子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 도살 제품을 계량하기 위한 디바이스 | KR1020167027847 | 2015-03-05 | KR1020160143675A | 2016-12-14 | 피터스,에릭헨드리쿠스베르너; 레인체스,헤라르뒤스요셉허트루디스; 리예르스,팀샌더 |
| 본발명은, 도살제품을계량하기위한디바이스로서, 운반경로를따라연장되는가이드, 상기가이드를따라이동될수 있고상기가이드로부터도살제품을매달도록구성된제품캐리어, 및계량대를포함하는계량수단을포함하는상기디바이스를제공한다. 각제품캐리어는 4개의러너를포함하고, 2개의러너는, 움직임의방향으로보았을때 다른 2개의러너뒤에제공된다. 상기 4개의러너는상기제품캐리어가움직일때 계량구간동안각 트랙을따라상기계량대위에서롤링하도록구성되고, 상기트랙은서로평행하게연장되고, 상기 4개의러너는상기계량구간동안상기계량대위에서롤링하며, 상기계량대와상기 4개의러너는상기 4개의러너가상기계량대위로동시에롤링하고상기계량대밖으로동시에롤링하도록구성된다. | ||||||
| 42 | 수하물 처리 스테이션 및 그 시스템 | KR1020167023097 | 2015-02-27 | KR1020160125970A | 2016-11-01 | 딩켈만,리차드; 딩켈만,라이너 |
| 여행을위한승객의하나의수하물을등록하기위한처리스테이션은승객과관련된상기하나의수하물을수용하기위한인젝터; 상기인젝터와관련되고, 상기인젝터의적어도하나의플로어와함께상기하나의수하물의둘레에영역을형성하는적어도하나의센서; 및상기하나의수하물의치수에대해미리결정된제한치가초과되었는지의여부또는외부이물이외부로부터상기영역을침입하였는지의여부중 하나또는그 이상을결정하고, 그리고상기영역의침입이검출되지않은경우에만수하물의추가적인처리를허용하도록, 적어도하나의센서를통해, 상기영역을통한침입을모니터링하도록적응되는제어기를포함하며, 상기제어기는상이한크기의수하물을수용하도록상기영역의면적을조정한다. | ||||||
| 43 | 코크스 소화차 및 코크스의 무게를 측정하는 방법 | KR1020077018593 | 2006-02-15 | KR1020070103028A | 2007-10-22 | 뮐러,크리스토프 |
| The invention relates to a method for measuring the weight of coke. In order to be able to measure the weight of coke with great accuracy and determine the yield of a coal coking process in a chamber of a coking oven, the measurement is taken in the unquenched state of the coke, preferably immediately following or during expression of the coke from a chamber of a coking oven. | ||||||
| 44 | LUGGAGE PROCESSING STATION AND SYSTEM THEREOF | US15625315 | 2017-06-16 | US20170283091A1 | 2017-10-05 | Richard DINKELMANN; Rainer Rudolf DINKELMANN |
| A processing station for registering a piece of passenger's luggage for a trip, wherein the processing station comprises: an injector for receiving the piece of luggage associated with the passenger; at least one sensor associated with the injector, the at least one sensor, in combination with at least the floor of the injector, creating a zone around the piece of luggage; and a controller associated with the sensor being adapted to: monitor, via the at least one sensor, intrusions through the zone to determine one or more of whether a predetermined limit on dimensions of the piece of luggage has been exceeded or whether a foreign object has intruded the zone from outside, and allow further processing of the piece of luggage only if no intrusion of the zone is detected; and wherein the controller adjusts the area of the zone to accommodate different sizes of luggage. | ||||||
| 45 | Method for Ascertaining the Net Weight of a Product in a Single Product Range | US15309562 | 2015-04-30 | US20170211966A1 | 2017-07-27 | Peter Monz; Michael Siegrist; Bernd Zinke |
| The invention relates to a method for ascertaining a net weight of a product in a product range, plurality of contiguous product ranges form a product chain and a total weight of the product chain is ascertained. The product chain is X-rayed to ascertain values that correspond to the radiation that penetrates a defined range of the product chain. The ascertained values are used to ascertain a total value for the entire product chain. A product range with a single product is selected by means of evaluation of the ascertained values. A value of the product range is formed from the ascertained values. A gross weight of the product range is ascertained therefrom. The net weight used for the single product is approximately the weight or the net weight is ascertained from the difference between the weight and a prescribed or ascertained weight of the product range without a product. | ||||||
| 46 | DEVICE FOR WEIGHING SLAUGHTER PRODUCTS | US15301229 | 2015-03-05 | US20170023398A1 | 2017-01-26 | Erik Hendrikus Werner PETERS; Gerardus Josef Gertrudis REINTJES; Tim Sander RIJERSE |
| The invention provides a device for weighing slaughter products, comprising a guide which extends along a conveying path, product carriers which can be moved along the guide and which are configured for suspending slaughter products there-from, and weighing means comprising a weighbridge. Each product carrier comprises four runners, two of which runners are provided behind the other two runners, seen in the direction of movement. The four runners are configured to roll over the weighbridge along respective tracks during a weighing interval upon movement of the product carrier, which tracks extend parallel to each other, wherein the four runners roll over the weighbridge during the weighing interval and wherein the weighbridge and the four runners are configured such that the runners will roll simultaneously onto the weighbridge and simultaneously off the weighbridge. | ||||||
| 47 | Inspection system | US14760686 | 2013-12-17 | US09522414B2 | 2016-12-20 | Atsushi Yamakawa |
| An inspection system is provided with a weight inspection device, a sorting device, and a frame. The weight inspection device includes a weighing conveyor for conveying a weighing object, and a load cell for weighing the weighing object conveyed by the weighing conveyor, and inspects the weighing object using the result of weighing by the load cell. The sorting device includes an sorting conveyor arranged downstream of the weighing conveyor, a movable member being configured to come in contact with the weighing object conveyed by the sorting conveyor to change a traveling direction of the weighing object, and a cylinder for driving the movable member based on the result of inspection by the weight inspection device so as to cause the movable member to come in contact with the weighing object. The frame supports the weighing conveyor, the load cell, and the movable member. | ||||||
| 48 | INSPECTION SYSTEM | US14760686 | 2013-12-17 | US20150352596A1 | 2015-12-10 | Atsushi YAMAKAWA |
| An inspection system is provided with a weight inspection device, a sorting device, and a frame. The weight inspection device includes a weighing conveyor for conveying a weighing object, and a load cell for weighing the weighing object conveyed by the weighing conveyor, and inspects the weighing object using the result of weighing by the load cell. The sorting device includes an sorting conveyor arranged downstream of the weighing conveyor, a movable member being configured to come in contact with the weighing object conveyed by the sorting conveyor to change a traveling direction of the weighing object, and a cylinder for driving the movable member based on the result of inspection by the weight inspection device so as to cause the movable member to come in contact with the weighing object. The frame supports the weighing conveyor, the load cell, and the movable member. | ||||||
| 49 | Metal-detection conveyor with built-in weighing cell | US13857243 | 2013-04-05 | US09074924B2 | 2015-07-07 | Dirk Bettels |
| A combined weighing/metal-detection system comprises at least one support frame and at least two weighing cells arranged at mounting locations on the at least one support frame. A conveyor device rests on the weighing cells. The system further includes a metal detector with a passage opening, wherein the conveyor device passes through the opening. The at least two weighing cells are arranged, respectively, on opposite sides of the metal detector, preferably close to the upstream and downstream ends of the conveyor device. The metal detector is supported on the at least one support frame at mounting locations different from the mounting locations of the weighing cells, so that the weighing cells are not carrying the pre-load of the metal detector and the two functions of weighing and of detecting metallic contaminants can occur on the same at least one conveyor device close together in time. | ||||||
| 50 | CONVEYOR DEVICE | US13819734 | 2011-08-31 | US20130270072A1 | 2013-10-17 | Claudiu Mihai |
| The conveyor device comprises a support, a magnetic driving unit at the support, and an at least substantially sealed conveyor unit demountably supportable on the support. The conveyor unit includes a magnetic drivable unit magnetically drivable by the said magnetic driving unit, and an endless conveyor belt extending around two spaced apart rollers. At least one of the rollers is drivable by the said drivable unit. The conveyor unit is thus preferably demountable from the support for cleaning without requiring disconnection of a physical drive and/or electrical feed extending between the conveyor unit and the support. Additionally, a weighing element is preferably provided at the support to dynamically weigh an item as it moves along the conveyor unit. | ||||||
| 51 | METAL-DETECTION CONVEYOR WITH BUILT-IN WEIGHING CELL | US13857243 | 2013-04-05 | US20130270015A1 | 2013-10-17 | Dirk Bettels |
| A combined weighing/metal-detection system comprises at least one support frame and at least two weighing cells arranged at mounting locations on the at least one support frame. A conveyor device rests on the weighing cells. The system further includes a metal detector with a passage opening, wherein the conveyor device passes through the opening. The at least two weighing cells are arranged, respectively, on opposite sides of the metal detector, preferably close to the upstream and downstream ends of the conveyor device. The metal detector is supported on the at least one support frame at mounting locations different from the mounting locations of the weighing cells, so that the weighing cells are not carrying the pre-load of the metal detector and the two functions of weighing and of detecting metallic contaminants can occur on the same at least one conveyor device close together in time. | ||||||
| 52 | Polymer Finishing Process | US13125445 | 2009-11-23 | US20110198197A1 | 2011-08-18 | William J. Blickley; Buddy L. Dearth |
| A polymer finishing process including: recovering polymer powder from a polymerization reactor; feeding the polymer powder to an inlet of a mass flow screw conveyor and one or more mass measuring devices for determining a mass of polymer powder within at least a portion of the mass flow screw conveyor; measuring at least one of a mass of the polymer powder in the screw conveyor and a combined mass of the screw conveyor and the polymer powder within the screw conveyor with the one or more mass measuring devices; and determining a mass flowrate of polymer powder through the mass flow screw conveyor based on the at least one of the measured mass of the polymer powder in the mass flow screw conveyor and the measured combined mass. A method of controlling a polymerization process using a mass flow screw conveyor is also disclosed. | ||||||
| 53 | Universal Belt Scale Frame | US12393791 | 2009-02-26 | US20100288565A1 | 2010-11-18 | Gary William Wineland; Tim E. Wolf |
| A weighing apparatus adapted for use in an existing conveyor, and a method for attaching a weighing apparatus to an existing conveyor without removing components or modifying the conveyor. The apparatus comprises a roller, a load cell, a vertical support and a cross member. The cross member is secured to adjacent existing idlers or alternatively to the frame supporting the existing conveyor via non-invasive means that do not require the existing conveyor or components to be removed or modified by cutting, drilling or welding. The roller is capable of precise adjustment both horizontally and vertically relative to the conveyor to ensure levelness and accuracy without the use of tools. | ||||||
| 54 | WEIGHT CHECKING APPARATUS | US12733503 | 2008-10-07 | US20100212973A1 | 2010-08-26 | Atsushi Takahashi; Hirokazu Kuribayashi |
| An object of the present invention is to provide a technology capable of easily changing a position of a measuring portion which measures a weight of a check object in accordance with a change of specifications or addition of specifications. In order to achieve the above-mentioned object, a weight checking apparatus (1) includes a measuring portion (4) which includes a measuring conveyor (40) for conveying a check object (TR) and measures a weight of the check object (TR) conveyed by the measuring conveyor (40), and a pair of rail-like members (50) which extend along a conveying direction of the check object (TR) and onto which the measuring portion (4) is mounted such that a position thereof is capable of being changed. | ||||||
| 55 | Device for the quantitative analysis of debris | US12067133 | 2006-09-11 | US07642474B2 | 2010-01-05 | Antonio Calleri |
| Device for the quantitative analysis of debris (12, 41) preferably produced during drilling, of the type equipped with means for the progressive collection of the debris, means for the progressive weighing of the debris collected, means for periodical discharging of the same and a structure for support of the device, wherein said means for the collection of the debris comprise a conveyor belt (22, 46) wound in the manner of a track on at least two rollers (23, 24), said means for weighing the debris comprise at least four sensing elements (214, 411) placed so as to take a direct measurement of the weight force exerted on the conveyor belt (22, 46) and said means for discharging debris comprise the unit for actuation of the rollers. | ||||||
| 56 | Frame for a monitoring scale | US11407877 | 2006-04-19 | US07432455B2 | 2008-10-07 | Hermann Berger; Nikolaos Georgitsis |
| A frame for a monitoring scale includes a supporting part and two transverse parts by which the frame is supported on the floor. The frame includes a hollow body that may be filled with a ballast material, such as an antiseptic medium, to suppress longitudinal vibrations and to reduce hygienic effects of excess. In addition, a special design of longitudinal supports is provided. | ||||||
| 57 | Dimensioning and weighing system | US11501585 | 2006-08-09 | US20080035390A1 | 2008-02-14 | David A. Wurz |
| An apparatus for measuring the weight of items on a conveyor includes a scale that generates a first signal corresponding to the weight of the items. A movable platform transports the items to the scale and generates a second signal corresponding to position of the items in relation to the scale. A dimensioner examines the items and generates a third signal representative of whether the items are singulated or nonsingulated. A processor receives the second and third signals and determines whether to associate the first signal with information stored in memory about a particular item based upon whether the particular item is singulated or nonsingulated. | ||||||
| 58 | Sorting method and apparatus | US11641299 | 2006-12-18 | US20070138067A1 | 2007-06-21 | Nikolaos Georgitsis; Rudiger Kliefoth |
| Method to sort products whereby the products are transported along a path of conveyance in a conveying device, automatically checked during transport according to at least two predetermined sorting criteria, and when one of the criteria is met, automatically diverted by a diverting force out of the path of conveyance perpendicular to the direction of conveyance into a receiving area, whereby the diverting force proceeds from a common center independent of the fulfilled criterion on the basis of which the respective product is to be diverted, and a device suitable for implementing this method as well as a container for receiving the rejected products. | ||||||
| 59 | Method for assessing the operation of a conveying apparatus | US10798257 | 2004-03-12 | US07193162B2 | 2007-03-20 | Stephen McIsaac; Ronald William Glowe |
| The present invention is directed to an apparatus and method for measuring the weight of material such as rock, earth, wood, pulp, grain, gravel, sand, ore, cement etc. being processed or moved by an apparatus such as a conveyor, apron conveyor or bucket elevator driven by an electrical motor. The apparatus measures the electrical energy consumed by the motor powering the apparatus during operation of the apparatus and uses a calibration formula derived from an average of no-load readings plus up to 2.0 standard deviations for converting the power consumption of the motor to tonnage per hour of raw material processed by the apparatus. A continual record is kept of all “No-load” and “start-up load” time during the recording process and these figures are totalized along with tonnage for the recording period. | ||||||
| 60 | Weighing conveyor | US11405347 | 2006-04-17 | US20060237238A1 | 2006-10-26 | Fritz Fochler |
| A conveyor system has a pair of main conveyor belts having confronting inner stretches oriented horizontally and vertically adjacent one another parallel to a transport direction and extending through a weighing station. The belts are spaced to grip vertical sides of a succession of objects and moved to advance the objects between them in the direction through the weighing station. A weighing conveyor belt has a horizontally oriented and upwardly directed stretch between and underneath the main belts at the station. The main-belt stretches are deflected apart generally only at the station for releasing objects gripped by the main belts and setting them to rest with their full weights on the weighing belt in the weighing station. The weighing belt moves to advance the objects through the weighing station. This way the objects on the weighing belt can be individually weighed. | ||||||
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