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LEITHNER REINHARD

Overview
  • Total Patents
    36
  • GoodIP Patent Rank
    169,181
  • Filing trend
    ⇩ 100.0%
About

LEITHNER REINHARD has a total of 36 patent applications. It decreased the IP activity by 100.0%. Its first patent ever was published in 1996. It filed its patents most often in Germany. Its main competitors in its focus markets environmental technology, engines, pumps and turbines and thermal processes are EVANS ADLARD & CO, HUANENG CLEAN ENERGY RES INST and ZHEJIANG PINGHU HUALONG IND CO LTD.

Patent filings in countries

World map showing LEITHNER REINHARDs patent filings in countries
# Country Total Patents
#1 Germany 36

Patent filings per year

Chart showing LEITHNER REINHARDs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Leithner Reinhard 36
#2 Schlitzberger Christian 2
#3 Scheffknecht Guenter 1
#4 Zillmer Michael 1
#5 Mueller Eckart 1

Latest patents

Publication Filing date Title
DE102017003750A1 Conversion of rows of chairs into reclining areas
DE102017003085A1 Anfahrzeitverkürzung
DE102017003101A1 Mill low load
DE102017003030A1 Catheter urethral transition sleeve
DE102016008633A1 Double J-catheter with backflow prevention
DE102015002054A1 Protection against lack of air and CO of firing
DE102015001400A1 Veiled air against corrosion
DE102014008905A1 Gentle steam turbine operation
DE102014008363A1 Compressed air storage power plant without heat storage
DE102013009638A1 Ericsson memory process
DE102013008791A1 Stabilization of the flow in heating surfaces, in particular evaporation at low loads
DE102011117271A1 Pressurized air storage power plant has gas and steam turbine system, and partially or completely implements storage of pressurized air without heat storage, where compression heat is converted into instant power by water-steam circuit
DE102011106623A1 Optimal heat accumulator has finned tubes in sand or other heat storing mediums, where fin size, fin thickness, fin spacing, and fin material are varied over the length of the finned tubes
DE102010025377A1 Zero emission vehicle operating method, involves converting released heat in devices e.g. internal combustion engine, into mechanical energy or into electrical current, and replacing carbonates and hydrates by new carbonates and hydrates
DE102009056701A1 Combustion system, has blower for sucking hot gas stream from chamber, where dust is vented and gassed in hot gas stream and mixture of hot gas stream and venting and gasification products and residue particles are injected into chamber
DE102008033527A1 Heat reservoir, has endothermic fluid flowing through latent heat reservoir sections in opposite direction, where exothermic fluid and endothermic fluid flow in same tubes or channels, and sections are designed in pressure-resistant manner
DE102008020414A1 Method for separating carbon dioxide from exhaust gas or synthetic gas from e.g. machine, involves renewing regenerated and separated adsorbent/absorbent, in which adsorber and/or absorber are returned back and used freshly
DE102007042837A1 Compressed air storage power plant comprises compressor and turbine operating on constant pressure, in which compressor and turbine operates with variable high pressure
DE102007015079A1 Method for operating solid-oxide fuel cell, involves using solid-oxide fuel cell heat for heating, reforming or gasification of fuel
DE102007015081A1 Wall e.g. combustion chamber finned pipe wall, thicknesses measurement method for e.g. evaporator pipe, involves allowing coupling of ultrasound at combustion chamber wall that allows tangential inducing and diverting of ultrasound