EP1032082A2 - Device for cable feed-through - Google Patents

Abstract

The cable gland (1) has a gland element inserted in an opening in the wall of the transmission housing, fitted with an electrical insulation element (9), receiving the individual cable elements (6.1,6.2) of each electrical cable (7.1,7.2). Each of the cable elements is split into 2 sections within the insulation element, with the ends of the cable element sections joined together via crimp connections.

Description

The invention relates to a device for implementing cables a transition of cables from one with lubricant or the like least partially filled or containing residues and by a Housing at least partially enclosed space outside the room, for example one adjacent to the housing Space or the environment.

A large number of electrical plug connections are generally known, by means of which, for example, the transition between a transmission and a vehicle can be accomplished. Always one in particular a larger number of actuators and sensors in the gearbox always requires one larger number of plug contacts. Due to the rule provided spatial limitation due to the limited availability standing space, the distance between the individual poles of the Plug contacts become less and less. The occurrence of leakage currents and thus the falsification of measurement results is supported. At the Inserting a connector can also cause a lack of visual Check for an oblique touchdown and thus one Bend the contacts come. There is another major problem in that a gearbox with a residue of Lubricant-filled space deals, from which cable elements after outside the gearbox. To the required tightness too reach, the sockets used are therefore complex reworked, e.g. the resulting gaps with epoxy resin be poured out. There are also high demands on the size of the Installation space and special customer requirements a variety of a wide variety of connector types and thus ultimately also Transmission variants. Another major disadvantage is that the high gearbox temperatures occurring during operation Lead the connector area to damage the vehicle insulation can. To avoid this, the vehicle wiring harness, i.e. the Cable harness located outside the gearbox interior with a high temperature resistant insulation. Because the cables usually have considerable lengths, this requirement is always an enormous one Associated costs.

The invention is therefore based on the object of a device for Cable routing, in particular to implement the transition between a transmission and a vehicle to find which the above Avoids disadvantages. The focus is on the procurement of a In terms of cost and effort, an alternative with a high cost Operational safety.

The solution according to the invention is characterized by the feature of claim 1 characterized. Advantageous embodiments are in the subclaims described.

According to the invention, the device for cable entry comprises Realization of a transition of cables from one with lubricants or similar least partially filled or containing residues and at least partially enclosed space area by a housing an area outside of this room a through opening having transition element with an arranged in this Insulating body made of electrically non-conductive material for carrying out the individual cable elements of a cable. Each cable element is in the Area of the insulating body is divided and executed by the division of the Cable element in at least two sub-elements generated end areas coupled to each other in the insulating body via a crimpable coupling.

The inventors have recognized that this causes problems are that the wires of the individual cables with their plugs at the conventional solutions to implement the transition from the gearbox are constantly surrounded by oil after a location in the vehicle. By the Then capillary effect usually occurs between the isolation of the Single wire and the wire strands up to the pin contact ÖI, then between this and the associated insulating body to the outside reach. With the solution according to the invention, however, it is possible to completely prevent capillary action. By creating a Cable tail, which protrudes from the gearbox, it is possible to Technically end of the cable tail with considerably less effort Install an outlet or other fasteners. The The installation location is outside the danger zone.

The crimpable coupling is realized in that the individual strands or cable elements of a cable by dividing the cable element form a cable element end in the area of the transition element, are electrically coupled to one another via so-called crimp contacts. The Coupling takes place in the area of the insulating body. This is preferably off Rubber or other insulating material. The insulating body enables the implementation of the routing of the individual cable elements compliance with the required distance between the individual coupled strands to each other.

The crimpable coupling is positive and / or non-positive and / or cohesively connected to the insulating body. The insulating body itself is either stored in the transition element or forms an integral with it Unit.

The transition element is preferably designed like a bush. This in the simplest case has an essentially tubular cross section.

On the outer circumference of the transition element are preferably flange-like Extensions are provided, which the realization of the attachment to the Allow housing, especially the gear housing.

The transition element, which is preferably designed like a bush, forms with its in the installed position to the space enclosed by the housing indicative end face and the insulating body a first space and its front facing away from the interior enclosed by the housing and the insulating body a second space. These spaces can be of different sizes. Both are preferred Interspaces filled with a potting compound. The potting compound enables the individual cable elements to be kept at a distance from each other Transition area and a guide for the individual cable elements.

The transition element is preferably designed such that this one enables essentially straight guidance of the individual cable elements. However, designs in curved shape are also conceivable, which one Allow change of direction in the routing of the individual cable elements.

To realize a sealing function between that of housing enclosed space and the insulating body is the first space preferably poured out with a thin plastic.

Furthermore, the space enclosed by the housing is preferred opposite end face coupled with a cable tie. That points to socket-like element in the area of the space enclosed by the housing facing end face preferably a half-shell-shaped contour Take up the cable tie.

To improve the adhesion of the casting compounds in the spaces the inner walls of the socket-like element are preferably with grooves or other bumps. To heat up avoid, materials are used as a potting compound, the one have the same possible expansion coefficient.

The transition element can also be used with a the transition element be coupled to the load-bearing element. This one, which carries the transition element Element is designed for attachment to the housing. There is also Possibility to design the element carrying the transition element in such a way that this is used to guide other cables or cable elements. The transition element preferably forms the supporting element and the Transition element with the crimpable coupling of the strands Cable element ends of a structural unit, which is offered pre-assembled can be. In this case, so-called Cable tails are provided, which are connected to other coupling elements a place away from the transition area where the occurring Temperatures and conditions do not have any special requirements the insulation of the cable put coupled with other cable elements can be.

In addition to independence, the solution according to the invention enables Isolation from the temperatures occurring during operation better meet higher customer requirements for the insertion location ensure that no variants for different gearboxes different applications are required because with one Cable entry many different connection options are guaranteed.

The solution according to the invention is described below with reference to figures explained.

Fig. 1 illustrates an embodiment of an axial section Cable bushing 1 designed according to the invention for realizing the Transition between a transmission not shown here and a Vehicle which avoids that by the capillary effect oil between the insulation of a single wire and the wire strands up to Piece contact can creep and then between this and his Insulator can get outside. The cable bushing 1 has socket-like element 3, which receives a connector 2. The socket-like element 3 is preferably designed as a tubular and provided with a flange-like extension 4, which accommodates Connecting elements for coupling the socket-like element 3 with allows a housing part or other.

A plug connection 2 is integrated in the socket-like element 3. The Plug connection comprises the coupling of strands 5 of a plurality Cable elements 6.1 to 6.n a variety of cables 7.1 to 7.n. Only that individual cable elements 6.1 to 6.n of the individual cables 7.1 to 7.n. become passed through the socket-shaped element 3 and on the vehicle side Page preferably continued together in a cable harness 8.

An insulating body 9 is provided in the socket-like element 3. in the Insulating body 9, the individual interconnected strands 5 in so-called coupling area 10 through the insulating body 9 to required Kept at a distance from each other. The individual strands of the cable elements 6.1 to 6.n of the individual cables 7.1 to 7.n are terminated with a Crimpable coupling connected. The crimpable coupling is here at 11 designated. The contact between the gearbox-side strands 5.a and the vehicle-side strands 5.b. The Crimpable coupling 11 is in through openings 12, which are in the installed position of the socket-shaped element 3 from the gearbox side facing end face 13 of the insulating body 9 up to that of the vehicle side facing end face 14 extend on the insulating body 9 realized. The Guiding the individual cable elements 6.1 to 6.n through the insulating body thus takes place through the through openings 12. Everyone is Cable element 6.1 to 6.n of each cable 7.1 to 7.n a corresponding one Assigned through opening 12. The arrangement of the through openings 12 can be done differently. Furthermore, the training of Through opening viewed in the axial direction in the installed position be executed differently. Preferably, one is parallel to each other Execution of the through holes 12 to each other in the insulating body sought, preferably the shortest way of performing is chosen.

The insulating body 9 itself consists of an electrically non-conductive Material, preferably made of rubber or another insulating material. The Insulating body 9 can be a separate component in socket-shaped element 3 be stored or form a structural unit with it. The for Gear-side-facing space within the socket-shaped element 3, which is designated here by 15 and / or the one facing the vehicle Space, i.e. the between the insulating body 9 and the end face 17 of the socket-shaped element 3 is formed and is designated 16 here can be poured out with a plastic. The socket-shaped element 3, which forms the housing for the cable bushing, is preferably in two sub-areas can be subdivided into a first sub-area 3.1 and one second section 3.2. The first section 3.1 encloses in essentially the transmission-side space 15, while the second section 3.2 encloses the vehicle-side space in the circumferential direction. Preferably the insulating body 9 is arranged in the transmission-side space 15. There outside of units in the vehicle, the individual cables 7 to 7.n usually in so-called cable harnesses or cable harnesses 8 are guided, the Cable bushing 1 in the area of the second part 3.2 or Front side 14 of the socket-shaped element 3, which is the vehicle side facing means on which can accommodate a cable tie. This supports one, the individual cable elements 6.1 to 6.n of the individual Cable 7.1 to 7.n enclosing fabric hose 18. Preferably the housing wall 20 of the socket-shaped element 3 is used for this purpose. This is viewed on the side facing the vehicle, in the installed position, executed such that this has a substantially half-shell-shaped contour or recess 21 for receiving the cable tie. The for The area of the tubular element 3 facing the vehicle side is closed this purpose in the direction of the axis of symmetry of the socket Element 3 S pulled. Figure 1b illustrates a view I-I corresponding to Figure 1a, from which the essentially half-shell-shaped recess for receiving a cable tie can be seen becomes. This part can, as shown in Figures 1a and 1b, part of the socket-shaped element 3 or from a separate one Component are formed. The recess for receiving a Cable tie-carrying element 21 is also a device for Fixing the position of the cable harness 8, here designated 22, assigned. The corresponding anchoring device is in one in FIG. 1c View II-II according to Figure 1a in a schematic simplified representation shown.

During assembly, the fabric hose 18, which is the cable harness forms or encloses the individual cables 7.1 to 7.n, held until this is poured into the cavity 16 with the sealing compound and thus Becomes part of the cable entry. Preferably one Improvement of the anchoring of the plastic in the housing or on bush-shaped element 3 this provided with grooves. Around To avoid thermal stress, a potting compound is used, which consists of a material that is compatible with the housing material or the material of the socket-shaped element 3 is as similar as possible Has coefficient of expansion.

FIG. 2 illustrates the procedure of FIG Establishing the connector 2. In a first step, the individual cables 7.1 to 7.n in the area of the cable entry separated from each other in the housing so that the individual wires 6.1.1 and 6.1.2 or 6.n.1 to 6.n.2 arise. These single wires are then stripped. The restoration of a possible electrical connection then takes place via a so-called crimp coupling. So-called Crimp contacts 25 used. These are preferably in the form of sleeves Executed elements with a partition 26. For this purpose are each two recesses machined into the sleeve-shaped element, a first Recess 27 and a second recess 28. In this recess 27 and 28 are the strands of the individual cable elements 6.1 to 6.n, which are designated 5 here. It is preferably on it ensured that the exposed strands 5 completely in crimp contact and so that they are integrated in the sleeve-shaped element 25. In the following Method step, the strands 5 of the first single wire 6.a with the Crimped contact crimped. The next step is the second Single wire of the cable element 7 struck in the crimp contact and also crimped with this. These three operations are repeated always according to the required number of cable elements. The single ones Cable elements 7.1 to 7.n are in this way one after the other Insulating body 9 mounted until the crimp contact is fixed in the same. The Fixing the individual crimp contacts 25 in the insulating body 9 can by force and / or positive engagement. These include, for example individual recesses in the insulating body 9 with corresponding Dimensions provided that allow a specific fit with the To make crimp contact. Another option is to use the Fixing cohesively by the individual cable elements 7.1 to 7.n be embedded in the tubular element by means of potting compound and this potting compound thus indirectly the location of the crimp contacts in Insulating body 9 fixed.

The tubular element 3 alone is ideal for Cable lead-through of cables 7.1 to 7.n. At Summary of the individual cable elements 6.1 to 6.n of the individual Cables 7.1 to 7.n, the feed to the cable duct 1 being off different directions is preferably provided for example as shown in Figure 1a, another with the tubular element 3 coupled element 30 to use, which a Guide for a cable connection 31 includes. This element 30 can can also be designed in many forms. In the case shown, a Another cable 7.3, which is perpendicular to the other two cables 7.1 and 7.2 runs, the cable duct 1 fed. The feed takes place up to the area of the cable entry in a vertical manner and is only deflected in this area by approximately 90 ° and the tubular element fed.

The other Figures 3 to 5 illustrate other possible embodiments of the tubular element or the cable bushing 1 and / or the Insulating body 9. The basic structure corresponds essentially to that in the Figure 1 described. For the same elements, therefore, the same Reference numerals used.

In Fig. 3, the tubular element is also in two sub-elements 3.1 and 3.2 divided which different outside and inside diameters exhibit. The insulating body is in the transition area between the arranged in two sections. The cable routing between the gearbox and the vehicle side is essentially horizontal. In contrast the cable bushing shown in FIG. 4 has a curvature 35 on which a change of direction between the cable feed in experiences socket-like element by a certain angle. Are conceivable in addition to the then preferred version of 90 ° also other angles. In in both embodiments according to Figures 3 and 4, the insulating body as separate components inserted into the socket-like element. In both Cases are preferably the socket-like elements with an im provided essentially circular cross-section.

In contrast, Figure 5 discloses an embodiment in which the Insulating body is formed by the housing or the socket-like element 3.

Figure 6 shows a further embodiment of the vehicle-side connected Cable harness 8, which is guided in a guide element 36, the force and / or is positively connected to the socket-shaped element. The specific design is at the discretion of the person responsible Professional.

The outside of the vehicle, for example, a transmission module Arranged cable tail, which from the harness 8 or harness is preferably formed so long that the further vehicle-side cables can be coupled at one point can, at which the occurring temperatures no particular Make demands on the insulation of the individual cables. this makes possible it that all requirements regarding the insertion location with this Execution can be covered, so that no additional variants required are.

The embodiments shown in Figures 1 to 6 represent only are preferred versions, but do not limit the scope of protection solution according to the invention. The possibility of cable entry in accordance with the embodiments shown in Figures 1 to 6 a simple and inexpensive variant. Their design and Sizing is neither from the location of the cable entry to be implemented depending on the implementation of the coupling between the Cable elements or the cable tail on the vehicle side and the vehicle-side cable elements. With a cable duct between The transmission and vehicle are isolated by the leakage of oil due to the capillary effect between the insulation of the single wire and avoided the wire strands up to the support contact. The capillary Effect is created by the deliberately installed separation point in the cable element and the realized electrical coupling via a crimp contact avoided.

Claims (13)

Device for cable lead-through for realizing a transition of cables from a room area at least partially filled with lubricant or similar or containing residues and at least partially enclosed by a housing to the outside of the room area 1.1 with a transition element having a through opening; 1.2 with an arranged in the transition element and consisting of electrically non-conductive material insulating body for the passage of individual cable elements of a cable; 1.3 each cable element is designed to be divided in the region of the insulating body and the ends produced by division are electrically coupled to one another in the insulating body by means of a crimpable coupling. Apparatus according to claim 1, characterized in that the Crimpable coupling of the individual cable ends of a cable element is positively connected to the insulating body. Device according to one of claims 1 or 2 thereby characterized that the crimpable coupling of the individual Cable ends of a cable element cohesively with the insulating body connected is. Device according to one of claims 1 to 3, characterized characterized in that the transition element is a socket-like designed housing. Device according to one of claims 1 to 4, characterized by the following features: 5.1 the crimpable coupling comprises at least one crimp contact which is assigned to the stripped and mutually facing ends of a cable element; 5.2 the crimp contact is positively and / or non-positively and / or cohesively connected to the insulating body. Device according to one of claims 1 to 5, characterized by the following features: 6.1 the end face of the transition element facing the housing area and the insulating body and / or the end face of the transition element facing away from the housing area each form an intermediate space; 6.2 the space formed by the end face of the transition element facing the space area and / or the space formed by the end face of the transition element facing away from the space area is filled with casting compound. Device according to one of claims 1 to 6, characterized characterized in that the transition element outside of the by the Housing enclosed space area is assigned a cable holder. Apparatus according to claim 7, characterized in that the Cable holder in the area enclosed by the housing facing end of the transition element is arranged. Device according to one of claims 1 to 8, characterized characterized in that the socket-like element at least one tubular element with a connecting flange for attachment to the Housing includes. Device according to one of claims 1 to 9, daduch characterized in that the transition element is a linear guide of the cable elements by design free of curvatures. Device according to one of claims 1 to 9, characterized characterized in that the transition element one of a rectilinear guidance in the transition area deviating guidance of the Cable elements provided by at least one curvature enables. Device according to one of claims 1 to 11, characterized characterized in that the transition element with one that Transition element carrying element is coupled and that Transitional element bearing element with the spatial area at least partially enclosing housing can be coupled. Apparatus according to claim 12, characterized in that the Transition element bearing element as a guide element for at least one cable is running.

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