TW200527766A - Socket connector - Google Patents

Abstract

A socket connector (100) is provided. The socket connector (100) also enhances as high as possible the strength against the pulling-out of the wires (W). The socket connector (100) comprises a socket housing (110), which is provided with a wire insertion groove (115) that concaves from the bottom face (111) and with a receiving concaved part (116) that interconnects to the wire insertion groove (115) and opens to the bottom face (111), and a socket contact (120), which is inserted into the wire insertion groove (115) and comprises a contacting part (121). The contacting part (121) is arranged in the receiving concaved part (116) to contact the header contact (220). The socket connector (100) also includes an insulation barrel (122) and an insulation displacement slot (123), the socket connector (100) being so arranged that when the end of the wire (W) is pressed into the wire insertion groove (115) and insulation-displacement-connected to the slot (123), the insulation of the wire (W) is gripped by the insulation barrel (122) and the socket connector (100) is connected to the header connector (200) mounted on an object (P) for mounting, the wire insertion groove (115) of the socket housing (110) being blocked by the object (P) for mounting.

Description

200527766 (1) IX. Description of the invention [Technical field to which the invention belongs] The present invention belongs to the technical field of electrical connectors, and relates to a socket connector that can connect plug connectors mounted on the surface of other assembly objects of printed circuit boards. . [Prior Art] Japanese Patent No. 3 2 6 2 7 3 2 discloses that a crimp connector is composed of: a contact member for crimp connection of an electric wire; and the contact members are individually isolated and housed. The contact member storage room is separated by a partition wall and its top and rear ends are opened for pressing the above-mentioned electric wires. The partition walls on both sides of the rear end of the open section are provided as It is formed by the reinforced and uneven insulating shell of the wire locking portion. [Summary of the Invention] When a plug connector is assembled on the surface of a printed circuit board, and the plug connector is connected to a socket connector that has been crimped to the end of a wire, in order to increase the relative strength of the electric coil to be bent and deformed, The reinforcing unevenness is provided as disclosed in Japanese Patent No. 3 2627 32. In this case, since the reinforcing projections are erected from the top of the partition wall of the socket housing in the height direction, the height from the printed circuit board of the socket connector becomes higher, so the connection formed by the plug connector and the socket connector is high. The structural lowness cannot be achieved. In addition, it is also hopeless to increase the relative strength of the so-called pullout of the electric wire in the direction in which it is pulled. -5- 200527766 (2) The present invention is an invention focusing on such a problem, and its purpose is to surround the connection between the socket contact member and the wire with the socket shell and other assembly objects of the printed circuit board. In addition, an insulation tube is provided on the socket contact member to increase the relative strength of the electric coil roll, thereby reducing the connection structure formed by the plug connector and the socket connector without the need to provide reinforcement bumps. . In addition, another purpose is to propose other means of wire retention to maximize the relative strength of the wire pull. To achieve the above object, the socket connector of the present invention is provided with a socket shell and a socket contact member. When a depth direction, a width direction, and a height direction which are orthogonal to each other are specified, the socket shell is provided with The back surface of one end surface in the height direction is recessed toward the surface of the other end surface and is recessed to the front end surface in the depth direction. A connection wire is provided on the back side in the depth direction than the wire insertion groove. Insert the groove and open it on the back side. The receiving recess to be inserted into the plug contact member of the plug connector on the opposite side of the surface of the assembly object; the socket contact member is pressed into the wire insertion groove, A contact portion that is disposed in the receiving recess to contact the plug contact member is provided at an end portion in the depth direction. An end portion in the depth direction and the front side is provided with a plate that is erected approximately in a height direction to insulate the electric wire. An insulation tube covering and clamping is provided between the contact portion and the insulation tube. A slot that is connected to the conductor by cutting the insulation covering of the wire toward the end edge; the structure is such that the end of the wire extending in the depth direction is pressed into the wire insertion groove along the height direction to be crimped into the slot at the same time It is an insulation cover that clamps the wire with an insulation tube. When it is connected to the assembly object, it is set to -6-200527766 (3) When the plug connector is connected, the wire insertion groove of the socket shell is blocked by the assembly object. When the δHai socket is connected to the plug connector provided on the surface of the Yifeng assembly object, the 'plug contact member is inserted into the receiving recess of the socket connector' and the plug contact member is in contact with the socket contact member. In this case, since the socket contact member is pressed into the wire insertion groove, the coupling strength between the socket contact member and the socket shell is high. Next, connect the electric wire to the socket connector. When the socket connector is connected to the plug connector provided on the surface of the assembly object, the electric wire insertion groove of the socket shell is blocked by the assembly object, and becomes the socket contact member and the electric wire. The slot of the connecting part is surrounded by the socket shell and the assembly object, so the coiling force of the wire is blocked in the socket shell or the assembly object, so that the coiling force of the wire does not involve the slot. Therefore, the relative strength of the coil can be improved. In addition, because the insulation tube of the socket contact member is an insulation coating that clamps the wire, the coiling force of the wire is blocked by the insulation tube, so that the coiling force of the wire W does not involve the slot, so the wire can be improved. The relative strength of the loop. Therefore, it is not necessary to provide reinforcing projections and projections, so that the connection structure formed by the plug connector and the socket connector can be reduced. In addition, since the insulation tube of the socket contact member is an insulation coating that clamps the wire, the drawing force of the wire is blocked by the insulation tube, so the relative strength of the wire extraction can be improved. In addition, the insulation tube increases the binding force between the socket contact member and the electric wire, so that the socket contact member and the electric wire will not move relative to each other even if they are coiled or inserted. Therefore, the slot and the wire conductor will not move. The reliability of the connection becomes higher. The socket connector of the present invention is based on a socket shell and an assembly object. 200527766 (4) It surrounds the connection part where the socket contact member is connected to the electric wire, and an insulation tube is provided on the socket contact member to improve the electric wire. Because of the relative strength of the coil, there is no need to provide reinforcement for unevenness. Therefore, the connection structure formed by the plug connector and the socket connector can be reduced. In addition, the relative strength of the extraction of the electric wire can be improved by the insulation tube. Furthermore, since the relative movement of the socket contact member and the electric wire does not occur, the connection reliability between the slot and the electric wire conductor becomes high. The socket connector of the present invention can also be opened on the back side of the wire insertion groove of the socket shell, and is provided with a contact pressure protruding inward in the width direction to be pressed forward from the depth direction between the socket and the bottom surface of the wire insertion groove. The protruding portion of the socket contact member being clamped. In this way, the bottom portion and the protruding portion can restrict the movement of the socket contact member in the height direction, and the relative strength of the electric coil coil in that direction can be increased. The socket connector of the present invention is also a socket contact member. The socket connector is provided with a locking piece standing up from the both ends in the width direction to an almost height direction. The electric wire insertion groove of the socket shell is provided with a supporting surface. The blocking piece is a blocking portion for preventing the socket contact member from moving forward in the depth direction. In this way, since the blocking portion receives the locking piece to prevent the socket contact member from moving forward in the depth direction, it is possible to increase the relative strength of the electric wire extraction. Therefore, it is also possible not to adopt a so-called notch structure in which a locking piece is provided in one of the socket housing and the socket contact member, and a locking hole for hooking the locking piece is provided on the other side. In this way, there are no locking pieces or holes in the socket shell, and the holes formed can be used to make the surface of the socket shell -8-200527766 (5) It is a surface without holes. In addition, the socket shell can be made thin . For this reason, the blocking portion receives the locking piece to prevent the socket contact member from moving forward in the depth direction, so that the relative strength of the electric wire extraction can be improved. In addition, since the surface of the socket shell can be formed as a surface without holes, it is possible to reduce the thickness of the socket shell. The socket connector of the present invention includes a plug connector including a plug housing provided with a receiving chamber that penetrates from a surface that becomes one end surface in the height direction to a back surface that becomes the other end surface and leads to the front end surface in the depth direction; and The sheet-shaped plug contact member is provided on the plug shell so that the plate-shaped contact portion in the width direction protrudes from the depth direction to the inside of the accommodation chamber; the depth-wise inner end of the socket shell is formed to fit in The protruding portion of the accommodating room, the receiving recessed portion is provided on the protruding portion so as to open on the back surface and the rear end surface in the depth direction, and the contact portion of the socket contact member may be provided to contact the end surface in the thickness direction of the plug contact member. In this way, when the plug connector is connected to the socket connector to which the electric wire has been crimped, the protruding portion of the socket shell will fit into the accommodation chamber of the plug shell, and the back of the socket shell will contact the exposed portion of the housing of the plug shell. In the assembly object, the wire insertion groove is blocked by the assembly object. Therefore, an example of a socket connector for connecting a plug connector including a chip-shaped plug contact member to the plug connector cannot be revealed. [Embodiment] [Best Embodiment of the Invention] Hereinafter, examples of the present invention will be described. FIGS. 1 to 7 -9- 200527766 (6) The figure illustrates a socket connector i 0 〇 according to an embodiment of the present invention. First, suppose that there are depth directions, width directions, and height directions that are orthogonal to each other, and then use these directivity to explain. When the situation of this embodiment is described with reference to FIG. 2, the left-right direction of the figure is the depth direction, and the left side of the figure is the depth in the depth direction. The right side is the front of the depth direction. In addition, the vertical direction of the drawing surface is the height direction, and the vertical direction of the drawing is the width direction. The socket connector 100 'includes a socket shell i i 0 made of an insulating material, and a socket contact member 120 provided on the socket shell 1 10, made of a conductive material. The mating connector 200 includes a plug housing 2 1 0 made of an insulating material, and a plug contact member 2 2 0 provided on the plug housing 2 1 0 made of a conductive material. The socket connector 100 and the plug connector 2000 are two-pole type, and although each has two parallel contact members 120 and 220 ′, the socket connector and the plug connection of the present invention are not limited thereto. Number of poles. The plug connector 2 0 0 is assembled on the surface of the assembly object P. The assembling object P is an article having a planar surface in a height direction and an article having a conductor that can be connected to the plug connector 200. The assembly object P includes, for example, a flat flexible cable such as a printed circuit board, FFC (Flexible Flat Cable) or fpc (Flexible Printed Circuit), and a housing of an electronic device. . The term "printed circuit board" used herein refers to a substrate in which the conductor patterns required for connection between parts are formed on the surface of the insulating substrate or formed on the surface and the inside thereof by printing according to the circuit design. In the case of an electronic device, for example, there is a MID (Molded Interconnection -10- 200527766 (7)) which can be used to form a conductive coating on the surface of an insulator.

Device) technology to form a conductor example. In this embodiment, the assembly object P is a printed circuit board, and the plug connector 200 is assembled on the surface of the assembly object P that is the printed circuit board. As shown in FIG. 8, an electric wire insertion groove 1 1 5 is provided in the socket housing 1 10. The electric wire insertion groove 1 1 5 is recessed from the back surface 111 which is one end surface in the height direction to the surface U2 which is the other end surface. And it is recessed to the depth direction and the front end surface 1 1 3. On the back side of the wire insertion groove 1 1 5 which is deeper than the socket housing 1 1 〇, there is provided: a communication with the wire insertion groove 1 1 5 and an opening on the back 1 1 1 for the plug connector 2 0 0 The receiving recess 1 1 6 into which the plug contact member 2 2 0 is to be inserted. The socket contact member 120 is pressed into the electric wire insertion groove 1 15. This press-fitting is, for example, set to a size such that the socket contact member i 2 〇 and the electric wire insertion groove 1 1 5 fit tightly. The socket contact member 1 2 0 is formed by bending a plate of a predetermined shape into a box shape, and the main components are a bottom wall facing the height direction and a side wall standing up from both ends of the bottom wall width direction in the width direction. The socket contact member of the invention is not limited to such a configuration. A contact portion 1 2 1 is provided at an end portion on the deep side of the socket contact member 120 in the receiving recess 1 1 6 to contact the plug contact member 220. In this embodiment, the contact portion 1 is provided. 2 丨 It is formed by a plate that extends from the bottom wall toward the inside from the depth direction and is generally oriented in the height direction. The front end is divided into two directions and is formed into a so-called fork shape. When viewed from the height direction The overall shape is generally U-shaped, but the contact portion of the socket contact member of the present invention is not limited to such a configuration. An electric wire W is provided on the end portion of the socket contact member 丨 20 in the depth direction and the front side for insulation and clamping -11-200527766 (8) Edge tube 1 2 2. The insulating cylinder 1 2 2 is a plate piece which is erected in the height direction from the socket contact member 1 2 0. The orientation of the plate is not limited to this, and it is generally oriented in the width direction. The number of the insulation plate may be clamped by bending the edge of the plate in the width direction to press the insulation covering of the electric wire W, or may be two or more. In this case, the insulating tube 1 2 2 is formed of two sheets of approximately widthwise directions, each of which is erected in the height direction from both ends in the width direction of the bottom wall. Between the contact portion 12 of the socket contact member 12 and the insulating tube, a plate is erected in a substantially height direction. The direction of the plate is fixed, but here it is oriented in the depth direction. The depression in the height direction of the plate is generally U-shaped, and the edge of the recess is formed near the sharp edge to form the slot 1 23, which is configured to cut the cover of the electric wire w to perform the inside of the insulation coating. Connection of the conductor. In this embodiment, the plates of the slots 1 2 3 are erected from the bottom wall in the height direction. When W is pushed into the slot 1 2 3 along the height direction, the slot 1 2 3 will wire the insulation coating of W, so that the conductor contact groove 123 inside the insulation coating reaches the slot 123 and the conductor of the wire W. Mechanically connected. As shown in FIG. 10, the socket connector 100 is configured as an electric wire w extending in the depth direction, and is pressed into the groove 1 1 5 along the local direction, and is crimped into the crimping slot 1 2 At the same time as 3, the insulation covering of the electric wire W is clamped with 1 22, and when the plug connector 200 placed at the assembly object is connected, the electric wire insertion groove of the socket housing 110 is blocked by the assembly object P. It is roughly fixed, but is covered by the inside. The embodiment is roughly composed of 122 and the infinite edge is that the electric wire is cut to the narrow connection and connected by the shape of the insulation package example. The 15 15 is -12- 200527766 (9) As shown in Fig. 5, the opening on the back side of the electric wire of the socket housing 1 10 is provided with a protrusion extending in the width direction so that the protrusion 1 1 7 and the electric wire insertion groove 1 1 The court of 5 uses contact pressure to hold the 1 2 0 pushed forward from the depth direction. In this embodiment, the socket contact wall is held by the bottom surface 1 1 5 a of the protruding portion 1 1 7 1 1 5 with a contact pressure. As shown in FIG. 6 and FIG. 9, the structure of the electric wire insertion groove 1 1 5 of the locking seat shell 1 1 0 which is erected from the widthwise ends of the socket contact structure to the height direction from both ends in the width direction is provided with a sheet 1 2 4 to prevent the socket contact member 1 2 0 from moving toward the depth stopper 118. In the present embodiment, the blocking piece 124 faces the height direction from both ends in the width direction of the bottom wall to the height direction. The blocking portion 1 1 8 is formed by the side surface 1 1 5 b of the electric wire insertion groove 1 1 5. Next, first press the groove 1 15 of the socket contact member 120 into the groove 1 15, and then insert the locking piece 124 slightly in the width direction into the blocking portion 1 1 8. With such a structural point member 120 moving forward in the depth direction, the depth direction of the blocking portion Π 8 is pushed forward to the inwardly facing surface member 1 2 0. Alternatively, the locking piece may be slightly inverted outward in the width direction, and the locking piece 1 2 4 may be elastically deformed when the socket contact member wire is inserted into the groove 1 1 5. The socket connector 1 0 0 is a part 1 1 7 to be connected to the plug connection groove 1 1 5 and constitutes a side piece 1 of the socket contact member and the wire insertion groove member 1 2 0 between 5 sides 1 1 5 a. 2 0, with 1 2 4 pieces. The insert is then held in place in a widthwise direction by blocking. In addition, it is recessed in the width direction and is bent at the outside of the wire insertion so that the socket connection piece 124 is blocked, and the socket contact 124 is set to be 120 pressed into the electricity to be embedded in the blocking connector 200. As shown in -13- 200527766 (10) [2], 'on the plug housing 2 1 ο, is provided from; the surface 2 11 of the i end surface penetrates from the back to the other end surface to the plant direction and the front end surface 2 1 to 3 of the storage room: The member 220 is sheet-shaped, and has a contact member 221 formed in the width direction, and the plug contact member 220 is formed in the plug shell contact 2 2 1 protruding from the depth inwardly. The contact member 220 is provided with a connection portion 222 on the back surface of the plug housing 210 and its peripheral edge. The connection portion 22 2 is attached to the assembly object p. The connection portion 222 may use the surface of the object P, or may be inserted into the assembly object P and welded. This hole does not matter whether it penetrates the assembly object shell Π 〇 in the depth-direction end of the receiving chamber 2 and an outlet portion 119 is formed at the protruding portion 丨! 9 is provided with a receiving recessed portion 1 1 6 which is open toward the rear surface 1 and the end surface 1 1 4. The contact portion 121 configured as 120 is contacted with the contact portions 221 of 220 sandwiched from both sides in the thickness direction. The receiving chamber 214 is formed as a necked portion in the depth direction of the plug housing 2 1 0 and the front end surface 2 1 3. The plug housing 2 10 is provided with a locking portion protruding inward in the necked width direction, and the locking portion can prevent the 100 from falling forward in the depth direction. A lock mechanism for increasing the fitting force when the housing wall 2 1 4 of the plug housing 2 10 of the socket housing 1 10 is projected from the housing room 2 1 10 is provided. The constituting wall of 2 1 4 is provided with a recessed portion serving as the locking portion 2 1 5, and a protruding portion serving as the locking portion Π 9a is provided as the protruding portion 1: a side surface 212 in the direction of consultation and communicated with 2 1 4. The plug contacts 丨 are arranged to face the plate-shaped contacts 22 [2 1 4. The plug is provided so as to be exposed, and the contents p of the hole formed by the assembly pair are welded by welding or the like. The width of the plug contact member on the inner side of the socket contact member in the protruding depth direction for the fitting of the socket 14 is to fit the protrusion 1 1 9 and the outlet 1 1 9 of the socket connector into a narrowed portion in the vicinity. Immediately, in the storage room, the protruding portions 19 are provided and fitted to the storage 14- 200527766 (11) When the rooms 2 1 4 are locked, the locking portions are formed to be fitted with each other by flexibility. The locking mechanism may be formed reversely, that is, a recessed portion may be provided in the protruding portion 1 19, and a protruding portion may be provided in a constituent wall of the storage chamber 2 1 4.

Next, operations and effects of the socket connector 100 of this embodiment will be described. When the socket connector 100 is connected to the plug connector 200 provided on the surface of the assembly object P, the plug contact member 22 0 is inserted into the receiving recess 1 16 of the socket connector 100. The socket contact member 220 will contact the socket contact member 120. In this situation, since the socket contact member 12 is pressed into the wire insertion groove 1 15, the strength of the joint between the socket contact member 12 and the socket shell 1 10 is high. Next, the electric wire W is connected to the socket connector 100, and when the socket connector 100 is connected to the plug connector 2 0 0 provided on the surface of the assembly object P, the electric wire of the socket shell 1 1 0 is inserted into the groove 1 1 5 It is blocked by the assembly object P. Since the vicinity of the slot 1 23 which is the connection portion between the socket contact member 120 and the electric wire W is blocked by the socket shell 1 1 0 and the assembly object P, it is as described above. The winding force Fb of the electric wire W shown in FIG. 4 is blocked by the socket shell 1 1 0 and the assembly object P, so that the winding force of the electric wire W does not involve the slot 1 2 3, so that the electric wire W can be increased. The relative strength of the volume. In addition, since the insulating tube 1 12 of the socket contact member 1 20 is an insulation coating that clamps the wire W, the coiling force of the wire W is blocked by the insulating tube 1 1 2, so that the coiling force of the wire W is not Since the slot 1 2 3 is involved, the relative strength of the W coil of the wire can be improved. Therefore, it is not necessary to provide the reinforcement unevenness, so that the connection structure formed by the plug connector 200 and the socket connector 100 can be reduced. In addition, since the insulation tube 1 22 of the socket contact member 1 20 is an insulation coating that clamps the electric wire W -15- 200527766 (12), the withdrawal force F t of the electric wire w is blocked by the insulating tube 1 2 2 ' The drawing force of the electric wire W is not related to the slot 1 2 3 ′, so the relative strength of the electric wire drawing can be improved. In addition, since the coupling force between the socket contact member 120 and the electric wire W is increased by the insulating tube 1 2 2, the socket contact member 120 and the wire W are not generated even if the wire W is coiled or inserted. The relative relativity moves, so the connection reliability between the slot and the wire conductor becomes high. The present invention is an embodiment including a socket connector in which a wire insertion groove is opened at one side in the height direction and the height direction of the socket contact member is not restricted in the vicinity of the wire insertion groove. However, in the case of the above-mentioned embodiment, the back side of the electric wire insertion groove 1 15 of the socket housing 1 10 is opened at the back side, and is provided with a contact pressure protruding inward in the width direction to be pressed in front of the depth direction between The extension 1 1 7 between which the socket contact member 1 2 0 between the bottom surface 11 5 a of the electric wire insertion groove 1 1 5 is clamped. In this way, the bottom 1 1 5 a and the extension 1 1 7 can limit the movement of the socket contact member 120 in the height direction, and the relative strength of the electric coil coil in this direction can be increased. The present invention is an embodiment including a socket connector without a locking piece and a blocking portion. However, in the embodiment described above, the socket contact member 120 is provided with locking pieces 1 24 standing almost in the height direction from both ends in the width direction, and the electric wire insertion groove 1 1 5 in the socket housing 1 1 0 The component surface is provided with a blocking portion 1 1 8 that prevents the socket contact member 丨 2 0 from moving forward in the depth direction by receiving the locking piece 1 2 4. In this way, since the blocking portion 8 and 8 receive the locking piece 1 2 4 to prevent the socket contact member 1 2 0 from moving forward in the depth direction, the relative strength of the electric wire W extraction can be improved. Therefore, its -16-200527766 (13) can also be formed without adopting: one of the socket shell 1 10 and the socket contact member 1 2 0 is provided with a locking piece, and the other side is provided with the locking piece for hanging The so-called notch structure used for the locking hole. In this way, there are no locking pieces or holes in the socket shell π. The hole formed by the use of the hole can be used to form the surface 1 1 2 of the socket shell 1 1 2 as a surface without holes. In addition, the socket shell 1 1 can also be formed. 〇Become thin. The present invention is an embodiment including a socket connector and a plug connector in which a wire insertion groove configured as a socket shell is blocked by an assembly object when a plug connector provided on a surface of an assembly object is contacted. However, there is an embodiment of a socket connector provided with a locking piece and a blocking portion. However, in the case of the above-mentioned embodiment, the plug connector 2 0 0 ′ includes a plug housing 210 that is provided through a surface 211 that is one end surface in the height direction and penetrates to a back surface 2 1 2 that is the other end surface. The receiving chamber 214 up to the front end surface 2 1 3; and the sheet-shaped plug contact member 220 is provided in the plug housing 2 1 0 so as to face the width-shaped plate-shaped contact portion 22 1 from the depth direction inside Protruding from the receiving chamber 214; a protruding portion 1 1 9 which can be fitted into the receiving chamber 21 4 is formed on the inner side end of the socket housing 110 in the depth direction, and an opening is provided on the protruding portion 1 1 9 on the rear surface 1 1 1 and The receiving recess Η 6 of the end surface 1 1 4 in the depth direction, and the contact portion 1 2 1 of the socket contact member 1 2 0 are end surfaces provided to contact the thickness direction of the plug contact member 220. In this way, when the socket connector 100 to which the electric wire W has been crimped is connected to the plug connector 220, the protruding portion 1 1 9 of the socket housing 1 1 0 is fitted into the receiving chamber 2 1 of the plug housing 2 1 0 4. The back 1 1 1 of the socket housing 1 1 0 will contact the assembly object ρ exposed in the plug housing 2 1 0 receiving room 2 1 4 and the wire insertion groove 丨 1 5 is -17- 200527766 (14) Assembly target Object p is blocked. In addition, in the above-mentioned embodiment, “the socket connector 100 is fitted to the plug connector 2 in the height direction 1 1 9 with the protrusion 邰 19, so there is no need to provide a socket connection at the time of fitting in the assembly object P. The reserved space for moving the device 〇〇 can reduce the assembly area. This is advantageous for assembling the plug connector 200 on the surface of the assembly object p with dense parts, and then connecting the socket connector 100 for this purpose. In addition, as described above, the plug connector 200 is assembled on the surface of the assembly object P with dense parts, and then when the socket connector 100 is fitted, the socket connector 100 is pressed into the height direction, so this The workability is greatly improved compared to the work of pressing in a direction perpendicular to the height such as the depth direction or the width direction. Since the socket connector 100 pulls out the electric wire W from the socket housing 110 in a direction crossing the height direction, it is difficult for the electric wire w to contact the housing even if a housing or the like is disposed so as to face the surface of the assembly object p. As the load on the wire W is reduced, the connection state becomes stable, and the connection formed by the two connectors 100, 200 can be made low. In addition, since the contact portion 1 2 1 of the socket contact member 1 2 0 is formed in a so-called fork shape, the contact portion 2 2 1 of the plug contact member 2 2 0 is contacted from both sides in the thickness direction, so Since the plug contact member 2 2 0 is formed as a socket contact member; the two-point contact of! 2 〇, the reliability of the connection becomes high. In addition, if the contact portion 1 2 丨 is formed in a so-called fork shape, the contact portion 1 2 1 can be formed of a plate material, and thus the thickness of the socket connector 100 can be promoted. The present invention is an embodiment including the features of the above embodiments in combination. 200527766 (15) [Brief description of the drawings] Fig. 1 is a perspective view of the socket connector of the embodiment as viewed from the back side. Fig. 2 is a plan view of the receptacle connector of the embodiment as viewed from the back side. Fig. 3 is a sectional view taken along the line III-III in Fig. 2. FIG. 4 is a cross-sectional view taken along a line IV_IV in FIG. 2. Fig. 5 is a sectional view taken along the line V-V in Fig. 2; Fig. 6 is a sectional view taken along the line VI-VI in Fig. 2. Fig. 7 is a sectional view taken along the line VII-VII in Fig. 2. Fig. 8 is a sectional view of the socket shell of the embodiment. The position of the hatching is the same as that in FIG. 3. Fig. 9 is a perspective view of the socket contact member of the embodiment. Fig. 10 is a perspective view of the socket connector of the embodiment as viewed from the back side with the electric wires connected thereto. Fig. 11 is a perspective view of the socket connector of the embodiment as viewed from the surface side with electric wires connected thereto. Fig. 12 is a perspective view of the plug connector of the embodiment as viewed from the surface side. Fig. 13 is a perspective view of the socket connector of the embodiment when a wire is connected to the plug connector. Fig. 14 is a cross-sectional view of the socket connector according to the embodiment when the electric wire is connected to the plug connector and the plug connector is cut along the plane in the width direction and viewed from the width direction. Fig. 15 is a cross-sectional view of the socket connector according to the embodiment, which is connected to the electric wire and the plug connector so as to be cut in a plane facing the coating direction and viewed from the depth direction. -19- 200527766 (16) [Description of main component symbols] 1 0 0: Socket connector 1 10: Socket shell 1 11: Back 1 1 2: Surface 1 1 3: Depth direction and front end surface 1 1 4: Depth direction End face 1 1 5: Wire insertion groove η 5 a: Bottom surface of the wire insertion groove 1 1 5 b: Side surface of the wire insertion groove 1 1 6: Receiving recess 1 1 7: Protrusion 1 1 8: Stopper 1 1 9: Protruding part 1 19a: Locking part 1 2 0: Socket contact member 1 2 1: Contact part 1 2 2: Insulating tube 1 2 3: Slot 124: Locking piece 2 0 0: Plug connector 2 1 0: Plug housing 2 1 1: Surface-20 200527766 (17) 2 1 2: Back surface 2 1 3: End surface in depth direction and front side 2 1 4: Storage room 2 1 5: Locking part 2 2 0: Plug connection Point member 2 2 1: Contact part 2 2 2: Connection part P: Assembly object W: Electric wire F b: Surrounding force Ft: Withdrawing force -21

Claims (1)

200527766 (1) 10. Scope of patent application1. A socket connector (1 ο 〇), which is characterized by having a socket shell (Π0) and a socket contact member (120). In the depth direction, width direction, and height direction, the socket housing (110) is provided with a recess from the same surface 111 that becomes one end surface in the height direction toward the surface (112) that forms the other end surface and is recessed to the front in the depth direction. The electric wire insertion groove (1 1 5) up to the side end surface (1 1 3) is provided on the inner side of the electric wire insertion groove (1 1 5) deeper than the electric wire insertion groove (1 1 5). The opening is on the back (1 丨 丨), and the receiving recess (116) into which the plug contact member (220) of the plug connector (200) on the opposite side is provided on the surface of the assembly object (P) to be inserted; The point member (1 20) is pressed into the electric wire insertion groove (1 1 5), and an end portion on the inner side in the depth direction is provided with a plug contact member arranged in the receiving recess (1 1 6). (220) The contact portion (1 2 1) for making contact is provided at an end portion of the front side in the depth direction. There is an insulating tube (1 2 2) which clamps the insulation coating of the electric wire (W) for a plate standing approximately in the height direction, and is provided between the contact portion (1 2 1) and the insulating tube (1 2 2). There is a slot (123) formed as a recessed end edge in a height direction of a plate erected approximately in a height direction, and the wire (W) is insulated to connect with the conductor; the structure is: The end of the electric wire (W) extending in the depth direction is pressed toward the electric wire insertion groove (1 1 5) along the height direction to crimp into the slot (1 2 3), and the electric wire is clamped by an insulating tube (1 2 2) (W) insulation bag-22- 200527766 (2) cover, when connecting with the plug connector (200) provided in the assembly object (P), the electric wire insertion groove (11 5) of the socket shell (11 〇) It is blocked by the assembly object (P). 2. The socket connector (100) according to item 1 of the scope of patent application, wherein the back side of the electric wire insertion groove (1 1 5) of the socket housing (110) is opened and is provided to extend inward in the width direction. An extension portion (1 20) for clamping the socket contact member (1 20) pressed forwardly from the depth direction with the bottom surface (1 1 5 a) of the electric wire insertion groove (1 1 5) with a contact pressure. 1 1 7). 3. The socket connector (100) according to item 1 of the scope of the patent application, wherein the socket contact member (120) is provided with locking pieces (124) standing upright from both ends in the width direction toward the height direction. ); It is a component surface of the electric wire insertion groove (1 15) of the socket shell (1 10), and is provided with a retaining locking piece (1 24) to prevent the socket contact member (1 20) from going in the depth direction The forward moving barrier (1 1 8). 4. The socket connector (100) described in the second item of the scope of patent application, wherein: the socket contact member (120) is provided with a locking device standing upright from both ends in the width direction toward the height direction Piece (124); is a component surface of the electric wire insertion groove (Π 5) in the socket shell (11 〇), and is provided with a retaining locking piece (1 24) to prevent the socket contact member (1 2 0) from facing A block (1 1 8) that moves forward in the depth direction. 5. The socket connector (MO) according to any one of the scope of claims 1 or 4, wherein: the plug connector (200) is provided with: a plug housing (2 1 0), which is provided with -23- 200527766 forming one end surface in the height direction (3) The surface (211) penetrates to the back surface (212) forming the other end surface and is a storage room (214) leading to the end surface (2 1 3) in the depth direction and the front side. And, the sheet-shaped plug contact member (220) is a contact portion (22 1) provided in the plug housing (2 1 0) in a width-wise plate shape and protrudes from the depth inside to the accommodation chamber (2 1 4); a protruding portion (1 1 9) which can be fitted into the accommodation chamber (2 1 4) is formed on the inner side end of the socket shell (1 1 0) in the depth direction; and the protruding portion (1 1 9) is provided The receiving recess (1 1 6) with the opening on the back surface (1 1 1) and the end surface (1 1 4) in the depth direction and the contact portion (1 2 1) of the socket contact member (1 20) are provided It is in contact with the end face in the thickness direction of the plug contact member (220). -twenty four-