Connector with at least one detector

What is claimed is: 1. A connector, comprising: a housing configured for connection to a mating housing along a connecting direction and including at least one deflectable lock arm, side walls extending in the connecting direction at opposite respective sides of the lock arm, guide grooves formed in opposed facing surfaces of the side walls and extending in the connecting direction, and an escaping recess formed in each side wall and extending up from the respective guide groove in a direction intersecting the connecting direction; and at least one detector movable substantially in a connecting direction from a standby position to a detection position in a state supported on the lock arm, restricting portions projecting from opposite sides of the detector and slidably engaged in the guide grooves of the side walls, the restricting portions being configured to fit respectively in the escaping recesses, wherein: the lock arm is deflected and deformed and the detector is kept at the standby position in a state inclined with respect to the connecting direction in the process of connecting the housing to the mating housing; the lock arm is displaced in a return direction to hold the mating housing in a connected state and the detector is allowed to move to the detection position as the housing is connected properly to the mating housing; and the restricting portions are inserted respectively in the escaping recesses when the detector is inclined in a connecting process and configured to prevent the detector from reaching the detection position while being kept in an inclined state by causing the restricting portions to contact a wall surface substantially facing in a moving direction of the detector when the detector moves from the standby position to the detection position. 2. The connector of claim 1 , wherein the slidable engagement of the guides and the restricting portions guide a movement of the detector in the process of moving the detector from the standby position to the detection position. 3. The connector of claim 2 , wherein opening edges of the guides and/or of the escaping portions are curved and/or chamfered. 4. The connector of claim 1 , wherein the walls of the housing are present at an intermediate position of a virtual movement path when the detector in the inclined state in the connecting process is assumed to move to the detection position while being kept in the inclined state. 5. The connector of claim 1 , wherein the detector includes an upper plate, two side plates extending substantially in the connecting direction along the upper plate, a rear portion extending in the width direction and a resilient locking portion substantially extending forward from the rear portion. 6. The connector of claim 1 , wherein a front end of each of the restricting portions is inclined back toward a projecting tip and a rear end of each of the restricting portion is arranged along the width direction. 7. The connector of claim 1 , wherein, when the detector is at the standby position, a retaining receiving portion thereof is arranged to contact a retaining portion of the housing to prevent a backward movement of the detector and a locking projection of the detector is arranged to contact a rear end of a lock of the housing to prevent a forward movement of the detector. 8. A connector of claim 7 , wherein, when the detector is at the detection position, the locking projection is arranged to contact the lock to prevent a backward movement of the detector and the upper plate is arranged to contact a stopper wall of the housing to prevent a forward movement of the detector. 9. The connector of claim 1 , wherein at least one confirmation window is provided in the detector and/or the housing so as to allow confirming the position of the detector through the confirmation window. 10. A connector, comprising: a housing configured for connection to a mating housing and including at least one deflectable lock arm; and at least one detector movable substantially in a connecting direction from a standby position to a detection position in a state supported on the lock arm, wherein: the lock arm is deflected and deformed and the detector is kept at the standby position in a state inclined with respect to the connecting direction in the process of connecting the housing to the mating housing; the lock arm is displaced in a return direction to hold the mating housing in a connected state and the detector is allowed to move to the detection position as the housing is connected properly to the mating housing; the detector includes at least one restricting portion; and the housing includes at least one escaping portion extending in a direction intersecting the connecting direction, configured so that the restricting portion is inserted therein when the detector is inclined in a connecting process and configured to prevent the detector from reaching the detection position while being kept in an inclined state by causing the restricting portion to contact a wall surface substantially facing in a moving direction of the detector when the detector moves from the standby position to the detection position, the escaping portion has at least one guiding inclined surface configured to cancel the inclined state of the detector and guide the detector to be in a proper posture by causing the detector moving toward the detection position to slide thereon, on the wall surface substantially facing in the moving direction of the detector to the detection position. 11. A connector, comprising: a housing configured for connection to a mating housing and including at least one deflectable lock arm; and at least one detector movable substantially in a connecting direction from a standby position to a detection position in a state supported on the lock arm, the detector includes an upper plate, two side plates extending substantially in the connecting direction along the upper plate, a rear portion substantially extending in the width direction, at least one restricting portion and a resilient locking portion substantially extending forward from the rear portion, a front end of the upper plate being retracted more backward with respect to the front ends of the side plates and the front end of the resilient locking portion, wherein: the lock arm is deflected and deformed and the detector is kept at the standby position in a state inclined with respect to the connecting direction in the process of connecting the housing to the mating housing; the lock arm is displaced in a return direction to hold the mating housing in a connected state and the detector is allowed to move to the detection position as the housing is connected properly to the mating housing; and the housing includes at least one escaping portion extending in a direction intersecting the connecting direction, configured so that the restricting portion is inserted therein when the detector is inclined in a connecting process and configured to prevent the detector from reaching the detection position while being kept in an inclined state by causing the restricting portion to contact a wall surface substantially facing in a moving direction of the detector when the detector moves from the standby position to the detection position.