JP2015095403A - Connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To remove a connector by providing a delay time.SOLUTION: A connector 10 is provided with a housing 11 which houses a female terminal 40 connectable to a male terminal 85 housed in an equipment side housing 81, and both housings 11, 81 are normally engaged, so that a power supply circuit becomes conductive, and in the process that both of the housings 11, 81 are disengaged, the power supply circuit becomes non-conductive. The housing 11 has: a lock arm 14 which is elastically displaced toward a bending space S, elastically returns, and is engaged with a lock part 86 of the equipment side housing 81; and an engagement guarantee part 70 which enters the bending space S and blocks elastic displacement of the lock arm 14. The engagement guarantee part 70 is provided with a stopper part 75 which is engaged with the lock part 86 and stops disengagement of both housings 11, 81 after the power supply circuit is in the non-conductive state, and performs disengaging operation, so that an engagement state with the lock part 86 is disengaged.

Description

  The present invention relates to a connector.

  For example, what is described in the following Patent Document 1 is known as a connector fitted to a device-side connector provided in a device. This connector has a lock arm that can be elastically displaced toward the flexure space. The lock arm is elastically displaced and the lock arm is locked to the lock portion provided on the device-side connector so that both connectors can be connected. Lock to the mated state. In addition, the connector has a fitting guarantee portion that can enter the bending space of the lock arm, and after the device side connector and the connector are fitted and locked, the fitting guarantee portion becomes the bending space of the lock arm. As a result, the elastic displacement of the lock arm is prevented, and the lock arm and the lock portion are prevented from being inadvertently released.

  On the other hand, when the device-side connector and the connector are separated, the engagement state between the lock arm and the lock portion is released by detaching the fitting assurance portion from the bending space and elastically displacing the lock arm. Then, by operating the device-side connector and the connector so as to be separated, the separation of the device-side connector and the connector is completed.

JP 2004-164940 A

  By the way, according to the connector described above, when the fitting guarantee part is removed from the flex space, the power supply circuit is connected with the male terminal provided on the device side connector and the terminal provided on the connector being connected. It is in the energized state, the lock state between the lock arm and the lock part is released, the connection between the device side terminal and the terminal is released in the process of detaching the device side connector and the connector, and the power supply circuit is in the deenergized state Switch to

  However, when the current flowing between the terminal on the device side is a direct current, each terminal is charged immediately after the power supply circuit is switched to the non-energized state. For this reason, if the locking between the lock arm and the lock portion is released and the device-side connector and the connector are quickly detached, the electric charge remains in each terminal after the separation, which may have an adverse effect.

  The present invention has been completed based on the above-described circumstances, and an object of the present invention is to provide a delay time and allow the connector to be detached.

  As a means for achieving the above object, the present invention includes a housing that accommodates a terminal that can be connected to a mating terminal housed in the mating housing, and the mating housing and the housing are properly fitted. Thus, the power supply circuit configured via the counterpart terminal and the terminal is energized, and the power supply circuit is de-energized in the process of separating the counterpart housing and the housing, The housing is elastically displaced toward the bending space in the mating process between the mating housing and the housing, and is elastically restored when the mating housing and the housing are properly fitted to each other. A locking arm that holds the mating housing and the housing in a fitted state by engaging with the locking portion; A fitting guarantee portion that holds the locking state between the lock arm and the lock portion by preventing the lock arm from being elastically displaced by entering the bending space of the lock arm locked with the lock portion. And the mating guarantee portion is engaged with the lock portion after the power supply circuit is de-energized in the detachment process of the two housings, so that the mating housing and the housing It is characterized in that a stopper portion is provided that stops the engagement with the lock portion by stopping the release and releasing the lock.

According to the connector having such a configuration, first, the fitting assurance portion is detached from the bending space so that both housings can be detached. Next, in the process of detaching the two housings, when the power supply circuit is in a non-energized state, the stopper part and the lock part are locked to stop the detachment of both housings, and then the stopper part is released. As a result, the latching state between the latching portion and the lock portion is released, and both housings are completely detached.
In other words, the process of detaching both housings cannot be completed by a single operation, and time is taken when the power supply circuit is de-energized, so there is a charge between the mating terminal and the terminal. Even when there is a residual charge, the charge of each terminal can be eliminated or reduced when the stoppers are released to release both housings. Thereby, it is possible to prevent an adverse effect from being caused by the charge remaining in each terminal.

The following configuration is preferable as an embodiment of the present invention.
The stopper portion includes a locking portion that can be locked with the locking portion, an elastically displaceable arm portion having one end serving as a release operation portion and the other end connected to the locking portion, The arm portion may be elastically displaced by pressing the release operation portion and performing a release operation, and may be configured to displace the locking portion in a direction to release the locking with the lock portion.
According to such a configuration, the release operation portion is pressed, the arm portion is elastically displaced to displace the locking portion, and thereby the locking between the locking portion and the locking portion is released, and the two housings are detached. Can be completed.

The power supply circuit is provided across the two housings, and is turned on when the two housings are properly fitted to each other to switch the power supply circuit to an energized state. It is good also as a structure provided with the interlock circuit switched to a non-energized state.
According to such a configuration, when the interlock circuit is turned off and the power supply circuit is switched to the non-energized state, the detachment of both housings can be stopped. In other words, when the interlock circuit is turned off and the power supply circuit is switched to the non-energized state, the removal of both housings can be stopped and time can be saved. Can be reduced.

The stopper portion is a locking portion that can be locked with the locking portion, and a release operation in a direction to release the locking between the locking portion and the locking portion, and by pulling the locking portion, It is good also as a structure which has the cancellation | release operation part which cancels | releases the latching state of a locking part and the said latching | locking part.
According to such a configuration, the release operation portion is released and the engagement portion is displaced so as to be pulled, thereby releasing the engagement between the lock portion and the engagement portion and completing the detachment of both housings. Can do.

When the two housings are properly fitted, the mating terminal and the terminal are fitted and connected, the power supply circuit is energized, and the mating terminal and the terminal are fitted in the process of detaching the two housings. It is good also as a structure by which the said power supply circuit will be in a non-energized state by canceling | releasing connection.
According to such a configuration, when the mating connection between the counterpart terminal and the terminal is released and the power supply circuit is in a non-energized state, the detachment of both housings can be stopped. In other words, when the power supply circuit is in a non-energized state, it is possible to stop the detachment of both housings and gain time, so that when the release operation part is released, the charge of each terminal can be lost or reduced. .

The release operation portion includes a connecting portion that is connected to the locking portion, and the connecting portion is elastically displaced by being pressed by the elastically displaced lock arm, thereby locking the locking portion. It is good also as a structure urged | biased in the direction locked with a part.
According to such a configuration, in the process of detaching both housings while elastically displacing the lock arm, the locking portion and the locking portion are securely locked, so that the power supply circuit is in a non-energized state. Now, the detachment of both housings can be reliably stopped.

  According to the present invention, the connector can be detached with a delay time.

The perspective view of the connector concerning Embodiment 1 Front view The top view which shows the state which the apparatus side connector and the connector fitted normally BB sectional view of FIG. AA line sectional view of FIG. Sectional drawing which shows the state which the apparatus side connector and the connector fitted normally, Comprising: Sectional drawing corresponded in the cross section of the AA line of FIG. The top view which shows the state which the apparatus side connector and the connector fit normally, and the fitting guarantee part moved to the retracted position DD sectional view of FIG. FIG. 9 is a cross-sectional view illustrating a state in which the lock portion and the locking portion are locked in the process of detaching the device-side connector from the connector, and is a cross-sectional view corresponding to the cross section of FIG. FIG. 7 is a cross-sectional view showing a state in which the connection between the device-side interlock terminal and the interlock terminal is released in the process of detaching the device-side connector from the connector, and is a cross-sectional view corresponding to the cross-section of FIG. Sectional drawing which shows the state which the apparatus side connector and the connector removed, Comprising: Sectional drawing equivalent to the cross section of FIG. Sectional drawing which shows the state which the apparatus side connector and connector removed, Comprising: Sectional drawing equivalent to the cross section of FIG. The perspective view of the fitting guarantee part concerning Embodiment 1. Front view Plan view Side view The perspective view of the connector concerning Embodiment 2. Front view FIG. 19 is a cross-sectional view showing a state in which the device-side connector and the connector are properly fitted, and is a cross-sectional view corresponding to a cross section taken along line EE in FIG. 18. FIG. 19 is a cross-sectional view showing a state in which the device-side connector and the connector are properly fitted, and is a cross-sectional view corresponding to a cross section taken along line FF in FIG. 18. FIG. 20 is a cross-sectional view showing a state in which the device-side connector and the connector are properly fitted and the fitting guarantee portion is moved to the retracted position, corresponding to the cross-section of FIG. FIG. 21 is a cross-sectional view illustrating a state in which the device-side connector and the connector are properly fitted and the fitting guarantee portion is moved to the retracted position, and is a cross-sectional view corresponding to the cross-section of FIG. 20. FIG. 20 is a cross-sectional view illustrating a state in which the lock portion and the locking portion are locked in the process of detaching the device-side connector and the connector, and is a cross-sectional view corresponding to the cross section of FIG. FIG. 21 is a cross-sectional view showing a state in which the connection between the male terminal and the female terminal is released in the process of detaching the device-side connector from the connector, and is a cross-sectional view corresponding to the cross section of FIG. FIG. 20 is a cross-sectional view showing a state in which the lock portion and the lock portion are released from each other in the process of detaching the device-side connector from the connector, and a cross-sectional view corresponding to the cross section of FIG. FIG. 21 is a cross-sectional view illustrating a state in which the lock portion and the lock portion are released from each other in the process of detaching the device-side connector from the connector, and a cross-sectional view corresponding to the cross section of FIG. 20. The perspective view which looked at the fitting guarantee part concerning Embodiment 2 from diagonally downward Plan view Side view

<Embodiment 1>
Embodiment 1 of the present invention will be described with reference to FIGS.
This embodiment illustrates the connector 10 that is fitted to a device-side connector 80 provided in a device mounted on a vehicle. When the device-side connector 80 and the connector 10 reach a regular fitting state, The power supply circuit is closed and power can be supplied to the power supply circuit. In the following description, the vertical direction is based on the vertical direction in FIG. 2, and the horizontal direction is based on the horizontal direction in FIG. Further, the front-rear direction will be described with reference to the left-right direction in FIGS. 3 to 6 as a reference, and the side in which the device-side connector 80 and the connector 10 are fitted to each other is referred to as the front side.

  As shown in FIGS. 6 and 12, the device-side connector 80 has a device-side housing 81 made of synthetic resin that can be fitted to the connector 10. The device-side housing 81 is configured such that a device-side terminal accommodating portion 83 having a pair of device-side cavities 84 is provided inside a substantially rectangular tube-shaped outer tube portion 82. The pair of device-side cavities 84 are provided side by side, and a flat male terminal 85 is provided on the back wall 84A of the device-side cavity 84 so as to protrude forward.

A cylindrical device-side shell 88 is attached to the outer periphery of the device-side terminal accommodating portion 83. The device-side shell 88 is made of a metal having excellent conductivity, and is configured to surround the device-side terminal accommodating portion 83 over the entire circumference.
A pin-shaped device-side interlock terminal 87 that protrudes forward from the inner wall 81 </ b> A of the device-side housing 81 is provided between the device-side terminal accommodating portion 83 and the outer cylinder portion 82.

  As shown in FIGS. 6 and 12, the connector 10 includes a pair of female terminals (corresponding to “terminals”) 40 connected to the terminal of the shielded electric wire 50, and a device-side interlock terminal 87 of the device-side connector 80. A pair of upper and lower interlock terminals 60 that can be connected, and a synthetic tree housing 11 that accommodates the female terminal 40 and the interlock terminal 60 and fits into the device-side housing 81 are configured.

The housing 11 is made of synthetic resin, and as shown in FIGS. 10 and 11, a hood portion 12 into which the device-side housing 81 of the device-side connector 80 is fitted from the front to the inside, and a back wall of the hood portion 12. The housing main body 13 penetrates 12A in the front-rear direction.
As shown in FIGS. 4 and 6, the housing body 13 is formed in a substantially rectangular tube shape that opens in the front-rear direction. Of the housing main body 13, the front portion of the housing main body 13 disposed in the hood portion 12 is a fitting portion 15 that is fitted between the outer cylinder portion 82 of the device-side housing 81 and the device-side terminal accommodating portion 83. It is said that.
As shown in FIGS. 1 and 2, the fitting portion 15 has a substantially rectangular tube shape with rounded four corners, and the outer peripheral surface of the fitting portion 15 is substantially prevented from coming off forward by a seal presser 19. A rectangular batch seal ring 18 is fitted.

  The collective seal ring 18 is made of an oil-impregnated synthetic resin material, and when the fitting portion 15 and the device-side housing 81 are fitted, the collective seal ring 18 is in close contact with the inner peripheral surface of the outer cylindrical portion 82 over the entire circumference. At the same time, the outer peripheral surface of the fitting portion 15 is in close contact with the entire outer periphery, and the space between the inner peripheral surface of the outer cylindrical portion 82 and the outer peripheral surface of the fitting portion 15 is sealed.

As shown in FIGS. 6 and 12, a pair of left and right terminal accommodating portions 20 extending forward from the rear end portion of the fitting portion 15 are provided inside the fitting portion 15.
As shown in FIGS. 11 and 12, the pair of terminal accommodating portions 20 are formed in a substantially cylindrical shape that is long in the front-rear direction and protrudes forward from the front end of the fitting portion 15, as shown in FIGS. 1 and 2. In addition, when viewed from the front, it has an oval shape that is long in the vertical direction. When the fitting portion 15 and the device-side housing 81 are fitted to each other, the pair of terminal accommodating portions 20 are fitted into the device-side cavities 84 of the device-side terminal accommodating portion 83, respectively. Yes.

A female terminal 40 is accommodated from behind in the terminal accommodating portion 20, and the female terminal 40 is prevented from coming out backward by a lance 22 provided in the terminal accommodating portion 20.
The female terminal 40 has a configuration in which a connecting tube portion 41 connected to the male terminal 85 of the device-side connector 80 and a wire connecting portion 42 crimped to the shielded electric wire 50 are connected in the front-rear direction.
The connecting tube portion 41 has a rectangular shape that opens in the front-rear direction, and a male terminal 85 can be inserted from the front end opening of the connecting tube portion 41. An elastic piece 43 that elastically contacts the male terminal 85 is provided inside the connecting tube portion 41. The elastic piece 43 elastically contacts the male terminal 85 that has entered the connecting cylinder portion 41 from the front during the fitting process between the device-side housing 81 and the housing 11. Then, when the device-side housing 81 and the housing 11 reach a proper fitting state, as shown in FIG. 4, the device-side housing 81 and the housing 11 are sandwiched between the contact 43 </ b> A of the elastic piece 43 and the ceiling plate of the connecting cylinder portion 41, The female terminal 40 is normally connected.
That is, in the process of fitting both the housings 11 and 81, as shown in FIG. 10, the male terminal 85 enters the connection tube portion 41 and the male terminal 85 and the female terminal 40 are connected, so that the power supply circuit is connected. As shown in FIGS. 4 and 6, when both the housings 11 and 81 reach a normal fitting state, the male terminal 85 and the female terminal 40 are normally connected to supply power to the power supply circuit. Is possible. When the connection between the female terminal 40 and the male terminal 85 is released in the process of detaching the device-side housing 81 and the housing 11, the power supply circuit is opened and power cannot be supplied.

The electric wire connecting portion 42 is configured such that a wire barrel 44 that is crimped to the core wire 51 exposed at the end of the shielded electric wire 50 and an insulation barrel 45 that is crimped to the inner coating 52 of the shielded electric wire 50 are arranged in the front-rear direction. Yes.
As shown in FIGS. 4, 6, and 12, the shielded electric wire 50 includes a core wire 51, an insulating inner covering 52, a braided wire 53, and an insulating outer covering 54 arranged concentrically from the inside. It is.
Individual rubber plugs 46 made of an oil-containing synthetic resin material are fitted to the inner coating 52 of each shielded electric wire 50. The front end portion of the individual rubber plug 46 is caulked by the insulation barrel 45 together with the inner coating 52 of the shield electric wire 50, so that the individual rubber plug 46 is attached to the end of the shield electric wire 50.
The rear portion of the terminal accommodating portion 20 has a cylindrical shape, and the individual rubber plug 46 is accommodated in the rear portion of the terminal accommodating portion 20 so that the individual rubber plug 46 is connected to the inner peripheral surface of the terminal accommodating portion 20 and the shielded electric wire 50. The inner cover 52 is in close contact with the outer peripheral surface, and the space between the rear inner peripheral surface of the cavity 21 and the outer peripheral surface of the inner cover 52 is sealed.

  As shown in FIGS. 4 and 6, an individual seal ring 23 that is prevented from coming off forward by a substantially cylindrical front cap 24 that is long in the vertical direction is fitted on the outer peripheral surface of each terminal accommodating portion 20. The individual seal ring 23 has an oval shape that is long in the vertical direction along the outer peripheral surface of the terminal accommodating portion 20, and is disposed at a position slightly ahead of the collective seal ring 18.

  When the terminal accommodating portion 20 is fitted in the device side cavity 84, the individual seal ring 23 is in close contact with the inner peripheral surface of the device side cavity 84 over the entire circumference and in close contact with the outer peripheral surface of the terminal accommodating portion 20. Then, the space between the inner peripheral surface of the device side cavity 84 and the outer peripheral surface of the terminal accommodating portion 20 is sealed.

A pair of upper and lower interlock terminals 60 are disposed on one side in the left-right direction of the pair of terminal accommodating portions 20 in the fitting portion 15.
Each interlock terminal 60 is formed to be smaller than the female terminal 40, and a rectangular tube-shaped terminal connection portion 61 into which the device-side interlock terminal 87 is inserted, and an electric wire W provided in the interlock circuit. It is set as the structure which connected the electric wire crimping | compression-bonding part 62 crimped | bonded to 1 to the front-back direction.

  An elastic contact piece 63 that elastically contacts the device-side interlock terminal 87 is provided inside the terminal connection portion 61. As shown in FIG. 6, the elastic contact piece 63 is inserted into the terminal connecting portion 61 through the terminal insertion hole 19 </ b> A provided in the seal retainer 19 when both the housings 11 and 81 are properly fitted. The interlock terminal 87 is elastically contacted. Thereby, the interlock terminal 60 and the apparatus side interlock terminal 87 are electrically connected.

  Then, as shown in FIG. 6, when the housings 11 and 81 are properly fitted and the interlock terminal 60 and the device side interlock terminal 87 are connected, the interlock circuit is turned on and the power supply circuit Is switched to an energized state in which power is supplied to. Further, in the process in which both the housings 11 and 81 are detached, the interlock circuit is turned off by releasing the connection state between the interlock terminal 60 and the device side interlock terminal 87 as shown in FIG. Although the power supply circuit is switched to the non-energized state in which the supply of power to the power supply circuit is stopped, the power supply circuit is closed because the male terminal 85 and the female terminal 40 are connected.

  That is, in the fitting process of both the housings 11 and 81, first, the power supply circuit is closed, and both the housings 11 and 81 are properly fitted so that the power supply circuit is energized by the control of the interlock circuit. Power is supplied. In the process in which both housings 11 and 81 are detached, the power supply circuit is opened after the supply of power to the power supply circuit is stopped by the control of the interlock circuit.

  Of the housing main body 13, the rear portion of the housing main body 13 disposed on the outside of the hood portion 12 is a wire lead-out portion 16 that pulls out a plurality of shielded wires 50 collectively. The wire lead-out portion 16 has a substantially rectangular tube shape that opens rearward, and a plurality of lead-out portions 16 are drawn from the rear end openings of the terminal accommodating portions 20 inside the wire lead-out portion 16 as shown in FIGS. 4 and 6. Shielded electric wires 50 are arranged in a lump.

The braided wire 53 exposed at the end of the shielded electric wire 50 is folded back on the outer peripheral surface of the outer covering 54 of each shielded electric wire 50 in the electric wire lead-out portion 16, and a metal caulking ring 55 is attached to the folded braided wire 53. Is connected.
The caulking ring 55 is formed in a stepped cylindrical shape whose rear half is larger in diameter than the front half, and the shield shell 27 is connected to the rear portion of the caulking ring 55.

As shown in FIGS. 4 to 6, the shield shell 27 has a substantially rectangular tube shape along the inner peripheral surface of the housing body 13, and surrounds the range from the rear part of the terminal accommodating part 20 to the caulking ring 55 from the outside. A square tube portion 28 is provided.
A plurality of cantilevered elastic contact pieces 29 are provided at the rear part of the rectangular tube part 28. The elastic contact piece 29 is formed in a mountain shape that protrudes inwardly toward the rear, and the shield shell 27 and the caulking ring 55 are electrically connected by the peak portion of the mountain shape contacting the outer peripheral surface of the caulking ring 55. Connected.

  The front end portion of the rectangular tube portion 28 can be connected to a device-side shell 88 that surrounds the device-side terminal accommodating portion 83 from the outside. When the device-side housing 81 and the housing 11 are fitted, the device-side shell 88 and the corner are connected. The front end portion of the cylindrical portion 28 is electrically connected.

  In the rear end portion of the wire lead-out portion 16, the collective rubber plug 32 is prevented from coming off backward by a cap-like rubber plug holder 34 attached to the rear end portion of the wire lead-out portion 16. A plurality of shielded electric wires 50 are inserted through the collective rubber plugs 32 in the front-rear direction, and the collective rubber plugs 32 are in close contact with the outer covering 54 of each shielded electric wire 50 and in close contact with the inner peripheral surface of the wire lead-out portion 16. Thus, the space between the inner peripheral surface of the wire lead-out portion 16 and each shielded wire 50 is sealed.

The hood part 12 is opened toward the front, and a form projecting rearward from the rear edge of the hood part 12 as shown in FIGS. Box portion 17 is provided.
The box portion 17 has a shape protruding upward from the upper surface of the hood portion 12. The lower portion of the rear portion of the box portion 17 is engaged with a lock portion 86 protruding from the upper portion of the device-side housing 81. An elastically displaceable lock arm 14 is provided.
The lock portion 86 has an inclined surface 86A that inclines upward toward the rear, and has a locking surface 86B that extends slightly rearward from the rear edge of the inclined surface 86A and extends downward from the rear edge. .

  The lock arm 14 has a long shape in the front-rear direction, and can be tilted in a seesaw shape with a substantially central portion in the front-rear direction as a fulcrum. Further, the lock arm 14 is elastically displaced so as to lift the front end portion of the lock arm 14 upward by causing the rear end portion of the lock arm 14 to enter a bending space S provided below the rear end portion of the lock arm 14. It is possible.

  A lock claw 14 </ b> A that can be engaged with the lock portion 86 is provided at the front end portion of the lock arm 14. The lock claw 14A is set to ride on the inclined surface 86A of the lock portion 86 during the fitting process of the hood portion 12 and the device-side housing 81. When the lock claw 14A rides on the lock portion 86, the lock arm 14A The rear end of 14 enters the bending space S, and the lock arm 14 is elastically displaced. When the hood portion 12 and the device-side housing 81 reach a proper fitting position, the lock claw 14A moves over the lock portion 86 and the lock arm 14 is elastically restored, whereby the lock claw 14A and the lock portion 86 are engaged. The stop surface 86B is locked in the front-rear direction, and the device-side housing 81 and the housing 11 are held in a fitted state.

  At the rear end portion of the lock arm 14, a pressing portion 14B that can be pressed from above is provided. When the pressing portion 14B is pressed obliquely from the upper rear, the rear end portion of the lock arm 14 enters the bending space S, and the locked state between the lock pawl 14A and the lock portion 86 is released. With the lock claw 14A and the lock portion 86 unlocked, the device-side connector 80 and the connector 10 are detached by pulling the hood portion 12 and the device-side housing 81 away from each other in opposite directions. Yes.

  As shown in FIGS. 1 to 5, a fitting guarantee portion 70 that can slide back and forth is mounted in the rear portion of the box portion 17, and the fitting guarantee portion 70 is shown in FIGS. 3 and 5. Next, as shown in FIGS. 7 and 8, the engagement guarantee position for preventing the lock arm 14 from elastically displacing by entering the bending space S of the lock arm 14 and the rearward from the bending space S of the lock arm 14 are separated. Then, a fitting guarantee portion 70 is mounted that can be displaced between a retracted position that allows the lock arm 14 to be elastically displaced.

As shown in FIGS. 3, 7 and 15, the fitting guarantee part 70 is made of a synthetic resin and is formed in a substantially rectangular frame shape so as to surround the left and right sides and the rear side of the lock arm 14. The unit main body 71 is included.
As shown in FIGS. 14 and 15, a pair of guide pieces 72 projecting in the left-right direction are provided on the left and right sides of the guarantee unit main body 71. The pair of guide pieces 72 can be inserted into a pair of guide grooves 17A provided in the left and right inner side walls of the box portion 17 and extending in the front-rear direction. The guide pieces 72 are respectively inserted into the guide grooves 17A and guided. Thus, the fitting guarantee part 70 can be displaced back and forth between the fitting guarantee position and the retracted position.

  A pair of locking pieces 73 projecting forward are provided on the left and right ends of the front edge of the guarantee unit main body 71 so as to be elastically deformable in the vertical direction. The front end surface of the locking piece 73 can be locked with locking protrusions (not shown) provided on the left and right inner walls of the box portion 17, and in a state before the device-side housing 81 and the housing 11 are fitted. Since the front end surface of the locking piece 73 and the locking projection are locked in the front-rear direction, the fitting guarantee portion 70 cannot be displaced to the fitting guarantee position.

On the front end surface of the locking piece 73, a release piece 73A provided in a bowl shape downward is provided. In the process of fitting the device-side housing 81 and the housing 11, the release piece 73 </ b> A rides on a release portion (not shown) provided on the upper surface of the outer cylinder portion 82 of the device-side housing 81 and moves the locking piece 73 upward. The engagement between the front end surface of the engagement piece 73 and the engagement projection is released by elastic displacement.
That is, the fitting guarantee part 70 cannot be displaced from the retracted position to the fitting guarantee position before the equipment-side housing 81 and the housing 11 are fitted, and the equipment-side housing 81 and the housing 11 are moved. In the process of fitting, the release piece 73A rides on the release part and the engagement between the engagement piece 73 and the engagement projection is released, so that the engagement position can be displaced from the retracted position. .

  An engagement protrusion 74 that protrudes forward is provided at a substantially central part in the left-right direction at the rear edge of the guarantee part main body 71. The engaging protrusion 74 can enter the bending space S of the lock arm 14 when the lock arm 14 is in a natural state. The engagement protrusion 74 enters the flexure space S by displacing the engagement guarantee part 70 to the engagement guarantee position after the apparatus-side housing 81 and the housing 11 are properly fitted, and the engagement protrusion 74 74 and the rear end portion of the lock arm 14 are vertically engaged to prevent the lock arm 14 from being elastically displaced. Further, when the fitting guaranteeing portion 70 is displaced to the retracted position, the engaging protrusion 74 is detached rearward from the bending space S so that the lock arm 14 can enter the bending space S, and the lock arm 14 is elastically displaced. It becomes possible.

  That is, after the apparatus-side housing 81 and the housing 11 are properly fitted, the fitting guarantee part 70 is displaced to the fitting guarantee position, thereby maintaining the locked state of the lock part 86 and the lock arm 14. It can be ensured that the device-side connector 80 and the connector 10 are in a properly fitted state. Further, by displacing the fitting guarantee part 70 to the retracted position, the locking of the lock part 86 and the lock arm 14 can be released, and the device-side housing 81 and the housing 11 can be detached.

  Now, at the front edge of the guarantee part main body 71 in the fitting guarantee part 70, the device side housing 81 and the housing are engaged with the lock part 86 of the equipment side housing 81 in the process of separating the equipment side housing 81 and the housing 11 from each other. The stopper part 75 which stops detachment | leave from 11 is provided.

  The stopper portion 75 includes an elastically displaceable elastic locking frame 76 provided in a substantially rectangular frame shape in front of the front edge of the guarantee portion main body 71, and an arm portion 77 that is long in the front-rear direction. ing.

  The elastic locking frame 76 is configured to extend slightly forward from the both ends in the left-right direction at the front edge of the guarantee unit main body 71 and then extend forward and connect the front ends in the left-right direction. The elastic locking frame 76 can be elastically displaced upward with the root of the elastic locking frame 76 as a fulcrum.

  The front edge of the elastic locking frame 76 is a locking portion 79 having a locking surface 86B of the locking portion 86 and a stopper surface 79A that can be locked in the front-rear direction. As shown in FIG. 8, it is arranged in front of the lock arm 14 at any of the retracted position and the fitting guaranteed position.

  As shown in FIG. 9, in the process of detachment between the device-side housing 81 and the housing 11, the locking portion 79 is formed on the locking surface 86B of the lock portion 86 when the device-side housing 81 and the housing 11 are slightly separated. The stopper surface 79A of the locking portion 79 and the locking surface 86B of the lock portion 86 are locked in the front-rear direction, so that the separation between the device-side housing 81 and the housing 11 is stopped. Here, in a state where the locking portion 79 and the locking portion 86 are locked in the front-rear direction, and the separation between the device-side housing 81 and the housing 11 is stopped, as shown in FIG. Although the interlock circuit is turned off by releasing the connection state with the interlock terminal 87 and the power supply circuit is switched to the non-energized state, the male terminal 85 and the female terminal 40 are connected. The power supply circuit is closed.

  The arm portion 77 is positioned at a position slightly rearward from the substantially central portion in the front-rear direction of the arm portion 77 by a support portion 71A provided in a form rising upward at a substantially central portion in the left-right direction at the front edge of the guarantee portion main body 71. And is elastically displaceable so as to tilt about the support portion 71A as a fulcrum.

  The front end of the arm portion 77 is provided with a connecting portion 77A that extends obliquely forward and downward and connects to the upper surface of the locking portion 79, and a release operation that can be pressed downward at the rear end of the arm portion 77. A portion 77B is provided. When the release operation part 77B is pressed downward, as shown in FIG. 11, the arm part 77 is elastically displaced with the support part 71A as a fulcrum, and the tip of the arm part 77 is displaced upward. Accordingly, the locking portion 79 is pulled upward via the connecting portion 77A, and the elastic locking frame 76 is elastically displaced upward, whereby the locking between the locking portion 79 and the lock portion 86 is released. As a result, the separation between the device-side housing 81 and the housing 11 can be resumed, and the separation between the device-side connector 80 and the connector 10 can be completed.

  The connector 10 of the present embodiment has the above-described configuration. Next, the operation and effect when the device-side connector 80 and the connector 10 are detached will be described.

  In the state in which the device-side connector 80 and the connector 10 are properly fitted, the lock portion 86 and the lock arm 14 are locked in the front-rear direction as shown in FIGS. 81 and the housing 11 are held in a properly fitted state, the male terminal 85 and the female terminal 40 are normally connected, and the interlock terminal 60 and the device side interlock terminal 87 are connected. It has become. At this time, the fitting guarantee part 70 is arranged at the fitting guarantee position, and the engagement protrusion 74 of the fitting guarantee part 70 enters the bending space S and the rear end of the engagement protrusion 74 and the lock arm 14. The lock arm 14 cannot be elastically displaced by engaging the portion. As a result, it is guaranteed that the device-side connector 80 and the connector 10 are properly fitted.

  In order to detach the device-side connector 80 and the connector 10, first, as a first operation, the fitting guarantee part 70 is displaced from the fitting guarantee position to the retracted position. As a result, the engagement protrusion 74 is detached rearward from the bending space S of the lock arm 14 and the lock arm 14 can be elastically displaced.

  Next, as a second operation, the pressing portion 14B of the lock arm 14 is pressed obliquely from above and rearward to release the locking between the lock portion 86 and the lock arm 14, and the housing 11 and the device-side housing 81 are opposite to each other. Pull away. Specifically, when the pressing portion 14B is pressed obliquely from the upper rear, the rear end portion of the lock arm 14 enters the bending space S, and the locking state between the lock claw 14A of the lock arm 14 and the lock portion 86 is released. The When the locking claw 14A and the lock portion 86 are unlocked, the housing 11 and the device-side housing 81 are pulled apart in opposite directions, whereby the device-side connector 80 and the connector 10 are separated.

  In the process of detaching the device-side connector 80 and the connector 10, when the housing 11 and the device-side housing 81 are slightly detached, first, the connection between the interlock terminal 60 and the device-side interlock terminal 87 is released, and the interlock circuit is released. Is turned off and the power supply circuit is switched to a non-energized state.

  By the way, it takes a little time for the interlock circuit to turn off, the power supply circuit to switch to the non-energized state, and the charge to disappear from between the male terminal 85 and the female terminal 40. For this reason, for example, in the case of a connector that releases the engagement between the lock arm and the lock portion and quickly completes the detachment of both housings, the electric charge remains in each terminal after the detachment, which may have an adverse effect. .

However, according to the present embodiment, as shown in FIG. 10, the housing 11 and the device-side housing 81 are slightly separated, and the connection between the interlock terminal 60 and the device-side interlock terminal 87 is released. The locking portion 79 of the locking frame 76 comes into contact with the locking portion 86 in the front-rear direction, and the stopper surface 79A of the locking portion 79 and the locking surface 86B of the locking portion 86 are locked in the front-rear direction. And the device-side housing 81 are stopped. At this time, the male terminal 85 and the female terminal 40 are in contact with each other, and the power supply circuit is in a closed state.
That is, although the power supply circuit is in a closed state, after the interlock circuit is turned off and the power supply circuit is switched to a non-energized state, the separation between the housing 11 and the device-side housing 81 is stopped. Time for the charge to disappear or decrease from between the male terminal 85 and the female terminal 40 can be earned.

  Next, as a third operation, the release operation portion 77B of the arm portion 77 is pressed downward to elastically displace the arm portion 77, thereby releasing the engagement between the engagement portion 79 and the lock portion 86. The separation from the device-side housing 81 is completed. Specifically, the front end of the arm portion 77 is displaced upward by pressing the release operation portion 77B downward. Then, the locking portion 79 of the elastic locking frame 76 is pulled upward via the connecting portion 77A, and the elastic locking frame 76 is elastically displaced, so that the locking between the locking portion 79 and the lock portion 86 is released. Is done. When the locking of the locking portion 79 and the locking portion 86 is released, the detachment of the housing 11 and the device-side housing 81 can be resumed, and the detachment of the device-side connector 80 and the connector 10 can be completed. At this time, since the power supply circuit is switched to the non-energized state and the charge at each terminal has disappeared or decreased, there is no adverse effect caused by the charge remaining at the male terminal 85 and the female terminal 40.

  As described above, according to the present embodiment, in the process of detaching the device-side housing 81 and the housing 11, the both housings 11 are engaged by engaging the locking portion 79 of the stopper portion 75 and the locking portion 86 of the device-side housing 81. , 81 cannot be completed by a single operation, and time can be earned when the power supply circuit is turned off. As a result, when the locking between the lock portion 86 and the locking portion 79 is released and the detachment between the device-side housing 81 and the housing 11 is completed, the charges on the male terminal 85 and the female terminal 40 can be lost or reduced. It is possible to prevent adverse effects from being caused by the charge remaining on the male terminal 85 and the female terminal 40.

<Embodiment 2>
Next, a second embodiment of the present invention will be described with reference to FIGS.

  The connector 110 according to the second embodiment does not constitute an interlock circuit together with the device-side connector 180, and the shape of the stopper portion 75 in the fitting assurance portion 70 according to the first embodiment is changed. Since common configurations, operations, and effects are duplicated, descriptions thereof are omitted. The same reference numerals are used for the same configurations as those in the first embodiment.

Since the interlock circuit is not configured in the second embodiment, unlike the first embodiment, a device-side interlock terminal 87 is provided between the device-side terminal accommodating portion 83 and the outer cylinder portion 82 in the device-side connector 180. The configuration is not made.
Unlike the first embodiment, the interlock terminal 60 is not provided inside the fitting portion 15 of the connector 110, and only a pair of female terminals 40 accommodated in the terminal accommodating portion 20 are arranged side by side. Has been.

The stopper portion 175 of the second embodiment includes an elastic locking frame 176 having a substantially rectangular frame shape, an elastically displaceable release operation piece 177 disposed above the elastic locking frame 176, and an elastic locking frame 176. A release operation piece (corresponding to a “release operation unit”) 177 and a connecting portion 178 for connecting up and down are configured.
Unlike the elastic locking frame 76 of the first embodiment, the elastic locking frame 176 extends forward from a position on the front end of the locking piece 73 on the outer side in the left-right direction of the release piece 73A, and connects the front end in the left-right direction. It has a form. Further, the elastic locking frame 176 is longer in the front-rear direction than the elastic locking frame 76 of the first embodiment, and a lock portion 86 is provided at a substantially central portion in the left-right direction at the front edge of the elastic locking frame 176. A locking claw (corresponding to a “locking portion”) 179 that can be locked in the front-rear direction and the locking surface 86 </ b> B is provided so as to protrude downward.

That is, the latching claw 179 is disposed in front of the latching portion 79 of the first embodiment, and the device-side housing 81 and the housing 11 are separated by about half in the process of detaching the device-side housing 81 and the housing 11. Then, it has the structure which contact | abuts to the latching surface 86B of the lock part 86, and the detachment | leave with the apparatus side housing 81 and the housing 11 is stopped. Here, as shown in FIG. 23, in a state where the locking claw 179 and the lock portion 86 are locked in the front-rear direction and the detachment between the device-side housing 81 and the housing 11 is stopped, as shown in FIG. The female terminal 40 and the male terminal 85 are completely separated from each other, the connection state is released, and the power supply circuit is open.
That is, after the connection state between the female terminal 40 and the male terminal 85 is released and the power supply circuit is opened and becomes non-energized, the separation between the housing 11 and the device-side housing 81 is stopped, and the male terminal 85 and the female terminal are stopped. It is possible to earn time for the charge to disappear or decrease from between 40 and 40.

  The release operation piece 177 rises slightly upward from the front edge of the guarantee unit main body 71, and the upper end of the release operation piece 177 extends straight forward. And is provided to be elastically displaceable upward with the rear end portion of the flat plate portion 177A as a fulcrum. A connecting portion 178 is integrally provided on the lower surface of the substantially central portion in the left-right direction at the front end portion of the flat plate portion 177A.

  The connecting portion 178 has a connecting portion main body 178A extending in the front-rear direction, and a connecting portion that connects the release operation piece 177 and the connecting portion main body 178A vertically on the upper surface of the substantially central portion in the front-rear direction of the connecting portion main body 178A. 178B is provided. Further, the front end portion of the connecting portion main body 178A is connected to the front edge of the elastic locking frame 176 by bending downward. When the finger is hooked on the hook portion 177B and lifted upward, the release operation piece 177 is elastically displaced upward with the rear end portion of the flat plate portion 177A as a fulcrum, and the elastic locking frame 176 is released via the connecting portion 178. It is elastically displaced upward so as to be pulled by the piece 177. Thereby, the latching between the latching claw 179 and the lock portion 86 is released, and the separation between the device-side housing 81 and the housing 11 can be completed.

Further, a pressed portion 178C that is pressed upward by the front end of the lock arm 14 when the lock arm 14 is elastically displaced is provided at the rear end portion of the connecting portion main body 178A.
When the pressed portion 178C is pressed upward by the lock arm 14, the connecting portion main body 178A is elastically displaced with the connecting portion 178B as a fulcrum so as to displace the front end portion downward, and the locking claw 179 is moved downward (the lock portion 86). In the locking direction).
That is, when the lock arm 14 is elastically displaced and the device-side housing 81 and the housing 11 are separated, the pressed portion 178C is pressed upward by the lock arm 14 and the connecting portion main body 178A is elastically displaced. The pawl 179 and the lock portion 86 are securely locked. As a result, when the power supply circuit is opened and in a non-energized state, the detachment between the device-side housing 81 and the housing 11 can be reliably stopped.

Next, operational effects when the device-side connector 180 and the connector 110 are detached will be described.
In a state where the device-side connector 180 and the connector 110 are properly fitted, as shown in FIG. 19, the lock portion 86 and the lock arm 14 are locked in the front-rear direction so that the device-side housing 181 and the housing 111 are connected. As shown in FIG. 20, the male terminal 85 and the female terminal 40 are in a properly connected state. At this time, as shown in FIG. 19, the fitting guarantee part 170 is arranged at the fitting guarantee position, and the engagement protrusion 74 enters the bending space S and the rear end part of the engagement protrusion 74 and the lock arm 14. And the lock arm 14 cannot be elastically displaced. As a result, it is guaranteed that the device-side connector 180 and the connector 110 are properly fitted.

In order to disengage the device-side connector 180 and the connector 110, first, as a first operation, the fitting guaranteeing portion 70 is displaced from the fitting guarantee position to the retracted position (see FIGS. 21 and 22). As a result, the engagement protrusion 74 is detached rearward from the bending space S of the lock arm 14 and the lock arm 14 can be elastically displaced.
Next, as a second operation, the pressing portion 14B of the lock arm 14 is pressed obliquely from above and rearward to release the locking between the lock portion 86 and the lock arm 14, and the housing 11 and the device-side housing 81 are opposite to each other. The device-side connector 80 and the connector 10 are separated from each other.

  In the process of detaching the device-side connector 80 and the connector 10, as shown in FIG. 23, when the device-side housing 81 and the housing 11 are separated by about half, they come into contact with the locking surface 86B of the lock portion 86, The separation between the housing 81 and the housing 11 stops. Here, as shown in FIG. 23, in a state where the locking claw 179 and the lock portion 86 are locked in the front-rear direction and the detachment between the device-side housing 81 and the housing 11 is stopped, as shown in FIG. The connection state between the female terminal 40 and the male terminal 85 is released, and the power supply circuit is opened and switched to a non-energized state.

Further, as shown in FIGS. 23 and 24, when the lock arm 14 is elastically displaced and the pressed portion 178C is pressed upward by the front end portion of the lock arm 14, the connecting portion main body 178A has the connecting portion 178B as a fulcrum. The front end portion is elastically displaced so as to be displaced downward, and the locking claw 179 is biased downward (in the direction of locking with the lock portion 86). As a result, the locking claw 179 and the lock portion 86 are securely locked, so that the device-side housing 81 and the housing 11 are surely detached when the power supply circuit is opened and is de-energized. Can be stopped.
That is, after the connection state between the female terminal 40 and the male terminal 85 is released and the power supply circuit is opened to be in a non-energized state, the detachment between the housing 11 and the device-side housing 81 is stopped. Time for the charge to disappear or decrease from between the female terminals 40 can be earned.

  Finally, as a third operation, when the hooking portion 177B is lifted upward and the release operation piece 177 is elastically displaced upward, the engagement claw 179 of the elastic lock frame 176 is elastically pulled by the release operation piece 177. The locking frame 176 is elastically displaced upward, and the locking between the locking claw 179 and the lock portion 86 is released. Thereby, detachment | leave with the apparatus side housing 81 and the housing 11 can be completed.

  As described above, according to the present embodiment, in the process of detachment of the device-side housing 81 and the housing 11, both the housings 11 are engaged by being engaged with the locking claws 179 of the stopper portion 175 and the lock portion 86 of the device-side housing 81. , 81 cannot be completed by a single operation, and when the connection state between the female terminal 40 and the male terminal 85 is released and the power supply circuit is opened to be in a non-energized state, time can be saved. I am doing so. As a result, when the locking between the lock portion 86 and the locking claw 179 is released and the separation of the device-side housing 81 and the housing 11 is completed, the charges on the male terminal 85 and the female terminal 40 can be eliminated or reduced. It is possible to prevent adverse effects from being caused by the charge remaining on the male terminal 85 and the female terminal 40.

<Other embodiments>
The present invention is not limited to the embodiments 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.
(1) In the above embodiment, the individual seal ring 23 is fitted on the outer periphery of the terminal accommodating portion 20, and the collective seal ring 18 is fitted on the outer periphery of the fitting portion 15. For example, a configuration in which the seal member is not fitted to the terminal accommodating portion or the fitting portion may be used.
(2) In the above embodiment, the shield electric wire 50 is connected to the female terminal 40. However, the present invention is not limited to such a mode, and for example, the female terminal does not have a braided wire. It is good also as a structure to which an electric wire is connected.
(3) In the above embodiment, the present invention is applied to the connector 10 fitted to the device-side connector 80 provided in the device. However, the present invention is not limited to such a mode. For example, the present invention can also be applied to various connectors such as a connector fitted to a wire harness connector provided at an end of an electric wire.

10, 110: Connector 11, 111: Housing 14: Lock arm 40: Female terminal (terminal)
60: Interlock terminal (interlock circuit)
70, 170: Fitting guarantee part 75, 175: Stopper part 77: Arm part 77B: Release operation part 79: Locking part 81, 181: Device side housing (mating side housing)
85: Male terminal (mating terminal)
86: Lock part 87: Device side interlock terminal (interlock circuit)
179: Locking claw (locking part)
177: Release operation piece (release operation part)
178: Connection part S: Deflection space

Claims (6)

A housing that accommodates a terminal that can be connected to the mating terminal housed in the mating housing is configured via the mating terminal and the terminal by properly fitting the mating housing and the housing. A connector in which the power supply circuit is energized and the power supply circuit is de-energized in the process of detaching the counterpart housing and the housing,
The housing is elastically displaced toward the bending space in the mating process between the mating housing and the housing, and is elastically restored when the mating housing and the housing are properly fitted to each other. A lock arm that holds the mating housing and the housing in a fitted state by engaging with the lock portion;
A fitting that holds the locking state between the lock arm and the lock part by preventing the lock arm from being elastically displaced by entering the bending space of the lock arm locked with the lock part. With a guarantee department,
The fitting guarantee part stops the detachment of the mating housing and the housing by engaging with the lock part after the power supply circuit is de-energized during the detachment process of both housings. The connector provided with the stopper part by which the latching state with the said lock part is cancelled | released by releasing operation. The stopper portion includes a locking portion that can be locked with the locking portion, an elastically displaceable arm portion that has one end serving as a release operation portion and the other end connected to the locking portion,
The connector according to claim 1, wherein the arm portion is elastically displaced by performing a release operation by pressing the release operation portion, and displaces the locking portion in a direction to release the locking with the lock portion.   The power supply circuit is provided across the two housings, and is turned on when the two housings are properly fitted to each other to switch the power supply circuit to an energized state. The connector according to claim 1, further comprising an interlock circuit that switches to a non-energized state.   The stopper portion is a locking portion that can be locked with the locking portion, and a release operation in a direction to release the locking between the locking portion and the locking portion, and by pulling the locking portion, The connector according to claim 1, further comprising: a release operation portion that releases a locking state between the locking portion and the locking portion. When the two housings are properly fitted, the mating terminal and the terminal are fitted and connected, and the power supply circuit is energized,
5. The connector according to claim 4, wherein the mating connection between the mating terminal and the terminal is released in the process of detaching the two housings, whereby the power supply circuit is in a non-energized state. The release operation part has a connecting part connected to the locking part,
The connector according to claim 4, wherein the connecting portion is pressed by the elastically displaced lock arm and elastically displaced, thereby biasing the locking portion in a direction to lock the locking portion.

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