EP 2761238 B1 20180221 - HYDRAULIC DEVICE FOR GENERATING SNOW
Title (en)
HYDRAULIC DEVICE FOR GENERATING SNOW
Title (de)
HYDRAULIKVORRICHTUNG FÜR DIE ERZEUGUNG VON SCHNEE
Title (fr)
DISPOSITIF HYDRAULIQUE POUR LA PRODUCTION DE NEIGE
Publication
Application
Priority
- SK 992011 A 20111001
- EP 2012004110 W 20121001
Abstract (en)
[origin: WO2013045116A2] The invention relates to a method, in particular for generating snow from water, using a low-pressure hydraulic device having a pump unit, to which a purification system is connected, and a distribution device having at least one high-pressure pump, to which a high-pressure unit having a snow cannon and/or a different snow-generating unit is connected. In order for the bonding of the water molecules in the molecular water structure of the process water to change and the generation of snow to improve, according to the invention at least part of the water used is exposed to an ionization field and/or a polarization field while simultaneously being exposed to the effects of an alternating electromagnetic field so that a weaker bonding of the water molecules in the molecular water structure is achieved, resulting in an improvement in the absorption and transfer of heat. The invention further relates to a device for carrying out the method.
IPC 8 full level
F25C 3/04 (2006.01)
CPC (source: EP US)
F25C 3/04 (2013.01 - EP US); F25C 2303/044 (2013.01 - US); F25C 2303/048 (2013.01 - EP US)
Designated contracting state (EPC)
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR
Designated extension state (EPC)
BA ME
DOCDB simple family (publication)
WO 2013045116 A2 20130404; WO 2013045116 A3 20131219; AP 2014007576 A0 20140430; AU 2012314851 A1 20140424; AU 2012314851 B2 20170525; BR 112014007477 A2 20170404; CA 2850562 A1 20130404; CN 104011486 A 20140827; CN 104011486 B 20161012; CY 1120243 T1 20190710; DK 2761238 T3 20180606; EA 029339 B1 20180330; EA 201400400 A1 20140730; EP 2761238 A2 20140806; EP 2761238 B1 20180221; ES 2670521 T3 20180530; HK 1200524 A1 20150807; HR P20180786 T1 20180810; HU E037623 T2 20180928; IL 231805 A0 20140528; JP 2014534403 A 20141218; JP 6157480 B2 20170705; KR 20140082984 A 20140703; LT 2761238 T 20180611; MD 20140031 A2 20141031; MD 4533 B1 20171130; MD 4533 C1 20180630; MX 2014003722 A 20140623; MY 168061 A 20181011; NO 2761238 T3 20180721; NZ 623658 A 20160527; PL 2761238 T3 20180928; PT 2761238 T 20180525; RS 57348 B1 20180831; SG 10201602480T A 20160530; SG 11201401139V A 20140730; SI 2761238 T1 20180831; TR 201807081 T4 20180621; UA 108714 C2 20150525; US 10634407 B2 20200428; US 2014246511 A1 20140904
DOCDB simple family (application)
EP 2012004110 W 20121001; AP 2014007576 A 20121001; AU 2012314851 A 20121001; BR 112014007477 A 20121001; CA 2850562 A 20121001; CN 201280048441 A 20121001; CY 181100526 T 20180521; DK 12810065 T 20121001; EA 201400400 A 20121001; EP 12810065 A 20121001; ES 12810065 T 20121001; HK 15100970 A 20150128; HR P20180786 T 20180521; HU E12810065 A 20121001; IL 23180514 A 20140330; JP 2014532280 A 20121001; KR 20147010512 A 20121001; LT 12810065 T 20121001; MD 20140031 A 20121001; MX 2014003722 A 20121001; MY PI2014000952 A 20121001; NO 12810065 A 20121001; NZ 62365812 A 20121001; PL 12810065 T 20121001; PT 12810065 T 20121001; RS P20180589 A 20121001; SG 10201602480T A 20121001; SG 11201401139V A 20121001; SI 201231305 T 20121001; TR 201807081 T 20121001; UA A201404522 A 20121001; US 201214348897 A 20121001