KR102173360B1 - Inverter built-in brushless direct current motor - Google Patents

Abstract

The present invention relates to an inverter-integrated BLDC motor, wherein a connector block is interposed and coupled between the inverter housing and the cover, and the height direction and the length direction circumference of the connector block and the inverter housing and cover are formed by sealing portions formed in the connector block. The inner surface of the unit is sealed, and the connection between the wire and the connector block that is coupled through the wire through hole is formed to be sealed, thereby simplifying the parts for forming a watertight structure, and sealing between the inverter unit and the connector block, and The present invention relates to an inverter-integrated BLDC motor that is easily sealed between wires and can reduce a package size including a connector block assembly unit and a connector block formed in the inverter unit.

Description

Inverter built-in brushless direct current motor {Inverter built-in brushless direct current motor}

The present invention relates to an inverter-integrated BLDC motor, wherein a connector block is formed for watertightness with an electric wire connected to the inverter unit, but sealing between the inverter unit and the connector block and sealing between the connector block and the electric wire is facilitated, and thus a watertight structure It relates to an inverter-integrated BLDC motor that can simplify the parts for forming the.

BLDC (Brushless direct current) motors can prevent friction and abrasion, which is a disadvantage of conventional DC motors, and have relatively high efficiency. In the case of recent hybrid vehicles, BLDC motors are applied as motors for rotating cooling fans.

These BLDC motors are motors that eliminate brushes and commutators from DC motors and install electronic commutation mechanisms.

In addition, the conventional BLDC motor assembly of a low-voltage cooling fan for a vehicle is formed as an inverter-integrated BLDC motor by integrally configuring a motor unit and an inverter unit. At this time, as shown in FIG. 1, the inverter housing 21 is coupled to the lower side of the motor unit 10, and the cover 22 is coupled to the lower side of the inverter housing 21 to the inverter housing 21 and the cover 22. A PCB substrate is provided in the internal space formed by the inverter unit 20 to be formed. In addition, on one side of the inverter unit 20, a connector block assembly unit 23 for connecting a power line and a communication line to an external inverter control unit with an internal PCB board is formed, and the connector block assembly unit 23 has the inside and Through holes 24 connecting the outside are formed. In addition, the connector block 30 has a communication pipe 31 protruding from one surface thereof so that the communication pipe 31 is inserted into the through hole 24 so that the connector block 30 is inserted into the connector block assembly part 23 using a fastening means, etc. Are combined. At this time, a connector sealing rubber 40 such as an O-ring is inserted on the outside of the communication pipe 31 and is inserted into the through hole 24 so that the space between the communication pipe 31 and the through hole 24 is sealed. In addition, the wire passes through the communication pipe 31 and the through hole 24 and is connected to the PCB board inside the inverter unit 20, and sealing rubber such as wire sealing is used to seal the space between the wire and the inner circumferential surface of the communication pipe 31. do.

That is, in the conventional inverter integrated BLDC motor, since several sealing rubbers are used for watertightness between the inverter unit 20 and the connector block 30 and between the connector block 30 and the wires, connector blocks and sealing rubbers, etc. The structure of the connector block package including the is complicated, and accordingly, the process of producing and assembling parts becomes complicated, and the manufacturing cost is increased.

JP 2005-117708 A (2005.04.28)

The present invention has been conceived to solve the above-described problems, and an object of the present invention is to form a connector block for watertightness with a wire connected to the inverter, but simplify the components for forming a watertight structure, It is to provide an inverter-integrated BLDC motor that is easily sealed between connector blocks and between connector blocks and wires.

Inverter-integrated BLDC motor 1000 of the present invention for achieving the above object, one side is coupled to the motor 100, the inside is formed to be hollow and formed to open the other side, a part of the edge wall 230 Inverter housing 200 having an open opening 240 is formed, a PCB substrate 210 is provided inside the hollow; A cover 300 coupled to an open lower side of the inverter housing 200 to seal a surface in contact with the inverter housing 200; The connector block 400 is interposed in the space formed by the open portion 240 and the cover 300 of the inverter housing 200, and a wire through hole 440 is formed in the width direction to allow the wire 500 to pass therethrough. ); And a wire-side terminal 510 coupled to the end 501 of the wire 500 passing through the connector block 400. It can be made including.

In addition, the connector block 400 is formed by bonding to the connector block 400 so as to surround both sides in the length direction and the height direction, and the width direction of the connector block 400 from which the end 501 of the wire 500 is drawn out. A sealing part 600 formed by bonding to the inner side and the end 501 of the electric wire 500; Consisting of including, by the sealing portion 600 between the height direction and the length direction circumference of the connector block 400 and the inner surface of the inverter housing 200 and the cover 300 is sealed, wire through hole 440 It is characterized in that formed so as to be sealed between the wire 500 and the connector block 400 coupled through through.

In addition, the sealing part 600 is formed by bonding to the connector block 400 so as to surround both sides in the length direction and both sides in the height direction of the connector block 400, and is greater than the length and width of the connector block 400. A first sealing portion 610 formed equal to or equal to; And a second sealing portion 620 formed by bonding the end 501 of the electric wire 500 to the inner side surface in the width direction of the connector block 400 from which the end portion 501 is drawn out and the end 501 of the electric wire 500. It characterized in that it comprises a.

In addition, the connector block 400 is characterized in that the flange 415 is formed protruding in the width direction and the length direction, and the first sealing portion 610 is formed by bonding to one side of the flange 415 in the width direction.

In addition, the flange 415 is characterized in that the communication portion 416 connecting both sides in the width direction is formed.

In addition, the inverter housing 200 has a guide groove 250 formed concave on the inner side thereof, so that the flange 415 and the first sealing portion 610 of the connector block 400 are inserted into the guide groove 250 It is characterized by being enshrined.

In addition, the assembly portion 410 of the connector block 400 is inserted and coupled between the edge wall ends 232 on both sides of the longitudinal direction in which the opening portion 240 is formed in the inverter housing 200, and the inverter housing 200 A coupling groove 231 is formed along the rim wall 230 of ), and a sealing material coating groove 413 connected to the coupling groove 231 is formed in the assembly 410 of the connector block 400, A protrusion 311 is formed along the edge wall 310 of the cover 300, and the protrusion 311 is inserted into and coupled to the coupling groove 231 and the sealing material application groove 413.

In addition, the sealing part 600 is characterized in that it is formed by insert injection or coating, or formed of an O-ring.

In addition, the sealing material 630 is filled in the coupling groove 231 and the sealing material application groove 413, and between the coupling groove 231 and the protrusion 311 and the sealing material application groove 413 and the protrusion 311 ) It is characterized in that the space is sealed.

In addition, the connector block 400 has a blocking plate 420 formed in the inner direction of the inverter housing 200 in the width direction from the assembly portion 410, the blocking plate 420 is a wire through hole 440 It is formed so as to surround the end 501 of the wire 500 drawn in the width direction through the inside to form a space 430 inside, and the wire-side terminal 510 is coupled to pass through the barrier plate 420 , In the space part 430, the end 501 of the wire 500 and the wire-side terminal 510 are combined.

In addition, it is characterized in that the second sealing portion 620 is formed by filling the space portion 430 of the connector block 400.

In addition, a block fastening part 220 is formed in the inverter housing 200, and a coupling part 421 is formed in the connector block 400, and is coupled to the block fastening part 220 by a fastening means 422. It is characterized in that the part 421 is fastened and fixed.

In addition, the substrate-side terminal 211 is formed on the PCB substrate 210 provided inside the inverter housing 200, and the substrate-side terminal 211 and the wire-side terminal 510 are combined. .

In addition, it is bent upward so that the end of the substrate-side terminal 211 and the end of the wire-side terminal 510 face each other, and the bent bent portions 212 and 511 are combined in surface contact with each other.

In addition, a substrate-side PCB terminal 211a is formed on a PCB substrate 210 provided inside the inverter housing 200, and a three-phase terminal 120 is provided on the stator 110 provided inside the motor 100. ) Is formed, and the three-phase terminal 120 of the stator 110 passes through the inverter housing 200 and the PCB substrate 210, so that the substrate-side PCB terminal 211a and the three-phase terminal 120 It is characterized in that the surface contact is combined.

The inverter-integrated BLDC motor of the present invention forms a connector block for watertightness with the wires connected to the inverter, but simplifies parts for forming a watertight structure to seal between the inverter and the connector block and seal between the connector block and the wire. It has the advantage of being easy.

In addition, there is an advantage in that the assembling property is improved because it is easy to combine the wires and the PCB substrate to be connected.

1 is an exploded perspective view showing a watertight structure of a conventional inverter-integrated BLDC motor.
Figure 2 is an assembly perspective view showing an inverter-integrated BLDC motor of the present invention.
Figure 3 is an exploded perspective view of the inverter-integrated BLDC motor of the present invention turned upside down.
Figure 4 is an assembly perspective view of the connector block assembled in the inverter housing in Figure 3;
Figure 5 is a partial perspective view showing the inverter housing of the part to which the connector block is assembled according to the present invention.
6 is an exploded perspective view showing that a wire and a wire-side terminal are assembled to the connector block according to the present invention, and a sealing portion is formed.
Figure 7 is a perspective view showing that the sealing portion is formed by combining in Figure 6;
8 and 9 are perspective views illustrating a state in which the connector block assembly of FIG. 7 is assembled to an open portion of an inverter housing and a plan view as viewed from above.
10 and 11 are an exploded cross-sectional view before and after assembly of the connector block assembly according to the present invention with the inverter housing and cover.
12 to 14 are an exploded perspective view, an assembly perspective view, and a partial cross-sectional view showing a coupling structure between a three-phase terminal of a stator and a PCB terminal on a substrate side according to the present invention.

Hereinafter, with reference to the accompanying drawings an inverter-integrated BLDC motor of the present invention having the configuration as described above will be described in detail.

Figure 2 is an assembly perspective view showing an inverter-integrated BLDC motor of the present invention, Figure 3 is an exploded perspective view of the inverter-integrated BLDC motor of the present invention in an upside down state, and Figures 4 to 11 are inverter housing, cover, and connector according to the present invention It is a perspective view, a plan view, and a cross-sectional view showing a state in which a block, terminals, and seals are disassembled or assembled.

As shown, the inverter-integrated BLDC motor 1000 of the present invention has one side coupled to the motor 100, the inside is formed to be hollow, and the other side is open, and a part of the edge wall 230 is opened. Inverter housing 200 in which 240 is formed and the PCB substrate 210 is provided inside the hollow; A cover 300 coupled to an open lower side of the inverter housing 200 to seal a surface in contact with the inverter housing 200; The connector block 400 is interposed in the space formed by the open portion 240 and the cover 300 of the inverter housing 200, and a wire through hole 440 is formed in the width direction to allow the wire 500 to pass therethrough. ); A wire-side terminal 510 coupled to the end 501 of the wire 500 passing through the connector block 400; And formed by being bonded to the connector block 400 so as to surround both sides of the connector block 400 in the length direction and both sides in the height direction, and the end portion 501 of the wire 500 is drawn in the width direction of the connector block 400 Sealing portion 600 formed by bonding to the side and end portion 501 of the electric wire 500; Consisting of including, by the sealing portion 600 between the height direction and the length direction circumference of the connector block 400 and the inner surface of the inverter housing 200 and the cover 300 is sealed, wire through hole 440 It may be formed to be sealed between the wire 500 and the connector block 400 coupled through through.

First, the motor 100 may be a brushless direct current motor (BLDC), and a stator with a driving coil wound therein is provided, and a rotor with a permanent magnet is disposed on the outside and covered with a casing. It may be an abduction type BLDC motor in which the rotor is rotated, and on the contrary, it may be an endogenous BLDC motor in which the inner rotor is rotated by having a rotor inside and a stator disposed on the outside.

Inverter housing 200 has an upper side coupled to the motor 100, a lower side is formed to be open and the inside is formed to be hollow, and a PCB substrate 210 for the operation of the motor 100 is provided in the hollow interior. The substrate 210 and the motor 100 may be connected. In addition, the inverter housing 200 may have an edge wall 230 protruding downwardly along the circumference thereof and an opening 240 in which a portion of the edge wall 230 is opened.

The cover 300 is combined with the inverter housing 200 to form a space therein, and the PCB substrate 210 may be provided in the space formed therein. In addition, the cover 300 may be coupled to an open lower side of the inverter housing 200, and may be formed to seal a contact surface of the inverter housing 200 and the cover 300. In this case, when the inverter housing 200 and the cover 300 are coupled, the opening 240 formed in the inverter housing 200 may be in an open state.

The connector block 400 is disposed in the opening portion 240 and may be interposed and coupled to a space formed by the opening portion 240 and the cover 300 of the inverter housing 200. That is, as shown, the assembly portion 410 of the connector block 400 may be interposed between the inverter housing 200 and the cover 300 to close the opening portion 240. In addition, the assembly portion 410 of the connector block 400 has a wire through hole 440 penetrating both sides in the width direction so that the wire 500 is inserted and penetrated, and the wire 500 is a power line and a communication line. Since there are several strands including, a plurality of wire through holes 440 may be formed.

The wire-side terminal 510 passes through the wire through hole 440 formed in the assembly portion 410 of the connector block 400 and is drawn toward the inner side in the width direction of the assembly portion 410. ) Can be combined to be connected. In this case, the wire-side terminal 510 may be formed in a plurality so as to be coupled to each of the wires, and the end 501 of the wire 500 and the wire-side terminal 510 may be overlapped so that they may be combined by soldering or the like. .

The sealing part 600 may be formed to surround both sides in the length direction and both sides of the assembly part 410 in the connector block 400 and may be bonded to the assembly part 410. In addition, the sealing portion 600 is a widthwise inner side of the assembly portion 410, which is a portion from which the end 501 of the electric wire 500 passing through the electric wire through hole 440 is drawn out and the end 501 of the electric wire 500 ) Can be formed by bonding.

Thus, between the connector block 400 and the inner surface of the inverter housing 200 is sealed by the sealing portion 600 formed to surround both sides in the longitudinal direction and the both sides in the height direction of the assembly unit 410, and the connector block 400 and the cover Between the inner surfaces of the 300 may be sealed. In addition, the sealing formed by bonding to the inner side of the width direction of the assembly 410 and the end 501 of the wire 500, which is the part from which the end 501 of the wire 500 passing through the wire through hole 440 is drawn out. The wire 500 and the connector block 400 coupled by passing through the wire through hole 440 by the part 600 may be sealed between the wires 500 and the connector block 400.

In this way, the inverter-integrated BLDC motor of the present invention forms a connector block for watertightness with the wires connected to the inverter, but simplifies parts for forming a watertight structure to seal between the inverter and the connector block and between the connector block and the wire. Can be easily sealed.

In addition, the sealing part 600 may be insert-injected to be integrally formed with the connector block 400 and the wire 500.

That is, the sealing portion 600 formed to surround both sides in the length direction and both sides in the height direction of the connector block 400 assembling portion 410 and the end portion 501 of the wire 500 passing through the wire through hole 440 The sealed part 600 formed by bonding to the widthwise inner side of the assembled part 410 and the end 501 of the wire 500, which is the drawn part, is connected to the connector block 400 and the wire 500 through insert injection. It can be formed integrally. For example, inserting the wires 500 into the wire through hole 440 of the connector block 400, and assembling the ends 501 of the wires 500 to pass through the wire through hole 440, and then insert injection into the connector block. The sealing part 600 may be formed integrally with the 400. At this time, the connector block 400, the wire 500, and the wire-side terminal 510 may be integrally formed by insert-injection in a state in which the wire-side terminal 510 is soldered to the ends 501 of the wires 500 and combined. have.

Here, the sealing part 600 may be formed in various ways and shapes other than the insert injection as described above, for example, the sealing part 600 must be formed using liquid or gel-like silicone. The silicone-filled part and the silicone-contacted part can all be sealed by applying or filling the silicone in the space to be cured. At this time, silicon may be filled in a state in which the wires 500 are assembled to the connector block 400 so as to penetrate the wire through hole 440, and the wire-side terminal 510 is coupled to the end 501 of the wire 500 Silicon may be filled in the state in which the wire 500 and the wire-side terminal 510 are combined, and the connector block 400 is assembled to the inverter housing 200, and then filled with silicon and covered with the cover 300 to cover the inverter housing ( By coupling to 200) the sealing portion 600 may be formed. In addition, the motor 100 is disposed at the lower side and the inverter housing 200 is disposed at the upper side so that the open side of the inverter housing 200 faces upward, and then the electric wire 500, the electric wire-side connector 510 and sealing After assembling the connector block 400 in which the part 600 is assembled to the open part 240 of the inverter housing 200, the cover 300 may be covered from the upper side to be coupled to the inverter housing 200.

Thus, the inverter housing 200 and the cover 300 are coupled in a manner that both sides in the height direction and both sides in the length direction of the connector block 400 are wrapped, and the inverter housing 200 and the connector block ( Between 400 and between the cover 300 and the connector block 400 may be sealed. In addition, a space between the wire 500 and the connector block 400 inserted through the wire through hole 440 may be sealed by the sealing part 600. In addition, the material forming the sealing portion 600 is partially filled inside the wire through hole 440 so that the sealing portion 600 may be formed between the outside of the wire 500 and the wire through hole 440. .

In addition, the sealing part 600 is formed by bonding to the connector block 400 so as to surround both sides in the length direction and both sides in the height direction of the connector block 400, and is greater than the length and width of the connector block 400. A first sealing portion 610 formed equal to or equal to; And a second sealing portion 620 formed by bonding the end 501 of the electric wire 500 to the inner side surface in the width direction of the connector block 400 from which the end portion 501 is drawn out and the end 501 of the electric wire 500. It can be made including.

That is, the first sealing portion 610 may be formed to surround a part of the assembly portion 410 of the connector block 400 in the width direction, and the first sealing portion 610 may be formed on both sides of the assembly portion 410 in the longitudinal direction. And it may be formed to surround both sides in the height direction. Thus, the first sealing portion 610 is formed in a rectangular ring shape as shown, so that the inside can be bonded to the assembly portion 410, and the outside is in close contact with the inverter housing 200 and the cover 300 to seal the contact surface. Can be. In addition, the second sealing portion 620 may be formed by bonding to the inner side of the connector block 400 in the width direction and the end 501 of the wire 500 from which the end 501 of the wire 500 is drawn out. Thus, the space between the wire 500 and the wire through hole 440 may be sealed.

In addition, the connector block 400 may be formed by a flange 415 protruding in the width direction and the length direction, so that the first sealing portion 610 is bonded to one side of the flange 415 in the width direction.

That is, as shown, the connector block 400 is formed with flanges 415 protruding from both sides in the length direction and both sides in the width direction from the assembly part 410, and among both sides of the flange 415 in the width direction, the inverter housing ( The first sealing portion 610 may be bonded to the surface of 200) in the width direction facing the outside.

Thus, the flange 415 can serve to support the first sealing portion 610, and in particular, the flange 415 improves structural rigidity against the force that can be applied to the first sealing portion 610 in the width direction. I can do it.

In addition, the flange 415 may be formed with a communication portion 416 connecting both sides in the width direction.

That is, since the first sealing portion 610 and the second sealing portion 620 may be integrally formed with the connector block 400 through double injection, a communication portion connecting both sides in the width direction of the flange 415 ( By 416, the first sealing portion 610 and the second sealing portion 620 may be integrally formed in a connected form. At this time, the communication part 416 may be formed in various forms, and as an example, the communication part 416 may be formed in a form in which an upper part and a lower part in the height direction of the flange are deleted, and in the width direction. It may be formed in the form of a communication hole formed to pass through the flange 415.

Thus, the shape of the mold for double injection can be simplified, and the sealing portion 600 is more firmly bonded to the connector block 400 so that the sealing force can be maintained for a long time.

In addition, the inverter housing 200 has a guide groove 250 formed concave on the inner side thereof, so that the flange 415 and the first sealing portion 610 of the connector block 400 are inserted into the guide groove 250 And can be enshrined.

That is, as shown as an example, the edge wall ends 232 are formed to partially protrude in the longitudinal direction in the portion where the opening portion 240 of the inverter housing 200 is formed, and a stepped 241 is formed, and the edge wall end ( The guide rib 251 is formed to protrude from the inner surface of the inverter housing 200 by being spaced from 232 in the width direction, and a guide groove between the edge wall end 232 and the stepped 241 and the guide rib 251 250 may be formed. At this time, the guide groove 250 is formed in the height direction and the length direction, so that the flange 415 of the connector block 400 and both sides of the first sealing part 610 in the length direction and the lower side in the height direction are inserted and placed in the drawing. have.

Thus, the connector block 400 in which the sealing part 600 is formed is inserted into the flange 415 and the first sealing part 610 along the guide groove 250 from the upper side, so that it can be easily assembled into the inverter housing 200. have. In addition, accordingly, the sealing force between the inverter housing 200, the cover 300, and the connector block 400 may be improved.

In addition, the assembly portion 410 of the connector block 400 is inserted and coupled between the edge wall ends 232 on both sides of the longitudinal direction in which the opening portion 240 is formed in the inverter housing 200, and the inverter housing 200 A coupling groove 231 is formed along the rim wall 230 of ), and a sealing material coating groove 413 connected to the coupling groove 231 is formed in the assembly 410 of the connector block 400, A protrusion 311 is formed along the rim wall 310 of the cover 300 so that the protrusion 311 may be inserted into the coupling groove 231 and the sealing material application groove 413 to be coupled.

That is, in order to improve the coupling force and sealing force at the portion where the inverter housing 200 and the cover 300 are in contact and the portion where the cover 300 and the connector block 400 are in contact, the frame wall of the inverter housing 200 ( A coupling groove 231 is formed on the upper side along 230, and a sealing material application groove 413 connected to the coupling groove 231 is formed in the assembly portion 410 of the connector block 400, and the cover 300 The formed protrusion 311 may be inserted into the coupling groove 231 and the sealing material application groove 413 to be coupled.

In addition, the sealing part 600 may be formed by insert injection or coating, or may be formed as an O-ring.

That is, the sealing part 600 may be integrally formed by insert injection or coating to facilitate sealing after assembling the connector block 400 and the wire 500. Alternatively, O-rings may be combined in a form surrounding the connector blocks 400 so that the connector block 400 can seal both sides in the length direction and both sides in the height direction in contact with the inverter housing 200 and the cover 300, and the connector block The part where 400 and the electric wire 500 are in contact may also be sealed through an O-ring.

In addition, the sealing material 630 is filled in the coupling groove 231 and the sealing material application groove 413, and between the coupling groove 231 and the protrusion 311 and the sealing material application groove 413 and the protrusion 311 ) Can be sealed.

That is, after the sealing material 630 is applied or inserted into the coupling groove 231 and the sealing material application groove 413, the cover 300 is coupled to provide a reliable sealing, where the inverter housing 200 is coupled. The groove 231 and the sealant application groove 413 of the connector block 400 may be connected to each other by matching the cross-sectional shape, height, and width, thereby making it easy to apply the sealant 630 at a time.

In addition, the connector block 400 has a blocking plate 420 formed in the inner direction of the inverter housing 200 in the width direction from the assembly portion 410, the blocking plate 420 is a wire through hole 440 It is formed so as to surround the end 501 of the wire 500 drawn in the width direction through the inside to form a space 430 inside, and the wire-side terminal 510 is coupled to pass through the barrier plate 420 , In the space part 430, the end 501 of the wire 500 and the wire-side terminal 510 may be coupled.

That is, as shown, the connector block 400 has a blocking plate 420 formed in the width direction inward from the assembly part 410, but the blocking plate 420 is inside the width direction from both sides of the assembly part 410 in the longitudinal direction. It may be formed in a'C' shape so that the extended ends are connected in the longitudinal direction to each other. Thus, the ends 501 of the wires 500 may be located in the space part 430, which is an inner space formed by the assembly part 410 and the blocking plate 420, and at this time, the wire-side terminals 510 are the assembly parts ( It may be coupled to the blocking plate 420 disposed to face the 410, and the wire-side terminals 510 are coupled to pass through the blocking plate 420 so that the end 501 of the electric wire 500 in the space 430 And one side of the wire-side terminal 510 may be coupled by welding or the like.

In addition, the second sealing portion 620 may be formed by filling the space portion 430 of the connector block 400.

That is, the second sealing part 620 is formed to fill the space 430 in a state in which the end 501 of the wire 500 and one side of the wire-side terminal 510 are coupled by welding or the like, and the wire 500 ) Of the end 501 and one side of the wire-side terminal 510 and the combined welding portion may be wrapped by the second sealing portion 620 to be sealed and fixed.

In addition, a block fastening part 220 is formed in the inverter housing 200, and a coupling part 421 is formed in the connector block 400, and is coupled to the block fastening part 220 by a fastening means 422. The part 421 may be fastened and fixed.

That is, as shown, a block fastening part 220 having a female thread formed on the inverter housing 200 is formed, and a coupling part 421 having a through hole formed in the connector block 400 is formed, and a fastening means 422 such as a bolt. ) Can be used to securely fix the connector block 400 to the inverter housing 200. At this time, for example, the coupling part 421 may be formed on the blocking plate 420 of the connector block 400, but the coupling part 421 may be disposed in the space part 430, and the coupling part 421 is The connector block 400 may be fixed to the inverter housing 200 by being disposed in the central portion and using one fastening means 422. Here, the portion where the coupling portion 421 is formed may be formed such that there is no second sealing portion 620.

In addition, a substrate-side terminal 211 is formed on the PCB substrate 210 provided inside the inverter housing 200, so that the substrate-side terminal 211 and the wire-side terminal 510 may be coupled.

That is, a substrate-side terminal 211 may be formed on the PCB substrate 210 provided inside the inverter housing 200 to correspond to the wire-side terminals 510, and accordingly, the wire 500 and the wire-side terminal When the connector block 400 formed by integrally combining the 510 and the sealing part 600 is assembled to the inverter housing 200, the substrate-side terminal 211 and the wire-side terminal 510 may overlap or be adjacent to face each other. It can be placed and joined by soldering or the like.

At this time, the end of the substrate-side terminal 211 and the end of the wire-side terminal 510 are bent upward so that they face each other, and the bent bent portions 212 and 511 may be combined by surface contact with each other.

That is, as shown, the end of the substrate-side terminal 211 and the end of the wire-side terminal 510 are formed to be bent upward to face each other, so that the substrate-side terminal 211 and the wire-side terminal are formed by the elasticity of the terminals. (510) may be in contact with each other. In addition, since the bent portions 212 and 511 can be easily combined using soldering, laser welding, or electric resistance welding, assembling property can be improved.

In addition, a substrate-side PCB terminal 211a is formed on the PCB substrate 210 provided inside the inverter housing 200, and a three-phase terminal 120 is provided on the stator 110 provided inside the motor 100. Is formed, the three-phase terminal 120 of the stator 110 passes through the inverter housing 200 and the PCB substrate 210, and the substrate-side PCB terminal 211a and the three-phase terminal 120 face each other. It can be contacted and joined.

That is, as shown in FIGS. 12 to 14, a stator 110 with a driving coil wound is provided inside the motor 100 coupled to the inverter housing 200, so that the three-phase terminals 120 are included in the stator 110. It can be formed in a protruding shape. In addition, the PCB substrate 210 provided in the inverter housing 200 may be formed such that the substrate-side PCB terminals 211a protrude upward. Thus, the three-phase terminals 120 of the stator 110 pass through the inverter housing 200 and the PCB substrate 210, so that the substrate-side PCB terminal 211a and the three-phase terminal 120 are easily in surface contact with each other. Can be combined. At this time, a portion through which the three-phase terminal 120 passes through the inverter housing 200 may be sealed with a sealing material or the like.

In addition, the substrate-side PCB terminal 211a is formed extending upward from the PCB substrate 210, and the upper end thereof is bent in a direction parallel to the PCB substrate 210 and then bent upward to form a bent part 212a. The bent portion 212a and the three-phase terminal 120 may be in surface contact with each other.

That is, as shown, in the substrate-side PCB terminal 211a, the end of the horizontal portion 212b formed along the horizontal direction in the width direction and the length direction plane is bent upward to form a bent portion 212a, and 3 The upper terminal 120 may be in surface contact with the bent portion 212a. Thus, surface contact is easy and bonding can be facilitated by the elasticity of the terminals.

The present invention is not limited to the above-described embodiments, and the scope of application thereof is diverse, as well as anyone with ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications are possible.

1000: Inverter integrated BLDC motor
100: motor
110: stator 120: 3-phase terminal
200: inverter housing
210: PCB substrate 211: substrate side terminal
211a: PCB terminal 212a on the board side: bent part
212: bent part 220: block fastening part
230: border wall 231: coupling groove
232: edge wall end 240: open portion
241: stepped 250: guide groove
251: guide rib
300: cover
310: border wall 311: protrusion
400: connector block
410: assembly 413: sealant application groove
415: flange 416: communication part
420: blocking plate 421: coupling portion
422: fastening means
430: space part 440: wire through hole
500: wire 501: end
510: wire-side terminal 511: bent portion
600: sealing part
610: first sealed portion 620: second sealed portion
630: sealing material

Claims (15)

One side is coupled to the motor 100, the inside is formed to be hollow and the other side is formed to be open, a part of the edge wall 230 is formed to be opened, an opening 240 is formed, and the PCB substrate 210 inside the hollow Inverter housing 200 is provided;
A cover 300 coupled to an open lower side of the inverter housing 200 to seal a surface in contact with the inverter housing 200;
The connector block 400 is interposed in the space formed by the open portion 240 and the cover 300 of the inverter housing 200, and a wire through hole 440 is formed in the width direction to allow the wire 500 to pass therethrough. );
A wire-side terminal 510 coupled to the end 501 of the wire 500 passing through the connector block 400; And
The connector block 400 is formed by being bonded to the connector block 400 so as to surround both sides of the connector block 400 in the longitudinal direction and in the height direction, and the inner side of the connector block 400 in the width direction from which the end 501 of the wire 500 is drawn out And a sealing portion 600 formed by bonding to the end portion 501 of the electric wire 500. It is made including,
The sealing part 600 seals the circumference in the height and length direction of the connector block 400 and the inner surfaces of the inverter housing 200 and the cover 300, and is coupled through the wire through hole 440. Inverter-integrated BLDC motor, characterized in that formed so as to be sealed between the wire 500 and the connector block 400.
delete The method of claim 1,
The sealing part 600,
The first sealing portion 610 formed by being bonded to the connector block 400 so as to surround both sides of the connector block 400 in the length direction and both sides in the height direction, and formed to be greater than or equal to the length and width of the connector block 400 ; And
A second sealing portion 620 formed by bonding the end portion 501 of the wire 500 to the inner side surface in the width direction of the connector block 400 from which the end portion 501 is drawn out and the end portion 501 of the wire 500; Inverter-integrated BLDC motor, characterized in that comprising a.
The method of claim 3,
The connector block 400 is an inverter-integrated BLDC, characterized in that the flange 415 protrudes in the width direction and the length direction, and the first sealing part 610 is bonded to one side of the flange 415 in the width direction. motor.
The method of claim 4,
The inverter housing 200 has a guide groove 250 formed concave on the inner side thereof, and the flange 415 and the first sealing portion 610 of the connector block 400 are inserted into the guide groove 250 to be placed. Inverter-integrated BLDC motor, characterized in that.
The method of claim 1,
The assembly portion 410 of the connector block 400 is inserted and coupled between the edge wall ends 232 on both sides of the longitudinal direction in which the inverter housing 200 is formed with the opening portion 240,
A coupling groove 231 is formed along the edge wall 230 of the inverter housing 200, and a sealing material coating groove 413 connected to the coupling groove 231 in the assembly portion 410 of the connector block 400 ) Is formed, and a protrusion 311 is formed along the rim wall 310 of the cover 300, and the protrusion 311 is inserted into the coupling groove 231 and the sealing material application groove 413 to be combined. Inverter-integrated BLDC motor, characterized in that.
The method of claim 1,
The sealing part 600 is an inverter-integrated BLDC motor, characterized in that formed by insert injection or coating or formed of an O-ring.
The method of claim 6,
The coupling groove 231 and the sealant application groove 413 are filled with a sealant 630, and between the coupling groove 231 and the protrusion 311 and between the sealant application groove 413 and the protrusion 311 Inverter-integrated BLDC motor, characterized in that the sealed.
The method of claim 1,
The connector block 400 has a blocking plate 420 formed in the inner direction of the inverter housing 200 in the width direction from the assembly part 410, and the blocking plate 420 has a width through the wire through hole 440 It is formed so as to surround the end 501 of the electric wire 500 drawn inward in the direction, and a space part 430 is formed inside,
Inverter, characterized in that the wire-side terminal 510 is coupled to pass through the barrier plate 420, and the end 501 of the wire 500 and the wire-side terminal 510 are combined in the space 430 All-in-one BLDC motor.
The method of claim 9,
Inverter-integrated BLDC motor, characterized in that the second sealing portion 620 is formed by filling the space portion 430 of the connector block 400.
The method of claim 10,
A block fastening part 220 is formed in the inverter housing 200, and a coupling part 421 is formed in the connector block 400, and a coupling part is attached to the block fastening part 220 by a fastening means 422. 421) is fastened to the inverter-integrated BLDC motor, characterized in that fixed.
The method of claim 9,
Inverter integrated type, characterized in that the substrate-side terminal 211 is formed on the PCB substrate 210 provided inside the inverter housing 200, and the substrate-side terminal 211 and the wire-side terminal 510 are combined. BLDC motor.
The method of claim 12,
An inverter-integrated BLDC motor, characterized in that the end of the substrate-side terminal 211 and the end of the wire-side terminal 510 are bent upward so as to face each other, and the bent bent portions 212 and 511 are in surface contact with each other to be coupled.
The method of claim 1,
A substrate-side PCB terminal 211a is formed on the PCB substrate 210 provided in the inverter housing 200, and a three-phase terminal 120 is provided on the stator 110 provided in the motor 100. Formed,
The three-phase terminal 120 of the stator 110 passes through the inverter housing 200 and the PCB substrate 210, and the substrate-side PCB terminal 211a and the three-phase terminal 120 are in surface contact with each other and are combined. Inverter-integrated BLDC motor, characterized in that. One side is coupled to the motor 100, the inside is formed to be hollow and the other side is formed to be open, a part of the edge wall 230 is formed to be opened, an opening 240 is formed, and the PCB substrate 210 inside the hollow Inverter housing 200 is provided;
A cover 300 coupled to an open lower side of the inverter housing 200 to seal a surface in contact with the inverter housing 200;
The connector block 400 is interposed in the space formed by the open portion 240 and the cover 300 of the inverter housing 200, and a wire through hole 440 is formed in the width direction to allow the wire 500 to pass therethrough. ); And
A wire-side terminal 510 coupled to the end 501 of the wire 500 passing through the connector block 400;
It is made including,
The connector block 400 has a blocking plate 420 formed in the inner direction of the inverter housing 200 in the width direction from the assembly part 410, and the blocking plate 420 has a width through the wire through hole 440 It is formed so as to surround the end 501 of the electric wire 500 drawn inward in the direction, and a space part 430 is formed inside,
The wire-side terminal 510 is coupled to pass through the barrier plate 420, and the end 501 of the wire 500 and the wire-side terminal 510 are coupled in the space 430,
Filled in the space portion 430 of the connector block 400 to form a second sealing portion 620,
A block fastening part 220 is formed in the inverter housing 200, and a coupling part 421 is formed in the connector block 400, and a coupling part is attached to the block fastening part 220 by a fastening means 422. 421) is fastened to the inverter-integrated BLDC motor, characterized in that fixed.

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