JP4153735B2 - Breaker device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a breaker device that opens and closes a circuit by fitting and detaching a movable electrode to and from a fixed electrode pair.
[0002]
[Prior art]
An example of this type of breaker device is disclosed in Japanese Patent Application Laid-Open No. 2000-235824. This is because a fixed housing having a pair of insulated fixed electrodes and a movable housing having a movable electrode are fitted to each other, thereby short-circuiting the fixed electrode pair by the movable electrode, The short circuit between the fixed electrodes is released by detaching from the fixed housing.
[0003]
[Problems to be solved by the invention]
This type of breaker device is used as means for connecting both the fixed electrodes in series in the middle of a power circuit of an electric vehicle and disconnecting the power circuit. In this case, the power circuit remains energized. When the movable electrode is suddenly removed from the fixed electrode and the power circuit is opened, an arc is generated between the electrodes. Therefore, it is conceivable to provide a relay as a switching means for opening and closing the power circuit and a microswitch as a detection means for detecting the fitting / detaching of the housings to operate the relay.
[0004]
According to this, in a state where both housings are fitted and the fixed electrode and the movable electrode are fitted (a state where energization is allowed between the pair of fixed electrodes), the relay is closed and the power circuit is closed. It is assumed that When the movable housing is detached from the fixed housing from this state, immediately after the separation is started, the movement of the movable housing is detected by the micro switch, and the power circuit is opened by the micro switch opening the relay. . After that, when the detachment of the movable side housing is further advanced, the movable electrode is separated from the fixed electrode pair, but at this point, the power circuit is already opened by the relay, so that the arc between the electrodes is prevented from being generated. The
[0005]
However, there is a time lag after the opening operation of the relay starts (after the solenoid is excited) until the opening operation is completed and the power circuit is de-energized. Therefore, in order to surely prevent the occurrence of arc, it takes a longer time than the above time lag between the start of the relay opening operation and the separation of the fixed electrode and the movable electrode. There is a need.
However, the operation mode of the movable side housing in the process from the state in which both housings are fitted (the state in which the power circuit is closed) to the time when the relay is opened and then the movable electrode is detached from the fixed electrode. Is a one-action action that simply pulls in one direction. For this reason, when the movable housing is operated vigorously, the movable electrode may be detached from the fixed electrode even though the opening operation of the relay is not completed and the power circuit remains closed.
[0006]
The present invention has been made in view of the above circumstances, and aims to prevent the movable electrode from being detached from the fixed electrode while the main circuit is closed.
[0007]
[Means for Solving the Problems]
The invention of claim 1 includes a pair of fixed electrodes provided in series with a main circuit that is opened and closed by opening and closing operations of the switching means, a movable electrode that can be fitted to and detached from the pair of fixed electrodes, Provided in the housing to which the fixed electrode or the movable electrode is attached, enabling a sliding operation between the fitting position and the detaching position. And an operation unit to which a finger is addressed when performing the slide operation A switching lever, and the movable electrode is fitted to or detached from the pair of fixed electrodes by a cam action associated with a sliding operation of the slide lever to the fitting position or the detaching position. Independently of the opening / closing operation of, the energization between the pair of fixed electrodes can be allowed or blocked, the housing, The slide member is a separate member, Displacement between a lock position that restricts movement of the slide lever to the release position side by engaging with the slide lever in the fitting position and a lock release position that allows movement of the slide lever. In addition to being made possible, a configuration is provided in which a lock member that closes the switching means by being displaced to the lock position is provided.
[0008]
According to a second aspect of the present invention, in the first aspect of the present invention, a holding means for holding the lock member at the lock position is provided.
According to a third aspect of the present invention, in the first or second aspect of the present invention, in the process in which the slide lever moves from the disengagement position to the fitting position, the lock member abuts on the slide lever to thereby lock the lock lever. The movement to the position is restricted, and the movement of the lock member to the lock position is allowed when the slide lever reaches the fitting position.
[0009]
[Action and effect of the invention]
[Invention of Claim 1]
When the slide lever is moved to the fitting position, the movable electrode is fitted to the pair of fixed electrodes, and the two fixed electrodes are short-circuited. When the lock member is moved to the lock position from this state, the switching means is closed, and the main circuit is closed and the power can be energized. When releasing the short circuit between the fixed electrodes from this state, first, the lock member is moved from the lock position to the lock release position. As a result, the switching means is opened and the energization to the main circuit is interrupted. Thereafter, the slide lever is operated. At this time, it takes some time to change the hand from the lock member to the slide lever. During this time, the opening operation of the switching means is completed, and the energization of the main circuit is stopped. That is, after the energization of the main circuit is stopped, the slide operation of the slide lever is started, and the movable electrode is separated from the fixed electrode. In this way, when the two electrodes are detached, the current supply to the main circuit is already cut off, so that no arc is generated between the electrodes.
[0010]
At the time of releasing the short circuit of the fixed electrode, even if an attempt is made to operate the slide lever while the lock member is in the locked position (that is, the switching means remains closed and the main circuit is closed) Since the movement of the slide lever toward the release position is restricted in the locked position, the movable electrode cannot be released from the fixed electrode by operating the slide lever. Therefore, the short circuit between the fixed electrodes is not released while the main circuit is closed.
[0011]
[Invention of claim 2]
Since the lock member can be held and placed at the lock position, the lock member can be prevented from being inadvertently moved to the lock release position.
[Invention of claim 3]
Since the lock member can be moved to the lock position only when the slide lever reaches the mating position, whether or not the slide lever has moved to the mating position based on whether or not the lock member can be moved to the lock position. Can be detected, and as a result, whether or not both electrodes are properly fitted can be detected.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
[Embodiment 1]
A first embodiment of the present invention will be described below with reference to FIGS.
The breaker device A of the present embodiment is provided with a fixed electrode 11 provided in series with a main circuit (not shown) that is opened and closed by a relay (switching means that is a constituent element of the present invention) (not shown). By allowing the movable electrode 21 provided on the movable housing 20 to be fitted to and detached from the pair of fixed electrodes 11, it is possible to allow or prevent energization between the fixed electrodes 11 independently of the relay opening / closing operation. It is a thing.
[0013]
The fixed-side housing 10 is fixed to, for example, a car body of an automobile and has two pairs on the front side (the left side in FIGS. 1 to 7 and the side corresponding to the movable-side housing 20). Fixed electrodes 11 are provided side by side. In the following description, the vertical direction is based on FIG.
The movable side housing 20 is fitted to and detached from the fixed side housing 10, and the front side thereof (on the right side in FIGS. 1 to 7 and on the side corresponding to the fixed side housing 10). The upper and lower movable electrodes 21 are attached. The movable electrode 21 has a shape in which two upper and lower cylindrical fitting portions 22 face the front side, and a portion excluding the cylindrical fitting portion 22 is covered with an exterior body 23 made of a resin mold. . As the two housings 10 and 20 are fitted, each movable electrode 21 is electrically connected to the pair of fixed electrodes 11 by fitting the two cylindrical fitting portions 22 to the pair of fixed electrodes 11. A short-circuited state (a state in which conduction is allowed) is assumed. Further, when the movable electrode 21 is detached from the fixed electrode 11, conduction between the fixed electrodes 11 is prevented.
[0014]
The fixed housing 10 is formed with a hood portion 12 having a substantially U shape when viewed from the front with the upper and front sides in FIG. 15 being opened. Correspondingly, the movable housing 20 is provided with the hood portion 12. A substantially U-shaped slit 24 to be fitted is formed. By fitting the hood portion 12 and the slit 24, the movable housing 20 is guided in a direction (front-rear direction) parallel to the fitting / removing direction of the movable electrode 21 and the fixed electrode 11 with respect to the fixed housing 10. While moving in a restricted state, the movement in the vertical and horizontal directions is restricted.
[0015]
Further, a pair of upper and lower cam followers 13 project from the left and right outer side surfaces of the hood portion 12 of the fixed housing 10. On the other hand, the movable housing 20 is provided with a pair of left and right guide portions 25 that communicate with the slit 24 and extend in the vertical direction, and a slide lever 30 that performs a cam function in cooperation with the cam follower 13 is provided. ing.
The slide lever 30 includes two left and right cam plates 31 that are long in the vertical direction, a connecting plate 32 that connects the upper ends of both cam plates 31, and a side that extends upward from the connecting plate 32. The operation portion 33 having a substantially L-shape in a square shape is formed by pressing from a single steel plate. The slide lever 30 is assembled to the movable housing 20 with the connecting plate 32 and the operating portion 33 exposed above the movable housing 20 and the cam plates 31 fitted to the guide portion 25. By being guided by the portion 25, it moves in the vertical direction (a direction perpendicular to the fitting / detaching direction of the fixed electrode 11 and the movable electrode 21) between the fitting position and the separating position above the fitting position. It has come to be able to do. In a state where the slide lever 30 is in the fitting position, the connecting plate 32 comes into contact with the upper surface of the movable housing 20 and moves away from the upper surface of the movable housing 20 as the connecting plate 32 moves toward the disengagement position. .
[0016]
Each cam plate 31 has an upper opening and a lower opening extending obliquely with respect to both the moving direction of the slide lever 30 and the fitting / removing direction of both electrodes. Each cam groove 34 is formed. When the two housings 10 and 20 are approached with the slide lever 30 in the disengaged position, the cam follower 13 is introduced into the inlet of the cam groove 34, and from this state, the slide lever 30 is moved downward in FIGS. When the cam plate 31 and the movable housing 20 are pulled toward the fixed housing 10 by the cam action caused by the engagement between the cam groove 34 and the cam follower 13, the two housings 10, As soon as the fitting of 20 is completed, the fitting of the movable electrode 21 and the fixed electrode 11 is completed. When the slide lever 30 is lifted upward from this fitted state, the movable housing 20 is separated from the fixed housing 10 and the movable electrode 21 is fixed by the cam action due to the engagement of the cam groove 34 and the cam follower 13. 11 is separated.
[0017]
A lock member 40 is provided in the movable housing 20. The lock member 40 is substantially L-shaped in a side view and has a substantially gate shape in which the ends of a pair of left and right arm portions 41 arranged along the outer surface of the movable housing 20 are connected by a locking plate 42. Eggplant. A pair of support shafts 26 are formed on the left and right outer surfaces of the movable housing 20 so that the axis is directed in the left-right direction. The support shafts 26 are formed in bent portions near the base end portions of both arm portions 41. The bearing hole 43 is fitted. The lock member 40 can rotate between the lock position (see FIGS. 3 and 6) and the lock release position (see FIGS. 1, 4 and 5) around the support shaft 26 and the bearing hole 43. It has become.
[0018]
When the lock member 40 is in the unlocked position, the locking plate 42 is positioned so as to overlap the rear surface of the movable housing 20. Further, in a state where the slide lever 30 is located on the release position side (upper side) from the fitting position, even if the lock member 40 is rotated from the lock release position to the lock position side, the locking plate is reached before reaching the lock position. 42 interferes with the rear edge of the cam plate 31, and further rotation of the lock member 40 is restricted, so that the lock member 40 cannot be moved to the lock position.
[0019]
In a state in which the slide lever 30 is moved to the fitting position and the connecting plate 32 overlaps the upper surface of the movable housing 20, the lock member 40 can move to the lock position without interfering with the cam plate 31. When the lock member 40 is moved to the lock position, the locking plate 42 comes into contact with the connecting plate 32 from above. At this time, the support shaft 26 that is the rotation center of the lock member 40 is Since it is located on the lower side opposite to the locking plate 42 with the connecting plate 32 interposed therebetween, the slide lever 30 is restricted from moving to the disengagement position side and locked to the fitting position. Further, the plate surface of the locking plate 42 is substantially parallel to the contact direction with respect to the connecting plate 32 (the moving direction of the slide lever 30).
[0020]
Further, the locking plate 42 is formed with a bending locking piece 44 (holding means which is a constituent element of the present invention). The flexure locking piece 44 protrudes from a rear surface that does not interfere with the movable housing 20 when the lock member 40 is in the unlocked position. The flexure locking piece 44 is locked to the hole edge of the locking hole 35 (the holding means which is a constituent element of the present invention) of the connecting plate 32 in a state where the lock member 40 is in the locked position, and thus the lock member. 40 is held in the locked position. When the lock member 40 is rotated to the unlocking position side, the bending locking piece 44 may be elastically bent and removed from the hole edge of the locking hole 35.
[0021]
In addition, a micro switch 27 is provided on the outer surface of the movable housing 20 as detection means for detecting opening / closing operation by detecting movement of the lock member 40 and exciting a relay. The micro switch 27 includes a probe 27a and a movable piece 27b that can be elastically displaced downward above the probe 27a. On the other hand, of the arm portion 41 on one side of the lock member 40, the end portion on the opposite side of the locking plate 42 across the bearing hole 43 (support shaft 26) is a pressing portion 45.
[0022]
When the lock member 40 moves to the lock position, the pressing portion 45 of the lock member 40 pushes the movable piece 27b to contact the probe 27a, whereby the micro switch 27 detects that the lock member 40 has moved to the lock position. The relay is then energized, and the relay closes the main circuit and starts a closing operation to enable conduction.
When the lock member 40 in the lock position starts moving toward the lock release position, the pressing portion 45 releases the pressure on the movable piece 27b, and the movable piece 27b is separated from the probe 27a by its elastic restoring force. As a result, the micro switch 27 detects that the lock member 40 has started to move from the lock position to the lock release position side and excites the relay, and the relay opens the main circuit to disable conduction. To start. There is a time lag between the start and completion of the opening operation of the relay, and the main circuit becomes inoperable after the opening operation of the relay is completed.
[0023]
Next, the operation of this embodiment will be described.
When the main circuit is in the energized state, first, the slide lever 30 is slid to the fitting position with the lock member 40 in the locked position, the two housings 10 and 20 are fitted, and the movable electrode 21 is moved. The fixed electrodes 11 are fitted and the fixed electrodes 11 are allowed to be energized through the movable electrode 21. Thereafter, the lock member 40 in the lock release position is rotated to the lock position. Then, the micro switch 27 detects that the lock member 40 has reached the lock position, and the relay is closed. When this relay is closed, the main circuit including the fixed electrode 11 and the movable electrode 21 is closed (a state in which energization is permitted).
[0024]
Next, an operation for detaching the movable housing 20 from the fixed housing 10 will be described. When detaching, first, the bending locking piece 44 is removed from the locking hole 35, and a finger is applied to the locking plate 42 to rotate the lock member 40 from the locked position to the unlocked position. Then, immediately after the rotation of the lock member 40 starts, the pressing portion 45 moves away from the movable piece 27b of the micro switch 27, and the micro switch 27 detects the rotation of the lock member 40 and opens the main circuit. Start the opening operation. Further, when the lock member 40 is rotated to the unlock position, the lock due to the locking of the locking plate 42 with respect to the connecting plate 32 is released. The slide lever 30 is lifted from the fitting position to the separation position side. As the slide lever 30 is pulled up, the movable housing 20 is separated from the fixed housing 10 and the movable electrode 21 is separated from the fixed electrode 11.
[0025]
Now, as described above, when the lock member 40 is turned to the unlocking position side, the relay starts to open, but there is a time lag between the start of the relay opening and completion. The energization of the main circuit is interrupted after this time lag. For this reason, if the electrodes 11 and 21 are separated immediately after the relay opening operation (rotation of the lock member 40) is started, an arc may be generated between the electrodes 11 and 21. However, in this embodiment, it is necessary to change the finger from the locking plate 42 of the locking member 40 to the operation portion 33 of the slide lever 30 after the locking member 40 is rotated to the unlocking position. Since the moving direction of 42 is a direction away from the operation unit 33, it takes time to change the finger. During the change of the finger, the opening operation of the relay is completed and the main circuit is switched. The energization stops. That is, after the energization in the main circuit is stopped, an operation for moving the slide lever 30 to the separation position side is started. In this way, when both the electrodes 11 and 21 are detached by the operation of the slide lever 30, the energization to the main circuit has already been reliably interrupted, so that no arc is generated between the electrodes 11 and 21. .
[0026]
Further, when the housings 10 and 20 are detached, the slide lever 30 should be operated while the lock member 40 is in the locked position (that is, the relay is closed and the main circuit is closed). However, when the lock member 40 is in the locked position, the locking plate 42 is locked to the connecting plate 32 and locks the slide lever 30 in the fitting position. Therefore, the slide lever 30 is moved to the release position side. Thus, the movable electrode 21 cannot be detached from the fixed electrode 11. Therefore, it is possible to reliably prevent the electrodes 11 and 21 from being detached (the short circuit between the fixed electrodes 11 is released) while the main circuit is closed.
[0027]
In addition, since the lock member 40 can be held and placed in the locked position by the engagement between the bending engagement piece 44 and the engagement hole 35, the lock member 40 is prevented from inadvertently moving to the unlock position. As a result, the slide lever 30 can be reliably locked at the lock position.
Further, in the process in which the slide lever 30 moves from the disengagement position to the fitting position, the movement of the lock member 40 to the lock position is allowed only when the slide lever 30 reaches the fitting position. Based on whether or not the member 40 can be moved to the lock position, it can be detected whether or not the slide lever 30 has moved to the fitting position. As a result, both electrodes 11 and 21 are properly fitted. It can be detected whether or not.
[0028]
[Embodiment 2]
Next, a second embodiment of the present invention will be described with reference to FIGS.
The breaker device B of the present embodiment differs from the first embodiment in the form of the lock member 50 and the position of the microswitch 27. Since other configurations are the same as those of the first embodiment, the same configurations are denoted by the same reference numerals, and descriptions of structures, operations, and effects are omitted.
The locking member 50 has a configuration in which the distal ends (upper ends) of a pair of left and right arm portions 51 that are elongated in a straight line in the vertical direction and are arranged along the outer surface of the movable housing 20 are connected by a locking plate 52. Forms a gate shape. A pair of support shafts 26 are formed at the lower ends of the left and right outer surfaces of the movable housing 20 so that the axis is directed in the left-right direction. The support shafts 26 are provided at the base ends (lower ends) of both arm portions 51. A bearing hole 53 is fitted. The lock member 50 can rotate between a lock position (see FIG. 9) and a lock release position (see FIG. 8) behind the lock position around the support shaft 26 and the bearing hole 53. It is like that.
[0029]
A pair of front and rear stoppers 28F, 28R are formed on the outer surface of the movable housing 20, and the front edge of the arm portion 51 abuts against the front stopper 28F, so that the lock member 50 at the lock position is unlocked. Is restricted from rotating to the opposite side, and the rear edge of the arm portion 51 comes into contact with the rear stopper 28R, so that the lock member 50 at the unlocking position rotates to the opposite side to the locking direction. Be regulated.
[0030]
Further, a micro switch 27 is provided at the lower end of the outer surface of the movable housing 20 so as to be positioned in front of the arm 51 and the movable piece 27b is pressed against the probe 27a from the rear. .
In the state where the slide lever 30 is located on the side of the disengagement position (upper side) than the fitting position, the locking plate 52 of the lock member 50 in the unlocking position is the upper end portion of the cam plate 31 as shown in FIG. By abutting the rear edge, the rotation to the lock position side is restricted and held at the lock release position.
[0031]
In a state where the slide lever 30 moves to the fitting position and the connecting plate 32 overlaps the upper surface of the movable housing 20, the upper end portion of the cam plate 31 is released downward with respect to the locking plate 52. It can move to the lock position without interfering with the cam plate 31. In the state where the lock member 50 is moved to the lock position, as shown in FIG. 9, the locking plate 52 comes into contact with the connecting plate 32 so as to be substantially parallel from above. The support shaft 26, which is the rotation center of the member 50, is located on the lower side opposite to the locking plate 52 across the connecting plate 32, so that the slide lever 30 is restricted from moving upward (withdrawal position side). And locked in the mating position.
[0032]
When the lock member 50 moves to the lock position, the arm portion 51 pushes the movable piece 27b to contact the probe 27a, whereby the microswitch 27 detects that the lock member 50 has moved to the lock position and excites the relay. The relay then closes to close the main circuit and enable conduction.
When the lock member 50 in the lock position starts moving toward the lock release position, the arm 51 releases the pressure on the movable piece 27b. Therefore, the micro switch 27 releases the lock from the lock position. Energizes the relay by detecting that it has started moving to the position side, the relay starts the opening operation to open the main circuit to disable conduction, and the main circuit cannot conduct after the opening operation of the relay is completed It becomes.
[0033]
[Embodiment 3]
Next, a third embodiment of the present invention will be described with reference to FIGS. The breaker device C of the present embodiment is different from the first embodiment in the form of the lock member 60 and the micro switch 27. Since other configurations are the same as those of the first embodiment, the same configurations are denoted by the same reference numerals, and descriptions of structures, operations, and effects are omitted.
The locking member 60 has a generally “<” shape when viewed from the side, and is provided with a single arm portion 61 arranged along one outer surface of the movable housing 20, and a tip (upper end) of the arm portion 61. The locking plate 62 is extended. On the outer surface of the movable housing 20, a support shaft 26 with its axis line directed in the left-right direction is formed, and the support shaft 26 has a bearing hole 63 at a bent portion at the center in the length direction of the arm portion 61. It is mated. The lock member 60 has a lock position (see FIGS. 11 and 12) centered on the support shaft 26 and the bearing hole 63, and a lock release position (see FIG. 10) that positions the locking plate 62 rearward of the lock position. It is possible to rotate between (see). The lower end portion of the arm portion 61 (the end portion below the bearing hole 63) is a pressing portion 64.
[0034]
A stopper 28 is projected on the outer surface of the movable housing 20, and the rear edge of the lower portion of the arm portion 61 below the bearing hole 63 contacts the stopper 28, so that the lock member 60 at the lock position is unlocked. Rotation to the opposite side of the direction is restricted.
Further, at the upper end of the outer side surface of the movable housing 20, the micro switch 27 is provided below the lock member 60, and the movable piece 27b is pressed against the probe 27a from above. .
[0035]
In a state where the slide lever 30 is located on the side of the disengagement position (upper side) from the fitting position, the locking plate 60 of the lock member 60 in the unlocking position is the upper end portion of the cam plate 31 as shown in FIG. By contacting the trailing edge, the rotation to the lock position side is restricted.
In a state where the slide lever 30 moves to the fitting position and the connecting plate 32 overlaps the upper surface of the movable housing 20, the upper end portion of the cam plate 31 is released downward with respect to the locking plate 62. It can move to the lock position without interfering with the cam plate 31. In the state where the lock member 60 is moved to the lock position, as shown in FIG. 11, the locking plate 62 comes into contact with the corners of the connecting plate 32 so as to overlap substantially in parallel from above. At this time, the support shaft 26 that is the rotation center of the lock member 60 is located on the lower side opposite to the locking plate 62 with the connecting plate 32 interposed therebetween, so that the slide lever 30 is moved upward (withdrawal position side). Movement is restricted and locked in the mating position.
[0036]
When the lock member 60 moves to the lock position, the pressing portion 64 pushes the movable piece 27b to contact the probe 27a, whereby the microswitch 27 excites the relay and the relay starts to close. When the lock member 60 in the lock position starts moving toward the lock release position, the arm unit 61 releases the pressure on the movable piece 27b. Therefore, the microswitch 27 excites the relay, and the relay operates the main circuit. Opening operation to open and disable conduction is started.
[0037]
[Embodiment 4]
Next, a fourth embodiment of the present invention will be described with reference to FIGS. The breaker device D of the present embodiment is obtained by making the form of the lock member 70 different from that of the first embodiment. Since other configurations are the same as those of the first embodiment, the same configurations are denoted by the same reference numerals, and descriptions of structures, operations, and effects are omitted.
The locking member 70 is bent in a substantially J shape when viewed from the side, and has a substantially portal shape in which the distal ends of a pair of left and right arm portions 71 arranged along the outer surface of the movable housing 20 are connected by a locking plate 72. Make. A pair of support shafts 26 whose axial lines are directed in the left-right direction protrude from upper ends of the left and right outer surfaces of the movable housing 20, and the support shafts 26 are provided with bearing holes 73 of bent portions in both arm portions 71. Is fitted. The lock member 70 can rotate between a lock position (see FIG. 14) and a lock release position (see FIG. 13) behind the lock position around the support shaft 26 and the bearing hole 73. It is like that. Further, a short portion of the arm portion 71 on the side opposite to the locking plate 72 with the bearing hole 73 interposed therebetween is a pressing portion 74.
[0038]
A stopper 28 is projected on the outer side surface of the movable housing 20, and when the arm portion 71 abuts against the stopper 28, the lock member 70 at the lock position rotates to the side opposite to the unlocking direction. Be regulated. Further, a micro switch 27 is provided on the outer surface of the movable housing 20 so that the movable piece 27b is pressed against the probe 27a from above.
When the lock member 70 at the unlocking position is rotated to the lock position from the state where the slide lever 30 has moved to the fitting position, the locking plate 72 is parallel to the connecting plate 32 in the operation portion 33 of the slide lever 30. It abuts on the distal end portion of the finger contact portion 33a (perpendicular to the moving direction of the slide lever 30) so as to be substantially parallel from above. In this state, the support shaft 26 that is the rotation center of the lock member 70 is positioned on the lower side opposite to the locking plate 72 with the finger pad portion 33a interposed therebetween. ) Is restricted and locked in the mating position.
[0039]
When the lock member 70 moves to the lock position, the pressing portion 74 pushes the movable piece 27b to contact the probe 27a, whereby the microswitch 27 excites the relay and the relay starts to close. When the lock member 70 in the lock position starts moving toward the lock release position, the pressing unit 74 releases the pressure on the movable piece 27b. Therefore, the microswitch 27 excites the relay, and the relay opens. Start.
[0040]
[Embodiment 5]
Next, a fifth embodiment of the present invention will be described with reference to FIGS. The breaker device E of the present embodiment is different from the first embodiment in the form of the lock member 80 and the arrangement of the microswitch 27. Since other configurations are the same as those of the first embodiment, the same configurations are denoted by the same reference numerals, and descriptions of structures, operations, and effects are omitted.
The lock member 80 is moved in parallel between a lock position (see FIG. 16) and a lock release position (see FIG. 15) while being guided by a longitudinal guide groove 29 formed on the upper surface of the movable housing 20. It has become. A guided portion 82 that fits into the guide groove 29 is formed on the lower surface of the plate-like main body portion 81 of the lock member 80, and extends upward from the rear end edge of the main body portion 81. A locking plate 83 that is bent in an approximately L shape in a side view extending forward from the extended end is formed. Further, a support bar 84 is extended from one side edge of the main body portion 81, and a pressing portion 85 is protruded downward at an extension end of the support bar 84.
[0041]
On the outer surface of the movable housing 20, a micro switch 27 is provided so that the movable piece 27b is pressed against the probe 27a from behind.
When the locking member 80 at the unlocking position is slid to the locking position from the state where the sliding lever 30 has moved to the fitting position, the locking plate 83 is viewed from above with respect to the rear end of the connecting plate 32 of the sliding lever 30. Lock. Since the movement of the lock member 80 is restricted in the vertical direction, the movement of the slide lever 30 upward (withdrawal position side) is restricted by the engagement of the engagement plate 83. In this state, the main body 81 of the lock member 80 enters the gap between the upper end surface of the movable housing 20 and the connecting plate of the slide lever 30.
[0042]
When the lock member 80 moves to the lock position, the pressing portion 74 pushes the movable piece 27b to contact the probe 27a, whereby the microswitch 27 excites the relay and the relay starts to close. When the lock member 80 in the lock position starts moving toward the lock release position, the pressing unit 74 releases the pressure on the movable piece 27b. Therefore, the microswitch 27 excites the relay, and the relay opens. Start.
[0043]
[Other Embodiments]
The present invention is not limited to the embodiment described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention, and further, within the scope not departing from the gist of the invention other than the following. Various modifications can be made.
(1) In the above embodiment, the slide lever and the lock member are provided in the movable housing. However, according to the present invention, the slide lever and the lock member may be provided in the fixed housing.
[0044]
(2) You may attach a fuse apparatus to the breaker apparatus of the said embodiment.
(3) In the above embodiment, the microswitch is used as the detecting means for detecting the movement of the lock member and actuating the relay. However, according to the present invention, a pair of either the movable housing or the lock member is provided. While providing a terminal metal fitting and providing a short circuit terminal on the other, a short circuit and a cancellation | release of a short circuit may be performed by this short circuit terminal.
[0045]
(4) In the above-described embodiment, the relay that starts the opening operation by excitation is used as the switching means. However, according to the present invention, other means such as a transistor can be used.
(5) Although the micro switch is provided in the movable housing in the above embodiment, the micro switch may be provided in the stationary housing according to the present invention.
[Brief description of the drawings]
FIG. 1 is a partially enlarged side view showing a state in which a lock member is in an unlock position in the first embodiment.
FIG. 2 is a partially enlarged side view showing a state in which the lock member is rotated from the unlock position to the front of the lock position.
FIG. 3 is a partially enlarged side view showing a state in which the lock member is rotated to the lock position.
FIG. 4 is a partially enlarged plan view of a state in which a lock member is rotated to an unlock position.
FIG. 5 is a partially cutaway side view of a state in which the slide lever is in the release position and the lock member is in the unlock position
FIG. 6 is a partially cutaway side view showing a state in which the slide lever is in the fitting position and the lock member is in the lock position
FIG. 7 is a horizontal sectional view of the housing and the electrodes fitted together.
FIG. 8 is a side view showing a state in which the lock member is in the unlock position in the second embodiment.
FIG. 9 is a side view showing a state where the lock member is rotated to the lock position.
FIG. 10 is a side view showing a state in which the lock member is in the unlock position in the third embodiment.
FIG. 11 is a side view showing a state in which the lock member is rotated to the lock position.
FIG. 12 is a plan view showing a state where the lock member is in the lock position
FIG. 13 is a side view showing a state in which the lock member is in the unlock position in the fourth embodiment.
FIG. 14 is a side view showing a state in which the lock member is rotated to the lock position.
FIG. 15 is a partially enlarged side view showing a state in which the lock member is in the unlocked position in the fifth embodiment.
FIG. 16 is a partially enlarged side view showing a state where the lock member is moved to the lock position.
FIG. 17 is a partially enlarged rear view.
[Explanation of symbols]
A ... Breaker device
11 ... Fixed electrode
20 ... Moving housing
21 ... Moveable electrode
30 ... Slide lever
35 ... Locking hole (holding means)
40: Lock member
44 ... Bending locking piece (holding means)
B, C, D, E ... Breaker device
50, 60, 70, 80 ... lock member

Claims (3)

A pair of fixed electrodes provided in series with the main circuit that is opened and closed by opening and closing operation of the switching means;
A movable electrode that can be fitted to and detached from the pair of fixed electrodes;
It is provided in a housing to which the fixed electrode or the movable electrode is attached, and can be slid between a fitting position and a detaching position, and a finger is applied when performing the sliding operation. A slide lever having an operation unit ,
By engaging or disengaging the movable electrode with respect to the pair of fixed electrodes by a cam action accompanying sliding operation of the slide lever to the fitting position or the disengaging position, the switching means is independent of the opening / closing operation. Then, it is possible to allow or prevent energization between the pair of fixed electrodes,
The housing is a member separate from the slide member, and is locked to the slide lever in the fitting position to restrict the movement of the slide lever to the release position side, and the slide Displacement between the lever and the unlocking position allowing the movement of the lever is possible, and a locking member is provided for closing the switching means by displacing to the locking position. Breaker device.   The breaker device according to claim 1, further comprising holding means for holding the lock member at the lock position.   In the process of moving the slide lever from the disengagement position to the fitting position, the lock member is restricted from moving to the lock position by contacting the slide lever, and the slide lever is moved to the fitting position. The breaker device according to claim 1, wherein the breaker device is allowed to move to the lock position when the lock member is reached.

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