US534961A | 1895-02-26 | ||
| 245 | Henry j | US526140D | US526140A | 1894-09-18 | ||
| 246 | Barber s indicator | US448392D | US448392A | 1891-03-17 | ||
| 247 | gajardo | US437985D | US437985A | 1890-10-07 | ||
| 248 | MOBILE OBJECT MEASUREMENT SYSTEM AND METHOD OF DETERMINING NUMBER OF PEOPLE IN MEASUREMENT AREA | EP16886519.4 | 2016-12-21 | EP3407086A1 | 2018-11-28 | SATO, Nobuo; ASAHARA, Akinori |
Provided is a technique for reducing erroneous detection by outputting highly reliable results regarding the number of people. A mobile object measurement system of the present disclosure is a system for extracting the number of people on the basis of the measurement results of measurement devices that are arranged in the entire measurement area, and is configured to extract measurement devices that are measuring a predetermined area, extract the number of people present in the predetermined area using a plurality of combinations of measurement devices including some of the extracted devices or a plurality of combinations of measurement devices having different system start times, and perform a voting process for each extracted number of people for each combination so as to determine the most reliable number of people as a correct number of people |
||||||
| 249 | COUNTING BAR-SHAPED PRODUCTS BASED UPON ACQUIRED IMAGES | EP16711987.4 | 2016-03-07 | EP3268904A1 | 2018-01-17 | CECCARINI, Christopher; KIRKWOOD AZMAT, Ruth; MANORIA, Ritesh |
| A conveyor element (2) of a conveyor device conveys bar-shaped products (1) orthogonal to a longitudinal direction (x) of the bar-shaped products (1) oriented in a conveying direction (y). A trigger device (3) provides a trigger signal (S) each time the conveyor element (2) has travelled a predetermined interval. Based upon the respective trigger signal (S), an image (B) is acquired by a camera (4). The image (B) shows front ends of the products (1) in a respective section of the conveyor element (2) corresponding at least to the predetermined interval. Based upon the acquired images (B), the number of bar-shaped products (1) conveyed by the conveyor element (2) is determined. | ||||||
| 250 | METHOD AND APPARATUS FOR DISPENSING ITEMS | EP11780310 | 2011-05-12 | EP2569713A4 | 2013-12-25 | HOREV NOAM; WEINBERGER ZVI |
| An apparatus for dispensing discrete items into a multiplicity of containers such that each of the multiplicity of containers contains at least a predetermined number of items, the apparatus comprising: a conveyor for transporting items from a feeder to a location from which the items fall into the container; a counting mechanism for counting a number of items that have fallen off the conveyor into the container during operation of the conveyor and due to inertial forces after the operation; an actuator for operating or stopping the conveyor in accordance with control commands; and a computing platform for receiving a count from the counting mechanism and generating the control commands to be provided to the actuator. | ||||||
| 251 | Vorrichtung und Verfahren zum Zählen und Erkennen von flächigen Produkten | EP11003404.8 | 2008-03-05 | EP2362330B1 | 2013-09-25 | Brossi, Steven; Maeder, Carl, Conrad |
| 252 | PILL COUNTING AND CONTROL SYSTEM FOR A PILL TRANSPORT APPARATUS | EP11758703.0 | 2011-03-17 | EP2550625A1 | 2013-01-30 | BESSETTE, Derek; PANETTA, Richard |
| The present invention provides a method and apparatus for dispensing varying quantities of pills quickly, conveniently, securely, accurately operable to incorporate one or more sensors and at least two data sets for the purpose of monitoring the activity of transferring pills from a pill singulation to a bottle. For example, a counting means may be operable, in real-time or near-real time, to count the pills transferred to a bottle. A sensor array data-acquisition means may be utilized to facilitate the collection and monitoring of data relating to transfer of pills to a bottle. The counting means and sensor array data-acquisition means may be applied in a cooperative manner so as to facilitate examinations for the purpose of identifying pill events, such as overlapping pill dispensing, that have the potential to invalidate the counting means results. | ||||||
| 253 | Vorrichtung zum Zählen von als Schüttgut zugeführten Objekten | EP10776675.0 | 2010-11-09 | EP2499603A1 | 2012-09-19 | HEINZ, Dieter |
| The invention relates to a device for counting objects fed as bulk material, comprising a first feeding unit for pre-counting a first fixed subset of a target quantity of objects and a second feeding unit for preferably separately feeding a second subset of the target quantity of objects, wherein the device (1, 7, 10) is designed such that the quantity of objects of the first subset is transmitted to a control apparatus (5), which controls the second feeding unit such that the second subset of objects is fed enough objects that the second subset of objects corresponds to the difference between the first subset and the target quantity of objects, and the first subset of objects is poured into the second subset of objects. | ||||||
| 254 | Vorrichtung und Verfahren zum Erkennen von flächigen Produkten | EP11003404.8 | 2008-03-05 | EP2362330A2 | 2011-08-31 | Brossi, Steven; Maeder, Carl, Conrad |
Die erfindungsgemässe Vorrichtung (10) zum Erkennen von flächigen Produkten (14) weist eine Lichtquelle (16) mit einem Beleuchtungsstrahlprofil (24), einen optischen Sensor (18) mit einem Detektionsstrahlprofil (30) und eine mit dem optischen Sensor (18) verbundene Auswerteeinheit (20) auf. Das Detektionsstrahlprofil (30) überlappt mit dem Beleuchtungsstrahlprofil (24) in einem Detektionsbereich, in welchem ein Abschnitt (33) eines Oberflächenprofils der flächigen Produkte (14), der wenigstens teilweise durch das Beleuchtungsstrahlprofil (24) begrenzt ist, beleuchtet wird. Ein vom optischen Sensor (18) erzeugtes Detektionssignal wird an die Auswerteinheit (20) geleitet, die daraus deformierte, unvollständige und/oder verschiedenartige Produkte bestimmt.
|
||||||
| 255 | Integrierter Schusszaehler für Mischkopf | EP06113066.2 | 2006-04-25 | EP1724002B1 | 2011-01-05 | Berchtenbreiter, Ernst; Soechtig, Wolfgang |
| 256 | Nachweisvorrichtung | EP99121090.7 | 1999-10-22 | EP1018704B1 | 2007-09-12 | Hänsch, Egon |
| 257 | Integrierter Schusszaehler für Mischkopf | EP06113066.2 | 2006-04-25 | EP1724002A2 | 2006-11-22 | BERCHTENBREITER, Ernst; SOECHTIG, Wolfgang |
Die Erfindung betrifft einen Mischkopf mit einem integrierten Schusszähler der Mittel zum Betrieb des Mischkopfes sowie eine elektrische Erfassungs- und Speichereinrichtung umfasst. Die elektrische Erfassungs- und Speichereinrichtung ist mit den Mittel zur Ermittlung der Bewegung des Steuer- oder Reinigungskolbens verbunden oder weist selbst ein solches Mittel auf, umfasst einen Zähler und ein nichtflüchtiges Speichermittel.
|
||||||
| 258 | Vorrichtung zum optischen Zählen kleiner Körperchen | EP05002899.2 | 2005-02-11 | EP1566089A1 | 2005-08-24 | Scheufler, Bernd, Dr.; Marquering, Johannes, Dr. |
Vorrichtung zum optischen Zählen kleiner Körperchen, insbesondere der von einer Sämaschine auszubringenden Saatkörner, bei denen die zu zählenden Körperchen ein mit Sensoren (17) besetzten Messraum (18) passieren und dabei den Strahlengang zwischen einem Lichtemitter (19) und einem Lichtdetektor (20) der Sensoren (17) unterbrechen, wobei mehrere Lichtemitter (19) und Lichtdetektoren (20) einen Sensor (17) bilden. Um mittels einfacher Maßnahmen einen preiswerten, jedoch höher auflösenden Sensor (17) auch zum Zählen kleiner Körner, beispielsweise Rapskörner zu schaffen, ist vorgesehen, dass zumindest die Lichtdetektoren (20) eines Sensors (17) in zumindest zwei, vorzugsweise unmittelbar benachbarten und übereinanderliegenden Ebenen (22,23,26,27,29,30) angeordnet sind. |
||||||
| 259 | DEVICE FOR COUNTING FISH POPULATION PASSING THROUGH A FISH PASS | EP98921889 | 1998-05-29 | EP0984391A4 | 2002-07-24 | TERAZONO KATSUJI; MATSUO ICHIRO; MATSUMOTO YOSHITAKA; MURAKAMI OSAMU |
| A fish population counting device for counting the number of fish passing through the fish pass according to directions and fish sizes. Image data produced by the two-line camera (1) that takes pictures simultaneously on two shooting lines (A, B) is sent through the A/D converter (2) and stored one line at a time in image memories (3A, 3B). The image data is then transferred to the processing unit (6), where they are rearranged in the order of shooting for each shooting line (A, B) to generate two-line successive images (A, B). From these two-line successive images (A, B), the outlines of the areas whose label numbers are the same are traced to separate massive figures scattered in the images. The features of the massive figures are extracted and matched against a standard pattern to decide if the massive figures are fish or not. Then, the positions and shapes of all fish scattered in the two-line successive images (A, B) are identified one by one to count the number of fish that have passed through the shooting lines (A, B) during a predetermined length of time. Further, individual fish that are at displaceable positions are taken to be the same fish and, based on the displacements of these fish, the directions and speeds of these individual fish are calculated. From the fish speeds the size of each fish is determined. The number of fish is counted by the size and the direction. | ||||||
| 260 | Apparatus and method for counting articles passing along an article path | EP96104725.5 | 1996-03-25 | EP0742534B1 | 2002-05-29 | Landers, David J.; Miller, Gregry C.; McEnaney, Kevin P.; Holmstrom, Scott A. |
