IEC60598 Draught-proof test chamber for testing lamps temperature rise

IEC60598 Draught-proof test chamber for testing lamps temperature rise

USD $1,000 - $8,000 /Set

Min.Order:1 Set

Supply Ability:
10 Set / Sets per Month
Port:
shenzhen China
Payment Terms:
T/T Credit Card

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Brand Name:
BONAD
Place of Origin:
Guangdong, China
Model Number:
BND-FFZ
Power:
Electronic

Shenzhen Bonad Instrument Co., Ltd.

Credit Member 4 years
Business Type: Buying Office
Main Products: Gas Analyzers

Product Details

Product Description

IEC60598 Draught-proof test chamber for lamps temperature rise testing

This Draught-proof is designed according to standard IEC60598 and GB7000.1-2007. Applied to provide standard environment condition for lamps product temperature measurement.

The draught-proof applicable under normal operation and is detected lamps temperature air convection under abnormal operation,to prevent the effects of air temperature and thermal radiation from the light source to the sample.

It provides a standard environment for lighting products for testing organization and factory quality control departments. bottom surface of Draught-proof is made of solid wood, the remaining surface is made of a double-layer metal stencil, stencil spacing of 150mm, the ventilation rate of about 40%;

Detailed Images

Product parameters:


1, the housing structure: double hull rectangular metal structure

2, the door structure: two-door (open outwards)

3, the inner space: 1800x1800x2000mm (LWH)

4, the outer dimensions: 2100x2100x2150mm (LWH)

5, level spacing: 150mm

6, the panel aperture: 2mm

7, the effective orifice area: 40% of the total area

8, Case Material: 1mm cold plate (matt black spray)

9, the bottom of the material: 18mm plywood (surface spray black)

10, reference standards: GB7000.1-2007/IEC60598 Appendix D

Relative standard

IEC 60598 Annex D Draught-proof enclosure

The following recommendations refer to the construction and use of a suitable draught-proof enclosure for luminaires, as required for the tests of normal and abnormal operation. Alternative constructions for draught-proof enclosures are suitable if it is established that similar results are obtained.


The draught-proof enclosure is rectangular, with a double skin on top and on at least three sides, and with a solid base. The double skins are of perforated metal, spaced approximately 150 mm apart, with regular perforations of 1 mm to 2 mm diameter, occupying about 40 % of the whole area of each skin.

The internal surfaces are painted with a matt paint. The three principal internal dimensions are each at least 900 mm. There shall be a clearance of at least 200 mm between the internal surfaces and any part of the largest luminaire for which the enclosure is designed.

NOTE If it is required to test two or more luminaires in a large enclosure, care should be taken that radiation from one luminaire cannot affect any other.

There is a clearance of at least 300 mm above the top of the enclosure and around the perforated sides. The enclosure is at a location protected as far as possible from draughts and sudden changes in air temperature; it is also protected from sources of radiant heat.

A luminaire under test is positioned as far away as possible from the six internal surfaces of the enclosure. The luminaire is mounted (subject to the requirements of 12.4.1 and 12.5.1) as under service conditions.

A luminaire for direct fixing to a ceiling or wall should be fixed to a mounting surface comprising a wood or wood-fibre board. A non-combustible insulating material is used if the luminaire is not suitable for mounting on a combustible surface. The board is 15 mm to 20 mm thick, and extends not less than 100 mm (but preferably not more than 200 mm) beyond the normal projection of the smoothed outline of the luminaire. There is a clearance of at least 100 mm between the board and the internal surfaces of the enclosure. The board is painted black with a matt non-metallic paint.

A luminaire for corner-fixing is fixed in a corner comprising two boards, each complying with the preceding requirements.

A third board is required if the luminaire is to be fixed in a vertical corner immediately below a simulated ceiling.

Luminaires shall not cause the recess to attain temperatures likely to cause a hazard or fire risk and compliance is checked by the following test.

Recessed luminaires are mounted in a test recess, consisting of a suspended ceiling, on top of which is a rectangular box with vertical sides and horizontal top.

The suspended ceiling is made of a 12 mm thick porous wood-fibre board, in which a suitable opening has been made for the luminaire. The wood-fibre board shall extend at least 100 mm outside the projection of the luminaire on this board. The vertical sides of the box are made of 19 mm thick laminated wood and the top of 12 mm thick porous wood-fibre board tightly sealed to the sides.

a) Luminaires for recessing into ceilings with thermal insulating material covering the

Luminaire Sealed box with thermal insulating material tightly fitted to the outside of the box. The thermal insulation shall be equivalent to two 10 cm thick layers of mineral wool with a coefficient of thermal resistivity of 0,04 W/(m.K). Thinner layers can be used when having a higher thermal resistivity. The thermal resistance of the test box shall in any case be at least 5 m2 K/W.

b) Luminaires for recessing into ceilings but not suitable for covering with thermal insulating material

For recessed luminaires of this kind, the test recess shall be of the same materials as described above.
The sides and top of the box shall be spaced from the luminaire in accordance with the manufacturer’s instructions supplied with the luminaire. If no spacing is specified, the sealed box shall touch the luminaire all around.

If a luminaire is provided with separate parts intended for recessed mounting, (for example, with separate lamp enclosure and control gear enclosure), the test recess shall be constructed as a single box observing the manufacturers recommendations for minimum spacing between parts and the inside of the recess (see Figure D.1). Where spacing between parts is not specified (item a of Figure D.1), separate test recesses shall be used for each part.

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