ANTI-VIBRATION COUPLING SYSTEM FOR A COVER OF AN INTERNAL COMBUSTION ENGINE

Abstract

An anti-vibration coupling system for a cover of an engine includes: a plastic pin with a semi-spherical head and reinforcement; a metal pin connected to the engine, with a threaded body and first head, with polygonal section, including a second head with circular section; a damping element with a first inlet end with a first semi-spherical recess for engagement with the head, and a second opposite end, with a second recess and a third recess, mutually coaxial, for engaging the first and second heads of the metal pin. The damping element includes, on the outer surface thereof, with an elasticizing ring, constituted by at least one circular loop that is suitably sized and positioned on the lateral surface in order to increase the elasticity of the damping element in a pre-established point. The damping element also includes through holes in order to further increase the elasticity thereof.

Claims

1. Anti-vibration coupling system for a cover of an internal combustion engine, adapted to allow the stable and reversible engagement of a cover to the respective internal combustion engine, damping any vibration, the system comprising: a circular section plastic pin (1) projecting from the inner surface of said cover, consisting of the same thermoplastic polymer as said cover; said plastic pin (1) being provided with a head (12), having semi-spherical shape or with spherical or pseudo-spherical cap, placed at the distal end of said plastic pin (1), and at least one reinforcement (15), placed at the proximal end of said plastic pin (1), consisting of a hollow stiffening structure, adapted to rigidly but elastically constrain said plastic pin (1) to the respective cover; a metal pin (2) whose proximal end (60) is directly connected to said engine, at the position of the respective plastic pin (1), provided with a threaded body (22) and a first head (23), consisting of a projection adapted to engage with a corresponding recess of a damping element (3); said metal pin (2) also consisting of a distal end provided with at least one second head (24), characterized by a smaller diameter than said first head (23); said second head (24); a damping element (3) adapted to permanently but elastically connect said plastic pin (1) with the corresponding metal pin (2), consisting of any synthetic plastic polymer adapted to absorb the vibrations produced by said internal combustion engine; said damping element (3) being provided with a first inlet end (31) consisting of a first hemispheric recess (32), suitably configured to engage and accommodate, in a stable and reversible manner, the head (12) of the plastic pin (1); said damping element (3) being further provided with a second opposite end (37), consisting of a second recess (38) and a third recess (39), mutually coaxial, adapted to be engaged, in a stable and reversible manner, respectively with said first head (23) and said second head (39) of said metal pin (2); said damping element (3) being provided, on the outer surface (33) thereof, with at least one first elasticizing ring (34), consisting of at least one pair of loops (70-71) and a projection (80), circular and positioned on said lateral surface (33); said damping element (3) being further provided with a plurality of through holes (4) adapted to cross the entire body of said damping element (3) to increase the elasticity thereof.

2. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 1, wherein the plastic polymer of said cover and said plastic pin (1) is polyamide.

3. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 1, wherein said metal pin (2) is a common threaded pin, co-molded and subjected to galvanization, made from any metal or metal alloy.

4. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 1, wherein said reinforcement structure, adapted to stably and irreversibly connect said plastic pin (1) to the respective cover, consists of ribs (14).

5. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 1, wherein the lateral surface (33) of the damping element (3) is provided with a second elasticizing ring (35), substantially placed at half distance between said first inlet end (31) and said second opposite end (37).

6. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 1, wherein the lateral surface (33) of said damping element (3) is provided with a third elasticizing ring (36), placed in proximity to said first inlet end (31).

7. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 1, wherein the entire lateral surface (33) of said damping element (3) is provided with a plurality of projections and indentations, arranged in a continuous and alternating manner, adapted to increase the elastic behavior of said damping element (3).

8. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 7, wherein said projections and indentations with which said lateral surface (33) of said damping element (3) is provided have different length or depth.

9. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 1, wherein said second recess (37) of said damping element (3) and said first head (23) of said metal pin (2) have hexagonal or circular shape.

10. The anti-vibration coupling system of claim 1, wherein said plastic pin (1) being comprises a central cavity (13), with circular section, placed at the longitudinal axis of said plastic pin (1) and having a length slightly smaller than the length of said plastic pin (1), from the proximal end thereof up to said head (12); said cavity (13) being adapted to prevent the formation of a depression on the face (50) of said cover opposite said plastic pin (1), wherein the first head has a polygonal section, wherein the second head has a circular section, and wherein the projection (80) is disposed in the vicinity of said second opposite end (37).

11. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 2, wherein said metal pin (2) is a common threaded pin, co-molded and subjected to galvanization, made from any metal or metal alloy.

12. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 4, wherein the ribs (14) are tilted by 45 with respect to the longitudinal axis of said plastic pin (1).

13. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 2, wherein the lateral surface (33) of the damping element (3) is provided with a second elasticizing ring (35), substantially placed at half distance between said first inlet end (31) and said second opposite end (37).

14. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 3, wherein the lateral surface (33) of the damping element (3) is provided with a second elasticizing ring (35), substantially placed at half distance between said first inlet end (31) and said second opposite end (37).

15. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 4, wherein the lateral surface (33) of the damping element (3) is provided with a second elasticizing ring (35), substantially placed at half distance between said first inlet end (31) and said second opposite end (37).

16. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 2, wherein the lateral surface (33) of said damping element (3) is provided with a third elasticizing ring (36), placed in proximity to said first inlet end (31).

17. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 3, wherein the lateral surface (33) of said damping element (3) is provided with a third elasticizing ring (36), placed in proximity to said first inlet end (31).

18. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 4, wherein the lateral surface (33) of said damping element (3) is provided with a third elasticizing ring (36), placed in proximity to said first inlet end (31).

19. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 5, wherein the lateral surface (33) of said damping element (3) is provided with a third elasticizing ring (36), placed in proximity to said first inlet end (31).

20. Anti-vibration coupling system for a cover of an internal combustion engine, according to claim 2, wherein the entire lateral surface (33) of said damping element (3) is provided with a plurality of projections and indentations, arranged in a continuous and alternating manner, adapted to increase the elastic behavior of said damping element (3).

Description

DESCRIPTION OF THE FIGURES

[0019] The invention will be described hereinbelow in at least one preferred embodiment, by way of a non-limiting example with the aid of the enclosed figures, in which:

[0020] FIG. 1 shows a three-dimensional view of all the components of the present invention. One sees the plastic pin 1 provided with its semi-spherical head 12 with the central cavity 13; the damping element 3 with the first inlet end 31 at the plastic pin 1, the lateral surface 33 with the through holes 4 and the elasticizing band 34 and the second opposite end 37 with the second recess 38 directed towards the metal pin 2; the latter is represented complete with threads 22, first head 23 and second head 24.

[0021] FIG. 2 illustrates the system illustrated above in a mounted configuration, in which all three components are coupled together.

[0022] FIG. 3 shows a longitudinal section of the coupling system in which the engagement of the head 12 of the plastic pin 1 is seen within the first semi-spherical recess 32 of the damping element 3; one sees the engagement of the first head 23 of the metal pin 2 in the corresponding second recess 38 of the damping element 3 of the second head 24 in the corresponding third recess 39 of said damping element 3. Also visible in this figure is the connection between the plastic pin 1 and the relative cover by means of a system of strengthening ribs 14.

[0023] FIG. 4 shows a top view of the present system, in which the following can be seen: the metal pin 2, the relative first head 23 and the outer edge of the damping element 3 that encloses it.

[0024] FIG. 5 shows several of the possible variants of the present invention. In particular FIG. 5(a) shows a version in which, on the lateral surface 33 of the damping element 3, said first elasticizing band 34 is present along with a second elasticizing band 35; FIG. 5(b) illustrates a damping element 3 also provided with a third damping band 36, in this version the ribs 14 are substituted by a hollow reinforcement 15 with substantially parallelepiped shape; FIG. 5(c), finally, shows a particular embodiment in which the entire lateral surface 33 of the damping element 3 is constituted by elasticizing projections and indentations of variable size.

DETAILED DESCRIPTION OF THE INVENTION

[0025] The present invention will now be illustrated by way of non-limiting or non-constraining example, making use of the figures which illustrate several embodiments relative to the present inventive concept.

[0026] With reference to FIG. 1, a three-dimensional view is shown of all three constituent elements of the coupling system, object of the present invention.

[0027] From top to bottom one sees the following: [0028] the plastic pin 1 with circular section which is made by means of molding together with the cover and which projects therefrom towards the engine. Like the relative cover with which it is integral, such pin will preferably be made of polyamide. At the bottom part of the plastic pin 1, at its distal end, one sees the head 12 with semi-spherical shape that characterizes it; [0029] the damping element 3, adapted to connect said plastic pin 1 to the relative metal pin 2 described in detail hereinbelow. Said damping element 3 represents the principle area of the innovations claimed by the present patent. The first inlet end 31, i.e. the side of said damping element 3 directed towards said plastic pin 1, is characterized by a first semi-spherical recess 32, suitably configured to be engaged in a stable and reversible manner with said head 12 of said plastic pin 1. The other side, i.e. the second opposite end 37, is directed towards the underlying metal pin 2 and is provided with recesses adapted to establish the stable and reversible connection with said metal pin 2. Still with reference to said FIG. 1, a plurality of through holes 4 are visible on the lateral surface 33 of said damping element 3; such through holes 4 are adapted to cross through the body of said damping element 3, along pre-established axes, in order to increase the elasticity thereof and hence the vibration absorption. On said lateral surface 33, a first elasticizing ring 34 is also visible, constituted by at least one pair of loops 70-71 and a projection 80, circular and suitably sized and positioned on said lateral surface 33 in order to increase the flexibility of said damping element 3 at a pre-established point; [0030] on the lower part of FIG. 1, the third element of the coupling system is visible, i.e. the metal pin 2, whose proximal end 60 is connected to said internal combustion engine at the position of the relative plastic pin 1. This is constituted by a threaded body 22, preferably made by means of co-molding and galvanization. On the upper part thereof, one sees a first head 23, with hexagonal section, and a second head 24. The latter are constituted by mutually coaxial projections adapted to be engaged with corresponding recesses of said damping element 3. Preferably said second head 24 has circular section and has smaller size than said first head 23.

[0031] With reference to FIG. 3, one sees a sectional view of the coupling of the present invention. Due to this image, it is possible to comprise the type of constraint existing between the various components. More in detail, one sees the first semi-spherical recess 32 of said damping element 3 which is engaged with the head 12 of said plastic pin 1. At the second opposite end 37 of said damping element 3, instead, one sees the second and the third recess 38 and 39 with which said damping element 3 is provided, which are respectively engaged, in a stable and reversible manner, with said first head 23 and said second head 24 of said metal pin 2.

[0032] Still in said FIG. 3, the central cavity 13 is also visible which characterizes said plastic pin 1, from its proximal end to the relative head 12.

[0033] Finally, with reference to FIG. 5, several possible variants of the present invention are shown, which especially affect said plastic pin 1 and said damping element 3.

[0034] With regard to the stability of the connection between said plastic pin 1 and the relative engine cover, this is provided with a hollow reinforcement structure 15 commonly termed castle or alternatively provided with ribs 14 preferably tilted 45 with respect to the longitudinal axis of said plastic pin 1.

[0035] The other variants regard the elasticizing rings 34, 35, 36 which cover the lateral surface 33 of the damping element 3. In the version of FIG. 5(a), said damping element is provided with a first elasticizing ring 34 and with a second elasticizing ring 35, respectively placed in proximity to the second opposite end 37 and substantially at half of said lateral surface 33.

[0036] In FIG. 5(b) a third elasticizing ring 36 is also present, placed in proximity to the first inlet end 31 of said damping element 3.

[0037] In FIG. 5(c), instead, the entire lateral surface 33 of the damping element 3 is covered with a plurality of projections and indentations, arranged in a continuous and alternating manner, adapted to increase the elastic behavior of said damping element 3. Possibly, said projections and indentations can have different length and depth, suitably calculated in order to modulate the elastic behavior of said damping element 3 in a pre-established manner.

[0038] Finally, it is clear that modifications, additions or variations that are obvious to the man skilled in the art can be made to the invention described up to now, without departing from the protective scope that is provided by the enclosed claims.