序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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141 | FOOD PROCESSING TABLE OR CONVEYOR BELT WITH A LAYER OF SOLIDIFIED LIQUID SUCH AS AN ICE LAYER AND METHOD FOR PRODUCING SUCH SOLIDIFIED LIQUID | EP16730356.9 | 2016-06-16 | EP3310179A1 | 2018-04-25 | TEILMANN, Jens |
The invention relates to a table or conveyor belt (1) for conveying and/or processing food and a method and system for producing and/or maintaining a layer of a solidified liquid (4) on such tables and conveyor belts (1). Tables or conveyor belts (1) for conveying and processing food are difficult to clean when in function. For food it is important to avoid cross-contamination with microorganisms and foreign objects. A layer of a solidified liquid (4) such as an ice layer or fat layer on the top surface (3) of a table or conveyor belt (1) may be renewed from time to time by planing off some of the solidified liquid (4) and afterwards apply liquid which is allowed to solidify or apply flaked solidified liquid. A conveyor belt (1) may comprise lamellas (2) with internal cavities (7) or channels for coolant to cool the lamellas (2). Solidified liquid (4) may be produced on the top surface (3) of these lamellas (2) and the lamellas (2) may be kept cold by directing a coolant through the lamellas (2). | ||||||
142 | HANDHABUNGSEINRICHTUNG | EP13771492.9 | 2013-10-02 | EP2904124B1 | 2016-12-07 | EBNER, Robert; EBNER, Fritz Josef; STEINHEIMER, Rudolf |
143 | PROCESS FOR PRODUCING WATER-ABSORBING POLYMER PARTICLES | EP14798869.5 | 2014-11-14 | EP3071911A1 | 2016-09-28 | GRÜNEWALD, Gerald; FUNK, Rüdiger; WEISMANTEL, Matthias; PETERSON, Monte A. |
The invention relates to a process for producing water-absorbing polymer particles, comprising the steps of: • - processing an aqueous polymer gel from polymerization of a monomer solution or suspension, • - drying the aqueous polymer gel in a conveyer dryer, in particular in a forced air conveyer dryer, wherein • - the conveyer dryer has a circulating conveyer belt and the aqueous polymer gel is conveyed on the circulating conveyer belt, and wherein • - the circulating conveyer belt is formed as a circulating plate conveyer belt, comprising a number of belt plates separated by a hinge line of a hinge assembly and each belt plate having a surface for receiving the aqueous polymer gel, wherein said hinge assembly comprises a knuckle joint (301) with the hinge line in form of a straight hinge line. | ||||||
144 | Apparatus for loading and evenly distributing material into a container | EP13186313.6 | 2013-09-27 | EP2712828B1 | 2015-09-09 | Abbott, Robert; Kramer, Don |
145 | VERFAHREN ZUM LÜFTEN VON MIT SCHADGASEN KONTAMINIERTEN WAREN, LÜFTUNGSSCHLEUSE UND LÜFTUNGSSCHLEUSENANLAGE | EP11706750.4 | 2011-02-22 | EP2539257A1 | 2013-01-02 | Hertel, Frank |
The invention relates to a method for aerating goods contaminated with harmful gases in a mobile and sealable chamber (1), wherein the method comprises at least the following steps: inserting the contaminated goods into a chamber (1) through a loading opening (2) and placing said goods at the placement point (5), sealing the loading opening (2) of the chamber (1), aerating the interior of the chamber (1), and opening the chamber (1) and unloading the goods, wherein at least the air-gas mixture in the interior of the chamber (1) escapes through at least one venting point (4) and the escaping air-gas mixture flows primarily in a direction away from the loading opening (2) in the interior of the chamber (1) to the venting point (4). | ||||||
146 | CONTAINER FOR THE TRANSPORT AND PNEUMATIC CONVEYING OF BULK POWDERS | EP03786126.7 | 2003-12-16 | EP1585689B1 | 2010-03-24 | SNOWDON, Brian, Clyde Materials Handling |
147 | Apparatus and method for increasing density of finely divided particulate matter | EP04078002.5 | 2002-01-17 | EP1512629A3 | 2006-05-17 | Dopp, Steven; Jensen, Jary; Gelderbloom, Susan |
An apparatus for removing air from finely divided particulate material comprises a housing (1) including a vent (8); an inlet (2) to the housing; an outlet (5) from the housing; a helix (4), rotatably mounted in the housing (1), the helix being adapted upon rotation to feed a particulate material from the inlet (2) to the outlet (5); a motor mounted to the helix (4) for the purpose of rotating the helix; and a compression assembly (6, 7, 9) mounted to the outlet (5) for compressing the particulate material passing through the outlet. |
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148 | DENSIFYING OF A BULK PARTICULATE MATERIAL | EP99929611.4 | 1999-06-25 | EP1089928B1 | 2002-12-04 | RUSSEL-SMITH, Kevan Vaughan |
A method of densifying a bulk particulate material includes at least partially confining the bulk particulate material, and rotating a rotatable member (14) submerged under the bulk particulate material about an axis of rotation (16) to cause movement of the material particles essentially towards or away from the axis of rotation, thereby to provide a densified bulk particulate material. The method is particularly suitable for densifying silica fume. The invention extends to apparatus for densifying a bulk particulate material. | ||||||
149 | DENSIFYING OF A BULK PARTICULATE MATERIAL | EP99929611.4 | 1999-06-25 | EP1089928A1 | 2001-04-11 | RUSSEL-SMITH, Kevan Vaughan |
A method of densifying a bulk particulate material includes at least partially confining the bulk particulate material, and rotating a rotatable member (14) submerged under the bulk particulate material about an axis of rotation (16) to cause movement of the material particles essentially towards or away from the axis of rotation, thereby to provide a densified bulk particulate material. The method is particularly suitable for densifying silica fume. The invention extends to apparatus for densifying a bulk particulate material. | ||||||
150 | Dispositif d'évacuation des gaz d'un conteneur | EP91400761.2 | 1991-03-21 | EP0453339A1 | 1991-10-23 | Huillier, Daniel Jean-Pierre |
Dispositif d'évacuation des gaz permettant d'équiper un conteneur (1) destiné notamment à recevoir un matériau pulvérulent à faible densité, comprenant au moins une chambre (11) formée dans le conteneur et présentant une paroi de séparation (8) d'avec le volume à remplir du conteneur, qui comprend une toile (14) ou tamis laissant passer les gaz, la paroi (2) du conteneur présentant au moins une ouverture (20) mettant en communication ladite chambre avec l'extérieur. |
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151 | Verfahren und Vorrichtung zur kontinuierlichen Verdichtung von feinteiligen, pulverförmigen Stoffen | EP83107000.8 | 1983-07-16 | EP0108863B1 | 1988-02-24 | Brandt, Bernd, Dr.; Esch, Heinz; Kreher, Alfons, Dr.; Nagel, Werner, Dr. |
152 | Fahrzeugsilo | EP80106353.8 | 1980-10-18 | EP0040644A1 | 1981-12-02 | Schmitz, Werner |
Pulverförmige Stoffe beanspruchen aufgrund ihres extrem niedrigen Schüttgewichtes ein ungewöhnlich großes Transportvolumen in Silofahrzeugen. Um dieses Transportvolumen zu vermindern, wird mittels mindestens zwei in dem Silobehälter (1) des Silofahrzeuges, vorzugsweise parallel zu der Längsachse des Silobehälters, angeordneten Entlüftungsleitungen (2) die zwischen den Stoffteilchen befindliche Luft entfernt. Der derart entlüftete pulverförmige Stoff zeigt nach dem Transport trotz der Volumenverminderung um fast 35% keine Beeinträchtigung in seinen anwendungsteChnischen Eigenschaften. |
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153 | APPARATUS AND METHOD FOR COOLING PRODUCTS | US16225580 | 2018-12-19 | US20190186814A1 | 2019-06-20 | Robert VOSS; Alexander ANGENHEISTER |
An apparatus for cooling products includes a cooling chamber with a conveyor for conveying the products through the cooling chamber, at least one circulator for circulating a cooling gas within at least a part of the cooling chamber, and guiding elements for guiding a flow of the cooling gas. The guiding elements are arranged such as to form at least one backflow channel from the second side of the conveyor to the at least one circulator, and wherein the cooling gas can be directed into an impingement section via the at least one circulator. | ||||||
154 | System and Method for Compacting Materials in Open Top Transport Conveyance | US15900326 | 2018-02-20 | US20180170693A1 | 2018-06-21 | Charles Wayne Nyquist; Mark D. Stephen; Zachary Johnston Renner; Michael A. McCurdy |
A compacting system compacts particulate matter in open-top railroad gondola cars rolling on rails. The compacting system comprises a compacting station adjacent the rails and a scanning system that scans the gondola cars as they move along the rails toward the compacting station. The scanning system transmits data of the gondola car to an electronic control system. The compacting station has at least one compaction member, e.g., a plate structure or a roller, configured to contact an upper surface of the particulate matter in the gondola cars. The electronic control system controls the compacting station so that the compaction member engages with and applies force to the upper surface of the particulate matter in the gondola car so as to compress the particulate matter in the gondola. A method for compacting particulate matter in a gondola car is also shown. | ||||||
155 | System and method for compacting materials in open top transport conveyance | US14018040 | 2013-09-04 | US09908724B2 | 2018-03-06 | Charles Wayne Nyquist; Mark D. Stephen; Zachary Johnston Renner; Michael A. McCurdy |
A compacting system compacts particulate matter in open-top railroad gondola cars rolling on rails. The compacting system includes a compacting station adjacent the rails and a scanning system that scans the gondola cars as they move along the rails toward the compacting station. The scanning system transmits data of the gondola car to an electronic control system. The compacting station has at least one compaction member, e.g., a plate structure or a roller, configured to contact an upper surface of the particulate matter in the gondola cars. The electronic control system controls the compacting station so that the compaction member engages with and applies force to the upper surface of the particulate matter in the gondola car so as to compress the particulate matter in the gondola. A method for compacting particulate matter in a gondola car is also shown. | ||||||
156 | SIMPLIFIED SUBMERGED CHAIN CONVEYOR FOR BOTTOM ASH CONVERSIONS | US15490240 | 2017-04-18 | US20170313527A1 | 2017-11-02 | Loius A. Zotti; Randy Jay Reynolds; Manfred Reinsch; Karl Josef Zeitler; Austin Tyler Little |
A simplified submerged chain conveyor system for handling ash produced by large-scale coal fired boilers. The system incorporates an endless chain conveyor system moving a coal/ash aqueous mixture within a conveyor segment having a hydraulically closed duct. The system is adapted for retrofit applications of existing coal-fired boiler installations. In each embodiment the chain conveyor elevates the aqueous ash solution to dewater the ash. In several embodiments the boiler ash hopper is partially flooded with water and the system moves the ash mixture through a water column to the dewatering section. In one embodiment the ash mixture is not submersed but is subjected to water sprays before reaching the dewatering section. Great flexibility is provided in locating and positioning the conveyor system. One unit may be implemented to provide ash handling for multiple boilers. Embodiments are described operable in continuous or batch mode processes. | ||||||
157 | Apparatus for loading and evenly distributing material into a container | US13631810 | 2012-09-28 | US09688491B2 | 2017-06-27 | Robert Abbott; Don Kramer |
An overhead material handling system and methods for its use are provided, where the system includes: (a) a compactor and (b) a leveler in communication with the compactor, where the leveler comprises (i) a cover, (ii) a trough, and (iii) a trigger, where the trough has a first end and a second end and the trough is rotatably-mounted between a first end of the cover and a second end of the cover. | ||||||
158 | NITROGEN PURGE HOPPER | US14652386 | 2014-03-14 | US20150329299A1 | 2015-11-19 | Robert Herrmann; Aaron Funk; Steven Sauder |
A hopper apparatus (100) provides a conveyance passage (150) equipped with a nitrogen purge system. In operation, the hopper apparatus (100) is installed over an opening of a process vessel (200). Chemical matter may be conveyed through the conveyance passage (150) to land within the process vessel (200). The hopper apparatus may have a flap valve (141) that serves to isolate the interior space of a process vessel (200) from the ambient environment outside the process vessel (200). The hopper apparatus (100) may also inject nitrogen at various rates into the falling stream of chemical matter as it is conveyed into a process vessel (200). The hopper apparatus (100) may also provide a ventilation sleeve (180) providing ventilation and extraction of dust and vapors emitted from the falling stream of chemical matter. | ||||||
159 | HANDLING DEVICE | US14433561 | 2013-10-02 | US20150225189A1 | 2015-08-13 | Robert Ebner; Fritz Josef Ebner; Rudolf Steinheimer |
Embodiments of the present invention relate to a handling device for handling a metal component part between a furnace device and a further processing device. The handling device comprises a temperature-control chamber, in which the metal component part can be inserted, and a conveying device. The temperature-control chamber comprises a temperature-control unit that adjusts a temperature in the temperature-control chamber. The temperature-control chamber can be conveyed between a receiving position, in which the metal component part can be conveyed from the furnace device into the temperature-control chamber, and a dispensing position, in which the metal component part can be conveyed from the temperature control chamber to the further processing device. The conveying device is configured in such a manner that the metal component part can be conveyed in the receiving position by means of the conveying device between the furnace device and the temperature-control chamber and that the metal component part can be conveyed in the dispensing position by means of the conveying device between the temperature-control chamber and the further processing device. | ||||||
160 | MATERIAL WASTE SORTING SYSTEM AND METHOD | US13567819 | 2012-08-06 | US20130192478A1 | 2013-08-01 | Mark E. Koenig |
Exemplary embodiments include improved systems and methods for sorting and metering materials to be recycled at a material recovery facility. Systems and methods for the accurate and automated sorting and metering of recoverable materials may include a bunker with an integral conveyor adapted to meter presorted materials such that predetermined amounts of the materials may be delivered to a baler for baling and sale. Exemplary systems may include an auger screw type conveyor sized and shaped to deliver the materials to, for example, a baling system. The systems may also include a crusher for reducing the volume of the materials prior to metering from the bunker; by reducing the volume of the materials in the bunker, a baler may operate more efficiently, increasing output from the facility. |