DE1134337B - Elastic suspension of the centrifugal drum in a laundry centrifuge - Google Patents

Description

Elastic suspension of the spin drum in a laundry centrifuge The invention relates to an elastic suspension with a drive motor a centrifugal drum having a common vertical shaft in the housing of a laundry centrifuge using one or more of one damping-free and one self-damping Spring assembled in a parallel arrangement spring elements, preferably with one inside a rubber spring arranged coil spring.

In particular in connection with suspension elements known in vehicles rubber-metal springs connected in parallel have already been used, the one Are subject to bias. In these, however, a multi-thread spring was used assumed, in which individual gaps are bridged by a rubber body. So there was a damping body connected to both sides with a spring. Here the transverse rigidity leaves something to be desired, so that known spring element must be inserted between two coaxial guide tubes.

In contrast, the invention relates to the suspension of a rotating Systems. The well-known spring design is for spin units in laundry centrifuges because of their insufficient transverse rigidity, too little damping and too much static Unsuitable load bearing.

The invention aims at an elastic suspension, with at the same time high damping and good fatigue strength, and it consists in that in the case of an elastic suspension of the type mentioned at the outset, the springs of each spring element so biased against each other in a manner known per se when they are connected are that the self-damped spring is practically stress-free under operating load.

In a further embodiment of the invention, one is known per se Way provided concentrically to the shaft arranged spring element. Furthermore can (read or the spring elements be arranged in such a way that they are statically on pressure and / or Tensile are stressable. Finally, the spring element or elements can in itself known way a cylindrical or hollow conical or conical sleeve-shaped Have shape.

The drive is with the housing base by several axially parallel or inclined, statically stressed leaf spring rubber elements connected. Of the Drive can still be through several, radially extending, approximately quarter-circle curved spring elements be connected to the housing or the intermediate part.

In a suspension according to the invention, the static load is alone absorbed by the undamped spring. The self-damped spring is not thereby preloaded. So it is only stressed dynamically and consequently has a increased fatigue strength. In addition, the self-damped spring can as a result their tensionlessness under static load also in the best range of their damping work, which is of particular importance in the case of rapidly rotating units. Man In addition, the self-damped springs can now be used from the point of view of fatigue strength design, which is another advantage of the invention.

Further features of the invention are apparent from the description of the in Referring to the drawing illustrated embodiments. It shows Fig. 1 to 3 different arrangements according to the invention in section and FIGS. 4 to 11 different Spring body according to the invention in section or in view.

In the embodiment according to FIG. 1, the centrifuge unit consisting of the centrifugal drum 2 and the drive motor 3 is arranged in the centrifuge housing 1. Centrifugal drum 2 and drive motor 3 have a common vertical shaft 4 . The suspension of the centrifugal unit takes place with the aid of a centrally arranged spring element, which is only shown schematically and which is centrally penetrated by the shaft 4.

In the embodiment shown on the left, the spring element is 5 attached to the top of the intermediate floor 6 and subjected to train by the static load. In the embodiment shown on the right, a central spring body 7 is provided, which is statically stressed by pressure. He supports himself with his lower end attached to one in the centrifuge housing 1 Flange ring 8 or corresponding supports, e.g. B. angle plates, from. In this embodiment is below of the drive motor is still provided with the brake 9.

In the embodiment according to FIG. 2, the suspension of the centrifugal unit takes place with the aid of several spring elements 11 arranged around the shaft 10. In the left-hand embodiment, a statically stressed spring element is provided for each suspension point - of which there must be at least three. In the right-hand embodiment, two spring elements 12 are provided on a flange 13 connected to the drive motor for each suspension point, the upper one being statically stressed in tension and the lower one statically stressed in compression. These are also parallel to the shaft 10. The upper spring element 12 is attached to the intermediate base 14, the lower to a flange 15 provided in the centrifuge housing or to another support element. The spring elements 11 or 12 can also be inclined towards the shaft 10. They then lie, viewed as a whole, on a truncated cone.

In Fig. 3, the suspension takes place with the aid of spring elements, which are composed of a leaf spring and a rubber spring. In the left-hand embodiment, the centrifugal unit 16 is suspended with the aid of several spring elements 17 on the intermediate base 18 of the housing, which extend radially outward from the centrifugal unit. When the centrifugal unit 16 vibrates, the leaf springs of the spring elements 17 are subjected to bending.

In the right-hand embodiment, the unit rests on several spring elements 19 fastened to the housing base 20. The drive motor 21 is arranged with angles 22 on the spring elements 19. These are roughly parallel to the shaft of the centrifugal unit. They are put under pressure by the static load. Such or similar spring elements can also be arranged inclined with respect to the shaft and also fastened to the intermediate floor so that they are statically stressed on train.

Like the spring elements used in the previous arrangements are constructed in detail is shown in the following figures. It must In this context it should be mentioned that rubber and coil springs are also separated can be used side by side.

FIG. 4 shows a central spring element which can be used for the arrangement according to FIG. 1 and which is shown on the left under static load and on the right in the relaxed state before installation. It consists of an approximately frustoconical helical spring 23, which is firmly connected to a metal ring 24 at the top and a metal ring 25 at the bottom: These rings are used to connect to the drive motor or to the intermediate base or another housing part. The helical spring 23 lies inside a tubular rubber spring 26. During manufacture, it is introduced into the vulcanization mold in a stretched state and firmly connected to the rubber spring 23. The expansion of the helical spring 23 is chosen so that it corresponds to the static load of the centrifugal unit. If the spring element is now removed from the vulcanization mold, it contracts, as shown on the right. Only after it has been installed does the spring body take on its stretched shape again, with the tubular rubber spring 26 then being tension-free.

FIG. 5 shows a spring element which can be used for the arrangements according to FIG. It consists of the helical spring 27, which is arranged firmly adhering inside an approximately cylindrical rubber spring 28. Here, too, the two springs are pretensioned against each other. The attachment to the drive motor or the centrifuge housing takes place via the rigid end plates 29, which are provided with screws 30.

Such a spring element can also be given a conical shape. Such a conical spring can, as FIG. 6 shows, have a central cavity 31 . In this case, a metal ring 32 is used for attachment to the drive motor or to the centrifuge housing.

The spring elements can also consist of a helical spring that inside and / or outside with an optionally tubular rubber spring without adhesive connection is surrounded. Another external shape of the spring elements is also conceivable.

Fig. 7 shows a spring element; which contains a rod-shaped spring 34 within a rubber spring 33. A spring wire or a piano string can be used as such. The bar spring 34 is firmly connected to the end plates 35 . This spring element is particularly suitable for suspensions that are statically stressed in tension. No particular pretensioning of the two springs against each other is necessary during production, which simplifies production.

FIG. 8 shows a side view of a spring element which can be used for the arrangement according to FIG. 3. This consists of a leaf spring 36 bent approximately in the shape of a quarter circle, which is firmly adhered to the rubber spring 37 on its inside. The leaf spring 36 is in the central area 38; As FIG. 9 shows, it is designed to be narrower, so that the suspension can essentially take place here. The ends of the leaf spring 36 are used with bores 39 for attachment to the drive motor and the centrifuge housing. Here, too, leaf spring 36 and rubber spring 37 can be pretensioned against one another. Fig. 9 shows the spring element in the stretched state.

According to FIGS. 10 and 11, the spring element consists of a leaf spring 40, which is enclosed on both sides by a Gununifeder 41 . Here, too, the leaf spring is tapered to a narrow cross section in the central region 42. The ends of the leaf spring 40 are bent at the top to form a fastening eye 43 and at the bottom to the two fastening eyes 44. The suspension is essentially received by the central part 42 of the leaf spring.

Claims (6)

PATENT CLAIMS: 1. Elastic suspension of one with the drive motor a centrifugal drum having a common vertical shaft in the housing of a laundry centrifuge using one or more of one damping-free and one self-damping Spring assembled in a parallel arrangement spring elements, preferably with one helical spring arranged inside a rubber spring, characterized in that that the springs of each spring element in a manner known per se when they are connected are clamped against each other in such a way that the self-damped feather is practically de-energized under operating load. 2. Elastic suspension according to claim 1, characterized by a concentric to the shaft arranged in a manner known per se Spring element. 3. Elastic suspension according to claim 1 and 2, characterized in that that the spring element or elements are arranged in such a way that they are statically pressurized and / or train can be claimed. 4. Elastic suspension according to claim 1 and 2, characterized in that the spring element or elements in a manner known per se have a cylindrical or hollow conical or conical collar-shaped shape. 5. Elastic suspension according to claim 1, characterized in that the drive motor (21) with the housing base (20) by several axially parallel or inclined, static leaf spring rubber elements (19) subjected to compression is connected. 6. Elastic suspension according to claim 1, characterized in that the drive motor (21) is connected to the centrifuge housing or to the intermediate base by a plurality of radially extending, approximately quarter-circle-shaped spring elements (17) (Fig. 8, 9). Considered publications: German Patent Nos. 718 273, 743 989, 826 822, 834 623, 858 387, 864 529, 908127; French Patent No. 1035139; British Patent Nos. 576 424, 739 666; U.S. Patent Nos. 1819 322, 2 005 089, 2589796.