+ All Categories
Home > Documents > Direct-acting room heaters WHICH IS THE BEST WAY TO VERIFY AND CERTIFY OUR PRODUCT'S PERFORMANCE?

Direct-acting room heaters WHICH IS THE BEST WAY TO VERIFY AND CERTIFY OUR PRODUCT'S PERFORMANCE?

Date post: 03-Jan-2016
Category:
Upload: patience-smith
View: 216 times
Download: 2 times
Share this document with a friend
Popular Tags:
14
Direct-acting room heaters WHICH IS THE BEST WAY TO VERIFY AND CERTIFY OUR PRODUCT'S PERFORMANCE?
Transcript

Direct-acting room heaters

WHICH IS THE BEST WAY TO VERIFY AND

CERTIFY OUR PRODUCT'S PERFORMANCE?

WHAT IS IT?

IT IS A THIRD PART APPROVAL ISSUED BY THE FRENCH

NATIONAL CERTIFICATION BODY "LCIE"

WHY IS IT IMPORTANT?

BECAUSE FRANCE REPRESENTS THE REFERENCE MARKET FOR ELECTRIC HEATING AND LCIE

HAS DEVELOPED INTERESTING AND OBJECTIVE METHODS TO CHECK HEATING PRODUCTS

PERFORMANCE.

WHICH ARE REFERENCE STANDARDS?

APPLICABLE STANDARDS ARE:

• EN60335-1 "Hosehold and similar electric appliances - Safety General Requirements"

• EN60335-2-30 "Particular requirements for room heaters"

• EN 60335-2-43: "Particular requirements for clothes dryers and towel rails"

• EN60675:"Household electric direct-acting room heaters: Methods for measuring performance"

• LCIE 103-13 "Cahier des charges de la marque NF Electricitè Performance"

NF PERFORMANCE REQUIREMENTS

1 - ENVIRONMENT

2 - SAFETY & RELIABILITY

2.1 - PROTECTION AGAINST ELECTRIC AND THERMAL SHOCKS

2.2 - AIR OUTLET TEMPERATURE

2.3 - SURFACE TEMPERATURE

2.4 - HEATING ELEMENT(S) RELIABILITY

3 - PARTICULAR REQUIREMENTS

1 - ENVIRONMENT

THE PRODUCT SHOULD NOT MAKE

THE WALL DIRTY

IN STEADY CONDITION AT NOMINAL

POWER THE TEMPERATURE RISE OF

THE SURFACE OVER THE HEATER

SHOULD NOT BE OVER 20°C

2 - SAFETY & RELIABILITY

2.1 - PROTECTION AGAINST ELECTRIC AND THERMAL SHOCKS

ACCESSIBILITY TESTS ARE MADE

WITH PROBES DIFFERENT FROM

THE ONES USED DURING SAFETY

APPROVAL

2 - SAFETY & RELIABILITY

2.2 - AIR OUTLET TEMPERATURE

AIR OUTLET GRID

TEMPERATURE RISE: MAX 100°C

2 - SAFETY & RELIABILITY

2.3 - SURFACE TEMPERATURETEST CONDITIONS

• THE PRODUCT IS RUN AT NOMINAL POWER INSIDE THE TEST ROOM.

• THE THERMOSTAT IS SET TO MAINTAIN A TEMPERATURE OF ABOUT 20±2°C

• A COLD AIR FLOW INSIDE THE TEST ROOM IS MODULATED SO THAT THE POWER CONSUMPTION NECESSARY TO MAINTAIN SET ROOM TEMPERATURE IS ABOUT:

• 20% OF MAXIMUM NOMINAL POWER TO SIMULATE REDUCED HEATING NEEDS

• 80% OF MAXIMUM NOMINAL POWER TO SIMULATE RELEVANT HEATING NEEDS

PRODUCT FUNCTIONING CHARACTERISTICS SHOULD BE THE SAME BOTH IN CASE OF HEAVY OR LIGHT HEATING

NECESSITY.

20%

80%

SURFACE TEMPERATURE DISPERSION

DIFFERENCE BETWEEN TEMPERATURE MEASURED IN DIFFERENT POINTS BOTH AT

20% AND 80% SHOULD NOT EXCEED 30°C

SURFACE TEMPERATURE STABILITY

DIFFERENCE BETWEEN THE MAX TEMPERATURE MEASURED IN EVERY

POINT BOTH AT 20% AND 80%SHOULD NOT EXCEED 15°C

2 - SAFETY & RELIABILITY

2.4 - HEATING ELEMENT(S) RELIABILITY

T1=MAX TEMP OF THE H.E. @ 244V

T2=0.75 T1

2500 CYCLES @ 400V

TIME CYCLE IS SET TO MAINTAIN H.E.

TEMP IN THE RANGE T1-T2

3 - PARTICULAR REQUIREMENS

3.1 ROOM TEMPERATURE DRIFT

MAX 1,5°C

20% 80%

3 - PARTICULAR REQUIREMENS

3.2 ROOM TEMPERATURE AMPLITUDE

MAX 0,5°C

20% 80%


Recommended