SE469239B - VIBRATIONSDAEMPARE - Google Patents

Description

469 259 10 15 20 25 30 35 2 Fig. 2 shows a central cross section through a vibration dampers according to a second embodiment, while Fig. 3 shows a central cross section through the vibration damper in a third embodiment.

As. appears from the exemplary embodiment according to Fig. 1 the vibration damper of two main parts, namely one holding device 1 and a pivot body 2, which is arranged to be supported by the restraining device.elastic suspended so that the pivot body is brought into oscillation in opposite phase in relation to those on the holding device 1 acting vibration forces, when mounted on a surface 3 of an object 4 to be vibrated. In what was shown the example shows the holding device 1 in the form of a housing, which encloses a space 5 in which the pivot body 2 is enclosed. The house can be completely closed and provided with four enclosing sides 6, 7 and an upper part 8 alternatively open with only two opposite sides, whereby the space 5 has the shape of a tunnel with openings for two hold. For the sake of clarity, a central cross section is shown through the device, which applies whether a closed or open solution is selected.

The swivel body 2 has a weight 9, as shown the example is designed as a solid 'sphere of suitably metal, and partly a damping body 10, which encloses the weight 9 and which is made of a highly elastic shock-absorbing material, for example rubber, such as silicone rubber. The damping body is in it showed the example cubic with six flat sides 11, 12, 13, 14.

For the suspension of the pivot body 2 a number are provided, at least two, suspension elements 15, which are likewise made in a highly elastic. material and for example is produced in a unit with the damping body and thus form protruding from its sides. In the figures are 10 15 20 25 30 35 -rä- m oc: ro lo 3 the suspension elements 15 are located in the section, but can also performed as, for example, two elements 15 on each side of the swing body, located symmetrically in relation to it central cut. Thereby the pivot body 2 obtains one stable suspension with a reduced risk of twisting the swivel body around its suspension point if only two hanging places exist.

According to the invention, the holding device 1 is divided into two or more parts 16, 17, which are designed so that they together form a coherent unit. According to arranged, that the invention is the division so the holding parts 16, 17 together form each mounting point for pivoting body suspension element15.

In this case, the two holding parts 16, 17 are at the attachment points provided with portions 19, 20 which mounting end 21 of each so that this is locked at interacts with one suspension elements the holding device, i.e. that the suspension element exhibits a solid, i.e. locked attachment.

In the example shown, the attachment is made in the form of a form-locked by said portions of the retaining members being made with surfaces that together correspond to the shape of the mounting end 21 of the suspension elements, at least in compressed condition. It is conceivable that it off said cavities 19, 20 formed cavity have slightly smaller dimensions than the outer contour of the suspension element to ensure good retention by clamping mounting end 21. However, this is in principle not necessary in the case, as shown in the figures, that the fastening end 21 is an enlarged portion and said cavity also has an enlarged portion 22, located within a neck portion 23 of the cavity, whereby the suspension element is form-locked in the retaining device. This cavity is thus divided into two parts between the two along a dividing line 24 4 f ISLAND 10 15 20 25 30 35 9 259 4 the holding parts 16, 17, which are held firmly connected together. This is done in the example shown by the both holding parts 16, 17 have flanges 25, 26, which connect in shape to each other and are provided with screw holes and through screw 27 for attachment to the object 4, shall Correspondingly, the object is thus surface 3 of whose vibrations brought down. provided with preferably threaded screw holes for fastening that retention the device 1 vibrates together with the object 4, i.e. of the damper in such a fixed manner, included in its movements.

According to the example shown in 1, the damper is in unassembled condition open in at least one direction, in it that a batch of fig. showed the example in the downward direction so, the surface 3 of the object 4 forms a wall 28 in the space 5, which distance from Correspondingly runs in the damper sleep mode is on one side 14 of the swivel body 2. 30, the corresponding sides 11, 12, of the pivot body 31 in sleep mode at a distance from 13, sides in the space 5 form a right angle with each other and are in other pages 29, whereby all mainly flat and set up to be included in the item 4 vibrational movements. The division of the holding device 1 through the attachment points enables easy mounting of the pivot body 2 with the holding parts 16, 17 separated apart, leaving the cavity at the attachment points is opened so that the suspension elements 15 can be easily inserted in their respective cavities, after which the retaining parts are brought together and the cavities are closed, thereby locking the suspension elements.

In the example shown in Fig. 1, the pivot body 2 has two support legs 32 made of an elastic material, the same material as the damping body 10. The support legs 32 serve 28 att further conceivable for example affect to as a damping element against the surface of the damping properties. It is 10 15 20 25 30 35 5 the suspension elements 15 are furthermore prestressed, i.e. to they are extended during assembly and locked in a tensioned condition, thereby increasing the damping effect.

The embodiment according to Fig. 2 represents one modification of the restraining device 1 to the extent that the holding parts, here denoted by 33, 34 have one other configuration, mainly in terms of division and the interior design. Flange 35 of the holding part 33 is here directly applied to the object 4 surface 3, while the holding part 34 has a bottom portion 36, which does the damper as a whole complete without any surface the object was used other than for attaching the damping.

An inwardly facing surface 37 of the bottom portion 36 thereby forms one surface in the space 5. Furthermore, the damper is asymmetrical concerning the location of the suspension elements 15, which can be used to give the damper special damping properties.

Fig. 3 shows an example of a damper with suspension elements 15 located in different height positions on respective side of the swivel body 2. In this case, a corresponding increase in the number of retaining parts 38, 39, 40, 41 with dividing lines through each attachment point in the retaining device.

By means of the damper according to the invention, damping can be achieved within a wide frequency range of vibration oscillations, where the damping takes place partly through the swing body '2 attachment in the holding and partly through the abutment of the damping body 10 against the surfaces of the holding in the space 5 in which the pivot body is mobile. Through the swivel body's 2 fixed attachment in preferably the holding device is counteracted low amplitude vibrations by suspending the elements 15 as soon as the pivot body 2 is moved out of its position the figures showed neutral position stretched and in 10 15 20 25 30 35 ND LN \O 6 the mounting point applies force components, as on due to the mass inertia of the swing body 2 at any moment becomes counteracted the force components as the restraint device exposed to due to the 'vibrations. This happens in In so, that applied to the holding parts surfaces 19, 20 which form the fastening points mentioned force components locking surfaces for the suspension elements 15. For oscillations with greater that the sides 11-14 of the damping body 10 abut against the sides 28, 29, 30, amplitudes are brought with the swivel body 2 31, which further enhances the damping properties.

With the support legs 32 according to Fig. 1 as additional damping elements can thus the damping properties are further affected.

The invention is not limited to and described above the drawings show exemplary embodiments, but can be varied within the scope of the appended claims. For example, can the holding device 1 and also the pivot body 2 have different alternative design. As indicated above can the holding device be completely closed or for example even in assembled condition be partially open. In a closed condition the suspension elements can be arranged on several sides of the swivel body 2 than the two sides shown. For example, can the suspension elements be arranged around, i.e. on four one two suspension elements on each side. In that shown in Fig. 2 pages, for example with at least or In the example, the suspension elements 15 can also be connected to the bottom portion 36 and the top of the retaining the device. It is in principle conceivable that the swivel body as whole is designed as a weight provided with elastic suspension element, but where the holding device inward-facing sides are lined with elastic walls.

However, the holding device must have a relatively rigid from the object. a stiff the vibrations thus ha essentially follows transfer shall de i frame, which Attachment points such to vibrational movements or more specifically the striving to perform anchoring the object 9 239 C5 \ 7 vibrational movements. An alternative design of holding device and also swivel body is cylindrical or conical head shape, in which the suspension elements with advantage are symmetrically distributed over the mantle surfaces.

Claims (8)

4 69 10 15 20 25 30 35 2, 9 Patent claims: Vibration dampers for damping vibrations in a surface (3) of an object (4), at least one pivot body (2), which is movably connected to such that vibration movements are brought into such oscillation that it transmits to the object forces which are substantially those which the damper comprises said surface pivot body by the surface forces acting on the object by the vibrations, the damper having a holding device (1), made of a shape-resistant material and intended to be a solid surface of the object, by the combination that the damper is arranged in the case of said characterizing device, elastic suspension means (15), which are fixedly connected to the pivot body (2) and the holding device (1), and the suspension means are fastened in the holding device at fastening points, on which the holding device is divided, so that portions of at least two retaining members (16, 17/33, 34/38, 39, 40, 41) for each attachment site together form a mold or friction lock for each suspension member and that the pivot body (2) consists of a weight (9) and a damping body (10) made of a highly elastic material which mainly encloses the pivot body and dampens its movements by abutment against walls (28-31) in the holding device_ and that the holding device is designed as a housing with an at least partially closed space (5), in which the pivot body is suspended and arranged to pivot. 2! Damper according to claim 1, in that the fastening points of the holding device (1) are designed so-called cavities 10 15 20 25 30 35 E »\ 9 P3 fN \ Q 9 with a shape to which the shape of the suspension means (15) connects themselves, whereby these are form-locked in the cavities. A damper according to claim 1, characterized in that the damping body (10) has a wall thickness which is at least in the same order of magnitude as the space between the damping body and said walls (28-31). A damper according to claim 1, characterized in that the damping body (10) is uniform with said space (5). 5. A damper according to claim 1, characterized in that the holding device (1) is provided with flanges (26, 27), by means of which the holding device is fixedly attached to said object (4). Damper according to claim 5, characterized in that one of the holding parts (17/33/41) is designed to hold other parts (16/34/38, 39, 40) by fastening by means of said flanges ( 25). A damper according to claim 6, characterized in that one holding part (17/33/41) encloses other parts (16/34/38, 39, 40, 41) and locks one of these directly against said objects (4). A damper according to claim 7, characterized in that one of the holding parts (34) forms a bottom portion (36) which separates the pivot body (2) from said object (4).