EP3084887A1

EP3084887A1 - Control device comprising a low-resistance electrical connection

Info

Publication number: EP3084887A1
Application number: EP14789814.2A
Authority: EP
Inventors: Udo Hennel; Georg Meincke
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2013-12-16
Filing date: 2014-10-23
Publication date: 2016-10-26
Anticipated expiration: 2034-10-23
Also published as: CN105830280B; DE102013226106A1; EP3084887B1; WO2015090688A1; CN105830280A

Abstract

The invention relates to a control device (1) for a motor vehicle, in particular a motor vehicle comprising an electric drive, comprising a housing (2) which encloses a cavity (3), wherein the control device (1) has a power apparatus (4) arranged in the cavity (2), in particular an inverter. A housing wall (21) of the housing has an aperture (5). An electrical connection (6) of the control device (1) is passed through the aperture (5) and has an electrically conductive sleeve (7) and a bolt (8). The sleeve (7) is electrically connected detachably to the power apparatus (4). The bolt (8) is passed through the sleeve (7) and is designed to hold an end section (10) of an electrical connection cable (9) fixedly and to press the end section against a sleeve end, in the form of an end face (15, 16), of the sleeve (7) and thus to connect the electrical connection cable (9) to the connection (6).

Description

description

title

Control unit with a low-resistance electrical connection

State of the art

The invention relates to a control device for a motor vehicle, in particular a motor vehicle with an electric drive. The control unit has a housing, wherein the housing encloses a cavity. The control unit also has an electrical power device, in particular an inverter, which is arranged in the cavity.

In the control device, a housing wall of the housing has an opening, wherein an electrical connection of the control device is guided through the opening, in particular from the outside into a housing interior of the housing.

Disclosure of the invention

According to the invention, the electrical connection of the control device of the type mentioned at the beginning has an electrically conductive sleeve and a bolt. The sleeve is electrically connected to the electrical device, in particular the inverter in particular separable, wherein the bolt is guided through the sleeve and is adapted to hold an end portion of an electrical connection cable and to press the end portion against an end face formed as the sleeve end of the sleeve and the electrical Connection cable to connect with the connection. By means of the electrical connection of the control device designed in this way, the inverter can advantageously be connected to the connecting cable in a particularly low-impedance manner. Advantageously, by means of the bolt such a high contact pressure against the electrically conductive sleeve can be generated that between the end portion of the electrical connection cable, which is formed for example by a cable lug, in particular a fork-shaped or eye-shaped cable lug, an almost full-surface or completely full-surface by means of the pressing generated galvanic contact between the terminal formed as a cable lug of the cable and the sleeve can be generated. It has been recognized that an electrical galvanic connection, in particular an electrical connection produced by contacting two contacts, increases at a high contact pressure of the contacts, a conductance of the compound, as with increasing contact pressure, the effective contact surface of a common connection of the contact surfaces of the contacts Case of the connection increases the end face of the sleeve and the cable lug, and so decreases an ohmic contact resistance of the contact.

Thus, furthermore, an electrical power loss generated at the electrical connection during operation of the inverter, in which, for example, currents of several hundred amperes flow via the connection, can be kept small.

The electrical power device, in particular the inverter, is designed to be supplied with electrical energy on the input side via the electrical connection.

The inverter is designed to generate an AC voltage from a DC voltage and preferably has a semiconductor switch half-bridge, for example B6 bridge or H-bridge. The semiconductor switch is preferably a field-effect transistor, for example a MOS-FET (MOS-FET = metal oxide field effect transistor).

Advantageously, the controller is a component of an electric drive for an electric vehicle, wherein the drive comprises an electric machine, which is connected to the controller and can be energized by the controller. Advantageously, an electric vehicle to the aforementioned drive.

Other advantageous embodiments of a power device are a high-performance battery, in particular accumulator, a switch, in particular semiconductor switches or relays for switching a current of at least 100 amperes.

Preferably, the electrical connection is a screw connection which is designed to be screw-connected to the connection cable.

Preferably, the bolt on a pressing device and is adapted to press the end portion of the connecting cable, in particular the aforementioned cable lug, against the end face of the sleeve. The pressing device of the bolt is preferably designed as a thread, wherein the pressing device has a screw element which is designed to connect to the thread and which is designed to engage in the thread in a screwing manner and press the end section against the end face in a form-locking and / or non-positive manner.

The thread is preferably an external thread or an internal thread. The thread is for example a left-handed thread or right-handed thread.

In the case of the external thread, the pressing device can advantageously have a screw nut as a screw element, so that the end section of the cable can be advantageously screw-connected to the electrical connection in a simple manner. In this case, the bolt is set when tightening the nut under tension, whereas the sleeve which surrounds the bolt is placed under compressive stress. The nut and the end face of the sleeve thereby close the end section, in particular the cable lug of the connection cable, between one another. The thread of the bolt is formed in the other embodiment as an internal thread. Thus, the end portion of the connecting cable can advantageously be pressed by means of a screw against the end face of the sleeve.

Preferably, a thread size of the screw is at least metric five to ten millimeters, in particular five, six, eight or ten millimeters. For example, a tightening torque of the screw connection is between 10 and 50 Newton meters depending on the aforementioned thread diameter.

Preferably, the bolt is positively connected to the sleeve, in particular in the region of an end portion of the sleeve facing the housing interior. For this purpose, the bolt can have, for example, a screw head which can engage behind the sleeve, in particular an end face, which forms an end of the sleeve opposite the connecting cable, in a form-fitting manner.

In another embodiment, the pressing device has an eccentrically mounted lever, wherein the lever is connected to the bolt by means of a pivot joint. The lever is designed to press the end portion pivotally against the end face of the sleeve. By virtue of the lever pivotably mounted in this way, the end section can advantageously be separably connected to the connection by merely pivoting the lever.

In a preferred embodiment, the sleeve is formed as a hollow cylinder. Thus, the sleeve can advantageously be low-cost, for example by drilling, turning or pulling provided.

More preferably, the bolt is cylindrical at least on a longitudinal section. As a result, a screw thread at an end portion of the bolt can be produced by turning or threading a low cost. In a preferred embodiment, the sleeve - in particular along a longitudinal extent from the front side to a sleeve end inside the device - a greater electrical conductivity, as the bolt.

More preferably, the bolt has a greater tensile strength along its longitudinal extent than the sleeve. Thus, advantageously, an electrical contact low-current loss over the sleeve from the terminal to the inside of the device, and there, for example, to the inverter, are performed. The tension-resistant bolt advantageously has the effect that the pressing device can press the end section against the-preferably better than the bolt-electrically-conductive sleeve with a high contact pressure, without tearing it off.

In a preferred embodiment of the control device, the sleeve is a copper sleeve, in particular of electrolytic copper. The bolt preferably comprises iron and is more preferably a steel bolt, a stainless steel bolt or a bolt made of a material having a tensile strength higher than that of copper. Thus, advantageously, the electric current can be conducted through the sleeve, which is formed from a metal which has a good electrical conductivity, wherein the tensile strength of the sleeve material for producing the sufficiently good press connection is not required, insofar as the task of pressing, under ready Position of high tensile strength, is provided by the bolt, in particular a steel bolt.

In a preferred embodiment, the bolt protrudes with at least one end portion of the sleeve, wherein the bolt has at the protruding end portion of the pressing device. More preferably, the pressing device is arranged at the protruding end portion, or in the case of the aforementioned lever, coupled. Thus, it is advantageous to generate a high pressing force on the end face of the sleeve from the end section protruding from the sleeve.

In a preferred embodiment, the sleeve is encased, at least on a longitudinal section guided through the housing wall, with a plastic insulation, more preferably into a plastic insulation forming the plastic insulation. coat embedded. Particularly preferably, the sleeve is encapsulated at least on the longitudinal section with the plastic insulation.

More preferably, the sleeve has at least one opening into which the plastic material of the plastic insulation extends into the interior of the sleeve and is designed to seal the sleeve against the bolt. Thus, the connection can be advantageously protected against penetrating moisture. Further advantageously, the sleeve is rotatably connected to the plastic insulation.

In the case of a housing of the controller as a plastic housing, the sheath may be formed by a plastic wall of the plastic housing. The sleeve may be for example injected into the plastic wall or passed through an opening in the plastic wall.

By means of the electrical connection of the control device designed in this way, the control device can advantageously be protected very well against ingress of moisture in the region of the connection.

Preferably, the sleeve is configured to deform radially outwardly in a barrel shape when compressed along the longitudinal axis. Thus, advantageously, a seal against the housing wall when pressing or screwing the connection cable to the electrical connection can be supported.

Further advantageously, the plastic insulation causes an electrical insulation of the sleeve of the housing, in particular the housing wall.

The invention also relates to a method for connecting a cable end section to an electrical connection of a control device.

The electrical connection has an electrically conductive sleeve. In the method, the sleeve is guided through an opening through a housing wall, and the cable end portion is guided by means of a bolt guided through the sleeve. gene pressed one end face of the sleeve, and so generates an electrical contact between the cable end portion and the end face of the sleeve.

The inverter is preferably designed to energize an electrical machine of the motor vehicle for rotating a rotor of the electric machine. In addition to the inverter, the control unit may have at least one control device which is designed to control electrical components of the motor vehicle, for example a lighting system, windscreen wipers, door lock, power windows, driver assistance systems such as anti-lock braking system, lane departure warning system, parking aid or other electrical components.

The invention will now be described below with reference to further embodiments. Further advantageous embodiments will become apparent from the features of the figures and the dependent claims.

Figure 1 shows an embodiment of a control device in which an electrical connection is guided by means of a copper sleeve and a pressing device comprising a bolt through a housing wall of the control unit;

Figure 2 shows the electrical connection shown in Figure 1 in an exploded view;

FIG. 3 shows a variant of the connection shown in FIG. 1, in which the bolt has a head and an internal thread as pressing device.

Figure 1 shows schematically an embodiment of a control unit 1 in a sectional view. The control unit 1 has a housing 2. The housing 2 encloses a cavity 3, in which an inverter 4 is arranged as an electric power device.

The housing 2 also has an opening 5 in a housing wall 21 of the housing 2, wherein an electrical terminal 6 in the opening 5 ange- is orders. The opening 5 is shown in more detail in Figure 2 in connection with an exploded view of the electrical connection 6.

The electrical connection 6 comprises in this embodiment an electrically conductive sleeve 7, which is formed in this embodiment as a copper sleeve. The electrical connection 6 also includes a bolt 8, which is formed in this embodiment as a steel bolt. The bolt 8 is arranged in a cavity enclosed by the sleeve 7 and is enclosed by the sleeve 7 at least along a longitudinal section along a longitudinal axis 30 of the bolt 8.

The bolt 8 has a pressing device, wherein the pressing device comprises an external thread 12, which is formed on an end portion of the bolt 8, which projects beyond a formed by an end face 15 of the sleeve 7 sleeve end. The pressing device comprises in this embodiment, a lock nut 1 1, which has an internal thread formed to the thread 12 and which is adapted to be screwed to the bolt 8, and screw-connected to the bolt 8 an end portion 10 of a connecting cable 9 against the end face 15 of the sleeve 7 to press.

The end portion 10 of the longitudinal section shown connecting cable 9 is formed in this embodiment by an O-shaped cable lug, which is designed to pass through the end portion of the bolt 8 with the thread 12.

The bolt 8 has in this embodiment also has a ring-shaped web 23, which extends radially outward and which is adapted to press in the interior of the sleeve 7 against a sleeve wall of the sleeve 7 and so a - especially for molding compound dense - press fit produce. The bolt 8 is thus positively connected to the sleeve 7. The bolt 8 also has an end portion with the thread 12 facing away from the end portion with a thread 14 which projects out of the sleeve 7 and into the cavity 3.

The end portion with the thread 14 is formed to be screw-connected with a lock nut 13 and forms together with the lock nut 13, a pressing device which is adapted to press a bus bar 25 against an end face 16 of the sleeve 7. The end face 16 of the sleeve 7 forms an end opposite to the end formed by the end face 15 of the sleeve. 7

The sleeve 7 is in this embodiment in a plastic sheath 17, hereinafter also called plastic sheath, arranged. The sleeve 7 is embedded in the plastic sheath 17 and enclosed by the plastic sheath 17 at least on a longitudinal section. The sleeve 7 protrudes with the end faces 15 and 16 out of the plastic jacket 17 so that the busbar 25 can be pressed against the end face 16 and the cable lug 10 against the end face 15.

In this exemplary embodiment, the sleeve 7 also has radially inwardly extending openings, which are filled with plastic material 20. The plastic material 20 is formed for example on the plastic shell 17 and is penetrated when Ummolden or encapsulation of the sleeve 7 with plastic material in the openings up to the bolt 8. The bolt is so sealed by means of the plastic material 20 against the sleeve 7, so that moisture can not penetrate through the terminal 6 into the interior of a device with the connection.

The electrical connection 6 also has an elastically formed seal 22, which in this embodiment is designed as a sealing ring which is arranged in a groove of the plastic jacket 17. The seal 22 is formed and arranged to seal the plastic jacket 17 against the housing wall 21 of the housing 2. The plastic jacket 17 also has a molded on the plastic sheath 17 and extending radially outward Be mounting flange 18 on. The mounting flange 18 has an opening, in particular a bore for performing a fastening screw 19, so that the plastic jacket 17 of the terminal 6 can be screw-connected by means of the fastening screw 19 with the housing wall 21 and there with a corresponding threaded hole.

The bolt 8 also has a radially outwardly extending annular ridge 24, which is designed to produce a press fit with the sleeve 7. The sleeve 7 has for this purpose a radially inwardly extending web, or at least one projection region, which is designed to be pressed together with the web 24 of the bolt 8, wherein the web 24 is formed, along the longitudinal axis 30 against the radially inwardly extending web of the sleeve 7 to strike positively.

FIG. 2 shows the electrical connection 6 shown in FIG. 1 in an exploded view along the longitudinal axis 30. Shown is the lock nut 1 1, which is designed to be screwed to the thread 12 of the bolt 8 and together with the thread 12 forms a pressing device, wherein the pressing device is designed to press a cable lug, for example, the cable lug 10 shown in Figure 1, against the end face 15 of the sleeve 7. Shown are also already shown in Figure 1, radially inwardly extending openings in the sleeve 7, of which an opening 27 is exemplified.

The bolt 8 has in this embodiment, along the longitudinal extent of the bolt 8 between the web 23 and the web 24 arranged polygonal section 28. The polygonal section 28 is formed in this embodiment by a hexagonal portion which is hexagonal in cross-section of the bolt 8. The polygonal section 28 can be embedded in the encapsulation of the sleeve 7 with plastic material from the plastic material which can penetrate through the apertures as the opening 27 in the interior of the sleeve 7 and fill a extending between the pin 8 and the inner wall of the sleeve 7 cavity , In this exemplary embodiment, like the polygonal section 28, the web 24 is polygonal, in particular square in cross-section or hexagonal shaped, so that the bolt 8 passes through the sleeve 7 and against the radially inwardly extending web 24 - in particular around the longitudinal axis 30 - rotatably connected to the sleeve 7 can be connected. The sleeve 7 is by means of recesses or openings in breakthroughs 27 penetrated molding compound, which forms the plastic material 20 after curing, rotatably connected to the plastic shell 17.

Shown is also the seal already shown in Figure 1 22, which can be inserted in this embodiment as an elastically formed sealing ring in a groove 29. The groove 29 is formed in the plastic sheath 17 and extends radially inwardly toward the longitudinal axis 30.

The electrical connection 6, which comprises in this embodiment, the lock nut 13, the seal 22, the plastic sheath 17, the sleeve 7, the bolt 8 and the lock nut 1 1 is formed, passed through the opening 5 in the housing wall 21 and in the Breakthrough 5 to be arranged.

The electrical connection 6, in particular the plastic casing 17, is formed with the seal 22, to seal against the housing wall 21, so that no dirt or moisture can penetrate into the cavity 3 of the housing 2 shown in FIG.

Advantageously, the sleeve 7 when screwing the locknuts 1 1 and 13 along the longitudinal axis 30 compressed and thus deformed barrel-shaped radially outward. Thus, a mutually different temperature expansions of the sleeve 7 and the plastic sheath 17, with temperature fluctuations possibly resulting gap between the sleeve 7 and the plastic sheath 17 can be avoided, since the sleeve 7 can press the plastic sheath 17 during barrel-like Verstauchen radially outwardly. The plastic sheath 17 is formed for example by a thermoplastic. Advantageous plastics for plastic coating 17 are, for example, polypropylene, PPA (PPA = polyphthalamide), ABS (ABS = acrylonitrile-butadiene-styrene), polyamide, PLA (PLA = poly-lactide-acid), PMMA (PMMA = poly-methyl-meth Acrylate), PET (PET = poly-ethylene terephthalate) or polystyrene.

FIG. 3 shows an exemplary embodiment of an electrical connection 50 which, instead of the electrical connection 6, can be realized on the control device 1 in FIG.

The connection 50 has a sleeve 7, which is designed like the sleeve 7 in FIG. The terminal 50 also has a longitudinally extending, cylindrically-shaped bolt 40 having a head 41 formed on the bolt 40. The head 41 is formed when pressing the bolt 40 through the sleeve 7 to press the bus bar 25 positively against the end face 16. For this purpose, the head 41 has a greater radial extent than the bolt 40. The bolt 40 has in the region of an end remote from the head 41 an opening formed as a blind hole 46 in which an internal thread 44 is formed. The longitudinal extension of the bolt 40 does not project beyond the longitudinal axis 30 of the end face 15 or the cable lug 10, so that a screw 43 can be screwed into the blind hole 46 and with a screw head 42 can positively press the cable lug 10 of the connecting cable 9 against the end face 15.

The bolt 40 has a radially outwardly extending seal 47, in particular an annular elastomeric seal, which is designed to seal the bolt against an inner wall of the sleeve 7.

The electrical connection 50 has a plastic jacket 45 which encloses the sleeve 7 along its longitudinal extent along the longitudinal axis 30.

Claims

claims

1 . Control unit (1) for a motor vehicle, comprising a housing (2), wherein the housing (2) encloses a cavity (3), wherein the control unit has an electrical power device (4), in particular an inverter, arranged in the cavity (3), and a housing wall (21) of the housing (2) has an opening (5), wherein an electrical connection (6) of the control device (1) is guided through the opening (5),

characterized in that

the electrical connection (6) has an electrically conductive sleeve (7) and a bolt (8), wherein the sleeve (7) is separably electrically connected to the power device (4), the bolt (8) passing through the sleeve (7) is guided and adapted to hold one end portion (10) of an electrical connection cable (9) and to press the end portion (10) against an end face (15, 16) formed sleeve end of the sleeve (7), and the electrical connection cable (9) to connect with the connector (6).

2. Control device (1) according to claim 1,

characterized in that

the bolt (8, 50) has a pressing device (1 1, 12, 13, 14, 43, 44) which is designed to clamp the end section (10) of the connection cable (9) against the end face (15, 16) of the sleeve (7 ) to press.

3. Control device (1) according to claim 1 or 2,

characterized in that the pressing device of the bolt (8) has a thread (12, 14, 44) and a screw element which is designed to engage in a threaded manner in the thread and to press the end section against the end face in a form-locking and / or non-positive manner.

4. Control device (1) according to claim 3,

characterized in that

the thread (12, 14, 44) is an external thread (12, 14) or an internal thread (44).

5. Control device according to one of the preceding claims,

characterized in that

the sleeve (7) is formed as a hollow cylinder.

6. Control device according to one of the preceding claims,

characterized in that

the sleeve (7) in particular along a longitudinal extension (30) of the sleeve (7) has a greater electrical conductivity than the bolt (8, 40).

7. Control device (1) according to one of the preceding claims,

characterized in that the sleeve (7) is a copper sleeve and the bolt (8) is an iron-containing bolt.

8. Control device (1) according to one of the preceding claims,

characterized in that

the bolt (8) projects out of the sleeve (7) with at least one end section and has the pressing device (12, 13) on the protruding end section.

9. Control device (1) according to one of the preceding claims,

characterized in that

the sleeve (7) is encased with a plastic insulation (17) at least on a longitudinal section guided through the housing wall (21), the sleeve (7) having at least one opening (27) into which the plastic material (20) the plastic insulation (17) extends into the interior of the sleeve and is designed to seal the sleeve (7) against the pin (8).

10. A method for connecting a cable end section (10) to an electrical connection (6, 50) of a control device,

wherein the electrical connection (6, 50) has an electrically conductive sleeve (7), which is guided through a housing wall (21) through an opening (5), and the cable end section (10) by means of a bolt guided through the sleeve (7) (8) against an end face (15) of the sleeve (7) is pressed, and so an electrical contact between the cable end portion (10) and the end face (15) of the sleeve (7) is generated.