Learn more

GAI ZHIWU

Overview
  • Total Patents
    24
  • GoodIP Patent Rank
    99,841
About

GAI ZHIWU has a total of 24 patent applications. Its first patent ever was published in 2013. It filed its patents most often in China. Its main competitors in its focus markets environmental technology, semiconductors and agriculture are ANGEL KOGYO KK, NANTONG JINYANG SOLAR TECH CO LTD and HAINING IEMYC SOLAR ENERGY TECHNOLOGY CO LTD.

Patent filings in countries

World map showing GAI ZHIWUs patent filings in countries
# Country Total Patents
#1 China 24

Patent filings per year

Chart showing GAI ZHIWUs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Gai Zhiwu 24

Latest patents

Publication Filing date Title
CN106159007A The arrangement architecture of the cell piece of solar power generation cell plate
CN106159006A The structure of the cell piece of solar panel
CN106159005A The arrangement architecture of photovoltaic generating system cell panel
CN106159004A The arrangement architecture of the cell piece of photovoltaic battery panel
CN104362943A Battery panel mounting and arranging structure of solar photovoltaic power generation system
CN105470323A Arrangement structure of cells of solar panel
CN105655428A Cell arrangement structure of solar cell panel
CN105375866A Photovoltaic power generation system cell panel and sunshade net composite arranging structure
CN105375865A Photovoltaic power generation system cell panel and sunshade net installing and arranging structure
CN105089296A Solar barbecue pavilion
CN105007025A Method for improving automatic tracking type solar generating efficiency
CN103873078A Airborne information launching system
CN103336358A Fresnel lens system with superposed focuses
CN103293652A Fresnel lens system with focus position variable
CN103336356A Multi-focuses coincident Fresnel lens system
CN103336359A Fresnel lens system with overlapped focuses
CN103336357A Fresnel lens system with position adjustable focuses
CN103278917A Fresnel lens system with variable focuses
CN103259292A Method for reducing influence of rapidly-changed loads on power supply