WO2022199736A1 - Electrical device - Google Patents

Abstract

The invention relates to an electrical device (10), particularly for an electric vehicle, comprising at least two lines (14a, 14b, 16a, 16b) each of which has an electrical conductor (34a, 34b, 36a, 36b), and at least one crimp connector (18a) having a contact region (28a) and a crimp region (30a). According to the invention two electrical conductors (34a, 34b, 36a, 36b) of the lines (14a, 14b, 16a, 16b) are crimped together in the crimp region (30a) of the crimp connector (18a).

Description

electrical device

The invention relates to an electrical device, in particular for an electric vehicle, with at least two lines, each of which includes an electrical conductor and at least one crimp connector with a contact area and a crimp area. Furthermore, the invention relates to an electric vehicle with a main consumer of electrical energy, a secondary consumer of electrical energy, an energy store and an electrical device which is set up to provide the main consumer and the secondary consumer with electrical energy from the energy store. For a parallel power supply of two units in an electric vehicle, for example an air conditioning compressor and a heater, Y splices are used today, which are housed in a housing. The splices consist of ultrasonically welded cores. Since high voltage is present (usually 400...1000V), the housing must protect against the ingress of dust and water as well as protection against air and creepage distances (short circuit) and against contact. Furthermore, shielded cores are usually used, so that the shielding that is interrupted by the splice must also be bridged. As a result, these housings are very complex and expensive to process. The object on which the invention is based is therefore to simplify electrical devices for the parallel power supply of two units in an electric vehicle.

confirmation copy The object is achieved by an electrical device of the type mentioned at the outset, with two electrical conductors of the lines of the electrical device being crimped together in the crimping area of the crimp connector.

The common crimping of the electrical conductors of the cables eliminates the need for a complex splice connection in the cable harness, so that the parallel power supply of two units in an electric vehicle is considerably simplified. The electrical conductors of the lines are preferably crimped together in the crimping area by means of a crimp sleeve, in particular an open crimp sleeve, of the crimp connector. The open crimp sleeve preferably comprises at least two crimp wings, via which the electrical conductors of the lines are jointly clamped. The contact area of the crimp connector is used to create an electrically conductive contact connection with a connecting line. The two lines can be, for example, two positive pole lines or two negative pole lines. The electrical device according to the invention is further developed advantageously in that the contact area of the crimp connector has a current-carrying capacity that is specific to the contact area. The overall cross-section of the electrical conductors crimped together preferably has a current-carrying capacity specific to the crimp connection. The current carrying capacity specific to the contact area is preferably lower than the current carrying capacity specific to the crimp connection. An energy store is preferably connected to a first line of the lines crimped together. The energy store can be an accumulator or a battery of the electric vehicle, for example. A main consumer is preferably connected to the contact area of the crimp connector, for example via a connector plug. An auxiliary consumer is preferably connected to a second line of the lines crimped together. In the crimping area, the current is divided into a main current, which flows to the main consumer via the contact area, and a secondary current, which flows to the secondary consumer via the second line. The electrical device therefore only has to be approved for the main current and not for the total current made up of the main and secondary currents. The overall cross-section of Electrical conductors that are crimped together must, however, be able to carry the total current from the main and secondary currents.

The electrical device according to the invention is advantageously further developed by a housing, with at least the crimping area of the crimp connector being arranged in the housing. The housing is preferably opposite

Environment sealed, so that at least the crimping area of the

crimp connector is protected from dust and moisture. The housing of the electrical device can be made of metal or plastic, for example. In another preferred embodiment, the electrical device according to the invention has a housing sealing body which seals a housing sealing area between the at least two lines and the housing. The housing sealing body preferably also seals the area between the at least two lines. The housing sealing body is preferably formed in one piece. For example, is the

Housing sealing body formed from a rubber material. The housing sealing body ensures a sealing effect between a

Inner wall of the housing and the at least two lines, so that the housing sealing body implements a multiple seal. Seals using single wire seals are also conceivable (instead of item 26).

In a further preferred embodiment, the electrical device according to the invention has a shielding plate which runs around the at least two lines at least in sections. The shielding plate is preferably made of metal. The shielding plate is preferably pressed onto the at least two lines in a pressing area. The shielding plate can also be pressed onto support sleeves through which the respective lines extend. In the compression area, the shielding plate is preferably a sheet-metal casing that fits tightly against the at least two lines or against the support sleeves located on the lines and surrounds the at least two lines. In a further preferred embodiment, the electrical device according to the invention has a contact carrier. The contact carrier carries the contact area of the crimp connector, with the shielding plate preferably running around the contact carrier. The crimp connector can be fastened or fixed to the contact carrier. The contact carrier can be made of plastic.

In a further preferred embodiment of the electrical device according to the invention, the shielding plate is pressed onto the at least two lines in a pressing area. The shroud preferably has press-in beads which were created during the pressing of the shroud onto the lines. The press-in beads of the shielding plate are the result of plastic deformation of the shielding plate and ensure a press fit between the inner contour of the shielding plate and the cables.

In another preferred embodiment of the electrical device according to the invention, the housing sealing body comprises at least two line passages, one of the at least two lines extending through each line passage. The line passages essentially have the same cross-section as the lines. The inner contour of the cable passages rests against the cables all the way around, so that dust and/or moisture is prevented from entering the housing through the cable passages.

Furthermore, an electrical device according to the invention is advantageous in which the lines each extend through a support sleeve. The support sleeves preferably each run around an outer jacket of the respective lines. Alternatively or additionally, a braided shield of the lines is wrapped around the respective support sleeve. The support sleeves can be pressed with the shielding plate. The support sleeves are required to absorb the compressive force of the shield plate acting radially from the outside to the inside, so that the cables are not crushed. Counter pressure can be built up from the inside via the support sleeves. The individual cores of the braided shield of the cables are preferably folded back and run between the Shield plate and the support sleeve. This has the advantage that, on the one hand, fewer transition points to the shielding plate of the contact carrier are required and, on the other hand, all lines that are pressed together achieve better transition resistance to the shielding plate. In addition, the geometry of the shielding plate can be simplified, since individually pressed support sleeves no longer have to be inserted into different receptacles on the shielding plate of the contact carrier. Rather, the support sleeves can be pressed simultaneously over the shielding plate.

In a preferred embodiment, the electrical device according to the invention has a line support with a plurality of support areas, one line being supported on each support area. The hollow space or free space between the lines is filled by the line support. This allows an even compression over the shield plate. The line support is made of metal, for example. The line support is preferably attached to the contact carrier. The line support can be provided with a bore and plugged onto a mandrel of the contact carrier. The line support can also be made of plastic. The line support can be molded directly onto the contact carrier.

In a further preferred embodiment of the electrical device according to the invention, the support areas of the line support have a curved contact surface which is in planar contact with one of the lines or with a support sleeve running around a line. The contact areas can be in contact with a folded braided shield of the cables. The contact areas are preferably trough-shaped and/or have a counter-contour matching the outer contour of the lines or the outer contour of the support sleeves.

Furthermore, an electrical device according to the invention is preferred in which the cable support is arranged in the compression area. In the compression area, a shield plate is pressed onto the cables. The line support ensures an even pressure distribution during the pressing process, so that damage to the lines due to an inhomogeneous pressure distribution is avoided.

The electrical device according to the invention is further advantageously developed in that the lines having electrical conductors include two positive-pole lines and two negative-pole lines, and the device includes a first crimp connector and a second crimp connector. The first and second crimp connectors each include a contact area and a crimp area. The electrical conductors of the positive pole lines are crimped together in the crimping area of the first crimp connector. The electrical conductors of the negative pole lines are crimped together in the crimping area of the second crimp connector. The electrical device thus implements a positive pole branch and a negative pole branch. Overall, the electrical device thus has four lines and two crimp connectors.

The electrical device according to the invention is further advantageously developed in that the crimping area of the first crimp connector and the crimping area of the second crimp connector are arranged in the housing. Alternatively or additionally, the housing sealing body seals a housing sealing area between the two positive pole lines and the two negative pole lines on the one hand and the housing on the other hand. Alternatively or additionally, the shielding plate runs around the two positive-pole lines and the two negative-pole lines, at least in sections. Alternatively or additionally, the shielding plate is pressed onto the two positive pole lines and the two negative pole lines in the pressing area. Alternatively or additionally, the housing sealing body comprises four line passages, with a positive-pole line extending through each of two line passages and with a negative-pole line extending through each of two line passages. Alternatively or additionally, a positive pole line is supported on each of two support areas of the line support and a negative pole line is supported on each of two support areas of the line support. Thus, the electrical device includes a double crimp construction with the housing sealing body providing a quadruple seal. The line support can, for example, have a diamond-shaped cross-section, so that the line support four Has contact surfaces for supporting the two positive pole lines and the two negative pole lines. The hollow space between the two positive pole lines and the two negative pole lines is filled by a line support with a checkered cross-section. When the shielding plate is pressed, which can cause press-in beads in the shielding plate, all the individual wires of the two positive pole cables and the two negative pole cables are clamped evenly, as they cannot slip into the cavity between the cables or between the support sleeves. In the case of lines with different cross-sections (e.g. for main and side flow), asymmetric compression can be prevented by using support sleeves with different wall thicknesses to compensate for the different line diameters.

The object on which the invention is based is also achieved by an electric vehicle of the type mentioned at the outset, the electrical device of the electric vehicle according to the invention being designed according to one of the embodiments described above. With regard to the advantages and modifications of the electric vehicle according to the invention, reference is made to the advantages and modifications of the electrical device.

Preferred embodiments of the invention are explained and described in more detail below with reference to the accompanying drawings. show:

1 shows an electrical device known from the prior art in a schematic sectional illustration;

2 shows an electrical device according to the invention

a schematic sectional view;

3 shows an electrical device according to the invention in a schematic perspective view;

4 shows an electrical device according to the invention in a schematic side view; 5 shows an electrical device according to the invention in a schematic sectional view;

6 shows a contact carrier of an electrical device according to the invention in a schematic perspective view; and FIG. 7 shows the compression area of an electrical

Device before the pressing of the shielding plate in a schematic sectional view.

1 shows an electrical device 10' from the prior art. The device 10' comprises a housing 12', in which a positive-pole line 14a' is branched off, so that the positive-pole lines 14b', 14c' arise. Furthermore, the negative-pole line 16a' is branched off within the housing 12', so that the negative-pole lines 16b', 16c' are produced. The positive pole lines 14a'-14c' are connected to one another via a splice connection in the splice area 18a'. The negative pole lines 16a'-16c' are connected to one another via a splice connection in the splice area 18b'. The splice connections in the splice areas 18a', 18b' are ultrasonic welds. The positive pole lines 14a'-14c' have braided shields 22a'-22c'. The negative-pole lines 16a'-16c' have braided shields 24a'-24c'. The braided shields 22a'-22c', 24a'-24c' are each folded back, with a shield plate 20' extending over the braided shields 22a'-22c', 24a'-24c' and the splice regions 18a', 18b'.

The housing 12' is in the entry area of the positive pole line 14a' and in the exit areas of the positive pole lines 14b', 14c' via the

Housing sealing body 26a'-26c' sealed. The housing 12' is sealed in the entry area of the negative pole line 16a' and in the exit areas of the negative pole lines 16b', 16c' via the housing sealing bodies 28a'-28c'. An insulating part 30' is located between the positive pole lines 14a'-14c' and the negative pole lines 16a'-16c'.

The branching devices known from the prior art are structurally complex. 2 shows a device 10 according to the invention with a housing 12. The electrical device 10 also includes two positive-pole lines 14a, 14b and two negative-pole lines 16a, 16b.

Furthermore, two crimp connectors 18a are arranged in the housing 12 of the device 10 (the second crimp connector is covered). The crimp connectors 18a have a contact area 28a and a crimp area 30a. The contact area 28a is used to produce an electrically conductive contact connection with a connection line, which leads, for example, to a consumer of electrical energy. The electrical conductors 34a, 34b of the positive pole lines 14a, 14b are crimped together in the crimping area 30a of the first crimp connector 18a. The electrical conductors 36a, 36b (covered) of the lines 16a, 16b are crimped together in the crimping area of the second crimp connector. In the crimping area of the crimp connectors 18a there is in each case a crimp sleeve with two bent crimp wings. The contact areas 28a of the crimp connectors 18a have a contact area-specific current carrying capacity. The overall cross-sections of the electrical conductors 34a, 34b of the positive pole lines 14a, 14b crimped together or of the electrical conductors 36a, 36b of the negative pole lines 16a, 16b crimped together have a current carrying capacity specific to the crimp connection. The current carrying capacity specific to the contact area is lower than the current carrying capacity specific to the crimp connection.

The crimp connectors 18a are arranged in a contact carrier 38 . The contact carrier 38 is surrounded by a shielding plate 20 . The shielding plate 20 is in the area of the folded braided shield 22a, 22b of the positive pole lines 14a, 14b and the folded braided shield 24a, 24b

Negative pole lines 16a, 16b (covered) pressed onto lines 14a, 14b, 16a, 16b.

The electrical device 10 further includes a housing sealing body 26 which seals a housing sealing area between the leads 14a, 14b, 16a, 16b and the housing 12. The case sealing body 26 is off Rubber formed and includes four passages through which the positive pole lines 14a, 14b and the negative pole lines 16a, 16b extend.

The housing 12 is closed with the cap 32 . The cap 32 has four recesses for the positive pole lines 14a, 14b and the negative pole lines 16a, 16b.

As shown in FIG. 3, support sleeves 40a, 40b, 42a, 42b can be arranged in the compression area 46. The positive pole lines 14a, 14b extend through the support sleeves 40a, 40b. The negative pole lines 16a, 16b extend through the support sleeves 42a, 42b. The shielding plate 20 is pressed onto the support sleeves 40a, 40b, 42a, 42b. The braided shields 22a, 22b, 24a, 24b of the positive pole lines 14a, 14b and the negative pole lines 16a, 16b can be located between the support sleeves 40a, 40b, 42a, 42b and the shielding plate 20 (cf. FIG. 7).

In order to press the shielding plate 20 in the pressing area 46 , compressive forces F are to be exerted on the shielding plate 20 . The force can be introduced in such a way that press-in beads 44 result when the shielding plate 20 is pressed. The contour of the shielding plate 20 is adapted to the line contour of the positive pole lines 14a, 14b and the negative pole lines 16a, 16b or the support sleeves 40a, 40b, 42a, 42b positioned on the lines 14a, 14b, 16a, 16b via the press-in beads 44 supports.

4 shows another electrical device 10. To the line 14a of the lines 14a, 14b crimped together, for example, a

Energy storage connected. A main consumer of an electric vehicle can be connected to the contact area 28a via a connector plug. An auxiliary consumer of the electric vehicle is connected to the second line 14b of the lines 14a, 14b that are crimped together. In the crimping area 30a, the current is divided into a main current, which flows to the main consumer via the contact area 28a, and a secondary current, which flows to the secondary consumer via the second line 14b. The electrical device 10 therefore only has to be approved for the main current and not for the total current made up of the main and secondary currents. Of the However, the total cross section of the electrical conductors 34a, 34b crimped together must be able to carry the total current from the main and secondary currents.

FIG. 5 shows that the braided shields 22a, 22b of the positive pole lines 14a, 14b are wrapped around the support sleeves 40a, 40b. The braided shields 24a, 24b (not shown) of the negative pole line 16a, 16b are also folded over support sleeves 42a, 42b. The shield plate 20 is in

Compression area 46 pressed onto the folded braided shield 22a, 22b, 24a, 24b.

6 shows a contact carrier 38 with two receiving areas 52a, 52b. A first crimp connector 18a can be positioned in the receiving area 52a. A second crimp connector can be positioned in the receiving area 52b. The contact carrier 38 is connected to a line support 50 with a plurality of support areas 58a, 58b, 60a, 60b, one of the lines 14a, 14b, 16a, 16b being able to be supported on each support area 58a, 58b, 60a, 60b. The line support 50 has a diamond-shaped cross section, with the support areas 58a, 58b, 60a, 60b having curved contact surfaces, which are each brought into surface contact with a line 14a, 14b, 16a, 16b or a support sleeve 40a, 40b, 42a, 42b be able. The line support 50 is connected to the carrier housing of the contact carrier 38 via a mandrel 48 .

FIG. 7 shows a section through a compression area 46 of a device 10. A line support 50 is arranged centrally in the compression area 46. FIG. The braided shields 22a, 22b, 24a, 24b of the positive pole lines 14a, 14b and the negative pole lines are located in the support areas 58a, 58b, 60a, 60b

16a, 16b on the line support 50. The braided shields 22a, 22b, 24a, 24b are wrapped around the outer jackets 54a, 54b, 56a, 56b of the positive pole lines 14a, 14b and the negative pole lines 16a, 16b and around the support sleeves 40a, 40b, 42a, 42b. The respective conductors 34a, 34b, 36a, 36b run in the center of the positive pole lines 14a, 14b and the negative pole lines 16a, 16b. The checkered cross-section of the cable support 50 leads to a homogeneous force distribution when pressing the shielding plate 20.

Reference sign

10' device

12' housing 14a'-14c' positive pole leads

16a'-16c' negative pole lines 18a', 18b' splice areas

20' shroud

22a'-22c' braided shields 24a'-24c' braided shields

26a'-26c' case sealing body 28a'-28c' case sealing body 30' insulation part

10 device

12 housing

14a, 14b positive pole lines

16a, 16b negative pole lines

18a crimp connector

20 shroud

22a, 22b braided shields

24a, 24b braided shields

26 case sealing body

28a contact area

30a crimping area

32 cap

34a, 34b conductors

36a, 36b conductors

38 contact carrier

40a, 40b support sleeves

42a, 42b support sleeves

44 press-in beads

46 compression area 48 Thorn

50 line support

52a, 52b receiving areas 54a, 54b outer jacket 56a, 56b outer jacket 58a, 58b support areas 60a, 60b support areas

F compressive force

Claims

Expectations

1. Electrical device (10), in particular for an electric vehicle, with at least two lines (14a, 14b, 16a, 16b), which each comprise an electrical conductor (34a, 34b, 36a, 36b); and at least one crimp connector (18a) having a contact area (28a) and a crimp area (30a); characterized in that two electrical conductors (34a, 34b, 36a, 36b) of the lines (14a, 14b, 16a, 16b) are crimped together in the crimping area (30a) of the crimp connector (18a).

2. Electrical device (10) according to claim 1, wherein the contact area (28a) of the crimp connector (18a) has a contact area-specific current carrying capacity and the total cross section of the jointly crimped electrical conductors (34a, 34b, 36a, 36b) has a crimp connection-specific current carrying capacity, characterized in that that the current carrying capacity specific to the contact area is lower than the current carrying capacity specific to the crimp connection.

3. Electrical device (10) according to claim 1 or 2, characterized by a housing (12), wherein at least the crimping area (30a) of the crimp connector (18a) is arranged in the housing (12).

4. Electrical device (10) according to claim 3, characterized by a housing sealing body (26) which seals a housing sealing area between the at least two lines (14a, 14b, 16a, 16b) and the housing (12).

5. Electrical device (10) according to any one of the preceding claims, characterized by a shielding plate (20) which runs around the at least two lines (14a, 14b, 16a, 16b) at least in sections.

6. Electrical device (10) according to claim 5, characterized by a contact carrier (38) which carries the contact area (28a) of the crimp connector (18a), the shielding plate (20) preferably running around the contact carrier (38).

7. Electrical device (10) according to claim 5 or 6, characterized in that the shielding plate (20) is pressed onto the lines (14a, 14b, 16a, 16b) in a pressing region (46).

8. Electrical device (10) according to one of claims 4 to 7, characterized in that the housing sealing body (26) comprises at least two line passages, one of the at least two lines (14a, 14b, 16a, 16b) extending through each line passage.

9. Electrical device (10) according to one of the preceding claims, characterized in that the lines (14a, 14b, 16a, 16b) each extend through a support sleeve (40a, 40b, 42a, 42b), the support sleeves (40a , 40b, 42a, 42b) around an outer casing (54a, 54b, 56a, 56b) of the respective lines (14a, 14b, 16a,

16b) and/or a braided shield (22a, 22b, 24a, 24b) of the lines (14a, 14b, 16a, 16b) is wrapped around the respective support sleeve (40a, 40b, 42a, 42b).

10. Electrical device (10) according to one of the preceding claims, characterized by a line support (50) with a plurality of support areas (58a, 58b, 60a, 60b), one of the lines ( 14a, 14b, 16a, 16b).

11. Electrical device (10) according to claim 10, characterized in that the support areas (58a, 58b, 60a, 60b) of the line support (50) have a curved contact surface which is in each case flat with one of the lines (14a, 14b, 16a, 16b) or is in contact with a support sleeve (40a, 40b, 42a, 42b) surrounding a line.

12. Electrical device (10) according to claim 10 or 11, characterized in that the line support (50) is arranged in the compression region (46).

13. Electrical device (10) according to any one of the preceding claims, characterized in that the electrical conductors (34a, 34b, 36a, 36b) having lines (14a, 14b, 16a, 16b) two positive pole lines (14a, 14b) and two negative pole lines (16a, 16b) and the device (10) comprises a first crimp connector (18a) and a second

A crimp connector (18a), wherein the first crimp connector (18a) and the second crimp connector (18a) each include a contact area (28a) and a crimp area (30a); characterized in that the electrical conductors (34a, 34b) of the positive pole lines (14a, 14b) together in the crimping area (30a) of the first

Crimp connector (18a) are crimped and the electrical conductors (36a, 36b) of the negative pole lines (16a, 16b) are crimped together in the crimp area (30a) of the second crimp connector (18a).

14. Electrical device (10) according to claim 13, characterized in that the crimping area (30a) of the first crimping connector (18a) and the crimping area of the second crimping connector are arranged in the housing (12); and/or - the housing sealing body (26) seals a housing sealing area between the two positive pole lines (14a, 14b) and the two negative pole lines (16a, 16b) on the one hand and the housing (12) on the other hand; and or the shielding plate (20) runs around the two positive pole lines (14a, 14b) and the two negative pole lines (16a, 16b) at least in sections; and/or the shielding plate (20) in the compression area (46) on the two positive pole lines (14a, 14b) and the two negative pole lines (16a,

16b) is pressed; the housing sealing body (26) comprises four line passages, a pole line (14a, 14b) extending through each of two line passages and a negative pole line (16a, 16b) extending through each of two line passages; and/or one positive pole line (14a, 14b) is supported on two support areas (58a, 58b) of the line support (50) and one negative pole line (16a , 16b) is supported.

15. Electric vehicle, with a main consumer of electrical energy; a secondary consumer of electrical energy; - an energy store; and an electrical device (10) which is set up to provide the main consumer and the secondary consumer with electrical energy from the energy store; characterized in that the electrical device (10) is designed according to one of the preceding claims.