GB2078882A - Oscillation damping equipment - Google Patents

Abstract

The arrangement, especially for a washing machine of the type having a drum unit (1) with a perforated drum (D) rotatable about a generally horizontal axis within an outer container (R), comprises a first member (3) secured to a first body, e.g. the drum unit (1), a second member (5) in frictional engagement with the first member and secured to another body, e.g. the washing machine cabinet (O), a third member (6) frictionally supported by the first member, and stop means (11, 12) limiting the degree of travel of the third member relative to the other body. Such an arrangement provides two-stage damping suitable for damping both small and larger oscillations. As shown, member (3) is a rod passing through apertures in projections (9, 10) of member (5) which frictionally engage the rod (3), and provide the stop means (11, 12). For small oscillations, frictional contact of rod (3) by projections (9, 10) gives damping but for larger oscillations contact of member (6) with stop means (11, 12) causes additional frictional contact of rod (3) by member (6) and gives additional damping. In the modification of Figure 3 (not shown), the spring (4) of Figures 1, 2 is replaced by a C-spring (16) having an extension which provides the first member. <IMAGE>

Description

SPECIFICATION Oscillation damping arrangement This invention relates to arrangements for damping oscillation occurring between two relatively movable bodies, more especially for damping oscillations of a body carried resiliently by a support, and has particular application to washing machines of the kind incorporating a cabinet resiliently supporting within it a drum unit, comprising a perforated drum mounted for rotation about a generally horizontal axis within an outer container.

In use of such a washing machine it is usual for the drum to be rotated alternately in opposite directions, to produce a movement of clothes through a washing or rinsing liquid in the outer container, and unidirectionally at a relatively high spin speed with the container emptied, in order to extract moisture from the clothes by centrifugal action.

In some cases, however, for example due to bunching of clothes within the drum, large oscillations of the drum unit can occur as the drum is accelerated up to spin speed particularly within a critical speed range. In order to reduce such vibrations damping means are commonly provided, but if these are made effective to damp large oscillations, small oscillations which occur due to slight imbalances tend to be transmitted to the cabinet of the machine, which is clearly undesirable.

An object of the present invention is to provide a form of damping arrangement which serves to provide effective damping of both small and larger oscillations.

According to the invention an arrangement for damping oscillations between two relatively movable bodies, comprises a first member associated with one of the bodies and a second member associated with the other body and in frictional engagement with the first member, a third member frictionally supported by the first member, and stop means limiting the degree of travel of the third member relative to said other body.

The expression "associated with" as applied to the first and second members in the above statement of the invention means that relative movement of the bodies results in a corresponding relative movement of the members. A member may, for example, be physically attached to the respective body, or it may support or be supported by the respective body so as to be retained in contact with it by gravity or other means.

In an arrangement in accordance with the invention oscillations of less than a predetermined amplitude between the bodies will be damped by the frictional force between the first and second members, but oscillations of sufficient amplitude to cause the movement of the third member to be arrested by the stop means will result in an additional frictional force being exerted by the third member, thus enhancing the damping effect.

The invention is especially applicable to apparatus, such as rotary washing machines, in which a body which is subject to oscillations in use is resiliently mounted on a support.

In such an arrangement the second member can be arranged to exert only a relatively light frictional force on the first member, such that small oscillations of the body are not transmitted to any significant extent to the support, whilst the frictional force exerted by the third member can be made to be substantially greater to ensure effective damping of large oscillations.

Shock absorbing pads, of a suitably soft material, such as a high hysteresis rubber-like material, for example SORBOTHANE, may be interposed between the third member and the stop means to reduce shock and consequent noise when large oscillations occur.

Means can in some cases be provided for adjusting the frictional force exerted between the second andiorthird members on the first member.

Conveniently the first member is in the form of a bar or rod extending through the second member, the latter having two relatively spaced sections, with the third member supported by the first member between the spaced sections of the second member, which thereby provide the said stop means.

The amplitude of the oscillations at which the third member becomes effective is thus determined by the length of the third member and the spacing of the two sections of the second member, and these dimensions can readily be chosen, together with the degree of frictional force exerted to suit any particular application of the invention.

In the case of a washing machine the first member may be in the form of a rod fixed to the drum unit, with the second member supported by the base of the washing machine cabinet. Preferably the rod is secured to the drum unit by a resilient clamping means in a manner which allows the rod to pivot to a limited extent in all directions relative to the unit. In such a case the second member is conveniently also supported by the base of the washing machine cabinet in a manner which allows a degree of universal movement. Although the second support member may be similarly secured to the base by a resilient clamping means it can be alternatively supported by a spherical seating, giving a required degree of universal movement.

Conveniently a damping arrangement is incorporated into a resilient strut which provides a support for the drum unit from the cabinet base, the rod in such a case being surrounded by a compression spring acting between the drum unit and the second damping member.

However means such as leaf springs may alternatively be used for providing a resilient support for the drum unit if desired, and in some cases the spring may be in the form of a C-spring an end of which is extended to form said first member of the damping arrangement.

The drum unit may be supported by different numbers of combined resilient supports and damping arrangements, for example one, two three or four, as may be convenient.

Two embodiments of the invention will now be described by way of example with reference to Figures 1 to 3 of the accompanying drawings, in which Figure 1 represents in part section of a front elevation of a washing machine incorporating one damping arrangement in accordance with the invention, Figure 2 shows the damping arrangement in more detail, and Figure 3 illustrates an alternative damping arrangement for a washing machine.

Referring first to Figure 1, this shows diagrammatically a washing machine comprising an outer cabinet 0 supporting within it a drum unit 1, the latter incorporating a perforated drum D rotatable about a horizontal axis within a container R. The drum is open at its front end and the cabinet is provided with a loading opening Lfor introducing clothes into and removing them from the drum, the loading opening being closeable by a door (not shown).

In use of the machine the drum is arranged to be rotated alternately in opposite directions at a relatively low speed, with a quantity of liquid in the container R, for washing or rinsing the clothes, and unidirectionally at a relatively high spin speed, with the container emptied, for extracting moisture from the clothes by centrifugal action.

The drum unit 1 is supported within the cabinet by two or more resilient support elements S one of which is shown in more detail in Figure 2. Each support element extends between a bracket 2 carried by the base BA of the cabinet 0 and a further bracket 2.1 fixed to the container of the drum unit 1, and comprises a rod 3 surrounded by a compression spring 4 and a damper housing 5.

The rod is resiliently secured at its upper end to the bracket 2.1 by means of two rubber mounting blocks 7 clamped one each side of the bracket 2.1 as shown, which permits the rod to pivotto a limited extent in all directions relative to the bracket, and the damper housing 5 bears on the base bracket 2 via a spherical seating 8, which also allows a degree of universal movement between the housing and the base, the spring 4, which extends between the lower of the two mounting blocks 7 and the damper housing, providing a resilient support for the drum unit 1.

The damper housing 5 is in the form of a hollow box-like structure having outwardly extending projections 9, 10 on its upper and lower walls 11, 12 respectively. The upper projection 9 being surrounded by the lower end of the spring 4, and the lower end of the lower projection 10 being of part spherical shape and resting within the spherical seating 8. The projections 9, 10 are apertured for the passage of the rod 3 and are such that they frictionally engage the rod 3, which has the effect of damping oscillations which occur between the drum unit 1 and the cabinet 0.

In addition the rod 3 carries within the damper housing 5 a secondary damping element 6 in the form of a collar which also frictionally engages the rod. Pads X, Y of a high hysteresis rubber-like material, such as SORBOTHANE are interposed between the damping element 6 and the upper and lower walls 11, 12 of the damper housing 5, for example by attachment to the inner surfaces of the walls as shown orto the upper and lower surfaces of the element itself.

In use of the machine, should large oscillations of the drum unit 1 occur, damping is achieved in two ways. Primary damping is effected by friction at points A and B by contact between the rod 3 and the projections 9, 10 on the damper housing 5. Then, if the amplitude of the oscillations exceeds a value determined by the size of the damper housing a secondary damping takes effect in addition to the primary damping. This occurs when the secondary damping element 6, carried by the rod as a result of the frictional engagement between them, is brought into contact with a pad X or Y on the inside face of the upper or lower wall 11, 12 of the damper housing. Thus at each extremity of travel the secondary damper element 6 is caused to move relative to the rod 3 by an amount equal to the overtravel, after the secondary element 6 contacts the respective pad on the wall of the damper housing 5.The purpose of the pads X, Y is to reduce shock and consequent noise which could be caused by the element contacting the walls of the housing directly. Alternatively the pads may be dispensed with where the element 6 itself is of suitably resilient material, and if desired the upper and lower surfaces of the element may be shaped, as by the provision of ridges or other projections, to act as buffers for further reducing noise and shock.

The frictional force between the secondary damper element 6 and the rod 3 is relatively high, so that where the amplitude of oscillation of the rod is large, a large damping force comes into action at each end of its stroke.

However when the machine operates stably, with a relatively small amplitude of oscillation between the rod 3 and the damper housing 5, insufficient to cause the secondary damper 6 to contact the damper housing 5, damping of a relatively light nature is provided by the frictional engagement of the rod in the projections 9, 10.

Such an arrangement gives the optimum damper performance of high damping at a critical speed where large deflections of the drum unit are encountered, and a smaller degree of damping when smaller deflections occur. By this means relatively small oscillations of the drum unit are prevented from being transmitted to any substantial extent to the cabinet 0.

The drum unit 1 may be supported from the base BA of the cabinet 0 by four such support/damper elements S, arranged two at each side of the unit, or alternatively by three such elements disposed one at one side of the unit and two at the other, although in some cases it may be supported by two elements only, disposed one at each side of the unit, approximately in the plane which extends transverse to the axis of the drum through the centre of gravity of the drum unit, means then being provided for support~ ing the drum unit against any substantial degree of tilting movement.

Although the elements S provide a degree of " resilient support for the drum unit assembly as well as damping, these two functions cou Id be separated if desired, the spring 4 being omitted and the resilient support being provided by other means, for example separate suitably positioned spring-loaded struts, or other form of springs.

An alternative embodiment of the invention is illustrated in Figure 3, which shows an alternative form of combined resilient support/damper unit S.1 for a washing machine drum unit 1.

Each support/damper unit S.1 again extends between a bracket 2 carried by the base BA of the washing machine cabinet and a further bracket 2.1 fixed to the container of the drum unit 1.

In this case, however, the resilient support is provided by a steel C-spring 16, formed from a flat strip bent to shape, and having the ends of the C fixed by bolts 19 to the respective brackets 2, 2.1. The upper end of the C has a straight downwardprojecting extension 15 which extends nearly to the bottom end of the C as shown. There is also attached to the lower bracket 2 an approximately E-shaped damper 17, the lower limb 20 of which is secured to the bracket by the bolt 19 fixing the lower end of the C-spring 16. The extension 15 passes through slots formed in the top and middle limbs 21, 22 of the E-shaped damper and these are arranged to frictionally engage the sides of the extension, which has the effect of providing a relatively light damping of oscillations which occur between the drum unit 1 and the washing machine cabinet.The extension 15 frictionally supports between the limbs 21, 22 of the damper a secondary damping element 18, and this provides relatively heavy secondary damping when the element 18 contacts the faces of either of these two limbs 21, 22 of the damper, which takes place when large vertical amplitudes of vibration of the drum unit 1 occur, such as when the drum of the machine passes through critical speed. This arrangement provides a simplified form of support/damper system using fewer parts than the first embodiment.

In particular the need for separate resilient attachments to secure the support/damper unit S1 to the brackets 2, 2.1 is avoided, as the C-spring itself provides lateral stiffness and resistance to tipping.

Thus the mounting blocks 13 atthe upper end ofthe C-spring need not in this case be of resilient material.

It will be appreciated that the form of two-stage damping employed may be used to advantage in other forms of machinery subject in use to oscillations which need to be damped.

Claims (15)

1. An arrangementfordamping oscillations between two relatively movable bodies, comprising a first member associated with one of the bodies and a second member associated with the other body and in frictional engagement with the first member, a third member frictionally supported by the first member, and stop means limiting the degree of travel of the third member relative to said other body.

2. An arrangement according to Claim 1 wherein one of the bodies is provided by a rotatable member, and the other body is provided by a support therefor.

3. An arrangement according to Claim 2 wherein the second member is arranged to exert only a relatively light frictional force on the first member, such that small oscillations of the body are not transmitted to any significant extent to the support, whilst the frictional force exerted by the third member is substantially greater to ensure effective damping of large oscillations.

4. An arrangement according to any preceding Claim wherein one or more shock absorbing pads is/are interposed between the third member and the stop means to reduce shock and consequent noise when large oscillations occur.

5. An arrangement according to any preceding Claim wherein means are provided for adjusting the frictional force exerted between the second and/or third members on the first member.

6. An arrangement according to any preceding Claim wherein the first member is in the form of a bar or rod extending through the second member, the latter having two relatively spaced sections, with the third member supported by the first member between the spaced sections of the second member, which thereby provide the said stop means.

7. An arrangement according to Claim 6 for a washing machine incorporating a drum unit comprising a perforated drum mounted for rotation about a generally horizontal axis within an outer container, and mounted within a cabinet, wherein the first member is in the form of a rod fixed to the drum unit, with the second member supported by the base of the cabinet.

8. An arrangement according to Claim 7 wherein the rod is secured to the drum unit by a resilient clamping means in a manner which allows the rod to pivot to a limited extent in all directions relative to the unit.

9. An arrangement according to Claim 8 wherein the second member is also supported by the base of the washing machine cabinet in a manner which allows a degree of universal movement.

10. An arrangement according to Claim 9 wherein the second support member is supported on the base of the washing machine by a spherical seating.

11. An arrangement according to any one of Claims 7 to 10 which is incorporated into a resilient strut which provides a support for the drum unit from the cabinet base, the rod surrounded by a compression spring acting between the drum unit and the second damping member.

12. An arrangement according to any one of Claims 7 to 10 in which one or more leaf springs provide the resilient support for the drum unit.

13. An arrangement according to Claim 12 wherein at least one said leaf spring is in the form of a C-spring an end of which is extended to form said first member of the damping arrangement.

14. An arrangement for damping oscillations between two relatively movable bodies substantially as shown in and as hereinbefore described with reference to Figure 2 or Figure 3 of the accompanying drawings.

15. Awashing machine incorporating a damping arrangement according to any preceding Claim.