GALA INC has a total of 499 patent applications. It decreased the IP activity by 96.0%. Its first patent ever was published in 1959. It filed its patents most often in United States, EPO (European Patent Office) and China. Its main competitors in its focus markets machines, chemical engineering and packaging and shipping are GALA INDUSTRIES INC, MAAG AUTOMATIK GMBH and HENCH AUTOMATIK APP MASCH.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 84 | |
#2 | EPO (European Patent Office) | 66 | |
#3 | China | 54 | |
#4 | WIPO (World Intellectual Property Organization) | 53 | |
#5 | Republic of Korea | 47 | |
#6 | Brazil | 34 | |
#7 | Taiwan | 31 | |
#8 | Canada | 22 | |
#9 | Japan | 19 | |
#10 | Mexico | 16 | |
#11 | Germany | 11 | |
#12 | EAPO (Eurasian Patent Organization) | 10 | |
#13 | South Africa | 8 | |
#14 | Malaysia | 7 | |
#15 | Ukraine | 6 | |
#16 | Norway | 5 | |
#17 | Australia | 4 | |
#18 | Singapore | 3 | |
#19 | Tunisia | 3 | |
#20 | Argentina | 2 | |
#21 | Chile | 2 | |
#22 | Colombia | 2 | |
#23 | Ecuador | 2 | |
#24 | Israel | 2 | |
#25 | Egypt | 1 | |
#26 | United Kingdom | 1 | |
#27 | Morocco | 1 | |
#28 | New Zealand | 1 | |
#29 | Peru | 1 | |
#30 | Russian Federation | 1 |
# | Industry | |
---|---|---|
#1 | Machines | |
#2 | Chemical engineering | |
#3 | Packaging and shipping | |
#4 | Machine tools |
# | Technology | |
---|---|---|
#1 | Preparation of materials | |
#2 | Shaping of plastics | |
#3 | Drying solid materials by removing liquid | |
#4 | Fillers | |
#5 | Cutting | |
#6 | Unspecified technologies | |
#7 | Unspecified technologies | |
#8 | Packaging | |
#9 | Transport or storage devices | |
#10 | Separation |
# | Name | Total Patents |
---|---|---|
#1 | Eloo Michael | 71 |
#2 | Martin J Wayne | 64 |
#3 | Wright Roger B | 58 |
#4 | Fridley Michael A | 52 |
#5 | Boothe Duane A | 42 |
#6 | Mann Robert G | 38 |
#7 | Boothe Duane | 36 |
#8 | Wright Roger Blake | 27 |
#9 | Veltel Juergen | 24 |
#10 | Martin Wayne J | 23 |
Publication | Filing date | Title |
---|---|---|
US2020298449A1 | Methods and systems for crystallizing tacky materials using a tumbler | |
EP3463781A1 | Method and apparatus for forming an expandable foam pellet having a hard outer shell | |
KR20180121929A | The melt-guide connection adapter and the associated melt-process plant | |
US2018106543A1 | Pellet dryer with outlet guidance plate | |
US2018106537A1 | Centrifugal pellet dryer | |
US2018106539A1 | Centrifugal pellet dryer | |
US2018106541A1 | Pellet dryer with additional blower | |
US2016311135A1 | Molding methods and systems for achieving clustered effect | |
KR20170125833A | Tumbler system and method | |
CN107428421A | Continuous bagging processes and system | |
CN107000910A | Film for packing cohesive material | |
US2016144548A1 | Die plate with die plate body having an apertured downstream face covered by a solid face plate | |
CN106794598A | For dry particle and the system and method for other materials | |
US2015135645A1 | Continuous bagging processes and systems | |
BR112017005091A2 | method and device for hollow pellet extrusion | |
US2015001758A1 | Method and device for extrusion of hollow pellets | |
KR20160044527A | Systems and methods for self-aligning cutting hub assembly | |
US2014271960A1 | Cutter hub pin drive mechanism and quick disconnect hub for an underfluid pelletizer | |
US2014250709A1 | Dryers in series with improved throughput | |
EP2958722A1 | Melt-processing system |