摘要:
A board connector (1) has a housing (10) and terminal fittings (20) penetrate through the back wall (11) of the housing (10). A board connecting portion (21) of each terminal fitting (20) penetrates through the back wall (11) and is solder-connected to a board (2). The housing (10) has a heat transfer inhibiting portion for inhibiting heat transfer to the back wall (11). The heat transfer inhibiting portion has a through-hole (13) or heat-insulating grooves (17) in the back wall (11). As a result, heat transfer to the back wall (11) is inhibited and deformation of the back wall (11) due to thermal expansion also is inhibited. Consequently, it is possible to prevent the terminal fittings (20) from separating from the board (2) and going into a state of being not solder-connected thereto.
摘要:
A board connector (1) has a housing (10) and terminal fittings (20) penetrate through the back wall (11) of the housing (10). A board connecting portion (21) of each terminal fitting (20) penetrates through the back wall (11) and is solder-connected to a board (2). The housing (10) has a heat transfer inhibiting portion for inhibiting heat transfer to the back wall (11). The heat transfer inhibiting portion has a through-hole (13) or heat-insulating grooves (17) in the back wall (11). As a result, heat transfer to the back wall (11) is inhibited and deformation of the back wall (11) due to thermal expansion also is inhibited. Consequently, it is possible to prevent the terminal fittings (20) from separating from the board (2) and going into a state of being not solder-connected thereto.
摘要:
A plurality of terminal fittings 11 are mounted to a housing 20, board connecting portions 13 having mounting portions 14 at lower ends protrude rearward, fixed fittings 30 having mounting plates 32 at lower edges are mounted to opposite side surfaces of the housing 20, and the mounting portion 14 of each terminal fitting 11 and the mounting plates 32 of the fixed fittings 30 are secured to a PCB 40 by reflow soldering. During the reflow soldering, a drawing force toward the PCB 40 acts on each of the terminal fittings 11 and the fixed fittings 30 based on surface tension of molten solder H, but the center of the fixed fitting 30 in the fore/aft direction of the board connecting portion 13 is positioned forward of the center of gravity position O of a connector 10, and rotation moment Mb toward the PCB 40 acts on the front of the housing 20 based on a drawing force Fb on the side of the fixed fitting 30 to prevent the front from being raised.
摘要:
A plurality of terminal fittings 11 are mounted to a housing 20, board connecting portions 13 having mounting portions 14 at lower ends protrude rearward, fixed fittings 30 having mounting plates 32 at lower edges are mounted to opposite side surfaces of the housing 20, and the mounting portion 14 of each terminal fitting 11 and the mounting plates 32 of the fixed fittings 30 are secured to a PCB 40 by reflow soldering. During the reflow soldering, a drawing force toward the PCB 40 acts on each of the terminal fittings 11 and the fixed fittings 30 based on surface tension of molten solder H, but the center of the fixed fitting 30 in the fore/aft direction of the board connecting portion 13 is positioned forward of the center of gravity position O of a connector 10, and rotation moment Mb toward the PCB 40 acts on the front of the housing 20 based on a drawing force Fb on the side of the fixed fitting 30 to prevent the front from being raised.
摘要:
A male connector (M) is provided with a receptacle (10) and a female connector (F) is provided with a housing (40) that can fit into the receptacle (10) from the front. Mounting grooves (18) are formed by recessing both side walls (16) of the receptacle (10) and fixing members (30) are mounted into the mounting grooves (18). The fixing members (30) are fixed to a circuit board (80) by soldering. Engaging projections (49) bulge out sideways from the opposite side surfaces of the housing (40). Engaging grooves (19) are recessed in the inner side surfaces of the both side walls (16) of the receptacle (10) at positions before the mounting grooves (18) and engage with the engaging projections (49) as the connectors (F, M) are connected to resist a tensile force acting when the housing (40) is pulled away from the circuit board (80).
摘要:
A male connector (M) is provided with a receptacle (10) and a female connector (F) is provided with a housing (40) that can fit into the receptacle (10) from the front. Mounting grooves (18) are formed by recessing both side walls (16) of the receptacle (10) and fixing members (30) are mounted into the mounting grooves (18). The fixing members (30) are fixed to a circuit board (80) by soldering. Engaging projections (49) bulge out sideways from the opposite side surfaces of the housing (40). Engaging grooves (19) are recessed in the inner side surfaces of the both side walls (16) of the receptacle (10) at positions before the mounting grooves (18) and engage with the engaging projections (49) as the connectors (F, M) are connected to resist a tensile force acting when the housing (40) is pulled away from the circuit board (80).
摘要:
A board connector (10) has a housing (20) with a terminal holding portion (40) for holding terminals (30) in forward and backward directions and a receptacle extends forward from the terminal holding portion (40). Mount grooves (60) are formed in side walls (52) of the receptacle (50). Board fixing portions (70) are held in the mount grooves (60) within the thickness range of the side walls and are soldered to the upper surface of a printed board (P). Mounting portions (54) are formed in the side walls (52) and have open front ends. Restricting members (80) are formed separately from the mating connector and mountable within the thickness range of the side walls (52) forward of the board fixing portions (70). One end of each restricting member (54) engages lower surfaces (54A) of the mounting portions (54) and the other end engages the lower surface of the printed board (P).
摘要:
A connecting structure for connecting the connector terminal unit with the printed mounting board in which the degree of freedom is high with respect to the attaching posture and attaching position of the connector terminal unit, and further the error allowed in the manufacturing process of the printed mounting board and the error allowed in the assembling process of the printed mounting board to the case may be increased. An auxiliary wiring board is electrically connected onto a reverse side of a connector terminal arranged penetrating the connector terminal unit, and also the auxiliary wiring board is electrically connected onto the printed mounting board by FPC (flexible printed circuit board). The attaching posture and attaching position of the connector terminal unit can be arbitrarily determined in a range of the length of FPC. Therefore, the degree of freedom of the attaching posture and attaching position of the connector terminal unit can be enhanced, and further the error allowed in the manufacturing process of the printed mounting board and the error allowed in the assembling process of the printed mounting board to the case may be increased.
摘要:
A board connector (10) has a housing (20) with a terminal holding portion (40) for holding terminals (30) in forward and backward directions and a receptacle extends forward from the terminal holding portion (40). Mount grooves (60) are formed in side walls (52) of the receptacle (50). Board fixing portions (70) are held in the mount grooves (60) within the thickness range of the side walls and are soldered to the upper surface of a printed board (P). Mounting portions (54) are formed in the side walls (52) and have open front ends. Restricting members (80) are formed separately from the mating connector and mountable within the thickness range of the side walls (52) forward of the board fixing portions (70). One end of each restricting member (54) engages lower surfaces (54A) of the mounting portions (54) and the other end engages the lower surface of the printed board (P).
摘要:
A connector (A) has a connector housing (10) with an outer surface (10A). A locking arm (11) extends from the outer surface (10A). A groove (16) is formed on a base part (12) of the locking arm (11) along a direction in which the base part (12) is erected. A groove (18) is formed on an arm part (13) of the locking arm (11) along a direction in which the arm part (13) extends. The sectional configuration of the grooves (16, 18) include concave quadrantal curved surface (16R, 18R) that are smoothly continuous with each other. The formation of the grooves (16), (18) allow a stress to be dispersed to the entire locking arm (11). Thus, it is possible to reduce the strain to be applied to the base part (12) and prevent breakage of the base part (12).