阅读说明：本技术 用于控制器的、适合于与该控制器的线路基座进行电气的外部接触的壳体框架 (Housing frame for a control unit, suitable for making electrical external contact with the circuit base of the control unit ) 是由 R·约瑟姆 U·特雷舍 S·巴德 O·希利 于 2019-07-22 设计创作，主要内容包括：本发明涉及一种用于控制器(5、6)的壳体框架(10、11),所述控制器(5、6)用于操控电机(1),其中所述壳体框架(10、11)具有至少一根用于与所述控制器(5、6)的线路基座(30)进行电接触的连接销(20)。本发明的一个方面在于,所述连接销(20)具有连接脚(21)并且如此被插入所述壳体框架(10、11)中,使得所述连接销(20)能够在连接脚(21)处借助于激光束焊接与所述线路基座(30)电连接。此外,本发明涉及一种具有按本发明的壳体框架(10、11)的控制器(5、6)、一种具有按本发明的控制器(5、6)的电机(1)以及一种用于将所述壳体框架(10、11)的连接销(20)与控制器(5、6)的线路基座(30)电连接起来的方法。(The invention relates to a housing frame (10, 11) for a control unit (5, 6), which control unit (5, 6) is used to actuate an electric machine (1), wherein the housing frame (10, 11) has at least one connecting pin (20) for making electrical contact with a circuit base (30) of the control unit (5, 6). One aspect of the invention is that the connecting pin (20) has a connecting foot (21) and is inserted into the housing frame (10, 11) in such a way that the connecting pin (20) can be electrically connected to the circuit mount (30) at the connecting foot (21) by means of laser beam welding. The invention further relates to a control unit (5, 6) having a housing frame (10, 11) according to the invention, to an electric machine (1) having a control unit (5, 6) according to the invention, and to a method for electrically connecting a connecting pin (20) of the housing frame (10, 11) to a circuit base (30) of the control unit (5, 6).)

1. Housing frame (10, 11) for a control unit (5, 6) for controlling an electric machine (1), wherein the housing frame (10, 11) has at least one connecting pin (20) for making electrical contact with a circuit base (30) of the control unit (5, 6),

it is characterized in that the preparation method is characterized in that,

the connecting pin (20) has a connecting foot (21) and is inserted into the housing frame (10, 11) in such a way that the connecting pin (20) can be electrically connected to the circuit mount (30) at the connecting foot (21) by means of laser beam welding.

2. The housing frame (10, 11) as claimed in claim 1, characterized in that the connecting pin (20) has a resiliently designed section (22).

3. The housing frame (10, 11) as claimed in claim 2, characterized in that the resiliently embodied section (22) of the connecting pin is configured in an L-shape or an S-shape.

4. The housing frame (10, 11) according to claim 2 or 3, characterized in that the cross-sectional area of the connecting pin (20) in the elastically formed section (22) is at least partially smaller than outside the elastically formed section (22).

5. The housing frame (10, 11) according to any one of claims 2 to 4, characterized in that the connection foot (21) is formed at a predetermined angle (24) with respect to a main extension plane (13) of the housing frame (10, 11).

6. Controller (5, 6) for controlling an electric machine (1), wherein the controller (5, 6) has a line base (30) and a housing frame (10, 11) according to one of claims 1 to 5, wherein a connection foot (21) of the connection pin (20) is electrically connected to the line base (30) by means of laser beam welding.

7. Controller (5, 6) according to claim 6, characterized in that the circuit base (30) is constructed as a DBC substrate.

8. Electric machine (1) with a controller (5, 6) according to claim 7.

9. Method for electrically connecting a connection pin of a housing frame (10, 11) according to one of claims 1 to 5 with a line base (30) of a controller (5, 6), characterized by at least the following method steps:

a. -providing a line base (30) of the housing frame (10, 11) according to any of claims 1 to 5 and the controller (5, 6) arranged on a cooling body (40);

b. pressing the housing frames (10, 11) along a direction (15) perpendicular to a main plane of extension (13) of the housing frames (10, 11) onto a heat sink (40) of the control unit (5, 6) in such a way that a connection pin (21) plane of the connection pin (20) rests on the circuit mount (30) parallel to a main plane of extension (33) of the circuit mount (30);

c. and carrying out laser beam welding on the connecting pin (22) and the circuit base (30).

10. Method according to claim 9, characterized in that the line base (30) provided in method step a is configured as a DBC substrate.

Technical Field

The invention relates to a housing frame for a control unit for controlling an electric motor, wherein the housing frame has at least one connecting pin for making electrical contact with a circuit base of the control unit.

Background

Until now, the contacting with the line base has typically been carried out by means of ultrasonic pressure welding of an aluminum thick or thin strip to the line base, which is then, for example, led to the outside for electrically connecting the line base to further external components.

Disclosure of Invention

The invention relates to a housing frame for a control unit for controlling an electric motor, wherein the housing frame has at least one connecting pin for making electrical contact with a circuit base of the control unit.

By "housing frame" is meant an element that forms at least a part of a controller for operating the motor. The housing frame is formed here substantially from plastic. "essentially formed from plastic" here again means that the housing frame is predominantly of plastic and only slightly, for example in the range of a percentage of the single digit, has one or several materials different from plastic. These materials other than plastic can be impurities, for example. However, the material other than plastic can also be added in a targeted manner for influencing properties such as flexibility or durability. However, it is also conceivable that the housing frame additionally has a glass fiber filler, which can particularly preferably form a proportion of up to 30% of the housing frame.

"connecting pin" means a structural element which is capable of conducting electrical current and which serves to electrically connect other, different structural elements to one another. In this case, this can be, for example, a connection between an electronic component of the controller and an electrical energy source, which is arranged, for example, outside the controller.

One aspect of the invention is that the connecting pin has a connecting foot and is inserted into the housing frame in such a way that it can be electrically connected to the line base at the connecting foot by means of laser beam welding.

It is advantageous here that fewer positions are required at the respective electrical connection points on the line base for the laser beam welding connection than for the pressure welding connection. In this way, the circuit base can either be selected to be smaller or, in the case of the same function, more components can be mounted on the circuit base than before.

In one embodiment of the housing frame according to the invention, it is provided that the connecting pin has a resiliently embodied section.

It is advantageous here that, once the housing frame is installed in the control unit, a force acts on the connection foot by means of the resilient action, which presses the connection foot against the circuit mount. The laser beam welding connection can then be easily realized by means of such a force without the connecting pin having to be additionally mechanically fixed to the line base. A further advantage is that, for a control unit with a corresponding housing frame, thermomechanical stresses during operation of the control unit can be compensated for by the resilient action of the connecting pin. Thereby, the durability of the electrical connection of such a connection pin and thus the durability and reliability of the controller are also extended.

According to one embodiment of the housing frame according to the invention, it is provided that the elastically formed section of the connecting pin is L-shaped or S-shaped.

It is advantageous here that this represents a simple possibility for achieving the resilient action of the connecting pin.

According to one embodiment of the housing frame according to the invention, it is provided that the cross-sectional area of the connecting pin in the elastically formed section is at least partially smaller than outside the elastically formed section.

It is advantageous here that a particularly good spring action can be achieved. This is particularly suitable for connecting pins which only have to conduct small currents.

According to one embodiment of the housing frame according to the invention, it is provided that the connecting feet are formed at a predetermined angle to the main plane of extension of the housing frame. In this case, it is advantageous if a corresponding angle is present in the uninstalled state of the housing frame, but once the housing frame is installed in the control unit, the connection feet can be placed in a plane-parallel manner on the connection base due to the spring effect and, furthermore, a corresponding force acts on the connection feet, which mechanically secures the connection feet for the purpose of subsequently enabling them to be laser-beam welded without complications.

The "main plane of extension of the housing frame" here refers to the upper side of the housing frame. This upper side is parallel to the main extension plane of the line base and to the main extension plane of the heat sink if the housing frame is mounted in the control unit.

The invention further relates to a control unit for controlling an electric machine, wherein the control unit has a circuit base and a housing frame according to the invention, wherein the connecting feet of the connecting pins are electrically connected to the circuit base by means of laser beam welding.

The controller according to the invention is used to control and operate the electric machine accordingly.

The line base and the housing frame are typically arranged on a heat sink. By "cooling body" is meant an element that is capable of dissipating heat generated by the controller to the environment. In this case, the heat is typically generated by electronic components arranged on the circuit board of the controller. For the purpose of dissipating heat, the heat sink can additionally have cooling channels on its underside, for example.

According to one embodiment of the housing frame according to the invention, the circuit mount is designed as a DBC substrate. It is advantageous here that, in contrast to ultrasonic bonding, particularly if the connecting pin is likewise formed substantially from copper, no additional surface coating of the DBC substrate or connecting pin is required by the laser beam welding. The production of the control device is thereby simplified and, in addition, the costs are reduced.

"DBC substrate" refers in the construction and connection technology to a structure that enables a tight electrical/thermal connection of electronic components and chips through copper.

The invention further relates to an electric machine, in particular an electric motor, having a controller according to the invention. An "electric motor" is understood here to mean, for example, an alternating current machine, such as, for example, a synchronous machine or an asynchronous machine.

The invention further relates to a method for electrically connecting a connecting pin of a housing frame according to the invention to a circuit base of a control unit.

Drawings

Fig. 1 shows a cut-out of a first exemplary embodiment of a housing frame according to the invention in a perspective view.

Fig. 2 shows a section through the housing frame according to fig. 1.

Fig. 3 shows a section through a control device according to the invention with a housing frame according to the invention according to fig. 1 or 2.

Fig. 4 shows a cut-out of a second exemplary embodiment of a housing frame according to the invention in a perspective view.

Fig. 5 shows a section through the housing frame according to fig. 4.

Fig. 6 shows a section through a control device according to the invention with a housing frame according to the invention according to fig. 4 or 5.

Fig. 7 shows a perspective view of a schematically illustrated embodiment of an electric machine according to the invention with a control device according to the invention.

Fig. 8 shows a method for electrically connecting the connecting pins of the housing frame according to the invention to the circuit base of the control unit.

Detailed Description

Fig. 1 shows a cut-out of a first exemplary embodiment of a housing frame according to the invention in a perspective view. A housing frame 10 is shown. The connection pin 20 is inserted into the housing frame 10. This connecting pin 20 is designed as a signal pin 27. "signal pin 27" refers to an element through which an electrical signal can be conducted. These electrical signals are in the form of currents, wherein the current or voltage on the signal pin 27 is typically small. The current strength of the signal pin 27 is therefore less than 1A, typically even only a few mA large. The current intensity of the power pin 25 can be about 100A, wherein typically 80 to 110A are applied in a pulsed manner for a short time.

The connecting pin 20 has a resiliently embodied section 22, which is configured in an S-shape. Furthermore, the connecting pin 20 has a connecting foot 20, at which the connecting pin 20 can be electrically connected to a not shown line base 30 by means of laser beam welding. Furthermore, it can be seen that the cross-sectional area of the connecting pin 20 in the elastically designed section 22 is at least partially smaller than outside the elastically designed section 22, in particular at the connecting foot 21 of the connecting pin 20.

Fig. 2 shows a section through the housing frame according to fig. 1.

The section plane runs here perpendicularly along the section line a-a' shown in fig. 1.

The housing frame 10 with the connecting pins 20 embodied as signal pins 27 is also shown. It can be seen here that the connecting feet 21 of the connecting pins 20 are spaced apart from the main plane of extension 13 of the housing frame 10 by a predetermined angle 23. This angle 23 is produced when the connecting pin 20 of the housing frame 10 is not connected to the line base 30 and thus the connecting pin 20 is not yet resilient.

Fig. 3 shows a section through a control device according to the invention with a housing frame according to the invention according to fig. 1 or 2. A control unit 5 is shown, which has a heat sink 40, a circuit mount 30 and a housing frame 10 according to fig. 1 or fig. 2. The housing frame 10 is pressed onto the heat sink 40 in such a way that the plane of the connecting feet 21 of the elastically formed connecting pin 20 rests on the circuit mount 30 parallel to the main plane of extension 33 of the circuit mount 30. The housing frame 10 has been pressed onto the heat sink in a direction 15 perpendicular to the main plane of extension 13 of the housing frame 10. The housing frame 10 can in this case be fixed to the heat sink 40, optionally by means of a rivet connection, not shown. The housing frame 10 and its connecting pins 20 are designed in such a way that the connecting feet 10 of the connecting pins 20 rest on the circuit base 30 in a plane-parallel manner and a force 16 is generated by the elastically designed sections 22 in a direction 15 perpendicular to the main plane of extension 13 of the housing frame 10, which presses the connecting feet 21 against the circuit base. Furthermore, the connection feet 21 are electrically connected to the line base 30 by means of a laser beam welding connection 24. This makes it possible, for example, to electrically connect other electronic components or energy sources, which are not illustrated, to the circuit base 30 by: the end of the connecting pin 20 opposite the connecting foot 21 is correspondingly guided to the outside and can be contacted.

In comparison with fig. 2 and 3, it can be seen that the connecting feet 21 have a corresponding vertical distance for the unmounted housing frame 10 according to fig. 2 from the plane of the housing frame 10 on the heat sink for the mounted housing frame 10 according to fig. 3, which is smaller than the vertical distance between the plane of the housing frame 10 on the heat sink for the mounted housing frame 10 according to fig. 3 and the upper side of the circuit mount 30. By configuring the connecting pin 20 and the housing frame 10 such that a difference is produced between the uninstalled and the installed housing frame 10 at a nominal vertical distance, a spring action of the connecting pin 20 occurs in the elastically formed section 22 when the housing frame 10 is installed in the control unit 5.

Fig. 4 shows a cut-out of a second exemplary embodiment of a housing frame according to the invention in a perspective view. A housing frame 11 is shown. The connecting pin 20 is in turn inserted into the housing frame 11. This connecting pin 20 is designed as a power pin 25. The power pin 25 is a connecting pin 20 through which a current with a significantly higher current intensity than the signal pin 27 can flow. The connecting pin 20 again has a resiliently embodied section 22, which is however configured in an L-shape in comparison to the signal pin 27. Furthermore, the connecting pin 20 has a connecting foot 21, at which the connecting pin 20 can be electrically connected to a not shown line base 30 by means of laser beam welding.

Fig. 5 shows a section through the housing frame according to fig. 4.

The section plane runs here perpendicularly along the section line B-B' shown in fig. 4.

The housing frame 11 with the connecting pin 20 embodied as a power pin 25 is also shown. It can be seen here that the connecting feet 21 of the connecting pins 20 in turn extend at a predetermined angle 23 to the main plane of extension 13 of the housing frame 11. This angle 23 is produced when the connecting pin 20 of the housing frame 11 is not connected to the line base 30.

Fig. 6 shows a section through a control device according to the invention with a housing frame according to the invention according to fig. 4 or 5. A control unit 6 is shown, which has a heat sink 40, a line base 30 and a housing frame 11 according to fig. 4 or 5. The configuration of the control unit 6 according to fig. 6 corresponds substantially to the configuration of the control unit 5 according to fig. 3 and differs only in that the slightly differently configured connecting pin 20 is configured as a power pin 25 in the control unit 6 according to fig. 6 and not as a signal pin 27 as in the control unit 5 according to fig. 3.

Fig. 7 shows a perspective view of a schematically illustrated embodiment of an electric machine according to the invention with a control device according to the invention.

An electrical machine 1 is shown. This electric machine 1 can be designed, for example, as an electric motor and in particular as a synchronous machine or an asynchronous machine and thus forms an alternating current machine. The electric machine 1 has controllers 5, 6. The control units 5, 6 in turn have a heat sink 40 and a plurality of circuit bases 5, 6. The line mount 30 is designed here as a DBC substrate. Furthermore, the control unit 5 has a housing frame 10, 11. The housing frames 10, 11 in this case have a plurality of connecting pins 20 which are in part designed, for example, as signal pins 27 according to fig. 1 to 3 or also as power pins 25 according to fig. 4 to 6 and are correspondingly electrically connected to a line base 30 by means of laser beam welding. The circuit mount 30 is in turn equipped, by way of example, with electronic components 35, which are embodied, for example, as bare-chip components 35, which electronic components 35 can be, for example, capacitors, semiconductor switches, coils, sensors or energy stores for enabling corresponding electronic circuits for controlling and operating the electric machine 5. The electronic component 35 can thus be electrically contacted from outside the controllers 5, 6 via the connecting pin 20.

Fig. 8 shows a method for electrically connecting the connecting pins of the housing frame according to the invention to the circuit base of the control unit.

At the beginning of the method, the housing frames 10, 11 according to the invention are provided in method step a, for example, according to fig. 1 and 2 or also according to fig. 4 and 5. Furthermore, a line base 30 arranged on the heat sink 40 is provided in method step a. The circuit mount 30 can be designed as a DBC substrate.

In method step b, the housing frames 10, 11 are then pressed onto the heat sink 40 of the control unit 5, 6 in a direction 15 perpendicular to the main plane of extension 13 of the housing frames 10, 11 in such a way that the plane of the connecting feet 21 of the connecting pins 20 rests on the circuit mount 30 parallel to the main plane of extension 33 of the circuit mount 30. In particular, the housing frames 10, 11 and their connecting pins 20 are designed in such a way that, in addition to the planar parallel placement of the connecting feet 21 on the circuit mount 30, a force 16 acts on the connecting feet 21 in a direction 15 perpendicular to the main plane of extension 33 of the circuit mount 30 due to the elastically designed sections 22, said force pressing the connecting feet 21 onto the circuit mount 30. Subsequently, in method step c, laser beam welding of the connection foot 22 to the circuit mount is carried out for producing a laser beam welded connection 24, which enables an electrical connection between the circuit mount 30 and the connection pin 20.