This standard specifies the general technical requirements for A-type, B-type, BT-type, ED-type, G-type, K-type, M-type, P-type, R-type and T-type glass bulbs for electric light sources. This standard is applicable to A-type, B-type, BT-type, ED-type, G-type, K-type, M-type, P-type, R-type and T-type glass bulbs for electric light sources. Other types of glass bulbs for electric light sources can also refer to this standard. QB/T 2513-2001 General Technical Requirements for Glass Bulbs for Electric Light Sources QB/T2513-2001 Standard Download Decompression Password: www.bzxz.net

Classification No. K74
Record No. 9110—2001
Light Industry Standard of the People's Republic of China
QB/T2513—2001
General Technical Conditions for Glass Bulbs for Electric Light SourcesbZxz.net
Published on July 16, 2001
China Light Industry Federation
Implementation on November 1, 2001
QB2513-20C1
This standard is a professional standard issued by the Ministry of Light Industry. It is based on the technical regulations of 006199 Glass Bulbs for Electric Light Sources issued on March 3! This standard is issued by the Ministry of Light Industry [1999] No. 112 document and converted to the standard number QB/T3577-1999. The content is the same as the previous one! The content is revised and ED type glass bulb (internationally popular glass bulb type) is added. This standard was issued by the General Business Department of the China Light Industry Federation in 2001. This standard was implemented by the National Center for Standardization of Electric Light Sources. The unit that initiated this standard is Beijing Glassware Factory. The main owners of this standard are Liu Jiayan and Li Xingjiang. It will be implemented from one of the three standards: the original national light industry industry standard (B3519 Technical Conditions for Electric Light Source Glass).
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Light Industry Standard of the People's Republic of China
General Technical Specifications for Glass Shell for Electric Light Sources
QB/T25132001
Replaced QBT 3577-[999
This standard defines the A type, B type, BT type, EU type, G type, K type, M type, P type, R type for electric light source. This standard is applicable to A-type, B-type, BT-type, ED-type, G-type, K-type, M-type, P-type, R-type and T-type housings for electric light sources. Other types of electric light source housings can also be used as references in this standard. 2 Referenced standards The following standards contain provisions that are referenced in this standard and constitute the text of this standard. When this standard is published, all minor versions are valid: All parts of this standard will be revised, so the members of this standard shall use the latest version available. Possibility.
G191-1990 Packaging, storage and transportation indication signs
G/T2828-1987 Counting table for inspection by method (suitable for continuous inspection) G/T2R29-1937 Counting table for periodic inspection (suitable for process stability control) QB/T1112-1991
Nomenclature of electric light source models
QBT2049.1-1994 Power supply A-type glass filling size series QB/T 20M9.21994
QU/T 2049.31994
QB/F 2049.4-1994
Q月/T 2019.5—1994
Light source glass shell size series
Power supply shell BT type glass shell size series
Electric light source glass shell G type glass shell size series
Electric light source glass K type glass size series
QH2049.6-1994Electric light source shell M type shell size seriesQB/T 2049.7—1994
OB/r2049.8:1994
Electric light source wave shell P type Jun shell size series
Electric light source glass R glass old size series
QB2049.9-1994Electric light source wave shell T type block Kang Ke size seriesQB/T2049.10—1999
Power supply glass shell, ED type glass shell size series
QB/T2451-[999DGW233 type and D 3W240 type electric light source glass soil main technical data QB/T3579.21999 TXR421 type electric light source wave extraction main technical data QB/T3579.3-1999 DGB422 electric light source equipment main technical data 3 Defect terminology 3.1 Gas grooves Gas-filled holes include circular, circular, continuous, dot-shaped gas holes and thin-skin bubbles and broken-skin bubbles 3.2 Thin gas bubbles that can be broken with fingernails or human head needles. Approved by China Light Industry Federation on 200T-07-16 and implemented on 2001-11-01 3.3 Avoid skin gas bubbles.
QB/T2513-2001
3.4 ​​Nodules
Transparent nodules in the glass due to uneven mixing of glass batch materials or imperfect melting. 3.5 Stones
Opaque solid inclusions in glass. There are mixed stone, refractory stone and product stone. 3.6 Effect
Linear or ribbon-shaped glass with different refractive indices. 3. Shears
When the shear blade cuts the glass: The traces left after forming. 3.8 The mold seal
The solid gas bed is too large and the inner surface of the mold seals, resulting in the appearance of the shell. 3.9 Stain
The stains on the inner and outer surfaces of the glass shell are too large,
3.10 Touch mark
The defect of the glass shell is not in line with the corresponding base. 3.11 The shell is too long and the shell quality is sunken. 3.12 The base of the glass flow is too high to form a convex part. 3.13 The thickness of the belly wall
The difference between the maximum and minimum thickness of each part of the glass on the surface. 3.14 The top of the tip and the bottom of the edge
The shape of the broken element does not meet the requirements of the design drawing. 4.1 Classification
The shell is divided into two categories: soft shell and soft shell. 4.2 Type and size
The shell model and size shall comply with the provisions of QB 2049.1-2 (49.10) 5 Technical requirements
5.1 The chemical composition and chemical properties of the glass shell shall comply with the relevant forest quality standards. 5.2 The glass shell shall be transparent, colorless or slightly yellow, slightly blue, 5.3 Appearance requirements
The position above the light seal shall not have the following requirements 5.3.1 There shall be no defects.
5.3.2 The shell shall not have defects such as knots and gas. 5.3.3 The knots of the hard shell shall not exceed the values ​​specified in Table 1. 5.3.4 There shall be no skin bubbles and broken gas pools. YY KAN KAA-
QB/T2513-2001
5.3.5 The core of the material should not have a gas flow greater than 1mm in diameter. 5.3.6 The gas flow in the hardness test part should not exceed the value specified in Book 2. The amount of the glass bulb should not exceed the value specified in Table 1. Wide conductor type AB BT, RD, GK, M, P. R
A, I, BT, ED, G. K, M, P, R
BT, ED, G,M, P,R
HT, G. P,K
Full specification
060-100
中101--+ E50
$61~80
diameter 4mam
0.5xdc1.5
diameter and number of tubercle
interval between tubercle>50mm
including the interval of 50mm
filling number
1 section cannot fall on the center of the light emission, emitting light! ! The center refers to the shell of the 3-screen lamp or the projection height of the intelligent projection, the horizontal line of the lamp or the horizontal line of the head, the light emission position of the bulb, the supply and demand double and the business history 2*"three" table is not lacking in the effective reduction, positive! Length axis/2 determines the table 2
quality glass light refractory period out of a pool of numbers
double meat hope to lead chaos economy
A. B, BI. ED. G,K.
A. B, LT. ED. G, K.
61~10u
$1-·-$60
RT:FD,G,M,T, E
+1--~+50
01-460
B7. G, P,Rd1502.0<3.02:
The original pool space is greater than 30mt
The bubble space can be greater than 5m
Scope and light and individual effect
3.0.2.0.5
1.02:1.5 1300 2d-1.0
The "optimal diameter" in the table is determined by the (long axis! touch)/2 of the air fall diameter. As long as the total number of gas injections does not exceed the specified allowable total number, the cable volume can be reduced according to the "(bubble diameter, diameter, d; "filling discussion
Bubbles with a diameter smaller than (.2mm) are generally not evaluated. In particularly light cases, the sample comparison method can be used for inspection. The products are based on the white production and format determined by the manufacturer.
diameter is greater than.The bubble with a diameter of more than 5 mm shall not be in the center of the T-shaped high luminous center, and the bubble with a diameter of less than 5 m shall fall in the closed area, and the luminous part of the bulb shall be determined by both the supply and demand parties. The "shell type and specification" shall be changed according to the specification specified in 4.2 of this standard. 3
53.3.7 The following dead sinks shall not exist:
QBT2513—2001
company) obvious hemp top, pointed top, flat top and sound: b) small cracks;
) obvious stripes;
d obvious waves:
obvious circle marks:
obvious magnetic mold marks:
B) obvious types;
h) obvious stains.
Test method
Chemical composition and physical properties of glass
Chemical composition and physical properties of glass are measured by standard test method and 62-inch
Vernier caliper with an accuracy of m. 5.3 Appearance requirements
Weekly and monthly test method or sample comparison test: There is a suggestion to inspect with a standard industry flash and 10 magnifying glass: the thin gas pool is inspected by the force method of breaking with a human head needle: the broken gas pool is the thin skin gas pool. Note: It is advisable to adopt a more comparative test method, and the supply and demand parties can also agree on the inspection rules separately
7.1 Inspection categories
Product inspection is divided into acceptance inspection and thorough inspection. 7.2 Delivery inspection
7.21 Inspection items and requirements
When delivery is completed, the inspection shall be carried out according to the items and requirements specified in the technical regulations. Products that pass the inspection shall be allowed to be delivered. The delivery of products shall be accompanied by a certificate.
3.2.2 Inspection method
Dial GT282 for inspection.
7.2.3 Batch card
Delivery inspection is completed. Products of the same specification in the same period are considered as a batch. 7.2.4 Sample throwing method
Use the regular inspection-secondary sample throwing plan
7.2.5 Shell leveling and qualified quality level
The level of inspection and qualified quality level shall be in accordance with the provisions of Table 4. 7.3 Routine inspection shall be carried out once a year. All samples for routine inspection shall be taken from the products that have passed the inspection. 7.4 The sampling rate of the inspection group shall comply with the regulations of the whole department. The items to be inspected shall be carried out by normal secondary inspection. The discrimination level and the excluding level HOL shall comply with the provisions of Table 5. Separation
Small Kumin pattern
Killing pattern, cutting macro, Maowei seal
Silicon probe, loss, French invitation
Rui Zhi, packaging, transportation, storage
QB/T2513—2001
And technical requirements
5.3.2--5.3.6
Technical requirements
5.3.2--5.1.6
5.3.2--53.6
.3.7 *~c
8.1.1 The punctuation of the filter box should comply with G month 19! 8.1.2 The packing shall be affixed with a certificate issued by the quality control and inspection department. The certificate shall indicate the date: a) glass bulb specification: b) manufacturer name, manufacturer number, address, content: c) weight of the whole box of products: production inspection date: e) product standard number: f) quality control and inspection department signature. 8.2 Packaging The glass bulb is specially packed. The packaging box shall have the following content: a) manufacturer name, factory name, telephone number, zip code: 5) qualified quality level: unqualified quality level: b) manufacturer classification and number: glass bulb is:
QR/T 2513—2001
6.3 Transportation
Aquatic products must not be thrown out of the suburbs when they reach the transportation stage, and measures must be taken to prevent damage during transportation. 8.4 Storage
The glass shells should be stored in a windproof warehouse after being packed. The humidity in the cabinet should not exceed 85%, and there should be no corrosive gases in the air. The storage period of the quality glass shells should not exceed one year, and the storage period of the quality glass shells should not exceed half of the period. -IYY KAN KAA-4 Storage
The glass shell should be stored in a windproof warehouse after being packed. The humidity of the cabinet should not be greater than 85%. There should be no corrosive gas in the air. The storage period of the quality glass shell should not exceed one year, and the storage period of the quality glass shell should not exceed half of the period. -IYY KAN KAA-4 Storage
The glass shell should be stored in a windproof warehouse after being packed. The humidity of the cabinet should not be greater than 85%. There should be no corrosive gas in the air. The storage period of the quality glass shell should not exceed one year, and the storage period of the quality glass shell should not exceed half of the period. -IYY KAN KAA-
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