Double vane pump T6DC-050-028-1R01-B1 model analysis and technical parameters
1.T6DC-050-028-1R01-B1 Model Analysis
T6DC: Indicates the serial number of this double hydraulic pump.
050: Indicates the shaft-end pump displacement code for this double hydraulic pump.
028: Indicates the cover-end pump displacement code for this double hydraulic pump.
1: Indicates the shaft extension type of this fixed displacement vane pump.
R: Indicates the rotation direction of this fixed displacement vane pump.
01: Indicates the oil port location of this high-pressure hydraulic pump.
B: Indicates the design code of this high-pressure hydraulic pump.
1: Indicates the sealing grade of this vane hydraulic pump.
2. T6DC-050-028-1R01-B1 Technical Specifications
Maximum operating pressure: Intermittent pressure up to 280 bar, continuous pressure up to 240 bar
Shaft-end pump displacement: 158 ml/rev
Cap-end pump displacement: 88.8 ml/rev
Speed range: 600-2800 rpm
3.T6DC-050-028-1R01-B1 Product Features
Double design: Two independent pump bodies are connected in series to achieve different displacement combinations (shaft end pump displacement: 158 ml/rev, cover end pump displacement: 88.8 ml/rev), meeting the multiple pressure/flow requirements of complex hydraulic systems.
High-pressure performance: Rated working pressure reaches 280 bar, suitable for occasions requiring high-pressure output (such as injection molding machines, construction machinery).
High efficiency and energy saving: volumetric efficiency ≥90%, total efficiency ≥85%, using optimized blades and rotors to reduce energy loss.
Compact structure: The double-connected design reduces the axial length, saves installation space, and supports flange or base installation.
Low noise: Noise level ≤75dB(A), suitable for noise-sensitive environments.
4.T6DC-050-028-1R01-B1 Application Scenarios
Industrial hydraulic system: suitable for machine tools, plastic machinery, metallurgical equipment, engineering machinery and other occasions that require high pressure and low noise.
Space-constrained projects: A single drive motor drives two pumps, saving space and reducing energy consumption.
Energy saving requirements: The shaft end pump and the cover end pump can combine high and low pressure output to optimize system energy efficiency.