TWM409605U - Wire-to-board connector - Google Patents

Abstract

To enable the easy and reliable visual confirmation, from above the board, of the completion of mating, to enable a reduction in the space required for the mating operation, to enable a reduction in the cost through a simplification of the structure, to enable a reduction in size and a reduction in height, and to enable an increase in reliability.

Description

M409605 V. New description: I; New technical field 3 New field The present invention relates to a wire-to-board connector. c Prior Art 3 New Background Conventionally, wire-to-board connectors are used to connect wires such as cables to printed circuit boards and the like. (See, for example, Patent Reference 1). In this type of wire-to-board connector, one connector is mounted on the circuit board and the other connector connected to the end of the wire is mated thereto. Fig. 12 is a perspective view showing a series of a mating operation of a conventional wire-to-board connector. In the figure, 901 is a board connector which is mounted on a circuit board not shown having an electronic device and an electric device or the like. 801 is a wire connector and is connected to the end of the wire which is disposed in a cable not shown, and is mated with the board connection Is 910. Further, the board connector 901 includes a housing 911 and a terminal 961 housed in the housing 911. The terminal 961 is provided with a contact portion 961a disposed in the receiving recessed portion 913 of the housing 911 and a connecting arm 961b and a connecting arm 961c extending from the bottom wall of the housing 911. Further, the housing 911 is provided at a rear end of the side wall. Interlocking portion 914. On the other hand, the electric wire connector 801 has a housing 811 and a terminal, not shown, connected to the housing 811 and connected to the electric wire. Moreover, the movable member 830 movable in the front/rear direction is coupled to the outer casing 811. The movable member 3 M409605 830 is provided with a rear wall portion 831, a top plate portion 832, and a side end portion 834 that extends to both sides of the rear wall portion 831. Further, when the wire connector 801 and the board connector 901 are mated, first, the wire connector 801 is moved relative to the board connection benefit 901 in the direction of the arrow shown in FIG. 12(a) to connect the wire connector 8〇1. The outer casing 811 is inserted into the receiving recessed portion gig of the outer casing 911 of the board connector 901. This produces, for example, the shape shown in Fig. 12(b). Thereafter, the movable member 83 is moved rearward to engage its side end portion 834 with the interlocking portion 914 of the outer casing 911 as shown in Fig. i2(c). Doing so locks the wire connector _ to the board connector to prevent the fit from loosening. Note that when the outer casing 811 of the wire connector is inserted into the receiving recessed portion 913 of the core 911 of the board connector 901, if the cooperation between the wire connector and the board connector muscle is in an incomplete state, the interlock is performed. The end face of the portion 914 will interfere with the side end portion 834 of the movable member, such that moving the movable member 830 backward is not possible. Therefore, the operator can discriminate whether the cooperation between the wire connector 801 and the lance connection 901 is completed from the outside by observing the position of the movable member. Prior art reference patent reference [Reference 1] &Patent Application Publication No. 2009-32666, reviewed by Wo, & C. New Cracking Contents] 4 The problem solved by the present invention ^ In the conventional wire-to-board connector, the movable member In the short period of time, the accurate position, 』』moving member 830 is difficult. Because of this, in the case where the mating state is incomplete, the depositor may mistakenly feel the mating state as completely possible. The moving distance of the moving member is reported to be relatively easy to determine the position of the movable member 830. However, in recent years, miniaturization of the connector has been demanded due to miniaturization of electronic equipment and the like. It is not possible to cause the wire-to-board connector to increase in overall size to extend the moving distance of the movable member 830. The novel object is to solve the above problem. The problem of a conventional wire-to-board connector as set forth, and its purpose is to provide a highly reliable wire-to-board connector in which it is possible to rotate not only after the first outer casing of the first connector is fitted to the first outer casing of the second connector a rotary operating portion disposed on a top surface of the first outer casing to lock the first outer casing and the second outer casing together to visually distinguish the integrity of the mating from the upper surface of the panel, and when using a simple mating operation The space required for the mating operation can be reduced, and the cost can be reduced by using a simple structure that can be miniaturized and manufactured shorter. The way to solve the problem is to do this 'wire-to-board according to the present invention The connector includes: a first connector having a first housing for connecting to a first terminal of the electric wire and a first terminal; and a second connector mounted on the board having a first contact terminal a second terminal and a second outer casing accommodating the second terminal and cooperating with the first peripheral; further comprising: a first outer casing and a second outer M409605=center comparison mechanism, Wherein the center-to-center mechanism includes a second central locking portion formed at the soil end of the second outer casing and a first central locking portion coupled to the first intermediate locking portion, wherein the rotation is visible from above the plate The operating rod is in contact with the first central locking portion, wherein the rotating domain rod Φ green dimension county _ in the more azimuth and the _ fixed azimuth Γ 位 = position, the first central locking portion and the second central locking portion On the locking green, the central locking portion of the first heart locking portion is interlocked. The first additional wire-to-board connector further includes: a far== locking mechanism for and for the shell and k secret; The retracting & center locking mechanism is locked between the first outer casing and the second outer casing; and the rotating operating rod maintains the distal locking mechanism when in the locking orientation to prevent solution The second distal locking portion formed in the wire-to-board connector and the second distal locking portion formed at the fourth (4) of the disk; the first-distal locking mechanism of the first-shell that is interlocked with the mechanism; Where, in the rotation operation bar == orientation, Preparation of Cloth barium shift Ge ^ heart. The -end prevention first-distal locking part::: The new type of wire-to-board connector further includes: a positioning device for positioning the outer two outer casing; the mosquito position guiding the first movement: the second is further The mating surface of the two outer casings is moved vertically in the vertical direction, and the base end of the first outer casing is positioned. The base end locking mechanism is rotatably 6 M409605 supports the positioned base end of the first outer casing and the base end of the second outer casing; The end locking mechanism turns the distal ends of the first outer casing and the second outer casing closer together than the first outer casing, so that the mating surface becomes the same and cooperates. The novel effect is given. After the first outer casing of the first connector is engaged with the second outer casing of the second connector, the rotary operation portion disposed on the top surface of the first outer casing is rotated to lock the first outer casing and the second outer casing. shell. Doing so not only achieves a reliable visual discrimination of the completion of the planting on the board, but also allows the mating operation to be easily performed and achieves a reduction in the space required for the mating operation. Furthermore, this enables the structure to be simplified, the cost to be reduced, and the size and height to be reduced, and the reliability to be increased. t Embodiments Hereinafter, embodiments of the present invention will be explained in detail with reference to the accompanying drawings. 2 is a perspective view of a board connector in accordance with an embodiment of the present invention; FIG. 3 is a perspective view of an auxiliary hardware of the board connector according to an embodiment of the present invention, and FIG. 4 is a board according to an embodiment of the present invention The perspective of the terminal of the connector is 1 'in Fig. 2' (a) is a view of the mating surface seen from the rear diagonal direction and (8) is a view of the mating surface seen from the front diagonal direction. In the drawing, '101 is a board connector as a second connecting port in the wire-to-board connector according to the embodiment of the present invention, and is mounted on an electric purity not shown as a board, which is preferably Low profile connector with small height. Further, the electric wire connector 1 is fitted as a first connector to be described below to the board connector 101, thereby electrically connecting the electric wire 91 electrically connected to the electric wire connector 下面 (described below) to the circuit board through the board connector 1G1. 7 M409605 conductive traces. Note that the 'wire connector 1 is preferably a low-profile connector' as well as the board connector 1〇1 and vertically mates with the board connector 1〇1. Further, in the present embodiment, "top", "bottom", "left side," and "right side" for explaining the structure and operation of each portion of the board connector 101 and the electric wire connector 1 in the present embodiment are explained. , "front", "back", etc. are not absolute but relative, and if the board connector 1〇1 and the wire connector 1 are oriented as shown in the figure, if they are connected, if the board is connected The orientation of the device 101 and the wire connector 1 is changed, and they should be interpreted differently depending on the change in orientation. Here, the 'board connector 101 is a socket connector integrally formed of an insulating material such as synthetic plastic, and includes a board side housing lu, a board side terminal 161 housed in the board side housing 111, and the like, which is similarly housed in the board side housing. a metal auxiliary hardware 181 for connection, the board side housing U1 as a second housing mating with the wire side housing of the wire connector 1 (described below), the board side terminal 161 as a metal second terminal, and a metal auxiliary hardware 181 as an auxiliary hardware. Note that although there are two board side terminals 丨61 in the example shown in the drawing, the number of board side terminals 161 can be arbitrarily changed according to the number of the electric wires 91. Further, the board connector 101 is provided with a substantially rectangular solid shape whose bottom surface (the side on the bottom side in Fig. 2) is connected to the circuit board so as to face the front surface ' of the board and the wire connector 1 is fitted from above. As shown, the board side outer casing 111 includes a flat bottom plate portion 112 shaped like a smaller number, and a rear wall portion 115 extending along an edge of the rear end side (the lower right side in FIG. 2(a)) of the bottom plate portion 112. And the bottom Φ with respect to the outer side 8α 111 of the board side extends substantially vertically along the side edges of the bottom plate portion 112 = 1 (four) the left side and the right side defined by the side wall portion 17: having a main unit of 1 The gap between the wires and the connector. The bottom (four) portion of 4) is received and fitted. Further, the slit shape σ is provided in a portion toward the inside of the bottom right side wall portion U7. In the surface of the moon _ 』 from the left and the uu u in 77 112, not only the concave __ which extends rearward of the rearward is extended from the top surface of the bottom plate portion m = t; 112a'·the formation of the extension of the mountain Sub-protection portion 114. The protector portion m is between the front end and the rear end of the bottom plate portion 112, and is attached to the top, and each of the individual board-side terminals 161 is received by the individual terminal receiving recessed portion 112a and the terminal protection portion 14 and accommodated in the early The terminal of the ^ receives the recessed portion and the terminal protection portion 114. Note that although the terminal receiving recessed portion u2a and the terminal holding portion 4 are each of two in the example shown in the drawing, the number of the terminal receiving recessed portion 112a and the terminal protecting portion 114 may be based on the number of the board-side terminals 161. Change arbitrarily. As shown in Fig. 4, the board-side terminal ι 61 is provided with a connecting portion 163, a tail portion 丨62 facing in one direction from one end of the connecting portion 163, and a contact portion 164 extending from the other end of the connecting portion 163 in the other direction. Further, the contact portion 164 includes a pair of left and right clamp arms 164a having an elastic portion extending upward in the form of a cantilever, clamping and holding the contact portion 64 (described below) of the wire-side terminal 61 from both sides, and maintaining The contact portion 64 is inserted between the left and right gripping arms facing each other M409605 due to the spring force applied by the clamping arm i64a. Note that although the clamp arm 164a is divided into a plurality of (two in the drawing) in the longitudinal direction of the contact portion 164 in the example shown in the drawings, they need not necessarily be divided. Further, the connection portion 163 of the board-side terminal 161 is fixed by being pressed into the terminal receiving recessed portion 112a, and the clamp arm 164a of the contact portion 164 protrudes upward from the top surface of the bottom plate portion 112 to be received in the terminal protection portion 114 inside. Note that the top portion of the terminal protection portion 114 is formed with a slit-shaped wire-side terminal passage opening 114a, and when the board connector 1〇1 and the electric wire connector 1 are fitted together, the contact portion 64 of the wire-side terminal 61 passes through the wire side The terminal passage opening 114a is inserted between the left and right clamping arms 164a facing each other. Further, the tail portion 162 of the board-side terminal 161 extends from the front end of the bottom plate portion U2 at the tip end thereof in the direction of the tip end to be electrically connected to a signal line, a contact pad, a terminal, etc. formed on the circuit board by soldering or the like. Or, in other words, connected to the terminal member on the other side. Note that the board side terminal 161 functions as a first fixing hardware for fixing the board connector ιοί to the board, and the tail portion 162 functions as the first board fixing portion. Note that the hardware receiving recessed portion 115a is formed on the rear end side of the rear wall portion 115, wherein the auxiliary hardware 181 for connection is received by the hardware receiving recessed portion 115a and accommodated in the hard body receiving recessed portion u5a . Note that although there are two hardware receiving recessed portions 115a in the example shown in the drawing, this number can be arbitrarily changed. As shown in Fig. 3, the auxiliary hardware 181 for connection is provided with a connecting portion 183 and a solder tail portion 182 extending from the bottom end of the connecting portion 183. 10 M409605 Further, the connecting portion 183 is fixed by being pressed into the inside of the hard body receiving recessed portion U5a, and the solder tail portion 182 is fixed to the contact fixing portion formed on the circuit board by soldering or the like, such as a soldering iron . The board connector 101 is securely fastened to the board. Note that the auxiliary hardware 181 for connection serves as a second fixed hardware for fixing the board connector 101 to the board, and the solder tail portion 182 serves as a second board fixing portion. Further, the board side rotation shaft locking portion 121 extending upward from the top surface of the bottom plate portion 112 as a second base end locking portion is formed at the base end of the board side outer casing 1U, that is, at the center in the front end. The board side rotation shaft locking portion 121 is a member that is a part of the base end locking mechanism together with the wire side rotation shaft locking portion 21 (described below) of the wire side housing 11 and interlocks with the wire side rotation shaft locking portion 21 to lock the board. The front side of the side case U1 and the wire side case u. The board side rotation shaft locking portion 121 is provided with an interlocking hole 121a formed to pass in the front/rear direction, an interlocking beam 121b defining a top end of the interlocking hole 121a, and an interlocking bottom plate portion defining a bottom end of the interlocking hole 121a. 121d. Further, at a position adjacent to the rear end of the plate-side rotation shaft locking portion 121, in the bottom plate portion 112, the rotation allowance hole 121c is formed to penetrate in the thickness direction (up/down direction) of the bottom plate. Note that the interlocking hole 121a does not need to be formed as a hole that is always penetrated in the front/rear direction, but may more preferably be extended in the rear surface of the concave-plate-side rotating shaft locking portion 121. Groove. Moreover, the rotation allowance hole 121c does not need to be formed as a hole that is always penetrated in the upper/lower direction, but may more preferably be a downwardly extending groove formed in the top surface of the recessed bottom plate portion 112. 11 M409605 The diverting hole Xu 21 is formed to communicate with the rear end of the interlocking hole 12la. Note that although the interlocking hole 2ia in the example shown in the drawing is divided into a plurality of (two in the drawing) in the lateral direction of the plate side rotation-locking section 121, it does not need to be divided. . If it is first divided into a plurality of 'interlocking beams 12ib' and the interlocking bottom plate portion 121d is connected by the dividing wall of the interlocking hole 121a, the plate-side rotating shaft locking portion i2i is increased in strength. Note that if the strength is not an issue, the interlocking bottom plate portion md may be omitted as appropriate. That is, even if the interlocking bottom plate portion 121 (1 is omitted from the plate side rotation axis locking portion m, the function of the second base end locking portion can be exerted. Further, the groove-shaped plate side extending in the upper/lower direction is positioned to each other. The lock portion 122 is formed as a second positioning portion on the inner side surface of the side wall portion 117. The board side positioning interlock portion 122 is a positioning mechanism interlocking portion 22 (described below) of the wire side outer casing n as a positioning mechanism A part of the member 'and the front end side of the wire side outer casing ^ is positioned with respect to the board side outer casing U1 when mated. Note that the board side positioning interlocking portion 122 extends substantially perpendicularly with respect to the top surface of the bottom plate portion 112, and its top end is opposite to the side wall The top surface of the portion η is open, and its bottom end is closed and is defined by the top surface of the bottom plate portion 112. Note that the bottom end of the board side positioning interlock portion 122 need not necessarily be closed by the top surface of the bottom plate portion 112. Rather, it is more likely to be entrapped by the bottom plate portion 112 and at its bottom surface. Further, the plate side rotary end locking portion 123 is formed as a second distal lock extending upward from the top surface of the bottom plate portion 112. The portion and the rear wall portion 115 at the center of the board side outer casing lu, that is, the rear wall portion at the center of the rear end side, the side end side rotation end locking portion 123 is a wire side rotation end locking portion 12 with the wire side outer casing M M409605 23 (described below) a member that is a part of the distal locking mechanism, and interlocks with the wire-side rotational end locking portion 23 to lock the plate-side outer casing η and the rear-end side of the wire-side outer casing 11. The plate-side rotational end locking portion 123 is provided to be formed The interlocking hole 123a penetrating in the front/rear direction and the interlocking beam 123b defining the tip end of the interlocking hole 123a. Further, at the position close to the front end of the plate side rotating end locking portion 123, in the bottom plate portion 112, tolerance is permitted. The hole 123c is formed to penetrate in the thickness direction (up/down direction) of the plate. The allowable hole 123c is formed to communicate with the bottom end portion of the interlocking hole 123a. Note that although the interlocking hole is in the example shown in the drawing 123a is divided into a plurality (two in the drawing) in the lateral direction of the plate-side rotation end locking portion 123, but this number may alternatively be a single 'or the number may be several. Further, as described above, The interlocking hole 121a and the rotation permitting hole 121c need not necessarily be holes that are formed to be completely penetrated, but may be grooves that are open toward the center of the board-side housing 111. Further, the left in the bottom plate portion 112 And at a portion of the inside of the right terminal protection portion 114, the board side center locking portion 133 is formed as a second center locking portion that extends upward from the top surface of the bottom plate portion 112. Note that the board side center locking portion 133 is at the bottom plate portion Η2 Further, the board-side center locking portion 133 is a member not only as a part of the wire-side center locking portion 33 but also as a part of the center locking mechanism, and is mutually opposed to the wire-side center locking portion 33. The lock is a member that locks a portion between the board-side housing 111 and the wire-side housing 11, and the wire-side center locking portion 33 is provided with a rotation operation portion 30 described below, which is connected to the wire-side housing 11. 13 In the example not shown in the drawing, the plate side center locking portion 133 is a left =: upper member, wherein each member is L = in the cross section and has an arm portion leg extending from the bottom plate portion 112. The top end of the arm portion extends to the inner interlocking cover portion. The lower side of the plate side is not required, and the lock portion 133 does not need to be the left and right members of the plate, but more accurately Only a single component on the left and right sides. Next, the structure of the wire connector 1 will be explained. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a perspective mating surface of a wire connector according to a cross-sectional view of the present invention, which is viewed from the rear diagonal direction and η... The drawing of the mating surface in the direction of the line, the plug is connected to the board-side housing lu formed integrally with two 11 iqi in the wire side housing u;:, the wire side terminal 61 is accommodated = and remains formed in The single wire in the wire side casing u: the second receiving recessed portion 13 Φ. , the wire-side terminal 61 is connected to the wire 91 ==, and the separate "line 91 is electrically connected to the conductive wire (four)" although in the drawing In the illustrated example, the number of the two portions 13 of the wire side terminal 61 and the wire side terminal receiving recessed portion 13 can be arbitrarily changed by two numbers. 14 M409605 Further, the wire connector 1 is set in a rectangular solid shape. And its mating surface (top surface in FIGS. 1(a) and (b)) is mated with the board connector 101 so as to face the mating surface of the board connector 101 (top surface in FIG. 2). That is, it Vertically mating with the board connector 101. As shown in the drawing, the wire side housing 11 is included with the mating surface A substantially rectangular flat ceiling portion 12 at the opposite side and a main unit portion 14 in a rectangular solid shape connected to the bottom surface of the ceiling portion 12. Further, 17 is on the left and right sides of the main unit portion 14 along the side An end edge extending side wall portion, wherein the wire side terminal receiving recessed portion 13 is formed on the corresponding side wall portion 17. The wire side terminal receiving recessed portion 13 is provided with a wire passage opening 13b formed on a rear end face of the side wall portion 17, An electric wire 91 connected to the wire side terminal 61 accommodated in the wire side terminal receiving recessed portion 13 passes through the wire passage opening 13b to extend rearward from the rear end surface of the side wall portion 17. Further, the wire side terminal receiving recess The terminal passage opening 13a communicating with the inlet portion 13 is formed on the mating surface of the side wall portion 17, and when the electric wire connector 1 is engaged with the board connector 101, the clamp arm 164a of the contact portion 164 of the board side terminal 161 not only enters the terminal protection The portion 114, and enters the inside of the wire-side terminal receiving recessed portion 13 through the terminal passage opening 13a. As shown in Fig. 5, the wire-side terminal 61 is The board terminal is provided with a connecting portion 63, a tail portion 62 extending from one end of the connecting portion 63 in one direction, a contact portion 64 extending from the other end of the connecting portion 63 in the other direction, and a contact portion 64 from the contact portion 64. The interlocking portion 65 projecting toward the outside of the side. Further, the connecting portion 63 fixes 15 conductive electric wires as the core of the electric wire 91, and the tail portion 62 fixes the outer covering of the electric wire 91, so the electric wire side terminal 61 is electrically and mechanically connected To the end of the electric wire 91. Further, the interlocking portion 65 fixes the electric wire side terminal 61 by interlocking with the inner wall of the electric wire side terminal receiving recessed portion 13. Further, the contact portion 64 is a member having a substantially moment-opening v shape, and is interposed between the mutually facing left and right clamp arms 164a provided in the contact portion 164 of the board-side terminal 161 to be Maintain 'to maintain contact by the spring force generated in the clamp arm 164a. Note that the contact portion 64 and the terminal passage opening 13a are preferably located near the front end of the wire side casing 11. Further, the plate-shaped electric wire side rotation shaft locking portion 21 extending upward from the front end side of the mating surface side of the main unit portion 14 is formed at the base end of the electric wire side outer casing u, that is, at the center at the front end, as the first base end locking section. The wire-side rotating shaft portion 21 is a member-part of the plate-side rotating shaft portion 121 opposite to the plate-side housing shaft lu as described above and is interlocked with the _ complementary shaft portion 121. The front side of the board side case 1U and the wire side case Η. Further, the cut-away portion 16 is formed at the center in the front end of the main unit portion 14, and the =-cut side portions (4) (1) and the top end in the (8) of the cut-away portion 16 are defined by the wire-side rotating shaft locking portion 21. Further, the wire side positioning locking portion 22 is formed as a first positioning portion to protrude from the side of the side wall portion 17 toward the outside. The wire side positioning 敎 = 22 is a member that functions as a part of the positioning mechanism with the board side positioning interlock portion 122 and interlocks with the board position interlocking portion 122. Specifically, the wire side positioning weir portion 22 is formed as two end portions of the cylindrical bar member extending in the lateral direction at the front end edge of the mating face of the main 16 single turn portion 14. The rod member 22a is integrally formed with the main unit portion 14 and the side wall portion 17 and formed with the electric wire side rotation shaft locking portion 21 as a single unit 疋 to rotate the shaft locking portion 21 by the electric wire side in the lateral direction. Note that in the example shown in the drawing, the rod member 22a is provided with the rounded side and raised to the mating surface and the front end surface of the main unit portion 14 to be clearly distinguished 'but it does not need to be formed as the main unit The mating face and the other end faces of the portion 14 can be clearly distinguished. That is, the wire-side positioning locking portions 22 projecting from the side wall portions 17 on both sides can be coaxially positioned so that they can serve as both ends of a single bar member. Note that the tip end portion 21a in the wire side rotation shaft locking portion 21 is a portion interlocking with the interlocking hole 121a of the plate side rotation shaft locking portion 121 and the interlocking beam 12ib, and is larger than the main unit portion 14, the side wall portion 17, The front end and the rod member 22a protrude further forward. Further, although the tip end portion 21a is divided into a plurality of (in the drawing, two) in the lateral direction corresponding to the interlocking hole 121a in the example shown in the drawing, the division is not necessarily necessary. Further, the electric wire side rotation end locking portion 23 is formed at the distal end of the electric wire side outer casing 11, or in other words, the first distal end locking portion which protrudes toward the rear at the center in the rear end. The wire side rotation end locking portion 23 is a member which is a part of the distal end locking mechanism together with the plate side rotation end locking portion 123 of the board side outer casing 111 as described above, and interlocks with the board side rotation end locking portion 123 to lock The board side outer casing 111 and the rear end side of the electric wire side outer casing 11. The wire-side rotating end locking portion 23 is generally provided with an L-shape, and the base end is integrally connected with the mating face of the main unit portion 14 and is provided with: a cantilever-shaped elastic body 17 M409605-shaped arm portion 23a whose free end 伸I is extended so as to face The direction of the ceiling portion 12; the interlocking projection 23b, the reinforced arm portion 233 portion of the ridge; and the operating portion 23c, the blade facing the rear eight horses contacting the spring arm 23a The components are manipulated by the freedom of the operator's hand. Interlocking projection 23b County disk-side rotating end locking portion 123 疋^ Lock (four) strain "road hole shifting and interlocking beam-and-feel interlocking members. Note that although 铐扃 _ , in the example of the figure is not flexible The arm and the interlocking projection 23b are formed in plurality in the lateral direction &# knife inner direction corresponding to the interlocking hole 123a (two in the closing towel), and the number may alternatively be a single one. — The rotational operation portion 30 is rotatably coupled between the front end and the rear end of the wire side housing u η armor. The recessed portion 18 for locking is formed in the mating face of the main unit portion 14 with the wire side center locked The interlocking umbrella portion 33b of the portion 33 is positioned as the first center locking portion provided by the rotational operation portion 3 in the recessed portion 18 for locking. On the other hand, for the rotation operation The recessed portion 12a is provided in the ceiling portion 12, wherein the rotary operation lever provided by the disk portion 31 and the rotary operation portion 30, that is, the operation lever portion 35 is located in the recessed portion 12a for the rotational operation. will be As described above, the wire-side center locking portion 33 is passed through in the thickness direction not only by the recessed portion 18 for locking and the shaft receiving hole 15 for the rotating portion 12a provided in the main unit portion 14. The shaft arm portion 33a described below is accommodated in the shaft receiving hole 15 so as to be rotatable, and the tip end of the wire side center locking portion 33 is connected to the operating rod portion 35 through the disk portion 31. As described above, the wire side center locking portion 33 with the side of the board side ui 18 M409605

The board side center locking portion 133 is interlocked and is a member that is a part of the center locking mechanism of the locking board side housing in and the wire side housing 11. Specifically, the corresponding interlocking umbrella portion 33b of the pair is interlocked with the interlocking cover portion 133b of the board side center locking portion 133 to lock the center portions of the board side outer casing 111 and the wire side outer casing 11. Note that the orientation of the rotational operation portion 30 shown in FIG. 2, that is, the orientation of the operation lever portion 35 is an unlocked orientation showing an unlocked position in which the interlocking umbrella portion 33b does not interlock with the interlock cover portion 13 north. And when rotated 90 from the unlocked orientation. At this time, the locking orientation of the locking position in which the interlocking umbrella portion 33b and the interlocking cover portion 133b are interlocked is entered. Next, a mechanism for connecting the rotational operation portion 30 to the wire-side housing 11 will be explained. A perspective view of a rotationally operated portion of a novel embodiment of the present invention. FIG. 7 is a perspective view of a wire-side housing according to the present (four) implementation; and FIG. 8 is a rotary operation of the wire-side housing according to an embodiment of the present invention. A cross-sectional view of the board in the state of the door. Note that in Figures 6 and 7

(4) is a view seen from the side opposite to the mating surface side and viewed from the side of the mating surface, in the case of Seto. Mountain, and in Figure 8, (a) is a side cross-sectional view, and (b)

Is a horizontal section view. M posterior glandular sulphate Am "° 丨 攸 0 攸 insulating material such as synthetic can body: formed member' and including the disc-shaped disc portion extending in the direction integrally connected to the disc portion: Η 从 从 从 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 纯 棒 纯 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒 棒'The two ends extend from the periphery of the large straight portion to the outside, and the bottom surface thereof is coplanar with the bottom surface of the large straight portion i. Note that the azimuth maintaining recessed portion 32 extends to the large in the bottom surface of the operating rod portion 35. Each portion of the peripheral portion of the direct control portion is formed. Further, the wire-side center locking portion 33 is a member having an L-shape in cross-sectional shape, and is provided with a shaft arm whose tip is connected to the bottom surface of the disk portion 31. Part of the coffee, and the interlocking umbrella portion extending from the bottom end of the shaft arm portion 33a toward the outside. Note that the outer side surface of the shaft arm portion 33a is preferably smaller in diameter than the diameter of the small diameter portion 31b. Cylindrical surface. Further, preferably, The shape of the top edge of the locking umbrella portion is curved. As shown in Fig. 7, the wire side housing U includes a recessed portion (2) for rotating operation formed on the ceiling portion 12, a rotary brake portion (10), in the main sheet The recessed portion 18 for locking formed on the mating surface of the weir portion 14 and the shaft receiving hole 15 penetrating in the thickness direction of the main unit portion 14 are thinly connected: f丨! c ± '' 15 a recessed portion 12a for a rotary operation and a recessed portion 18 for locking. The recessed portion for the rotational operation to rotatably accommodate the large-diameter portion of the operating lever portion 35 and the rotational operation portion 3A a concave relief knife, and as shown in the __rod portion 35 and the large diameter portion of the top portion of the top surface == maintains the recessed orientation of the recessed portion 32 interlocking in the non-locking orientation to maintain the orientation of == Maintaining the protruding scales maintains the recessed portion 32 in the == position to maintain the locking orientation maintaining the protruding portion 27b in the locking orientation in the locked orientation. Further, the rotation 20 ==::::: extends from its periphery to - protruding , 2 2, the top of which is located outside the locked orientation: Γ Further operation of the rotational operation portion 30 in the locked orientation is prevented. Note that the non-locking and locking orientation maintaining the projection portion 27b maintains the projection portion 27 for the orientation. This orientation interprets the orientation maintaining projection portion 27 and the orientation holding portion 32 serve as the orientation dimension for the rotational operation portion 3〇. Further, the recessed portion 18 for locking is provided with the center locking receiving portion W8a and the operating portion portion (four) fixed receiving portion 18a For receiving the plate-side center side portion 133 of the board-side housing m when the cultivating housing 11 is in engagement with the slanting housing 111, and the interlocking umbrella portion of the rotational operation portion holding portion 18b and the rotational operation portion 3Q The 33b is interlocked to prevent the rotational operation portion 3 from coming out of the wire side casing u. Further, the shaft receiving hole 15 passes through the main unit portion 14 in the thickness direction, and is provided with a cylindrical inner circumferential surface, and a main port portion provided with a shaft arm portion 33a for rotatably receiving the rotational operation portion 30 (mainp〇rt a portion 151a which is formed with a diameter larger than the diameter of the main port portion 15a for rotatably receiving the small-diameter portion 31b of the rotational operation portion 3A and for allowing The recessed groove-shaped wide straight portion 15c through which the interlocking umbrella portion 33b of the rotary operation portion 30 passes, which extends in the thickness direction of the main unit portion 14, is formed to face the main port portion 15 at two positions. The inner circumference of the end face. Note that the radius of the inner circumference of the end face of the wide diameter portion 15c is preferably slightly smaller 21 M409605 to the radius of the tip end edge of the interlocking umbrella portion 33b. When the rotational operation portion 30 is connected to the wire-side housing 11, the wire-side center locking portion 33 is inserted into the shaft receiving hole 15 from the ceiling portion side 12, and the interlocking umbrella portion 33b is first inserted. In this case, the position of each interlocking portion 33b corresponds to the position of each wide diameter portion 15c. Zuo Si, although the diameter of the tip end edge of the interlocking umbrella portion 33b is larger than the inner circumferential surface ' of the wide straight k portion 15c but the 'axis arm portion 33a is provided with a cantilever shape having a certain degree of elasticity, it is possible to make the arm portion 33a The interlocking umbrella portion 33b formed on the free end is elastically deformed. Because of this, when the lock 4 is shaped. When the split 33b is inserted into the wide diameter portion i5c, the diameter of the tip end edge of the interlocking umbrella portion 33b can be compressed to the wide diameter portion π. The diameter of the inner circumferential surface enables the interlocking umbrella portion 33b to pass through the wide diameter portion 15c. Further, when the completion of the wire-side center locking portion 33 is inserted into the shaft receiving hole 15, as shown in Fig. 8, it is next realized that the rotational operation portion 30 can be connected to the state of the wire 11. In this case, the orientation of the operating shaft portion 35 is the non-locking orientation as shown in FIG. Note that when the interlocking umbrella portion 33b passes through the wide diameter portion 15c to reach the recessed portion 18 for locking, the shape of the shaft arm portion is restored, and the tip end edge of the lock tab portion 33b is also increased to its original radius. Also, the radius will become larger than ^ of the inner circumferential surface of the wide diameter portion 15c. Since the 'interlocking umbrella portion 33b is interlocked with the rotational operation portion holding portion H8b', the wire-side center locking portion 33 is prevented from being pulled out from the shaft receiving hole, and the P-side rotation operating portion 3 comes out of the wire-side housing U. Note 22 M409605 means '^ Rotate the operation part 3Q from this thief to 9G. When the position is locked, the position of the female interlocking umbrella portion will be moved from the position of the corresponding wide diameter portion 15c to keep the interlocking umbrella portion jump and the rotational operation portion. [Interlocking of the 5 knives 18b is even more due to this, when the storage is performed for an extended period of time in a state where the rotary operation portion is respectively connected to the wire-side housing 11," by placing the rotation or operation portion 30 in the lock The orientation reliably prevents the rotational operation portion 3 from coming out of the wire-side housing U.

In the disengagement in which the rotational operation portion 3Q is connected to the wire-side outer casing n, the large-diameter portion of the rotational operation portion 30 and the operation rod portion 35 are accommodated in the concave portion 12 for the rotational operation ... and the small-diameter portion 31b is accommodated in the expansion Hole portion 15b In addition, the arm portion is housed in the main port knife 15a and the main port portion (5) is rotatably selected. Since this rotational operation portion 30 is rotatable relative to the wire side casing 11. As shown in Fig. 8(b), first, the orientation of the rotational operation portion 30 is in the non-locking orientation, and the non-locking, position, and pseudo-bearing portion 27a appear in the azimuth maintaining concave portion 32 and maintain the concave portion with the azimuth. 32. Due to this, unless the _ operation portion is rotated by the operator's finger or the like, the orientation of the rotational operation portion 30 will not = the non-locking orientation change, even if a weak external force such as vibration acts on the rotary operation portion 30 or the wire side casing u. Next, a description will be given of a case where the wire connector 1 is mated with the board connector 1〇1. FIG. 9 is a perspective view showing that the wire-to-board connector is fitted according to an embodiment of the present invention; FIG. 1G is according to the present invention. A plan view of a state in which the outlet-to-board connector is mated; and FIG. 23 is a cross-sectional view showing a state in which the wire-to-board connector is fitted according to an embodiment of the present invention; A plan view showing a state in which the wire-to-board connector is fitted is shown in the embodiment of the present invention. Note that, in FIGS. 9 to n, (a) is a diagram showing a state in which the rotational operation portion is in the unlocked orientation, and (b) is a diagram showing a state in which the rotational operation portion is in the locked orientation. In operation, in the board connector 101, the bottom surface of the board-side housing U1 faces the surface of a circuit board not shown, and the tail portion 162 of the board-side terminal 161 is connected to the conductive trace on the board by soldering or the like. Wire-connecting connection pads, and the tail portion 182 of the auxiliary hardware 181 for connection is connected to the pad for connection on the circuit board by soldering or the like to mount the board connector 1〇1 on the surface of the board on. When the wire connector 1 is fitted to the board connector 101 mounted on the circuit board, the wire connector 1 is operated by an operator's finger or the like, and is urged to face the front surface of the wire connector 1 facing the board The mating surface of the connector 1〇1 (top surface in Fig. 2), or in other words, the surface facing the board, and the mating surface of the wire connector 1 (top surface in Figs. 1(a) and (b) ) facing the rear of the board connector 101. Further, the rotational operation portion 3 is placed in the non-locking orientation. Note that the 'wire connector 1' may be oriented such that its front/rear direction is perpendicular to the front/rear direction of the board connection 101, or in other words, perpendicular to the surface of the board 'but alternatively the 'front/rear direction may be The front/rear direction of the board connector 101 is or may be at an angle relative to the surface of the circuit. After that, the 'operator moves the wire connection H1 in the direction approaching the board connector 101 to insert the wire side positioning interlocking portion 24 2 from the top end thereof into the side wall portion 117 of the board side outer casing 111 on the left and right sides. In the left and right panel side positioning interlock portions 122 formed on the inner side surface, the wire side is positioned and interlocked. The P minute 22 is enlarged outward from the side surface of the side wall portion 17 of the wire side casing 11. Thus, when the wire side positioning interlock portion 22 reaches the board side positioning interlock. At the bottom end of the split portion 122, the wire-side rotary shaft lock P-knife 21 of the wire-side outer casing u is interlocked with the plate-side rotary shaft lock portion I of the plate-side outer casing hi. Note that the tip end portion 21a of the wire side rotation shaft locking portion 21 which extends farther than the wire side positioning interlock portion 22 is received into the % rotation permitting hole 12ic opened in the bottom plate portion (1), so that the circuit board is not touched The surface so as not to damage the surface of the board. As a result, the wire connector 1 is positioned relative to the board connector 1〇1, and the orientation of the wire connection (4) 1 is also adjusted so that its front/rear direction is substantially perpendicular to the front/rear direction of the board connector or relative to The surface of the board is vertical. In this state, the electric wire connector 1 is positioned with respect to the board connector 101 with respect to its front/rear direction, its left/right direction, and its up/down direction. In this manner, it is possible to relative to the board connector 1G1 only by arranging the left and right wire side positioning interlocking portions 22 of the wire side casing u from the upper side of the board side core 111 and the right board side positioning interlocking section 122. Precise positioning of the wire connector In addition, the operator can perform the wire connector easily, quickly and precisely! Positioning relative to the board connector 1〇1. It is necessary to move the wire connector 1 in a direction perpendicular to the surface of the board without moving in a direction parallel to the surface of the board. Therefore, even when many electronic components or electric components or the like have been mounted on the surface of the circuit board, there is a lack of opening around the board connector 25 M409605 1〇1 due to the high-density mounting on the board (4) may be parallel to the board i. In the case where the wire connector 1 is moved in the direction of the surface, it is still possible to position the wire connector with respect to the board connector 101. After that, the operator rotates the wire connector 1 with the pick-up Is 101. Specifically, , wire far technology 丄, 丄 . 盗 盗 破 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗 盗In this case, the wire side positioning interlocking portion 22 and the board side positioning interlocking portion 12? stone #. & A Η lock, and the wire side; the 5 疋 rotating shaft locking portion 2 ΐ and the board side rotation _ fixed portion 121 interlock, so The wire connector i uses the wire side clamp interlocking portion 22 and the wire-spinning shaft locking portion 21 as a rotating shaft to rotate 'in a stable state in which the spool does not become misaligned' without occurrence of the swirling Disengagement board Therefore, the person skilled in the art can easily and quickly rotate the wire connector 1 with respect to the board connector 1〇1. Note that the wire side rotation #lock is protruded farther than the wire side positioning interlock portion 22. The top end portion 2ia of the weir portion 21 is continuous with the rotation permitting hole 2ic and the interlocking hole 121a, so that it can be smoothly moved from the inside of the rotating hole 121c into the interlocking hole 121a by the rotation of the wire connector 。. During the rotation of the wire connector 1, the clamp arm 164a and the terminal protection portion 114 of the contact portion 164 of the board-side terminal 161 are inserted together into the wire-side terminal receiving recessed portion 13 through the terminal passage opening 13a of the wire-side housing 11' 11(a) Next, the contact portion 64 of the wire side terminal 61 is inserted between the left and right clamp arms i64a. Further, the plate side center lock portion 133 appears in the center lock receiving portion 18a and is centered by the center 26. M409605 The locking receiving portion 18a is received. Further, as shown in Fig. 9, when the wire connector 丄 completes rotation to assume a front/rear direction in which the front/rear direction is parallel to the front/rear direction of the board connector 101 or the surface of the board In the orientation, the wire-side rotating end locking portion 23 interlocks with the board-side rotating end locking portion A 123 ' and the rear end of the wire-side core u will be locked to the rear end of the board-side housing 111. Specifically, 'on the wire side The interlocking projection 23b of the elastic arm portion 23a on the rotary end locking portion 23 is inserted into the interlocking hole 12 provided in the plate-side rotary end locking portion 123, for example, to interlock with the bottom surface of the interlocking beam 123b. Note that since the elastic arm portion 23a is a member that is elastically formed as a cantilever, and because the interlocking projection is moved while being bombed, the P blade 23a is formed on the 'the operator only needs to lock the wire side casing 11 at the time of locking. The end is pushed down to the board side casing lu without operating the operation portion 23c, and it is not necessary to apply a large force for pushing. Further, since the elastic arm portion 23a elastically returns to its original state after elastic deformation when the interlocking projection #23b passes through the rear surface of the interlocking beam 123b at the time of locking, the operator (4) pushes the wire side downward The finger or the like of the outer casing 11 feels this by means of "tap". Therefore, the squatting person can feel that the rear end of the electric wire side outer casing 11 is locked to the board side outer casing 11 in addition to the electric wire connector 丨In the state in which the rotation is completed, the tip end portion 2ia of the wire side turn shaft lock shaft portion 21 is advanced into the interlocking hole ma of the board side rotation shaft locking portion 121 to interlock with the bottom surface of the interlocking beam 121b. That is, the 'wire-side rotating shaft locking portion 21 and the plate-side rotating shaft locking portion knife 121 are fitted, and the front end of the wire-side housing casing 锁定 is locked to the front end of the board-side housing 27 27 M409605. Therefore, if the wire-side housing u is rear-end The rear end of the board-side housing U1 is locked, and the front end of the wire-side housing 11 and the front end of the board-side housing lu will also be in a locked state. In this manner, just in the state after the rotation of the wire connector 完成 is completed' 9(a), Fig. 1(a) and Fig. j(a), the orientation of the rotational operation portion 30 will be an unlocked orientation, so that the longitudinal direction of the operating rod portion will match the wire side casing 丨丨 and the plate side The transverse direction of the outer casing i. That is, the operating rod portion 35 will be in the lateral direction. Therefore, the interlocking umbrella portion 33b will not interlock with the interlocking cover portion. In other words, the side of the wire is locked. 33 will not interlock with the board side center locking portion 133, and the board side housing 111 and the wire side housing u will not be locked to 0, and the operator will change the orientation of the rotating operation portion 3 from the non-locking: bit change To the locked orientation. Specifically, in Fig. 1〇t, the operating rod portion 3 is rotated 9 顺 in the clockwise direction, so as shown in Fig. 9 (5), Fig. 1 () (bh Fig. 11 (b), the operating rod portion 35 The longitudinal direction will match the front/rear direction of the eaves casing 11 and the plate side casing 111. That is, the cap = 35 is placed in the longitudinal direction. Note that if the operating rod portion turns like a beak, 'it will interfere with the rotation. The brake portion 12b, therefore, does not operate outside the locked orientation. The operator can clear the ground, even when the operating rod portion 35 is roughly processed. As a result of this, the interlocking umbrella portion 33b appears in the middle: 33b interlocks. That is, in: The fortune locking portion m is interlocked to produce a state in which the center portions of the board side outer casing 28 111 and the wire side outer casing 11 are relatively in. Therefore, the wire side outer casing 11 and the board side outer casing U1 are locked in the front end rear end and the center portion thereof.形成 'Formation of wire connection ^ 丨 and plate connection (4) 1Q1 reliably fit ~ The relatively long member of the operation bar portion 35 changes in orientation from the lateral direction to the longitudinal direction 9G. Can be connected from the wire ^ The side is visually identified. Therefore, the operator can know in a short time that the wire connector i and the board connector (8) are in a state of reliable cooperation. On the other hand, in the case where the wire connector 1 and the board connector ιοί are not reliably matched, the oil towel d-determining portion 133 will be fully accommodated in the heart-locking receiving portion 18a, so the interlocking umbrella portion 33b will not be The two compartments 133c are interlocked, and thus the orientation of the rotational operation portion 30 is not placed in the lock orientation. That is to say, the ability to make the orientation of the rotational operation portion % into the orientation means that the wire connection H1 and the board connector 1 are sinfully engaged, so that the operator (4) passes the side of the rotation operation portion* from the face The orientation changes to the locked orientation to reliably discern the incomplete fit state in which the mismatch fits in an incomplete state. This :. If (4) the orientation of the operating portion 3Q cannot be released in the locked orientation, the #人作 can know the incomplete fit, wherein the fit is not in a perfect state. The square: when the orientation of the field rotation operation portion 30 is in the lock orientation, the lock two sides, the dog exit portion 27b enters the orientation maintaining recess portion 32 and is recessed with 丨i. The division is 32 interlocked. Due to this, unless the finger of the rotary operation portion 30' operator rotates, the orientation of the rotational operation portion 30 will not change from the lock orientation, even if a weak external force such as vibration acts on the rotary operation portion 30 or the electric wire casing 11. Therefore, the cooperation of the wire connector 1 and the board connector 101 is reliably maintained. Further, the left and right wire-side positioning interlocking portions 22 of the wire-side housing 11 are inserted into the groove-shaped left and right-plate side positioning interlocks formed in the side wall portion 1 of the board-side housing lu extending upward/lower upward. Part 丨22. Due to this, the wire side outer casing 11 does not move in the front/rear direction of the board side outer casing lu with respect to the board side outer casing lu. Therefore, even in the case where the wire connector 丨 is subjected to an external force, the elastic arm portion 23a will not move in the front/rear direction with respect to the interlocking beam i23b, and the interlocking beam 123b will not be pushed and moved, so the wire side is rotated. The interlock between the end locking portion 2 3 and the board side rotating end locking portion 丨 2 3 will not be released. As a result, the cooperation between the wire connector 丨 and the board connector 101 will be reliably maintained because the interlock between the wire side rotation end locking portion 23 and the board side rotation end locking portion 123 does not accidentally loosen even if The same is true when the pulling of the electric wire 91 or the external force of the back and forth swing is applied in a state as shown, for example, in Figs. 1(c) and 7(c). Further, as shown in Fig. 9 (1) and Fig. 10 (8), when the orientation of the rotational operation portion 30 is in the locking orientation, the end of the operation rod portion 35 in the longitudinal direction (the right end in Fig. 1 (b)) will approach The operation portion 23c of the rotation end locking portion 23 is contacted or contacted to prevent displacement in the direction of the front end of the operation portion 23c. The operation portion 23c is a member that connects the free ends of the elastic arm portions 23a. Therefore, even if, for example, an operator's finger, an operation tool, another member, or the like accidentally comes into contact with the operation portion 23c, the interlocking beam η north will not be displaced by the interlocking projection portion 30 formed on the elastic arm portion 23a. release. That is, the rotational operation portion 30 will function to prevent unlocking of the distal locking mechanism in the locking orientation. This makes it possible to maintain the cooperation between the wire connector 1 and the board connector 101 with greater reliability. Note that, in the state in which the fitting has been completed, the contact portion 64 of the wire-side terminal 61 is brought into contact by the clamp arm 164a inserted in the contact portion 164 of the plate-side terminal 161. Therefore, the conductive wire of the electric wire 91 passes through the wire-side terminal 61. The board side terminal 61 is electrically connected to the terminal member formed on the other side of the circuit. Note that although the description herein is directed to the case where the electric wire 91 is unfolded to extend rearward from the rear end of the electric wire side outer casing 11, alternatively, the electric wire 91 may be unfolded so as to extend upward from the ceiling portion 12 of the electric wire side outer casing 1''. In this manner, in the present embodiment, the wire-to-board connector includes: a wire connector 1 having a wire-side terminal 61 connected to the wire 91 and a wire-side housing 11 accommodating the wire-side terminal 61; and a board connector 1〇1, the women's clothing on the circuit board has a board-side terminal 161 that contacts the wire-side terminal 61 and a board-side housing 111 that houses the board (four) sub-161 and mates with the electric wire housing u. Further, there is a center locking mechanism for locking the wire side casing u and the panel side casing m, wherein the center locking mechanism is included in the plate side formed on the plate side casing U1 end, and the fixed portion 133 and the wire side are connected to the outside for use with The wire side center lock knives 33 in which the locking portions 133 are interlocked in the board side, wherein the operation bar portion 35, which is visually discernible from above the board, is connected to the electric wire locking portion 33, wherein the operating rod portion is maintained by the orientation The device is maintained in the locking orientation and in the locking orientation, the 'wire side center locking portion 33 and the board side center locking portion 133 are interlocking with each other 31 M409605'. In the non-locking orientation, the wire side center locking portion 33 is not with the board. The side center locking portions 133 are interlocked. As a result, in the fitting operation of fitting the wire-side outer casing 11 and the plate-side outer casing 111, it is possible to visually recognize the completion of the fitting of the wire connector 1 and the plate connector 101' easily and reliably from above the plate. Further, the mating operation can be performed easily and reliably, in which the mating state between the wire connector 1 and the board connector 101 can be reliably maintained, the occurrence of incomplete mating can be reliably prevented, and the operation required for the cooperation The space can be reduced. Further, the structure of the wire connector 1 and the board connector 101 is simple, the cost is reduced, the size and height are reduced, and the reliability is increased. Further, there is a base locking mechanism for locking the wire side housing U and the base end of the board side housing U1 together, and a distal locking for locking the wire side housing 11 and the distal end of the board side housing ill together The mechanism in which the center locking mechanism is locked between the base end and the distal end of the wire side outer casing U and the board side outer casing i' and the lever portion 35 holds the distal locking mechanism in a locked orientation in a state in which it cannot be unlocked. Therefore, even if an external force acts on the lock between the distal end locking mechanism 'the wire side outer casing 11 and the distal end of the board side outer casing ill, the lock cannot be unlocked' and thus the cooperation between the electric wire connector i and the board connector 101 is reliably maintained. Further, the 'distal locking mechanism includes a plate-side rotation end locking portion 123 formed on the distal end of the plate-side housing 111; and a wire formed on the distal end of the wire-side housing U and interlocking with the plate-reversing end portion 123 The side rotation end lock portion is 23' in which the operation lever portion 35 prevents the movement of the end portion of the wire side rotation end locking portion 23 by 32 M409605 in the longitudinal direction thereof. Therefore, even if an external force acts on the wire-side rotation end locking portion 23, the interlock with the plate-side rotation end locking portion 123 does not become unlocked, thereby reliably maintaining the cooperation between the wire connector 1 and the board connector 101. It is possible. Further, there is a positioning mechanism for positioning the wire side casing 11 and the panel side casing 111, wherein the positioning mechanism guides the base end of the wire side casing 11 so as to be moved in a direction perpendicular to the mating face of the panel side casing 111, with the panel side The base end of the outer casing 111 is positioned such that the proximal locking mechanism rotatably holds the base end of the positioned wire side outer casing 11 and the base end of the board side outer casing 111, and the distal locking mechanism converts the plate side outer casing 111 and the wire side outer casing The distal ends of the 11 are locked together, and the board side outer casing 111 and the electric wire side outer casing 11 are fitted by rotation about the base end, so that the mating faces become parallel and fitted to each other. Therefore, the fitting operation for fitting the wire-side housing 11 and the board-side housing 111 can be easily and reliably performed 'and enables the cooperation between the wire connector 1 and the board connector 101 to be reliably maintained while reliably Prevents the occurrence of incomplete fit and also reduces the space required for mating operations. It is to be noted that the present invention is not limited to the embodiments set forth above, but may be modified in various ways in accordance with the spirit of the present invention without departing from the scope of the novel. Industrial use possibilities The present invention can be applied to wire-to-board connectors. I: 简单-Simplified Description 3 FIG. 1 is a perspective view showing a wire-to-board connector according to an embodiment of the present invention, wherein (a) is a view of a mating face viewed from a rear diagonal direction, 33 diagonally The figure of the mating surface seen in the line direction is a diagonal view of the mating surface. 2, the perspective of the mating surface of the mating surface of the mating surface of the mating surface viewed from the rear diagonal direction. Auxiliary Hardware for the Device Figure 3 is a perspective view of the board connection in accordance with an embodiment of the present invention. Fig. 5 is a perspective view of a terminal of a board connector according to an embodiment of the present invention. Fig. 5 is a perspective view of a wire connector according to an embodiment of the present invention. Figure π is a perspective view of a rotary operation portion according to an embodiment of the present invention. The towel (4) is a view when viewed from the side opposite to the mating face side, and (b) is a view when viewed from the side of the mating face. Fig. 7 is a perspective view of a wire-side outer casing according to an embodiment of the present invention, wherein (a) is a view when viewed from a side opposite to the mating face side and (b) is a view when viewed from the mating face side. Figure 8 is a cross-sectional view showing a state in which a rotary operation portion is connected to a wire-side housing according to an embodiment of the present invention, wherein (a) is a side sectional view and (b) is a transverse sectional view. 9 is a perspective view showing a state in which a wire-to-board connector is fitted, in which (a) is a view showing a state in which the rotational operation portion is in a non-locking orientation, and (b) is a view according to an embodiment of the present invention. A diagram showing the state of the rotational operation portion in the locked orientation. 34 is a plan view showing a state in which a wire-to-board connector is broken-fit according to an embodiment of the present invention, wherein (a) is a view showing a state in which the rotational operation portion is in a non-locking orientation, and (b) is a diagram A diagram showing the state of the rotational operation portion in the locked orientation. 11 is a transverse cross-sectional view showing a state in which a wire-to-board connector is fitted according to an embodiment of the present invention, wherein (a) is a view showing a state in which the rotational operation portion is in a non-locking orientation, and (b) It is a diagram showing a state in which the rotational operation portion is in the locked orientation. Fig. 12 is a perspective view showing a series of a mating operation of a conventional wire-to-board connector. [Main component symbol description] 1 : Wire connector Η : Wire side case 12. Ceiling portion 12a: Recessed portion 12b for rotation operation: Rotary brake portion 13. Wire side terminal receiving recessed portion 13a: Terminal passage opening 13b : Wire passage opening 14: Main unit portion 15: Shaft receiving portion 15a: Main port portion 15b. Reaming portion 15c: Wide straight portion 35 M409605 16: Cut-away portion 17, 117: Side wall portion 18: Concave for locking Intake portion 18a: center lock receiving portion 18b: rotation operation portion holding portion 21: wire side rotation shaft locking portion 21a: top end portion 22: wire side positioning interlock portion 22a: rod member 23: wire side rotation end locking portion 23a: elastic Arm portion 23b: interlocking projection 23c: operating portion 27a: non-locking azimuth maintaining protruding portion 27b: locking azimuth maintaining protruding portion 30: rotational operation portion 31: disk portion 31a: large diameter portion 31b: small diameter portion 32: orientation The recessed portion 33 is maintained: the wire side center locking portion 33a: the arm portion 33b: the interlocking umbrella portion 35: the operating rod portion 36 M409605 61 : the wire side terminal 62, 1 62: tail portion 63, 163, 183: connecting portion 64, 164, 961a: contact portion 65: interlocking portion 91: electric wire 101, 901: board connector 111: board side housing 112: bottom plate portion 112a: terminal receiving recess Portion 113: mating space 114: terminal protection portion 114a: wire side terminal passage opening 115, 831: rear wall portion 115a: hard body receiving recessed portion 121: plate side rotation shaft locking portion 121a, 123a: interlocking holes 121b, 123b Interlocking beam 121c: rotation permissible hole 121d: interlocking bottom plate portion 122: plate side positioning interlocking portion 123: plate side rotation end locking portion 123c: permissible hole 133: plate side center locking portion 37 M409605 133a: arm portion 133b: Interlocking cover portion 133c: interlocking space portion 161: board side terminal 164a: clamping arm 181: auxiliary hardware 182 for connection: solder tail portion 801: wire connector 811, 911: housing 830: movable member 832 : top plate portion 834 : side end portion 913 : receiving recessed portion 914 : interlocking portion 961 : terminal 961b : contact arm 961c : connecting arm 38

Claims (1)

M409605 VI. Patent Application Range: 1. A wire-to-board connector comprising: (a) a $i% connector having a first terminal connected to the wire and a first casing housing the first terminal; (b) a second connection 'which is mounted on the board, has a second terminal that contacts the first terminal, and a second housing that houses the second terminal and mates with the first housing; further comprising: (c Further comprising a central locking mechanism for locking the first outer casing and the second outer casing; wherein: U) the central locking mechanism comprises a second central locking portion formed on the second outer (four) top end and connected a first central locking portion that interlocks with the second central locking portion; (e) is capable of being visually discernable from above the plate - a rotational operating rod is coupled to the first central locking portion; And (f) the rotary operating rod is maintained by a bearing maintaining device in a locking orientation or in an unlocking orientation in which the first central locking portion interlocks with the second central locking portion, and The non-locking orientation A central locking portion is not interlocked with the second locking center. 2. The wire-to-board connector of claim 1, further comprising: a base end locking mechanism for locking the plurality of base ends of the first outer casing and the second outer casing together, and a distal locking mechanism for locking the plurality of distal ends of the first outer casing and the second outer casing; wherein 39 M409605 the central locking mechanism is locked to the base end of the first outer casing and the second outer casing and Between the distal ends; and the rotational operating rod retains the distal locking mechanism when in the locked orientation such that the locking is not released. 3. The wire-to-board connector of claim 2, wherein: the distal locking mechanism comprises a second distal locking portion formed on the distal end of the second outer casing, and the same a first distal locking mechanism formed on the distal end of the first outer casing that is interlocked by the distal locking mechanism; wherein, in the rotational operating rod, in its locking orientation, in its longitudinal direction One end prevents displacement of the first distal locking portion. 4. The wire-to-board connector of claim 2 or claim 3, further comprising: a positioning mechanism for positioning the first outer casing and the second outer casing; wherein: the positioning mechanism Guiding the base end of the first outer casing to move in a direction perpendicular to a mating face of the second outer casing to be positioned at the base end of the second outer casing; the base end locking mechanism rotatably retaining the first a base end of the outer casing and a base end of the second outer casing; and the distal locking mechanism locks the second outer casing and the distal end of the first outer casing together, the first outer casing having been rotated about the base end, The mating faces are made parallel to each other to thereby fit. 40