JP2020167034A - Power circuit breaker device - Google Patents

Abstract

To provide a highly reliable power circuit breaker device, in which a switch part for turning on/off a circuit is prevented from being deteriorated.SOLUTION: In a power circuit breaker device, a main switch part MSw includes: a terminal 13 provided in a first connector housing 10 and made of a pair of conductive metal material which are pressed against each other and brought into contact with each other to be conducted; and a shield plate part 27 which is provided in a second connector housing 20, is arranged at a position away from between the terminals 13 in a main mated state, and changes from the main mated state to a detached state so that the shield plate part is inserted between the pair of terminals 13 and interposed between the terminals 13, the shield plate part being made of an insulating resin material.SELECTED DRAWING: Figure 2

Description

The present invention relates to a power supply circuit breaker.

For example, vehicles such as electric vehicles and hybrid vehicles are provided with a power supply circuit cutoff device called a service plug that cuts off the power supply between the power supply and the load in order to ensure work safety during maintenance of the electric system. Be done.
This type of power circuit cutoff device includes a first housing and a second housing that is attached to and detached from the first housing, for example, a female terminal provided in the first housing and a male terminal provided in the second housing. Some power switches are configured from the above (see, for example, Patent Document 1).

In this power supply circuit cutoff device, the male terminal is inserted and removed from the female terminal by attaching and detaching the second housing to and from the first housing, and the power switch is turned on and off.

Japanese Unexamined Patent Publication No. 2012-243559

By the way, in the above power supply circuit cutoff device, every time the second housing is attached / detached to / from the first housing, the male terminal is inserted / removed from the female terminal and the contact portions slide with each other. Therefore, if the operation of attaching / detaching the second housing to / from the first housing is repeated, the surface of the contact portion where the female terminal and the male terminal slide with each other may be scraped. Further, the plating applied to the surfaces of the terminals of each other is scraped off to expose the base portion, and this exposed portion is oxidized to increase the electric resistance, which may reduce the reliability.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a highly reliable power supply circuit breaker in which deterioration of a switch portion for turning on / off a circuit is suppressed.

The above object of the present invention is achieved by the following configuration.
(1) With the first connector housing
With a second connector housing that is assembled to the first connector housing and is displaceable in a fully fitted state that is completely fitted to the first connector housing and a detached state that is detached from the first connector housing. ,
A switch portion that is turned on and off by displacement of the second connector housing in the main fitting state and the detached state with respect to the first connector housing.
It is a power supply circuit breaker equipped with
The switch unit
A terminal made of a pair of conductive metal materials provided on the first connector housing and pressed against each other to contact and conduct with each other.
It is provided in the second connector housing, is arranged at a position separated from the pair of terminals in the main fitting state, and is inserted between the pair of terminals by being in the detached state from the main fitting state. A shielding plate made of an insulating resin material interposed between the terminals and
A power supply circuit breaker, characterized in that it comprises.

According to the power supply circuit cutoff device having the configuration of (1) above, the shield plate portion is inserted and removed between the terminals of the switch portion that are in contact with each other by fitting and detaching the second connector housing from the first connector housing. The switch section is turned on and off. Since the shielding plate portion inserted and removed between the terminals is an insulating resin material having a hardness lower than that of the terminals made of a conductive metal material, damage to the terminals when sliding with the terminals can be suppressed as much as possible. As a result, it is possible to suppress scraping of the surface of the terminals and suppress the generation of scraped metal powder as compared with the case where the terminals of the conductive metal material slide with each other. In particular, when the surface of the terminal is plated, problems such as peeling of the plating and oxidation of the exposed base and an increase in electrical resistance can be suppressed. Therefore, it is possible to suppress deterioration of the switch portion that turns the circuit on and off and maintain high reliability.

(2) The power supply circuit cutoff device according to (1) above, wherein the switch portion has at least one of the terminals having an elastically deformable contact piece that projects and contacts the other terminal side.

According to the power supply circuit cutoff device having the configuration of (2) above, the contact piece is elastically deformed when the shielding plate portion is inserted and removed between the terminals, so that the shielding plate portion can be smoothly inserted and removed between the terminals. Can be done. Further, when the shielding plate portion is pulled out from between the terminals, the contact piece is pressed against the terminal on the other side by the elastic force, and a good conduction state can be obtained.

(3) Temporarily, the switch portion is turned on together with the switch portion in the main mating state, and the switch portion is maintained in the on state while the second connector housing is displaced in the detaching direction with respect to the first connector housing. The power supply circuit cutoff device according to (1) or (2) above, further comprising a sub-switch part that is turned off in the mated state to cut off the energization of the circuit of the switch part.

According to the power supply circuit cutoff device having the configuration of (3) above, when the second connector housing is changed from the main fitting state to the temporary fitting state, the sub switch portion is turned off and the energization of the circuit is cut off. The switch section is kept on. Therefore, by delaying the timing at which the switch unit is turned off with respect to the sub-switch unit, it is possible to suppress the generation of arcs, sparks, and the like due to the residual current of the circuit.

(4) The second connector housing is
Equipped with a rotatably supported lever
The power supply circuit breaking device according to any one of (1) to (3) above, wherein a fitting force and a detaching force with respect to the first connector housing are applied by rotating the lever. ..

According to the power supply circuit cutoff device having the configuration of (4) above, the fitting and detachment of the second connector housing from the first connector housing can be easily performed with a small operating force by rotating the lever. This makes it possible to provide a power supply cutoff circuit device having more excellent operability.

According to the present invention, it is possible to provide a highly reliable power supply circuit breaker in which deterioration of the switch portion that turns the circuit on and off is suppressed.

The present invention has been briefly described above. Further, the details of the present invention will be further clarified by reading through the embodiments for carrying out the invention described below (hereinafter, referred to as "embodiments") with reference to the accompanying drawings. ..

It is a perspective view in the detached state of the power supply circuit cutoff device which concerns on one Embodiment of this invention. It is sectional drawing which follows the vertical direction in the detached state of the power supply circuit cutoff device which concerns on this embodiment. It is a figure which shows the main fitting state of the power supply circuit cutoff device which concerns on this embodiment, FIG. 3A is a perspective view, and FIG. 3B is a cross-sectional view along the vertical direction. It is a figure which shows the temporary fitting state of the power supply circuit cutoff device which concerns on this embodiment, FIG. 4A is a perspective view, and FIG. 4B is a sectional view taken along the vertical direction. It is a figure explaining the structure of the power circuit cutoff device, FIG. 5A is a cross-sectional view taken along the vertical direction of the first connector housing and the second connector housing, and FIG. 5B is FIG. 5A. ) Is a sectional view taken along the line AA. It is an exploded perspective view of the 1st connector housing which constitutes a power circuit cutoff device. It is a figure explaining the sub switch part, FIG. 7A is a side view of the power supply circuit cutoff device, and FIG. 7B is a sectional view taken along line BB in FIG. 7A. It is an exploded perspective view of the 2nd connector housing which constitutes a power circuit cutoff device. It is a figure which shows the reference example of the main switch part, and (a) of FIG. 9 and (b) of FIG. 9 are cross-sectional views which show the temporary fitting state and the main fitting state, respectively.

Hereinafter, examples of embodiments according to the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of the power supply circuit cutoff device 1 according to the embodiment of the present invention in a detached state. FIG. 2 is a cross-sectional view taken along the vertical direction in the detached state of the power supply circuit cutoff device 1 according to the present embodiment. 3A and 3B are views showing a main fitting state of the power supply circuit cutoff device 1 according to the present embodiment, FIG. 3A is a perspective view, and FIG. 3B is a sectional view taken along the vertical direction. is there. 4A and 4B are views showing a temporary fitting state of the power supply circuit cutoff device 1 according to the present embodiment, FIG. 4A is a perspective view, and FIG. 4B is a sectional view taken along the vertical direction. is there.

As shown in FIGS. 1 to 4, the power supply circuit cutoff device 1 according to the present embodiment includes a first connector housing 10 and a second connector housing 20. The second connector housing 20 is fitted and detached from the first connector housing 10. The second connector housing 20 includes a lever 30. The lever 30 is rotatably provided with respect to the second connector housing 20, and by rotating the lever 30, the fitting force and the detachment between the second connector housing 20 and the first connector housing 10 are achieved. Give power.

The power supply circuit cutoff device 1 of the present embodiment cuts off the energization between the power supply unit and the load in order to ensure work safety in maintenance of the electric system, for example, in a vehicle such as an electric vehicle or a hybrid vehicle. It is a service plug. Specifically, by fitting the second connector housing 20 to the first connector housing 10, the power supply unit and the load can be energized, and the second connector housing 20 is separated from the first connector housing 10. By doing so, the energization between the power supply unit and the load is cut off.

5A and 5B are views for explaining the configuration of the power supply circuit cutoff device 1, FIG. 5A is a cross-sectional view taken along the vertical direction of the first connector housing 10 and the second connector housing 20, FIG. ) Is a cross-sectional view taken along the line AA in FIG. 5A. FIG. 6 is an exploded perspective view of the first connector housing 10 constituting the power supply circuit cutoff device 1. 7A and 7B are views for explaining the sub-switch unit SSw, FIG. 7A is a side view of the power supply circuit cutoff device 1, and FIG. 7B is a sectional view taken along line BB in FIG. 7A. Is. FIG. 8 is an exploded perspective view of the second connector housing 20 constituting the power supply circuit cutoff device 1.

As shown in FIGS. 5A and 6A, the first connector housing 10 has a flange portion 10a that projects to the outer periphery, and is attached to a power supply device or the like by fixing the flange portion 10a to a case. Be done. The first connector housing 10 is molded from a synthetic resin having electrical insulation. The first connector housing 10 has a housing cylinder portion 12 having an open upper surface. The accommodating cylinder portion 12 is formed in a rectangular tubular shape in a plan view. A pair of cam pins 11 are provided on both side surfaces of the accommodating cylinder portion 12. Further, a pair of main lock claws 19 projecting sideways are formed near one end of the accommodating cylinder portion 12.

A pair of terminals 13 are housed inside the housing tube portion 12 of the first connector housing 10. The terminal 13 is made of, for example, a bus bar formed of a conductive metal material such as copper or a copper alloy, and the terminal 13 is subjected to surface treatment such as tin plating. These terminals 13 have an electric wire connecting portion 14, and a power supply line 2 from a power supply device or the like is connected to the electric wire connecting portion 14. Further, each terminal 13 has a contact piece 15 on a side close to each other. The contact piece 15 is formed so as to project toward the other terminal 13 side and come into contact with each other so as to be elastically deformable by folding back one end side of the bus bar. Further, these contact pieces 15 are formed with contact portions 16 projecting in directions facing each other. These terminals 13 are assembled in the accommodating cylinder portion 12 of the first connector housing 10, and the contact portions 16 are brought into contact with each other in a state of being pressed against each other by the elastic force of the contact piece 15. As a result, the power supply lines 2 connected to each terminal 13 are electrically connected to each other via these terminals 13.

Further, as shown in FIG. 7, in the first connector housing 10, the terminal block 17 is formed on the flange portion 10a outside the housing cylinder portion 12. The terminal block 17 is provided with a pair of sub terminals 18 constituting the sub switch portion SSw. A signal line 3 is connected to these sub-terminals 18, and the sub-terminals 18 are inserted and mounted on the terminal block 17 from the lower side of the first connector housing 10.

As shown in (a) and (b) of FIG. 5 and (a) and (b) of FIG. 8, the second connector housing 20 has a fitting cylinder portion 22. The second connector housing 20 is molded from a synthetic resin having electrical insulation. The fitting cylinder portion 22 is formed in a box shape with the first connector housing 10 side open, and is fitted into the accommodating cylinder portion 12 of the first connector housing 10. The lever 30 is assembled to the fitting cylinder portion 22. A pair of support shafts 23 are provided so as to project from both side surfaces of the fitting cylinder portion 22. A pair of subblock protrusions 25 are formed on the upper edge portion on one end side of the fitting cylinder portion 22.

A shielding plate portion 27 is formed inside the fitting cylinder portion 22 of the second connector housing 20. The shielding plate portion 27 is formed at substantially the center of the lower portion of the fitting cylinder portion 22 in the longitudinal direction. The shielding plate portion 27 is formed in a plate shape along the attachment / detachment direction of the fitting cylinder portion 22 with respect to the accommodating cylinder portion 12 of the first connector housing 10, and is integrally formed so as to be bridged in the width direction. The shielding plate portion 27 is formed between the contact pieces 15 of the pair of terminals 13 by fitting and detaching the fitting cylinder portion 22 of the second connector housing 20 from the accommodating cylinder portion 12 of the first connector housing 10. It is inserted and removed from. Then, when the shielding plate portion 27 is pulled out from between the contact pieces 15 of the pair of terminals 13, the contact portions 16 of the pair of contact pieces 15 come into contact with each other to conduct the terminals 13, and the shielding plate portions 27 are paired. When inserted between the contact pieces 15 of the terminals 13, the shielding plate portion 27 is interposed between the contact portions 16 of the pair of contact pieces 15, and the continuity between the terminals 13 is released.

The lever 30 is formed of synthetic resin and has a pair of arm portions 31 and a connecting portion 32. One end of the arm portion 31 is connected by a connecting portion 32. The arm portion 31 has a bearing hole 34, and a pair of support shafts 23 of the second connector housing 20 are inserted into the bearing hole 34. As a result, the lever 30 is rotatably supported with respect to the second connector housing 20.

A cam groove 35 is formed in each of the pair of arm portions 31 of the lever 30. The cam pin 11 of the first connector housing 10 is inserted into the cam groove 35 with the fitting cylinder portion 22 of the second connector housing 20 fitted into the accommodating cylinder portion 12 of the first connector housing 10. As a result, the lever 30 is engaged with the first connector housing 10, and the second connector housing 20 is assembled to the first connector housing 10 without being separated. The cam groove 35 is formed in a shape that bends so as to connect the separated position 35a away from the bearing hole 34 and the close position 35b close to the bearing hole 34.

The lever 30 has a detachment operation position (position shown in FIGS. 1 and 2) and a main fitting operation position (position shown in FIGS. 3A and 3) while the cam pin 11 moves in the cam groove 35. Rotate between. In the disengagement operation position, the cam pin 11 is arranged at the separation position 35a of the cam groove 35. In this fitting operation position, the cam pin 11 is arranged at the proximity position 35b of the cam groove 35.

Then, between the first connector housing 10 and the second connector housing 20, a fitting force is applied in the fitting direction by rotating the lever 30 from the detaching operation position to the main fitting operation position, and the lever is applied. By rotating 30 from the main fitting operation position to the detachment operation position, a detachment force toward the detachment direction is applied.

The arm portion 31 of the lever 30 is formed with a main lock step portion 36 in the vicinity of the connecting portion 32 (see FIG. 8). The main lock claw 19 formed on the fitting cylinder portion 22 of the second connector housing 20 engages with these main lock step portions 36. Then, the main lock portion MR is formed from the main lock claw 19 and the main lock step portion 36 (see FIG. 7). In the main lock portion MR, the main lock claw 19 engages with the main lock step portion 36 in a state where the lever 30 is arranged at the main fitting operation position to lock the lever 30 with respect to the first connector housing 10. The rotation of the lever 30 is restricted.

As a result, the second connector housing 20 is locked with the first connector housing 10 in a completely fitted state. The power supply circuit cutoff device 1 is in a state in which the lever 30 is arranged at the main fitting operation position, the first connector housing 10 and the second connector housing 20 are completely fitted, and are locked by the main lock portion MR. It is in a mated state.
Further, in the power supply circuit cutoff device 1 of the present embodiment, the lever 30 is arranged at the detaching operation position, and a part of the fitting cylinder portion 22 of the second connector housing 20 is left from the accommodating cylinder portion 12 of the first connector housing 10. The extracted state is regarded as the detached state.

The connecting portion 32 of the lever 30 is formed with a subblock plate portion 42 having a locking edge portion 42a that can be locked to the subblock protrusion 25 formed in the fitting cylinder portion 22 of the second connector housing 20. .. Then, the subblock portion SR is configured from the subblock protrusion 25 and the subblock plate portion 42 (see FIG. 3).
In this subblock SR, the lever 30 is rotated from the main fitting operation position to the disengagement operation position by the locking edge portion 42a of the subblock plate portion 42 locking the subblock protrusion 25 and rotating the lever 30. To regulate. As a result, the second connector housing 20 is temporarily fitted to the first connector housing 10 and locked. The position where the lever 30 is locked during the rotation from the main fitting operation position to the detaching operation position is set as the temporary fitting operation position. Then, in the power supply circuit cutoff device 1, the state in which the lever 30 is locked at the temporary fitting operation position and the first connector housing 10 and the second connector housing 20 are temporarily fitted is set as the temporary fitting state. .. In this temporary fitting state, by pressing the subblock plate portion 42 and elastically deforming it, the locking edge portion 42a with respect to the subblock protrusion 25 is released, and the rotation toward the disengagement operation position is possible again. Will be done.

Further, a bus bar holding portion 45 is formed in the connecting portion 32 of the lever 30, and a short terminal 46 is provided in the bus bar holding portion 45. The short terminal 46 has a pair of tab portions 47. The tab portion 47 of the short terminal 46 can be connected to the sub terminal 18 of the first connector housing 10. When the tab portion 47 of the short terminal 46 is connected to the sub terminal 18, the signal lines 3 connected to the sub terminal 18 are electrically connected to each other via the short terminal 46.

The power supply circuit cutoff device 1 according to the present embodiment includes a main switch portion MSw composed of a pair of terminals 13 and a shielding plate portion 27, and a sub switch portion SSw composed of a sub terminal 18 and a short terminal 46. ..

In the power supply device or the like provided with the power supply circuit cutoff device 1 of the present embodiment, the power supply circuit is formed by turning on the main switch unit MSw and electrically connecting the power supply lines 2 to each other, and the sub switch unit SSw. Is turned on and the signal lines 3 are electrically connected to each other to form a signal circuit. Then, in a power supply device or the like provided with the power supply circuit cutoff device 1, even if the main switch unit MSw is turned on and the power supply circuit is formed, unless the sub switch unit SSw is turned on and the signal circuit is formed. It is configured so that the power supply circuit is not in a conductive state. That is, the power supply circuit can be made conductive only when both the main switch portion MSw and the sub switch portion SSw are turned on.

In the power supply circuit cutoff device 1 having the above configuration, the main switch portion MSw is in the main fitting state (states shown in FIGS. 3A and 3B) in which the lever 30 is arranged at the main fitting operation position and the lever 30. Is turned on in the temporary fitting state (states shown in (a) and (b) of FIG. 4) arranged at the temporary fitting operation position, and the lever 30 is arranged at the detaching operation position (FIG. 1). And the state shown in FIG. 2) is turned off.

Further, the sub switch portion SSw is turned on in the main fitting state (the state shown in (a) and (b) of FIG. 3) in which the lever 30 is arranged at the main fitting operation position, and the lever 30 is temporarily fitted. In the temporarily fitted state (states shown in (a) and (b) of FIG. 4) arranged at the combined operation position and in the detached state (state shown in FIGS. 1 and 2) in which the lever 30 is arranged at the detached operation position. It is turned off.

Next, in the power supply circuit cutoff device 1 according to the present embodiment, a case where the second connector housing 20 is fitted and detached from the first connector housing 10 will be described.

(When mating)
To fit the second connector housing 20 into the first connector housing 10, the lever 30 at the detachment operation position (see FIGS. 1 and 2) is rotated toward the main fitting operation position. Then, the cam pin 11 moves from the separated position 35a to the close position 35b along the cam groove 35, and is between the accommodating cylinder portion 12 of the first connector housing 10 in the detached state and the fitting cylinder portion 22 of the second connector housing 20. Is given a fitting force. As a result, the fitting cylinder portion 22 of the second connector housing 20 is pulled into the accommodating cylinder portion 12 of the first connector housing 10 to be in the main fitting state (see FIG. 3).

By changing from the detached state to the main fitting state, the shielding plate portion 27 interposed between the contact pieces 15 of the pair of terminals 13 is pulled out from between the contact pieces 15, and the pair of contact pieces 15 The contact portions 16 come into contact with each other and the terminals 13 are made conductive. That is, the main switch unit MSw is turned on, and the power supply lines 2 connected to the pair of terminals 13 are electrically connected to each other via the terminals 13. Further, the tab portion 47 of the short terminal 46 is connected to the sub terminal 18. That is, the sub switch unit SSw is turned on, and the signal lines 3 connected to the sub terminal 18 are electrically connected to each other via the short terminal 46.

Further, by changing from the detached state to the main fitting state, in the main lock portion MR, the main lock step portion 36 of the lever 30 engages with the main lock claw 19 of the fitting cylinder portion 22. As a result, the lever 30 is locked in a state of being arranged at the main fitting operation position, and the rotation of the lever 30 is restricted. In this way, in the main fitting state, the main lock portion MR regulates the rotation of the lever 30, so that the first connector housing 10 and the second connector housing 20 are locked in a completely fitted state and are fully fitted. The condition is maintained.

(When leaving)
In order to separate the second connector housing 20 from the first connector housing 10, the connecting portion 32 of the lever 30 arranged at the main fitting operation position (see (a) and (b) of FIG. 3) is gripped and pulled up. .. Then, the main lock step portion 36 of the lever 30 is disengaged from the main lock claw 19 of the second connector housing 20, the lock of the lever 30 is released by the main lock portion MR that maintains the main fitting state, and the lever 30 can rotate. It becomes.

The rotatable lever 30 is rotated toward the release operation position. Then, as the lever 30 rotates, the cam pin 11 moves from the proximity position 35b to the separation position 35a along the cam groove 35, and a detaching force is applied between the first connector housing 10 and the second connector housing 20. Is given, and the second connector housing 20 that has been in the main mating state with respect to the first connector housing 10 is displaced in the direction of being separated from the first connector housing 10.

When the rotating lever 30 reaches the temporary fitting operation position, the locking edge portion 42a of the sublock plate portion 42 constituting the sublock portion SR becomes the sublock of the fitting cylinder portion 22 of the second connector housing 20. By locking the protrusion 25, the lever 30 is locked at the temporary fitting operation position and rotation is restricted (see (a) and (b) of FIG. 4). As a result, the first connector housing 10 and the second connector housing 20 are temporarily fitted.

In the temporary fitting state, the tab portion 47 of the short terminal 46 is pulled out from the sub terminal 18. That is, the sub switch unit SSw is turned off, and the electrical connection between the signal lines 3 is released.

In the temporary fitting state, the contact portions 16 of the pair of contact pieces 15 are continuously in contact with each other, and the terminals 13 are electrically connected to each other. That is, the main switch unit MSw is continuously turned on, and the power supply lines 2 connected to the pair of terminals 13 are electrically connected to each other via the terminals 13.

From this temporary fitting state, the subblock plate portion 42 of the subblock portion SR is pressed to release the lock by the subblock portion SR. Then, the rotatable lever 30 is rotated again toward the release operation position. Then, a detaching force is applied again between the first connector housing 10 and the second connector housing 20 by the rotation of the lever 30, and the fitting cylinder of the second connector housing 20 from the accommodating cylinder portion 12 of the first connector housing 10 is applied again. The portion 22 is pulled out, and the first connector housing 10 and the second connector housing 20 are separated from each other (see FIGS. 1 and 2).

In this way, when the second connector housing 20 is displaced from the temporary fitting state in the direction of detachment from the first connector housing 10 and is in the detached state, the shielding plate portion is formed between the contact pieces 15 of the pair of terminals 13. 27 is inserted. Then, a shielding plate portion 27 made of an electrically insulating material is interposed between the contact portions 16 of the pair of contact pieces 15, and the conduction between the terminals 13 is released. As a result, the main switch portion MSw is turned off, and the electrical connection state between the power supply lines 2 is released.

In the power supply circuit cutoff device 1 described above, the main switch portion MSw is turned on in the main fitting state locked by the main lock portion MR and the temporary fitting state locked by the sublock portion SR, and the sub switch portion SSw is turned on. Is turned on in the main fitting state locked by the main lock portion MR, and turned off in the temporary fitting state locked by the sublock portion SR. Therefore, after the sub-switch unit SSw is turned off and the electrical connection state between the signal lines 3 is released, the lock by the sub-switch unit SR is not released, or the main switch unit MSw is turned off and the power lines 2 are connected to each other. The electrical connection cannot be released. As a result, it is possible to suppress the generation of arcs, sparks, etc. due to the residual current generated by disconnecting the power supply lines 2 immediately after disconnecting the signal lines 3.

Here, a reference example having a main switch portion having another structure will be described.
9A and 9B are views showing a reference example of the main switch portion, and FIGS. 9A and 9B are cross-sectional views showing a temporary fitting state and a main fitting state, respectively.

As shown in FIGS. 9A and 9B, the main switch unit according to the reference example has a pair of first terminals 101 and a pair of second terminals 102, and the pair of first terminals 101 The power lines 2 are connected to each other. The first terminal 101 has a plate-shaped male terminal portion 103, and each male terminal portion 103 is arranged so as to sandwich an insulating plate portion 104 made of a synthetic resin having electrical insulation. The second terminal 102 is formed in a substantially U-shape in a side view having a pair of contact pieces 105. A pair of male terminal portions 103 of the first terminal 101 is inserted between the pair of contact pieces 105 of the second terminal 102.

As shown in FIG. 9B, in the reference example, when the male terminal portions 103 of the pair of first terminals 101 are inserted between the pair of contact pieces 105 of the second terminal 102, the first terminals 101 are connected to each other. Is conducted by the second terminal 102 and is turned on. Further, as shown in FIG. 9A, when the male terminal portions 103 of the pair of first terminals 101 are pulled out from between the pair of contact pieces 105 of the second terminals 102, the pair of first terminals 101 are connected to each other. The continuity state of is released and the state becomes off.

In the reference example shown in FIG. 9, the second terminal is turned on and off each time the male terminal 103 of the pair of first terminals 101 is inserted and removed between the contact pieces 105 of the pair of second terminals 102. The contact piece 105 of 102 slides on the male terminal 103 of the first terminal 101. Therefore, when on / off is repeated, scraping occurs at the contact portion where the male terminal portion 103 and the contact piece 105 slide with each other. In particular, if the plating formed on the surface is scraped to expose the base portion, the exposed portion may be oxidized to increase the electrical resistance and reduce the reliability.

On the other hand, according to the power supply circuit cutoff device 1 according to the present embodiment, the second connector housing 20 is fitted and detached from the first connector housing 10 so that the main switch portion MSw is in contact with each other. The shielding plate portion 27 is inserted and removed between the terminals 13 of the main switch portion MSw, and the main switch portion MSw is turned on and off. Since the shielding plate portion 27 inserted and removed between the pair of terminals 13 is an insulating resin material having a hardness lower than that of the terminal 13 made of a conductive metal material, it slides with the contact portion 16 of the contact piece 15 of the terminal 13. Damage to the terminal 13 can be suppressed as much as possible. As a result, it is possible to suppress scraping of the surface of the terminal 13 and suppress the generation of scraped metal powder as compared with the case where the terminals of the conductive metal material slide with each other. In particular, when the surface of the terminal 13 is plated, problems such as peeling of the plating and oxidation of the exposed base and an increase in electrical resistance can be suppressed. Therefore, it is possible to suppress deterioration of the main switch portion MSw that turns on / off the power supply circuit and maintain high reliability.

Further, in the power supply circuit cutoff device 1 according to the present embodiment, since the cam pin 11 of the accommodating cylinder portion 12 of the first connector housing 10 is engaged with the cam groove 35 of the lever 30, for example, the first connector housing at the time of maintenance. The second connector housing 20 is not separated from the 10. Therefore, maintenance can be performed smoothly.

Further, according to the power supply circuit blocking device 1 according to the present embodiment, the contact piece 15 is elastically deformed when the shielding plate portion 27 is inserted and removed between the pair of terminals 13, so that the shielding plate portion 27 between the terminals 13 is elastically deformed. Can be smoothly inserted and removed. Further, when the shielding plate portion 27 is pulled out from between the pair of terminals 13, the contact pieces 15 are pressed against each other by elastic force, and a good conduction state can be obtained.

Moreover, according to the power supply circuit cutoff device 1 according to the present embodiment, when the second connector housing 20 is changed from the main fitting state to the temporary fitting state, the sub switch portion SSw is turned off and the power supply circuit is energized. The main switch unit MSw, which is cut off, is maintained in the ON state. Therefore, by delaying the timing at which the main switch portion MSw is turned off with respect to the sub switch portion SSw, it is possible to suppress the generation of arcs, sparks, etc. due to the residual current of the power supply circuit.

Further, according to the power supply circuit cutoff device 1 according to the present embodiment, by rotating the lever 30, the second connector housing 20 can be easily fitted and detached from the first connector housing 10 with a small operating force. Can be done. This makes it possible to provide a power supply cutoff circuit device having more excellent operability.

The present invention is not limited to the above-described embodiment, and can be appropriately modified, improved, and the like. In addition, the material, shape, size, number, arrangement location, etc. of each component in the above-described embodiment are arbitrary as long as the present invention can be achieved, and are not limited.

For example, in the above embodiment, a lever 30 is provided between the second connector housing 20 and the first connector housing 10 to apply a fitting force and a detaching force by being rotated, but the lever 30 is not always provided. Good.

In the above embodiment, the contact piece 15 is provided for each of the pair of terminals 13, but the contact piece 15 that elastically contacts the other terminal 13 may be provided only for one terminal 13.

Further, in the above embodiment, the case where the shielding plate portion 27 is integrally molded with the second connector housing 20 is illustrated, but a separate shielding plate portion 27 formed of an insulating resin material is assembled to the second connector housing 20. May be good.

Here, the features of the above-described embodiment of the power supply circuit cutoff device according to the present invention are briefly summarized and listed below in [1] to [4], respectively.
[1] With the first connector housing (10)
This fitted state, which is assembled to the first connector housing (10) and completely fitted to the first connector housing (10), and the detached state of being detached from the first connector housing (10). Second connector housing (20) that can be displaced to
A switch unit (main switch unit MSw) that is turned on and off by displacement of the second connector housing (20) with respect to the first connector housing (10) in the main fitting state and the detached state.
A power supply circuit breaker (1) equipped with
The switch unit (main switch unit MSw) is
A terminal (13) provided in the first connector housing (10) and made of a pair of conductive metal materials that are pressed against each other and contact each other to conduct conduction.
It is provided in the second connector housing (20), is arranged at a position separated from the pair of terminals (13) in the main fitting state, and is in the detached state from the main fitting state, so that the pair of the above A shielding plate portion (27) made of an insulating resin material that is inserted between the terminals (terminals 13) and interposed between the terminals (13).
A power supply circuit cutoff device (1).
[2] The switch unit (main switch unit MSw) has at least one terminal (13) having an elastically deformable contact piece (15) that projects and contacts the other terminal (13) side. The power supply circuit cutoff device (1) according to the above [1].
[3] In the main mating state, the switch portion (main switch portion MSw) is turned on together, and the second connector housing (20) is being displaced with respect to the first connector housing (10) in the detaching direction. The sub-switch unit (SSw) that shuts off the energization of the circuit of the switch unit (main switch unit MSw) is turned off in the temporary fitting state in which the switch unit (main switch unit MSw) is maintained in the on state. The power supply circuit cutoff device (1) according to the above [1] or [2].
[4] The second connector housing (20) is
Equipped with a rotatably supported lever (30)
By rotating the lever (30), a fitting force and a detaching force with respect to the first connector housing (10) are applied to any one of the above [1] to [3]. The power circuit breaker described.

1 ... Power supply circuit cutoff device 10 ... 1st connector housing 13 ... Terminal 15 ... Contact piece 20 ... 2nd connector housing 27 ... Shielding plate 30 ... Lever MSw ... Main switch (switch)
SSw ... Sub switch section

Claims (4)

1st connector housing and
With a second connector housing that is assembled to the first connector housing and is displaceable in a fully fitted state that is completely fitted to the first connector housing and a detached state that is detached from the first connector housing. ,
A switch portion that is turned on and off by displacement of the second connector housing in the main fitting state and the detached state with respect to the first connector housing.
It is a power supply circuit breaker equipped with
The switch unit
A terminal made of a pair of conductive metal materials provided on the first connector housing and pressed against each other to contact and conduct with each other.
It is provided in the second connector housing, is arranged at a position separated from the pair of terminals in the main fitting state, and is inserted between the pair of terminals by being in the detached state from the main fitting state. A shielding plate made of an insulating resin material interposed between the terminals and
A power supply circuit breaker, characterized in that it comprises. The power supply circuit breaking device according to claim 1, wherein the switch unit has at least one of the terminals having an elastically deformable contact piece that projects and contacts the other terminal side. In the main mating state, the switch portion is turned on together with the switch portion, and the switch portion is maintained in the on state while the second connector housing is displaced in the detaching direction with respect to the first connector housing. The power supply circuit cutoff device according to claim 1 or 2, further comprising a sub-switch portion that is turned off in the switch section to cut off the energization of the circuit of the switch section. The second connector housing is
Equipped with a rotatably supported lever
The power supply circuit breaking device according to any one of claims 1 to 3, wherein a fitting force and a detaching force with respect to the first connector housing are applied by rotating the lever.

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