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Extract from the Register of European Patents

EP About this file: EP2847560

EP2847560 - METHOD FOR MEASURING AND CALCULATING A HEAT FLUX [Right-click to bookmark this link]
Former [2015/12]HEAT TRANSFER MEASUREMENT AND CALCULATION METHOD
[2020/03]
StatusNo opposition filed within time limit
Status updated on  07.05.2021
Database last updated on 25.09.2024
FormerThe patent has been granted
Status updated on  29.05.2020
FormerGrant of patent is intended
Status updated on  27.01.2020
FormerExamination is in progress
Status updated on  04.08.2017
Most recent event   Tooltip06.09.2024Lapse of the patent in a contracting state
New state(s): MT		published on 09.10.2024 [2024/41]
Applicant(s)For all designated states
Mischke, Gerald
Stettenerstrasse 31
71384 Weinstadt-Endersbach / DE
[2015/12]
Inventor(s)01 / see applicant
...
 [2015/12]
Representative(s)RDL Patentanwälte PartG mbB
Senefelderstrasse 26
70176 Stuttgart / DE
[N/P]
Former [2020/27]Raible Deissler Lehmann Patentanwälte PartG mbB
Senefelderstrasse 26
70176 Stuttgart / DE
Former [2015/12]Hössle Patentanwälte Partnerschaft
Postfach 10 23 38
70019 Stuttgart / DE
Application number, filing date13727043.510.05.2013
[2020/27]
WO2013EP01385
Priority number, dateDE2012100908009.05.2012         Original published format: DE102012009080
[2015/12]
Filing languageDE
Procedural languageDE
PublicationType: A2 Application without search report
No.:WO2013167278
Date:14.11.2013
Language:DE
[2013/46]
Type: A2 Application without search report 
No.:EP2847560
Date:18.03.2015
Language:DE
The application published by WIPO in one of the EPO official languages on 14.11.2013 takes the place of the publication of the European patent application.
[2015/12]
Type: B1 Patent specification 
No.:EP2847560
Date:01.07.2020
Language:DE
[2020/27]
Search report(s)International search report - published on:EP03.01.2014
ClassificationIPC:G01J5/10, G01J5/00, G01K17/00, G06F30/13, G06F119/08
[2020/08]
CPC:
G01J5/10 (EP,US); G01K17/06 (US); G01K13/02 (US);
G01K17/00 (EP,US); G06F30/13 (EP,US); G01J2005/0077 (EP,US);
G06F2119/08 (EP,US) (-)
Former IPC [2020/03]G01J5/10, G01J5/00, G01K17/00, G06F17/50
Former IPC [2015/12]G01J5/10, G01C11/00, G06F17/50, G06T7/00
Designated contracting statesAL,   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 [2015/12]
Extension statesBANot yet paid
MENot yet paid
TitleGerman:VERFAHREN ZUM MESSEN UND BERECHNEN EINES WÄRMETRANSPORTS[2015/12]
English:METHOD FOR MEASURING AND CALCULATING A HEAT FLUX[2020/03]
French:PROCEDE DE MESURE ET DE CALCULE D'UN FLUX DE CHALEUR[2020/03]
Former [2015/12]HEAT TRANSFER MEASUREMENT AND CALCULATION METHOD
Former [2015/12]PROCÉDÉ DE MESURE ET DE CALCUL D'UN TRANSPORT DE CHALEUR
Entry into regional phase08.12.2014National basic fee paid 
08.12.2014Designation fee(s) paid 
08.12.2014Examination fee paid 
Examination procedure08.12.2014Examination requested  [2015/12]
24.07.2015Amendment by applicant (claims and/or description)
04.08.2017Despatch of a communication from the examining division (Time limit: M06)
09.02.2018Reply to a communication from the examining division
08.05.2019Despatch of a communication from the examining division (Time limit: M06)
22.10.2019Reply to a communication from the examining division
28.01.2020Communication of intention to grant the patent
04.05.2020Fee for grant paid
04.05.2020Fee for publishing/printing paid
04.05.2020Receipt of the translation of the claim(s)
Divisional application(s)The date of the Examining Division's first communication in respect of the earliest application for which a communication has been issued is  04.08.2017
Opposition(s)06.04.2021No opposition filed within time limit [2021/23]
Fees paidRenewal fee
28.05.2015Renewal fee patent year 03
30.05.2016Renewal fee patent year 04
30.05.2017Renewal fee patent year 05
29.05.2018Renewal fee patent year 06
21.05.2019Renewal fee patent year 07
19.05.2020Renewal fee patent year 08
Opt-out from the exclusive  Tooltip
competence of the Unified
Patent Court		 See the Register of the Unified Patent Court for opt-out data
Responsibility for the accuracy, completeness or quality of the data displayed under the link provided lies entirely with the Unified Patent Court.
Lapses during opposition  TooltipHU10.05.2013
AL01.07.2020
CY01.07.2020
CZ01.07.2020
DK01.07.2020
EE01.07.2020
ES01.07.2020
FI01.07.2020
HR01.07.2020
IT01.07.2020
LT01.07.2020
LV01.07.2020
MC01.07.2020
MK01.07.2020
MT01.07.2020
PL01.07.2020
RO01.07.2020
RS01.07.2020
SI01.07.2020
SK01.07.2020
SM01.07.2020
TR01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
[2024/41]
Former [2024/29]HU10.05.2013
AL01.07.2020
CY01.07.2020
CZ01.07.2020
DK01.07.2020
EE01.07.2020
ES01.07.2020
FI01.07.2020
HR01.07.2020
IT01.07.2020
LT01.07.2020
LV01.07.2020
MC01.07.2020
MK01.07.2020
PL01.07.2020
RO01.07.2020
RS01.07.2020
SI01.07.2020
SK01.07.2020
SM01.07.2020
TR01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
Former [2024/22]HU10.05.2013
AL01.07.2020
CY01.07.2020
CZ01.07.2020
DK01.07.2020
EE01.07.2020
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HR01.07.2020
IT01.07.2020
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MK01.07.2020
PL01.07.2020
RO01.07.2020
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SI01.07.2020
SK01.07.2020
SM01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
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PT02.11.2020
Former [2023/30]HU10.05.2013
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CY01.07.2020
CZ01.07.2020
DK01.07.2020
EE01.07.2020
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HR01.07.2020
IT01.07.2020
LT01.07.2020
LV01.07.2020
MC01.07.2020
PL01.07.2020
RO01.07.2020
RS01.07.2020
SI01.07.2020
SK01.07.2020
SM01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
Former [2023/27]HU10.05.2013
AL01.07.2020
CZ01.07.2020
DK01.07.2020
EE01.07.2020
ES01.07.2020
FI01.07.2020
HR01.07.2020
IT01.07.2020
LT01.07.2020
LV01.07.2020
MC01.07.2020
PL01.07.2020
RO01.07.2020
RS01.07.2020
SI01.07.2020
SK01.07.2020
SM01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
Former [2022/07]AL01.07.2020
CZ01.07.2020
DK01.07.2020
EE01.07.2020
ES01.07.2020
FI01.07.2020
HR01.07.2020
IT01.07.2020
LT01.07.2020
LV01.07.2020
MC01.07.2020
PL01.07.2020
RO01.07.2020
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SI01.07.2020
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BG01.10.2020
NO01.10.2020
GR02.10.2020
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PT02.11.2020
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SK01.07.2020
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BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
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EE01.07.2020
ES01.07.2020
FI01.07.2020
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LT01.07.2020
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RO01.07.2020
RS01.07.2020
SK01.07.2020
SM01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
Former [2021/25]AL01.07.2020
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ES01.07.2020
FI01.07.2020
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IT01.07.2020
LT01.07.2020
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BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
Former [2021/22]CZ01.07.2020
DK01.07.2020
EE01.07.2020
ES01.07.2020
FI01.07.2020
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IT01.07.2020
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LV01.07.2020
PL01.07.2020
RO01.07.2020
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BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
Former [2021/20]CZ01.07.2020
DK01.07.2020
ES01.07.2020
FI01.07.2020
HR01.07.2020
IT01.07.2020
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LV01.07.2020
PL01.07.2020
RS01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
Former [2021/11]CZ01.07.2020
ES01.07.2020
FI01.07.2020
HR01.07.2020
LT01.07.2020
LV01.07.2020
PL01.07.2020
RS01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
IS01.11.2020
PT02.11.2020
Former [2021/09]CZ01.07.2020
ES01.07.2020
FI01.07.2020
LT01.07.2020
BG01.10.2020
NO01.10.2020
GR02.10.2020
PT02.11.2020
Former [2021/08]ES01.07.2020
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Former [2021/07]FI01.07.2020
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Former [2021/01]BG01.10.2020
Cited inInternational search[XY]JP2000206268  (TAISEI CORP) [X] 1,13,15 * abstract * [Y] 4,5,7,8,12;
 [I]US6422743  (NIRMALAN NIRM V [US], et al) [I] 1,13,15 * column 2, line 64 - column 6, line 60; figures 4,5 *;
 [Y]US2003160757  (SHIRAI MASAMI [JP], et al) [Y] 8,12 * paragraphs [0034] - [0046]; figures 1,7 *;
 [XY]  - REVEL G M ET AL, "Paper;Development and experimental evaluation of a thermography measurement system for real-time monitoring of comfort and heat rate exchange in the built environment;Development and experimental evaluation of a thermography measurement system for real-time monitoring of comfort and heat rate exchan", MEASUREMENT SCIENCE AND TECHNOLOGY, IOP, BRISTOL, GB, (20120201), vol. 23, no. 3, doi:10.1088/0957-0233/23/3/035005, ISSN 0957-0233, page 35005, XP020219569 [X] 1-3,6,9-11,13-15 * Section 2.3, 2.4; pages 2-6; figures 1,7 * [Y] 4,5,7,8,12

DOI:   http://dx.doi.org/10.1088/0957-0233/23/3/035005
 [X]  - T ASTARITA ET AL, "A survey on infrared thermography for convective heat transfer measurements", OPTICS & LASER TECHNOLOGY, (20001001), vol. 32, no. 7-8, doi:10.1016/S0030-3992(00)00086-4, ISSN 0030-3992, pages 593 - 610, XP055082176 [X] 1,4 * section 2 and 4.1.1, equations 5 and 10 *

DOI:   http://dx.doi.org/10.1016/S0030-3992(00)00086-4
 [Y]  - JONAS ALLEGRINI ET AL, "Analysis of convective heat transfer at building faà PRG ades in street canyons and its influence on the predictions of space cooling demand in buildings", JOURNAL OF WIND ENGINEERING AND INDUSTRIAL AERODYNAMICS, vol. 104, doi:10.1016/J.JWEIA.2012.02.003, ISSN 0167-6105, (20120224), pages 464 - 473, (20120207), XP028429912 [Y] 4 * Abstract, section 2.3; page 467 *

DOI:   http://dx.doi.org/10.1016/j.jweia.2012.02.003
 [A]  - STRAND R K ET AL, "Modeling radiant heating and cooling systems: integration with a whole-building simulation program", ENERGY AND BUILDINGS, LAUSANNE, CH, vol. 37, no. 4, ISSN 0378-7788, (20050401), pages 389 - 397, (20050401), XP027756761 [A] 5,7 * section 1. Introduction; page 389 *
 [Y]  - Wolfgan Feist, "Passiv-VerwaltungsgebäudeWagner & Co. in Cölbe", (200202), URL: http://www.enob.info/fileadmin/media/Publikationen/EnBau/Projektberichte/03_MonitoringAB2_Wagner_p2_k.pdf, (20131014), XP002714823 [Y] 5,7 * page 13, paragraph 1 * * page 15, paragraph 2 *
 [Y]  - JONATHAN D MARKLEY ET AL, "Hybridization of Photogrammetry and Laser Scanning Technology for As-Built 3D CAD Models", 2008 IEEE AEROSPACE CONFERENCE; 1-8 MARCH 2008; BIG SKY; MT, USA, IEEE, PISCATAWAY, NJ, USA, (20080301), ISBN 978-1-4244-1487-1, pages 1 - 10, XP031256520 [Y] 8 * Section 4; pages 4-7 *
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