DE102018211774A1 - Vibration damping system and device for treating laundry - Google Patents

Abstract

The invention relates to a vibration damping system (1) for a device for treating laundry, comprising at least one damping unit (2), by means of which a suds container that is movably arranged within a device housing can be supported relative to the device housing, wherein the damping unit (2) has at least one hollow cylindrical housing (3) and at least one piston (8) arranged axially displaceable in the housing (3) with respect to a longitudinal central axis (7) of the housing (3) and connected to a piston rod (6) of the damping unit (2). In order to improve a reduction in operating noise of the device, the housing (3) is made of a soft metallic material and is elastically deformable, the piston (8) being arranged radially spaced from the housing (3) and at least one cylindrical magnetic core (10) and Has at least one magnet coil (13) arranged radially on the outside of the magnet core (10), the magnet core (10) having at least one base section (11) arranged radially on the inside of the magnet coil (13) and at least two magnet pole sections (12) arranged axially spaced apart from one another , and wherein the magnetic coil (13) is received between the two magnetic pole sections (12).

Description

The invention relates to a vibration damping system for a device for treating laundry, comprising at least one damping unit, by means of which a suds container which can be movably arranged within a device housing can be supported relative to the device housing, the damping unit being at least one hollow cylindrical housing and at least one axially with respect to a longitudinal center axis of the housing has displaceably arranged in the housing piston which is connected to a piston rod of the damping unit. Furthermore, the invention relates to a device for treating laundry, comprising a device housing, a tub arranged movably within the device housing and a vibration damping system with at least one damping unit, by means of which the tub is supported with respect to the device housing.

Devices for treating laundry are known in a variety of configurations. For example, such a device can be designed as a washing machine, washer dryer or tumble dryer. Such a device has a device housing in which a tub is resiliently and thus movably arranged via at least one damping and / or at least one spring element, a laundry drum to be treated receiving a laundry drum being rotatably arranged in the tub. The tub is usually suspended via spring elements within the device housing and is supported from below with at least one damping element relative to the device housing.

Due to the damping support of the tub within the device housing, vibrations of the tub during operation, in particular spin operation, of the device are transmitted to the device housing in a damped manner, which is accompanied by a reduction in operating noise compared to an undamped transmission of vibrations. Such vibrations of the tub are generated in the operation of the device primarily by an uneven distribution of laundry in the rotating laundry drum or a resulting imbalance.

It is known to realize the vibration-damping support of the tub within the device housing via damping elements with constant nominal damping forces. These damping elements are designed in such a way that they can reduce amplitudes of vibrations of the tub, in particular in the range of resonance vibrations. The reduction of the vibration amplitudes within the resonance becomes stronger with increasing damping force of the damping elements. However, as the damping force of the damping elements increases, the sound level generated by the device at a maximum rotational speed of the laundry drum also increases. For this reason, the current choice of damping elements with constant nominal damping forces is a compromise between the reduction of the vibration amplitudes within the resonance and the reduction of the sound level of the device at the maximum speed of the laundry drum.

In order to better reduce the operating noise of a device for treating laundry, damping elements are known, the damping force of which is adjustable. For example, disclosed DE 10 2016 214 821 A1 a laundry treatment device with a housing, a tub arranged movably within the housing and a laundry drum, which is arranged rotatably about a transverse axis extending transversely to a vertical axis of the laundry treatment device within the tub. The tub is supported against the housing via at least two adjacent damping units spaced apart from one another with respect to the transverse axis, at least one damping unit of which has an adjustable damping property, and via at least one further damping unit with constant damping property arranged circumferentially offset from the neighboring damping units with respect to the transverse axis.

Furthermore disclosed DE 10 2004 047 999 A1 a friction damper device for a washing machine, in the housing of which a washing unit with a tub, a laundry drum rotatably mounted in the tub and a drive for the laundry drum is arranged. The washing unit is resiliently supported by at least one damper having a piston rod against a lower frame part of the housing. At least one friction lining acting directly on the piston rod of the damper is provided, which is biased against the piston rod by an energy store and can be moved away from the piston rod by activating an actuator.

DE 698 29 686 T2 discloses an adjustable device having a first and a second element arranged for relative movement with a work space therebetween, a device for generating a field which acts on the work space, and an absorption device which is located in the work space adjustable medium, which is essentially completely accommodated within the working space by the absorption device, the adjustable medium having a rheology which responds variably to excitation by a field to provide resistance forces between the first element and the second element.

With that DE 698 29 686 T2 known principle, an electromagnet is controlled in order to adjust the magnetic field generated with the electromagnet. The resistance generated by the adjustable medium can be regulated by the different magnetic fields. A disadvantage of this principle is that a coil of the electromagnet has a certain inertia and can therefore build up the required magnetic field only with a time delay. Another disadvantage of corresponding rheological systems is that they have to be sealed off from the environment. Seals used for this must have the option of switching off after almost no force and meet the service life requirements.

An object of the invention is to improve a reduction in the operating noise of an appliance for treating laundry.

This problem is solved by the independent claims. Advantageous configurations are given in the following description, the dependent patent claims and the figures, wherein these configurations, taken individually or in combination with at least two of these configurations, can represent a further, particularly preferred or advantageous, aspect of the invention. Refinements of the vibration damping system can correspond to refinements of the device, and vice versa, even if this is not explicitly referred to in the individual case below.

A vibration damping system according to the invention for a device for treating laundry has at least one damping unit, by means of which a suds container which is movably arranged within a device housing can be supported relative to the device housing, the damping unit being at least one hollow cylindrical housing and at least one axially displaceable with respect to a longitudinal center axis of the housing has the housing arranged piston which is connected to a piston rod of the damping unit. The housing is made of a soft metallic material and is elastically deformable. The piston is arranged radially spaced from the housing and has at least one cylindrical magnetic core and at least one magnet coil arranged radially on the outside of the magnet core, the magnet core having at least one base section arranged radially inside of the magnet coil and at least two magnet pole sections arranged axially spaced apart from one another, and wherein the magnetic coil is received between the two magnetic pole sections.

According to the invention, the damping force of the damping unit can be adjusted by adjusting the energization of the solenoid. The energized solenoid generates a magnetic field that runs through the magnetic core and acts on the housing with a radial force acting radially inward, whereby the housing is elastically deformed in the direction of the piston in the area of the solenoid or the piston. As a result, the housing can be brought into contact with a section of the piston or with a friction element arranged on the piston rod and / or the piston, as a result of which friction is generated between the housing on the one hand and the piston or the friction element on the other hand, which increases the damping force of the damping unit increased depending on the respective radial force. The vibration damping system according to the invention can also have two or more damping units according to the invention.

The housing can have a circular or a polygonal cross-sectional area. The piston has a cross-sectional area adapted to the shape of the cross-sectional area of the housing. The housing is made from the soft metallic material in such a way that it is sufficiently elastically deformable to be brought into contact with the piston or the friction element.

The piston can be attached to the piston rod or otherwise connected to the piston rod. A coupling section can be arranged on an end section of the piston rod protruding from the housing, via which the damping unit can be fastened to the device housing or the tub. The piston rod has a higher rigidity than the housing. When the magnetic coil is not energized, the housing is not elastically deformed in the direction of the piston, so that the piston is arranged radially spaced from the housing.

The magnetic core is at least partially made of a soft magnetic material. The base section of the magnetic core can be plugged onto the piston rod and can be fixed to the piston rod by means of a press fit and / or a material connection. The magnetic pole sections of the magnetic core project radially outward from the base section in the direction of the housing. The magnetic pole sections are arranged axially spaced from one another in such a way that the magnetic coil, for example in a form-fitting manner, is received between the two magnetic pole sections. The magnet coil is arranged radially outside of the base section and can have a greater distance from the housing than the magnetic pole sections.

According to an advantageous embodiment, the housing has at least two housing components which are of circular arc shape in cross section and are circumferentially offset from one another and are spaced apart from one another in the circumferential direction. This subdivision of the housing in the circumferential direction disassembles the housing into smaller units (housing components), each of which can be elastically deformed in the direction of the piston with less force by means of the magnetic field generated with the magnetic coil. As a result, the magnetic coil can be designed smaller and the current supply to the magnetic coil can be lower. The more housing components the housing has, the easier the individual housing components can be elastically deformed. The housing can, for example, have four, five, six, seven or eight circumferentially offset housing components which are spaced apart from one another in the circumferential direction. The housing components can be of identical or different design, at least in pairs. The housing components can be connected to one another at at least one axial end of the housing via an end wall which is produced separately or is produced monolithically with the housing components. The housing components cannot be connected to one another and free at one axial end of the housing, so that when the magnet coil is energized, the housing components can also be partially displaced radially inwards so that they are arranged inclined to the longitudinal center axis of the housing.

A further advantageous embodiment provides that the magnetic core has radially outwardly open recesses which are offset in the circumferential direction and extend axially along the magnetic core and radially inward into the base section. The cutouts on the magnetic core suppress the formation of eddy currents in the magnetic core, thereby reducing losses. The recesses can be formed on the magnetic core with a uniform circumferential offset.

According to a further advantageous embodiment, the damping unit has at least one guide shaft arranged radially on the inside of the piston, on which the piston is axially displaceably guided by means of the piston rod, the piston rod having an axial bore into which the guide shaft engages. As a result, the piston connected to the piston rod is guided on the guide shaft so as to be axially displaceable. This guidance of the piston makes it possible for the piston to be arranged at a radial distance from the housing and to be axially displaceable when the magnet coil is not energized. The guide shaft can be manufactured as a separate component and fixed to the housing by mechanical fastening means. For this purpose, a radially outward-pointing flange can be formed on the guide shaft, by means of which the guide shaft can be fixed to an end wall of the housing. A coupling section can be arranged on an end section of the guide shaft protruding from the housing, via which the damping unit can be fastened to the device housing or the tub. The guide shaft has a higher rigidity than the housing.

According to a further advantageous embodiment, the damping unit has at least one ring-shaped friction element which is arranged on the piston rod and / or the piston and has a larger outer diameter than the piston. When the solenoid is energized, the elastically deformed housing does not come into contact with the piston, but with the friction element. As a result, the magnetic core of the piston is not consumed in the operation of the damping unit. In addition, unwanted physical contact between the solenoid and the housing is reliably avoided. The friction element can be arranged interchangeably on the piston rod or the piston, for example in order to be able to replace an existing friction element with a new friction element in the event of a defect or a certain degree of wear.

A further advantageous embodiment provides that the vibration damping system has at least one control and / or regulating electronics, which is set up to set a power supply for the solenoid coil taking into account at least one current operating parameter of the device. As a result, the damping force generated in each case with the damping unit can be set as a function of the current operating parameter of the device. This ensures very quiet operation of the device. The control and / or regulating electronics can be implemented by software implementation in existing device electronics. Alternatively, the control and / or regulating electronics can be implemented by a separate unit, which can be connected to device electronics. The control electronics can receive the current operating parameter of the device via a sensor device connected to it or via the device electronics, for example in the form of an actually measured current operating parameter or in the form of an operating parameter contained in an operating program. The control and / or regulating electronics can have at least one microprocessor in which an algorithm can be executed is that determines the power supply of the solenoid coil depending on the current operating parameter of the device. In addition, the control and / or regulating electronics can have at least one electronic data memory connected to the microprocessor, on the memory content of which, for example at least one characteristic curve, at least one characteristic map, at least one look-up table or the like, the microprocessor for determining the energization of the piezo actuator can access. The control and / or regulating electronics can also be set up to set the power supply of the magnetic coil taking into account two or more current operating parameters of the device.

According to a further advantageous embodiment, the control and / or regulating electronics are set up to set the power supply of the magnetic coil taking into account a current speed of rotation of a washing drum of the device which is rotatably mounted in the tub. The control and / or regulating electronics are preferably set up to amplify the energization of the magnetic coil in speed ranges in which resonance vibrations occur. In addition, the control and / or regulating electronics can be set up to reduce the energization of the magnetic coil in speed ranges with low speed and maximum speed.

According to a further advantageous embodiment, the piston has at least two magnet coils arranged radially on the outside of the magnet core, axially spaced apart from one another and coaxially to one another, the magnet core having three magnet pole sections arranged axially spaced apart from one another, and a magnet coil being accommodated between adjacent magnet pole sections. As a result, the radial force that can be generated with the piston and acts on the housing can be increased. The two solenoids can be connected in parallel or in series. The two solenoids can be energized with opposite poles, which means that a lower inductance and thus a shorter response time of the damping unit can be achieved, which enables an almost instantaneous variation of the damping force depending on the particular circumstances.

A device according to the invention for treating laundry has a device housing, a tub arranged movably within the device housing and a vibration damping system with at least one damping unit, by means of which the tub is supported with respect to the device housing, the vibration damping system according to one of the aforementioned configurations or a combination of at least one two of these configurations are formed together.

The advantages associated with the vibration damping system are associated with the device accordingly. The device for drying laundry can be designed, for example, as a clothes dryer, a washer dryer or a washing machine. The tub can also be suspended on the device housing via at least one spring element.

• 1 einen schematischen Längsschnitt eines Ausführungsbeispiels für ein erfindungsgemäßes Schwingungsdämpfungssystem;
• 2 eine schematische und perspektivische Darstellung des in 1 gezeigten Schwingungsdämpfungssystems;
• 3 eine schematische Stirnansicht der in den 1 und 2 gezeigten Dämpfungseinheit; und
• 4 eine schematische und perspektivische Darstellung des in den 1 bis 3 gezeigten Kolbens.

In the following, the invention is explained by way of example with reference to the attached figures using a preferred embodiment. Show it:

• 1 a schematic longitudinal section of an embodiment for an inventive vibration damping system;
• 2 is a schematic and perspective view of the in 1 vibration damping system shown;
• 3 a schematic end view of the in the 1 and 2 damping unit shown; and
• 4 is a schematic and perspective view of the in the 1 to 3 shown piston.

1 shows a schematic longitudinal section of an embodiment for an inventive vibration damping system 1 for a device for treating laundry, not shown. The vibration damping system 1 has a damping unit 2 , via which a tub, not shown, movably arranged within a device housing, not shown, can be supported relative to the device housing.

The damping unit 2 has a hollow cylindrical housing 3 on. The housing 3 has eight cross-sectionally shaped and identically designed, evenly circumferentially offset housing components 4 on that in the circumferential direction of the housing 3 are spaced from each other. Furthermore, the housing 3 an end wall at one axial end 5 on the housing components 4 are interconnected. The other ends of the housing components 4 are not connected, but free. The housing 3 is made of a soft metallic material and is elastically deformable.

Furthermore, the damping unit 2 a piston rod 6 and one with respect to a longitudinal central axis 7 of the housing 3 axially displaceable in the housing 3 arranged pistons 8th on the one with a piston rod 6 is connected or to an axial end portion 9 the piston rod 6 With greater material thickness is attached. The piston 8th is radially spaced from the housing 3 arranged.

The piston 8th has a cylindrical magnetic core 10 on a radially inner base section 11 and three magnetic pole sections axially spaced from each other in a row 12 having. The piston 8th also has two radially outside on the magnetic core 10 and axially spaced from each other and coaxially arranged solenoids 13 on, between adjacent magnetic pole sections 12 one solenoid each 13 is included. The magnetic core 10 has four in the circumferential direction evenly offset from one another, radially outward open, in 4 shown recesses, which extend axially along the magnetic core 10 and radially inwards into the base section 10 extend.

The damping unit 2 also has a radially inner to the piston 8th arranged leadership 14 on which the piston 8th by means of the piston rod 6 is guided axially. For this purpose, the piston rod has 6 an axial bore 15 to that of the leadership 14 intervenes. On one from the case 3 protruding axial end portion of the guide shaft 14 is a coupling section 16 trained over which the damping unit 2 can be connected to the device housing or the tub. On one from the case 3 protruding axial end portion of the piston rod is a coupling portion 17 trained over which the damping unit 2 can be connected to the tub or the device housing. The leadership 14 has a radially outwardly facing mounting flange 18 on, the four mechanical fasteners evenly staggered circumferentially 19 in the form of screw connections on the front wall 5 of the housing 3 is attached. On one end 20 the piston rod 6 is a bearing ring 21 arranged over which the piston rod 6 on the front wall 5 can support.

The damping unit 2 can also have at least one on the piston rod 6 and / or the piston 8th arranged, ring-shaped, not shown friction element having a larger outer diameter than the piston 8th having.

Furthermore, the vibration damping system 1 a control and / or regulating electronics 22 on, which is set up to supply power to the solenoids 13 taking into account at least one current operating parameter of the device. In particular, the control and / or regulating electronics 22 set up the power supply to the solenoids 13 taking into account a current speed of rotation of a laundry drum of the device which is rotatably mounted in the tub.

2 shows a schematic and perspective view of the in 1 vibration damping system shown 1 , In particular, there are the eight housing components 4 and their relative arrangement shown to each other. It is also shown that the viewer of 2 facing ends of the housing components 4 free or not with each other and not with another component of the damping unit 2 are connected.

3 shows a schematic end view of the in the 1 and 2 shown damping unit 2 , It is in particular the segmented configuration of the housing 3 to see. In addition, the connection of the mounting flange 18 of the leadership 14 about the four mechanical fasteners 19 on the front wall 5 of the housing 3 shown. It is also shown that the end wall 5 radial recesses 23 has, each in the radial plane of separation between the respective housing components 4 lie.

4 shows a schematic and perspective view of the in the 1 to 3 shown piston 8th and a portion of the piston rod 6 , In particular, there are the four recesses which are arranged radially on the outside and are evenly offset from one another in the circumferential direction 24 of the magnetic core 10 shown extending axially along the magnetic core 10 and radially inwards into the base section 11 extend.

LIST OF REFERENCE NUMBERS

1

Vibration damping system

2

damping unit

3

casing

4

housing component

5

Front wall of 3

6

piston rod

7

Longitudinal central axis of 3

8th

piston

9

axial end portion of 6

10

magnetic core

11

Basic section of 10

12

Magnetic pole section of 10

13

solenoid

14

guide shaft

15

Axial bore of 6

16

Coupling section from 14

17

Coupling section from 6

18

Mounting flange from 14

19

fastener

20

Front of 6

21

bearing ring

22

Control and / or regulating electronics

23

Recess of 5

24

Recess of 10

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102016214821 A1 [0005]
• DE 102004047999 A1 [0006]
• DE 69829686 T2 [0007, 0008]

Claims (9)

Vibration damping system (1) for a device for treating laundry, comprising at least one damping unit (2), by means of which a lye container arranged movably within a device housing can be supported relative to the device housing, the damping unit (2) having at least one hollow cylindrical housing (3) and Has at least one piston (8) which is axially displaceable in the housing (3) with respect to a longitudinal center axis (7) of the housing (3) and which is connected to a piston rod (6) of the damping unit (2), characterized in that the housing ( 3) is made of a soft metallic material and is elastically deformable and that the piston (8) is arranged radially spaced from the housing (3) and at least one cylindrical magnetic core (10) and at least one magnetic coil (radially outside on the magnetic core (10)) 13), wherein the magnetic core (10) has at least one radially inner to the magnet Coil (13) arranged base section (11) and at least two axially spaced magnetic pole sections (12), and wherein the magnetic coil (13) is received between the two magnetic pole sections (12). Vibration damping system (1) after Claim 1 , characterized in that the housing (3) has at least two housing components (4) which are of circular arc shape in cross section and are circumferentially offset from one another and are spaced apart in the circumferential direction. Vibration damping system (1) after Claim 1 or 2 , characterized in that the magnetic core (10) has circumferentially offset, radially outwardly open recesses (24) which extend axially along the magnetic core (10) and radially inwards into the base section (11). Vibration damping system (1) according to one of the Claims 1 to 3 characterized in that the damping unit (2) has at least one guide shaft (14) which is arranged radially on the inside of the piston (8) and on which the piston (8) is axially displaceably guided by means of the piston rod (6), the piston rod (6 ) has an axial bore (15) into which the guide shaft (14) engages. Vibration damping system (1) according to one of the Claims 1 to 4 , characterized in that the damping unit (2) has at least one ring-shaped friction element which is arranged on the piston rod (6) and / or the piston (8) and has a larger outer diameter than the piston (8). Vibration damping system (1) according to one of the Claims 1 to 5 , characterized by at least one control and / or regulating electronics (22), which is set up to set a power supply for the magnetic coil (13) taking into account at least one current operating parameter of the device. Vibration damping system (1) after Claim 6 , characterized in that the control and / or regulating electronics (22) is set up to adjust the power supply of the magnetic coil (13) taking into account a current speed of rotation of a washing drum of the device which is rotatably mounted in the tub. Vibration damping system (1) according to one of the Claims 1 to 7 , characterized in that the piston (8) has at least two magnet coils (13) arranged radially on the outside of the magnet core (10), axially spaced apart from one another and coaxially to one another, the magnet core (10) having three magnet pole sections (12) arranged axially spaced apart from one another ), and wherein a magnetic coil (13) is received between adjacent magnetic pole sections (12). Device for treating laundry, comprising a device housing, a tub arranged movably within the device housing and a vibration damping system (1) with at least one damping unit (2) by means of which the tub is supported relative to the device housing, characterized in that the vibration damping system (1) after one of the Claims 1 to 8th is trained.

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