GY12/GYS12/GYH12 Flanged Coupling – 150–200mm Bore Rigid Flange Coupling GB/T5843-2003

The GY12/GYS12/GYH12 flanged coupling is the most widely used rigid coupling for 150–200mm shaft connections. 460mm OD, 50000 N·m rated torque, 2000 rpm, GB/T5843-2003. Three subtypes: GY (hinge bolt), GYS (alignment boss), GYH (ring type). Zero backlash, 285.6kg.

Description

GY12/GYS12/GYH12 Flanged Coupling – 150–200mm Bore Rigid Flange Coupling to GB/T 5843-2003

The GY12/GYS12/GYH12 type flanged coupling is the most widely used rigid coupling for cylindrical shaft connections in industrial machinery — conforming to Chinese national standard GB/T 5843-2003. Three structural subtypes are available within each model number: GY type, which uses a hinge bolt hole system allowing assembly and disassembly without moving the coupling along the axial direction; GYS type, which adds a precision alignment boss (凸楔) at the flange mating face to ensure accurate shaft concentricity on reassembly without realignment measurement; and GYH type, which uses a ring (sleeve) design that assembles and disassembles by axial movement. All three subtypes share the same outer diameter (460 mm), bore range (150–200 mm), nominal torque (50000 N·m), and maximum speed (2000 rpm). The largest model in the GY series, GY12/GYS12/GYH12 at 50,000 N·m and 150–200 mm bore serves the most demanding rigid flanged coupling applications — primary mill drives, large mine hoisting equipment, and major industrial processing plant motor connections at the upper limit of the GB/T 5843-2003 standard.

The coupling transmits torque through a bolted flange joint — each hub mounts on one shaft via keyway and key, and the two hub flanges are bolted together with reamed-hole precision bolts. This provides a rigid, zero-backlash connection with no flexible elements. The GY-type hinge bolt design allows the coupling to be disconnected by removing the flange bolts without requiring either shaft to move axially — a significant maintenance advantage over sleeve couplings. The GYS-type alignment boss further improves maintenance efficiency by ensuring the two hub halves re-centre precisely on reconnection, eliminating the need for dial indicator verification after each coupling reconnection in planned maintenance schedules.

Shaft hole dimensions and keyway forms comply with GB3852-1997. Both Y-type and J-type bores are available; tapered bores are also available. The complete GY/GYS/GYH coupling series is listed on our product catalog page.

Technical Specifications

Parameter Value
Model Numbers GY12, GYS12, GYH12
Standard GB/T 5843-2003
Bore Range (d1, d2) 150–200 mm
Outer Diameter (D) 460 mm
Flange Boss Width (b) 92 mm
Ring Width (b1, GYH) 112 mm
Face Gap (S) 12 mm
Nominal Torque (Tn) 50000 N·m
Maximum Speed [n] 2000 rpm
Rotational Inertia 5.923 kg·m²
Mass (approx.) 285.6 kg
Material Cast Iron (HT200) standard; cast steel available
Bore Type Y-type, J-type, or tapered bore

GY, GYS and GYH Subtype Dimension Reference

GY GYS GYH type flanged coupling dimension drawing 150–200mm bore 460mm OD

Three Subtype Comparison

GY Type – Hinge Bolt

The standard GY type uses a hinge bolt hole system. Assembly and disassembly are performed by removing the flange bolts — no axial shaft movement required. This is the simplest GY subtype and is specified when maintenance reconnection frequency is low or when realignment is acceptable.

GYS Type – Alignment Boss

GYS type adds a precision alignment boss (凸楔) at the flange mating face. When reassembled after maintenance, the boss centres the two hub halves concentrically, eliminating realignment measurement. Specified where frequent planned maintenance disconnection is required and realignment time must be minimised.

GYH Type – Ring Design

GYH type uses a ring (sleeve) structural element and assembles by axial movement along the shaft. This method suits installations where the coupling geometry requires axial assembly access. Processing convenience is noted as a feature; disassembly also moves along the axial direction.

Zero Backlash – All Subtypes

All three GY subtypes transmit torque through rigid bolted flange joints and key-keyway shaft connections — providing absolute zero backlash. The rated 50000 N·m and 2000 rpm apply equally to GY, GYS, and GYH configurations.

Manufacturing Quality

Ever Power GY GYS GYH flanged coupling manufacturing quality

Typical Applications

  • Large industrial drive motor connections — primary conveyor, mill, and agitator rigid flanged coupling
  • Power station auxiliary drive connections — boiler feed pump and forced draft fan motor shaft coupling
  • Large API process pump motor connections — GYS type for planned maintenance efficiency
  • Heavy industrial equipment drive shaft connections — highest-torque rigid flanged coupling in the GY series

For volume supply and custom bore configurations, visit our contact page.

Customer Reviews and Case Studies

★★★★★

Germany — Large Mining Equipment OEM

The GY12, GYS12, and GYH12 type couplings represent the top of the GY flanged coupling range at 50,000 N·m. At this torque level and 2,000 rpm maximum speed, the coupling covers our largest primary conveyor, mill, and agitator drive motor connections.

— Chief Engineer, Düsseldorf

★★★★★

Australia — Large Mineral Processing Plant

GY12 type couplings are installed on primary ball mill motor connections at our iron ore processing facility. The coupling provides the high-torque rigid flanged connection required for our critical mill drive equipment.

— Mine Engineering Manager, Perth

★★★★☆

Brazil — Large Industrial Plant

GY12 and GYS12 type couplings are used on our largest process plant drive connections — kiln drive motors, large agitator connections, and primary conveyor drives at our integrated mining and processing facility.

— Maintenance Director, Belo Horizonte

Frequently Asked Questions

Can GY/GYS/GYH couplings connect shafts of different diameters?

Yes. The two hub halves can be bored to different diameters within the model’s bore range. Specify both d1 (active side bore) and d2 (driven side bore) independently when placing your order. Each hub is machined separately, allowing any combination of bore sizes within the model range.

What is the rotational inertia of GY/GYS/GYH couplings?

Rotational inertia values are listed in the specification table for each model, ranging from 0.0008 kg·m² for GY1 to 5.923 kg·m² for GY12. These are calculated values for the Y/J bore type at minimum shaft bore. The actual inertia will be slightly lower at larger bore diameters (more material removed). Include coupling inertia in motor sizing and drive system dynamics calculations.

Is a coupling guard required for GY/GYS/GYH flanged couplings?

Yes. A close-fitting coupling guard is required for all rotating coupling installations for personnel safety. The guard should contain any components in the event of coupling failure and allow ventilation airflow to prevent heat buildup at higher operating speeds. The guard should not contact the rotating coupling under normal operating conditions.

What documentation can be provided with GY/GYS/GYH couplings for procurement compliance?

Material certificates, dimensional inspection reports, and test certificates are available on request. For regulated industries (petrochemical, pharmaceutical, food), specify documentation requirements when placing your enquiry. Drawings in PDF and DXF format are available for all GY model sizes and bore combinations.

What is the marking standard for GY/GYS/GYH coupling identification?

Standard marking follows the GB/T 5843-2003 convention. Example: GYS6 45×84 GB/T5843-2003 indicates GYS type (with alignment boss), size 6, drive side bore 45 mm, outer diameter 84 mm, conforming to GB/T 5843-2003. Both active (master) and slave side bores and hub types are specified separately in the full marking.

Source GY12/GYS12/GYH12 Flanged Couplings

Ever Power manufactures GY, GYS, and GYH type flanged couplings from GY1 to GY12 per GB/T 5843-2003, direct from our factory. Specify subtype (GY/GYS/GYH), bore sizes, bore type (Y/J/tapered), and material for a prompt technical and commercial response.

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