JB/T 7243-1994 Method for compiling centrifugal extractor models

This standard specifies the model compilation method of centrifugal extractors (hereinafter referred to as extractors). JB/T 7243-1994 Model compilation method of centrifugal extractors JB/T7243-1994 Standard download decompression password: www.bzxz.net

Mechanical Industry Standard of the People's Republic of China
JB/T724394
Method for compiling the model of centrifugal extractors
Published on July 18, 1994
Ministry of Machinery Industry of the People's Republic of China
Implementation on July 1, 1995
Method for compiling the model of centrifugal extractors
1 Subject content and scope of application
This standard specifies the method for compiling the model of centrifugal extractors (hereinafter referred to as centrifugal extractors). 2 Method for compiling the model
JB/T724394
2.1 The model of the extractor consists of three parts: basic code, main parameters, and material code of the part of the drum that contacts the separated materials. The expression method is as follows:
Retrofit code
Material code of the part of the drum in contact with the separated material Main parameters
Basic code
2.2 The basic code of the extractor model is compiled according to the classification principle of class, group and type, and its code should comply with the provisions of Table 1. Class represents centrifugal extraction unit
High-speed centrifugal extractor
Represents the drum type: Type
Frequency type
Represents the basic structure of mixed extraction.
2.3 The main parameters of the lifting machine are expressed in terms of the nominal size of the maximum inner diameter of the drum, in mm. 2.4 The material code of the drum in contact with the separated material should comply with the provisions of Table 2. Approved by the Ministry of Machinery Industry on July 18, 1994
Flow type
Static mixing type
Pump wheel type
Orifice plate type
Agitator wheel type
Hydrogen transfer type
Flow channel type
Static mixing Combination
Implemented on July 1, 1995
Speed ​​and separationMaterial of parts in contact with materials
Ketone-etched steel
Carbon steel
Metal layer
Plastic layer
JB/T7243-94
When the structure or performance of the extractor has been significantly changed, the modification code shall be added with capital letters A, B, C2.5 at the end of the original model in sequence to distinguish them.
Model marking example:
Chamber flow channel type centrifugal extractor. The maximum inner diameter of the drum is 560mm, the drum material is corrosion-resistant steel, the first modified design: CSL560-NA centrifugal benzene extractor
Tube orifice plate type centrifugal extractor, the maximum inner diameter of the drum is 105mm, the drum material is titanium alloy: CGK105T centrifugal extractor
Spiral static mixing centrifugal extractor, the maximum inner diameter of the large end of the drum is 450mm, the drum material is coated with a metal coating: CLJ450-J centrifugal extractor
Structural type
Extractors are classified according to their drum structure and extraction and mixing characteristics It can be divided into the following 10 types: a.
CSL type centrifugal lifting machine (see Figure 1);
CSK type centrifugal extraction machine (see Figure 2);
CDB type centrifugal extraction machine (see Figure 3);
CGK type centrifugal lifting machine (see Figure 4);
CTL type centrifugal extraction machine (see Figure 5);
CTX type high-core benzene extraction machine (see Figure 6);
CTC type centrifugal extraction machine (see Figure 7);
CLL type centrifugal extraction machine (see Figure 8);
CLJ type centrifugal lifting machine (see Figure 9);
CDJ type centrifugal extraction machine.
JB/T7243—94
Figure 1CSL centrifugal extractor
Figure 2CSK centrifugal benzene extractor
Figure 4CGK centrifugal extractor
JB/T7243-94
Figure 3CDB centrifugal benzene extractor
Figure 5CTL centrifugal extractorbzxz.net
JB/T7243-94
Figure 6CTX centrifugal extractor
Figure 7CTC type centrifugal extractor
JB/T7243-94
Figure 8CLL type centrifugal extractor
Figure 9CLJ type centrifugal extractor
To: In Figures 1 to 9, 1-light liquid phase inlet, 2-heavy liquid phase inlet, 3-light liquid phase outlet, 4-heavy liquid phase outlet, 5-sinking flow outlet, additional instructions:
This standard is proposed by the National Technical Committee for Separation Machinery Standardization. This standard is under the jurisdiction of the Hefei General Machinery Research Institute of the Ministry of Machinery Industry. This standard was drafted by Guangzhou Heavy Machinery Factory at its own expense. The main drafters of this standard are Zhang Lihua and Ying Hongguang.
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