AFM051 Double-Sided Hydraulic Training Workbench Didactic Equipment Technical Training Hydraulic Training Workbench 1 Product Overview 1.1 Overview This hydraulic training device is designed with an open structure operation panel according to the requirements of the teaching syllabus for pneumatic, electrical and hydraulic control of mechatronics in colleges and universities, and combines the advantages of pneumatic relay control and hydraulic relay control experimental equipment. Various hydraulic components can be flexibly installed on the operation panel. All joints use two-end open and closed quick connectors to solve the problem of oil leakage in the hydraulic circuit. It is convenient and durable, reduces losses and is also conducive to maintaining environmental hygiene. The various components can be combined arbitrarily to form a hydraulic system with certain functions, which has strong practicality. 1.2 Features (1) The equipment is composed of a high-strength sheet metal frame, which is beautiful and durable. The bottom is equipped with universal wheels for easy movement; it is equipped with a cabinet for storing tools and devices, and the hydraulic station is integrated in the lower part of the equipment; the base plate for fixing various hydraulic valve blocks uses a special base plate profile, and the groove interval of the panel is 25mm, which can be conveniently plugged in and out of various components; the upper part is placed with various electric control hanging boxes, which is compact as a whole. (2) It is equipped with industrial series hydraulic valves, and the maximum working pressure can reach 35Mpa. Each hydraulic component is equipped with an oil circuit transition base plate, which can be easily and arbitrarily placed on the panel. The oil circuit overlap adopts an open and closed quick-change joint, which is easy to disassemble and does not leak oil. It reduces losses and is also conducive to maintaining environmental hygiene. 2 Performance parameters (1) Input power: AC: 220V (2) Laboratory workbench dimension: 1600mm (length) × 1000mm (width) × 1700mm (height) (3) Groove spacing: 25mm (4) Specifications: Cabinet: 1 (5) Desktop structure: 1 (6) Casters with cracks: 4 (7) Safety speed limit range: 1000-1500 rpm (8) When the hydraulic pump is working, the noise is ≤58dB0 at a distance of 1.5m from the hydraulic workbench (9) The pressure required for the demonstration experiment oil circuit flow is only 4-6Mpa (10) Oil tank: Nominal volume 35L 3 Product composition Front Reverse 3.1 Electrical control unit 3.2 Training workbench 3.4 Hydraulic components 1 Direct-acting overflow valve DBDH6P/100 2 Balancing valve DC6G-1-10B/50/ 3 Transparent double-acting hydraulic cylinder (pressure cannot exceed 1MPA) 4 Micro switch 5 Direct-acting pressure reducing valve FDR5DP1-10B 6 Pressure reducing valve (pilot type) PFIC-DR10/200Y 7 Diverter valve FJL-L10H 8 Speed regulating valve PFIC-2FRM5/6Q 9 Single-phase throttle valve MK6G 10 Sequence valve (pilot type) PFIC-DZ10/210M 11 Three-position three-way manual valve 12 Two-position four-way manual reversing valve 13 Two-position four-way solenoid reversing valve HYJF-4WE6D/AC 24V 14 Direct-acting relief valve DBDH6P/100 15 Hydraulic control check valve PFIC SV6PB2 16 Glycerin pressure gauge Pressure gauge YN-60/10MPA M14*1.5 external thread (without edge in the axial direction) 17 Direct-acting three-way pressure reducing valve: DR6DP-50/75 18 Hydraulic motor 19 Throttle valve MG6G 20 Bladder accumulator 6.3'L (nitrogen) 6Mpa 21 Hydraulic station 22 Double-acting hydraulic cylinder 23 Three-position four-way reversing valve (O) 4WMM6E50B/ 24 Flow meter (pressure cannot exceed 1MPA) 4 Experimental content: Experiment 1. Reversing circuit of manual reversing valve Experiment 2. Reversing circuit of electromagnetic reversing valve Experiment 3. Balancing circuit using sequence valve Experiment 4. Braking circuit using overflow valve Experiment 5. Buffering circuit using overflow valve Experiment 6. Throttling speed control circuit of oil inlet Experiment 7. Locking circuit using three-position four-way electromagnetic reversing valve Experiment 8. Load simulator experimental circuit Experiment 9. O-type three-position four-way reversing valve experiment Experiment 10. M-type three-position four-way reversing valve experiment Experiment 11. Y-type three-position four-way reversing valve experiment Experiment 12. Transparent hydraulic cylinder experiment Experiment 13. Counter module test experiment Experiment 14. Fault module test experiment Experiment 15. Screen module acquisition experiment
