JP6130113B2 - Power circuit breaker - Google Patents

Description

  The present invention relates to a power circuit breaker, and more particularly to a main circuit switch that disconnects a power circuit and a signal circuit switch that outputs a disconnect signal to the outside before the main circuit switch is disconnected.

  Conventionally, a power circuit breaker 301 as shown in FIGS. 14 and 15 is known (see, for example, Patent Document 1).

  The power circuit breaker 301 includes a first connector housing 303 and a second connector housing 305. The second connector housing 305 is fitted into the first connector housing 303 and is detached from the first connector housing 303.

  The first connector housing 303 is provided with a female terminal 309 of a main circuit switch (main circuit) 307 and a female terminal 313 of a signal circuit switch (interlock circuit) 311, and the second connector housing 305 has a main terminal. A male terminal 315 of the circuit switch (main switch) 307 and a male terminal 317 of the signal circuit switch (interlock switch) 311 are provided.

  A lever 319 is rotatably provided on the second connector housing 305. The lever 319 is engaged with the first connector housing 303.

  The first connector housing 303 is engaged and disengaged by the rotation of the lever 319 engaged with the first connector housing 303.

  In FIG. 14, the first connector housing 303 is fitted to the second connector housing 305, and in this state, the female terminal 309 of the main circuit switch 307 and the male terminal 315 of the main circuit switch 307 are electrically connected to each other. The main circuit switch 307 is closed. In FIG. 14, the female terminal 313 of the signal circuit switch 311 and the male terminal 317 of the signal circuit switch 311 are electrically connected to each other, and the signal circuit switch 311 is also closed.

  The work of shutting off the main circuit switch 307 (the work of releasing the lever 319) in the power circuit breaker 301 is performed by rotating the lever 319. That is, by rotating the lever 319 as shown in FIG. 15 from the state shown in FIG. 14, the first connector housing 303 moves upward and gradually moves away from the second connector housing 305.

  When the first connector housing 303 is gradually separated from the second connector housing 305, first, the male terminal 317 of the signal circuit switch 311 is pulled out of the female terminal 313 of the signal circuit switch 311 and the male terminal 317 of the signal circuit switch 311 is signaled. The signal circuit switch 311 opens away from the female terminal 313 of the circuit switch 311.

  Subsequently, a signal opened by the signal circuit switch 311 is sent to a relay (not shown) separate from the power circuit breaker 301, and the voltage is not applied to the main circuit switch 307 by opening the relay.

  By further rotating the lever 319 and further separating the second connector housing 305 from the first connector housing 303, the male terminal 315 of the main circuit switch 307 comes out of the female terminal 309 of the main circuit switch 307, and the main circuit switch 307 The male terminal 315 is separated from the female terminal 309 of the main circuit switch 307, and the main circuit switch 307 is opened.

  When the main circuit switch 307 is opened, the main circuit switch 307 is not in a live state due to the interruption by the relay, and the occurrence of sparks in the main circuit switch 307 is suppressed.

  Referring to FIG. 16, when the release rate of the lever 319 is 0%, it is as shown in FIG. FIG. 15 shows a state in which the release rate of the lever 319 is aa%, and the signal circuit switch 311 shows a state immediately before opening.

  When the release rate of the lever 319 becomes ab%, only the signal circuit switch 311 is opened. When the release rate of the lever 319 is between ab% and ac%, the signal circuit switch 311 is open and the main circuit switch 307 is closed. When the release rate of the lever 319 exceeds ac%, the signal circuit switch 311 and the main circuit switch 307 are opened.

  With this configuration, it is possible to perform a shut-off operation without causing a spark at each of the terminals 309 and 315 of the main circuit switch 307.

  Moreover, the conventional power circuit breaker 351 (see, for example, Patent Document 2) shown in FIGS. 17 and 18 is configured in the same manner as the power circuit breaker 301 except for the following points.

  In the power circuit breaker 351, the lever 353 is provided with a lock portion 355 for preventing the lever 353 from rotating easily.

  In the power circuit breaker 351, a signal circuit switch 357 is provided outside the connector housings 359 and 361.

JP 2012-79430 A JP 2012-119292 A

  By the way, when the release operation of the lever 319 is performed in a short time in the power circuit breaker 301, the main circuit switch 307 is released in a state where the voltage is applied to the main circuit switch 307 without operating the relay ( There is a problem that sparks may occur in rare cases.

  Since the power circuit breaker 351 is provided with the lock portion 355 and it takes time to release the lock portion 355, it takes some time to release the lever 319. Therefore, the main circuit switch 307 is not opened in a state where the voltage is applied to the main circuit switch 307, and there is no possibility that a spark is generated.

  On the other hand, in the power circuit breaker 351, since the signal circuit switch 357 is provided outside the connector housings 359 and 361, there is a problem that it is difficult to make a waterproof structure and it is difficult to install in a place where water is applied. is there.

  The present invention has been made in view of the above-described problems, and provides a power supply circuit interrupting device that eliminates the occurrence of sparks in the main circuit switch disconnecting operation (lever releasing operation) and can be easily made waterproof. The purpose is to do.

According to a first aspect of the present invention, a first connector housing, a second connector housing that is fitted and detached from the first connector housing, and a second connector housing that is rotatably provided on the second connector housing. A fitting force is applied between the second connector housing and the first connector housing during rotation from the release position to the fitting position through the first intermediate position and the second intermediate position, A lever for applying a separating force between the second connector housing and the first connector housing during rotation from the fitting position to the second intermediate position and the first intermediate position to the release position; Main terminals are provided in the first connector housing and the second connector housing, respectively, and the lever is connected to the release position and the second connector housing. A main circuit switch that is in an off state when it is between the intermediate positions and an on state when the lever is between the first intermediate position and the fitting position; and in the first connector housing and the first The signal connector is provided in each of the two connector housings, and the lever is in an off state when the lever is between the release position and the second intermediate position, and the lever is in the second intermediate position and the fitting position. A signal circuit switch that is in an on state when in between, a lock portion that locks the rotation position of the lever when the main circuit switch is in an on state and the signal circuit switch is in an off state;
Have
The first connector housing includes a cylindrical first connector housing main body having a central axis extending in the vertical direction, and a flange protruding from the outer periphery of the first connector housing main body at an intermediate portion in the vertical direction. The second connector housing is configured to include a second connector housing main body portion and an inner cylindrical portion, and the second connector housing main body portion has a central axis in the vertical direction. The inner cylindrical portion has an outer diameter dimension that is larger than an inner diameter dimension of the side wall portion, and includes an extending cylindrical side wall portion and a bottom wall portion that covers the upper portion of the side wall portion. Is formed in a small cylindrical shape, is provided inside the side wall portion, and protrudes downward from the bottom wall portion so that the central axis coincides with the central axis of the side wall portion, In the mating position Wherein the upper portion of the first connector housing body portion, at the upper side of the flange portion, the second connector housing body portion has a lid, the main terminal and the signal terminals and said inner cylindrical portion and said first connector The first connector housing main body is located between the second connector housing main body and the inner cylindrical portion, and the first connector housing main body and the inner cylinder are located in the housing main body. The power circuit breaker is characterized in that a packing is provided between the first and second parts.

  According to a second aspect of the present invention, in the power circuit breaker according to the first aspect, the power supply circuit breaker includes a lock release operation part that can be released by a person operating the lock state of the lock part.

  According to a third aspect of the present invention, in the power circuit breaker according to the first or second aspect, the lever is provided with a cam groove, and the protrusion provided on the first connector housing is the cam. The lever is configured to engage with the first connector housing by entering into the groove, and includes a rotation center axis of the lever and expands in the moving direction of the second connector housing relative to the first connector housing. The signal terminal of the signal circuit switch and the main terminal of the main circuit switch are arranged symmetrically with respect to the plane on which the projection is located, and the central axis of the projection of the first connector housing exists in the plane. It is a power circuit breaker.

  The invention according to claim 4 is the power circuit breaker according to claim 3, wherein the signal terminal of the signal circuit switch is located inside the main terminal of the main circuit switch. .

  Advantageous Effects of Invention According to the present invention, there is an effect that it is possible to provide a power supply circuit interrupting device that eliminates the occurrence of sparks in the main circuit switch disconnecting operation (lever releasing operation) and can easily be made waterproof.

It is a perspective view which shows schematic structure of the power circuit breaker concerning embodiment of this invention, Comprising: It is a figure which shows what the lever is located in a fitting position. It is II arrow directional view in FIG. It is a III arrow directional view in FIG. It is a figure which shows the IV-IV cross section in FIG. It is a perspective view which shows schematic structure of the power circuit breaker which concerns on embodiment of this invention, Comprising: It is a figure which shows what the lever is located in a 3rd intermediate position. It is VI arrow directional view in FIG. It is a VII arrow line view in FIG. It is a figure which shows the VIII-VIII cross section in FIG. It is a perspective view which shows schematic structure of the power circuit breaker which concerns on embodiment of this invention, Comprising: It is a figure which shows what the lever is located in a release position. FIG. 10 is a view taken in the direction of arrow X in FIG. 9. It is a XI arrow line view in FIG. It is a figure which shows the XII-XII cross section in FIG. It is a figure which shows the relationship between the rotation angle (lever cancellation | release ratio) of a lever, and the ON / OFF state of a main circuit switch and a signal circuit switch in the power circuit breaker which concerns on embodiment of this invention. It is sectional drawing which shows schematic structure of the conventional power circuit breaker. It is sectional drawing which shows schematic structure of the conventional power circuit breaker. It is a figure which shows the relationship between the rotation angle (lever cancellation | release ratio) of a lever, and the ON / OFF state of a main circuit switch and a signal circuit switch in the conventional power circuit breaker. It is sectional drawing which shows schematic structure of the conventional power circuit breaker. It is a perspective view which shows schematic structure of the conventional power circuit breaker.

  A power circuit breaker (switch device) 1 according to an embodiment of the present invention is mounted on a vehicle (not shown) or the like (for example, an electric vehicle or a hybrid vehicle), and loads such as a motor that drives the vehicle and power to the load. The power supply circuit is connected to a DC power source such as a battery or a fuel cell to be supplied, and is specifically described as being attached to a battery case BC (see FIG. 4). As long as the current flowing through the circuit is interrupted, the present invention is not limited to being mounted on a vehicle, and the mounting position is not limited to the battery case.

  The power circuit breaker 1 includes a first connector housing (first cavity) 3, a second connector housing (second cavity) 5, a lever 7, and a main circuit switch (main switch) as shown in FIGS. 9, a signal circuit switch (interlock switch) 11, and a lock portion (intermediate lock portion; second lock portion; see FIG. 8) 13.

  Here, for convenience of explanation, a predetermined one direction in the power circuit breaker 1 is a vertical direction, a predetermined one direction orthogonal to the vertical direction is a horizontal direction, and a predetermined direction is orthogonal to the vertical direction and the horizontal direction. Let one direction be the height direction.

  The second connector housing 5 is fitted to and detached from the first connector housing 3 by moving in the height direction with respect to the first connector housing 3 above the first connector housing 3.

  The lever 7 is provided on the second connector housing 5 so as to be rotatable (rotatable), and is engaged with the first connector housing 3.

  The lever 7 passes through the first intermediate position (not shown) and the second intermediate position (not shown) in this order from the release position PS2 (see FIG. 12 etc.) to the fitting position PS1 (see FIG. 4 etc.). During the rotation, a fitting force is applied between the second connector housing 5 and the first connector housing 3.

  Further, while the lever 7 rotates from the fitting position PS1 through the second intermediate position and the first intermediate position in this order until reaching the release position PS2, the lever 7 is interposed between the second connector housing 5 and the first connector housing 3. The withdrawal force is applied.

  The first intermediate position of the lever 7 is a position where the lever 7 stands up from the position shown in FIG. In other words, at the first intermediate position, the lever 7 is present at a predetermined rotational position located between the rotational position shown in FIG. 12 and the rotational position shown in FIG.

  The second intermediate position of the lever 7 is a position where the lever 7 is tilted more than the position shown in FIG. In other words, at the second intermediate position, the lever 7 is present at a predetermined rotational position located between the rotational position shown in FIG. 4 and the rotational position shown in FIG.

  The main circuit switch 9 is provided in each of the first connector housing 3 and the second connector housing 5.

  Further, as shown in FIG. 13, the main circuit switch 9 is in an OFF state when the lever 7 (second connector housing 5) is between the release position PS2 and the first intermediate position, and the lever 7 (second connector). When the housing 5) is between the first intermediate position and the fitting position PS1, it is turned on.

  More specifically, the main circuit switch 9 includes a pair of female terminals (female connectors) 15 (15A, 15B) and a pair of male terminals (male connectors) 17 (17A, 17B). The pair of female terminals 15 are integrally provided in the first connector housing 3 and are separated from each other. The pair of male terminals 17 are integrally provided in the second connector housing 5 and are separated from each other. However, the pair of male terminals 17 </ b> A and 17 </ b> B are integrally formed with the connection portion 19 and are connected to each other (conducted) via the connection portion 19.

  When the lever 7 is between the release position PS2 and the first intermediate position, each of the pair of male terminals 17 comes out of each of the pair of female terminals 15 (from one female terminal 15A to one male terminal). The terminal 17A is pulled out, the other male terminal 17B is pulled out from the other female terminal 15B), the female terminal 15 and the male terminal 17 are separated from each other, and one female terminal 15A and the other female terminal 15B are separated from each other. Are mutually non-conductive.

  Similarly to the main circuit switch 9, the signal circuit switch 11 is also provided in each of the first connector housing 3 and the second connector housing 5.

  Further, as shown in FIG. 13, the signal circuit switch 11 is in an OFF state when the lever 7 (second connector housing 5) is between the release position PS2 and the second intermediate position, and the lever 7 (second connector). When the housing 5) is between the second intermediate position and the fitting position PS1, it is turned on.

  More specifically, the signal circuit switch 11 includes a pair of female terminals (female connectors) 21 (21A, 21B) and a pair of male terminals (male connectors) 23 (23A, 23B). The pair of female terminals 21 are integrally provided in the first connector housing 3 and are separated from each other. The pair of male terminals 23 are integrally provided in the second connector housing 5 and are separated from each other. However, the pair of male terminals 23 </ b> A and 23 </ b> B are integrally formed with the connection portion 25 and are connected to each other (conducted) via the connection portion 25.

  When the lever 7 is between the release position PS2 and the second intermediate position, each of the pair of male terminals 23 comes out of each of the female terminals of the pair of female terminals 21 (from one female terminal 21A). One male terminal 23A is pulled out, the other male terminal 23B is pulled out from the other female terminal 21B), the female terminal 21 and the male terminal 23 are separated from each other, and one female terminal 21A and the other female terminal 21B are separated from each other. The female terminal 21B is in a non-conductive state.

  When the lever 7 engaged with the first connector housing 3 is located at the fitting position PS1, the second connector housing 5 is fitted into the first connector housing 3 (each of the connector housings 3, 5). The main circuit switch 9 and the signal circuit switch 11 are both turned on. The power circuit breaker 1 is normally used in a state where the connector housings 3 and 5 are fitted to each other (see FIGS. 1 to 4).

  Further, when the lever 7 engaged with the first connector housing 3 is located at the release position PS2, the second connector housing 5 has come out of the first connector housing 3. Both the main circuit switch 9 and the signal circuit switch 11 are off.

  Further, a wiring terminal (not shown) is connected to each of the female terminals 15A, 15B, 21A, and 21B of the power circuit breaker 1 attached to the battery case BC.

  That is, one wiring terminal is installed on the female terminal 15A, one wiring terminal is installed on the female terminal 15B, one wiring terminal is installed on the female terminal 21A, and one wiring terminal is installed on the female terminal 21B. Is to be installed. The four wiring terminals are separated from each other. A wiring (not shown) extends from each of the four wiring terminals.

  A wiring extending from one female terminal 15A of the main circuit switch 9 is connected to one terminal of a battery (not shown). The wiring extending from the other female terminal 15B is connected to the other terminal of the battery (not shown). However, a load (not shown) such as a motor and a relay (not shown) are provided in the middle portion of the wiring extending between the other female terminal 15B and the other terminal of the battery (not shown). Are connected in series.

  The wiring extending from one female terminal 21A of the signal circuit switch 11 is connected to one input terminal of the relay, and the wiring extending from the other female terminal 21B is the other input of the relay. Connected to the terminal. However, a power source such as a battery is connected to an intermediate portion of the wiring extending between the other female terminal 21B and the other input terminal of the relay.

  And between the fitting position PS1 and the first intermediate position shown in FIG. 13 and the like (when the lever 7 and the second connector housing 5 are located between the fitting position PS1 and the second intermediate position), A signal indicating that the female terminals 21A and 21B of the signal circuit switch 11 are electrically connected to each other is input to the relay, and the relay is closed.

  In the fitting position PS1 (position between the fitting position PS1 and the first intermediate position) shown in FIG. 13 and the like, the wiring extending from one female terminal 15A of the main circuit switch 9 and the other female terminal 15B. The wirings extending from each other are electrically connected to each other.

  More specifically, when the lever 7 (second connector housing 5) exists between the fitting position PS1 and the second intermediate position, the main circuit switch 9, the load, and the relay are used to The battery terminals are connected to each other. When the lever 7 (second connector housing 5) is present between the second intermediate position and the first intermediate position, the terminals of the battery are brought into a non-conductive state by the relay. When the lever 7 is present between the first intermediate position and the release position PS2, the terminals of the battery are brought into a non-conductive state by the relay and the main circuit switch 9.

  The intermediate lock portion 13 is a position where the lever 7 is rotated when the second connector housing 5 is detached from the first connector housing 3 and the main circuit switch 9 is in the on state and the signal circuit switch 11 is in the off state. Is to lock. That is, the lever 7 is engaged with the first connector housing 3, and the lever 7 and the second connector housing 5 are in a predetermined position between the first intermediate position and the second intermediate position (third intermediate position; see FIG. 8 and the like). The rotation position of the lever 7 is locked when it is positioned at PS3.

  More specifically, the intermediate lock portion 13 is configured to lock the lever 7 so as not to rotate further to the release position PS2. For example, even if locked by the intermediate lock portion 13, the lever 7 rotates on the fitting position PS1 side.

  The power circuit breaker 1 is provided with a lock part (fixed lock part; first lock part) 27 and a release operation part 29.

  The fixed lock portion 27 is in the normal fitting state shown in FIGS. 1 to 4 (normal use state in which the main circuit switch 9 and the signal circuit switch 11 are on) (the lever 7 is in the fitting position PS1). The rotation position of the lever 7 is locked.

  Further, when the release operation unit 29 is operated by a person, the locked state of the intermediate lock unit 13 (when the lever 7 is positioned at the third intermediate position PS3) is released, and the lever 7 can be rotated. Has been.

  Furthermore, another release operation unit 31 is provided in the power circuit breaker 1. And it is comprised so that the locked state (state when the lever 7 is located in fitting position PS1) of the fixed lock part 27 can be cancelled | released when a person operates the cancellation | release operation part 31. FIG.

  Incidentally, the lever 7 is provided with a cam groove 33. The protrusions 35 provided on the first connector housing 3 enter the cam groove 33 so that the lever 7 is engaged with the first connector housing 3.

  Signal terminals (female terminals, male terminals) 21, 23 of the signal circuit switch 11 are located inside main terminals (female terminals, male terminals) 15, 17 of the main circuit switch 9. That is, as shown in FIG. 4 and the like, the signal terminals 21 and 23 of the signal circuit switch 11 exist between the main terminals 15 and 17 of the main circuit switch 9 in the vertical direction.

  A plane (center plane) PL including the rotation center axis C1 of the lever 7 and extending in the moving direction of the second connector housing 5 with respect to the first connector housing 3 (moving direction when fitting or disengaging; height direction) On the other hand, the signal terminals 21 and 23 of the signal circuit switch 11 and the main terminals 15 and 17 of the main circuit switch 9 are arranged almost symmetrically.

  Further, the central axis C2 of the protrusion 35 of the first connector housing 3 exists in the central plane PL (may be slightly shifted). As can be understood, the center plane PL extends in the height direction and the lateral direction, and the axes C1 and C2 extend in the lateral direction.

  More specifically, the lever 7 rotates with respect to the second connector housing 5 by rotating a predetermined axis C1. The second connector housing 5 moves relative to the first connector housing 3 in a direction (height direction) that connects the central axis C2 of the protrusion 35 of the first connector housing 3 and the rotational central axis C1 of the lever 7 to each other. By doing so, it is designed to engage and disengage. Further, the terminals 21 and 23 of the signal circuit switch 11 and the terminals 15 and 17 of the main circuit switch 9 with respect to the plane PL including the central axis C2 of the projection 35 of the first connector housing 3 and the rotation central axis C1 of the lever 7 are illustrated. Are arranged almost symmetrically.

  Here, the power circuit breaker 1 will be described in more detail.

  The first connector housing 3 is integrally formed of a material such as an insulating synthetic resin, and includes a first connector housing main body portion 37, a flange portion 39, and a protrusion 35.

  The first connector housing main body 37 is formed in a cylindrical shape, and the central axis extends in the vertical direction. The flange portion 39 projects from the outer periphery of the first connector housing main body portion 37 at an intermediate portion in the height direction, and expands in the vertical direction and the horizontal direction.

  The protrusion 35 is above the flange portion 39 and is an intermediate portion in the height direction of the first connector housing main body portion 37 and protrudes from the outer periphery of the first connector housing main body portion 37 to both sides in the lateral direction. That is, two protrusions 35 are provided. Further, the protrusion 35 is positioned substantially at the center of the first connector housing main body 37 in the vertical direction.

  The female terminal 15 of the main circuit switch 9 is formed in a cylindrical shape with a conductive material such as metal. One female terminal 15 </ b> A is provided integrally with the first connector housing main body 37 in the first connector housing main body 37 on one end side in the vertical direction and on the lower side in the height direction. The other female terminal 15 </ b> B is provided integrally with the first connector housing main body 37 in the first connector housing main body 37 on the other end side in the vertical direction and on the lower side in the height direction. The cylindrical female terminals 15 have their central axes extending in the height direction.

  The center plane PL passes through the center of the first connector housing body 37, and one female terminal 15A and the other female terminal 15B are arranged symmetrically with the center plane PL in between. Further, the central axis C2 of the projection 35 with which the lever 7 engages extends in the lateral direction and exists in the central plane PL as described above.

  The female terminal 21 of the signal circuit switch 11 is also formed in a cylindrical shape with a conductive material such as metal, and is positioned inside the female terminal 15 away from the female terminal 15 of the main circuit switch 9 in the vertical direction ( It is located between each female terminal 15A, 15B).

  One female terminal 21 </ b> A is provided integrally with the first connector housing main body 37 in the first connector housing main body 37 on one end side in the vertical direction and on the lower side in the height direction. The other female terminal 21 </ b> B is provided integrally with the first connector housing main body 37 in the first connector housing main body 37 on the other end side in the vertical direction and on the lower side in the height direction. The cylindrical female terminals 21 have their central axes extending in the height direction, and are slightly separated from each other.

  One female terminal 21A and the other female terminal 21B are arranged symmetrically with the center plane PL in between.

  The upper ends of the female terminals 17A and 17B are located in the middle part of the first connector housing main body 37, and the upper ends of the female terminals 21A and 21B are in the middle part of the first connector housing main body 37. The female terminals 17A and 17B are positioned below the upper ends (see FIG. 12 and the like).

  An annular packing 41 is provided on the lower surface of the flange portion 39. When the first connector housing 3 is installed in the battery case BC, the packing 41 is connected to the flange portion 39 and the battery as shown in FIG. By being sandwiched between the cases BC, a seal is formed between the first connector housing 3 and the battery case BC.

  The second connector housing 5 is also integrally formed of a material such as an insulating synthetic resin, and the second connector housing main body 43, the inner cylindrical portion 45, the male terminal support portion 47, the locking body 55, and the protrusion 57. (Refer to FIG. 4 etc.).

  The second connector housing main body 43 includes a cylindrical side wall portion 53 whose central axis extends in the vertical direction, and a flat bottom wall portion 51 that covers the upper portion of the side wall portion 53, and has a bowl shape. Is formed.

  The inner cylindrical part 45 is formed in a cylindrical shape whose outer diameter is smaller than the inner diameter of the side wall part 53, and is provided inside the side wall part 53 away from the side wall part 53. The central axis of the inner cylindrical portion 45 coincides with, for example, the central axis of the side wall portion 53. The inner cylindrical portion 45 protrudes downward from the bottom wall portion 51. The height dimension of the inner cylindrical part 45 is smaller than the height dimension of the side wall part 53.

  The male terminal support portion 47 is formed in a rod shape whose outer diameter is smaller than the inner diameter of the inner cylindrical portion 45, and is provided inside the inner cylindrical portion 45 apart from the inner cylindrical portion 45. The central axis of the male terminal support part 47 also coincides with, for example, the central axis of the side wall part 53. The male terminal support portion 47 also protrudes downward from the bottom wall portion 51. The height dimension of the male terminal support part 47 is larger than the height dimension of the side wall part 53.

  The locking body 55 protrudes from one end surface in the vertical direction of the side wall portion 53 of the second connector housing main body 43 to one end side in the vertical direction on the upper side in the vertical direction and in the center in the horizontal direction.

  The protrusion 57 supports the lever 7 rotatably, and protrudes from the outer periphery of the side wall 53 to both sides in the lateral direction above the side wall 53 of the second connector housing main body 43. That is, two protrusions 57 are provided. Further, the protrusion 57 is located at the center of the second connector housing main body 43 in the vertical direction.

  The male terminal 17 of the main circuit switch 9 is formed in a rod shape with a conductive material such as metal. One male terminal 17 </ b> A is provided integrally with the second connector housing main body 43 within one end side in the vertical direction, lower side in the height direction, and within the inner cylindrical portion 45. The other male terminal 17B is provided integrally with the second connector housing main body 43 in the other end side in the vertical direction and on the lower side in the height direction, and in the inner cylindrical portion 45.

  The connecting portion 19 is located on the upper side in the height direction, and each male terminal 17A, 17B protrudes downward from the connecting portion 19. The lower ends of the male terminals 17 </ b> A and 17 </ b> B are located below the lower end of the side wall portion 53 of the second connector housing main body 43.

  The male terminal 23 of the signal circuit switch 11 is also formed in a rod shape with a conductive material such as metal. One male terminal 23 </ b> A is provided integrally with the second connector housing main body 43 on one end side in the vertical direction and on the inner side of the inner cylindrical portion 45 and at the lower end of the male terminal support portion 47. . The other male terminal 23B is provided integrally with the second connector housing main body 43 on the other end side in the vertical direction and on the inner cylindrical part 45 and at the lower end of the male terminal support part 47. .

  The connecting portion 25 is located on the upper side in the height direction, and each male terminal 23A, 23B protrudes downward from the connecting portion 25. The lower ends of the male terminals 23A and 23B are located below the lower end of the side wall 53 of the second connector housing main body 43, and are located above the lower ends of the male terminals 17A and 17B.

  The male terminals 17A, 17B and the male terminals 23A, 23B are arranged symmetrically with the center plane PL in the same manner as the fields of the female terminals 15, 21. Further, as described above, the central axis C1 of the protrusion 57 extends in the lateral direction and is located in the central plane PL.

  The lever 7 is also integrally formed of a material such as insulating synthetic resin, and includes a lever main body 59 and an elastic protrusion 61.

  The lever main body 59 includes a central portion 71 and a pair of side portions 73 (73A, 73B) and is formed in a “U” shape.

  An elastic protrusion 61 protrudes from the central portion 71. The elastic protrusion 61 is provided with a first locked portion 63 and a second locked portion 65. Each of the locked portions 63 and 65 is locked to a locking portion 67 formed at the tip of the locking body 55 of the second connector housing 5 according to the rotation angle of the lever 7. (See FIG. 1 and FIG. 8).

  A through hole 69 and a cam groove 33 are formed in each of the side portions 73A and 73B. The projections 57 of the second connector housing 5 are inserted into the through holes 69, the projections 35 of the first connector housing 3 are inserted into the cam grooves 33, and the connector housings 3 and 5 and the lever 7 are assembled. ing.

  In this assembled state, the second connector housing covers the first connector housing 3 and the male terminals 17 and 23 are located inside the first connector housing 3. A first connector housing body 37 is inserted between the connector housing body 43 and the inner cylindrical portion 45. Further, in the fitting state shown in FIG. 4, the packing 49 is inserted between the first connector housing main body portion 37 and the inner cylindrical portion 45, and between the first connector housing 3 and the second connector housing 5. A seal is made.

  Accordingly, even when water is poured from above the battery case BC and the connector housings 3 and 5 in the state shown in FIG. 4, the water does not enter the battery case BC and the connector housings 3 and 5. It has become.

  In the assembled state, the second connector housing 5 is in the lateral direction and the side portions 73A and 73B of the lever 7 are positioned on the inner side, and the central portion 71 of the lever 7 is in the vertical direction. It exists apart from the end of the housing 5 to the one end side of the 2nd connector housing 5 (refer FIG. 4 etc.).

  Further, in the assembled state, the elastic protruding portion 61 protrudes from the central portion 71 to one end side in the vertical direction. The elastic protrusion 61 is elastically deformed by the force of a human finger (see FIG. 4 and the like).

  As described above, the protrusion 57 is inserted into the through hole 69 and the protrusion 35 is inserted into the cam groove 33, whereby the lever 7 rotates about the axis C <b> 1. In the meantime, a fitting force or a detaching force is generated. The second connector housing 5 is moved in the vertical direction with respect to the first connector housing 3.

  When the second connector housing 5 is located at the fitting position PS1, the side portion 73 of the lever 7 extends substantially in the vertical direction, as shown in FIG.

  When the second connector housing 5 is located at the intermediate position (including the first, second, and third intermediate positions), the side portion 73 of the lever 7 extends obliquely as shown in FIG. ing.

  When the second connector housing 5 is located at the release position PS2, as shown in FIG. 11 and the like, the side portion 73 of the lever 7 extends substantially in the height direction.

  Further, when the second connector housing 5 is located at the fitting position PS1, the elastic protrusion 61 of the lever 7 is provided on the engaging portion 67 provided on the engaging body 55 of the second connector housing 5. The first locked portion 63 is locked (see FIG. 1), whereby the fixed lock portion 27 is formed.

  Furthermore, as shown in FIG. 4, a force is applied to the elastic protruding portion 61 to elastically deform the elastic protruding portion 61, and the first locked portion 63 is removed from the locking portion 67 of the locking body 55. 7 can rotate in the direction of arrow A4 (direction of release position PS2). As a result, the release operation part 31 is formed on the elastic protrusion 61.

  Further, when the second connector housing 5 is located at the third intermediate position PS3, the latching portion 67 provided on the latching body 55 of the second connector housing 5 is provided on the elastic protruding portion 61 of the lever 7. The second locked portion 65 being locked is locked in the same manner as the first locked portion 63 (see FIG. 8), whereby the intermediate lock portion 13 is generated. As already understood, in the intermediate lock portion 13 and the fixed lock portion 27, the locking portion 67 provided in the locking body 55 is also used.

  Further, a force is applied to the elastic protruding portion 61 to elastically deform the elastic protruding portion 61, and the second locked portion 65 is removed from the locking portion 67 of the locking body 55, whereby the lever 7 is moved to an arrow in FIG. It can be rotated in the direction indicated by A8 (the direction of the release position PS2). As a result, the release operation part 29 is formed on the elastic protrusion 61.

  By the way, in the state where the second connector housing 5 is located at the fitting position PS1 (fitting state), as described above, the male terminal 17A is inserted into the female terminal 15A of the main circuit switch 9, and the female terminal The male terminal 17 </ b> B is inserted into 15 </ b> B, and the female terminal 15 </ b> A and the female terminal 15 </ b> B are electrically connected to each other through the male terminal 17.

  In the fitted state, the male terminal 23A is inserted into the female terminal 21A of the signal circuit switch 11, the male terminal 23B is inserted into the female terminal 21B, and the female terminal 21A and the female terminal 21B are connected to the male terminal 23. Through each other (see FIG. 4).

  By rotating the lever 7 from the fitted state, when the second connector housing 5 moves upward and reaches the second intermediate position, the male terminal 23A comes out of the female terminal 21A of the signal circuit switch 11, and the female terminal 21B The male terminal 23B comes out from the female terminal 21A and the female terminal 21A and the female terminal 21B are in a non-conductive state. On the other hand, the female terminal 15 </ b> A and the female terminal 15 </ b> B are electrically connected to each other via the male terminal 17.

  When the female terminal 21A and the female terminal 21B of the signal circuit switch 11 are non-conductive with each other, and the female terminal 15A and the female terminal 15B are conductive with each other, the lever 7 is further rotated to rotate the second connector. The housing 5 moves further upward and is maintained until it passes through the third intermediate position PS3 (see FIG. 8) and reaches the first intermediate position.

  When the second connector housing 5 moves upward and reaches the first intermediate position, not only the signal circuit switch 11 but also the main circuit switch 9, the male terminal 17A comes out of the female terminal 15A of the main circuit switch 9, and the female terminal The male terminal 17B comes out of 15B, and the female terminal 15A and the female terminal 15B become non-conductive with each other. This state is maintained until the second connector housing 5 further moves upward by further rotating the lever 7 and reaches the release position PS1 (see FIG. 12).

  The lever 7 is provided with a cam groove sealing body 75 in a detachable manner. The cam groove sealing body 75 is provided at the end of the cam groove 33. By providing the cam groove sealing body 75, the cam groove 33 is closed (in the form of an elongated through hole, not a notch).

  As shown in FIG. 11, when the cam groove sealing body 75 is removed from the lever 7 in a state where the second connector housing 5 is located at the release position PS2, the protrusion 35 is pulled out from the cam groove 33, so that the second connector housing 5 And the lever 7 can be moved further upward. As a result, the second connector housing 5 can be completely separated from the first connector housing 3.

  Even when the second connector housing 5 and the lever 7 are installed in the first connector housing 3, the cam groove sealing body 75 is removed.

  Next, the operation when the second connector housing 5 is moved from the fitting position PS1 to the release position PS2 will be described.

  In the initial state, the lever 7 and the second connector housing 5 are located at the fitting position PS1, the male terminals 17 and 23 are inserted into the female terminals 15 and 21, and the locking portion 67 of the locking body 55 elastically protrudes. The first locked portion 63 of the portion 61 is locked.

  From the initial state, as shown in FIG. 4, the elastic protrusion 61 is elastically deformed to disengage the first locked portion 63 from the locking portion 67 of the locking body 55, and the lever 7 is moved in the direction indicated by the arrow A4 in FIG. When rotating in the direction, the second connector housing 5 moves upward.

  When the lever 7 is rotated to the third intermediate position PS3 shown in FIG. 8, the male terminal 23 comes out of the female terminal 21 and the male terminal 23 of the signal circuit switch 11 is separated from the female terminal 21. On the other hand, the male terminal 17 of the main circuit switch 9 enters the female terminal 15, and the male terminal 17 and the female terminal 15 are electrically connected to each other. The second locked portion 65 of the elastic protrusion 61 is locked by the locking portion 67 of the locking body 55.

  In a state where the lever 7 is positioned at the 3 intermediate position PS3 shown in FIG. 8, the elastic protrusion 61 is elastically deformed to disengage the second locked portion 65 from the locking portion 67 of the locking body 55, and the lever 7 is moved. When rotating in the direction of arrow A8 in FIG. 8, the second connector housing 5 moves further upward.

  When the lever 7 is rotated to the release position PS <b> 2 shown in FIG. 12, the male terminal 17 of the main circuit switch 9 comes out of the female terminal 15 and the male terminal 17 is separated from the female terminal 15.

  When the second connector housing 5 is moved from the release position PS2 to the fitting position PS1, an operation opposite to the above operation may be performed.

  According to the power circuit breaker 1, since the circuit switches 9 and 11 are provided in the connector housings 3 and 5, it is easy to make a waterproof structure.

  Further, according to the power circuit breaker 1, when the main circuit switch 9 is in the on state and the signal circuit switch 11 is in the off state (when the lever 7 is located at the third intermediate position PS3), the lever 7 Since the intermediate lock portion 13 for locking the rotation position of the main circuit switch 9 is provided, it is possible to eliminate the occurrence of sparks in the shut-off operation of the main circuit switch 9 (release operation of the lever 7).

  That is, the rotation of the lever 7 is locked by the intermediate lock portion 13 at the third intermediate position (predetermined rotational position of the lever in which the main circuit switch is on and the signal circuit switch is off) PS3. The lever 7 does not rotate unless the lock at the portion 13 is released by a human operation.

  Since it takes a certain amount of time to release the intermediate lock portion 13, it is possible to secure a sufficient time for the relay to operate, and the relay cannot be operated, and the main circuit switch 9 is kept under voltage. The main circuit switch 9 is not opened, and the occurrence of sparks at the main circuit switch 9 can be eliminated.

  And the power supply circuit interruption | blocking apparatus 1 which can interrupt | block the main circuit switch 9 (open the main circuit switch 9) safely at low cost is provided.

  Further, according to the power supply circuit breaker 1, the signal terminals 21 and 23 of the signal circuit switch 11 are located inside the main terminals 15 and 17 of the main circuit switch 9, and the signal terminal 21 is located with respect to the center plane PL. , 23 and the main terminals 15, 17 are arranged symmetrically, and the rotation center axis C1 of the lever 7 and the center axis C2 of the projection 35 of the first connector housing 3 exist in the center plane PL. When the lever 7 is rotated and the connector housings 3 and 5 are fitted and detached, the signal terminals 21 and 23 of the signal circuit switch 11, the main terminals 15 and 17 of the main circuit switch 9, and the connector housings 3 , 5 no longer generates moments, and the terminals 15, 17, 21, 23 and the connector housings 3, 5 are no longer subject to squeezing or galling, Durability source circuit breaker apparatus 1 is improved.

  In addition, since the signal terminals 21 and 23 of the signal circuit switch 11 are positioned inside the main terminals 15 and 17 of the main circuit switch 9, the moment is applied to the signal terminals 21 and 23, which are less rigid than the main terminals 15 and 17. Is less likely to occur, and the signal terminals 21 and 23 can be reliably prevented from being deformed.

DESCRIPTION OF SYMBOLS 1 Power supply circuit interruption device 3 1st connector housing 5 2nd connector housing 7 Lever 9 Main circuit switch 11 Signal circuit switch 13 Lock part (intermediate lock part)
15 (15A, 15B) Main terminal (female terminal)
17 (17A, 17B) Main terminal (male terminal)
21 (21A, 21B) Signal terminal (female terminal)
23 (23A, 23B) Signal terminal (male terminal)
29 Lock release operation part 33 Cam groove 35 Protrusion (protrusion of first connector housing)
C1 Rotation center axis (Lever rotation center axis)
C2 Center axis (center axis of the projection of the first connector housing)
PL plane (center plane)
PS1 mating position PS2 release position

Claims (4)

A first connector housing;
A second connector housing that fits and detaches from the first connector housing;
The second connector is rotatably provided on the second connector housing, engages with the first connector housing, and rotates from the release position to the fitting position through the first intermediate position and the second intermediate position. During the rotation from the fitting position through the second intermediate position and the first intermediate position to the release position by applying a fitting force between the housing and the first connector housing, the second connector A lever for applying a detaching force between the housing and the first connector housing;
A main terminal is provided in each of the first connector housing and the second connector housing, and the lever is in an off state when the lever is between the release position and the first intermediate position. A main circuit switch that is turned on when between the intermediate position and the fitting position;
A signal terminal is provided in each of the first connector housing and the second connector housing, and the lever is in an off state when the lever is between the release position and the second intermediate position, and the lever is 2 a signal circuit switch that is turned on when between the intermediate position and the fitting position;
When the main circuit switch is in an on state and the signal circuit switch is in an off state, a lock portion that locks the rotation position of the lever;
Have
The first connector housing includes a cylindrical first connector housing main body having a central axis extending in the vertical direction, and a flange protruding from the outer periphery of the first connector housing main body at an intermediate portion in the vertical direction. Is configured with
The second connector housing is configured to include a second connector housing main body portion and an inner cylindrical portion,
The second connector housing main body portion is configured to include a cylindrical side wall portion whose central axis extends in the up-down direction, and a bottom wall portion covering the upper portion of the side wall portion,
The inner cylindrical portion is formed in a cylindrical shape having an outer diameter dimension smaller than an inner diameter dimension of the side wall portion, and is provided inside the side wall portion, and a central axis coincides with a central axis of the side wall portion. Projecting downward from the bottom wall,
In the fitting position, the upper portion of the first connector housing main body is above the flange portion, and the second connector housing main body is covered with the main terminal and the signal terminal. And the first connector housing body, the first connector housing body is inserted between the second connector housing body and the inner cylindrical portion, and the first connector housing A power supply circuit breaking device, wherein a packing is provided between a main body portion and the inner cylindrical portion. In the power circuit breaker according to claim 1,
A power circuit breaker having a lock release operation unit capable of releasing a lock state of the lock unit by a human operation. In the power circuit breaker according to claim 1 or 2,
The lever is provided with a cam groove, and a projection provided on the first connector housing enters the cam groove so that the lever is engaged with the first connector housing.
The signal terminal of the signal circuit switch and the main terminal of the main circuit switch are symmetrical with respect to a plane including the rotation center axis of the lever and extending in the moving direction of the second connector housing with respect to the first connector housing. The power supply circuit breaker is characterized in that the central axis of the projection of the first connector housing exists in the plane. The power circuit breaker according to claim 3,
The power circuit breaker according to claim 1, wherein the signal terminal of the signal circuit switch is located inside the main terminal of the main circuit switch.

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