DE102022102369A1 - Elastic bearing - Google Patents

Abstract

The present invention relates to an elastic mount (10; 200; 300) for an assembly (1010; 2010) to be mounted, in particular for mounting an assembly on a vehicle, comprising: at least one housing (76; 212; 340), at least one elastic Body (12; 214; 312) coupled to the at least one housing (76; 212; 340), wherein the at least one elastic body (12; 214; 312) has at least one receiving opening (14; 216; 314), wherein the elastic bearing (10; 200; 300) has at least one coupling interface (KS), wherein the at least one coupling interface (KS) is designed in such a way that the elastic bearing (10; 200; 300) is connected to the unit (1010) to be supported or can be coupled in the radial direction with a console (1000; 2000) for the unit (1010; 2010) to be mounted.

Description

The present invention relates to an elastic mount. Elastic bearings can be used to store aggregates. In particular, elastic bearings can be used to store assemblies in or on a vehicle.

Elastic bearing elements are known from the prior art and, for example, in DE 11 2006 002 536 T5 disclosed. The document DE 11 2006 002 536 T5 discloses an elastomeric isolator. The resilient isolator includes an elastomeric body defining a first cavity and a second cavity. The first cavity extends into the elastomeric body from one side. The second cavity extends into the elastomeric body from the opposite side. The two cavities overlap each other. A member for attaching the elastomeric body to a bolt is located within the two cavities. Another element for attaching the elastomeric body to a support is located outside the two cavities.

It is an object of the present invention to provide an elastic mount that enables the unit to be mounted to be coupled quickly and easily to a bracket for the unit to be mounted. It is another object of the present invention to provide an elastic mount in which a connection between the elastic body and the housing of the elastic mount can be made easily and inexpensively.

These tasks are solved with an elastic bearing with the features of claim 1.

Further embodiments are given in the appended dependent claims.

• wenigstens ein Gehäuse,
• wenigstens einen elastischen Körper, der mit dem wenigstens einen Gehäuse gekoppelt ist, wobei der wenigstens eine elastische Körper wenigstens eine Aufnahmeöffnung aufweist, wobei das elastische Lager wenigstens eine Kopplungsschnittstelle aufweist, wobei die wenigstens eine Kopplungsschnittstelle derart ausgebildet ist, dass das elastische Lager mit dem zu lagernden Aggregat oder mit einer Konsole für das zu lagernde Aggregat in radialer Richtung koppelbar ist.

The elastic mount for an aggregate to be stored includes:

• at least one housing
• at least one elastic body which is coupled to the at least one housing, the at least one elastic body having at least one receiving opening, the elastic bearing having at least one coupling interface, the at least one coupling interface being designed in such a way that the elastic bearing can be connected to the stored aggregate or with a console for the aggregate to be stored in the radial direction can be coupled.

The elastic bearing enables the unit to be stored to be coupled quickly and easily to a console for the unit to be stored. The unit to be mounted can be coupled in the radial direction, for example from above, via the elastic bearing to the console for the unit to be mounted. In other words, the unit to be mounted can be coupled to the elastic mount from above, for example in the vertical direction. The assembly of the unit to be stored, for example on a vehicle, can thus be significantly simplified and accelerated.

The at least one elastic body can have at least one spring element which is coupled or can be coupled to the at least one housing. The at least one spring element can extend in the radial direction between the housing and the receiving opening. The radial direction can relate to the axis of the receiving opening.

The at least one coupling interface can be offset in the axial direction to the at least one receiving opening. The at least one coupling interface can be arranged outside of the elastic body and/or outside of the housing in the axial direction.

The at least one spring element can have at least one connecting section. The elastic mount can have at least one receptacle which is designed to receive the at least one connecting section of the at least one spring element. The at least one receptacle can be part of the at least one housing. It is also conceivable to form the at least one receptacle independently of the at least one housing, i. H. form as a separate element. The at least one connection section can serve to connect the elastic body to the at least one housing.

The at least one connecting section can form a clamping section which is clamped in the at least one receptacle. The at least one connecting section of the at least one spring element can be connected to the at least one receptacle via a friction fit and a positive fit. The at least one connecting section can be prestressed in the at least one receptacle. In particular, the elastic material of the connecting section can be prestressed in the at least one receptacle.

The at least one connecting portion of the at least one spring element can be connected to the at least one receptacle by a material connection.

The at least one housing can have at least one radial stop surface for the at least one elastic body. The at least one elastic body can have at least one radial buffer element. The at least one radial buffer element can extend towards the at least one housing. To limit the deflection of the elastic body relative to the housing, the buffer element can strike the at least one radial stop face on the housing. The at least one radial buffer element can dampen this stop to reduce unwanted vibrations and noise. The at least one housing can extend radially outwards around the elastic body, at least in sections.

The at least one elastic body can have at least one axial buffer element. The axial buffering member may extend axially away from the elastic body. At least one axial buffer member may be provided on both axial sides of the elastic body.

The at least one housing can have at least one axial stop surface for the at least one elastic body. The axial stop surface can interact with an axial buffer element in order to be able to limit deflections of the elastic body relative to the housing in a damped manner. Undesirable vibrations and noise developments can also be prevented in this way.

The elastic bearing can have at least one coupling device. The at least one coupling device can be arranged at least partially in the at least one receiving opening or can be connected to the at least one receiving opening. A coupling device can be at least partially received in the at least one receiving opening.

The at least one coupling device can comprise at least one core which is connected to the at least one elastic body. The at least one core may be received within the receiving opening or may extend around the receiving opening. The at least one core can be at least partially embedded in the elastic body.

The at least one core can have at least one connection device for coupling to the unit to be supported. The at least one connecting device can be designed, for example, to produce a screw connection between the elastic mount and the unit to be mounted. The at least one connecting device can be an external thread or a threaded opening, which is used for coupling to the unit to be mounted or to adapter elements on the unit to be mounted.

The at least one coupling device can comprise at least one spring clip. The at least one spring clip can be designed to couple the elastic mount to the unit to be mounted. The at least one spring clip can be received in the at least one receiving opening.

The at least one spring clip can have at least two holding arms, which are designed to hold an adapter element for the unit to be stored in the receiving opening. The at least two holding arms can define an insertion opening between them, which is designed for inserting the adapter element.

The at least two holding arms can each have an end section. The at least one spring clip can be designed in such a way that the end sections can be brought into engagement with the adapter element in order to hold it. The end sections on the spring clip can engage in coupling sections on the adapter element and hold the adapter element in the receiving opening.

The at least one spring clip can be designed in such a way that spring spaces are provided for the holding arms. The holding arms can be moved into these spring chambers when inserting an adapter element of a unit to be stored. This can be done with a sectional elastic deformation of the spring clip. The holding arms can spring back and engage the adapter element when the adapter element has reached its predetermined position in order to be able to hold the adapter element in the receiving opening.

The at least one coupling device can have at least one core and at least one spring clip. The at least one core can at least partially enclose the at least one spring clip. The at least one core may be configured to hold the at least one spring clip in its predetermined position and/or shape. Accordingly, the core can be designed in such a way that it can prevent the spring clip from widening or bending up.

The at least one spring clip may be integrally formed with the at least one core. The Spring clip can be embedded in the at least one core.

The at least one docking interface may include at least one docking slot. The at least one coupling slot may extend in the radial direction in the elastic body. The at least one coupling slot can lead to the at least one receiving opening.

The at least one housing can have at least one fastening element for fastening the housing to a console. The at least one fastening element can be a latching projection or a projection for a bayonet catch.

The at least one docking interface may include at least one guide on the at least one housing. The at least one fastening element can interact with the at least one guide for fastening the elastic bearing to a bracket. The at least one guide can be designed in such a way that the at least one housing can be brought into engagement with the console via a translatory movement. The guide can be used in particular to secure the elastic bearing on a bracket in the axial direction. The at least one guide can be located below the at least one fastening element, for example. The at least one fastening element can be a latching projection which is arranged above the guide. When connecting the elastic bearing to the console, a side wall of the console can be moved along the guide and push back a latching projection until it can engage in a recess provided for this purpose on the console.

The at least one housing can have at least one coupling opening. The at least one coupling opening and the at least one coupling slot can be aligned in the radial direction. The at least one coupling opening can be formed above the coupling slot in the radial direction. A docking opening may be part of the at least one docking slot location.

• wenigstens ein Gehäuse,
• wenigstens einen elastischen Körper, der mit dem wenigstens einen Gehäuse koppelbar oder gekoppelt ist, wobei der wenigstens eine elastische Körper wenigstens eine Aufnahmeöffnung aufweist,
• wobei das wenigstens eine Gehäuse wenigstens eine Aufnahme für wenigstens einen Klemmabschnitt an dem wenigstens einen elastischen Körper aufweist, wobei die wenigstens eine Aufnahme zum Klemmen des wenigstens einen Klemmabschnitts an dem elastischen Körper ausgebildet ist.

The present invention also relates to an elastic mount for an assembly to be mounted, the elastic mount comprising:

• at least one housing
• at least one elastic body which can be coupled or is coupled to the at least one housing, the at least one elastic body having at least one receiving opening,
• wherein the at least one housing has at least one receptacle for at least one clamping section on the at least one elastic body, wherein the at least one receptacle is designed for clamping the at least one clamping section on the elastic body.

The clamping connection between the housing and the elastic body makes it possible to dispense with adhesives for producing a connection between the housing and the elastic body. This also eliminates the time-consuming surface pre-treatments, such as sandblasting or galvanic processes, for pre-treating the corresponding surfaces of the housing. A clamp connection is therefore a simple and inexpensive type of connection that can still absorb forces in different directions.

The at least one receptacle on the at least one housing can be designed in such a way that the at least one receptacle compresses the at least one clamping section at at least one clamping point. The at least one clamping section can also be completely compressed in the at least one receptacle. One of the clamping sections can be accommodated in the at least one receptacle under pretension.

The at least one receptacle can at least partially enclose or encompass the at least one clamping section.

The at least one receptacle can be designed in such a way that the at least one clamping section is held on the at least one housing by a form fit and a friction fit.

The at least one elastic body may have at least one spring section. The at least one clamping section can be connected to the at least one spring section.

The at least one housing can have at least two housing parts, which form the receptacle for clamping the at least one clamping section. At least one of the housing parts can be formed by a wall section of a console for the unit to be stored.

The at least one receiving opening can be designed to receive a fastener. The at least one clamping section can be clamped in the receptacle of the at least one housing. The at least one elastic body can, starting from the recording or from the clamping section in the axial direction to the extend at least one receiving opening. The receptacle on the housing and the at least one receptacle opening can be offset from one another by a predetermined axial offset, at least in the axial direction of the receptacle opening.

The clamping section and the at least one receiving opening can be offset from one another in the axial direction by a predetermined axial offset. The at least one elastic body can extend in the axial direction from the receptacle of the housing to a receptacle section in which the receptacle opening is formed. The receiving opening can be cylindrical.

The present invention also relates to a console for mounting an assembly, in particular in a vehicle, the console having at least one elastic bearing of the type described above.

The console can have several elastic bearings according to the type described above. The console can be designed in at least two positions for the attachment of an elastic bearing.

A surface of the console can form a stop surface for the elastic body of the elastic bearing. The abutment surface can interact with an axial buffer element on the elastic body.

The at least one housing of the at least one elastic bearing can be formed in one piece with the console.

The console can have at least one fastening device for fastening the at least one elastic bearing to the console. The fastening device can be a fastening opening, for example. The fastening opening can be designed for a bayonet catch or for a latching projection.

A set can be formed from a bracket of the type described above and at least one adapter element, the at least one adapter element being designed for connection to the at least one coupling element of the elastic bearing.

The unit to be stored can be an air conditioning compressor for a vehicle. The unit to be stored can also be an exhaust system for a vehicle or a part of such an exhaust system for a vehicle.

• 1 bis 3 Ansichten eines elastischen Lagers gemäß einer Ausführungsform;
• 4 bis 16 Ansichten einer Konsole gemäß einer Ausführungsform mit elastischen Lagern gemäß den 1 bis 3;
• 17 bis 21 Ansichten einer Konsole gemäß einer weiteren Ausführungsform mit elastischen Lagern gemäß einer weiteren Ausführungsform;
• 12 bis 27 Ansichten einer Konsole gemäß einer weiteren Ausführungsform mit elastischen Lagern gemäß einer weiteren Ausführungsform;
• 28 bis 33 Ansichten einer Konsole gemäß einer weiteren Ausführungsform mit elastischen Lagern gemäß einer weiteren Ausführungsform;
• 34 bis 41 Ansichten eines elastischen Lagers gemäß einer weiteren Ausführungsform; und
• 42 und 43 Ansichten eines elastischen Lagers gemäß einer weiteren Ausführungsform.

Exemplary embodiments are described below with reference to the accompanying figures. They represent:

• 1 until 3 Views of an elastic mount according to an embodiment;
• 4 until 16 Views of a console according to an embodiment with elastic bearings according to the 1 until 3 ;
• 17 until 21 Views of a console according to a further embodiment with elastic bearings according to a further embodiment;
• 12 until 27 Views of a console according to a further embodiment with elastic bearings according to a further embodiment;
• 28 until 33 Views of a console according to a further embodiment with elastic bearings according to a further embodiment;
• 34 until 41 Views of an elastic bearing according to a further embodiment; and
• 42 and 43 Views of an elastic mount according to another embodiment.

1 12 shows a perspective view of an elastic mount 10. The elastic mount 10 has an elastic body 12. FIG. The elastic body 12 has a receiving opening 14. The elastic bearing 10 has a coupling interface KS, which is used for coupling the elastic bearing 10 to an in 1 not shown, is designed to be stored unit. The elastic mount 10 has a coupling slot 16 extending in the radial direction in the elastic mount 10 . The coupling slot 16 leads to the receiving opening 14. Due to the coupling slot 16, the elastic bearing 10 has an open contour. The coupling interface KS includes the coupling slot 16.

The coupling interface KS also includes a coupling device. The coupling device comprises the coupling element 18. According to this embodiment, the coupling slot 16 and the coupling element 18 form the coupling interface KS. The coupling interface KS is for coupling the elastic bearing 10 with an in 1 aggregate not shown formed in the radial direction. The coupling element 18 is arranged in the receiving opening 14 . The coupling element 18 serves to hold an adapter element 20 on the elastic bearing 10, ie in the receiving opening 14. The receiving opening 14 and the adapter element 20 have axes which coincide in the axis M. The adapter element 20 couples the elastic bearing 10 with an in 1 not shown to be stored unit. The adapter element 20 can be inserted in the vertical direction from above into the receiving opening 14 via the coupling slot 16 and held there by the coupling element 18 .

The elastic body 12 of the elastic mount 10 has two spring elements 22 and 24 . A connecting section 26 and 28 is formed on each of the spring elements 22 and 24 and is used to connect the spring elements 22 to an in 1 not shown housing is used.

The elastic body 12 further includes buffering members 30, 32, 34, 36 and 38. As shown in FIG. The buffer elements 30, 32 and 34 act in the radial direction and can be 1 stop surfaces not shown on a housing (not shown) abut. The coupling slot 16 extends into the elastic body 12 between the two buffer elements 30 and 32 . The buffer elements 30, 32 and 34 are formed on the elastic body 12 essentially as segments of a circle. The buffer elements 36 and 38 act in the axial direction. The buffer elements 36 and 38 extend at least partially around the receiving opening 14 . The buffer elements 36 and 38 can strike against axial stop faces on the housing (not shown) or on at least one stop face of a console (also not shown).

2 shows another view of the elastic mount 10. The coupling interface KS is formed by the coupling slot 16 and the coupling element 18. FIG. The coupling slot 16 extends into the elastic body 12 in the radial direction. The coupling slot 16 leads to the receiving opening 14. The adapter element 20 for the unit to be stored (not shown) can be inserted from above in the radial direction via the coupling slot 16 into the receiving opening 14. The adapter element 20 is held in the receiving opening 14 via the coupling element 18 . According to this embodiment, the coupling element 18 is a spring clip 18.

The spring clip 18 has two holding arms 40 and 42 which contact the adapter element 20 and hold it in the receiving opening 14 . The two holding arms 40 and 42 can act on the adapter element 20 in particular with their free end. The adapter element 20 has two contact areas 44 and 46, which are designed to be contacted by the holding arms 40 and 42. Each contact region 44 and 46 has two surfaces 50, 52 and 54, 56 which run at an angle to one another. The retaining arms 40 and 42 make contact with the inclined surfaces 52 and 54. The retaining arms 40 and 42 press the adapter element 20 into the receiving opening 14. When inserting the adapter element 20 in the radial direction from above into the receiving opening 14 through the coupling slot 16, the retaining arms 40 and 42 are initially bent outwards by the adapter element 20 before they spring back and can engage in the contact areas 44 and 46 assigned to them in order to contact the coupling element. The holding arms 40 and 42 travel along the corresponding surface 52 or 54 until they reach their holding position and press the adapter element 20 into the receiving opening 14 .

The spring clip 18 can be made from a spring sheet metal. The spring clip 18 is adapted to the contours of the adapter element 20 and the receiving opening 14 . The spring clip 18 has a curved section 58 which extends at least in sections along the outer peripheral surface of the adapter element 20 . In the area of section 58 a projection of the elastic body 12 can be seen, which extends through the spring clip 18 or the curved section 58 . The projection 60 extends through the spring clip 18 into a receptacle 62 on the adapter element 20 . The projection 60 serves as an anti-twist device for the coupling element 18.

The spring clip 18 has two spring chambers 64 and 66 adjoining the curved section 58 . To form the spring chambers 64 and 66, the spring clip 18 initially extends away from the adapter element 20 in the radial direction, i. H. the spring clip is not in contact with the adapter element 20 in this area. With the retaining arms 40 and 42, the spring clip 18 extends back in the direction of the adapter element 20 in order to be able to contact the surfaces 52 and 54 on the adapter element 20. The spring chambers 64 and 66 form spaces into which the holding arms 40, 42 can be moved when they are pushed outwards by the adapter element 20 when the adapter element 20 is inserted.

The buffer elements 30, 32 and 34 extend outward in the radial direction. The buffer elements 30, 32 and 34 act as radial buffers which can interact with stop surfaces, not shown. These stop surfaces can be formed on a housing, for example. The buffer element 38 is ring-shaped and extends partially around the receiving opening 14 . The buffer element 38 acts in the axial direction.

The spring elements 22 and 24 extend away from the elastic body 12 in the radial direction. At the radially outer ends of the spring elements 22 and 24 connecting elements 26 and 28 are formed. The connecting elements 26, 28 can be used, for example, to connect the spring elements 22 and 24 with an in 2 housing not shown are used.

3 shows a sectional view along the line III-III in 2 . The coupling device includes a core 68 which is embedded in the elastic material of the elastic body 12 . The spring clip 18 is arranged radially inside the core 68 . The core 68 receives the spring clip 18 . A layer of the elastic material of the elastic body 12 can be present at least in sections between the core 68 and the spring clip 18 .

The core 68 has two projections 70 and 72 which project radially inward. The projection 70 holds the core 68 or the elastic body 12 of the elastic bearing 10 in the axial direction on the adapter element 20. For this purpose, the projection 70 can engage in a recess 74 on the adapter element 20. The recess 74 can reduce the diameter of the adapter element 20 at least in certain areas. The recess 74 can run around the adapter element 20 .

The projection 72 secures the spring clip 18 in its predetermined position in the axial direction. The projection 72 is not in contact with the adapter element 20. Accordingly, the spring clip 18 can be supported on the projection 72 in the axial direction.

4 shows a perspective view of a console 1000 for mounting an assembly 1010. In the embodiment shown, the assembly 1010 to be mounted can be an air conditioning compressor for a vehicle.

The elastic mounts 10 each have a housing 76 . The housings 76 each have a coupling opening 78 via which the adapter elements 20 can be inserted into the receiving opening 14 (see 1 until 3 ) can be used. The coupling opening 78 is part of the coupling interface KS. The adapter elements 20 couple the elastic mounts 10 to the unit 1010 to be mounted.

The console 1000 has two side walls 1012, 1014 and a base 1016 which connects the two side walls 1012 and 1014 to one another. The side walls 1012 and 1014 of the console 1000 each have two recesses 1018 and 1020 which correspond to the docking opening 78, the docking slot 16 and the receiving opening 14 (see Fig 1 until 3 ) are matched to use the adapter elements 20 in the elastic bearing 10 can.

The elastic mounts 10 are attached to the console 1000 via the housing 76 . The elastic mounts 10 are attached to the outside of the side walls 1012 and 1014 . The console 1000 has fastening openings 1022 for fastening the elastic bearing 10 to the console 1000 . The mounting holes 1022 are formed around the recesses 1018 and 1020 . Attachment projections 80 are formed on the housing 76 . The fastening projections 80 are designed to correspond to the fastening openings 1022 on the bracket 1000 .

5 shows a perspective view of the console 1000 and the unit to be stored 1010 in the separate state. 5 thus shows the state before the coupling of the adapter elements 20 with the elastic bearings 10, ie 5 shows the state before the adapter elements 20 were inserted into the elastic bearing 10. The unit 1010 to be stored is located, together with the adapter elements 20 attached to it, in the vertical direction above the console 1000. The adapter elements 20 can extend through corresponding openings on the unit 1010, so that only two rod-shaped adapter elements are required. However, it is also conceivable to use four adapter elements 20 which are each individually connected to the assembly 1010 . At the ends of the adapter element 20, the recesses 74 can be seen, with which the adapter element 20 is inserted into the receiving opening 14 (see 1 until 3 ) engages and via which the elastic body 12 is held in connection with the respective adapter element 20 .

The elastic mounts 10 are attached to the outside of the side walls 1012 and 1014 of the console 1000 via their housing 76 . The fastening openings 1022 on the side walls 1012 and 1014 of the console 1000 and the fastening projections 80 on the housings 76 form a bayonet catch for fastening the elastic bearing 10 to the console 1000. The unit 1010 to be stored is together with the adapter elements 20 in the radial direction from above , ie in the direction of arrow V, in the console 1000 and in the corresponding elastic bearing 10 used. In other words, the unit 1010 to be stored can be inserted into the console 1000 from above in the vertical direction. The axial ends of the adapter elements 20 with the recesses 74 are received in the receiving opening 14 of the elastic body 12 and held in the receiving opening 14 via the spring clip 18 (see FIG 1 until 3 ).

6 10 shows a perspective view of a console 1000 according to another embodiment. According to this embodiment, the elastic bearing 10 on the inside of the side walls 1012 and 1014 of the console 1000 attached. The elastic mounts 10 are thus arranged on opposite surfaces of the side walls 1012 and 1014 . The adapter members 20 extend within the space between the sidewalls 1012 and 1014. The sidewalls 1012 and 1014 have circular openings that are different from that of FIG 4 and 5 described embodiment have no openings for inserting the adapter elements from above.

The housings 76 of the resilient mounts 10 have mounting bosses 80 which engage mounting apertures 1022 on the side walls 1012 and 1014 of the console. According to this embodiment, the fastening projections 80 are in the form of latching projections. According to this embodiment, the coupling openings 78 on the housings 76 are designed in the form of slits, i. H. the coupling openings 76 extend over the entire axial extent of the housing 76.

7 10 shows a perspective view of a console 1000 according to another embodiment, which is largely the same as that referred to in FIG 4 and 5 corresponds to the embodiment described. The remarks on the 4 and 5 thus also apply analogously to the in 7 embodiment shown. The elastic mounts 10 are attached to the outer surfaces of the side surfaces 1012 and 1014 . The housing 76 of the upper elastic mount 10 mounted on the side wall 1014 has a stopper portion 82 which is fixed to one of the buffer members 36 or 38 on the elastic body 12 (see FIG 1 until 3 ) can interact.

8th 10 shows another view of the console 1000 according to FIG 7 . The aggregate 1010 to be stored is arranged between the side walls 1012 and 1014 of the console 1000 . The adapter elements 20 extend through the side walls 1012 and 114 to the elastic bearing elements 10 arranged on the outside of the side walls 1012 and 1014.

9 shows a sectional view along the line IX-IX in 8, i.e . H. in 9 the inside of the side wall 1012 of the console 1000 is shown. The side wall 1012 has fastening openings 1022 through which the locking projections 80 on the housings 76 of the elastic bearings 10 extend. According to this embodiment, the bracket 1000 or the side wall 1012 has recesses 1018 which are slotted in sections, via which the adapter elements 20 can be inserted into the elastic mounts 10 . The lower attachment holes 1012 are enlarged compared to the upper attachment holes 1022 .

10 shows an enlarged view of section X in 9 . According to this embodiment, the slotted recess 1018 in the side wall 1012 cooperates with the coupling slot 16 of the elastic mount 10 for inserting the adapter elements 20 . The coupling interface KS of the elastic bearing 10 can be seen in the recess 1018, which interface is formed by the coupling slot 16 and the spring clip 18, among other things.

From a synopsis of 7 until 9 it becomes clear that the unit 1010 to be stored together with the adapter elements 20 can be inserted into the elastic mounts 10 from above via the recesses 1018 and the coupling slot 16 and can be coupled to the elastic mounts 10 via the adapter elements 20 .

The adapter element 20 which is held in the receiving opening 14 via the spring clip 18 can be seen in the recess 1018 . The axial buffer element 36 on the elastic body 12 can abut in the axial direction against the outer surface of the side wall 1012, i. H. the outer surface of the side wall 1012 forms a stop surface for the buffer element 36 acting in the axial direction on the elastic body 12.

The latching projections or the fastening projections 80 extend through the fastening openings 1022 for latching therethrough and engage behind the fastening openings 1022 on the inside of the side wall 1012 with their latching lugs.

11 shows the outside of the side wall 1012 of the console 1000. On the outside of the side wall 1012, the elastic bearings 10 are attached.

12 shows an enlarged view of detail XII in 11 . The elastic mount 10 includes the elastic body 12 and the housing 76 . The spring elements 22 and 24 extend outwards in the radial direction toward the housing 76. The elastic body 12 is connected to the housing 76 via the spring elements 22 and 24. FIG. The housing 76 has receptacles 84 and 86 for the 11 not shown connecting elements 26 and 28 (see 1 until 3 ) of the spring elements 22 and 24. The connecting elements 26 and 28 of the spring elements 22 and 24 are held on the housing 76 via a form fit and a friction fit. For this purpose, the receptacles 84 and 84 enclose the connecting elements 26 and 28. The connecting elements 26 and 28 are received under prestress in the receptacles 84 and 86 of the housing 76.

The housing 76 surrounds the elastic body 12. The housing 76 thus extends radially outward around the elastic body 12. The housing 76 has an interior surface 88 . Stop surfaces 90, 92 and 94 for the radial buffer elements 30, 32, 34 on the elastic body 12 are formed on the inner surface 88 of the housing 76. The stop surface 90 is assigned to the radial buffer element 30 , the stop surface 92 to the radial buffer element 32 and the stop surface 94 to the radial buffer element 34 . The buffer elements 30, 32 and 34 extend in the radially outward direction or protrude in the radially outward direction. The buffer element 30 is arranged between the spring element 24 and the coupling slot 16 . The buffer element 32 is arranged between the coupling slot 16 and the spring element 22 . The buffer element 34 is formed between the two spring elements 22 and 24 on the elastic body 12 .

If the elastic body 12 is deflected relative to the housing 76 under the load of the spring elements 22 and 24, the radial buffer elements 30, 32 and 34 can strike the stop surfaces 90, 92 and 94 assigned to them. Since the impact on the stop surfaces 90, 92 and 94 is dampened by the buffer elements 30, 32 and 34, unwanted vibrations and noise can be suppressed. Since the deflections of the elastic body 12 relative to the housing 76 are limited by hitting one or more of the stop surfaces 90, 92 and 94, an overloading of the spring elements 22 and 24 is prevented, which is beneficial to the service life of the elastic bearing 10.

13 shows the view according to 11 , but with the entered cutting line XIV-XIV. 14 shows a sectional view along the line XIV-XIV in 13 . The elastic mounts 10 are attached to the outside of the side walls 1012 and 1014 . Two adapter elements 20 are provided, which couple the two elastic mounts 10 shown in section with a fastening device 1024 of the unit 1010 to be mounted. A screw 1026 extends through the two adapter elements 20 and fastens the two adapter elements 20 and thus the elastic bearing 10 shown in section to the unit 1010 with the fastening device 1024 . The screw 1026 extends through the two adapter elements 20 and the fastening device 1024.

15 shows an enlarged view of detail XV in 14 . The housing 76 includes a stop portion 96 having an opening 98 therein. The stop section 96 has a stop surface 100 for the axial buffer element 36 on the elastic body 12 . The axial buffer element 36 extends in the direction of the stop section 96.

On the axial side of the elastic body 12 opposite to the axial side having the buffer member 36, the axial buffer member 38 is formed. The axial buffer element 38 extends towards the side wall 1012 of the console 1010. The side wall 1012 forms a stop surface 1026 for the axial buffer element 38, which extends around the recesses 1018 (see 9 ) in sidewall 1012 extends around. If there is an axial deflection of the elastic body 12 relative to the housing 76, this axial deflection can be limited by the stop surface 100 on the housing 76 and the stop surface 1028 of the side wall 1012.

16 shows an enlarged view of section XVI in 14 . The elastic bearing 10 is coupled to the fastening device 1024 via the adapter element 20 . The screw 1026 holds the elastic bearing 10 and the adapter element 20 on the fastening device 1024. On the outside of the side wall 1014, a stop surface 1030 for the axial buffer element 38 is formed. The housing 76 has according to in 16 shown embodiment no stop portion which can interact with the axial buffer element 36 of the elastic body 12.

17 10 shows a perspective view of a console 1000 according to another embodiment. According to this embodiment, the housings 76 of the elastic mounts 10 are formed in one piece with the bracket 1000 . The receptacles 84 and 86 for the connecting elements 26 and 28 of the spring elements 22 and 24 (see 1 until 3 ) are integral with the console 1000. Housings 76 are formed integrally with sidewalls 1012 and 1014 accordingly.

17 the coupling interfaces KS between the elastic bearings 10 and the adapter elements 20 on the unit 1010 to be supported are shown. The housings 76 have the coupling openings 78 via which the adapter elements 20 are coupled to the elastic bearings 10 . According to this embodiment, the adapter elements 20 are connected to the adapter elements 20 via screws 102 which extend through the coupling opening 78 . According to this embodiment, the adapter elements 20 have an angle element.

18 shows an enlarged view of the coupling interface KS between the elastic bearing 10 and the adapter element 20 designed as an angle element. The elastic bearing 10 is connected to the adapter element 20 via the screw 102 . The adapter element 20 also has a spacer 104 which bridges the distance to the fastening device (not shown). The screw 106 holds the adapter element 20 to the fastening device, not shown. The elastic bearing 10 and the adapter element 20 are coupled via the coupling opening 78 in the housing 76. The elastic bearing 10 can thus be connected from above to the adapter element 20 via the screws 102 and thus coupled to the assembly 1010 to be mounted.

19 10 shows another view of the console 1000, in which the housing 76 of the elastic bearing 10, which is formed in one piece with the side wall 1012, is shown.

20 shows a sectional view along the line XX-XX in 19 . The housings 76 of the elastic mounts 10 are formed in one piece with the side walls 1012 and 1014 of the console 1000 . The coupling device comprises the core 68. The core 68 is connected to the adapter elements 20 via the screws 102. According to this embodiment, the adapter elements 20 are designed as angle elements. The adapter elements 20 are connected to the fastening device 1024 via the screws 106 . Openings 1032 are formed in the bottom 1016 of the console 1000 and can be used, for example, for connection to a vehicle (not shown).

21 shows an enlarged view of detail XXI in 20 . The housing 76 of the elastic mount 10 is formed in one piece with the side wall 1012 . A side wall section 1034 forms a stop surface for the axial buffer element 38 which extends towards the side wall section 1034 .

The core 68 is part of the coupling interface KS of the elastic mount 10. The core 68 has an opening 108 in which one end 110 of the screw 102 is received. The screw 102 extends through the coupling opening 78 in the housing 76. The adapter element 20 at least partially engages in the coupling opening 78 in order to be able to establish a connection with the elastic mount 10. The adapter element 20 has a fastening opening 112 through which the screw 102 extends. The screw 102 is firmly connected to the adapter element 20 via a nut 114 . The elastic bearing 10 is firmly connected to the adapter element 20 in this way.

The adapter elements 20 are attached to the unit 1010 . The unit 1010 can be inserted into the console 1000 from above together with the adapter elements 20 (see also 17 until 20 ). The adapter elements 20 are placed on the screws 102 on the core 68 of the elastic bearing 10 from above via the coupling opening 78 . The adapter elements 20 are connected via the nuts 114 to the core 68 of the elastic bearing 10 embedded in the elastic body 12 (see FIG 17 until 20 ).

The 22 until 27 show views of an elastic mount 10 and a bracket 1000 according to another embodiment. In the following, the description of this embodiment focuses in particular on the differences from those referred to in FIG 1 until 16 described embodiments. The statements regarding in the 1 until 16 The embodiments shown also apply analogously to those in FIGS 22 until 26 embodiment shown.

Four elastic bearings 10 are arranged on the console 1000 . The elastic bearings 10 are attached to the outer sides of the side walls 1012 and 1014 and are connected to the console 1000 via snap-in connections. To produce the snap-in connections, snap-in projections 80 are formed on the housings 76 of the elastic mounts 10 and engage in corresponding openings on the side walls 1012 and 1014 of the console 1000 .

According to the view 23 the intersection line XXIV-XXIV is entered. 24 shows a sectional view along the line XXIV-XXIV in 23 . In 24 the two elastic bearings 10 attached to the side wall 1014 of the console 1000 are shown in section.

25 shows an enlarged view of detail XXV in 24, i.e . H. an enlarged view of the elastic mount 10 shown in section. The elastic mount 10 has the elastic body 12 on. The elastic bearing 10 has the coupling interface KS. The coupling interface KS is formed by the coupling slot 16, a coupling device and the coupling opening 78. The coupling interface KS serves to couple the elastic mount 10 to the adapter element 20 of the unit 1010 to be mounted (see 22 and 23 ). The coupling opening 78 is located in the radial direction above the coupling slot 16 and interacts with it. The coupling slot 16 and the coupling opening 78 are aligned in the radial direction. The adapter element 20 can be inserted into the coupling slot 16 via the coupling opening 78 and thus inserted into the receiving opening 16 .

The coupling device comprises the core 68, which is at least partially embedded in the elastic body 12, and the spring clip 18. The spring clip 18 is integrated into the core 68 according to this embodiment. The spring clip 18 has two retaining arms 116 and 118 . The support arms 116 and 118 are connected to a curved portion 124 via connecting portions 120 and 122 . The curved section 124 extends in sections along the outer peripheral surface of the adapter element 20 . The retaining arms 116 and 118 of the spring clip 18 are filled with the core 68 material. The connecting portions 120 and 122 form openings 126 and 128 which are not filled with the core 68 material. The openings 126 and 128 each provide a spring space into which the retaining arms 116 and 118 can be moved as the retaining arms 116 and 118 are moved outwardly upon insertion of the adapter member 20. If the adapter element 20 is in its predetermined position in the receiving opening 14, the holding arms 120 and 122 spring back and hold the adapter element 20 on the elastic bearing 10.

26 shows a view of the side wall 1012 of the console 1000 on which the two elastic bearings 10 are attached. 27 shows an enlarged view of detail XXVII in 26, i.e . H. an enlarged view of the in 26 lower bearing 10. The core 68 and spring clip 18 (see 25 ) are embedded in the elastic body 12. The holding arms 116 and 118 are stepped in the axial direction. The holding arms 116 and 118 engage with their thicker sections 130 and 132 in the recess 74 (see 25 ) on the adapter element 20. As a result, the elastic body 12 can be held on the adapter element 20 in the axial direction. The openings 126 and 128 remain intact even when the core 68 and the spring clip 18 are embedded in the elastic body 12 .

28 shows a perspective view of a console 2000 and bearing elements 200 according to a further embodiment. The bearing elements 200 and the bracket 2000 are used to store an aggregate 2010 to be stored. The aggregate 2010 to be stored can be, for example, an air conditioning compressor of a vehicle that is to be spring-mounted on the vehicle via the bracket 2000 . 28 shows the elastic bearing 200 and the console 2000 in the separated state.

The console 2000 has side walls 2012 and 2014 that connect together above the floor 2016 . Each of the sidewalls 2012 and 2014 has recesses 2018 and 2020 formed to receive and secure the resilient mounts 200 therein. The elastic bearings 200 are attached to the unit 2010 to be supported via adapter elements 202 . Stop disks 204 , 206 are arranged on the adapter elements 202 and provide stop surfaces for the elastic bearings 200 . The stop disks 204 and 206 are held on the elastic bearings 200 via the adapter elements 202 . Two stop disks 204 and 206 are assigned to each elastic bearing 200 .

The bearings 200 have a coupling interface KS, with which the elastic bearings 200 can be coupled to the console 2000 from above in the vertical direction. The elastic mounts 200 are attached to the unit 2010 to be mounted via the adapter elements 202 . The unit 2010 to be stored is inserted into the console 2000 from above together with the elastic bearings 200 . In this case, the elastic bearings 200 are inserted into the recesses 2018 and 2020 in the radial direction from above. The recesses 2018 and 2020 have latching recesses 2022 and 2024 on the side. The lateral locking recesses 2022 and 2024 are designed to interact with corresponding locking elements and in particular with corresponding locking projections on the elastic bearings 200 .

29 shows a perspective view of the console 2000, in which the unit to be stored 2010 and the elastic bearing 200 have been inserted into the console 2000 from above.

30 shows an enlarged view of detail XXX in 29 . In 30 the stop disk 204 is shown, which forms a stop surface for the elastic bearing 200 on its inside. According to this embodiment, the adapter elements 202 can be formed by a screw 208 and a nut 210 . The stop disks 204 and 206 can be held on the elastic bearings 200 via the adapter elements 202 .

31 shows an enlarged view of detail XXXI in 30 . In 31 the fastening device 2026 on the unit 2010 to be stored is shown. The stop disk 206 is supported on the fastening device 2026 .

32 12 shows a perspective view of an elastic mount 200. The elastic mount 200 has a housing 212 and an elastic body 214. FIG. The housing 212 and the elastic body 214 are connected to each other. The elastic body 214 has a receiving opening 216 in which an adapter element 202 can be received. The elastic body 214 further includes two spring elements 218 and 220 which extend between the housing 212 and the receiving opening 216 . The elastic body 214 instructs each axial side has two buffer elements 222, 224 acting in the axial direction. At the back of the elastic bearing 200 is in 31 only the buffer element 226 can be seen. The buffer members 222, 224, 226 protrude from a side wall of the housing 212 in the axial direction. The elastic body 214 also comprises buffer elements 228 and 230 acting in the radial direction, against which the receiving section 232 having the receiving opening 216 can strike in the radial direction in order to limit a deflection of the receiving section 232 in the radial direction relative to the housing 212.

The coupling interface KS is arranged on the housing 212 . The coupling interface KS is formed by guides 234 and latching projections 236, 238 on the housing 212. The elastic bearing 200 can be connected to one of the side walls 2012 or 2014 of the console 2000 via the guide 234 (see 28 and 29 ) engaged and and attached to the 2000 console. The guides 234 serve in particular to secure the elastic bearing 200 on the console 2000 in the axial direction. The locking projections 236 and 238 can be inserted into the locking recesses 2022 and 2024 on the console 2000 (see 27 and 28 ) intervene. A curved or inclined section 240 and 242 is formed between the guide 234 and the latching projections 236 and 238 . When the elastic mounts 200 are pushed onto the side walls 2012 and 2014 of the console 2000, the corresponding side wall 2012 or 2014 is guided in the guide 234 until the side wall comes into contact with the inclined or curved section 240. Contact with the inclined section pushes the latching projection 236 or 238 inwards until it reaches the latching recess 2022 on the console 2000 and latches or “snaps” into it. This allows the elastic mounts 200 to be fixed to the bracket 2000. Since section 244 of housing 212 is curved inward between the two latching projections 236 and 238 in the direction of receiving section 232, a spring effect can be provided which enables latching projections 236 and 238 to latch into latching recesses 2022 and 2024 on console 2000.

33 shows a perspective view of an elastic bearing 200 and the stop disks 204 and 206 associated with this elastic bearing 200. The stop disks 204 and 206 interact with the buffer elements 224 and 226 acting in the axial direction. The surfaces 246 of the stop disks 204 and 206 facing the elastic bearing 200 form axial stop surfaces for the buffer elements 224 and 226.

34 12 shows a perspective view of an elastic mount 300 according to another embodiment. The elastic mount 300 has an elastic body 312 . The elastic body 312 has a receiving opening 314 and a coupling slot 316 extending through the elastic body 312 to the receiving opening 314 in the radial direction. The elastic bearing 300 includes a coupling interface KS. The coupling interface KS is formed by a coupling element 318 and the coupling slot 316 . The coupling element 318 is arranged in the receiving opening 314 . The coupling element 318 serves to hold an adapter element 320 on the elastic bearing 300, i.e. to hold the adapter element 320 in the receiving opening 314.

The elastic body 312 of the elastic mount 300 has a spring portion 322 and a clamping portion 324 . The clamping section 324 connects to the spring section 322 . The clamping portion 324 extends outward in the radial direction. The spring section 322 extends at least partially curved between the clamping section 324 and the receiving opening 314. The clamping section 324 extends radially outward around the receiving opening 314 and the spring section 322.

The elastic body 312 has buffering members 326, 328, 330, 332 and 334. The buffer elements 326, 328, 330, 332 extend outward in the radial direction and accordingly act in the radial direction. The buffer element 334 extends in the axial direction and thus represents an axial buffer element. The axial buffer element 334 is formed on the side of the elastic body 312 facing away from the spring section 322 .

35 shows another view of the elastic mount 300, in which the coupling interface KS is shown. The coupling interface KS is formed by the coupling slot 316 leading to the receiving opening 314 and a coupling device which includes a spring clip 318 . The coupling slot 316 extends in the radial direction into the elastic body 312 as far as the receiving opening 314 . The coupling slot 316 also extends through the spring portion 322 and the clip portion 324. The clip portion 324 extends outwardly around the spring portion 322. As shown in FIG.

The elastic body 312 has the buffer elements 326, 328, 330, 332 and 336 acting in the radial direction. The buffer elements 326, 328, 330, 332 and 336 are at predetermined angles are arranged offset to one another around the receiving opening 314 .

36 shows a sectional view along the line XXXVI-XXXVI in 35 . The elastic body 312 has a core 338 at least partially embedded in the elastic body 312 . The core 338 together with the spring clip 18 forms the coupling device. The spring clip 318 is arranged in the core 338 . The statements regarding the spring clip 18 and the core 68, which in connection with with reference to the 1 until 3 were made, apply analogously to the spring clip 318 and the core 338 in the 34 until 43 embodiments shown.

The clamping portion 324 extends outward in the radial direction. The clamping section 324 extends radially outwards around the receiving opening 314 . The spring section 322 extends curved in sections between the receiving opening 314 and the clamping section 324.

37 shows a perspective view of the elastic bearing 300 with the housing 340. The housing 340 consists of two housing parts 342 and 344 together. The housing 340 has a coupling opening 346 which cooperates with the coupling slot 316 in the elastic body 312 for inserting the adapter element 320 into the receiving opening 314 . The coupling opening 346 is part of the coupling interface KS.

38 14 shows another perspective view of the elastic mount 300, in which the rear side of the housing 340 is shown. The two housing parts 342 and 344 are connected to one another via latching projections 348 . The latching projections 348 are formed on the housing part 342 . The housing part 344 has openings 350 through which the latching projections 348 can extend in order to be able to engage behind the edges of the openings 348 with their latching lugs.

The two housing parts 342 and 344 form a receptacle 352 for the clamping section 324 of the elastic body 312 between them. The housing part 342 also has a section 354 which extends in the axial direction and on which the clamping section 324 can be supported. The two housing parts 342 and 344 are designed in such a way that they can generate a clamping force for clamping the clamping section 324 . Starting from the clamping section 324 clamped between the housing parts 342 and 344, the spring section 322 extends in a curved manner in the radial direction inwards to the receiving opening 314 (see FIG 34 until 37 ). The receiving opening 314 is located in the radial direction within the axial section 354 of the housing part 342.

39 shows a further view of the elastic bearing 300. The latching projections 348 extend through the openings 350 in the housing part 344 and engage behind the edges of the openings 350 with their latching lugs. In this way, a clamping force for clamping the clamping portion 324 can be generated. The housing part 344 has an opening 356 through which the elastic body 312 extends with its spring section 322 in the direction of the receiving opening 314 .

40 shows a sectional view along the section line XL-XL in 39 . The housing parts 342 and 344 form between them a receptacle 352 for the clamping section 324 of the elastic body 312. The housing part 342 has a section 358 extending in the radial direction and a section 360 extending in the axial direction, which adjoins the radial section 358 connects. The latching projections 348 are formed on the section 360 .

The housing part 344 has a section 362 which extends obliquely to the M axis. This section 362 also extends at an angle to the section 364 of the housing part 344 which extends in the radial direction. The openings 350 for the latching projections 348 are formed in the section 362 which extends in the radial direction. Deflections of the spring section 324 are made possible by the section 362 extending obliquely. Section 362 is located in the radial direction between section 354 and section 360 with the latching projections 348.

The receptacle 352 is formed by the sections 354, 358 and 360 on the housing part 342 and the sections 362 and 364 on the housing part 344. The receptacle 352 is ring-shaped. The receptacle 352 encloses the clamping section 342 of the elastic body 312. In the receptacle 352, the clamping section 324 is clamped between the two housing parts 342 and 344. In the latched state, the two housing parts 342 and 344 generate a clamping force in order to clamp the clamping section 324 in the receptacle 352. The clamping section 324 is compressed and prestressed at least in places by the two housing parts 342 and 344 . Due to the shape of the receptacle 352, the clamping section 324 is held on the housing 340 by a form fit and additionally by a friction fit.

41 shows a sectional view through the elastic bearing 300. In the sectional view according to FIG 41 the housing part 342 is shown. The elastic mount 300 has a coupling interface KS, which consists of the coupling opening 346, the coupling slot 316 and the coupling element 318 is formed. The housing part 342 has the coupling opening 346 through which the adapter element 320 can be inserted into the housing 340 and via the coupling slot 316 into the receiving opening 314 .

The coupling element 318 includes the core 338 embedded in the elastic body 312 . The core 338 partially encloses the spring clip 358 and holds it in the receiving opening 314 in its predetermined position.

42 shows a view of an elastic mount 300 according to a further embodiment. The elastic bearing 300 largely corresponds to the embodiment with respect to FIG 34 until 41 was described. Corresponds accordingly 42 essentially 39 . In 42 the section line XLIII-XLIII is entered. 43 shows a view along section line XLIII-XLIII in 42 .

A radially outwardly extending section 366 and an axial section 368 on which the latching projections 348 are formed are formed on the housing part 342 . Sections 366 and 368 are joined by a curved section 370 which first extends away from housing portion 344 before merging into axial section 368 .

The housing part 344 has a section 372 which extends in the radial direction and in which the openings 350 for the latching projections 348 are formed. The radial section 372 is followed by a section 344 which extends in the axial direction and extends in the direction of the section 366 on the housing part 342 . At least between the axial end of section 374 and section 366 or the transition between sections 346 and 340, clamping section 324 is compressed. The receptacle 352 is ring-shaped and extends radially outward around the receptacle opening 314 . The receptacle 352 is formed by the sections 366, 368, 370 on the housing part 342 and the sections 342 and 374 on the housing part 340. The receptacle 352 encloses the clamping section 324. The clamping section 324 is held in the receptacle 352 by a form fit and a friction fit.

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• DE 112006002536 T5 [0002]

Claims (35)

Elastic mount (10; 200; 300) for an assembly (1010; 2010) to be mounted, in particular for mounting an assembly on a vehicle, comprising: at least one housing (76; 212; 340), at least one elastic body (12; 214; 312) coupled to the at least one housing (76; 212; 340), the at least one elastic body (12; 214; 312) having at least one receiving opening (14; 216; 314 ), wherein the elastic bearing (10; 200; 300) has at least one coupling interface (KS), wherein the at least one coupling interface (KS) is designed such that the elastic bearing (10; 200; 300) with the unit to be mounted (1010) or with a bracket (1000; 2000) for the unit to be stored (1010; 2010) can be coupled in the radial direction. Elastic bearing (10; 300) after claim 1 , wherein the at least one elastic body (12; 312) has at least one spring element (22, 24; 322) which is coupled or can be coupled to the at least one housing (76; 340). Elastic bearing (10; 300) after claim 1 or 2 , wherein the elastic bearing (10) has at least one receptacle (84, 86; 352) for receiving (84, 86; 352) a connecting section (26, 28; 324) of the at least one spring element (22, 24; 322) is trained. Elastic bearing (10; 300) after claim 3 , wherein the at least one connecting section (26, 28; 324) of the at least one spring element (22, 24; 322) is connected to the at least one receptacle (84, 86; 352) via a friction fit and a positive fit. Elastic bearing (10; 300) after claim 3 or 4 , wherein the elastic material of the at least one connecting section (26, 28; 324) of the at least one spring element (22, 24; 322) is prestressed in the at least one receptacle (84, 86; 352). Elastic bearing (10: 300) according to one of the Claims 1 until 3 , wherein the at least one connecting section 26, 28; 324) of the at least one spring element (22, 24; 322) is connected to the at least one receptacle (84, 86; 352) via a material connection. Elastic bearing (10) according to one of Claims 1 until 6 , wherein the at least one housing (76) has at least one radial stop surface (90, 92, 94) for the at least one elastic body (12). Elastic bearing (10) according to one of Claims 1 until 7 , wherein the at least one housing (76) has at least one axial stop surface (100) for the at least one elastic body (12). Elastic bearing (10) according to one of Claims 1 until 8th , wherein the at least one elastic body (12) has at least one axial buffer element (36, 38). Elastic bearing (10) according to one of Claims 1 until 9 , wherein the at least one elastic body (10) has at least one radial buffer element (30, 32, 34). Elastic bearing (10) according to one of Claims 1 until 10 , wherein the coupling interface (KS) has at least one coupling device. Elastic bearing (10) after claim 11 wherein the at least one coupling device comprises at least one core (68) connected to the elastic body (12). Elastic bearing (10) after claim 12 , wherein the at least one core (68) has at least one connecting device (102) for coupling to the aggregate (1010) to be stored. Elastic bearing (10) according to one of Claims 1 until 13 , wherein the at least one coupling device comprises at least one spring clip (18) which is designed to couple the at least one elastic bearing (10) to the unit to be supported. Elastic bearing (10) after Claim 14 , wherein the spring clip (18) has at least two holding arms (40, 42) which are designed to hold an adapter element (20) of the unit (1010) to be stored in the receiving opening (14). Elastic bearing (10) after claim 15 , wherein the at least two holding arms (40, 42) each have an end section, wherein the spring clip (18) is designed such that the end sections for holding the adapter element (20) can be brought into engagement with it. Elastic bearing (10) according to one of Claims 14 until 16 wherein the at least one coupling means comprises at least one core (68) and at least one spring clip (18). Elastic bearing (10) according to one of Claims 1 until 17 . wherein the at least one coupling interface (KS) comprises at least one coupling slot (16; 316), wherein the few at least one coupling slot (16; 316) leading to the at least one receiving opening (14; 314). Elastic bearing (10) according to one of Claims 1 until 18 , wherein the at least one housing (76; 212; 340) has at least one fastening element (80) for fastening the housing (76) to a console (1000). Elastic bearing (200) according to one of Claims 1 until 19 , wherein the at least one coupling interface (KS) comprises at least one guide (234) on the housing (212). Elastic bearing (10) after claim 20 wherein the at least one coupling interface (KS) comprises at least one fastening element (236, 238) on the housing (212) which interacts with the at least one guide (234) for fastening the elastic bearing (200) on a console (2000). Elastic bearing (10) according to one of Claims 1 until 21 , wherein the housing (76) has at least one coupling opening (78). A resilient mount (10; 300) for a unit (1010) to be stored, comprising: at least one housing (76; 340), at least one elastic body (12; 312) coupled to the at least one housing (76; 340), the at least one elastic body (12; 312) having at least one receiving opening (14; 314), wherein the at least one housing (76; 1000) has at least one receptacle (84, 86; 352) for at least one clamping section (26, 28; 324) on the at least one elastic body (12; 312), wherein the at least one receptacle ( 84, 86; 352) for clamping the at least one clamping section (26, 28; 324) on the elastic body (12; 312). Elastic bearing (10; 300) after Claim 23 , wherein the at least one receptacle (84, 86; 352) on the at least one housing (76; 340) is formed such that the at least one receptacle (84, 86; 352) the at least one elastic body (12; 312). compressed at least one terminal point. Elastic bearing (10; 300) after Claim 23 or 24 , wherein the at least one receptacle (84, 86; 352) encloses the at least one clamping section. Elastic bearing (10; 300) according to one of Claims 23 until 25 , wherein the at least one receptacle (84, 86; 352) is designed such that the at least one clamping section (26, 28; 324) is held on the at least one housing (76; 340) by a form fit and a friction fit. Elastic bearing (10; 300) according to one of Claims 23 until 26 , wherein the at least one elastic body (12; 312) has at least one spring section (22, 24; 322), the at least one clamping section (26, 28; 324) adjoining the at least one spring section (22, 24; 322). . Elastic bearing (300) according to one of Claims 23 until 27 , wherein the at least one housing (340) has at least two housing parts (342, 344) which form the receptacle (84, 86; 352) for clamping the at least one clamping section (26, 28; 324). Console (1000; 2000; 3000) for mounting an assembly, in particular in a vehicle, comprising: at least one elastic bearing (10; 200; 300) according to one of Claims 1 until 28 . Console (1000; 2000; 3000) to claim 29 , The console (1000; 2000; 3000) having a plurality of elastic bearings (10; 200; 300) according to one of Claims 1 until 29 having, wherein the console (1000; 2000; 3000) is formed at least two positions for attaching a respective elastic bearing (10; 200; 300). Console (1000; 2000; 3000) to claim 29 or 30 , wherein a surface of the console (1000; 2000; 3000) forms a stop surface for the elastic body (12; 214; 312) of the elastic bearing (10, 200; 300). Console (1000) after one of the claims 29 until 31 , wherein the at least one housing (76) of the at least one elastic bearing (10) is formed in one piece with the console (1000). Console (1000; 2000; 3000) according to one of claims 29 until 32 , wherein the console (1000; 2000; 3000) has at least one fastening device, in particular a fastening opening, for fastening the at least one elastic bearing (10, 200; 300) to the console (1000; 2000; 3000). Set of a console (1000; 2000; 3000) after one of the claims 29 until 33 and at least one adapter element (20), wherein the at least one adapter element (20) is designed to be coupled to the at least one coupling device (18, 68). Console (1000; 2000; 3000) according to one of claims 29 until 33 or Set to Claim 34 , whereby the unit to be stored is an air conditioning compressor in a vehicle.

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