Hydrodynamic couplings

Voith’s product portfolio includes constant-fill fluid couplings, fill-controlled fluid couplings, fluid couplings for diesel engines and customer-specific drive solutions.

A highly efficient and reliable drive system increases productivity and provides peace of mind. Whether you require fluid couplings or a customized drive package, Voith is your partner of choice. We assist you in gently accelerating your driven machine, owing to the hydrodynamic principle, thereby extending the lifetime of your system. At the same time, torque is limited, load sharing is facilitated, and torsional vibrations are dampened. The coupling protects the drive system from damage even under extreme operating conditions, reducing downtime and ensuring a continuous production process.

Furthermore, our drive solutions are reliable and precisely tailored to each drive system – from individual couplings to complete drive-line solutions. The transmittable power ranges from 300 W up to 6 MW.

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Pioneering sustainable couplings

For us, industrial sustainability is not a trendy slogan. We research and work with all our strength to fulfill our self-imposed responsibility in every respect. Our Voith fluid couplings have always stood for durability, high availability and low downtimes as well as a wide range of applications thanks to their modular design. With Sustainable T, we have further developed our hydrodynamic couplings to future-proof our customers for ensured sustainability and reliability.

Its superior performance comes from within. In the past, wherever water-operated couplings could not be used, mineral oil has been the preferred operating medium. We’ve re-imagined the concept with Sustainable T and now also enable the operation of our Voith fluid couplings with sustainable, rapidly biodegradable fluids. For water-powered couplings as well, the future has begun with Voith. Because it is now possible to use antifreeze, there is greater potential to use them in low-temperature applications.

Another forward-looking aspect is the materials used in our couplings. We reviewed our components and, where possible, have completely replaced them with environmentally compatible materials. This means that most of our components are completely pollutant-free already. By doing so, we not only achieve maximum safety and health protection for our employees and customers but also ensure a clean recycling process at the end of the product life cycle.

With Sustainable T, we are pioneering the field of sustainable coupling technologies. To this end, we are in intensive discussions with our customers and suppliers. Today and tomorrow.

Developed for above average durability

Harmless materials and clean recycling process

Works with water or rapidly biodegradable fluids

Constant-fill fluid couplings

Constant-fill fluid couplings are self-contained drive components mainly used for soft start, torque limitation, and dampening of torsional vibrations within the drive line. The different models vary in type and design of volumetric chambers; this determines the startup behavior.

T – basic version

Voith | Constant-filled type T fluid coupling

Type T fluid coupling is the basic version of constant-filled coupling; such couplings are used in drives for different applications, such as cranes, bucket conveyors, stackers, and reclaimers. These couplings are particularly suitable if overload protection and vibration damping are required. This fluid coupling is also available with two work circuits (type DT). The parallel-acting circuits double the power transmission. Your drive equipment is then protected with the added benefit of increasing system productivity.

Voith also offers fluid couplings with water as the operating medium (type TW), which is critical for operations located in potentially explosive atmospheres. Furthermore, spheroidal cast iron outer casings (type TU) are available and meet the required material specifications.

Benefits and uses

Load-free motor run-up
Smooth startup of the driven machine
Overload drive protection
Dampens torsional vibration in the drive chain
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects against motor overload
Sequential starting of the multi-motors reduces the load on the supply circuit

Typical fields of use

Stacker and reclaimer
Bucket elevator
Cranes
Separators
Yaw drives

Performance chart

Dimensions

Typ	A	D	L	d₁ max	d₂ max	l₂max
154 T	80	190	143	32	28	60
154 DT	102	190	165	32	28	80
206 T	97	248	183	42	42	80
206 DT	137	248	223	42	42	114
274 T	135	328	202	70	55	90
274 DT	175	328	242	70	55	125
366 T	198	427	276	90	65	120
422 T	218	470	320	100	80	135
487 T	245	556	352	120	90	155
562 T	269	634	385	130	110	170
650 T	317	740	469	140	120	200
750 T	366	846	529	150	135	240
866 T	421	978	610	160	150	265
866 DT	645	978	854	180	on request	on request
1000 T	441	1118	651	180	160	280
1150 T	505	1295	715	180	180	320
1150 DT	830	1295	1040	180	180	350

Dimensions in mm

TV – with delay chamber

Voith | Constant-filled type TV fluid coupling with delay chamber

The type TV fluid coupling is comparable to the type T fluid coupling; however, enhanced with a delay chamber. When starting up, torque is reduced, enabling the driven machine to start gently. The coupling also protects the drive against overload and dampens torsional vibrations, thereby protecting your system and increasing productivity. The type TV fluid coupling is predominantly used in drive conveyors and crushing and shredding machine applications. This fluid coupling is also available with two coaxially arranged work circuits (type DTV); the parallel-acting circuits double the power transmission.

Additionally, Voith offers fluid couplings with water as the operating medium (type TWV). This is critical when operations are located in potentially explosive atmospheres. Furthermore, spheroidal cast iron outer casings (type TUV) are available and meet the required material specifications.

Benefits and uses

Load-free motor run-up
Smooth startup of the driven machine
Overload drive protection
Dampens torsional vibration in the drive
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects against motor overload
Sequential startup of the motors reduces the load on the supply circuit

Typical fields of use

Belt conveyors
Plate conveyors
Stacker and reclaimer
Crushers
Mills

Performance chart

Dimensions

Type	A	D	L	d₁ max.	d₂ max.	l₂ max.
274 TV	172	328	239	70	55	125
274 DTV	244	328	300	42	55	125
366 TV	225	424	303	90	65	120
422 TV	257	470	359	100	80	135
487 TV	297	556	403	120	90	155
562 TV	333	634	449	130	110	170
650 TV	384	740	536	140	120	200
750 TV	440	846	603	150	135	240
866 TV	493	978	682	160	150	265
866 DTV	905	978	on request	on request	on request	on request
1000 TV	547	1118	757	180	180	280
1150 TV	670	1295	880	180	180	320
1150 DTV	1208	1295	1418	180	180	350

Dimensions in mm

TVV – with enlarged delay chamber

Voith | Constant-filled type TVV fluid coupling with enlarged delay chamber

When starting up, the working circuit has much less operating fluid. The driven machine starts up more gently, and the torque limitation behavior is significantly stronger during the startup. The coupling also protects the drive against overload and dampens torsional vibration, protecting your system and increasing productivity.

The type TVV fluid coupling is predominantly used in conveyor drives (e.g., belt conveyors and plate conveyors) and shredding machine applications. This fluid coupling is also available with two working circuits (type DTVV); the parallel-acting circuits double the power transmission.

Furthermore, Voith offers fluid couplings with water as the operating medium (type TWVV). This is critical when operations are located in potentially explosive atmospheres. Again, spheroidal cast iron outer casings (type TUVV) are available and meet relevant material requirements..

Benefits and uses

Load-free motor run-up
Smooth startup of the driven machine
Overload drive protection
Dampens torsional vibration in the drive
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects the motor against overload
Sequential startup of the motors reduces the load on the supply circuit

Typical fields of use

Belt conveyors
Plate conveyors
Shredders

Performance chart

Dimensions

Type	A	D	L	d₁ max.	d₂ max.	I₂max.
274 TVV	204	328	260	42	55	90
365 TVV	296	424	374	90	65	120
422 TVV	335	470	437	100	80	135
487 TVV	382	556	488	120	90	155
562 TVV	428	634	544	130	110	170
650 TVV	494	740	646	140	120	200
750 TVV	567	846	730	150	135	240
866 TVV	641	978	830	160	150	265
866 DTVV	1125	978	on request
1000 TVV	686	1118	896	180	160	280
1150 TVV	883	1295	1093	180	180	320

Dimensions in mm

TVS – with delay chamber and annular chamber

Voith | Constant-filled type TVS fluid coupling with delay chamber and annular chamber

The type TVS fluid coupling is comparable to the fluid coupling type TV; however, enhanced with an annular chamber which results in more operating fluid in the coupling. A high thermal capacity facilitates higher starting frequencies and reversing operations, safeguarding the drive against overload and dampening its torsional vibrations, thus protecting your system and increasing productivity. The type TVS fluid coupling is used primarily in crusher drives.

Additionally, Voith offers fluid couplings with water as the operating medium (type TWVS). This is critical when operations are located in potentially explosive atmospheres. Furthermore, spheroidal cast iron outer casings (type TUVS) are available and meet the required material specifications.

Benefits and uses

Load-free motor run-up
Smooth startup of the driven machine
Overload drive chain protection
Damps torsional vibration in the drive chain
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects against motor overload
Sequential startup of the motors reduces the load on the supply circuit

Typical fields of use

Crushers

Performance chart

Dimensions

Type	A	D	L	d₁ max.	d₂ max.	l₂ max.
650 TVS	384	761	536	140	100	170

Dimensions in mm

TVVS – with enlarged delay chamber and annular chamber

Voith | Constant-filled type TVVS fluid coupling with enlarged delay chamber and annular chamber

The type TVVS fluid coupling is comparable to the type TVV fluid coupling, although enhanced with an annular chamber. When idling, the fluid levels in the delay chamber, working circuit, and annular chamber are identical. The driven machine starts up exceptionally gently, and the torque increase depends upon the load. Protecting your system while increasing its productivity, the coupling also provides drive protection against overload and dampens torsional vibrations. The type TVVS fluid coupling is predominantly used in belt conveyor drives..

Additionally, Voith offers fluid couplings with water as the operating medium (type TWVVS). This is critical when operations are located in potentially explosive atmospheres. Furthermore, spheroidal cast iron outer casings (type TUVVS) are available and meet the required material specifications.

Benefits and uses

Load-free motor run-up
Gentle startup of the belt conveyor – up to 45s
Drive overload protection
Dampens torsional vibration in the drive
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects against motor overload
Sequential startup of the motors reduces the load on the supply circuit
Automatic adjustment to the load condition of the belt through extended torque build-up

Typical fields of use

Belt conveyors

Performance chart

Dimensions

Type	A	D	L	d₁max.	d₂ max.	l₂ max.
422 TVVS	335	470	437	100	80	135
487 TVVS	382	556	488	120	90	155
562 TVVS	428	660	544	130	110	170
650 TVVS	494	761	646	140	120	200
750 TVVS	567	877	730	150	135	240
866 TVVS	641	1017	830	160	150	265
1000 TVVS	686	1165	896	180	160	280
1150 TVVS	883	1340	1093	180	180	320

Dimensions in mm

TV..F – with centrifugal valves

Voith | Constant-filled type TV..F fluid coupling with centrifugal valves

The type TV..F fluid coupling is a constant-filled coupling used in armored face conveyors, transfer conveyors, and crusher drives. Centrifugal valves control the filling and draining of the working circuit of the coupling and, thus, the power transmission. The motor starts almost load-free, even in the event of a voltage drop. The coupling torque is released shock-free and continuously until the required breakaway torque of the system is achieved. This permits overloaded-driven machines to be started up exceptionally gently, and the increase in torque depends on the load. The coupling also protects the drive against overload and dampens torsional vibration, protecting your system and increasing productivity.

Additionally, Voith offers fluid couplings with water as the operating medium (type TWV..F). This is critical when operations are located in potentially explosive atmospheres. Furthermore, spheroidal cast iron outer casings (type TUV..F) are available and meet the required material specifications

Benefits and uses

Load-free motor run-up
Smooth startup of the driven machine
Drive overload protection
Dampens torsional vibration in the drive
The automatic reaction to voltage drops and motor protection
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects against motor overload
Sequential startup of the motors reduces the load on the supply circuit

Typical fields of use

Armored-face conveyors
Stage loader
Crushers

Performance chart

Dimensions

The installation dimensions correspond with the couplings

TV..Y – with dynamic re-filling

Voith | Constant-filled type TV..Y fluid coupling with refilling holes

The type TV..Y fluid coupling is a constant-filled coupling used in centrifugal load drives (e.g., fan and mill applications). Through dynamic re-filling, the operating fluid is guided from the working circuit into the delay chamber during startup, depending on the slippage, ensuring an almost time-independent torque limitation and is thus suitable for longer startup times. The coupling also protects the drive against overload and dampens torsional vibrations, protecting your system and increasing productivity. This fluid coupling is available with two coaxially arranged work circuits (type DTV..Y); these parallel circuits double the power transmission.

Additionally, Voith offers fluid couplings with water as the operating medium (type TWV..Y). This is critical when operations are located in potentially explosive atmospheres. Furthermore, spheroidal cast iron outer casings (type TUV..Y) are available and meet the required material specifications.

Benefits and uses

Load-free motor run-up
Soft startup with temporally extended torque limitation for longer startup times
Drive overload protection
Dampens torsional vibration in the drive
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects the motor against overload
Sequential startup of the motors reduces the load on the supply circuit

Typical fields of use

Fans
Mills
Centrifuges

Performance chart

Dimensions

The installation dimensions correspond with the couplings

Thermal monitoring and switching devices

BTM (non-contact thermal monitoring device)

The non-contact thermal monitoring device continuously determines the temperature of the operating medium in the fluid coupling. The device provides an active analog signal that can be constantly monitored for safety, also process control as a secondary function. The BTM is typically used on belt conveyors with long and frequent startup procedures and crusher and shredder applications.

BTS (non-contact thermal switching device)

The BTS monitors the coupling temperature contact-free. When reaching the activation temperature, the BTS switches the motor off or triggers an alarm signal. This system is particularly suitable for applications with lengthy startup procedures or frequently occurring overloads. Typical fields of application for the BTS are, for example, medium and long belt conveyors, crushers, hammer mills, and bucket wheel excavators. For use in potentially explosive atmospheres, the BTS Ex is available.

MTS (mechanical thermal switching device)

The MTS monitors the temperature of the coupling. When reaching the activation temperature, it switches the motor off or triggers an alarm signal. The MTS is particularly suitable for applications where thermal overloading is not very common, e.g., where start-up procedures are short and occur infrequently. The MTS is predominantly used for mixers, short belt conveyors, and bucket conveyors. It is also suitable for use in potentially explosive atmospheres.

Publications Operating manuals Certificates

Fill-controlled fluid couplings

Fill-controlled fluid couplings have an external fluid circuit also used for cooling. Additionally, they have a very high thermal capacity, allowing longer and more frequent high-load start-up procedures.

TurboBelt TPXL

TurboBelt TPXL family

With double the power transmission capability within the same installation space, the Voith TurboBelt TPXL coupling family is specifically designed to meet the requirements of belt conveyor drives. The TurboBelt TPXL coupling provides smooth and wear-free power transmission thanks to the hydrodynamic principle. Its compact design facilitates ease of installation. Rugged, robust, and compact, the TurboBelt TPXL couplings are engineered to the highest standards for greater availability and reliable operation.

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TPKL

The type TPKL fill-controlled fluid coupling is especially suitable for belt conveyors in rugged and harsh mining industry environments. Ideal for the respective load condition of the belt, the TPKL regulates acceleration exceptionally gently, which protects the belt, prevents downtime, and increases the system's service life. These fluid couplings ensure active load sharing in multi-motor drives. Even complicated start-up procedures are possible at short sequential intervals, thanks to the stand-still re-cooling.

The type DTPKL has two axially arranged working circuits that operate in parallel, enabling twice as much power transmission at the same overall height. The variant (D)TPKL-R has a flatter, although more extended, tank for lower shaft center line heights. The most compact design is the (D)TPKL-E, which has no oil tank. The tank is situated externally or, e.g., integrated into the swing frame.

Benefits and uses

Load-free motor run-up
Smooth startup of the driven machine – up to several minutes
Shorter periodic distances for subsequent starts thanks to the stand-still re-cooling
Drive overload protection
Dampens torsional vibration in the drive
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects the motor against overload
Sequential startup of the motors reduces the load on the supply circuit

Typical fields of use

Belt conveyors

Performance chart

Dimensions

Type	A	B	C	D	E	F	G (m6)	H1	H2
562 TPKL	1000	615	1130	849	230	310	90	135	128
650 TPKL	1165	710	1480	1055	217	530	120	165	165
650 DTPKL	1165	710	1480	1200	217	675	120	165	165
866 TPKL	1530	900	2200	1575	290	883	160	240	240
866 DTPKL	1530	900	2200	1750	290	1059	160	240	240

Dimensions in mm

CPC

Voith | Fill-controlled fluid coupling type CPC for underground mining

The type CPC fill-controlled fluid couplings are particularly suitable for heavy-duty underground mining use in armored face conveyors and have a power transmission range of up to 1,600 kW. Designed to start your armored face conveyor in a controlled manner, even under heavily loaded conditions, the coupling has a very high thermal capacity, that allows for multiple startups. The innovative XL wheel profile enables the coupling to transfer up to 60% more power in the same installation space, resulting in increased system availability with the highest system productivity.

The hydrodynamic coupling circuit is specifically designed for your chain conveyor. The coupling limits the torque in the drive chain to a defined maximum value, which protects the chains and all components against damage. Furthermore, the availability of the armored face conveyor increases and the maintenance costs remain low.

The coupling operates with water as a non-combustible and environmentally friendly operating medium. Moreover, water is always available underground. No additional and cost-intensive explosion protection measures are necessary when installing this coupling.

Benefits and uses

Overload protection of the drive chain
Higher power transmission (up to 60%) compared with similar-sized couplings
Unlimited start-up attempts following a blocked armored face conveyor
Optimally set torque limit for your system
Wear-free power transmission resulting in reduced maintenance and repairs

Typical fields of use

Armored face conveyors

Power range

Type	Power at 1500 rpm	Maximum torque
CPC 700	700 kW	11500 Nm
CPC 1000	1000 kW	15500 Nm
CPC 1200	1200 kW	18000 Nm
CPC 1600	1600 kW	23500 Nm

Type	Power at 1800 rpm	Maximum torque
CPC 1800 HP	1300 kW 1800 HP	18000 Nm
CPC 2350 HP	1750 kW 2350 HP	23500 Nm

Type

Power at 1800 rpm

Maximum torque

CPC 1800 HP

1300 kW

1800 HP

18000 Nm

CPC 2350 HP

1750 kW

2350 HP

23500 Nm

Dimensions

Type	L	H	B
CPC 700	1294	950	950

Type	L	H	B
CPC 1000	1350	950	950
CPC 1200	1350	950	950
CPC 1600	1350	950	950
CPC 1800 HP	1350	950	950
CPC 2350 HP	1350	950	950

Dimensions in mm

DTPKWL2

The fill-controlled fluid coupling, type DTPKWL2, is especially suited for heavy-duty usage in armored face conveyors. In underground coal mines, this coupling provides optimal startup and operational control of the armored face conveyor. Additionally, the high thermal capacity allows for multiple startups even when heavily laden.

The coupling's hydrodynamic circuit is specially designed for chain conveyors, as it limits the torque in the drivetrain to a fixed value. This torque limitation protects the chain and all the drive components from damage, thereby increasing the availability and productivity of the armored face conveyor while keeping maintenance costs low.

Water is a non-combustible and environmentally-friendly operating medium, so the coupling requires no additional costly explosion protection measures. Moreover, water is also readily available underground.

Benefits and uses

Unloaded motor run-up
Smooth startup of the driven machine
Protection of the drive chain in the event of an overload
Torsional vibration dampening of the drive chain
Unlimited startup attempts following a blocked armored face conveyor
Optimally set the torque limit for your system
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects against motor overload
Timely, stepped run-up of the motors reduces the load on the supply circuit

Typical fields of use

Armored face conveyors

Specifications

Type	Power at 1500 rpm	Maximum torque
487 DTPKWL2	400 kW	7000 Nm
562 DTPKWL2	630 kW	9000 Nm

Type	L	H	B
487 DTPKWL2	1100	860	860
562 DTPKWL2	1100	860	860

Dimensions in mm

TP...

The type TP fill-controlled fluid coupling is predominantly used in shredding machine drives. The filling level of the coupling can be controlled, allowing load-free motor run-up and controlling of the torque. Thanks to the hydrodynamic principle, the fluid coupling dampens torsional vibration and torque shocks, thus protecting the drive and increasing the productivity of your system. Due to the active cooling circuit, the TP fluid coupling has a high thermal capacity. This facilitates a smoother startup and acceleration of the driven machine over a longer period of time. Additionally, this fluid coupling is available with two axially arranged working circuits (type DTP); these parallel acting circuits double the power transmission.

For type TPW, the operating medium is water, which makes this coupling especially suitable for use in potentially explosive atmospheres.

Benefits and uses

Load-free motor run-up
Smooth startup of driven machine
Protects the drive in case of an overload
Dampens torsional vibration in the drive
Accelerates heavy masses
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work
Automatic load sharing in multi-motor drives protects against motor overload
Sequential startup of the motors reduces the load on the supply circuit

Typical fields of use

Shredders
Mills
Crushers
Fans

Performance chart

Dimensions
DTP

Dimensions of the DTP fill-controlled fluid coupling

Dimensions of the type DTP fill-controlled fluid coupling

Type	A	B	F	L	K	H	h1
1150 DTP	1188	1492	139	910	1240	1644,5	600

Dimensions in mm

DTPK

Type	A	B	F	L	K	H	h1
487 DTPK	670	816	204	280	766	923	485
562 DTPK	713	860	190,5	340	806	1000	525
650 DTPK	800	996	233,5	360	980	1106	605
750 DTPK	970	1140	252,5	508	1020	1255	650
866 DTPK	1125	1300	371,25	450	1220	1465	765
1000 DTPK	1250	1580	354,5	500	1500	1695	920
1150 DTPK	1420	1700	425	570	1700	1900	1055

Dimensions in mm

Publications Certificates

Fluid couplings for diesel engines

Fluid couplings for diesel engines provide torsional vibration dampening and protect the diesel engine from overload. The fill-controlled type also offers a clutching function.

TD

The TD constant-fill fluid coupling is used in tractors to dampen drive chain torsional vibration and torque shocks, which increases the service life of all drive components. In the event of overload, the torque limiting properties of the coupling prevent the engine from stalling.

Benefits and uses

Load-free engine run-up
Smooth startup of the driven machine
Drive component overload protection
Damps torsional vibration in the drive
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work

Typical fields of use

Tractors

Performance chart

Dimensions

Type	D	B
390 TD-vario	438	145
460 TD-vario	512	205

Dimensions in mm

TDM-SAE

The type TDM-SAE constant-fill fluid coupling is used in diesel engine drives for mobile shredding machines. The coupling is suitable for accelerating moderate masses. Thanks to the hydrodynamic principle, the fluid coupling dampens torsional vibration and protects the drive components against overload, which increases the productivity of your system.

Benefits and uses

Reduced load engine run-up
Smooth startup of the driven machine
Drive component overload protection
Dampens torsional vibration in the drive
Protects system components, thereby increasing service life
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work

Typical fields of use

Crushers
Chippers
Shredders

Performance chart

Dimensions

Type	SAE	A	B	D1	L	D2
422 TDM-SAE	11,5/2	367	240	539	110	70
422 TDM-SAE	11,5/3	367	240	539	110	70
487 TDM-SAE	14/1	397	282	618	120	80
562 TDM-SAE	14/1	452	314	706	150	95
650 TDM-SAE	14/0	570	430	830	160	110
650 TDM-SAE	18/0	570	430	830	160	110

Dimensions in mm

TPKD-SAE/TPD-SAE

Voith | Types TPD-SAE/TPKD-SAE fill-controlled fluid coupling

The types TPD-SAE and TPKD-SAE fill-controlled fluid couplings are suitable for accelerating hefty masses with high break-away torques, usually mobile shredding and crushing machines with integrated diesel engines. The filling level for these couplings is controllable, allowing load-free engine run-up and control of the torque.

Once emptied, the torque transmission of the fluid coupling from the engine to the driven machine is de-coupled (hydrodynamic clutching function). Furthermore, the hydrodynamic principle facilitates torsional vibration dampening that protects the drive chain against overload, increasing your equipment's productivity.

Benefits and uses

Load-free start and idle speed operation
Smooth startup of the driven machine
Drive overload protection
Dampens torsional vibration in the drive chain
Protects system components, thereby increasing service life
Accelerates heavy masses with high break-away torque
Hydrodynamic switching function
Allows stored energy in the rotors to be released during surge loads
Robust and unsusceptible to environmental influences
Wear-free power transmission; less maintenance and repair work

Typical fields of use

Crushers
Chippers
Shredders
Pump drives

Performance chart

Dimensions

Type	SAE	A	E	F	G	H	J	D1
487 TPD-SAE	14/1	739	692	600	917	692	170	90
562 TPKD-SAE	18/0	925	1130	611	1004	800	254	110
650 TPKD-SAE	18/0	1009	1330	705	1150	880	254	120

Dimensions in mm
Type 750, 866, 1000 and 1150 TP(K)D-SAE on request

Publications

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Operating principle

The hydrodynamic principle

Hydrodynamic couplings transmit mechanical power from the motor to the driven machine via fluid flow via two bladed wheels positioned face to face. The primary wheel (red) is connected to the motor and acts like a rotary pump, while the secondary wheel (blue) is connected to the driven machine and acts like a turbine. Power transmission is proportional to the fill level in the working circuit. As a result of the mechanical separation of the drive and driven sides, the hydrodynamic coupling transfers the power wear-free, simultaneously dampening torsional vibration and torque shocks in the drive chain.

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Register your old, but still running Voith hydrodynamic coupling between Oct 1 and Dec 31, 2024. Each participant will receive a small gift and the operators of the oldest three couplings will win a free health check and this year's Oktoberfest beer mug!*
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Hydrodynamic couplings