法国专利FR3030136A1 ELECTRICAL CONNECTION MODULE

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专利摘要:
An electrical connection module includes a first electrical connector, and a second electrical connector, both of which can be coaxially mounted one inside the other. The first electrical connector includes a first housing (11), and a contact terminal (12) housed in a terminal space formed in the first housing (11). The second electrical connector comprises a second housing (21) and a cylindrical terminal (22) fixed in the second housing (21), the cylindrical terminal (22) being manufactured by connecting to each other opposite ends of a electrically conductive sheet in such a manner that the sheet defines a circular cross-section. The contact terminal (12) comprises a resilient contact piece engaging an inner surface of the cylindrical terminal (22). Each of the housings (11, 21) includes a positioning section for bringing the elastic contact piece into contact with the cylindrical terminal (22) on the inner surface other than a zone (2211) through which the ends opposite of the electrically conductive sheet are connected to each other.
公开号:FR3030136A1
申请号:FR1562152
申请日:2015-12-10
公开日:2016-06-17
发明作者:Takayoshi Endo；Sakai Yagi；Shuji Touno
申请人:Dai Ichi Seiko Co Ltd；
IPC主号:

专利说明:

[0001] The present invention relates to an electrical connection module comprising: a first electrical connector having a first housing; and a second electrical connector having a second housing, the first and second housings being mounted to each other to thereby provide a cylindrical terminal attached to the first housing and a contact terminal housed in a terminal space formed in the second housing to be in contact with each other.
[0002] A type of electrical connector (such as a connector to be mounted in an incandescent spark plug acting as an igniter or glow plug in an engine, and a connector used to connect a combustion pressure sensor to a beam of cables) generally comprises a cylindrical male connector. Since the male connector is designed to rotate symmetrically with a female connector, the male connector may be mounted in the female connector, even if the male connector is rotated about its axis in either direction. Therefore, the male connector can be easily mounted in the female connector even if it is handled manually in the dark.
[0003] The type of electrical connector as mentioned above generally comprises an elastic contact piece having a contact portion through which the resilient contact piece is in contact with a cylindrical terminal.
[0004] Fig. 32 is a perspective view of a conventional electrical connector disclosed in Japanese Patent Application Laid-open No. 199735825. The illustrated electrical connector comprises a bad connector 1000 and a female connector 1010.
[0005] The evil connector 1000 comprises: a cylindrical plug insulator 1001; and a plurality of contacts 1002 disposed on an outer surface of the plug insulator 1001 such that a distance from a distal end of the plug insulator 1001 to each of the contacts 1002 is different from the others. The female connector 1010 is formed with a hole 1011 in which the wrong connector 1000 can be mounted. The female connector 1010 includes a plurality of circular female contacts 1012 formed on an inner surface of the hole 1011. Each of the circular female contacts 1012 consists of a thin plate having a wire. Each of the circular female contacts 1012 has an inside diameter 15 smaller than a diameter of the hole 1011. Fig. 33 is a perspective view of the contact 1002. The contact 1002 is in the form of an arc, and has a boss 1002a formed on it centrally. The boss 1002a makes a point contact at its apex with the female contact 1013 of the female connector 1010. FIG. 34 is a perspective view of an electrical connector disclosed in Japanese Patent Application Laid-open No. 2007 -521181, and Figure 35 is a sectional view thereof.
[0006] The illustrated electrical connector comprises: a connector 1110 and; an inflation device 1120. The inflation device 1120 is actuated by the connector 1110, and comprises a starting device (not shown) having a single central pin 1122, and a receiver 1121 in which the connector 1110 is held. The connector 1110 comprises a plurality of ribs 1111 to be engaged with a groove 1123 disposed in the receiver 1121. The ribs 1111 allow the connector 1110 to be engaged in the receiver 1121 at a plurality of angles, and to prevent the connector 1110 from being engaged. to rotate relative to the inflation device 1120 after the connector 1110 has been assembled with the inflator 1120.
[0007] When the connector 1110 is connected to the inflation device 1120, an axis portion of a head of the connector 1110 is in contact with a cylindrical skirt of an inlet opening 1124, and further electrically connects the cylindrical skirt of the the inlet opening 1124 to the center pin 1122 which is in the form of a needle. Apart from the conventional electrical connectors illustrated in FIGS. 32 to 35, there is known an electrical connector comprising: a first electrical connector having a first housing; and a second electrical connector having a second housing. A cylindrical terminal disposed in the first housing and a resilient contact piece housed in a contact terminal disposed in the second housing are in contact with each other when the first and second electrical connectors are mounted to each other. 'other. The cylindrical terminal is made by rounding an electrically conductive sheet, and joining opposite ends of the sheet to one another so that the sheet defines a circle.
[0008] When the first and second housings are mounted one inside the other, the elastic contact piece can contact an area through which the opposite ends of the sheet are connected to each other. . The zone is formed with a bearing or bearings when the opposite ends of the sheet are connected to each other. As a result, the contact terminal can be scratched or damaged by the bearing / bearings when the first and second housings are mounted one inside the other.
[0009] On the other hand, if one of the first and second electrical connectors rotates about its axis due to oscillation and / or shock, while the first and second electrical connectors are mounted one to the other. other, the contact terminal slides over the above-mentioned area, with the result that the contact terminal can be worn and / or deformed. Thus, there is a risk that there will be a fault in the electrical connection between the first and second electrical connectors.
[0010] Due to the above-mentioned problems, an object of the present invention is to provide an electrical connection module capable of allowing a contact terminal to contact a cylindrical terminal without being damaged and / or deformed so as to to thus provide increased reliability to the electrical connection between the contact terminal and the cylindrical terminal. A first aspect according to the present invention provides an electrical connection module, comprising: a first electrical connector; and a second electrical connector, the first electrical connector and the second electrical connector both being coaxially mounted within each other, wherein: the first electrical connector comprises: a first housing; and a contact terminal housed in a terminal space formed in the first housing; the second electrical connector comprises: a second housing; and a cylindrical terminal secured in the second housing, the cylindrical terminal being made by connecting opposite ends of an electrically conductive foil in such a manner that the foil defines a circular cross section; the contact terminal comprises a resilient contact piece engaging an inner surface of the cylindrical terminal; and each of the first housing and the second housing comprises a positioning section for bringing the resilient contact piece into contact with the cylindrical terminal on the inner surface other than an area through which the opposite ends of the sheet electrically conductive are connected to each other. In the electrical connection module according to the present invention, the positioning section 10 positions the first and second housings relative to each other when they are mounted one inside the other, ensuring that the workpiece The resilient contact may engage the cylindrical terminal at the inner surface other than an area through which the opposite ends of the sheet are connected to each other. A second aspect according to the present invention provides, in addition to the first aspect, that the locating section is formed with a protrusion and a recess mountable on the protrusion; one of the protrusion and recess is formed on a first surface selected from an inner surface and an outer surface of the first housing; and the other of the projection and recess is formed on a second surface of the second housing, the second surface being selected from an inner surface and an outer surface of the second housing in such a manner that the second selected surface is in contact with the first surface. For example, a protrusion is formed on an outer surface of the second housing, a recess is formed on an inner surface of the first housing. By mounting the projection in the recess when the second housing is mounted in the first housing, the first and second housing can be positioned relative to each other. A third aspect according to the present invention provides, in addition to the first aspect, that the positioning section is formed with a plurality of projections and a plurality of recesses mountable to the plurality of projections; a part of the plurality of projections and the plurality of recesses is formed on a first surface selected from an inner surface and an outer surface of the first housing; the others of the plurality of projections and the plurality of recesses are formed on a second surface of the second housing, the second surface being selected from an inner surface and an outer surface of the second housing in a manner such that the second surface selected is in contact with the first surface; and the plurality of projections and the plurality of recesses are radially disposed about at least one of an axis of the first housing and an axis of the second housing. By designing the projections and recesses to be arranged radially around the axes of the first and second housings, even if one of the first and second housings is mounted in the other with any rotational angle, one of the first and second second housings can be mounted in the other with a rotation angle in which one of the projections aligns with one of the recesses. A fourth aspect according to the present invention provides, in addition to the first aspect, that the positioning section is positioned to cause the cylindrical terminal and the resilient contact piece to come into contact with each other once one of the first housing and the second housing is mounted in the other so as to be so positioned relative to each other. One of the first and second housings is mounted in the other. The positioning section positions the first and second housings to thereby allow the resilient contact piece to contact the cylindrical terminal. Thus, one of the first and second housings can be mounted in the other in each direction of rotation without limitation of an angle of rotation relative to each other. Furthermore, since the resilient contact pieces are in contact with the cylindrical terminal once the first and second housings have been positioned relative to each other, the first and second housings are prevented from rotating one by Relative to each other when the elastic contact pieces are actually in contact with the cylindrical terminal. Therefore, it is possible to prevent the elastic contact piece from being scratched by the above-mentioned area of the cylindrical terminal due to mutual rotation of the first and second housings relative to each other . Thus, the resilient contact piece can be prevented from being damaged and / or worn. A fifth aspect according to the present invention provides, in addition to the third aspect, that a first set consists of the plurality of projections; a second set consists of the plurality of recesses; one of the first set and the second set is formed every M locations from 360 / N locations; N indicates any central angle; and M 30 indicates a positive integer and is smaller than 360 / N. A sixth aspect according to the present invention provides, in addition to the fifth aspect, that the other of the first set and the second set is formed each central corner; S denotes an integer not smaller than two; and S x 360 / N is not greater than M. For example, N is nine; M is 5; and S is equal to three. The advantages obtained by the present invention mentioned above will be described below. In the electrical connection module according to the present invention, the resilient contact piece can contact the cylindrical terminal on the inner surface of the cylindrical terminal other than an area through which the opposite ends of the sheet are connected to each other. Thus, it is possible to allow the contact terminal to contact the cylindrical terminal without being damaged and / or deformed, providing increased reliability of the connection between the first and second housings. Fig. 1 is a perspective view of a first electrical connector in a preferable embodiment according to the present invention; Figure 2 is a front view of the first electrical connector shown in Figure 1; Figure 3 is a perspective view of a connector terminal; Fig. 4 is a side view of the connector terminal shown in Fig. 3; Figure 5 is a partial sectional view of the connector terminal shown in Figure 4; Fig. 6 is a front view of the connector terminal shown in Fig. 3; Fig. 7 is a side view of the connector terminal shown in Fig. 4, showing that the elastic contact piece is raised, resulting in the resilient contact piece protruding out of a terminal body; Fig. 8 is a front view of the connector terminal shown in Fig. 7; Fig. 9 is a perspective view of a projecting terminal shown in Fig. 1; Fig. 10 is a perspective view of a second electrical connector in the preferred embodiment according to the present invention; Fig. 11 is a front view of the second electrical connector shown in Fig. 10; Fig. 12 is a perspective view of a first cylindrical terminal in the second electrical connector shown in Fig. 10; Fig. 13 is a perspective view of a second cylindrical terminal of the second electrical connector shown in Fig. 10; Fig. 14 is a sectional view showing a state where the first connector terminal shown in Fig. 1 and the second connector terminal shown in Fig. 10 are fitted together; Fig. 15 is a perspective sectional view showing a state where the first connector terminal shown in Fig. 1 and the second connector terminal shown in Fig. 10 are fitted together; Fig. 16 is a perspective sectional view showing a state where the first connector terminal shown in Fig. 1 and the second connector terminal shown in Fig. 10 are fitted to each other as a result of Figure 15; Fig. 17 is a sectional view showing a state where the first connector terminal and the second connector terminal shown in Fig. 14 are fitted to each other; Fig. 18 is a partially enlarged sectional view showing a state where the first connector terminal and the second connector terminal shown in Fig. 15 are fitted with each other; Fig. 19 is a partially enlarged sectional view showing a state shifted with respect to the state where the first connector terminal and the second connector terminal are fitted to each other in Fig. 18; Fig. 20 is a partial sectional view showing a state of contact between the first connector terminal in Fig. 3 shown in Fig. 3 and the first cylindrical terminal shown in Fig. 12; Fig. 21 is a perspective view showing a state of contact between the first connector terminal in Fig. 3 shown in Fig. 3 and the first cylindrical terminal shown in Fig. 12; Fig. 22 is a partial sectional view showing a state of contact between the first connector terminal and the first cylindrical terminal shown in Fig. 21; Fig. 23A is a partial sectional view of a terminal space in which the connector terminal shown in Fig. 3 is inserted; Fig. 23B is a partial sectional view of a terminal space in which the resilient contact piece extends over a raised portion following Fig. 23A; Fig. 24 is a side view of the connector terminal comprising a variant resilient contact piece; Fig. 25 is a bottom view of the connector terminal illustrated in Fig. 24 in the variant; Fig. 26 is a partial sectional view showing the connector terminal shown in Fig. 3, showing a state before being inserted into a terminal space; Fig. 27 is a partial sectional view showing the connector terminal shown in Fig. 3, showing a state after being inserted into a terminal space following Fig. 26; Fig. 28 is a partial sectional view of the connector terminal illustrated in Fig. 3 in a first variant, showing a state before being inserted into the terminal space; Fig. 29 is a partial sectional view of the connector terminal, showing a state after being inserted into the terminal space following Fig. 28; Fig. 30 is a partial sectional view of the connector terminal shown in Fig. 3 according to the second variant, showing a state before being inserted into the terminal space; Fig. 31 is a partial sectional view of the connector terminal, showing a state after being inserted into the terminal space following Fig. 30; Figure 32 is a perspective view of a conventional electrical connector; Fig. 33 is a perspective view of a portion of the electrical connector shown in Fig. 32; Fig. 34 is a perspective view of another conventional electrical connector; and Fig. 35 is a sectional view of the electrical connector shown in Fig. 34.
[0011] A connector terminal according to the first embodiment of the present invention will be explained above with reference to the drawings.
[0012] In the description, with respect to the terms "front and back," the word "front" means a side through which the two electrical connectors are inserted into each other, and the term "back" means the opposite side to "before".
[0013] A first electrical connector 10 illustrated in FIG. 1 and a second electrical connector 20 illustrated in FIG. 10 may be used to connect different types of sensors to a bundle of cables, for example. The second electrical connector 20 is the connector terminal according to the present invention. First, the first electrical connector 10 is explained below with reference to FIGS. 1-9. As illustrated in FIGS. 1, 2 and 14, the first electrical connector 10 comprises: an outer housing 11 (FIG. a first housing) in which the second electrical connector 20 illustrated in Figure 10 is mounted; a plurality of first contact terminals 12 (connector terminals) through which the first electrical connector 10 is electrically connected to the second electrical connector 20; and a projecting terminal 13 through which the first electrical connector 10 is electrically connected to the second electrical connector 20. The outer housing 11 is cylindrical in shape.
[0014] The outer housing 11 is comprised of a first member 111 and a second member 112. The first member 111 includes a cowl portion 111a at a rear end of the outer case 11. The cowl portion 111a protects a connector by 3030136 13 through which cables C are connected to terminals (the first contact terminals 12 and the projecting terminal 13), and encloses a seal 124 (see Figure 3). The first element 111 further comprises a first axis 114 provided with a terminal space R1 in which the projecting terminal 13 is to be inserted. The first axis 114 extends coaxially with a central axis L1 of the outer housing 11. As shown in FIG. 15, the first axis 114 is designed to have three stages each having a diameter that increases towards a proximal end from a open end. More specifically, the first axis 114 comprises: a front end stage; an intermediate stage; and a rear end stage, in which the front stage has a diameter smaller than that of the intermediate stage, and the intermediate stage has a smaller diameter than the rear end stage. A guide hole 114a extending axially with respect to the first axis 114 to lead to the terminal space R1 is formed in the first axis 114. The first member 111 comprises: a peripheral wall portion 111c provided with a space terminal R2 between itself and the first axis 114 to allow the first contact terminals 12 to be inserted therein; and a locking member 111f through which the first member 111 is engaged in the second member 112. The second member 112 is cylindrical, and a first mounting hole 115 between the first axis 114 and 30 itself is formed when connected to the first element 111. The second electrical connector 20 (see Figure 16) is mounted in the first mounting hole 115 thus formed.
[0015] As illustrated in FIG. 2, a plurality of linear grooves 111g disposed radially of the central axis L1 of the outer housing and extending in a longitudinal direction F1 of the first electrical connector 10 is formed on a surface. In the second member 112 of the first embodiment, the linear grooves 111g are formed on the inner surface of the first mounting hole 115 at five of nine spaced apart locations. from each other 40 degrees central angle. As illustrated in FIG. 14, a ring-shaped seal member 113 is provided within a coupling portion between the first member 111 and the second member 112 illustrated in FIG. As illustrated in FIGS. 2 and 14, each of the first contact terminals 12 is disposed on an outer surface of the first axis 114 parallel to a central axis of the first axis 114. In the front view of the first mounting hole 115, the first contact terminals 12 are peripherally equidistant from each other about the first axis 114. In the first embodiment, the first three contact terminals 12 are disposed according to the three diameter stages of the first axis 114 to 120 degrees of central angle of the outer housing 11. As illustrated in FIGS. 3 to 6, each of the first contact terminals 12 comprises: an electrically resilient contact piece electrically conductive element 121 formed by having a metal part bent into a U shape; a first terminal body 122 to be inserted into the terminal space R2 (see Fig. 14); and an assembly portion 123 on which a cable C1 is compressed.
[0016] A first end 1211 of the resilient contact piece 121 is secured integral with a bottom wall 1221 of the first terminal body 122. The resilient contact piece 121 extends from the bottom wall 1221 and forms a folded portion U-shaped 1212 at its end. The resilient contact piece 121 further extends within the first terminal body 122 and terminates at a second end 1213 of a free end.
[0017] The resilient contact piece 121 has a workpiece acting as a contact portion 1214 through which the resilient contact piece 121 contacts a first cylindrical terminal mentioned later. The contact portion 1214 has an arc 15 having an outer surface along an arcuate peripheral surface of a first cylindrical terminal mentioned later. A plurality of thin projections 1214a is formed in the contact portion 1214. In the first embodiment, two projections 1214a are formed. The projections 1214a are disposed on the resilient contact piece 121 in a direction F3 (a width direction of the resilient contact piece 121) perpendicular to the central axis L1 of the first cylindrical terminal.
[0018] Between the first end 1211 and the folded portion 1212 is formed a first curved portion 1215. The first curved portion 1215 folds the folded portion 1212 to the bottom wall 1211. In an initial condition of the resilient contact piece 121, the curved portion 1215 in the first embodiment is folded in such a way that a rising portion from the first end 1211, which is in continuity with the bottom wall 1221, to an opening 1222a rotates towards the lower wall 3030136 16 1221, which is the opposite side of the opening 1222a. In the initial condition, the folded portion 1212 protrudes out of the bottom wall 1221 of the first terminal body 122, and the contact portion 1214 does not protrude out of the opening 1222a formed at an upper wall 1222 of the first terminal body 122. At the second end 1213 of the resilient contact piece 121 is formed a second curved portion 1216 having a convexity towards the bottom wall 1221. As illustrated in FIG. 3, the first terminal body 122 is designed to be hollow and to have a rectangular cross section. The first terminal body 122 is formed at the side wall 1223 with a hook 1224. The hook 1224 is formed by forming a cutting line around a portion of the side wall 1223, and tilting outwardly. wall. As shown in Fig. 26, the hook 1224 prevents the first contact terminal 12 from being output from the terminal space R2 once the first contact terminal 12 has been inserted into the terminal space R2 (see Fig. 14) of the outer housing 11. As shown in Figs. 3, 26 and 27, the hook 1224 has an open end 1224b defining a slope 1224c inclining with respect to the side wall 1223 so that that the open end 1224b is farthest from the side wall 1213. In addition, the slope 1214c has a width which varies in a longitudinal direction of the first contact terminal 12 so that the width is at the maximum from the open end 1224b. The hook 1224 comprises: a first inclined portion 1224m extending from the first terminal body 302 122 with a first inclination angle with respect to the first terminal body 122; and a second inclined portion 1224n inclining outwardly from the first terminal body 122 with a second inclination angle greater than the first inclination angle with respect to the first terminal body 122, and defining the slope 1224C. As shown in FIG. 4, the assembly portion 123 compresses the cable Cl above to secure it. The joining portion 123 comprises an insulation body 123a and a wire body 123b. The first contact terminal 12 further comprises a seal 124 in which the cable C1 is inserted at the rear of the assembly portion 123.
[0019] The protruding terminal 13 shown in FIG. 14 is housed in the terminal space R1 formed at a proximal end of the first axis 114, and is in contact with a later second cylindrical terminal of the second electrical connector 20. As illustrated in FIG. 9, the projecting terminal 13 comprises: a contact portion 131; a second terminal body 132; and an assembly portion 133. The contact portion 131 comprises: a plurality of contact pieces 131a spaced equally from each other; a pair of C-shaped link members 131b disposed at distal and proximal ends of the contact pieces 131a; and a cone portion 131d in the continuity of the connecting member 131b located at the open ends of the contact pieces 131a.
[0020] The second terminal body 132 is hollow and has a rectangular cross-section. The connecting part 133 compresses the cable Cl above to fix it. The joining portion 133 comprises: an insulating body 133a; and a wire body 133b.
[0021] A structure of the second electrical connector 20 is explained below with reference to Figs. 10 to 14. As shown in Figs. 10, 11 and 14, the second electrical connector 20 comprises: an inner housing 21 to be mounted in the first electrical connector 10 illustrated in Figure 1; a first cylindrical terminal 22 capable of electrically connecting to the first contact terminals 12 of the first electrical connector 10; and a second cylindrical terminal 23. The inner case 21 comprises a peripheral wall portion 212 in a front half of the inner case 21. The peripheral wall portion 212 defines a second attachment hole 211 in which the first axis 114 of the first connector electrical 10 (see Figure 1) is mounted. The second fastening hole 211 is made up of a plurality of stages each having an inner diameter which progressively decreases from an open end towards the rear. The peripheral wall portion 212 has an outer peripheral surface 212a in contact with an inner surface of the first mounting hole 115 when the first electrical connector 10 is mounted in the first mounting hole 115 of the second electrical connector 20.
[0022] A front half of the peripheral wall portion 212 is a cylindrical portion 212b on which no protrusion is formed. Three linear protrusions 212c each extending in a longitudinal direction of the second electrical connector 20 are formed at a rear half of the peripheral wall portion 212 radially and about an axis L2 (see Fig. 10) of the housing. In the first embodiment, the linear projections 212c are equally spaced from each other in a peripheral direction F4, i.e. are arranged at 120 degrees central angle. . A second axis 213 extends into the second fastening hole 211. The second axis 213 is cylindrical in shape, and includes the second cylindrical terminal 23 disposed therein. The first cylindrical terminal 22 is coaxial with the second axis 213, and is secured to an inner surface of the second fastening hole 211 of the inner housing 21 with a contact surface 2212 that is exposed to the outside. As illustrated in FIG. 12, the first cylindrical terminal 22 comprises: a cylindrical contact portion 221; and a linear connector portion 222.
[0023] The contact portion 221 contacts the resilient contact piece 121 of the first contact terminal 12 (see FIG. 3). The contact portion 221 is formed by connecting opposite ends of electrically conductive sheets to one another via a joining portion 2211. For example, a first end 2211a is adapted to have a projection, and a second end 2211b is adapted to have a recess. By mounting the projection in the recess and securing them to each other, the ends 2211a and 2211b are connected to each other. Since the joining portion 2211 is defined by the combination of the projection and recess mentioned above, the joining portion 2211 has a length extending between the proximal and open ends of the contact portion 221, and a width equal to a length of the projection or recess. As illustrated in FIG. 14, the second fastener hole 211 of the inner housing 21 defines three stages each having a different inner diameter. More specifically, a first stage near an open end of the second fastener hole 211 has a larger inside diameter, a third stage farthest from an open end of the second fastener hole 211. has a smaller inner diameter, and a second stage which is between the first and third stages has an inner diameter smaller than an inner diameter of the first stage, but larger than an inner diameter of the third stage. The second electrical connector 20 comprises three first cylindrical terminals 22, each of which is disposed on an inner surface of each of the first to third stages defined in the second fastening hole 211 of the inner case 21. The contact portion 211 of the first terminal cylindrical member 22 disposed on an inner surface of the first stage has the largest inside diameter of the contact portions 211 of the first three cylindrical terminals 22, the contact portion 211 of the first cylindrical terminal 22 disposed on an inner surface of the third floor has a smallest inside diameter among the contact portions 211 of the first three cylindrical terminals 22, and the contact portion 211 of the first cylindrical terminal 22 disposed on an inner surface of the second stage with an inside diameter between the inner diameters bigger and smaller. The connecting portion 222 extends rectilinearly from the contact portion 221 to a rear end of the inner housing 21, and has an open end exposed out of the inner housing 21 and to be connected to an electronic card (not shown). . The connecting portion 222 is formed with a hook 2221 for preventing the first cylindrical terminal 22 from being output from the inner housing 21. As shown in FIGS. 10, 11 and 14, the second cylindrical terminal 23 is housed in the second axis 213. The second cylindrical terminal 23 has an open end through which the projecting terminal 13 is inserted therein. The second cylindrical terminal 23 extends outwardly beyond the second axis 213, and is thus exposed at an open end out of the second provided 213 of axis 213. The second cylindrical terminal 23 is axis to come in close contact with the second way to be integrated with. As illustrated in FIG. 13, the second cylindrical terminal 23 comprises: a cylindrical portion 231; a constricted portion 232, a closed section 233; and an L-shaped connecting portion 234. The constricted portion 232 is at the rear of the cylindrical portion 231, and has a reduced thickness in a direction in which the connecting portion 234 extends. More specifically, the constricted portion 232 has a width (a length in a first direction A1) equal to a diameter of the cylindrical portion 231, and has a thickness (a length in a second direction A2 perpendicular to the first direction A1) which progressively decreases in a longitudinal direction of the second cylindrical terminal 23 from a diameter equal to that of the cylindrical portion 231. As a result of reducing a thickness, the constricted portion 232 is finally flat. The closed section 233 is at the rear of the constricted portion 232 and at a proximal end of the second cylindrical terminal 23. The closed section 235 has a width (a length in the Al direction) greater than 3030136. that of the constricted portion 233. In addition, the closed section 233 has a thickness smaller than a diameter of the cylindrical portion 231 and a width greater than a diameter of the cylindrical portion 231.
[0024] The L-shaped connecting portion 234 is in the continuity of the closed section 233. The connecting portion 234 comprises a plate-shaped portion 234a bending perpendicular to the closed section 233, and furthermore, bending perpendicularly to be parallel to the cylindrical portion 231; and a needle portion 234b extending outwardly from an open end of the plate portion 234a.
[0025] The manner in which the first and second electrical connectors 10 and 20 configured as mentioned above are used is explained below with reference to FIGS. 15 to 20. As illustrated in FIG. first electrical connector 10 and the second electrical connector 20 are brought to approach one another. Then, an open end of the peripheral wall portion 212 (of the inner housing 21) is aligned with the first mounting hole 115 of the outer housing 11, and an open end of the second axis 213 (of the inner housing 21) is also aligned. with the guide hole 114a (of the first axis 114). The peripheral wall portion 212 (of the inner housing 21) is then advanced in the longitudinal direction Fl of the first mounting hole 115, and the second axis 213 (of the inner housing 21) is also advanced in the longitudinal direction Fl (of the hole guide 114a).
[0026] As shown in Fig. 16, a front half of the peripheral wall portion 212 (of the inner housing 21) is the cylindrical portion 212b on which no protrusion is formed (see Fig. 10).
[0027] Therefore, when only the front half of the peripheral wall portion 212 is inserted into the first mounting hole 115 (of the outer housing 11), the linear projections 212c (of the inner housing 21) are not yet mounted in the grooves. linear 111g (of the outer casing 11). Thus, a user can mount the outer housing 21 in the inner housing 11 with one of them rotated about its axis. A user can advance the inner housing 21 relative to the outer housing 11 without particular attention to a direction of rotation. After the state of Fig. 16, the peripheral wall portion 212 of the inner housing 21 is fully advanced into the first mounting hole 115 of the outer housing 11, and the linear projections 212c of the peripheral wall portion 212 are then mounted. in the linear grooves 111g of the outer casing 11, and the outer casing 11 and the inner casing 21 are thus positioned relative to each other. Therefore, the outer and inner housings 11 and 21 can not rotate relative to each other. On the other hand, when the peripheral wall portion 212 is fully advanced into the first mounting hole 115, the projecting terminal 13 is inserted into the second cylindrical terminal 23 to make contact therewith. In addition, each of the first cylindrical terminals 22 of the second electrical connector 20 is in contact with the elastic contact piece 121 of each of the first contact terminals 12 of the first electrical connector 10.
[0028] As mentioned above, the linear grooves 111g of the outer housing 11 and the linear projections 212c of the inner housing 21 constitute a positioning unit. The positioning unit is formed by inserting the inner housing 21 into the outer housing 11. Once formed, the positioning unit prevents relative rotation between the inner housing 21 and the outer housing 11 in a position where the first terminals cylindrical 22 and the elastic contact parts 121 are in contact with each other. That is, at the beginning of the insertion, the second electrical connector 20 may act as an electrical connector that can freely rotate relative to the first electrical connector 10 about a direction of insertion. Once the positioning unit of the outer casing 11 and the inner casing 21 has been formed, the first cylindrical terminals 22 are in contact with the elastic contact pieces 121. That is, when the first cylindrical terminals 22 are in contact with the elastic contact parts 121, the relative rotation between the inner housing 21 and the outer housing 11 has already been prevented. As a result, the cylindrical contact portion 221 (of the first cylindrical terminal 22) and the resilient contact piece 121 (of the first contact terminal 12) are neither worn nor damaged by the relative rotation between the first and second connectors. Although an axis of the second cylindrical terminal 23 is deflected with respect to an axis of the projecting terminal 13, there is no problem for the following reason. That is, when the projecting terminal 13 begins to be mounted in the second cylindrical terminal 23, the contact portion 131 slides on an inner surface of the second cylindrical terminal 23. Slip automatically corrects a posture of the contact portion 131 of the projecting terminal 13. However, the projecting terminal 13 is housed in the terminal space R1 with a space between the projecting terminal 13 and an inner surface of the first axis 114 and, furthermore, is blocked by the hook 134. Therefore, even if the posture of the contact portion 131 is corrected by the second cylindrical terminal 23, the second terminal body 132 of the projecting terminal 13 can be shifted, in the terminal space R1, to a new axial direction in which the position of the contact portion 131 is corrected. Therefore, the projecting terminal 13 can be moved to follow the new axial direction of the second cylindrical terminal 23. As shown in FIG. 14, by further inserting the second electrical connector 20 into the first electrical connector 10, the portion peripheral wall 212 of the inner housing 21 is fully mounted in the first mounting hole 115 of the outer housing 11, the first axis 14 of the outer housing 11 is fully mounted in the second fixing hole 211 of the inner housing 21, and the second pin 213 of the inner housing 21 is fully mounted in the guide hole 114a of the first axis 114. In this situation, each of the first contact terminals 12 disposed on an outer surface of the first axis 114 is in contact with each of the contact portions 221 first cylindrical terminals 22 30 disposed on an inner surface of the inner housing 21. And the a contact portion 131 of the projecting terminal 13 is inserted in the cylindrical portion 231 of the second cylindrical terminal 23 to come into contact with.
[0029] The first and second electrical connectors 10 and 20 are thus mounted with each other. The first contact terminals 12 are provided on an outer surface of the first axis 114 coaxially with a central axis of the first axis 114. The first cylindrical terminals 22 are provided on an inner surface of the inner housing 21 coaxially with the second axis 213. Thus, when the first axis 114 and the second axis 213 are mounted one inside the other, the first contact terminals 12 may be in stable contact with the first cylindrical terminals 22. Another positioning unit for positioning the The outer and inner housings 11 and 21 in a peripheral direction when they are mounted in each other as they rotate relative to each other is explained below. As illustrated in FIGS. 17 and 19, the aforementioned positioning unit consists of: the linear grooves 111g of the outer housing 11; and the linear protrusions 212c of the inner housing 21. As previously mentioned, when the peripheral wall portion 212 shown in FIG. 10 is inserted only at a front half thereof in the first mounting hole 115 of the outer casing 11, the linear projections 212c of the inner casing 21 have not yet been mounted in the linear grooves 111g of the outer casing 11. The outer and inner casings 11 and 21 can thus be mounted in one another. other while turning one of them 11 and 21 relative to the other. As shown in Fig. 17, once the linear protrusions 212c have been mounted in the linear grooves 111g, the outer and inner housings 11 and 21 are positioned with respect to a direction of rotation, and therefore can not not rotate around an axis relative to each other. The linear protrusions 212c and the linear grooves 111g cause the elastic contact pieces 121 of the first contact terminals 12 to come into contact with the contact surface 2212 other than the joining portion 2211. In FIGS. 17 and 18, the first 10 contact terminal 12 which is at an open end of the first axis 114 (of the first electrical connector 10) is in contact with the first cylindrical terminal 22 which is at the deepest position of the second hole of the fixing 211.
[0030] As illustrated in FIGS. 10 and 11, the three linear protrusions 212c are disposed on the outer peripheral surface 212a of the inner housing 21 at 120 degrees central angle. As illustrated in FIG. 2, the five linear grooves 111g are formed at an inner surface of the first mounting hole 115 of the outer housing 11. Therefore, the outer and inner housings 11 and 21 can be mounted on the outside. 1 in the other when the three linear projections 212c of the inner housing 21 are aligned with three of the five linear grooves 111g of the outer housing 11. In FIGS. 17 and 18, the joining portion 2211 (of the first cylindrical terminal 22 ) is located near one side (a left side in Fig. 17) of the first contact terminal 12, and the projections 1214a of the resilient contact piece 121 are in contact with the contact surface 2212 of the first terminal The outer casing 11 is rotated counterclockwise by 40 degrees, which is an angular gap between the adjacent linear grooves 111g, relative to each other. with the condition shown in Fig. 17. Since the first contact terminal 12 is housed in the terminal space R2 of the outer housing 11, the first contact terminal 12 is rotated with the outer housing 11. As a variant, the housing Inside 21 is turned clockwise by 40 degrees. Since the first cylindrical terminal 22 is fixed to the inner housing 21, the first cylindrical terminal 22 is rotated with the inner housing 21. The turned linear projection 212c is inserted into a (right in FIG. 17) of the linear grooves 111g ( see Figs. 19 and 20) which is adjacent to another of the linear grooves 111g in which the linear projection 212c has been inserted in Fig. 17. Due to the rotation, the linear projection 212c moves between the one and the other of the linear grooves 111g, and the joining portion 2211 of the first cylindrical terminal 22 moves above the projection 1214a of the first contact terminal 12. This is because an angular gap between the grooves adjacent line 111g around the central axis L1 (see FIG. 1) of the outer case 11 is provided larger than an angle covering the junction portion 2211 (see FIG. 12) of the first terminal cylindrical 22 about the central axis L2 (see Fig. 10) of the inner housing 21. Since the joining portion 2211 is formed by connecting the opposite ends 2211a and 2211b of the contact portion 221 to each other. a bearing in the joining portion 2211 can be formed. However, since the linear projections 212c and the linear grooves 111g act as a positioning unit, even if the first electrical connector 30 is inserted into the second electrical connector 20 in any peripheral position, the first terminals of contact 12 do not come into contact with the connecting portion 2211 of the first cylindrical terminal 22 once the linear projections 212c have been inserted into the linear grooves 111g. Therefore, it is possible to prevent the resilient contact piece 121 of the first contact terminal 12 from coming into contact with the joint portion 2211 of the first cylindrical terminal 22 to thereby be damaged and / or worn. Thus, the first and second electrical connectors 10 and 20 ensure high reliability of the connection between them. Furthermore, since the linear protrusions 212c and the linear grooves 111g are provided radially around the central axis L2 of the outer and inner housings 11 and 21, even if the outer and inner housings 11 and 21 are mounted in one another. With one of them being rotated, they can be mounted one in the other so that the linear protrusions 212c and the linear grooves 111g align with each other. The manner in which the contact terminal 12 comes into contact with the first cylindrical terminal 22 is explained below with reference to FIGS. 21 and 22. As illustrated in FIG. 21, in a situation in which the first and second second electrical connectors 10 and 20 are inserted into each other, the contact terminal 12 of the first electrical connector 10 is in contact with the first cylindrical terminal 22 disposed on an inner surface of the second fixing hole 211 formed in the second electrical connector 20. The resilient contact piece 121 of the contact terminal 12 is disposed along an axial direction F5 of the first cylindrical terminal 22. In other words, the elastic contact piece 121 is contact with the first cylindrical terminal 22 in a direction perpendicular to a peripheral direction of the arc contact surface 2212. Therefore, even if the surface 5 of 2212 does not have a uniform curvature, the elastic contact piece 121 can come into stable contact with the contact surface 2212. As shown in FIG. 22, the contact portion 1214 of the elastic contact piece 121 is designed to have an arc area extending in a cross section perpendicular to the axial direction F5 (see Fig. 21) of the first cylindrical terminal 22, and along the arc contact surface 2212 of the Thus, the contact portion 1214 and the contact surface 2212 are both designed to be in arc-matching with each other, and they can be in even more stable contact. A plurality of projections 1214a is formed on an outer surface of the contact portion 1214 in a peripheral direction F6 of the contact portion 221. As shown in Fig. 21, each of the projections 1214a is adapted to be elongated and extend in the longitudinal direction F5 of the first cylindrical terminal 22.
[0031] For example, it is assumed that the elastic contact piece 121 is designed not to include the projections 1214a on an outer surface of the contact portion 1214, and therefore the contact portion 1214 is directly in contact with the an outer surface 30 with the arc contact surface 2212 of the first cylindrical terminal 22. In this case, the contact portion 1214 of the resilient contact piece 121 may be designed to have an arcuate outer surface along the surface in which the contact surface 2212 and the contact portion 1214 are in contact with each other. If the contact surface 2212 and the contact portion 1214 do not have a uniform curvature, they are simply in unstable contact with each other. However, since the contact portion 1214 is designed to have a plurality of projections 1214a, even though the arc contact surface 2212 of the first cylindrical terminal 22 and the arcuate outer surface of the contact portion 1214 do not With uniform curvature, the resilient contact piece 121 can contact the first cylindrical terminal 22 at two or more points. Thus, the first contact terminal 12 can come into stable contact with the first cylindrical terminal 22, ensuring high contact reliability. Since the projections 1214a extend in the longitudinal direction F5 of the first cylindrical terminal 22, i.e., the projections 1214a contact the arc contact surface 2212 in a direction perpendicular to the peripheral direction of the arc contact surface 2212, even though the arc contact surface 2212 does not have a uniform curvature, the non-uniform curvature of the arc contact surface 2212 does not exert a detrimental influence on the contact protrusions 1214a with arc contact surface 2212. The projections 1214a are equally spaced from each other in a circumferential direction about a top 1214b (see FIG. 22) of the contact portion 1214. Therefore, each of the projections 1214a is in uniform contact with the arc contact surface 2212 of the first cylindrical terminal 22, which ensures that the projections 1214a can be in stable contact with the 2212. The manner in which the contact terminal 12 acts when the contact terminal 12 is inserted into the terminal space R2 of the outer housing 11 is explained below. As illustrated in FIGS. 4 and 5, when the contact terminal 12 is not inserted into the terminal space R2, the folded portion 1212 protrudes out of the bottom wall 1221 of the first terminal body 122. The Contact terminal 12 in a condition as illustrated in Fig. 14 is inserted into terminal space R2 through a rear end of outer housing 11. As shown in Fig. 23A, being inserted into the terminal space R2, the folded portion 1212 of the resilient contact piece 121 is raised by a bottom R21 of the terminal space R2, and the folded portion 1212 slides on the bottom R21 of the terminal space R2. In the situation illustrated in Fig. 23A, since the folded portion 1212 is in contact with the bottom R21 of the terminal space R2, the contact portion 1214 of the resilient contact piece 121 is still relatively low although it is slightly raised. More specifically, the contact portion 1214 is partially exposed out of the opening 1222a (see Fig. 5), but not completely exposed out of the opening 1222a, i.e. most of the portion 1214 is still housed in the first terminal body 122. When the contact terminal 12 is further inserted into the terminal space R2, as shown in FIG. 23B, the folded portion 1212 moves over a portion raised 116 formed on the bottom R2 of the terminal space R2.
[0032] The raised portion 116 includes: a slope 1161 inclined upwardly in a direction F7 in which the contact terminal 12 is inserted into the terminal space R2; and a horizontal portion 1162 in the continuity of a top of the slope 1161. Moving on the raised portion 116, the folded portion 1212 is directed further upwardly. Thus, the contact portion 1214 of the resilient contact piece 121 protrudes out of the opening 1212a. When the folded portion 1212 is raised, the second free end 1213 of the elastic contact piece 121 is lowered to the bottom wall 1221 of the first terminal body 122, and abuts on the bottom wall 1221. Thus, the second end 1213 acts as a fulcrum for supporting the resilient contact piece 121. As a result of the fact that the second end 1213 and therefore the second curved portion 1216 abut on the bottom wall 1221, the folded portion 1212 and the second end 1213 (or the second curve portion 1216) fully support the resilient contact piece 121. Therefore, when the contact portion 1214 is in contact with the first cylindrical terminal 22 to thereby be charged, the load is divided by the folded portion 1212 and the second curved portion 1216. Thus, it is possible to prevent the folded portion 1212 from being plastically deformed due to the load. exerted on the contact portion 1214, ensuring that a contact load with which the contact portion 1214 is in contact with the first cylindrical terminal 22 can be increased. On the other hand, since the second free end 1213 abuts on the bottom wall of the first terminal body 122, a length of the resilient contact piece 121 between the contact portion 1214 and the second end 3030136 34 1213 may be designed to be a length In this case, the length of the resilient contact contact 121 may be sufficiently large, and the resilient member 121 may achieve improved spring performance. In addition, the resilient contact piece 121 may be a spring shape that is difficult to plastically deform. Since the second end 1213 is in the continuity of the second curved portion 1216, the bottom wall 1221 is not end 1213 abuts on the other side, since the second end damaged when the second bottom wall 1221. By curved portion 1216 slides on the lower wall 1221, the second curved portion 1216 can move smoothly over the bottom wall 1221. As mentioned above, the contact portion 1214 of the resilient contact piece 121 is held without protruding from the opening 1222a until the elastic contact piece 121 moves on the raised portion 116 once the first contact terminal 12 has been inserted into the terminal space R2. When the folded portion 1212 moves on the raised portion 116, the contact portion 1214 protrudes out of the opening 1222a, and is thereby exposed out of the first terminal body 122. The first curved portion 1215 formed between the first end 1211 and the folded portion 1212 directs the folded portion 1212 to the bottom wall 1211. That is, the first curved portion 1215 acts as an angle change device which changes an angle at which the contact piece elastic 121 is folded. A direction in which the resilient contact piece 121 extends between the first end 1211 and the angle change device 1215 is different from a direction in which the resilient contact piece 121 extends between the change device 1215 and the folded portion 1212. When the folded portion 1212 moves on the raised portion 116, the first curved portion 1215 changes an angle in which the folded portion 1212 is folded relative to the first end 1211, and by therefore, a portion of the resilient contact piece 121 between the first curved portion 1215 and the first end 1211 may be deformed.
[0033] A portion of the resilient contact piece 121 between the first curved portion 1215 and the first end 1211 rises obliquely to the opening 1222a, and the first curved portion 1215 directs the folded portion 1212 downwardly to the bottom wall 1221. Thus, even if the folded portion 1212 is at the same height as the raised portion 116, the portion of the elastic contact piece 121 between the first curved portion 1215 and the first end 1211 may be deformed, and the first curved portion 1215 can be enlarged, with the result that the first contact terminal 12 can be accommodated in the terminal space R2 while the portion of the resilient contact piece 121 between the first curved portion 1215 and the folded portion 1212 is deformed . Therefore, it is possible to prevent the resilient contact piece 121 from being damaged and / or deformed while the first contact terminal 12 is inserted into the outer case 11, and further, the first contact terminal 12 can maintain a sufficient contact pressure after being inserted into the outer housing 11. When the first contact terminal 12 is not inserted into the terminal space R2, the first curved portion 1215 has a curvature to direct the portion folded 1212 to the bottom wall 1221. The resilient contact piece 121 has a zone S1 (see Fig. 23B) in which the folded portion 1212 extends to the horizontal portion 1162 (an upper face 116a) of the raised portion. 116 when the folded portion 1212 moves on the raised portion 116. The upper face 116a of the raised portion 116 is formed to be flat, and the zone S1 of the resilient contact piece 121 is formed to matted into a plate form. Thus, the resilient contact piece 121 may be in close contact at the area S1 with the upper face 116a of the raised portion 116, because the area S1 is parallel to the upper face 116a when the folded portion 1212 becomes moves on the raised portion 116. Since the folded portion 1212 is on the upper face 116a of the raised portion 116 through the flat area Si, when the contact portion 1214 of the resilient contact piece 121 is in in contact with the first cylindrical terminal 22 (see Fig. 21), the folded portion 1212 is supported on the horizontal portion 1612 with the contact pressure between the contact portion 1214 and the first cylindrical terminal 22 which is uniformly received and completely by the area S1 of the folded portion 1212. Thus, it is possible to uniformly compress the contact portion 1214 on the first cylindrical terminal 22.
[0034] In this embodiment, the resilient contact piece 121 comprises the first curved portion 1215 acting as a spring change device. Thus, a degree of curvature of the resilient contact piece 121 is reduced at a position 30 where the first curved portion 1215 is formed. On the contrary, the degree of curvature of the resilient contact piece 121 can actually be increased. An elastic contact piece 121x shown in FIGS. 24 and 25 comprises a constricted portion 3030136 37 1217 acting as a spring-changing device. The constricted portion 1217 is formed by tightening the two side edges of a zone S2 (in a direction from the first end 1211 of the elastic contact piece 121x to the folded portion 1212) in a rectangle shape. By forming the constricted portion 1217, the constricted portion 1217 reduces a degree of curvature of the elastic contact piece 121 when the folded portion 1212 is lifted by the raised portion 116 (see Fig. 23B). Thus, the resilient contact piece 121 may be deformed at a position where the constricted portion 1217 is formed. Thus, even if the folded portion 1212 is at the same height as the raised portion 116, since the elastic contact piece 121 is deformed, the first contact terminal 12 can be accommodated in the terminal space R2 while maintaining The manner in which the hook 1224 acts when the first cylindrical terminal 12 is inserted into the terminal space R2 is explained below. The first contact terminal 12 is housed in the terminal space R2. As shown in Figs. 23A and 23B, a first mounting hole R2A and a second fixing hole R2B are formed in the terminal space R2. The first mounting hole R2A is formed comprising: a bottom R21 facing the bottom wall 1221 of the first terminal body 122; a ceiling R22 facing the top wall 1222; and sidewalls R23 in Figs. 26 and 27 facing the sidewalls 1223. The second fixing hole R2B is disposed deeper than the first mounting hole R2A in a direction F7 in which the first contact terminal 12 is inserted. in the terminal space R2. The second fixing hole R2B is vertically longer than the first mounting hole R2A, and is horizontally longer than the first mounting hole R2A. The first contact terminal 12 first enters the first mounting hole R2A. The hook 1224 rising from the side walls 1223 of the first terminal body 122 is compressed by a pair of side walls R23 of the first mounting hole R2A facing each other, and thus is kept deformed while the first contact terminal 12 is advanced. As shown in Fig. 27, when the first contact terminal 12 passes over the sidewalls R23 through which the hook 1224 is compressed, and arrives at the second fixing hole R2B, the hook 1224 is more compressed by the sidewalls R23, and therefore returns to an original shape. Thus, the hook 1224 becomes wider than a space between the first terminal body 122 and the side walls R23. Therefore, even if one tries to remove the first contact terminal 12 from the terminal space R2, the hook 1224 is retained by the side walls R23, and the first contact terminal 12 is therefore prevented from be removed from the R2 terminal space. Hook 1224 includes a protrusion 1224c. Between the side walls R23 of the terminal space R2 and the hook 1224 are formed spaces SO through which the second portions 1224n can pass. For example, when the first contact terminal 12 is inserted into the terminal space R2, if the hook 1224 is compressed at its proximal ends by the side walls R23 of the terminal space R2, the hook 1224 is plastically deformed with its proximal ends which are closed, and therefore, the hook 1224 can not be widened. In this condition, the first contact terminal 12 can be easily removed from the terminal space R2, if the cable C1 is pulled strongly. However, since the spaces S0 through which the projecting portions 1224c of the second inclined portion 1224n can pass are formed between the side walls R23 of the terminal space R2 and the hook 1224, sufficient space can be ensured between the first terminal body 122 and the side walls R23.
[0035] The spaces SO bring the hook 1224 into contact with the sidewalls R23 at a point P1 closer to an open end 1224b than a proximal end 1224a of the second inclined portion 1224n. The spaces SO formed between the first contact terminal 12 and the side walls R23 are designed to allow the side walls R23 to come into contact with the hook 1224 at a point closer to the open end 1224b than a center of FIG. A full length of the hook 1224. Therefore, it is possible to maintain an elastic force whereby the compressed hook 1224 wants to return to its original shape to thereby prevent the open ends 1224a of the hook 1224 from being deformed in such a manner that plastic. Thus, the hook 1224 can be engaged on the side walls R23 of the terminal space R2 with sufficient length, making it possible to prevent the first contact terminal 12 from being removed from the terminal space R2, even if the first contact terminal 12 is pulled back. Thus, the first contact terminal 12 can be kept inserted into the terminal space R2 of the outer housing 11, ensuring high reliability of the electrical connection between the first contact terminal 12 and the first cylindrical terminal 22.
[0036] For example, it is assumed that the hook 1224 is designed not to include the projecting portion 1224c, and the second inclined portion 1224n tilts at a constant angle. If the hook 1224 is designed to be longer than the actual one, the hook 1224 engages the side walls R23 of the terminal space R23 at a location farther from the first terminal body 122 when the side walls R23 are in contact with the proximal end of the hook 1224. Thus, since a space to be formed between the side walls R23 of the terminal space R2 and the first terminal body 122 can be wide, it is possible to prevent the sidewalls R23 from abutting on the proximal end of the hook 1224. However, if the hook 1224 is designed to be longer, since the hook 1224 is housed in the second fixing hole R2B while being in contact with the R23 side walls in the first mounting hole R2A, it is necessary to advance the first contact terminal 12 by a distance through which the hook 1224 20 is made longer. Thus, it is necessary to manufacture the second fixing hole R2B so as to be longer. However, the projecting portions 1224c of the hook 1224 are formed such that an angle of inclination between the first terminal body 122 and the open ends 1224b is greater than an angle of inclination between the first terminal body 122 and the proximal end 1224a in the first contact terminal 12. Therefore, even if spaces formed between the first terminal body 122 and the side walls R23 are wide, it is possible for the protruding portion 1224c of the hook 1224 to engage the side walls R23, and it is therefore not necessary to design the second fixing hole R2B so as to be long.
[0037] The protrusions 1224c of the uncompressed hook 1224 slide on and are compressed by the side walls R23 at an entrance into the terminal space R23. Each of the projections 1224c is formed such that a space between each of the projections 1224c and each of the sidewalls 1223 is larger at a location closer to each of the open ends 1224b. Therefore, when a location at which each of the side walls R23 comes into contact with the hook 1224 is transferred to each of the open ends 1224b when the first contact terminal 12 advances in the terminal space R2, the hook 1224 may be progressively closed along the space mentioned above between each of the projections 1224c and each of the side walls 1223. Thus, the first contact terminal 12 can be smoothly inserted into the terminal space R2 without the hook 1224 interferes with the side walls R23.
[0038] Furthermore, since each of the protruding portions 1224c is formed such that a space between each of the protruding portions 1224c and each of the sidewalls 1223 is larger at a location closer to each of the open ends 1224b, it is possible for the open ends 1224b of the protrusions 1224c to have improved resistance against compression and / or crushing. Therefore, it is possible to prevent the projecting portions 1224c from being deformed due to a compressive force which increases as the first contact terminal 12 advances in the terminal space R2, exerted on the hook 1224 by the side walls R23. Furthermore, since the hook 1224 is formed forming a cutting line around a portion of the side wall 1223 of the first terminal body 122, and causing the portion to rise outwardly, it It is not necessary to fix any unspecified portion on the first terminal body 122 to form the hook 1224.
[0039] The hook 1224 can thus be easily manufactured. Hook 1224 shown in Figures 27 and 28 is adapted to include protrusions 1224c. Instead of the protruding portions 1224c, the hook 1224 may be adapted to include folded portions formed by folding the open end of the hook 1224. Figures 28 and 29 illustrate a hook 1224x comprising a folded portion formed by folding an open end of the hook, according to a first variant. As illustrated in FIGS. 28 and 29, the hook 1224x comprises: a first inclined portion 1224m extending at the proximal end 1224a from the first terminal body 122; and a second inclined portion 1224n consisting of a folded portion 1224d or a folded portion 1224d formed by outwardly folding an open end of the first portion 1224n in two layers stacked one on the other. The hook 1224x is manufactured by forming a cutting line around a portion of the side wall 1223 of the first terminal body 122, and causing the portion to be raised with respect to the side wall 1223. Each of the folded portions 1224d is outside the first portions 1224m by tilting with respect to the side walls 1223 of the first terminal body 122. Therefore, it is possible to form a space SO 30 between the first terminal body 122 of the first terminal 12x and each of the side walls R23 so that the side walls R23 do not come into contact with the proximal end 1224a of the hook 1224x 3030136 43 when the first contact terminal 12x is inserted into the second fixing hole R2A. In the first variant, the sidewalls R23 are in contact with the hook 1224x in locations closer to the open ends 1224b than a center of the hook 1224x when the first contact terminal 12x is inserted into the terminal space R2. In Fig. 28, the sidewalls R23 are in contact with the second portions 1224n of the hook 1224x. Therefore, it is possible to maintain an elastic force whereby the compressed hook 1224x wants to return to the original shape to thereby prevent the first contact terminal 12x from being removed from the terminal space R2, even if the first contact terminal 12x is pulled back.
[0040] The folded portions 1224d allow the hook 1224x to engage the side walls R23 at a location outside an inclination angle of the first portions 1224m. Thus, even though the SO spaces are formed wide, the hook 1224x can be engaged on the side walls R23 while the second fixing hole R2B is not manufactured longer. Since the open end 1224b of the hook 1224x is folded outward to form the folded portions 1224d, end surfaces 1224e of the folded portions 1224d face end surfaces R23a of the side walls R23. On each of the end surfaces R23a, an inclined surface R23b for enlarging open ends of the sidewalls R23 is formed. Therefore, it is possible to insert the hook 1224x 30 in the first mounting hole R2A having a space gradually decreasing between them while the folded portions 1224d slide on the inclined surfaces R23b. In Figures 28 and 29, the inclined surfaces R23b are formed on the sidewalls R23. Alternatively, the inclined surfaces R23b may actually be formed on the end surfaces 1224e. Figures 30 and 31 illustrate a hook 1224y according to a second variant. In the second variant, an inclined portion is formed by folding an open end of a hook of a contact terminal. As illustrated in FIGS. 30 and 31, the hook 1224y comprises: a first inclined portion 1224m extending from the proximal end 1224a; and a second inclined portion 1224n having a slope 1224f formed by folding out the open end 1224b. The slope 1224f formed by folding the open end 1224b outwardly is outside an inclination angle of the first portion 122m. Therefore, it is possible to form a gap S0 between the first terminal body 122 of the first contact terminal 12y and each of the side walls R23 so that the side walls R23 do not come into contact with the proximal end. 1224a of the hook 1224y when the first contact terminal 12y is inserted into the second fixing hole R2A. In the second variant, in a manner similar to the first variant, the sidewalls R23 are in contact with the hook 1224y in locations closer to the open ends 1224b than a center of the hook 1224y when the first contact terminal 12y is inserted into the terminal space R2. In Fig. 30, the sidewalls R23 are in contact with the second portions 1224n of the hook 1224y. Therefore, it is possible to maintain an elastic force whereby the compressed hook 1224y wants to return to an original shape to thereby prevent the first contact terminal 306 from being removed from the terminal space R2, even if the first contact terminal 12y is pulled back. On the other hand, the slopes 1224f allow the hook 1224y to come into contact with the side walls R23 at a location outside an inclination angle of the first portions 1224m. Thus, even if the spaces SO are formed wide, the hook 1224y can be engaged with the side walls R23 while the second fixing hole R2B is not manufactured longer.
[0041] In the present embodiment, the first and second housings are defined as the outer and inner housings 11 and 21, respectively. Alternatively, the first and second housings are defined as the inner and outer housings 21 and 11, respectively. INDUSTRIAL APPLICATION The electrical connector according to the present invention can be used as a connector mounted in an incandescent plug, a connector for connecting a combustion pressure sensor and a bundle of cables to each other, a connector for to connect cables to one another, a connector mounted in various electrical / electronic devices, and a connector mounted in an automobile. The electrical connector according to the present invention can be widely used in fields such as the electrical / electronic industry and the automotive industry.

权利要求:
Claims (7)
[0001]
REVENDICATIONS1. Electrical connection module, comprising: a first electrical connector (10); and a second electrical connector (20), the first electrical connector (10) and the second electrical connector (20) both being coaxially mounted to each other, wherein: the first electrical connector (10) comprises a first housing (11); and a contact terminal (12) housed in a terminal space (R2) formed in the first housing (11); the second electrical connector (20) comprises: a second housing (21); and a cylindrical terminal (22) fixed in the second housing (21), the cylindrical terminal (22) being made by connecting opposite ends of an electrically conductive sheet to each other in such a manner that the foil defines a circular cross section; characterized in that: the contact terminal (12) comprises a resilient contact piece (121) engaging an inner surface of the cylindrical terminal (22); and each of the first housing (11) and the second housing (21) includes a positioning section (111g, 212c) for bringing the resilient contact piece (121) into contact with the cylindrical terminal (22) on the inner surface ( 2212) other than a zone (2211) through which the opposite ends of the electrically conductive sheet are connected to each other.
[0002]
An electrical connection module according to claim 1, characterized in that: the positioning section (111g, 212c) is formed with a protrusion (212c) and a recess (111g) mountable on the projection (212c); one of the protrusion (212c) and the recess (111g) 10 is formed on a first surface selected from an inner surface and an outer surface of the first housing (11); and the other of the projection (212c) and the recess (111g) is formed on a second surface of the second housing (21), the second surface being selected from an inner surface and an outer surface of the second housing (21). in such a way that the second selected surface is in contact with the first surface. 20
[0003]
An electrical connection module according to claim 1, characterized in that: the positioning section (111g, 212c) is formed with a plurality of projections (212c) and a plurality of recesses (111g) mountable to the plurality protrusions (212c); a portion of the plurality of projections (212c) and the plurality of recesses (111g) is formed on a first surface selected from an inner surface and an outer surface of the first housing (11); The others of the plurality of projections (212c) and the plurality of recesses (111g) are formed on a second surface of the second housing (21), the second surface being selected from an inner surface and an outer surface of the second housing ( 21) in a manner 3030136 48 such that the second selected surface is in contact with the first surface; and the plurality of projections (212c) and the plurality of recesses (111g) are radially disposed about at least one of an axis of the first housing (11) and an axis of the second housing (21).
[0004]
4. Electrical connection module according to claim 1, characterized in that the positioning section is positioned to cause the cylindrical terminal (22) and the resilient contact piece (121) to come into contact with each other. other once one of the first housing (11) and the second housing (21) is mounted in the other so as to be so positioned relative to each other.
[0005]
An electrical connection module according to claim 3, characterized in that: a first set consists of the plurality of projections (212c); a second set consists of the plurality of recesses (111g); one of the first set and the second set is formed every M locations among 360 / N 25 locations; N indicates any central angle; and M indicates a positive integer and is smaller than 360 / N. 30
[0006]
6. Electrical connection module according to claim 5, characterized in that: the other of the first set and the second set is formed each N x S central angle; S indicates an integer not smaller than two; and S x 360 / N is not greater than M.
[0007]
7. Electrical connection module according to claim 6, characterized in that: N is equal to nine; M is equal to five; and S is equal to three.

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同族专利:

公开号 | 公开日

CN105703117B|2018-05-08|

DE102015225020A1|2016-06-16|

DE102015225020B4|2019-09-19|

CN105703117A|2016-06-22|

JP2016115501A|2016-06-23|

JP6239493B2|2017-11-29|

US9502804B2|2016-11-22|

KR20160072059A|2016-06-22|

KR101751268B1|2017-07-11|

FR3030136B1|2019-08-30|

US20160172783A1|2016-06-16|

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法律状态:
2016-11-14| PLFP| Fee payment|Year of fee payment: 2 |

2017-11-16| PLFP| Fee payment|Year of fee payment: 3 |

2017-12-08| PLSC| Search report ready|Effective date: 20171208 |

2018-11-20| PLFP| Fee payment|Year of fee payment: 4 |

2019-11-04| PLFP| Fee payment|Year of fee payment: 5 |

2021-09-10| ST| Notification of lapse|Effective date: 20210806 |

优先权:

申请号 | 申请日 | 专利标题

JP2014252497|2014-12-12|

JP2014252497A|JP6239493B2|2014-12-12|2014-12-12|Electrical connector|

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