CN109274315B

CN109274315B - Motor controller fuse box support

Info

Publication number: CN109274315B
Application number: CN201811197813.9A
Authority: CN
Inventors: 雷莹
Original assignee: Dongfeng Hangsheng Wuhan Automotive Control System Co ltd
Current assignee: Dongfeng Hangsheng Wuhan Automotive Control System Co ltd
Priority date: 2018-10-15
Filing date: 2018-10-15
Publication date: 2023-09-29
Anticipated expiration: 2038-10-15
Also published as: CN109274315A

Abstract

The invention discloses a motor controller fuse box support which is characterized by comprising a base, wherein a first installation area for installing a plurality of transversely arranged high-voltage wires is arranged on the base, second installation areas for installing a fuse box are arranged on two transverse sides of the first installation area, and a third installation area for vertically inserting a plurality of copper bars is arranged on one side of the base; the third installation area comprises a plurality of vertical inserting grooves which are insulated with each other, and a supporting table for supporting the copper bars which are output in multiple directions is arranged on one side edge of the base adjacent to the third installation area. The invention ensures that the high-voltage wire harnesses and the high-voltage copper bars are orderly arranged, and the overall aesthetic property and consistency are greatly improved; the space size is fully utilized, and the space waste caused by random layout of high-voltage wire harnesses and high-voltage copper bars is greatly reduced; after the installation, all the copper bars, the wire harnesses and the fuse boxes are not shielded, so that the connection state of all the parts can be clearly observed, and the routine maintenance and repair are facilitated.

Description

Motor controller fuse box support

Technical Field

The invention relates to internal space arrangement of a motor controller, in particular to a motor controller fuse box support.

Background

In recent years, environmental protection has put higher demands on automobiles, and new energy pure electric passenger automobiles have been generated. The motor controller is a main core component of the electric automobile, is limited by the use environment, is required to be high in reliability and high in energy-to-volume ratio, and is required to be as small as possible in the motor with the same power output; meanwhile, since electric automobiles are mass-produced, the assembly of internal components of the motor controller is required to be suitable for mass production, and the motor controller is required to be internally modularized, compact in arrangement structure, convenient to install and detach and the like.

The existing high-voltage distribution inside the controller has a certain randomness, the layout of the fuse box, the high-voltage wiring harness and the high-voltage copper bar is not considered from an integral angle, the assembly and the disassembly are more troublesome, and the insulation requirement of the controller is more difficult to realize in a limited space size. The Chinese patent application with publication number of CN 105207540A discloses an internal arrangement structure of a switch reluctance motor controller of an electric vehicle, copper bars are horizontally arranged, and because a certain insulation distance is needed between the copper bars, the controller needs to occupy a larger space in the horizontal direction, and a fuse box and a high-voltage wire harness are not arranged in the patent document, so that additional space is needed for continuously installing the fuse box and the high-voltage wire harness, the compact design is lacked, stray inductance is larger, the modularized design requirement cannot be met, and the internal space of the controller is more wasted and is not suitable for batch production.

Therefore, a motor controller fuse box support for realizing reasonable layout of high-voltage wire harnesses and high-voltage copper bars while supporting the fuse box is required to be developed, so that the three are assembled compactly and have insulation and consistency.

Disclosure of Invention

The invention aims to solve the defects of the background technology, and provides a motor controller fuse box support for realizing reasonable layout of high-voltage wire harnesses and high-voltage copper bars while supporting a fuse box, so that the three fuse box support is integrally and compactly assembled and has insulation and consistency.

The technical scheme of the invention is as follows: the motor controller fuse box support is characterized by comprising a base, wherein a first installation area for installing a plurality of transversely arranged high-voltage lines is arranged on the base, second installation areas for installing a fuse box are arranged on two transverse sides of the first installation area, and a third installation area for vertically inserting a plurality of copper bars is arranged on one side of the base;

the third installation area comprises a plurality of vertical inserting grooves which are insulated with each other, and a supporting table for supporting the copper bars which are output in multiple directions is arranged on one side edge of the base adjacent to the third installation area.

Preferably, a plurality of high-voltage wire harness connecting holes are formed in the first installation area at intervals, and a plurality of high-voltage wire harness buckles are arranged at intervals and correspond to the high-voltage wire harness connecting holes, a supporting surface lower than the top surface of the high-voltage wire harness connecting holes is arranged in the first installation area, and the high-voltage wire harness buckles are located on the supporting surface.

Further, a fuse box mounting hole and a locating pin are longitudinally arranged in the second mounting area, and the second mounting area does not exceed the position of the high-voltage wire harness connecting hole longitudinally.

Further, the third mounting region is located on a lateral side of the base opposite to the first mounting region and adjacent to the high voltage harness connection hole, and a fourth insulating region is provided between the third mounting region and the first mounting region to isolate the third mounting region from the first mounting region.

Further, the vertical insertion groove in the third installation area has no top and is provided with a side opening facing to one lateral side, the side openings of the adjacent vertical insertion grooves are arranged at different lateral sides, and a spacing groove for insulating and isolating the adjacent vertical insertion grooves is arranged between the adjacent vertical insertion grooves.

Further, the supporting bench comprises a first supporting bench and a second supporting bench which are arranged at intervals, the second supporting bench is located at a position far away from the third installation area, the end part of the second supporting bench is provided with a second limiting protrusion, and the transverse two sides of the first supporting bench and the transverse inner side of the second supporting bench are provided with a first limiting protrusion.

Further, be equipped with the first copper bar with a plurality of high-voltage harness connecting holes transverse connection in the first installation region and offer the mounting hole that corresponds with high-voltage harness connecting hole on the first copper bar, a plurality of high-voltage harnesses pass through mounting hole, high-voltage harness connecting hole and high-voltage harness buckle assembly in the first installation region, be equipped with on the first copper bar and extend to the outside first engaging lug of third installation region.

Further, the vertical insertion groove comprises a first insertion groove and a second insertion groove which are arranged from inside to outside, the first insertion groove is provided with a second copper bar with multidirectional output, the second copper bar comprises a vertical copper bar section and a horizontal copper bar section which are connected, the vertical copper bar section is provided with a plurality of second vertical connecting lugs which extend out of the third installation area, and the horizontal copper bar section is positioned on the supporting table and transversely extends outwards at the end part far from the third installation area to form a second horizontal connecting lug;

the second insertion groove is internally provided with a third copper bar, the third copper bar is provided with a third connecting lug extending out of the third installation area, and the first connecting lug, the second vertical connecting lug and the third connecting lug are arranged at intervals along the side edge where the third installation area is located.

Furthermore, the second installation area is correspondingly installed and connected with two sides of the safe box, the safe box is concaved upwards at the first installation area to form an isolation cavity, a fourth copper bar extending from one side of the safe box, which is transversely far away from the supporting table, is arranged in the safe box, and a fourth connecting lug connected with the second vertical connecting lug is arranged on the fourth copper bar.

The invention also provides a motor controller which comprises any motor controller fuse box support.

The beneficial effects of the invention are as follows:

1. the high-voltage wire harness, the fuse box and the copper bars are assembled in an integrated manner through three independent installation areas on the support, so that the high-voltage wire harness is orderly arranged, the fuse box is erected above the high-voltage wire harness, the plane space inside the support is saved, a plurality of copper bars are assembled integrally through a plurality of vertical inserting grooves formed in one side of the support, the required space is extremely small, the copper bars are assembled and disassembled very conveniently, and the insulation requirements between the high-voltage copper bars are met in the limited space through the arrangement of the spacing grooves. Supporting the copper bar of multidirectional output through the brace table, the copper bar installation of various shapes of being convenient for improves the flexibility that the inside high pressure of support was arranged.

2. The high-voltage wire harness is clamped into the high-voltage wire harness buckle during installation, the end part is fixed on the high-voltage wire harness connecting hole, the supporting surface lower than the top surface of the connecting hole prevents the high-voltage wire harness from being higher than the end part at the buckle part, so that the high-voltage wire harness is clung to the plane where the top surface is located as much as possible, and the assembly state is stable and consistent.

3. The wire harness passes from the one end that is close to high-voltage wire harness buckle in the first installation region, and the one end that the wire harness passed is avoided in the third installation region, sets up in the other end that is close to high-voltage wire harness connecting hole, has avoided producing the interference between copper bar and the wire harness, and the fourth insulation region carries out the safety insulation with between the copper bar of high-voltage wire harness and the installation of third installation region, has both made things convenient for the arrangement of the first copper bar of connecting the high-voltage wire harness on the first installation region, makes its safety insulation be connected with support outside spare again.

4. The second installation area is longitudinally not more than the high-voltage wire harness connecting hole of the first installation area, namely, the end part of the high-voltage wire harness is connected and then positioned outside the fuse box, so that the installation state of the high-voltage wire harness can be conveniently observed at any time.

5. The first limiting bulge and the second limiting bulge on the first supporting table and the second supporting table limit the horizontal movement of the copper bar with multidirectional output, and the extension of the connecting lugs on the copper bar with multidirectional output is not influenced.

6. The invention ensures that the high-voltage wire harnesses and the high-voltage copper bars are orderly arranged, and the overall aesthetic property and consistency are greatly improved; the space size is fully utilized, and the space waste caused by random layout of high-voltage wire harnesses and high-voltage copper bars is greatly reduced; after the installation, all the copper bars, the wire harnesses and the fuse boxes are not shielded, so that the connection state of all the parts can be clearly observed, and the routine maintenance and repair are facilitated.

Drawings

FIG. 1 is a schematic diagram of a motor controller fuse box support structure according to the present invention

FIG. 2 is a schematic view of the installation of a high voltage harness on a motor controller fuse box support of the present invention

FIG. 3 is a schematic view of a fuse box and a fourth copper bar

FIG. 4 is a diagram of high voltage wiring harness, fuse box and copper bar parts on the motor controller fuse box support of the present invention

FIG. 5 is a schematic diagram of the assembly of a high voltage wiring harness, a fuse box and a copper bar on a fuse box support of a motor controller according to the present invention

Fig. 6 is a top view of a high voltage harness and fuse box assembly on a motor controller fuse box support of the present invention

Wherein: 1-a first installation area 2-a second installation area 3-a third installation area 4-a vertical insertion slot 5-a spacing slot 6-a supporting table 7-a high-voltage harness 8-a fuse box 9-a fourth insulation area 10-a base 11-a high-voltage harness connecting hole 12-a high-voltage harness buckle 13-a supporting surface 14-a first copper bar 15-a second copper bar 16-a third copper bar 17-a fourth copper bar 18-a mounting platform 41-a first insertion slot 42-a second insertion slot 61-a first supporting table 62-a second supporting table 63-a first limiting protrusion 64-a second limiting protrusion 81-a separation cavity 141-a mounting hole 142-a first connecting lug 151-a vertical copper bar segment 152-a horizontal copper bar segment 153-a second vertical connecting lug 154-a second horizontal connecting lug 161-a third connecting lug 171-a fourth connecting lug.

Detailed Description

The invention is illustrated in further detail by the following specific examples.

As shown in fig. 1-6, the motor controller fuse box support provided by the invention comprises a base 10, wherein a first installation area 1 corresponding to a plurality of high-voltage wire bundles 7 which are transversely arranged is arranged on the top surface of the base 10, second installation areas 2 corresponding to a fuse box 8 are arranged on two transverse sides of the first installation area 1, and a third installation area 3 for vertically inserting a plurality of copper bars is arranged on one side edge of the base 10; the third installation area 3 comprises vertical insertion grooves 4 which are arranged outwards in sequence, and spacing grooves 5 for isolating adjacent vertical insertion grooves 4 are arranged between the adjacent vertical insertion grooves; a supporting table 6 for supporting the copper bar which is outputted in multiple directions is arranged on one side edge of the base 10 adjacent to the third installation area 3, and the top surface of the supporting table 6 is higher than the top surface of the base 10. In this embodiment, the transverse direction is the length direction of the base, the horizontal direction is the width direction of the base in fig. 6, the vertical direction is the up-down direction in fig. 6, and the upper end is the rear end of the base 10 in fig. 6, and the lower end is the front end of the base 10.

The first installation area 1 is internally provided with a plurality of high-voltage wire harness connecting holes 11 which are transversely arranged at intervals, and a plurality of high-voltage wire harness buckles 12 which are transversely arranged at intervals and correspond to the high-voltage wire harness connecting holes 11, the first installation area 1 is internally provided with a supporting surface 13 which is lower than the top surface of the base 10, and the high-voltage wire harness buckles 12 are positioned on the supporting surface 13.

The second mounting area 2 is internally provided with a fuse box mounting hole 21 and a locating pin 22 along the longitudinal direction, and the second mounting area 2 does not exceed the position of the high-voltage wire harness connecting hole 11 along the longitudinal direction.

The third mounting area 3 is located on a lateral side of the base 10 opposite the first mounting area 1, adjacent to the high voltage harness connection aperture 11, and the top surface of the base 10 is provided with a fourth insulating area 9 separating the third mounting area 3 from the first mounting area 1.

In this embodiment, the high-voltage harness fastener 12 is located longitudinally behind the high-voltage harness connection hole 11, the support surface 13 is recessed behind the high-voltage harness connection hole 11 until the rear end edge of the base 10 is formed, and the high-voltage harness fastener 12 is located on the support surface 13, so that the high-voltage harness 7 is prevented from being lifted by the root at the high-voltage harness fastener 12, and is not tightly attached to the top surface of the base 10, so that the installation is unstable. The base 10 is protruded at the second installation area 2 and the high-voltage wire harness connecting hole 11 to form an installation platform 18 with a U-shaped plane, so that the high-voltage wire harness 7 and the fuse box 8 can be installed conveniently. The fourth insulating region 9 is a transverse strip and is located between the first mounting region 1 and the third mounting region 3.

The vertical insertion grooves 4 are not provided with tops and are provided with side openings at one side in the transverse direction, the plurality of vertical insertion grooves 4 are longitudinally arranged outwards in sequence, the side openings of the adjacent vertical insertion grooves 4 are arranged at different sides in the transverse direction, the side openings of the innermost vertical insertion grooves 4 are positioned at one end which is transversely far away from the supporting table 6, and spacing grooves 5 for insulating and isolating the adjacent vertical insertion grooves 4 are arranged between the adjacent vertical insertion grooves. The vertical insertion grooves 4 in this embodiment are all extending transversely, and include a first insertion groove 41 and a second insertion groove 42 disposed longitudinally outward from the inside, and the support stand 6 is located at the left side of the base 10, so that the side opening of the first insertion groove 41 is located at the right side of the groove body, and the side opening of the second insertion groove 42 is located at the left side of the groove body.

The supporting table 6 comprises a first supporting table 61 and a second supporting table 62 which are arranged at intervals, the second supporting table 62 is located at a position far away from the third installation area 3, a second limiting protrusion 64 is arranged at the end of the second supporting table 62, first limiting protrusions 63 are arranged on the two lateral sides of the first supporting table 61 and on the inner lateral side (right side) of the second supporting table 62, the second limiting protrusion 64 is located at the rear end of the second supporting table 62 in the embodiment, and the first limiting protrusions 63 and the second limiting protrusions 64 on the second supporting table 62 are connected into an L shape.

The invention relates to an assembly structure of a high-voltage wire harness, a fuse box and a copper bar on a fuse box support of a motor controller, which comprises the following steps:

the first copper bar 14 which is used for transversely connecting the plurality of high-voltage wire harness connecting holes 11 is arranged in the first installation area 1, the first copper bar 14 is provided with an installation hole 141 corresponding to the high-voltage wire harness connecting holes 11, the plurality of high-voltage wire harnesses 7 are assembled in the first installation area 1 through the installation hole 141, the high-voltage wire harness connecting holes 11 and the high-voltage wire harness buckle 12 (bolts pass through the installation hole 141, the high-voltage wire harness connecting holes 11 fix the end parts of the high-voltage wire harnesses 7, the high-voltage wire harness buckle 12 limits the wire bodies of the high-voltage wire harnesses 7), and the first copper bar 14 is provided with a first connecting lug 142 which longitudinally extends forwards to the outside of the third installation area 3.

The first inserting groove 41 is internally provided with a second copper bar 15 with multidirectional output, the second inserting groove 42 is internally provided with a third copper bar 16, the second copper bar 15 comprises a vertical copper bar section 151 and a horizontal copper bar section 152 which are connected, the length direction of the vertical copper bar section 151 is transverse, the length direction of the horizontal copper bar section 152 is longitudinal, and the horizontal copper bar section 152 is correspondingly positioned on the supporting table 6 on the left side of the base 10. The vertical copper bar section 151 is provided with a plurality of second vertical connecting lugs 153 extending longitudinally forward to the outside of the third installation area 3, the rear end of the horizontal copper bar section 152 transversely extends outwards to form a second horizontal connecting lug 154, the first limiting protrusion 63 transversely limits the horizontal copper bar section 152, and the second limiting protrusion 64 longitudinally limits the horizontal copper bar section 152. The third copper bar 16 is provided with third connecting lugs 161 which extend outwards transversely to the outside of the third installation region 3, and the first connecting lugs 142, the second vertical connecting lugs 153 and the third connecting lugs 161 are arranged at intervals transversely along the side edge of the third installation region 3. The first connecting lug 142, the second vertical connecting lug 153 and the third connecting lug 161 can be bent upwards to form an inverted U shape and then continue to extend laterally outwards when avoiding with the lower element.

The two sides of the safe 8 are longitudinally provided with a plurality of holes, the holes on the safe 8 are utilized to be correspondingly positioned with the positioning pins 22, then the holes are utilized to be correspondingly connected with the bolt safe mounting holes 21 through bolts, the safe 8 is concaved upwards at the first mounting area 1 to form an isolation cavity 81, and the first copper bar 14 is positioned outside the safe 8. A fourth copper bar 17 extending from a side transversely far from the supporting table 6 is arranged in the safety box 8, and the fourth copper bar 17 is provided with a fourth connecting lug 171 connected with a second vertical connecting lug 153.

The assembly sequence is as follows:

the high-voltage wire harness 7 is fixed through the high-voltage wire harness buckle 12 of the first installation area 1, the second copper bar 15 and the third copper bar 16 are assembled in sequence, the first copper bar 14 is arranged at the high-voltage wire harness connecting hole 11, bolts penetrate through the installation holes 141 and the high-voltage wire harness connecting hole 11 to fix the end part of the high-voltage wire harness 7, the fuse box 8 is installed in the second installation area 2 (the fourth copper bar 17 is installed on the fuse box 8 in advance), and finally the second vertical connecting lug 153 is connected with the fourth connecting lug 171, so that the assembly is completed.

Claims

1. The motor controller fuse box support is characterized by comprising a base (10), wherein a first installation area (1) for installing a plurality of transversely arranged high-voltage wires (7) is arranged on the base (10), second installation areas (2) for installing a fuse box (8) are arranged on two transverse sides of the first installation area (1), and a third installation area (3) for vertically inserting a plurality of copper bars is arranged on one side of the base (10);

the third installation area (3) comprises a plurality of mutually insulated vertical insertion grooves (4), and a supporting table (6) for supporting the copper bars which are output in multiple directions is arranged on one side edge of the base (10) adjacent to the third installation area (3);

a plurality of high-voltage wire harness connecting holes (11) which are transversely arranged at intervals and a plurality of high-voltage wire harness buckles (12) which are transversely arranged at intervals and correspond to the high-voltage wire harness connecting holes (11) are arranged in the first installation area (1), a supporting surface (13) lower than the top surface of the high-voltage wire harness connecting holes (11) is arranged in the first installation area (1), and the high-voltage wire harness buckles (12) are positioned on the supporting surface (13);

a fuse box mounting hole (21) and a locating pin (22) are longitudinally arranged in the second mounting area (2), and the second mounting area (2) does not exceed the high-voltage wire harness connecting hole (11) longitudinally;

the third installation area (3) is positioned on the transverse side edge of the base (10) opposite to the first installation area (1) and close to the high-voltage wire harness connecting hole (11), and a fourth insulation area (9) for isolating the third installation area (3) from the first installation area (1) is arranged between the base (10);

a first copper bar (14) for transversely connecting a plurality of high-voltage wire harness connecting holes (11) is arranged in the first installation area (1), an installation hole (141) corresponding to the high-voltage wire harness connecting holes (11) is formed in the first copper bar (14), a plurality of high-voltage wire harnesses (7) are assembled in the first installation area (1) through the installation hole (141), the high-voltage wire harness connecting holes (11) and the high-voltage wire harness buckles (12), and a first connecting lug (142) extending out of the third installation area (3) is arranged on the first copper bar (14);

the vertical insertion groove (4) comprises a first insertion groove (41) and a second insertion groove (42) which are arranged from inside to outside, the first insertion groove (41) is provided with a second copper bar (15) with multidirectional output, the second copper bar (15) comprises a vertical copper bar section (151) and a horizontal copper bar section (152) which are connected, a plurality of second vertical connecting lugs (153) which extend to the outside of the third installation area (3) are arranged on the vertical copper bar section (151), and the horizontal copper bar section (152) is positioned on the supporting table (6) and transversely extends outwards at the end part far away from the third installation area (3) to form a second horizontal connecting lug (154);

a third copper bar (16) is arranged in the second insertion groove (42), a third connecting lug (161) extending to the outside of the third installation area (3) is arranged on the third copper bar (16), and the first connecting lug (142), the second vertical connecting lug (153) and the third connecting lug (161) are arranged at intervals along the side edge of the third installation area (3);

the second installation area (2) corresponds the erection joint with safe box (8) both sides, safe box (8) are concave to form isolation cavity (81) in first installation area (1) department, be equipped with in safe box (8) from transversely keeping away from fourth copper bar (17) that one side of brace table (6) stretches out, fourth copper bar (17) are equipped with fourth engaging lug (171) that are connected with vertical engaging lug (153) of second.

2. The motor controller fuse box support of claim 1, characterized in that the vertical insertion slots (4) in the third mounting region (3) have no top and are provided with side openings on one lateral side, the side openings of adjacent vertical insertion slots (4) are provided on opposite lateral sides, and a spacing slot (5) for insulating and isolating adjacent vertical insertion slots (4) is provided between them.

3. The motor controller fuse box support of claim 1, characterized in that the supporting table (6) comprises a first supporting table (61) and a second supporting table (62) which are arranged at intervals, the second supporting table (62) is positioned far away from the third installation area (3) and is provided with a second limiting protrusion (64) at the end part, and the first limiting protrusions (63) are arranged on the two lateral sides of the first supporting table (61) and the two lateral inner sides of the second supporting table (62).

4. A motor controller comprising a motor controller cartridge holder according to any one of claims 1-3.