DE102019116604A1 - Terminal block unit - Google Patents

Abstract

A terminal block unit (X) configured to be mounted on an outer portion of a case (1) that houses a rotary electric machine (M), the terminal block unit (X) being a terminal block (2) having a terminal (2A) which is electrically connected to a coil of the rotary electric machine (M) and comprises a resin portion (2B) at least partially surrounding the terminal (2A) and a body portion (3) comprising a penetration hole (30) in that the connection block (2) is inserted to be positioned, the connection block (2) being set up to be inserted into a hole section (1a) of the housing (1) from an outside of the housing (1), the connection block ( 2) is prevented by the housing (1) from moving in a first direction (Y1) serving as an insertion direction of the terminal block (2) with respect to the body portion (3), and by the body portion (3) g is prevented from moving in a second direction (Y2) opposite to the direction of insertion of the connection body (2).

Description

Technical field

This disclosure generally relates to a terminal block assembly configured to be mounted on an outer portion of a housing that houses a rotary electric machine.

State of the art

A known connection block unit comprises a connection block, which comprises connections electrically connected to coils of an electrical rotary machine, and a body section, to which the connection block is fixed. Such a connection block unit is for example in JP 2010-183794 A (Reference 1) and JP 2013-110817 A (Reference 2). The aforementioned terminal block unit serves as a relay terminal block that connects three-phase lines that feed a three-phase alternating current generated by converting a battery power source of an automobile through an inverter circuit to the coils of the rotary electric machine.

A terminal block unit disclosed in Reference 1 includes a body portion (a case) that includes an end opening to which a terminal block is inserted to be positioned. The terminal block is fixed to the body portion by screw members that are provided on a flange portion that protrudes annularly toward a radially outer side of the terminal block.

According to a terminal block unit disclosed in reference 2, a plate of the terminal block is fixed to a motor case by a bolt. In a housing in which the terminal block is inserted into the motor housing, the insertion is guided through a terminal (a connecting shaft) which is positioned at a center of the terminal block and which is longer than other terminals.

According to the known terminal block unit mentioned above, the flange portion and / or the plate provided on the terminal block requires a certain strength to fix the bolt. In addition, machining a threaded hole on the body portion or the motor housing is necessary, which can result in an enlargement of the connection block and / or the body portion.

There is therefore a need for a terminal block unit with reduced dimensions.

Summary

According to an aspect of this disclosure, a terminal block unit configured to be mounted on an outer portion of a case that houses a rotary electric machine, a terminal block that has a terminal that is electrically connected to a coil of the rotary electric machine, and a resin portion that at least partially surrounds the connector, and a body portion that includes a penetration hole into which the connector block is inserted to be positioned, the connector block configured to be inserted into a hole portion of the case from an outside of the case , wherein the terminal block is prevented from moving in a first direction serving as an insertion direction of the terminal block with respect to the body portion, and is prevented by the body portion from opposing to the insertion direction of the terminal block e second direction to move.

Accordingly, since the aforementioned construction is different from a construction in which a flange portion provided on a terminal block is fixed to a body portion by, for example, a bolt as in a known unit, it is not necessary to round the penetration hole of the body portion increase an amount corresponding to inserting such a bolt. The terminal block and body section can be constructed with reduced dimensions. As a result, the terminal block unit with reduced dimensions can be obtained.

The connector block is prevented from moving in the second direction by the body portion via an elastic member.

Accordingly, even if the terminal block unit or the housing vibrates or a manufacturing defect is detected on the body portion, the terminal block or the housing, the terminal block is surely prevented from moving in the second direction by the elastic member.

The elastic component is fixed to the body section, the elastic component pressing the connection in the first direction.

Accordingly, the body portion and the elastic member serve as an integrated component. Thus, the assembly of the terminal block unit can be carried out easily.

The elastic member is fixed to the connector, the connector receiving a pressing force in the first direction in a state where the elastic member presses the body portion in the second direction.

Accordingly, the connection block and the elastic component serve as an integrated component. Thus, the assembly of the terminal block unit can be carried out easily.

The connector includes a connector step portion that is established by a part of the connector on one side in the first direction, the portion of the connector being stepped down to a radially inner side of the connector. The resin section includes a resin step section that makes contact with the terminal step section. The connector can be engaged and disengaged with respect to the resin portion, the connector step portion pushing the resin step portion in the first direction by a pressing force of the elastic member.

Accordingly, the pressing force of the elastic member is transmitted to the resin portion through the connector, so that the resin portion is pressed against the housing in the first direction. Thus, the connector and the resin portion are not necessarily formed in one piece, which can increase manufacturing efficiency.

The terminal block unit further includes a sealing member that is provided between the terminal and the resin portion.

Accordingly, coolant of the rotary electric machine is prevented from entering between the terminal and the resin portion due to the sealing member. For example, damage to the connection block by a foreign substance mixed in the coolant is prevented. In addition, even in a case where the terminal and the resin portion are prevented from being fitted and fixed to each other because the sealing member is disposed between the terminal and the resin portion, a relative movement between the terminal and the resin portion is caused by the elastic member limited. Therefore, the terminal block unit can be obtained with reduced dimensions.

Figure list

• 1 eine gesamte Draufsicht einer an einem Motorgehäuse montierten Anschlussblockeinheit gemäß einer hier offenbarten Ausführungsform ist;
• 2 eine Draufsicht der Anschlussblockeinheit mit einem entfernten Abdeckungsabschnitt ist;
• 3 eine linke Seitenansicht der Anschlussblockeinheit ist;
• 4 eine rechte Seitenansicht der Anschlussblockeinheit ist;
• 5 eine Querschnittsansicht entlang einer Linie V-V in 2 ist;
• 6 eine perspektivische Explosionsansicht der Anschlussblockeinheit in einer schrägen Richtung von links gesehen ist;
• 7 eine perspektivische Explosionsansicht der Anschlussblockeinheit in einer schrägen Richtung von rechts gesehen ist;
• 8 eine perspektivische Explosionsansicht eines ersten Anschlussblocks ist;
• 9 eine perspektivische Ansicht eines zweiten Anschlussblocks ist;
• 10 eine Querschnittsansicht einer Anschlussblockeinheit gemäß einer anderen hier offenbarten Ausführungsform ist;
• 11 eine Querschnittsansicht einer Anschlussblockeinheit gemäß einer weiteren anderen hier offenbarten Ausführungsform ist; und
• 12 eine Querschnittsansicht einer Anschlussblockeinheit gemäß einer weiteren anderen hier offenbarten Ausführungsform ist.

The foregoing and additional features and characteristics of this disclosure will become more apparent from the following detailed description with reference to the accompanying drawings, in which:

• 1 4 is an overall top view of a terminal block assembly mounted on a motor housing in accordance with an embodiment disclosed herein;
• 2nd 4 is a top view of the terminal block unit with a cover portion removed;
• 3rd a left side view of the terminal block unit;
• 4th a right side view of the terminal block unit;
• 5 a cross-sectional view taken along a line VV in 2nd is;
• 6 an exploded perspective view of the terminal block unit is seen in an oblique direction from the left;
• 7 an exploded perspective view of the terminal block unit is seen in an oblique direction from the right;
• 8th Figure 3 is an exploded perspective view of a first terminal block;
• 9 Figure 3 is a perspective view of a second terminal block;
• 10th FIG. 12 is a cross-sectional view of a terminal block assembly according to another embodiment disclosed herein;
• 11 FIG. 4 is a cross-sectional view of a terminal block assembly according to another other embodiment disclosed herein; and
• 12th FIG. 4 is a cross-sectional view of a terminal block unit according to another other embodiment disclosed here.

Detailed description

Embodiments will be explained with reference to the attached drawings. According to each embodiment is a terminal block unit X on an outer portion of an engine case 1 mounted, which is made of metal and serves as an example of a housing. The engine case 1 takes a three-phase current motor M that serves as a rotating electrical machine. The construction of the terminal block unit is not limited to this disclosure and may be modified or changed as appropriate.

As in 1 to 4th the terminal block unit is used X according to the present embodiment as a relay terminal block that has multiple (three in the embodiment) inverter-side three-phase lines 11 (which are hereinafter referred to as inverter three-phase cables 11 through which a three-phase alternating current flows, with several (three in the embodiment) on the motor side Three-phase cables 12th (the following here as motor three-phase cables 12th are electrically connected to the three-phase AC coils of the three-phase motor M feed. The three-phase alternating current is obtained by converting a direct current from a battery mounted on a vehicle through an inverter circuit. A direction in which the inverter three-phase lines 11 extend, and a direction in which the motor three-phase lines 12th extend are different from each other. The following is a right side of the paper on which 5 is illustrated (ie one of the motor housing 1 facing side) as a first direction Y1 and a left side of the paper (ie one of the inverter three-phase lines 11 facing side) as a second direction Y2 designated. The direction in which the inverter three-phase cables are 11 extend, and the direction in which the motor three-phase lines extend 12th extend are perpendicular to the first direction Y1 and the second direction Y2 .

As in 5 the terminal block unit includes X a first connection block 2nd which serves as an example of the terminal block, the first terminal block 2nd a plurality (three in the embodiment) made of metal 2A comprises and is electrically connected to the coils of the three-phase current motor, and a resin portion 2 B that each of the connections 2A at least partially surrounds. The terminal block unit X also includes a body section 3rd which is a penetration hole 30th through which the first connection block 2nd is used to be positioned. The connections 2A can regarding the resin section 2 B be brought in and out of engagement. The body section 3rd includes a second connector block made of resin 4th on the respective connections 11a the inverter three-phase cables 11 are fixed, and includes a housing made of metal 5 which is the second connection block 4th records. Elastic components 6 are on the second connection block 4th of the body section 3rd fixed to the respective connections 2A of the first connection block 2nd in the first direction Y1 towards the motor housing 1 to press. Ie, the elastic components 6 generate and exert a force on the first terminal block 2nd in the first direction Y1 to press while moving the first terminal block 2nd in the first direction Y1 through the motor housing 1 is prevented. The movement of the first terminal block 2nd in the second direction Y2 is through the housing 5 of the body section 3rd about the elastic components 6 prevented. The penetration hole 30th is on the housing 5 of the body section 3rd intended.

As in 8th the multiple ports are illustrated 2A a first connection 21A , a second connection 21B and a third port 21C , side by side in the order mentioned on the resin section 2 B are arranged.

The first connection 21A includes a first tip end portion 21Aa that is on one side in the second direction Y2 is provided and with which the connection 11a from one of the inverter three-phase lines 11 is electrically connected, a first intermediate section 21Fig that at the first tip end section 21Aa and has a circular cross-section, and a first D-shaped section 21Ac that is on one side in the first direction Y1 is provided and to the first intermediate section 21Fig borders, with the first D-shaped section 21Ac comprises a D-shaped cross section. The first tip end section 21Aa is designed with an internal thread, so that the aforementioned connection 11a the inverter three-phase line 11 at the first tip end portion 21Aa by a screw (nut) B is fixed directly (see 2nd ). As in 7 is illustrated is the connection 11a from one of the inverter three-phase lines 11 to the first tip end section 21Aa fixed to an insertion direction of the first terminal block 2nd regarding the body section 3rd to be rectangular. At this point are the connection 11a the inverter three-phase line 11 and the first tip end portion 21Aa arranged parallel to each other. As in 8th the first tip end portion includes 21Aa a flat surface 21Aa1 on which the connection 11a the inverter three-phase line 11 is fixed and in the direction of the inverter three-phase cables 11 with respect to the first intermediate section 21Fig protrudes. An axis of the first tip end portion 21Aa and an axis of the first intermediate section 21Fig are prevented from matching. An annular sealing groove 21Ab1 is at the first intermediate section 21Fig trained to be slightly closer to the first D-shaped section 21Ac to be positioned with respect to a center. An o-ring 23 that serves as an example of a sealing member is on the sealing groove 21Ab1 arranged over their entire circumference. The first D-shaped section 21Ac includes a first cutout section 21Ac2 on a section in the circumferential direction thereof, the first cutout section 21Ac2 a first connection step section (a first connection step section) 21Ac1 which serves as an example of a terminal step portion and which is to a radially inner side with respect to the first intermediate portion 21Fig is downgraded. A processing area of the first cutout section 21Ac2 is with the flat surface 21Aa1 of the first tip end section 21Aa trained in parallel.

The second connection 21B includes a second tip end portion 21Ba going to one side in the second direction Y2 is provided and with which the connection 11a another of the inverter three-phase lines 11 via a first BAS rail 31 is electrically connected, a second intermediate section 21Bb that at the second tip end section 21Ba and has a circular cross-section, and a second D-shaped section 21Bc that is on one side in the first direction Y1 is provided and to the second intermediate section 21Bb borders, with the second D-shaped section 21Bc comprises a D-shaped cross section. As in 2nd the second tip end portion includes 21Ba a flat surface 21Ba1 which is formed with an internal thread to at a first end portion 31a the first BAS rail 31 through the screw B to be fixed. The flat surface 21Ba1 is at a predetermined angle in a circumferential direction of the terminal 2A regarding the flat surface 21Aa1 of the first tip end section 21Aa inclined (rotated) to with a cover section 7 to be arranged in parallel (see 6 to 8th ). A second end section 31b the first BAS rail 31 is on the second connection block 4th fixed. The first BAS rail 31 also includes a connecting portion 31c that the first end section 31a with the second end section 31b connects, the connecting portion 31c in an L-shape in a plan view (that is, in one to the cover portion 7 vertical direction) as in 7 is illustrated. As in 8th is an annular sealing groove 21Bb1 at the second intermediate section 21Bb trained to be slightly closer to the second D-shaped section 21Bc with respect to a center of the second intermediate section 21Bb to be positioned. The o-ring 23 that serves as an example of the sealing member is on the sealing groove 21Bb1 arranged over their entire circumference. The second D-shaped section 21Bc includes a second cutout section 21Bc2 on a section in the circumferential direction thereof, the second cutout section 21Bc2 a second connection-side step section (a second connection step section) 21Bc1 that serves as an example of the connection step portion and that to a radially inner side with respect to the second intermediate portion 21Bb is downgraded. A machining area of the second cutout section 21Bc2 is with the flat surface 21Ba1 of the second tip end section 21Ba trained in parallel.

The third connection 21C includes a third tip end portion 21Ca that is on one side in the second direction Y2 is provided and with the connection 11a the other of the inverter three-phase lines 11 via a second BAS rail 32 is electrically connected, a third intermediate section 21Cb that at the third tip end section 21Ca borders and comprises a circular cross section, and a third D-shaped section 21Cc that is on one side in the first direction Y1 is provided and to the third intermediate section 21Cb borders, with the third D-shaped section 21Cc comprises a D-shaped cross section. As in 2nd the third tip end portion includes 21Ca a flat surface 21Ca1 which is formed with an internal thread to at a first end portion 32a the second BAS rail 32 through the screw B to be fixed. The flat surface 21Ca1 is with the cover section 7 in the same way as the flat surface 21Ba1 of the second tip end section 21Ba positioned in parallel (see 6 to 8th ). A second end section 32b the second BAS rail 32 is on the second connection block 4th fixed. The second BAS rail 32 also includes a connecting portion 32c that the first end section 32a with the second end section 32b connects, the connecting portion 32c is formed in a U-shape in a plan view in a state in which the arm portions expand outward (see 7 ). As in 8th is an annular sealing groove 21Cb1 at the third intermediate section 21Cb trained to be slightly closer to the third D-shaped section 21Cc with respect to a center of the third intermediate section 21Cb to be positioned. The o-ring 23 that serves as an example of the sealing member is on the sealing groove 21Cb1 arranged over their entire circumference. The third D-shaped section 21Cc includes a third cutout section 21Cc2 on a section in the circumferential direction thereof, the third cutout section 21Cc2 a third connection-side step section (a third connection step section) 21Cc1 which serves as an example of the connection step portion and which is to a radially inner side with respect to the third intermediate portion 21Cb is downgraded. A processing area of the third cutout section 21Cc2 is with the flat surface 21Ca1 the third tip end section 21Ca trained in parallel.

As in 8th the resin portion comprises 2 B an elliptical shape in cross section, during which several (three in the embodiment) penetration hole portions 24th comprises on an inner surface, a flange portion 25th ring-shaped projecting to a radially outer side from an outer surface, and plural (three in the embodiment) sealing groove portions 26 which are provided on the outer surface.

The multiple penetration hole sections 24th include a first penetration hole portion 24a to which the first connection 21A is press-fitted, a second penetration hole portion 24b to which the second connector 21B is press-fitted, and a third penetration hole portion 24c to which the third connection 21C is press-fit. The first penetration hole section 24a includes a first lead 24a2 which has a first resin portion side step portion (a first resin step portion) 24a1 that serves as an example of a resin step portion that makes contact with the first terminal step portion 21Ac1 manufactures. The first lead 24a2 is provided to go to the first cutout section 21Ac2 to be opposite. The second penetration hole section 24b includes a second tab 24b2 which has a second resin portion side step portion (a second resin step portion) 24b1 that serves as an example of the resin step portion that is connected to the second terminal step portion 21Bc1 makes a contact. The second lead 24b2 is provided to the second cutout section 21Bc2 to face. The third penetration hole section 24c includes a third lead 24c2 that a third resin section side step portion 24c1 that serves as an example of the resin step portion that is associated with the third terminal step portion 21Cc1 Makes contact. The third lead 24c2 is provided to the third cutout section 21Cc2 to face. The second lead 24b2 and the third lead 24c2 are at the same angular positions in inner peripheral surfaces of the respective penetration hole sections 24th arranged. The first lead 24a2 is arranged at an angular position to with respect to the second projection 24b2 and the third lead 24c2 to be rotated by a predetermined angle. Respective tip ends of the first D-shaped section 21Ac , the second D-shaped section 21Bc and the third D-shaped section 21Cc stand by the resin section 2 B in a state in which the first connection stage section 21Ac1 , the second connection stage section 21Bc1 and the third connection stage section 21Cc1 with the first resin step section 24a1 , the second resin step section 24b1 and the third resin step section 24c1 make contact each time. An internal thread is on an end face of each of the first D-shaped section 21Ac , the second D-shaped section 21Bc and the third D-shaped section 21Cc in the first direction Y1 provided (see 5 ).

As in 5 is illustrated includes the flange portion 25th that protrudes annularly to a radially outer side, opposite side surfaces in the first direction Y1 and the second direction Y2 . One of the side faces of the flange section 25th in the first direction Y1 (ie a first surface) is against the motor housing 1 in the first direction Y1 pressed so that the first terminal block 2nd through the motor housing 1 is prevented from moving in the first direction Y1 to move. The second connection 21B of the first connection block 2nd is due to the elastic component 6 pressed that on the second connector block 4th is fixed. Thus, due to the compressive force of the elastic component 6 the second connection stage section 21Bc1 the second resin step section 24b1 of the resin section 2 B in the first direction Y1 . Accordingly, the flange section 25th in the first direction Y1 pressed. At this time, the first connection 21A and the third port 21C also in the first direction Y1 through the respective elastic components 6 connected to the second connection block 4th are fixed in the first direction Y1 pressed. Due to the compressive force of the aforementioned elastic components 6 , press the terminal step section 21Ac1 and 21Cc1 the respective resin step section 24a1 and 24c1 of the resin section 2 B in the first direction Y1 . The other of the side faces of the flange portion 25th in the second direction Y2 (i.e. a second surface) is closer to the housing 5 positioned while a small space is formed between them. The first connection block 2nd is through the housing 5 of the body section 3rd prevented from moving in the second direction Y2 to move.

As in 8th are illustrated are the sealing groove portions 26 on the outer surface of the resin section 2 B provided annularly at opposite positions with respect to the flange portion 25th to be arranged. O-rings 27 are on the respective sealing groove sections 26 arranged. A head start 28 is on a portion in the outer surface of the resin portion 2 B provided to be adjacent to the first penetration hole portion 24a to be positioned. The lead 28 serves as a guide for guiding the first terminal block 2nd to get into the penetration hole 30th of the body section 3rd to be used correctly.

As in 9 is illustrated is the second connection block 4th of the body section 3rd formed in an L-shape in a plan view. The second connection block 4th includes a top wall 41 , a side wall section 42 on which the plurality (three in the embodiment) of elastic members 6 are fixed, and an inclined portion 43 by editing an end portion of the top wall 41 , which faces the inverter, is obtained. The connections 11a the inverter three-phase cables 11 are on the inclined section 43 fixed. As in 2nd the housing is illustrated 5 the body section 3rd a box section 51 and a holding section 52 . The box section 51 is obtained by a rectangular (square) box, one side of which is open and a corner portion of which is retracted, around a retracted portion 51a to train. The box section 51 is thus formed in a pentagonal shape in a top view, with the previously mentioned indented section 51a . The holding section 52 holds the inverter three-phase cables 11 and stands by the box section 51 in front. The opening of the case 5 is through the cover section 7 closed, which comprises a pentagonal shape in a plan view and the housing 5 by the multiple (five in the embodiment) screws B is fixed (see 6 and 7 ).

As in 9 is illustrated, the second connection block comprises 4th a first groove section 44 in which the first BAS rail 31 is used to be positioned, and which extends over the top wall 41 , the side wall section 42 and the inclined section 43 extends. The second connection block 4th also includes a second groove portion 45 in which the second BAS rail 32 is used to be positioned, and which extends over the top wall 41 and the inclined section 43 extends. The second connection block 4th further comprises a third groove section 46 that extends over the top wall 41 and the side wall section 42 extends. A first metal component 41a and a second metal component 41b are on the inclined section 43 press fit. In particular, is the first metal component 41a formed with an internal thread that the second end portion 31b the first BAS rail 31 and the connection 11a from one of the inverter three-phase lines 11 through the screw B fixed in a state in which the second end portion 31b and the connection 11a are layered in the order mentioned. The second metal component 41b is formed with an internal thread that the second end portion 32b the second BAS rail 32 and the connection 11a another of the inverter three-phase lines 11 through the screw B fixed in a state in which the second end portion 32b and the connection 11a are layered in the order mentioned. An indentation section 41A is at an area that the second groove portion 45 comprises, between the first metal component 41a and the second metal component 41b intended. A third metal component 41c , in the interior of which a penetration hole is formed, the penetration hole having an internal thread for fixing the second connection block 4th on the housing 5 through the screw B is attached to a bottom surface of the indentation portion 41A that with the top wall 41 is parallel, press-fit. The third metal component 41c extends through the second connection block 4th .

The side wall section 42 of the second connection block 4th includes several (three in the embodiment) U-shaped grooves 61 into which the plural (three in the embodiment) elastic members 6 are each press-fit. Each of the elastic components 6 is made of rubber, for example, and has an essentially frustoconical shape. A press-fit protrusion attached to a bottom portion of each of the elastic members 6 Is provided in the shape of a truncated cone, is on a press-fit groove 61a the U-shaped groove 61 press-fit so that the elastic component 6 to the second connection block 4th is fixed. The elastic components 6 connected to the second connection block 4th are press-fitted to the housing 5 is fixed, press the three connections 2A of the first connection block 2nd in the first direction Y1 towards the motor housing 1 .

Assembly processes of the terminal block unit X are with reference to 3rd , 4th , 6 and 7 explained. First, the screw B into the third metal component 41c of the second connection block 4th used in which the elastic components 6 are mounted so that the housing 5 to the second connection block 4th is fixed around the body section 3rd to obtain. Next, in a state where the first terminal block 2nd where the three connectors 2A to the resin section 2 B are press fit into a hole section 1a of the motor housing is inserted from the outside thereof to the motor housing 1 to be assembled, the body section 3rd closer to the motor housing 1 brought so that the first terminal block 2nd into the penetration hole 30th of the body section 3rd is used. The body section 3rd is then attached to the motor housing 1 by several (three in the embodiment as in 3rd and 4th is illustrated) screws Ba fixed. At this point the connections 2A of the first connection block 2nd in the first direction Y1 that as the direction of insertion of the first terminal block 2nd is used by the on the second connection block 4th fixed elastic components 6 pressed. With the pressure force of the elastic components 6 press the terminal stage sections 21Ac1 , 21Bc1 and 21Cc1 the resin step section 24a1 , 24b1 and 24c1 in the first direction Y1 (please refer 5 ). The first surface of the flange section 25th of the resin section 2 B in a state in which the flange portion 25th in the first direction Y1 is pressed against the motor housing 1 in the first direction Y1 pressed so that the first terminal block 2nd through the motor housing 1 is prevented from moving. The second surface of the flange section 25th is through the housing 5 the body section 3rd prevented from moving in the second direction Y2 to move that as an opposite direction to the insertion direction of the first terminal block 2nd serves.

Next is the first BAS rail 31 in the first groove section 44 of the second connection block 4th used, and is the second BAS rail 32 in the second groove section 45 and the third groove section 46 of the second connection block 4th used. The connection 11a from one of the inverter three-phase lines 11 will be at the first Tip end section 21Aa the first connection 21A through the screw B fixed. The first end section 31a the first BAS rail 31 becomes the second tip end section 21Ba of the second connection 21B through the screw B fixed. The first end section 32a the second BAS rail 32 becomes the third tip end section 21Ca the third connection 21C through the screw B fixed. Then the second end section 31b the first BAS rail 31 and the connection 11a the inverter three-phase line 11 , which are layered in the order mentioned, to the first metal component 41a of the second connection block 4th through the screw B fixed, and become the second end section 32b the second BAS rail 32 and the connection 11a the inverter three-phase line 11 , which are layered in the order mentioned, to the second metal component 41b of the second connection block 4th through the screw B fixed. The cover section 7 is attached to the housing 5 through the screw B fixed so that the terminal block unit X that on the outer portion of the motor housing 1 is assembled, is completed. The motor three-phase lines 12th are on end faces of the D-shaped sections 21Ac , 21Bc and 21Cc of the connections 2A through the screws B fixed by the outside of the terminal block unit X can be visually confirmed so that the inverter three-phase cables 11 and the motor three-phase lines 12th through the terminal block unit X be electrically connected to each other.

Accordingly, the first surface of the flange portion 25th that on the resin section 2 B of the first connection block 2nd is provided against the motor housing 1 in the first direction Y1 pressed so that the first terminal block 2nd through the motor housing 1 is prevented from moving. The first connection block 2nd is also prevented from moving in the second direction Y2 of the first connection block 2nd to move. Ie the flange section 25th that on the resin section 2 B of the first connection block 2nd is provided is between the body portion 3rd and the motor housing 1 arranged. As a result, even if the terminal block unit X Receiving vibrations repeatedly, the flange portion absorbs 25th a shock caused by the vibrations on the first and second surfaces, which is unlikely to break the first terminal block 2nd can cause. It also prevents the flange section 25th that on the resin section 2 B of the first connection block 2nd is provided, is fastened by a bolt as in a known unit. So it is not necessary to use the penetration hole 30th the body section 3rd to increase an amount corresponding to inserting such a bolt. The first connection block 2nd and the body section 3rd can be constructed with reduced dimensions. Thus, the terminal block unit X can be obtained with high durability and reduced dimensions. Even if the terminal block unit X or the motor housing 1 swing or a manufacturing defect on the body section 3rd , the first connection block 2nd or the motor housing 1 is determined, the connection block 2nd through the elastic components 6 safely prevented from moving in the second direction Y2 to move.

Because the elastic components 6 on the body section 3rd are fixed, the body section 3rd and the elastic components 6 serve as an integrated component. Thus, the assembly of the terminal block unit X (Assemble the body section 3rd with the motor housing 1 ) can be easily carried out. Furthermore, the connection stage sections 21Ac1 , 21Bc1 and 21Cc1 that on the connectors 2A are formed, and the resin step portion 24a1 , 24b1 and 24c1 that on the resin section 2 B are formed, contact each other, so that the compressive force of the elastic components 6 on the resin section 2 B through the connections 2A is transmitted. The first surface of the flange section 25th that on the resin section 2 B is provided against the motor housing 1 in the first direction Y1 pressed. Hence the connections 2A and the resin section 2 B not necessarily form in one piece, which can increase manufacturing efficiency.

Furthermore, as mentioned above, are the O-rings 23 between the connection 2A and the resin section 2 B provided while the o-rings 27 between the resin section 2 B and the housing 5 are provided. Thus, a coolant of the three-phase current motor M prevented between the connectors 2A and the resin section 2 B to enter. For example, damage to the first terminal block 2nd prevented by a foreign substance mixed in the coolant. Even in a case where the connections 2A and the resin section 2 B be prevented from being fitted together and fixed, as the O-rings 23 between the connections 2A and the resin section 2 B are arranged, there is a relative movement between the connections 2A and the resin section 2 B through the elastic components 6 limited. Therefore, the terminal block unit X can be obtained with reduced dimensions.

As in 10th According to another embodiment, the elastic member can 6 on the connector 2A be fixed to contact the second terminal block 4th to manufacture. In addition, as in 11 According to a further different embodiment, the elastic component is illustrated 6 on a protrusion section 5A be fixed by a bottom portion of the housing 5 protrudes to contact the connector 2A to manufacture. Furthermore, as in 12th According to a further different embodiment, the elastic component is illustrated 6 on the connector 2A be fixed to contact the protruding portion 5A manufacture by the bottom portion of the housing 5 protrudes. In the cases in 11 and 12th are illustrated as the elastic member 6 in contact with the housing made of metal 5 is heat of connection 2A about the elastic component 6 and the housing 5 released to the outside.

The constructions of the aforementioned embodiments can be appropriately changed and modified. For example, the direction in which the inverter three-phase lines are 11 are arranged, and the direction in which the motor three-phase lines 12th are arranged, not limited to the above. The first connection 21A can be in the same way as the second connector 21B and the third port 21C be constructed. The second connection block 4th and the housing 5 can be formed in one piece. The BAS rails 31 and 32 can be omitted. In this case, the connection 11a the inverter three-phase line 11 and the connection 2A (the second port 21B , the third connection 21C) of the first connection block 2nd are directly electrically connected to each other. The second connection block 4th can comprise, for example, a thermally conductive component such as a metallic component for heat release, so that the elastic component 6 makes contact with the thermally conductive component. In this case, heat from the elastic component 6 to the outside via the elastic component 6 and the thermally conductive component are released. The connections 2A can on the resin section 2 B be insert molded. In this case, the connection stage section 21Ac1 , 21Bc1 and 21Cc1 and the resin step sections 24a1 , 24b1 and 24c1 and the O-ring 23 be omitted.

The flange section 25th that on the resin section 2 B is provided to protrude annularly to the radially outer side from the outer surface is not limited to over the entire circumference of the resin portion 2 B to be provided, and may protrude from a part of the outer surface to the radially outer side. The rotary electric machine is not on the three-phase current motor M limited and can be a DC motor or a generator.

Each of the aforementioned embodiments is applicable to a terminal block unit mounted on an outer portion of a case that houses a rotary electric machine.

A terminal block unit ( X ) that is configured to attach to an outer portion of a housing ( 1 ) to be mounted, which is an electric rotary machine ( M ), whereby the terminal block unit ( X ) a connection block ( 2nd ) that has a connection ( 2A ) with a coil of the rotary electric machine ( M ) is electrically connected, and a resin portion ( 2 B ) which includes the connection ( 2A ) at least partially surrounds and a body section ( 3rd ) which has a penetration hole ( 30th ) into which the connection block ( 2nd ) is used to be positioned, the connection block ( 2nd ) is set up in a hole section ( 1a ) of the housing ( 1 ) from an outside of the housing ( 1 ) to be used, the connection block ( 2nd ) through the housing ( 1 ) is prevented from moving in a first direction ( Y1 ) as a direction of insertion of the terminal block ( 2nd ) serves with respect to the body section ( 3rd ) and through the body section ( 3rd ) is prevented from moving in one of the direction of insertion of the connector body ( 2nd ) opposite second direction ( Y2 ) to move.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• JP 2010183794 A [0002]
• JP 2013110817 A [0002]

Claims (6)

Terminal block unit (X) configured to be mounted on an outer portion of a housing (1) that houses a rotary electric machine (M), the terminal block unit (X) comprising: a terminal block (2) including a terminal (2A) electrically connected to a coil of the rotary electric machine (M) and a resin portion (2B) at least partially surrounding the terminal (2A); and a body portion (3) including a penetration hole (30) into which the terminal block (2) is inserted to be positioned, wherein the connection block (2) is set up to be inserted into a hole section (1a) of the housing (1) from an outside of the housing (1), the terminal block (2) is prevented from moving by the housing (1) in a first direction (Y1) serving as an insertion direction of the terminal block (2) with respect to the body portion (3) and through the body portion (3 ) is prevented from moving in a second direction (Y2) opposite to the insertion direction of the connection body (2). Terminal block unit (X) according to Claim 1 , wherein the connection block (2) is prevented by the body section (3) via an elastic component (6) from moving in the second direction (Y2). Terminal block unit (X) according to Claim 2 , wherein the elastic component (6) is fixed to the body section (3), the elastic component (6) pushing the connection (2A) in the first direction (Y1). Terminal block unit (X) according to Claim 2 , wherein the elastic member (6) is fixed to the connector (2A), the connector (2A) receiving a pressing force in the first direction (Y1) in a state in which the elastic member (6) the body portion (3) in the second direction (Y2). Terminal block unit (X) according to any one of claims 2 to 4, wherein the connector (2A) comprises a connector step portion (21Ac1, 21Bc1, 21Cc1) that is established by a part of the connector (2A) on one side in the first direction (Y1), the portion of the connector (2A) facing a radially inner one Side of the connector (2A) is stepped down, the resin section (2B) comprises a resin step section (24a1, 24b1, 24c1) making contact with the terminal step section (21Ac1, 21Bc1, 21Cc1), the connector (2A) can be engaged and disengaged with respect to the resin portion (2B), the connector step portion (21Ac1, 21Bc1, 21Cc1) the resin step portion (24a1, 24b1, 24c1) in the first direction (Y1) by a compressive force of the elastic Component (6) presses. Terminal block unit (X) according to Claim 5 , further with a sealing member (23) provided between the connector (2A) and the resin portion (2B).

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