Abstract: A connector is provided which can confirm full insertion of an object to be connected by feeling at insertion manipulation and can temporarily hold the object to be connected surely. Each of lock portions is formed by a non-elastic member. On both ends in the terminal arranging direction of a connector body is provided a temporary holding member which is elastically deformed upward in contact with an upper face of a flexible cable inserted into the connector body and recovered while urging the flexible cable downward when a notch portion of the flexible cable is fitted with the lock portion. By this, when each of the notch portions of the flexible cable is fitted with each of the lock portions, the feeling that the flexible cable urged by the temporary holding member is fitted with each of the lock portions while being pressed downward can be obtained through the flexible cable. Therefore, incomplete insertion of the flexible cable can be surely prevented.
Abstract: The present invention provides a connector which can take an EMI measure for the first and second housings and can move the second housing with respect to the first housing. The connector comprises a plug which is provided so as to be movable with respect to the socket; a plurality of socket terminals which are resiliently deformed with a movement of the plug; a first socket side shield member which covers an outer circumference surface in the width direction of the socket; a plurality of plug terminals which are in contact with each of the socket terminals when the plug is mated with the socket; a plug side shield member which covers an outer circumference surface in the width direction of the plug; and first and second shield conductive portions which are in contact with each of the shield members and are resiliently deformed as the plug is moved.
Abstract: The present invention provides a connector that can reduce a load generated on a second terminal by elastic deformation of a first terminal. The connector comprises a first movable housing movable relative to a first stationary housing disposed on the side of a first substrate, multiple plug terminals elastically deformed as the first movable housing moves, a second movable housing movable relative to a second stationary housing disposed on the side of a second substrate, and multiple socket terminals that are elastically deformed as the second movable housing moves and that are contacted with the respective plug terminals when the second movable housing is fitted to the first movable housing, and therefore, a load generated on the socket terminals by the elastic deformation of the plug terminals can be reduced. Thus, connection reliability between the socket terminals and the second substrate can be improved.
Abstract: A connector prevents insertion of a pressing member into a connector body when an object to be connected is not fully inserted into the connector body. Each lock portion is a non-elastic member. The thickness of a pressing piece of a pressing member is gradually reduced toward its tip end with a gap between each of the lock portions and a fixed piece portion as the maximum. When a flexible cable is not fully inserted into the connector body, the pressing member can not be inserted into the rear of the connector body, and the flexible cable is not electrically connected in an incomplete insertion state. Therefore, disengagement of the flexible cable from the connector body or contact failure caused by displacement between the flexible cable and an elastic piece of each of the terminals can be surely prevented.
Abstract: A connector which is capable of reliably shielding a connection subject article inserted in a housing from electro-magnetic waves and which can be easily produced in two types, one for inserting a connection subject article in one vertical direction and the other for inserting it in another direction. Since a ground shell (30) is formed to cover the upper and lower surfaces and opposite side surfaces of a housing (10), a cable (1) in the housing (10) can be electrically shielded in any of the directions of the upper surface, lower surface and opposite side surfaces of the housing (10), thus greatly improving the electromagnetic interference prevention effect. In this case, since the upper surface and lower surface of the shell (30) are disposed on the upper surface and lower surface of the housing (10), respectively, a ground contact (31) can be placed on the upper surface rather than on the lower surface of the shell (30).
Abstract: A connector is provided which can confirm full insertion of an object to be connected by feeling at insertion manipulation and can temporarily hold the object to be connected surely. Each of lock portions is formed by a non-elastic member. On both ends in the terminal arranging direction of a connector body is provided a temporary holding member which is elastically deformed upward in contact with an upper face of a flexible cable inserted into the connector body and recovered while urging the flexible cable downward when a notch portion of the flexible cable is fitted with the lock portion. By this, when each of the notch portions of the flexible cable is fitted with each of the lock portions, the feeling that the flexible cable urged by the temporary holding member is fitted with each of the lock portions while being pressed downward can be obtained through the flexible cable. Therefore, incomplete insertion of the flexible cable can be surely prevented.
Abstract: A connector prevents insertion of a pressing member into a connector body when an object to be connected is not fully inserted into the connector body. Each lock portion is a non-elastic member. The thickness of a pressing piece of a pressing member is gradually reduced toward its tip end with a gap between each of the lock portions and a fixed piece portion as the maximum. When a flexible cable is not fully inserted into the connector body, the pressing member can not be inserted into the rear of the connector body, and the flexible cable is not electrically connected in an incomplete insertion state. Therefore, disengagement of the flexible cable from the connector body or contact failure caused by displacement between the flexible cable and an elastic piece of each of the terminals can be surely prevented.
Abstract: Provided is a connector which can positively shield an object to be connected, which has been inserted into a housing, from electromagnetic waves and can be easily manufactured as both a type in which the object to be connected can be inserted in one vertical direction and a type in which the object to be connected can be inserted in the other vertical direction. Because a grounding shell 30 is formed so as to cover a top surface, a bottom surface and two side surfaces of a housing 10, it is possible to electrically shield a cable 1 within the housing 10 in any direction of the top surface, bottom surface and two side surfaces of the housing 10 and it is possible to significantly improve the effect of preventing electromagnetic interference. In this case, the top surface side and bottom surface side of the shell 30 are disposed respectively on the top surface side and bottom surface side of the housing 10.