US20080256986A1 - Friction Damper Device for a Washing Machine - Google Patents
Friction Damper Device for a Washing Machine Download PDFInfo
- Publication number
- US20080256986A1 US20080256986A1 US11/664,225 US66422505A US2008256986A1 US 20080256986 A1 US20080256986 A1 US 20080256986A1 US 66422505 A US66422505 A US 66422505A US 2008256986 A1 US2008256986 A1 US 2008256986A1
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- United States
- Prior art keywords
- piston rod
- friction
- damper device
- friction lining
- friction damper
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16F—SPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
- F16F7/00—Vibration-dampers; Shock-absorbers
- F16F7/08—Vibration-dampers; Shock-absorbers with friction surfaces rectilinearly movable along each other
- F16F7/09—Vibration-dampers; Shock-absorbers with friction surfaces rectilinearly movable along each other in dampers of the cylinder-and-piston type
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F37/00—Details specific to washing machines covered by groups D06F21/00 - D06F25/00
- D06F37/20—Mountings, e.g. resilient mountings, for the rotary receptacle, motor, tub or casing; Preventing or damping vibrations
Definitions
- This invention relates to a friction damper device for a washing machine in whose housing is arranged a washing unit with a tub, a washing drum which is rotationally mounted in the tub and a drive for the washing drum, the washing unit being supported in an elastic manner by at least one damper counter to the lower frame part of the housing.
- washing unit which includes of a tub, a drive for the tub and a washing drum.
- upright systems the washing unit is normally supported in an elastic manner by a plurality of spring legs relative to a lower frame part of the housing of the washing machine.
- suspended systems i.e. mixed systems
- the washing unit is suspended at a plurality of points on an upper frame part of the housing by means of springs and is mounted so that the vibrations are damped by means of dampers in respect of a lower frame part of the housing.
- DE 30 43 550 C2 discloses a fully automatic drum washing machine designed for spinning, whose washing unit is supported on the machine base with sprung, damping spring legs. Each spring leg is fastened to the housing frame of the washing machine at its lower end by means of two rubber rounds between which is clamped a base plate of the housing frame. Upwardly directed forces are transmitted to the upper rubber round and downwardly directed forces are transmitted to the lower rubber round.
- each friction damper device has a friction plate fastened to the tub against which friction linings of friction heads are pushed in pairs on opposite sides, which heads are each fastened to an arm of a clamping or retaining strap.
- a motor friction switch which is able to push the friction heads against the pre-tension force of the clamping and retaining straps, grips the arms of the clamping and retaining straps which normally press the friction linings against the friction plate.
- the friction switch is designed as a piston/cylinder drive that can be loaded with a pressure fluid.
- the friction switch may comprise an electric motor and an adjusting spindle. The damping forces of the friction damper device can therefore be increased after the critical speed is passed.
- the object of this invention includes providing a friction damper device that is of relatively simple construction and guarantees safe operation of the washing machine.
- a further advantage of the invention includes the fact that in the event of a sudden power failure, for example if the washing machine is accidentally switched off during its operation, the friction damper device according to the invention regains its damping force immediately and automatically, thereby guaranteeing safe “passage” through the lower speed range until the machine stops.
- the present friction damper device can, in particularly, be effectively switched in a speed range of the washing drum from approximately 0 to 300 rpm, which also includes the resonance range for the spinning acceleration. Above this range, i.e.
- the damper forces do not affect the oscillating behavior of the washing unit, which is why the present friction damper device can be either completely switched off electrically or switched so that its damping force is reduced, thereby considerably improving the oscillating behavior of the entire washing machine.
- the vibratory behavior of the entire appliance is improved and noises are reduced.
- the present friction damper device is switched so that its damping effect is restored when the upper spinning speed range is departed from.
- the present friction damper device can be used for upright and suspended systems, as well as in mixed systems.
- FIG. 1 shows in a diagrammatic view an explanatory representation of a possible suspension of the washing unit of a washing machine
- FIG. 2 shows a side view of the friction damper device according to the invention
- FIG. 3 shows a section through the friction damper device according to the invention along line III-III in FIG. 2 ,
- FIG. 4 shows a further embodiment of the friction damper device according to the invention
- FIG. 5 shows a section along line V-V of the embodiment of the friction damper device according to the invention shown in FIG. 4 .
- FIG. 6 shows a further development of the embodiment of the friction damper device according to the invention shown in FIG. 4 .
- washing unit 2 of a washing machine of prior art arranged in a housing 1 , comprises a tub 3 , a washing drum 4 and a drive 5 arranged on tub 3 , which drive rotates washing drum 3 about a horizontal axis 6 .
- Washing 2 can be suspended preferably directly on an upper frame of housing 1 by means of tension springs 7 , shown diagrammatically.
- dampers 8 which are supported on the one hand on washing unit 2 and on the other on a lower frame part 9 of housing 1 , are provided on tub 3 .
- the piston rods of dampers 8 are denoted by 10 .
- this invention provides a friction damper device 29 whose damping force can be switched or controlled electrically. Since the damping forces would disturb the oscillating behavior of washing unit 2 above the above-mentioned speed range, the damping force of this friction damper device 29 can be switched or reduced quite effectively above this range so that the oscillating and vibratory behavior of the entire washing machine is considerably improved and the noise generated is reduced in this upper speed range. When the upper speed range is again departed from after spinning, the damping force of this friction damper device 29 is restored.
- this friction damper device 29 is switched or controlled electrically against the force of a compression spring 14 , as will be explained in greater detail below, it is possible for friction damper device 29 to retain its damping force immediately and automatically after a sudden power failure, for example if the washing machine is accidentally switched of, thereby guaranteeing safe passage through the lower speed range until the machine stops.
- FIG. 2 shows a preferred embodiment of this friction damper device 29 . It comprises essentially, and in a known manner, a piston rod 10 of a damper 8 , which is articulated with its upper end 11 to washing unit 2 and with its lower end 12 to a lower frame part 9 of housing 1 .
- a cylindrical housing part 13 that at least partially surrounds piston rod 10 incorporates a slide 15 , which suitably runs transversely to piston rod 10 and which preferably has a shoulder part 18 , which is preferably plate-shaped, on its side facing piston rod 10 , to which part is fastened a friction lining 16 .
- an energy store on the side of shoulder part 18 facing away from piston rod 10 which store preferably takes the form of a helical compression spring 14 surrounding slide 15 , which spring is supported on one side on shoulder part 18 and on the other sided on stop part 19 , so that shoulder part 18 presses with friction lining 16 against piston rod 10 .
- friction lining 16 is preferably designed in an annular shape so that it bears with its friction surface 24 partially and suitably flush against the peripheral surface of piston ring 10 , which has the shape of a regular cylinder, when compression spring 15 exerts its effect.
- Friction lining 16 is preferably fastened, preferably glued, in a circular recess 26 of shoulder part 18 . Friction lining 16 is preferably designed so that it is able to engage on half the peripheral surface of piston rod 10 .
- a further friction lining 17 which is preferably also annular in shape, is located on the side of piston rod 10 opposite friction lining 16 , so that lining 17 bears partially, and preferably flush with its friction surface 27 against the peripheral surface of piston rod 10 , its side facing away from piston rod 10 being preferably fastened, in particular glued, to an inner wall 25 of housing part 13 also running in a circular course.
- Slide 15 can be actuated by an electromagnetic actuator 20 against the force of compression spring 15 , in the manner shown in FIG. 2 , so that shoulder part 18 is moved with friction lining 16 away from piston rod 10 when actuator 20 is energized so that piston rod 10 is able to oscillate freely.
- Electromagnetic actuator 20 is located in a housing part 22 which preferably has an end face forming stop part 19 , which end face has an opening 21 through which slide 15 runs, housing part 22 being fastened to housing part 13 .
- the electrical cable serving to supply power to actuator 20 is shown diagrammatically and is denoted by 23 .
- Friction damper device 29 previously described operates in the following manner. Actuator 20 is energized in the lower speed range from approximately 0 to 300 rpm of washing drum 4 so that compression spring 15 exerts its full effect and presses friction lining 16 against piston rod 10 so that the latter is retained between friction linings 16 and 17 by friction in a damping manner and an action that damps the vibrations of washing unit 2 is exerted.
- electromagnetic actuator 20 is energized so that friction lining 16 is pulled away from piston rod 10 by a movement of slide 15 against the force of compression spring 14 . Piston rod 10 is not then damped. As soon as electromagnetic actuator 20 is energized slide 15 is released and compression spring 15 again presses friction lining 16 against piston rod 10 .
- electromagnetic actuator 20 may also be used instead of electromagnetic actuator 20 described above, which generates a force “pulling” slide 15 when energized, provided that these springs operate in the manner explained above.
- friction damper device A further embodiment of this friction damper device is explained in the following with reference to FIGS. 4 and 5 , where friction lining 31 is arranged on the periphery of a piston 37 arranged in a cylinder 38 of damper 8 and connected to piston rod 10 , and is pretensed by an energy store counter to the inner wall of cylinder 38 .
- An actuator is able to displace a friction lining 31 away from the inner wall of cylinder 38 during is activation against the pretension of the energy store.
- the actuator is preferably a memory metal part 32 arranged on piston 37 , which part, when energized, generates a force which pulls or moves friction lining 31 , pretensed by the energy store counter to the inner wall of cylinder 38 , away from the inner wall.
- Friction lining 31 is suitably fastened, in particular glued, to a support part 36 .
- the memory metal part can be energized in various ways.
- the introduction of thermal energy may be preferably provided for this purpose.
- a further friction lining 35 is preferably fastened, preferably glued, to a further support part 39 on piston 37 , which part is connected to support part 36 so that it is able to rotate about a fulcrum 40 .
- Support part 36 and further support part 39 run at least partially around the periphery of piston 37 and engages in a peripheral groove 41 ( FIG. 4 ) on its side facing towards piston 37 .
- Memory metal part 32 is designed in the shape of a rod and runs through a through opening 42 leading transversely through piston 37 . It is fastened with its one end to support part 36 and with its other end to further support part 39 .
- the fastening is preferably effected by means of retaining parts 43 which enable a force that is particularly favorable to be introduced over a large area into support part 36 and 39 respectively.
- the end regions of support part 36 and further support part 39 facing away from fulcrum 40 are connected to one another by a recuperating spring 34 forming the energy store.
- Recuperating spring 34 presses the aforementioned end regions apart towards the inner wall of cylinder 38 so that friction lining 31 and further friction lining 35 bear against the inner wall of cylinder 38 .
- Rod-shaped memory metal part 32 is formed in particular preference by a metal wire.
- FIG. 6 shows a further embodiment of this friction damper device. Details of FIG. 6 , which have already been explained with reference to FIGS. 4 and 5 , are denoted by corresponding numbers.
- the actuator is a memory wire 33 , which is formed into a loop and, when energized, reduces the circumference of the loop.
- the loop runs around a roll 40 arranged in a cavity 41 of piston 37 and fastened to support part 36 .
- the loop is fastened to further support part 39 on the side opposite roll 44 , and the end regions of support part 36 and further support part 39 facing away from fulcrum 40 are spread apart by recuperating spring 34 .
- recuperating spring 34 pretenses support parts 36 and 39 with friction linings 31 and 35 respectively counter to the inner wall of cylinder 38 , and that friction linings 31 and 35 are pulled away from the inner wall when memory part 32 is energized.
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Mechanical Engineering (AREA)
- Main Body Construction Of Washing Machines And Laundry Dryers (AREA)
- Vibration Prevention Devices (AREA)
Abstract
A washing machine contains a friction damper device for a washing unit comprising a tub, a washing drum which is rotationally mounted in the tub and a drive for the washing drum. The washing unit is supported in an elastic manner by at least one damper counter to a lower frame part of the housing. In order to prevent the vibratory behavior of the oscillating unit from being influenced above the rotational speed of the resonance, the friction in the damper above the rotational speed of the resonance can be reduced. As a result, at least one friction covering which interacts directly on a piston rod of the damper is pretensed by an energy store counter to the piston rod and can be displaced away from the piston rod by activating an actuator.
Description
- This invention relates to a friction damper device for a washing machine in whose housing is arranged a washing unit with a tub, a washing drum which is rotationally mounted in the tub and a drive for the washing drum, the washing unit being supported in an elastic manner by at least one damper counter to the lower frame part of the housing.
- In connection with washing machines different systems are known for mounting the washing unit, which includes of a tub, a drive for the tub and a washing drum. In so-called upright systems the washing unit is normally supported in an elastic manner by a plurality of spring legs relative to a lower frame part of the housing of the washing machine. In so-called suspended systems, i.e. mixed systems, the washing unit is suspended at a plurality of points on an upper frame part of the housing by means of springs and is mounted so that the vibrations are damped by means of dampers in respect of a lower frame part of the housing.
- DE 30 43 550 C2 discloses a fully automatic drum washing machine designed for spinning, whose washing unit is supported on the machine base with sprung, damping spring legs. Each spring leg is fastened to the housing frame of the washing machine at its lower end by means of two rubber rounds between which is clamped a base plate of the housing frame. Upwardly directed forces are transmitted to the upper rubber round and downwardly directed forces are transmitted to the lower rubber round.
- DE 36 26 065 C2 describes a friction damper device for a washing machine whose washing unit is freely suspended on the housing by means of tension springs. Between the tub and base plate of the washing machine are provided friction damper devices whose task is to damp unbalancing vibrations of the washing unit during the operation of the washing machine, particularly when passing through the critical speed, when the washing drum is accelerated from a low washing speed to a high spinning speed. For this purpose each friction damper device has a friction plate fastened to the tub against which friction linings of friction heads are pushed in pairs on opposite sides, which heads are each fastened to an arm of a clamping or retaining strap. A motor friction switch, which is able to push the friction heads against the pre-tension force of the clamping and retaining straps, grips the arms of the clamping and retaining straps which normally press the friction linings against the friction plate. The friction switch is designed as a piston/cylinder drive that can be loaded with a pressure fluid. Alternatively the friction switch may comprise an electric motor and an adjusting spindle. The damping forces of the friction damper device can therefore be increased after the critical speed is passed.
- The object of this invention includes providing a friction damper device that is of relatively simple construction and guarantees safe operation of the washing machine.
- This object is achieved by a friction damper device for a washing machine with the features of described in the claims. Advantageous designs of the invention are also described in the dependent claims.
- Another advantage includes the fact that the present friction damper device is of relatively simple construction and is therefore inexpensive. A further advantage of the invention includes the fact that in the event of a sudden power failure, for example if the washing machine is accidentally switched off during its operation, the friction damper device according to the invention regains its damping force immediately and automatically, thereby guaranteeing safe “passage” through the lower speed range until the machine stops. The present friction damper device can, in particularly, be effectively switched in a speed range of the washing drum from approximately 0 to 300 rpm, which also includes the resonance range for the spinning acceleration. Above this range, i.e. during spinning, the damper forces do not affect the oscillating behavior of the washing unit, which is why the present friction damper device can be either completely switched off electrically or switched so that its damping force is reduced, thereby considerably improving the oscillating behavior of the entire washing machine. In particular, the vibratory behavior of the entire appliance is improved and noises are reduced.
- The present friction damper device is switched so that its damping effect is restored when the upper spinning speed range is departed from.
- The present friction damper device can be used for upright and suspended systems, as well as in mixed systems.
- The invention is explained in greater detail in the following with reference to the drawing in which advantageous exemplary embodiments are represented.
-
FIG. 1 shows in a diagrammatic view an explanatory representation of a possible suspension of the washing unit of a washing machine, -
FIG. 2 shows a side view of the friction damper device according to the invention, -
FIG. 3 shows a section through the friction damper device according to the invention along line III-III inFIG. 2 , -
FIG. 4 shows a further embodiment of the friction damper device according to the invention, -
FIG. 5 shows a section along line V-V of the embodiment of the friction damper device according to the invention shown inFIG. 4 , and -
FIG. 6 shows a further development of the embodiment of the friction damper device according to the invention shown inFIG. 4 . - According to
FIG. 1 washing unit 2 of a washing machine of prior art, arranged in ahousing 1, comprises atub 3, a washing drum 4 and adrive 5 arranged ontub 3, which drive rotateswashing drum 3 about a horizontal axis 6.Washing 2 can be suspended preferably directly on an upper frame ofhousing 1 by means oftension springs 7, shown diagrammatically. In order to damp the vibrations that are generated during washing and spinning of the items to be washed in washing drum 4,dampers 8, which are supported on the one hand onwashing unit 2 and on the other on alower frame part 9 ofhousing 1, are provided ontub 3. The piston rods ofdampers 8 are denoted by 10. - In order to compensate selectively for any unbalance, which is necessary particularly in a speed range of approximately 0 to 300 rpm, because this range includes the resonance range for the spinning acceleration, this invention provides a
friction damper device 29 whose damping force can be switched or controlled electrically. Since the damping forces would disturb the oscillating behavior ofwashing unit 2 above the above-mentioned speed range, the damping force of thisfriction damper device 29 can be switched or reduced quite effectively above this range so that the oscillating and vibratory behavior of the entire washing machine is considerably improved and the noise generated is reduced in this upper speed range. When the upper speed range is again departed from after spinning, the damping force of thisfriction damper device 29 is restored. Sine thisfriction damper device 29 is switched or controlled electrically against the force of acompression spring 14, as will be explained in greater detail below, it is possible forfriction damper device 29 to retain its damping force immediately and automatically after a sudden power failure, for example if the washing machine is accidentally switched of, thereby guaranteeing safe passage through the lower speed range until the machine stops. -
FIG. 2 shows a preferred embodiment of thisfriction damper device 29. It comprises essentially, and in a known manner, apiston rod 10 of adamper 8, which is articulated with itsupper end 11 towashing unit 2 and with itslower end 12 to alower frame part 9 ofhousing 1. Acylindrical housing part 13 that at least partially surroundspiston rod 10 incorporates aslide 15, which suitably runs transversely topiston rod 10 and which preferably has ashoulder part 18, which is preferably plate-shaped, on its side facingpiston rod 10, to which part is fastened afriction lining 16. Betweenshoulder part 18 and astop part 19 is arranged an energy store on the side ofshoulder part 18 facing away frompiston rod 10, which store preferably takes the form of ahelical compression spring 14 surroundingslide 15, which spring is supported on one side onshoulder part 18 and on the other sided onstop part 19, so thatshoulder part 18 presses withfriction lining 16 againstpiston rod 10. - According to
FIG. 3 friction lining 16 is preferably designed in an annular shape so that it bears with itsfriction surface 24 partially and suitably flush against the peripheral surface ofpiston ring 10, which has the shape of a regular cylinder, whencompression spring 15 exerts its effect.Friction lining 16 is preferably fastened, preferably glued, in acircular recess 26 ofshoulder part 18.Friction lining 16 is preferably designed so that it is able to engage on half the peripheral surface ofpiston rod 10. - A
further friction lining 17, which is preferably also annular in shape, is located on the side ofpiston rod 10opposite friction lining 16, so thatlining 17 bears partially, and preferably flush with itsfriction surface 27 against the peripheral surface ofpiston rod 10, its side facing away frompiston rod 10 being preferably fastened, in particular glued, to aninner wall 25 ofhousing part 13 also running in a circular course. -
Slide 15 can be actuated by anelectromagnetic actuator 20 against the force ofcompression spring 15, in the manner shown inFIG. 2 , so thatshoulder part 18 is moved withfriction lining 16 away frompiston rod 10 whenactuator 20 is energized so thatpiston rod 10 is able to oscillate freely.Electromagnetic actuator 20 is located in ahousing part 22 which preferably has an end face formingstop part 19, which end face has anopening 21 through which slide 15 runs,housing part 22 being fastened tohousing part 13. The electrical cable serving to supply power toactuator 20 is shown diagrammatically and is denoted by 23. -
Friction damper device 29 previously described operates in the following manner. Actuator 20 is energized in the lower speed range from approximately 0 to 300 rpm of washing drum 4 so thatcompression spring 15 exerts its full effect and pressesfriction lining 16 againstpiston rod 10 so that the latter is retained betweenfriction linings washing unit 2 is exerted. - If no damping action is to be exerted in a higher speed range, i.e. in the spinning range,
electromagnetic actuator 20 is energized so thatfriction lining 16 is pulled away frompiston rod 10 by a movement ofslide 15 against the force ofcompression spring 14. Pistonrod 10 is not then damped. As soon aselectromagnetic actuator 20 is energizedslide 15 is released andcompression spring 15 again pressesfriction lining 16 againstpiston rod 10. - It is pointed out that other “pulling” or “pushing” electromagnetic actuators with associated compression or tension springs may also be used instead of
electromagnetic actuator 20 described above, which generates a force “pulling”slide 15 when energized, provided that these springs operate in the manner explained above. - Instead of the switching off and on of
actuator 20, explained above, where the conditions “damping of the piston rod” or “non-damping of the piston rod” are reached, it is also conceivable to activateelectromagnetic actuator 20 by means of acontrol unit 30 so that the compressive force ofcompression spring 14 is increased by a predetermined movement ofslide 15 to a desired extent in order to achieve a desired greater or smaller damping force onpiston rod 10. In other words, a predetermined damping profile can be set by the specific activation ofelectromagnetic actuator 20 bycontrol unit 30 as a function of the current speed ofwashing drum 2. - A further embodiment of this friction damper device is explained in the following with reference to
FIGS. 4 and 5 , wherefriction lining 31 is arranged on the periphery of apiston 37 arranged in acylinder 38 ofdamper 8 and connected topiston rod 10, and is pretensed by an energy store counter to the inner wall ofcylinder 38. An actuator is able to displace afriction lining 31 away from the inner wall ofcylinder 38 during is activation against the pretension of the energy store. - The actuator is preferably a
memory metal part 32 arranged onpiston 37, which part, when energized, generates a force which pulls or movesfriction lining 31, pretensed by the energy store counter to the inner wall ofcylinder 38, away from the inner wall. The damping effect ofdamper 8 is increased here.Friction lining 31 is suitably fastened, in particular glued, to asupport part 36. - The memory metal part can be energized in various ways. The introduction of thermal energy may be preferably provided for this purpose.
- In particular, a further friction lining 35 is preferably fastened, preferably glued, to a
further support part 39 onpiston 37, which part is connected to supportpart 36 so that it is able to rotate about afulcrum 40.Support part 36 andfurther support part 39 run at least partially around the periphery ofpiston 37 and engages in a peripheral groove 41 (FIG. 4 ) on its side facing towardspiston 37.Memory metal part 32 is designed in the shape of a rod and runs through a throughopening 42 leading transversely throughpiston 37. It is fastened with its one end to supportpart 36 and with its other end tofurther support part 39. The fastening is preferably effected by means of retainingparts 43 which enable a force that is particularly favorable to be introduced over a large area intosupport part support part 36 andfurther support part 39 facing away fromfulcrum 40 are connected to one another by a recuperatingspring 34 forming the energy store. Recuperatingspring 34 presses the aforementioned end regions apart towards the inner wall ofcylinder 38 so that friction lining 31 and further friction lining 35 bear against the inner wall ofcylinder 38. Rod-shapedmemory metal part 32 is formed in particular preference by a metal wire. -
FIG. 6 shows a further embodiment of this friction damper device. Details ofFIG. 6 , which have already been explained with reference toFIGS. 4 and 5 , are denoted by corresponding numbers. In this case the actuator is amemory wire 33, which is formed into a loop and, when energized, reduces the circumference of the loop. The loop runs around aroll 40 arranged in acavity 41 ofpiston 37 and fastened to supportpart 36. The loop is fastened to further supportpart 39 on the side oppositeroll 44, and the end regions ofsupport part 36 andfurther support part 39 facing away fromfulcrum 40 are spread apart by recuperatingspring 34. This ensures that the force of recuperatingspring 34 pretenses supportparts friction linings cylinder 38, and thatfriction linings memory part 32 is energized. -
-
- 1 Housing
- 2 Washing unit
- 3 Tub
- 4 Washing drum
- 5 Drive
- 6 Axis
- 7 Tension spring
- 8 Damper
- 9 Frame part
- 10 Piston rod
- 11 Upper end
- 12 Lower end
- 13 Further housing part
- 14 Compression spring
- 15 Slide
- 16 Friction lining
- 17 Further friction lining
- 18 Shoulder part
- 19 Stop part
- 20 Electromagnetic actuator
- 21 Opening
- 22 Housing part
- 23 Cable
- 24 Friction surface
- 25 Inner wall
- 26 Recess
- 27 Further friction surface
- 28 Opening
- 29 Friction damper device
- 30 Control unit
- 31 Friction lining
- 32 Memory metal part
- 33 Memory wire
- 34 Recuperating spring
- 35 Friction lining
- 36 Support part
- 37 Piston
- 38 Cylinder
- 39 Support part
- 40 Fulcrum
- 41 Peripheral groove
- 42 Through opening
- 43 Retaining part
- 44 Roll
Claims (23)
1-21. (canceled)
22. A friction damper device for a washing machine in whose housing is arranged a washing unit with a tub, a washing drum rotationally mounted in the tub and a drive for the washing drum, wherein the washing unit is supported by at least one damper having a piston rod in an elastic manner against a lower frame part of the housing, wherein at least one friction lining acting directly on the piston rod of the damper is provided which is pretensed counter to the piston rod by an energy store and can be displaced away from the piston rod by activating an actuator.
23. The friction damper device according to claim 22 , wherein a slide running in the direction of the piston rod of the damper is provided which has, on its side facing the piston rod, a friction lining which is pretensed by an energy store counter to the piston rod, and in that the slide is displaceable when an electromagnetic actuator is energized, so that the friction lining is moved away from the piston rod.
24. The friction damper device according to claim 23 , wherein the friction lining is fastened to a shoulder part arranged on the side of slide facing piston rod.
25. The friction damper device according to claim 23 , wherein the slide runs perpendicularly to a longitudinal axis of the piston rod.
26. The friction damper device according to claim 23 , wherein the energy store includes a compression spring.
27. The friction damper device according to claim 23 , wherein the energy store includes a compression spring in the form of a helical spring surrounding a partial region of the slide whose one end bears against the shoulder part and whose other end bears against a stop part, in that the region of the slide facing away from the shoulder part is guided through an opening in the stop part and can be attracted by an electromagnet of the actuator for moving the slide.
28. The friction damper device according to claim 27 , wherein the actuator is arranged in a housing part whose end face facing the piston rod forms the stop part.
29. The friction damper device according to claim 28 , wherein the housing part is fastened to a region of a second housing part running transversely to the piston rod, which region surrounds the shoulder part with the friction lining, the tension spring and a partial region of the slide, and in that a second region of the second housing part runs in the direction of the longitudinal extension of the piston rod, surrounds it and is connected to the region of the housing running transversely to the piston rod, wherein the piston rod is guided outwards through an opening of the second region of the second housing part.
30. The friction damper device according to claim 23 , further comprising a second friction lining fixedly arranged on the side of the piston rod opposite the friction lining so that the piston rod is retained in a damping manner between the friction lining and the second friction lining by the force of the compression spring when the actuator is energized.
31. The friction damper device according to claim 23 , wherein the friction lining is provided on its side facing the piston rod with an annular friction surface which is able to bear against a partial region of the peripheral surface of the piston rod.
32. The friction damper device according to claim 30 , wherein the second friction lining is provided on its side facing the piston rod with a second annular friction surface which is able to bear against a partial area of the peripheral surface of the piston rod.
33. The friction damper device according to claim 32 , wherein the second friction lining is fastened on its side facing away from the piston rod to an inner wall of the second housing part running in a circular course.
34. The friction damper device according to claim 23 , wherein the electromagnetic actuator actuates the slide so that when the actor is energized, the friction lining releases the piston rod and in that when the actuator is de-energized the friction lining is pressed against the piston rod.
35. The friction damper device according to claim 23 , wherein a control unit is provided by means of which the electromagnetic actuator can be energized so that the compression force exerted by the energy store on the piston rod through the friction lining is compensated for according to the predetermined damping profile.
36. The friction damper device according to claim 22 , wherein the friction lining is fastened to a support part which is arranged on the periphery of a piston arranged in a cylinder of the damper and connected to the piston rod, and is pretensed by the energy store counter to the inner wall of the cylinder, and in that the actuator, when activated, displaces the support part and the friction lining away from the inner wall of the cylinder against the pretension of the energy store.
37. The friction damper device according to claim 36 , wherein the actuator is a memory metal part arranged on the piston, which part, when energized mechanically, generates the force that moves the friction lining away from the inner wall.
38. The friction damper device according to claim 36 , wherein the energy store has a recuperating spring that pretenses the support part and the friction lining to the inner wall of the cylinder.
39. The friction damper device according to claim 36 , wherein a second friction lining is provided which is connected to the friction lining so that it rotates about a fulcrum, in that the friction lining and the second friction lining run at least partially around the periphery of the piston, and engages on its side facing the piston in a peripheral groove of the same, in that the memory metal part acts on the support part and a second support part, and in that the end regions of the support part and the second support part facing away from the fulcrum are spread apart by the recuperating spring.
40. The friction damper device according to claim 39 , wherein the memory metal part is a rod-shaped part running through a through opening running transversely through the piston, which part is fastened with one end to the support part and with the other end to the second support part.
41. The friction damper device according to claim 40 , wherein the memory metal part is formed by a metal wire.
42. The friction damper device according to claim 39 , wherein the memory metal part takes the form of a memory wire which is formed into a loop and, when energized, reduces the circumference of the loop, and in that the loop runs around a roll arranged in the piston and fastened to the support part, and is fastened on the side opposite the roll to the second support part.
43. A washing machine comprising:
a housing having a frame;
a washing unit disposed within the housing and including a tub, a washing drum rotationally mounted in the tub and a drive for rotating the washing drum,
a damper least partially supporting the washing unit and having a piston rod in an elastic manner against the frame of the housing,
a friction lining acting directly on the piston rod of the damper and being pretensed to counter to the piston rod by an energy store and being displacable in a direction away from the piston rod in response to activation of an actuator.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102004047999A DE102004047999A1 (en) | 2004-10-01 | 2004-10-01 | Friction damper device for a washing machine |
DE102004047999.2 | 2004-10-01 | ||
PCT/EP2005/054958 WO2006037767A1 (en) | 2004-10-01 | 2005-09-30 | Friction damper device for a washing machine |
Publications (1)
Publication Number | Publication Date |
---|---|
US20080256986A1 true US20080256986A1 (en) | 2008-10-23 |
Family
ID=35519661
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/664,225 Abandoned US20080256986A1 (en) | 2004-10-01 | 2005-09-30 | Friction Damper Device for a Washing Machine |
US13/010,969 Abandoned US20110113832A1 (en) | 2004-10-01 | 2011-01-21 | Friction damper device for a washing machine |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US13/010,969 Abandoned US20110113832A1 (en) | 2004-10-01 | 2011-01-21 | Friction damper device for a washing machine |
Country Status (5)
Country | Link |
---|---|
US (2) | US20080256986A1 (en) |
EP (1) | EP1797232B1 (en) |
DE (1) | DE102004047999A1 (en) |
PL (1) | PL1797232T3 (en) |
WO (1) | WO2006037767A1 (en) |
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WO2023249245A1 (en) * | 2022-06-21 | 2023-12-28 | 삼성전자 주식회사 | Washing machine having damper for attenuating vibration of tub |
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Cited By (17)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8739942B2 (en) * | 2009-04-06 | 2014-06-03 | Messier-Bugatti-Dowty | Controlled-friction linear device in which a press force is applied perpendicular to the movement |
US20110311171A1 (en) * | 2009-04-06 | 2011-12-22 | Messier-Bugatti-Dowty | Controlled-friction linear device in which a press force is applied perpendicular to the movement |
CN102947612A (en) * | 2010-05-11 | 2013-02-27 | 阿迪尔·坎尼奥兹 | An electromechanical friction shock absorber |
US20130098718A1 (en) * | 2010-05-11 | 2013-04-25 | Adil Kanioz | Electromechanical friction shock absorber |
US9022185B2 (en) * | 2010-05-11 | 2015-05-05 | Adil Kanioz | Electromechanical friction shock absorber |
US10400379B2 (en) * | 2015-03-16 | 2019-09-03 | Lg Electronics Inc. | Laundry processing apparatus |
US11492973B2 (en) | 2015-08-14 | 2022-11-08 | Raytheon Technologies Corporation | Folded heat exchanger for cooled cooling air |
US10287982B2 (en) | 2015-08-14 | 2019-05-14 | United Technologies Corporation | Folded heat exchanger for cooled cooling air |
US10253695B2 (en) * | 2015-08-14 | 2019-04-09 | United Technologies Corporation | Heat exchanger for cooled cooling air with adjustable damper |
US11572928B2 (en) | 2015-08-14 | 2023-02-07 | Raytheon Technologies Corporation | Heat exchanger for cooled cooling air with adjustable damper |
CN111485375A (en) * | 2019-01-29 | 2020-08-04 | 青岛海尔洗衣机有限公司 | Damping shock absorber, washing machine with same and control method |
WO2020246754A1 (en) * | 2019-06-05 | 2020-12-10 | Samsung Electronics Co., Ltd. | Damper and washing machine having the same |
CN113661286A (en) * | 2019-06-05 | 2021-11-16 | 三星电子株式会社 | Damper and washing machine with same |
US11578450B2 (en) | 2019-06-05 | 2023-02-14 | Samsung Electronics Co., Ltd. | Damper and washing machine having the same |
US20210262543A1 (en) * | 2020-02-24 | 2021-08-26 | Suspa Gmbh | Frictional damper |
US11946522B2 (en) * | 2020-02-24 | 2024-04-02 | Suspa Gmbh | Frictional damper |
EP4345337A1 (en) * | 2022-09-20 | 2024-04-03 | SUSPA GmbH | Friction damper |
Also Published As
Publication number | Publication date |
---|---|
US20110113832A1 (en) | 2011-05-19 |
EP1797232A1 (en) | 2007-06-20 |
PL1797232T3 (en) | 2014-02-28 |
EP1797232B1 (en) | 2013-09-11 |
WO2006037767A1 (en) | 2006-04-13 |
DE102004047999A1 (en) | 2006-04-06 |
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Owner name: BSH BOSCH UND SIEMENS HAUSGERAETE GMBH, GERMANY Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:ACKERMANN, UWE;BOHM, ANDREAS;SCHUCK, ROLF;REEL/FRAME:020553/0550;SIGNING DATES FROM 20070412 TO 20070521 |
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