DE102017217288A1 - Gas spring assembly and motor vehicle door assembly with a gas spring assembly - Google Patents

Abstract

A gas pressure spring assembly (16), in particular for spring loading of a motor vehicle flap (18) relative to a motor vehicle body (20), is described. The gas pressure spring assembly (16) comprises a gas spring (28) and a first end (16a) which can be fastened to the motor vehicle flap (18) and a second end (16b) which can be fastened to the motor vehicle body (20). In this case, the gas pressure spring assembly (16) from the first end (16a) to the second end (16b) is electrically conductive to electrically connect the motor vehicle door (18) and the motor vehicle body (20). In addition, a motor vehicle door assembly with such a gas spring assembly (16) will be described.

Description

The invention relates to a gas spring assembly, in particular for spring loading of a motor vehicle door with respect to a motor vehicle body, with a gas spring and a first, attachable to the motor vehicle door and a second end attachable to the vehicle body end, wherein the second end is opposite to the first end along a gas spring acting direction.

In addition, the invention relates to a motor vehicle door assembly with such a gas spring assembly.

Gas spring assemblies and thus equipped automotive flap assemblies are known in the art. For example, they are used in the field of motor vehicle tailgates or motor vehicle hoods, so that they can swing up after unlocking without or with reduced participation of a motor vehicle user. If such a motor vehicle door is to be closed again, then a motor vehicle user or an electric damper drive must do so against a spring force emanating from the gas pressure spring assembly.

Also, gas spring assemblies can be used to spring load machine flaps and can be used in the field of flexible device mounts.

Moreover, it is known from the prior art to equip motor vehicle doors with electrical equipment. Such electrical devices may be, for example, lighting devices or antenna systems. It is then necessary to connect the electrical devices with the necessary electrical sources and / or electrical masses, which are usually not arranged in the motor vehicle door. In the case of antenna systems, for example, the antenna amplifiers installed in the motor vehicle door must be connected to the motor vehicle body as electrical ground. This is usually done via electrical lines that are guided substantially parallel to the joints or hinges of the motor vehicle door.

Also for the purpose of electromagnetic compatibility, a motor vehicle door can be electrically connected to a motor vehicle body. The vehicle body then acts as an electrical ground.

When designing the electrical cables, it is therefore necessary to observe the geometric boundary conditions prescribed for the cable routing. In this context, it is important, for example, not to fall below minimum bending radii. In addition, due to the mobility of the motor vehicle flap often so-called overlength of the electrical lines must be provided.

The object of the invention is the construction of motor vehicle door assemblies that are equipped with electrical equipment or an electrical function, such. B. shielding, take over, improve. In particular, the assembly of the motor vehicle door assemblies should be simplified. In addition, care should be taken to ensure a long service life of the electrical equipment and the associated lines.

The object is achieved by a gas spring assembly of the type mentioned, which is electrically conductive from the first end to the second end to electrically connect the motor vehicle door and the vehicle body. The fact that the ends of the gas spring assembly can be fastened also includes an attachment in which not all translational and rotational degrees of freedom of the respective end are fixed. For example, one or two rotational degrees of freedom may remain free. In this context can also be spoken of a linkage. In particular, the term motor vehicle flaps includes tailgates, hoods, service flaps, cargo and fuel flaps, hatches, doors, and side flaps used primarily in commercial vehicles. Such a gas spring assembly can thus act as a section of an electrical line. Compared to the prior art, no or less electrical leads need to be routed parallel to the hinges or hinges of the motor vehicle flaps. As a result, a motor vehicle door assembly is created that requires fewer components overall. As a result, both their structure, as well as their installation is simplified. At the same time, in the design of such a motor vehicle door, the boundary conditions associated with the use of conventional electrical lines are no longer to be considered. This results in an increased freedom of design. In known motor vehicle door assemblies that portion of the electrical lines that runs parallel to a hinge or joint, due to the mobility of the vehicle door mechanically very high load and therefore a potential fault. After such line sections are no longer necessary, eliminates the associated fault. Overall, thus increasing the life of the electrical connections and thus the motor vehicle door assembly as a whole, by a stable and high-quality electrical connection is ensured.

The aforementioned effects and advantages apply analogously when the gas pressure spring assembly is used for spring loading of a machine flap or is used in the field of flexible device holders.

Preferably, the gas spring assembly comprises a gas spring cylinder housing and a guided in this gas spring piston, wherein the gas spring piston and / or the gas spring cylinder housing is or is electrically conductive or at least includes an electrical trace. The term of the electrical track is to be understood as meaning that it includes all cases in which the gas spring piston and / or the gas spring cylinder housing is not made of an electrically conductive material or, but via these elements, an electrical connection of the two ends of the gas spring assembly provided. In particular electrically conductive coatings, which may be local, or on the gas pressure spring piston or on the gas pressure spring cylinder housing arranged electrical line sections come into consideration as electrical conductor. The conductor can therefore also have the form of an additional electrically conductive component. The structure of a gas spring made of a gas spring cylinder housing and a gas spring piston is classic and proven. Thus, a robust and reliable electrical contacting of the two ends of the gas spring assembly is ensured. In comparison to a conventional gas spring, no additional elements in the form of electrical lines are required for this, so that no additional assembly costs arise. If the gas spring piston and / or the gas spring cylinder housing is or are electrically conductive, their electrical conductor cross sections can be designed so that the electrical connection have a low electrical resistance and a low inductance. The same applies if electrical conductors are used.

Advantageously, the gas pressure spring cylinder housing and / or the gas pressure spring piston are made of a metal material. Such gas spring cylinder housing and gas spring piston are electrically conductive and also mechanically very stable. Furthermore, metallic materials generally do not show signs of fatigue even over long periods of use, so that such a gas spring assembly is particularly durable.

In one variant, a medium, in particular a lubricating medium, the medium is electrically conductive or mixed with an electrically conductive additive between the gas spring cylinder housing and the gas spring piston. As a result, in particular, a lubricating film which acts between the gas spring piston and the gas spring cylinder housing, electrically conductive. Thus, these elements are electrically connected via the lubricating film. The electrical conductivity is available in each extended position of the gas spring in the same way. In addition, the electrical conductivity is maintained even during movement of the gas spring piston relative to the gas spring cylinder housing. It is thus reliable and robust.

The gas spring piston can be electrically conductively connected via an electrical sliding contact with the gas spring cylinder housing. In this case, the electrical sliding contact is preferably designed so that it forms an electrical connection in any relative position of gas spring piston and gas spring cylinder housing. This also applies during movement of the gas spring piston relative to the gas spring cylinder housing. The use of a sliding contact does not exclude the use of an electrically conductive medium, in particular lubricating medium. Both elements can be used simultaneously. In both cases results in a reliable and simple electrical connection.

In a variant, a sliding contact element forming the sliding contact and / or a sliding contact element forming the sliding contact and / or a gas pressure spring cylinder housing side, the sliding contact element forming the sliding contact is or are at least partially circumferential with respect to the gas spring action direction. Preferably, one of the sliding contact elements is completely circumferential. In this configuration, in each relative position of the gas spring piston, there is an electrical connection to the gas spring cylinder housing. When mounting the gas spring piston on the gas spring cylinder housing so it is not necessary to pay attention to a corresponding relative position. This makes assembly particularly quick and easy. Furthermore, in this variant can be dispensed with an anti-rotation, which would otherwise have the task of keeping a gas-pressure spring piston-side and a gas-pressure spring-cylinder housing-side sliding contact element in a provided relative position. Thus, the structure of such a gas spring assembly is simple.

In one embodiment, the first end or the first end is directly or via a separate, first electrical connection element electrically conductively connected to the motor vehicle door and / or the second end is electrically conductively connected directly or via a separate second electrical connection element with the motor vehicle body. So there are two basic variants for each end. Either the end is electrically conductive, making it electrically conductive the vehicle body or the vehicle door can be fastened. Alternatively, it does not depend on the electrical conductivity of the end, since the electrical connection with the motor vehicle door or the vehicle body takes place via a separate electrical connection element from the end. The first variant has the advantage that fewer components are needed. In particular, can be dispensed with an electrical connection element. The advantage of the second variant is that the electrical connection is independent of the properties of the respective end. The respective variants for each end of the gas spring assembly can be selected independently. It can therefore be used at a first end of an electrical connection element, whereas a second end are contacted directly electrically.

In addition, the object is achieved by a motor vehicle door assembly of the type mentioned, in particular by a motor vehicle tailgate assembly or a motor vehicle hood assembly comprising a gas spring assembly according to the invention, wherein in a mounted state of the motor vehicle door assembly, the first end to a motor vehicle door and the second end is attached to a motor vehicle body or vice versa. In comparison with the prior art, in such a motor vehicle door assembly, it is possible to dispense with those electrical line sections which run parallel to a hinge or joint of the motor vehicle door. Corresponding manufacturing and assembly steps are eliminated thereby. Furthermore, associated design restrictions are removed. In this case, the electrical connection via the gas spring assembly can be used to connect an electrical device in the motor vehicle door to an electrical source or ground. This may also be necessary for reasons of electromagnetic compatibility. Overall, the assembly of the motor vehicle door is considerably simplified in comparison with the prior art. Furthermore, by dispensing with the abovementioned conventional line sections, the service life of the motor vehicle door and the electrical components arranged therein as well as their electrical connection increases.

In one variant, the motor vehicle flap assembly comprises an antenna system integrated into the motor vehicle flap assembly, wherein in the mounted state of the motor vehicle flap assembly, the antenna system is electrically conductively connected to the motor vehicle body via the gas spring assembly. In particular, in this connection, an antenna amplifier of the antenna system may be electrically conductively connected to the motor vehicle body. This results in a robust and reliable electrical connection of the antenna system. At the same time its assembly is simplified.

• - 1 ein Kraftfahrzeug mit zwei erfindungsgemäßen Kraftfahrzeugklappenbaugruppen, die jeweils eine erfindungsgemäße Gasdruckfederbaugruppe umfassen,
• - 2 die erfindungsgemäße Gasdruckfederbaugruppe gemäß einer ersten Ausführungsform,
• - 3 die erfindungsgemäße Gasdruckfederbaugruppe gemäß einer zweiten Ausführungsform, und
• - 4 die erfindungsgemäße Gasdruckfederbaugruppe gemäß einer dritten Ausführungsform.

The invention will be explained below with reference to various embodiments, which are shown in the accompanying drawings. Show it:

• - 1 a motor vehicle with two automotive flap assemblies according to the invention, each comprising a gas spring assembly according to the invention,
• - 2 the gas spring assembly according to the invention according to a first embodiment,
• - 3 the gas spring assembly according to the invention according to a second embodiment, and
• - 4 the gas spring assembly according to the invention according to a third embodiment.

1 shows a motor vehicle 10 with a first motor vehicle door assembly 12 ie, a motor vehicle hood assembly, and a second automotive door assembly 14 ie a motor vehicle tailgate assembly.

Both motor vehicle flap assemblies 12 . 14 each include a gas spring assembly 16 , to the spring load of the respective associated motor vehicle door 18 opposite a motor vehicle body 20 is trained.

There is always a first end 16a the gas spring assembly 16 with the vehicle door 18 connected and a second end 16b with the vehicle body 20 ,

The first end 16a is along a gas spring acting direction 16c the second end 16b opposed.

In both motor vehicle flap assemblies 12 . 14 is the gas spring assembly 16 from the first end 16a to the second end 16b continuously electrically conductive to the motor vehicle door 18 and the vehicle body 20 electrically conductive to connect.

In the case of the first motor vehicle door assembly 12 is the motor vehicle door 18 a motor vehicle engine hood 22 , By doing that over the gas spring assembly 16 electrically conductive with the vehicle body 20 is connected, is the motor vehicle hood 22 connected to an electrical ground. This can serve the electromagnetic compatibility.

In the case of the second motor vehicle door assembly 14 is the motor vehicle door 18 a motor vehicle tailgate 24 ,

This is with an integrated antenna system 26 equipped (shown symbolically), wherein in the assembled state of the motor vehicle door assembly 14 the antenna system 26 via the assigned gas pressure spring assembly 16 electrically conductive with the vehicle body 20 connected is. The automobile body 20 acts as an electrical mass.

2 shows the gas spring assembly 16 according to a first embodiment.

It has a gas spring 28 with a gas spring piston 30 and a gas spring cylinder housing 32 on. The gas spring piston 30 is in the gas spring cylinder housing 32 guided.

Both the gas spring piston 30 as well as the gas spring cylinder housing 32 are electrically conductive and made of a metal material.

Also the two ends 16a . 16b the gas spring assembly 16 are electrically conductive. This is the first end 16a directly with the vehicle door shown only schematically 18 electrically connected. The second end 16b is directly with the vehicle body also shown only schematically 20 electrically connected, eg via metal screws.

To also the gas spring piston 30 and the gas spring cylinder housing 32 to connect electrically conductive acts between them an electrically conductive lubricant 34 ,

Thus, an electrical connection of the gas spring piston 30 with the gas spring cylinder housing 32 guaranteed regardless of their relative position.

Alternatively, a non-conductive lubricating medium may be used, which is mixed with a conductive additive.

3 shows a second embodiment of the gas spring assembly 16 , In the following, only the differences from the first embodiment will be discussed.

Now the electrically conductive gas spring piston 30 and the electrically conductive gas spring cylinder housing 32 Both are made of a metal material, via an electrical sliding contact 36 electrically connected to each other.

Here is a gasdruckfederkolbenseitiges, the sliding contact 36 forming sliding contact element 38 with respect to the gas spring action direction 16c completely circulating.

In an alternative, a gas spring-cylinder housing side, the sliding contact 36 forming sliding contact element with respect to the gas spring acting direction 16c be formed completely or partially circumferentially.

About the sliding contact 36 So, make sure that the gas spring piston 30 and the gas spring cylinder housing 32 in each relative position (axial position and rotational position) are electrically conductively connected to each other.

The contacting of the second end 16b on the vehicle body 20 takes place as in the first embodiment.

In contrast, now is the first end 16a not directly with the vehicle door 18 electrically contacted, but via a separate, first electrical connection element 40 , which is designed here as an electrical cable.

Furthermore, the gas spring assembly comprises 16 an optional enclosure 42 made of plastic.

A third embodiment of the gas spring assembly 16 is in 4 shown.

This differs from the preceding embodiments in that both the gas spring cylinder housing 32 as well as the gas spring piston 30 are made of an electrically non-conductive material.

Nevertheless, an electrical connection of the vehicle door 18 and the vehicle body 20 to be able to guarantee, is the gas spring piston 30 on its outside with a conductor only schematically illustrated 30a Mistake.

The gas spring cylinder housing also includes an electrical conductor 32a ,

The connection of the two tracks 30a . 32a via an electrical sliding contact 44 in the third embodiment, for example, the sliding contact 44 forming, gas pressure spring piston side sliding contact element 46 comprises, in contrast to the previous embodiments with respect to the gas spring action 16c only partially circulating.

The second end 16b is analogous to the first end 16a via a second electrical connection element 48 , which is an electrical cable in the illustrated embodiment, with the vehicle body 20 electrically connected.

There are also combinations of the second and the third embodiment of the gas spring assembly 16 conceivable. Then the gas spring piston could 30 be made of an electrically conductive material, for example a metal material, and with the provided on the gas spring cylinder housing trace 32a interact.

Incidentally, in each of the embodiments for each end 16a . 16b be decided freely whether this directly with the vehicle door 18 or the vehicle body 20 is contacted, or whether an electrical connection element is used for it.

Likewise, any embodiment of the gas spring assembly 16 with the enclosure 42 Although this is shown only in connection with the second embodiment.

The enclosure 42 can be executed in one piece, as well as in several parts. It is also conceivable that the enclosure 42 circulating or only partial.

It should be understood that all other features that have been shown in connection with one of the embodiments are readily interchangeable therewith, so that any combination of the embodiments will be apparent.

Claims (9)

Gas pressure spring assembly (16), in particular for spring loading of a motor vehicle door (18) relative to a motor vehicle body (20), with a gas spring (28) and a first, on the motor vehicle door (18) attachable end (16a) and a second, on the vehicle body (20 ) fastened end (16b), the second end (16b) being opposite the first end (16a) along a gas spring action (16c), characterized in that the gas spring assembly (16) is movable from the first end (16a) to the second end (16b). is electrically conductive to electrically connect the motor vehicle door (18) and the motor vehicle body (20). Gas spring assembly (16) after Claim 1 characterized by a gas spring cylinder housing (32) and a gas pressure spring piston (30) guided therein, wherein the gas pressure spring piston (30) and / or the gas spring cylinder housing (32) is electrically conductive or at least comprises an electrical conductor track (30a) , Gas spring assembly (16) after Claim 2 , characterized in that the gas pressure spring cylinder housing (32) and / or the gas pressure spring piston (30) are made of a metal material or is. Gas spring assembly (16) after Claim 2 or 3 , characterized in that between the gas spring cylinder housing (32) and the gas spring piston (30), a medium, in particular a lubricating medium (34), acts and the medium is electrically conductive or mixed with an electrically conductive additive. Gas spring assembly (16) according to one of Claims 2 to 4 , characterized in that the gas pressure spring piston (30) via an electrical sliding contact (36) is electrically conductively connected to the gas spring cylinder housing (32). Gas spring assembly (16) after Claim 5 Characterized in that a gas pressure spring the piston side, the sliding contact (36) forming sliding contact element (38) and / or a gas spring cylinder-housing side, the sliding contact (36) forming sliding contact element of the gas spring effective direction (16c) are at least partially circumferentially with respect to, or is. Gas pressure spring assembly (16) according to any one of the preceding claims, characterized in that the first end (16a) directly or via a separate, first electrical connection element (40) with the motor vehicle door (18) is electrically conductively connected and / or the second end (16 16b) is electrically conductively connected directly or via a separate, second electrical connecting element (48) with the motor vehicle body (20). A motor vehicle door assembly (12,14), particularly a motor vehicle tailgate assembly or motor vehicle hood assembly, comprising a gas spring assembly (16) as claimed in any one of the preceding claims, wherein in an assembled condition of the automotive door assembly (12,14) the first end (16a) on a motor vehicle door (18) and the second end (16b) is attached to a vehicle body (20) or vice versa. Motor vehicle flap assembly (12, 14) according to Claim 8 characterized by an antenna system (26) integrated into the motor vehicle door assembly (12, 14), wherein in the assembled state of the automotive door assembly (12, 14) the antenna system (26) is above the gas spring assembly (16) is electrically connected to the motor vehicle body (20).

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