DE1199634B - Spring suspension for motor vehicles with a metal coil spring that can be compressed axially between a sprung and an unsprung part of the vehicle, with a rubber washer being attached at least between one end of the spring and the relevant vehicle part for noise dampening - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

B62d

German class: 63 c - 40

Number: 1199 634

File number: S 7767311/63 c

Filing date: January 23, 1962

Opening day: August 26, 1965

The invention relates to a spring suspension for motor vehicles with an axially between a sprung and an unsprung part of the vehicle compressible metal coil spring, wherein at least between one end of the spring and the relevant vehicle part for Noise dampening a rubber washer is attached.

It is known that the unsuspended masses and the spring are subject to vibrations during operation are whose frequency range varies from a fraction of cycles per second to several thousands Vibrations per second extends, and that the subacoustic is generally effective from the spring be intercepted, which prevents their spread to the suspended mass (car body).

The acoustic and higher oscillation frequencies, on the other hand, are not produced by the spring blocked; these arise and even intensify in the pen under the influence of those who do not suspended masses coming impulses. Propagation of such frequencies to the body causes dangerous fatigue stresses and embrittlement of the metal in the connections and Welding joints of the body and, on the other hand, causes a noisy annoyance to passengers Run.

Attempts have already been made to remedy this problem, by inserting between the ends of the

Spring suspension for motor vehicles with an axially between a sprung and a unsprung part of the vehicle compressible metal coil spring, at least between one end of the spring and a rubber washer is attached to the vehicle part in question to reduce noise

Applicant:

S.A. G. A. Societa Applicazioni Gomma Antivibranti S. p. A., Milan (Italy) Representative:

Dr. D. Morf, patent attorney, Munich 27, Pienzenauer Str. 28

Named as inventor:

Antonio Boschi, Milan (Italy)

Air pockets formed by pherically extending ribs are provided, the ribs protruding from the walls of the rubber washer, which rest against the benfeder and the relevant metal part of the vehicle, and that the contact surfaces are flat rubber washers with the surface of the air pockets in the bottom wall the L- or U-shaped cross-section switched on, in the rubber washer -h to ² / s on the excellent assumption that the elastic inherent hysteresis of the surface is the bottom wall.
The use of air pockets in suspension

Tical and higher vibration frequencies to 35 elements is known per se, but can be passed through lock. However, these attempts have not yet made use of air pockets alone limited success, since only the higher frequencies achieve effects that can be achieved according to the invention, with about 5000 vibrations per second. For example, air pockets were already in insufficient were blocked, while the physiological support elements made of rubber for tables, sewing machines annoying frequencies in the range between 40 and 40 and the like are used, with a metal screw approx 500 vibrations per second can be part of a foot for a table were dampened to an insignificant extent. can without, however, in such arrangements

The problem of the absorption of acoustic fre- a special relationship between the spring and In the case of spring suspensions, sequences can be seen from the air pockets and their contact surface initially described type according to the invention was thereby 45. A transfer of a known arrangement solved that the rubber washer would be annular with this type on a vehicle suspension only a U- or L-shaped cross-sectional profile designed mean that the coil spring arranged therein is, wherein the profile is supported by a large solid rubber block transferring the load Bottom wall and at least one side wall, which itself acts as a spring; this would be in which comprises the end turn of the spring - in contrast to the present invention, according to FIG take that the walls of the rubber washer- acoustic frequencies without creating a new one disc with a system of radial and peri-kind of a metal rubber spring intended to be dampened.

509 658/285

3 4

In a further known arrangement is a radially and peripherally extending ribs, dowbell-like foot made of solid rubber with a zen- see which the air pockets are formed,
central column made of sponge rubber, whereby to achieve the best results, two other factors have to be taken into account, namely the Shore hardness of the central column under load, that the 5 of the rubber, which is preferably between 50 and 70 circumferential edge of the bell, are to be taken into account is close to its support and the modulus of elasticity of the rubber that is applied to the surface. The load on the zen is between 20 and 50 kg / cm ² . Furthermore, it is united according to the central column, and the air pockets are separated from one another by radial partition walls from the bottom wall of the air pocket from a porous rubber in a preferred embodiment of the invention the foot, instead of ribs, does not exceed the measured half thickness of the rubber insert of a large number of sealed air cushions on the invented disc.

subject matter. In a similar arrangement, the invention will become more apparent from the description

a sound and vibration dampening pad and the drawing figures explained. It shows
for table and machine feet is a 15 Fig. 1 an overall view of an invention on the foot

the floor or the machine base - appropriate helical spring suspension,

plate concave or U-shaped in cross-section from Fig.2 a support of the helical spring in the

formed while a compression spring on the inside cut,

Sides of the support plate rests, which has a recess F i g. 3 have a quadrant of the rubber washer for engagement of the ends of the compression spring. 20 seen in the direction III-III of FIG. 2,
In this arrangement, however, there are no air pockets F i g. 4 provided in the rubber plates on a relatively large scale. Through this transverse profile of the rubber washer,
Known arrangements are not actually carried out. 5 is a frequency absorption diagram for a sorption of acoustic frequencies. Sewing, writing or pair of in F i g. 2 to 4 shown rubber insert calculating machines produce more of a sudden disk, which is attached to a suspension according to FIG. 1 sound and not a tone or a mixture of tones. are consolidated

The object of the invention is the absorption F i g. 6 a further embodiment in a

acoustic frequencies, which, among other things, in those of FIG. 2 similar view and

Springs are generated themselves and on the vehicle F i g. 7 a quadrant of the rubber washer

overlap. Impacts and shocks have no impact according to FIG. 6 seen in the direction VII-VII,

sequence in the acoustic sense, can, however, a Fig. 1 represents a suspension that a

Increase in the level of acoustic frequencies in the up-swing arm 10, which at one end by means of

encounter an excitable object in an anti-vibration joint 11 in a support 12

act, for example with steel springs. is articulated, which with the bottom 13 of the

In summary, it is stated that the 35 body of a motor vehicle is rigidly connected.

known suspensions blows and bumps already the opposite side of the arm 10 contributes

be absorbed by the springs while the wheel. In an intermediate region of the swing arm 10

The problem with the absorption of acoustic frequencies is a plate 14 made from stamped sheet metal

remains resolved. welded on, which has an annular, flat step 15

The rubber washer according to the invention contains 40 forms, which in turn from the inside through an upward

three characteristics for solving the task at hand. directed peripheral lip is limited. Above

The washer is not flat, but has in the plate 14, the bottom 13 is shaped so that it

their profile at least one of two possible one provided with a bottom 18 frustoconical

Side walls so that the cross section either forms a recess 17. Between the plate 14 and

Is U- or L-shaped. These side walls above the floor 18 are made of metal

but do not bear the compressive load of the spring, helical spring 19 is provided, the upper end of which

which is only transmitted through the floor area. by means of a washer or washer 20

Both the bottom surface and the Seitenwandun- rubber is supported against the bottom 18 and their

However, genes are equipped with air pockets. The lower end is against the step 15 of the plate 14

the side walls act as sound-canceling or 50 by means of a washer 21. Rubber off

sound-dispersing wing that provides relatively low support.

Catch some acoustic frequencies which are not sufficiently absorbed by the illustrated embodiment, the bottom surface both washers 20 and 21 can be U-shaped, since they are quite tight in operation and are identical to one another, although they are pressed together. In the case of the present structure 55, this is not absolutely necessary.
the low frequencies penetrate the sidewalls. 2 to 4, which are in front of the underlayings below, which, since they represent essentially unshielded 21, it can be seen that those under load cancel out these low frequencies. U-shaped disc 21 a bottom 22 and two. The absorption of acoustic frequencies is too peripheral, an inner, 23, and satisfactory if a certain ratio 60 has an outer 24. The bottom 22 has two between the surface of the air pockets and the bottom surfaces for the load transfer, namely surface of the rubber washer to the protruding- an inner one, 25 against which the lower end of the spring rests against the surfaces of the bottom wall 19, and an outer, 26, which is supported against and when the level step 15 of the plate 14 penetrating into the rubber material. The internal frequencies are passed on in a suitable manner, as well as the internal surfaces 24 a, 23 a , in order then to be smooth by partially superimposing the rest of the peripheral edges 24 and 23. The outer frequencies borrowed to be destroyed. This bottom surface 26, on the other hand, has two concentrically arranged according to the invention by a system of ordered pocket rings 27, 28, the three

concentrically arranged ribs 29, 30 and 31 and by numerous (twenty-four in the illustrated embodiment) radial ribs 32 provided at equal intervals from one another at the right angle. In this way, forty-eight pockets 27, 28 are obtained which are uniformly distributed on the surface 26. When the washer 21 is installed (see FIG. 2), it is supported against the step 15 by means of the continuous network of ribs 29 to 32, and the pockets 27, 28 on the step 15 form hermetically sealed chambers. The total area of the pockets 27 and 28 is between _^2/5 and _^2/3 of the superior surface of the bottom wall 26 of the washer 21, and the rubber from which the washer is made has a Shore hardness between 50 and 70 and a modulus of elasticity between 20 and 50 kg / cm ² . The bottom wall of each air pocket is essentially of constant thickness. The thickness of the bottom wall does not exceed half the thickness of the washer measured on the ribs.

The diameter of the central annular rib 30 corresponds to the mean diameter of the bottom 22 of the washer 21, which is why the between the Spring 19 and the plate 14 acting load especially from the said rib 30 and from the Radial ribs 32 is received, without the pockets 27 and 28 to be eliminated. The bags 27, 28 may not have simple annular grooves on the surface 26 or with im Foam filled pockets are mistaken for the purpose of absorbing acoustic frequencies did not produce any resounding success.

The lower rubber washer 21 extends in contact with that made of metal Part (plate 14) on the inner peripheral edge 23 of the washer 21, while at the upper rubber washer 20 the contact with the part made of metal is also on the outer peripheral edge of the washer 20 extends. So it's that way in the first one Group of the inner edge 23 supported against the lip 16 of the plate 14, while in the second Group of the outer edge (like that part 24 of Fig. 2) against the truncated conical wall 17 a the recess 17 is supported. To the propagation of the acoustic vibrations also through these contact zones To prevent this, the outer surfaces of the two edges 23 and 24 have pockets 40 and 41, which are supported by the circumferential ribs 31, 42 (or 29, 43) and by the axial ribs 44 (or 45) - see Fig. 3 and 4 - are limited. The ribs 42 and 43 each form a caterpillar on the free board of the relevant edge 23,24, while the ribs 31 and 29 are the same, which are also used to limit the Pockets 28, 27 on the surface 26 of the bottom 22 contribute to the washer. As shown in FIG. 3 can be seen is, the axial ribs 44, 45 form extensions of the radial ribs 32 on the surface 26. Die Bottom surface 40a, 41a of the pockets 40 and 41, respectively, is flat (FIG. 4), and their thickness may be half that of Do not exceed the total thickness of the relevant edge.

The diagram according to FIG. 5 represents the mean values from numerous comparative tests on the in F i g. 1 is made up of a test series of conventional anti-vibration washers Solid rubber and another test series with the washers according to the invention as described above.

Curve A relates to conventional rubber washers and clearly illustrates the significant reduction in the percentage pick-up of vibrations contained in the range of about 25-30 to about 5000 c / s. Curve B relates to a suspension designed according to the invention and shows a clear improvement in the percentage absorption of the above-mentioned vibrations.

Curve C was obtained from anti-vibration washers made and arranged in accordance with the invention, with the difference that the pockets 27, 28, 40, 41, instead of being formed in the outer surfaces of the washer, were formed on the inner surfaces like those shown in FIG. 4 with 23 a, 24 a and 25 are indicated. From curve C it can be seen that the latter exemplary embodiment also shows a certain improvement in relation to curve A with regard to the absorption of the vibrations. This embodiment is only for explanation and is not the subject of the invention.

In the case of the FIG. 6 and 7 shown embodiment you can also see how the sheet metal egg 14 a forms a flat, ring-shaped step 15 α, the latter essentially inside by a standing one peripheral lip 16 a is limited.

The rubber washer 21 α has a transverse profile in an L shape. Your against the parts 15 a, 16 a the surface of the plate 14 a has pockets 50 which are formed by a series of radial ribs 51 and two peripheral ribs 52 and 53 on the inner and outer peripheries of the washer, respectively are formed. The base wall 50 a of each pocket is relatively thin and has a uniform thickness. As the drawing illustrates, the pockets 50 each extend without interruption along both L-shaped profile wings of the washer.

It should also be noted that the inner peripheral rib formation 52 is not absolutely necessary; the same also applies to the ribs 42 of the washer 21 according to FIG. 1 to 4. It is also determined that that the damping effect of the closed pockets is noticeably greater than that with the Outside air in communication, and that the ribs 42 and 52 one around the free edge of the Lip 16 or 16 a concentrated rubber mass, which noticeably weaken the vibrations of the board. The anti-vibration washers 21 and 21a are firmly seated on the respective lips 16, 16 a pressed so that they are in close contact with these. The contact with the concerned annular steps 15 and 15 a is caused by the load acting on the suspension.

Claims (3)

Patent claims: 1. Spring suspension for motor vehicles with an axially between a sprung and a unsprung part of the vehicle compressible metal coil spring, at least between one end of the spring and the relevant vehicle part for noise reduction a rubber washer is attached, characterized in that the rubber washer is designed ring-shaped with a U- or L-shaped cross-sectional profile, the profile comprising a load-transmitting bottom wall and at least one side wall which accommodate the end turn of the spring, that the walls of the rubber washer are provided with air pockets formed by a system of radially and peripherally extending ribs (29 to 32, 42 to 45, 51 to 53), the ribs protruding from the walls of the rubber washer, which are attached to the corresponding part (15, 16, 15 a , 16 a) of the vehicle rest, and that the area of the air pockets in the bottom wall of the rubber washer _^2/5 to ^2. / ₃ of the excellent surface of the bottom wall. 2. Spring suspension according to claim 1, characterized in that the rubber material of the rubber washer has a Shore hardness between 50 and 70 and a modulus of elasticity between 20 and 50 kg / cm ² . 3. Spring suspension according to claim 1, characterized in that the bottom wall each Air pocket is of substantially constant thickness and half that measured on the ribs Thickness of the rubber washer does not exceed. Considered publications: German Patent Nos. 506 156, 670 151; German exploratory documents No. 1023 345,
1074332; German patent application G 3109 11/63 c
(announced August 9, 1951); Swiss patent specification No. 325 939. 1 sheet of drawings 509 658/285 8.65 © Bundesdruckerei Berlin