JP2012048818A - Terminal crimping method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a terminal crimping method that prevents a shield cable from decreasing in drawing-out strength with respect to a sleeve and a barrel by preventing the sleeve which is compressed inward in a radial direction when crimped with a pair of barrels from being broken owing to buckling.SOLUTION: The present invention relates to a terminal crimping method of mounting a conductive sleeve in a cylindrical shape around an outer periphery of a terminal part of an insulating sheath peeled such that a conductive braid of a shield cable having a plurality of signal lines covered with the conductive braid and insulating sheath is exposed, and also crimping a pair of barrels that an external conductor terminal provides on a braid turned-over part covering an outer periphery of the sleeve by turning over the exposed braid. The terminal crimping method includes a first process of forming a plurality curved parts which is curved in a radial direction of the sleeve fixed to the outer periphery of the sheath terminal part on the sleeve along the outer periphery, and a second process of crimping the pair of barrels to the braid turned-over part formed by turning over the exposed braid to cover the outer periphery of the sleeve.

Description

  The present invention relates to a connection of a shield connector connected to a terminal portion of a shielded cable such as a shielded twisted pair cable having a plurality of signal lines. More specifically, the present invention relates to a braid provided in a shielded cable with a barrel of an outer conductor terminal provided in the shielded connector. The present invention relates to a terminal crimping method for crimping and connecting.

  Generally, a twisted pair cable called STP (shielded twisted pair) is provided with a twisted pair cable in which two signal lines are twisted together. The effect of electromagnetic induction can be reduced by reversing the direction of the magnetic field generated in the loop of adjacent signal lines formed by this twisted twist and canceling each other's generated magnetic field. In this case, it is known that the outer side is covered with a braid made of fine metal wires in a mesh shape, so that it is more difficult to radiate electromagnetic induction noise to the outside and it is difficult to receive noise from the outside. Widely used as a cable.

  Usually, such a shielded twisted pair cable is connected to a dedicated connector called a modular connector after being processed into a terminal. In recent years, electrical devices mounted on automobiles such as car navigation systems have been used with such a shielded twisted pair cable. May constitute an in-vehicle network.

  As a connection structure between a braid provided in the shielded twisted pair cable and an outer conductor terminal provided in a shield connector usually used in an automobile or the like, for example, there is a structure as shown in FIG. As shown in the figure, the shielded twisted pair cable W has a configuration in which two signal lines Wa are twisted and covered with a metal foil Wd, and the outer periphery thereof is covered with a braided We and a sheath Wf.

  The shield connector 11 connected to the terminal portion of the shield twisted pair cable W includes an inner conductor terminal 12 connected to the signal line Wa, an inner housing 13 that accommodates and holds the inner conductor terminal 12, and an outer conductor connected to the braided We. A terminal 14 is provided.

  In this case, as shown in FIG. 12 (a), the braided We exposed by peeling the sheath Wf is reversed and placed on the circular sleeve 15 attached to the outer periphery of the end of the sheath Wf. A braided reversing portion Wg is formed, and a pair of braided barrels 14a and 14b provided on the outer conductor terminal 14 is pressure-bonded from above the braided reversing portion Wg. Connection with the outer conductor terminal 14 with which 11 is provided is achieved.

  Normally, in order to prevent the shield twisted pair cable W from coming out of the shield connector 11 when a tensile force is applied to the shield twisted pair cable W, FIG. As shown, the sleeve 15 is compressed radially inward by crimping the braided barrels 14a, 14b so that the inner diameter of the sleeve 15 is smaller than the outer diameter of the sheath Wf.

  In this case, as shown in the figure, when the sleeve 15 is compressed to the extent that there is no gap between the signal line Wa covered with the metal foil Wd and the braided We, the fixing force between the sheath Wf and the sleeve 15 is dramatically increased. The tensile strength of the shield twisted pair cable W with respect to the shield connector 11 can be improved. In addition, the following patent document is mentioned as a prior art document relevant to this invention.

JP 2007-18734 A Japanese Patent Laid-Open No. 10-108346

  However, when the sleeve 15 is compressed radially inward to such an extent that there is no gap between the signal line Wa and the braided We, a part of the sleeve 15 is buckled as shown in FIG. , It may break at that part. If the sleeve 15 is broken in this manner, the fixing force with the sheath Wf is reduced, and sufficient pull-out strength of the shield twisted pair cable W with respect to the shield connector 11 cannot be ensured.

  Further, the dimensional tolerance of the outer diameter of the sheath Wf is larger than the dimensional tolerance of the inner diameter of the sleeve 15, that is, the variation of the outer diameter of the sheath Wf is larger than the inner diameter of the sleeve 15. When the gap with Wf is large, there is a problem in that the sleeve 15 is likely to buckle if the sleeve 15 is compressed radially inward and crushed.

  Therefore, the problem to be solved by the present invention is to prevent the sleeve compressed radially inward from being crimped by a pair of barrels provided in the outer conductor terminal and to be broken by buckling. It is providing the terminal crimping method which can prevent the fall of the pulling-out intensity | strength of this.

  In order to solve the above-described problems, the present invention provides an outer periphery of a terminal portion of the sheath that is stripped so that the braid of a shielded cable formed by covering a plurality of signal lines with a conductive braid and an insulating sheath is exposed. A conductive sleeve having a circular pipe shape is mounted on the left and right ends of the bottom plate provided at one end of the outer conductor terminal on the braid reversing portion that is placed over the outer periphery of the sleeve by reversing the exposed braid A terminal crimping method for crimping a pair of barrels extending upward from the sleeve, wherein a plurality of curved portions curved in the radial direction are formed along the outer periphery of the sleeve attached to the outer periphery of the sheath terminal portion. And a second step of reversing the exposed braid after the first step and press-bonding the pair of barrels to a braid reversal portion that covers the outer periphery of the sleeve. Do Than is.

  According to the terminal crimping method having such a configuration, the curved portion curved in the radial direction is formed on the outer periphery of the sleeve attached to the outer periphery of the end portion of the sheath before the crimping by the pair of barrels provided on the outer conductor terminal. A plurality of curved portions are displaced so as to smoothly fall into the radially inner side of the sleeve when the sleeve is compressed radially inward by crimping a pair of barrels. The conventional compression prevents a part of the sleeve from buckling and breaking at the part. Thus, even if the sleeve is compressed and crushed radially inward to such an extent that there are no gaps between the plurality of signal lines and the braid, the sleeve does not break due to buckling. Adhesive force is obtained, and as a result, sufficient tensile strength of the shielded cable with respect to the sleeve and the barrel can be ensured.

  In this case, in the first step, if the plurality of curved portions are formed at positions facing each other in the radial direction of the sleeve, the sleeve is radially inward by crimping a pair of barrels. During compression, the pressure applied to each curved portion of the sleeve can be made uniform, and the displacement of each curved portion toward the radially inner side of the sleeve can be made uniform. This prevents any one of the curved portions from being greatly displaced inward and buckled compared to the other curved portions.

  Further, in the first step, the sleeve is clamped between the pressure surface of the crimper disposed above and the pressure receiving surface of the anvil disposed below, so that the sleeve is attached to the outer periphery of the sheath terminal portion. When forming a plurality of curved portions curved in the radial direction on the sleeve along the outer periphery, a plurality of protrusions are formed on the pressure surface and the pressure receiving surface, and the plurality of protrusions are formed on the outer surface of the sleeve. If a configuration is adopted in which a plurality of the curved portions are formed in the sleeve by being partially pressed, it is possible to easily form a plurality of curved portions in the sleeve by such a crimper and anvil. .

  Further, in the first step, the sleeve is clamped between the pressure surface of the crimper disposed above and the pressure receiving surface of the anvil disposed below, thereby being attached to the outer periphery of the sheath terminal portion. When a plurality of curved portions curved in the radial direction are formed on the sleeve along the outer periphery, a plurality of relief portions are formed in the pressurizing surface and the pressure receiving surface, and the plurality of escape portions are formed on the outer peripheral surface of the sleeve. If a configuration is adopted in which a plurality of the curved portions are formed in the sleeve by partially protruding, it is possible to easily form a plurality of curved portions in the sleeve by such a crimper and an anvil.

  The pair of barrels is provided narrower than the sleeve, and in the second step, the pair of barrels are pressure-bonded to the braid reversing portion so that the front and rear end portions of the sleeve remain a predetermined length. With this configuration, a constricted portion having a diameter larger than that of the compressed portion is formed at the front and rear end portions of the sleeve, so that when the shielded cable is pulled, the constricted portion has an end of the barrel. The part can be configured to be caught. Thereby, it becomes possible to further improve the tensile strength of the shielded cable with respect to the sleeve and the barrel.

  Furthermore, the tip of the pair of barrels is provided with a locking portion that is locked to each other, and in the second step, the pair of barrels are pressure-bonded to the braid reversing portion while being locked to each other. With this configuration, the opening of the barrel due to the springback after pressure bonding (a phenomenon that attempts to return to the original shape due to the elasticity of the material when the material is unloaded after applying a plastic deformation by applying a load) Therefore, the barrel can hold the sleeve with a stable holding force through the braid, and the tensile strength of the shield cable with respect to the sleeve and the barrel can be further improved.

  According to the terminal crimping method according to the present invention, the sleeve attached to the outer periphery of the terminal portion of the sheath is formed with a plurality of curved portions curved in the radial direction in advance before crimping by the barrel included in the outer conductor terminal. Therefore, when the sleeve is compressed inward in the radial direction by crimping the barrel, the plurality of curved portions are displaced so as to fall down smoothly inwardly in the radial direction of the sleeve. The portion is prevented from being broken due to buckling, and the decrease in the tensile strength of the shield cable with respect to the sleeve and the barrel is prevented.

(A) is sectional drawing which looked at the shield connector to which the terminal crimping method which concerns on one Embodiment of this invention is applied from the side, (b) is sectional drawing in the AA of (a). It is sectional drawing which looked at the shield connector of Fig.1 (a) from upper direction. (A) is the figure which showed the state by which the sheath of the shield twisted pair cable was peeled, (b) is the figure which showed the state in which the sleeve was mounted | worn on the outer periphery of the terminal part of the sheath. (A) is the figure which showed the state in which the curved part was formed in the sleeve, (b) is the figure which showed the state in which the braid was reversed and covered on the sleeve. (A) is the figure which showed the procedure in which a curved part is formed in a sleeve, (b) is sectional drawing of the sleeve in which the curved part was formed, and a shield twisted pair cable. It is the figure which showed the procedure in which the inner housing which accommodated and hold | maintained the inner conductor terminal connected to the signal wire | line of a shield twist pair cable is accommodated in an outer conductor case. It is the figure which showed the procedure in which an outer conductor cover is mounted | worn with an outer conductor case. It is a top view of the shield connector connected to the shield twisted pair cable. (A) is the figure which showed the modification of the procedure in which a curved part is formed in a sleeve, (b) is sectional drawing of the sleeve in which the curved part was formed, and a shield twisted pair cable. It is sectional drawing which showed the state by which the braided barrel was crimped | bonded to the sleeve in which the curved part of FIG.9 (b) was formed. It is sectional drawing which looked at the shield connector used conventionally from the side. (A) is sectional drawing which showed the state before the braiding barrel with which the outer conductor terminal of FIG. 11 is crimped | bonded, (b) is sectional drawing which showed the state after crimping | compression-bonding.

  Embodiments of a terminal crimping method according to the present invention will be described below with reference to the drawings. The terminal crimping method according to the present embodiment is applied to a shielded cable having a large number of signal lines. In this example, a case where the method is applied to a shielded twisted pair cable having four signal lines will be described.

  As shown in FIGS. 1 and 2, the shielded twisted pair cable W has a configuration in which two signal lines Wa are twisted and covered with a metal foil Wd, and the outer periphery thereof is covered with a braided We and a sheath Wf. ing. The shield connector 1 connected to the terminal portion of such a shielded twisted pair cable W is connected to the inner conductor terminal 2 connected to the signal line Wa, the inner housing 3 that accommodates and holds the inner conductor terminal 2, and the braided We. An outer conductor terminal 4 is provided.

  As shown in the figure, the braided We exposed by peeling off the sheath Wf is reversed, and this is put on the sleeve 7 having a circular pipe shape attached to the outer periphery of the end of the sheath Wf, and the braided reversing portion Wg is formed. A pair of braided barrels 6b and 6c formed and provided on the outer conductor terminal 4 from above the braided inversion portion Wg are pressure-bonded, whereby the braided We of the shield twisted pair cable W and the outer conductor terminal 4 of the shield connector 1 are bonded. Is connected.

  The inner conductor terminal 2 is connected to the signal conductor Wb of the signal line Wa of the shielded twisted pair cable W and transmits a high frequency signal, and has a so-called female type terminal shape. The rear end portion of the inner conductor terminal 2 is connected to the signal conductor Wb exposed by peeling the insulator of the signal line Wa by crimping.

  The inner housing 3 for accommodating and holding the inner conductor terminal 2 is for insulating the conductors of the inner conductor terminal 2 and the outer conductor terminal 4 and is formed by a resin insulating member having a predetermined relative dielectric constant. ing. A terminal accommodating portion 3a penetrating in the front-rear direction is formed in the inner housing 3, and the inner conductor terminal 2 is inserted and held from behind the terminal accommodating portion 3a.

  The outer conductor terminal 4 is connected to the braid Wd of the shielded twisted pair cable W and electromagnetically shields the periphery of the inner conductor terminal 2. As shown in FIGS. 6 and 7, the outer conductor terminal 4 includes two members, an outer conductor case 5 and an outer conductor cover 6 assembled to the outer conductor case 5.

  The outer conductor case 5 is formed in a substantially cylindrical shape by bending a conductive plate material. The inner housing 3 can be accommodated in the main body 5 a of the outer conductor case 5. Further, an upper surface opening 5b and a rear surface opening 5c are formed on the rear upper surface and the rear surface of the main body 5a in order to facilitate accommodation of the inner housing 3. Further, a connecting piece 5d having an arcuate cross section opened upward is provided behind the main body portion 5a of the outer conductor case 5 as shown in FIGS.

  As with the outer conductor case 5, the outer conductor cover 6 is formed in a substantially lid shape by bending a conductive plate material. The outer conductor cover 6 includes a cover portion 6a that covers the upper surface opening portion 5b and the rear surface opening portion 5c of the outer conductor case 5 described above, and left and right end portions of a bottom plate 6f having an arcuate cross section provided behind the cover portion 6a. A pair of braided barrels 6b and 6c extending downward. In this case, as shown in FIG. 7, the braided barrels 6b and 6c are open downward. In addition, since the upper surface opening part 5b and the rear surface opening part 5c of the outer conductor case 5 described above are closed by the cover part 6a of the outer conductor cover 6, the deterioration of the shielding performance is suppressed.

  Further, an inverted trapezoidal locking piece 6d is formed at the tip of one braided barrel 6b of the braided barrels 6b, 6c provided in a pair, and the locking piece 6d is provided at the tip of the other braided barrel 6c. A trapezoidal locking hole 6e into which is inserted is cut out. In this case, the width in the front-rear direction of the braided barrels 6b, 6c is formed to be narrower than the width in the front-rear direction of the sleeve 7 to be described later, and the braided barrels 6b, 6c have the front-rear end portions of the sleeve 7 having a predetermined length. It is designed to be crimped.

  The sleeve 7 is a conductive member having a circular tube shape, and is attached to the outer periphery of the end portion of the sheath Wf which is peeled off as shown in FIG. As shown in FIG. 5A, the sleeve 7 is sandwiched and crimped between an upper crimper 101 and a lower anvil 103 provided in the caulking device 100.

  In this case, the crimper 101 has a semicircular semicircular portion 102a whose cross-sectional shape is open downward, and tapered portions 102b and 102b extending downward so as to be gently connected to both arc ends of the semicircular portion 102a. A pressurizing surface 102 is formed, and projecting portions 102c, 102c, 102c projecting in a triangular shape are provided at the center of the semicircular portion 102a and the left and right sides thereof. Further, the anvil 103 is formed with a pressure receiving surface 104 having an arc portion 104a having a smaller arc angle than a semicircle whose cross-sectional shape is open upward, and a triangular shape is formed at the center of the arc portion 104a and on both left and right sides thereof. Protruding protrusions 104b, 104b, 104b are provided.

  As shown in the drawing, when the sleeve 7 mounted on the outer periphery of the sheath Wf of the shielded twisted pair cable W is placed on the pressure receiving surface 104 of the anvil 103 and the crimper 101 descends from above, the protruding portion of the pressure surface 102 Three portions of the outer peripheral surface on the upper side of the sleeve 7 are pressed by 102c, and three portions of the outer peripheral surface on the lower side of the sleeve 7 are pressed by the protruding portion 104b of the pressure receiving surface 104. As a result, as shown in FIG. 5 (b), curved portions 7a, 7a, 7a that are curved inward are formed on the upper center of the sleeve 7 and on the left and right sides thereof. Curved portions 7a, 7a, 7a that are curved inward are also formed on both the left and right sides. These curved portions 7 a are formed at positions facing each other in the radial direction of the sleeve 7.

  Since the inner diameter of the sleeve 7 is reduced along with the formation of the plurality of curved portions 7a, the inner diameter of the reduced sleeve 7 is the outer diameter of the sheath Wf of the shielded twisted pair cable W as shown in the figure. It will be formed smaller than. At this time, the sheath Wf is also compressed radially inward, so that the gap between the braided We and the signal line Wa covered with the metal foil Wd is smaller than before compression as shown in the figure.

  Next, a procedure for connecting the shield connector 1 having such a configuration to the terminal portion of the shield twisted pair cable W will be described. First, as shown in FIG. 3A, the end portion of the sheath Wf of the shielded twisted pair cable W is peeled off for a predetermined length to expose the braided We. Next, as shown in FIG. 3B, the sleeve 7 is attached to the outer periphery of the end portion of the sheath Wf that has been peeled off.

  Then, as shown in FIG. 4A, a plurality of curved portions 7 a that are curved radially inward are formed on the sleeve 7 using the caulking device 100 described above along the outer periphery. In this case, the curved portion 7 a is formed to extend in the width direction (front-rear direction) of the sleeve 7. The curved portions 7a are formed to be parallel to each other.

  Next, as shown in FIG. 4B, the exposed braid Wf is folded back and reversed, and is placed on the sleeve 7 to form a braid reversal portion Wg. At this time, the metal foil Wd covering the two signal lines Wa is exposed.

  Then, as shown in FIG. 6, first, the metal foil Wd is cut to a predetermined length to expose the signal line Wa, and the signal conductor Wb exposed by peeling off the insulator at the end of the signal line Wa. The inner conductor terminal 2 is connected to. Next, the inner conductor terminal 2 is accommodated and held in the inner housing 3, the inner housing 3 is accommodated in the main body portion 5 a of the outer conductor case 5, and the upper side of the connection piece 5 d provided behind the outer conductor case 5. The braid reversing part Wg is placed on.

  Next, as shown in FIG. 7, the outer conductor cover 6 is mounted so as to close the upper surface opening 5 b and the rear opening 5 c of the outer conductor case 5. At this time, the bottom plate 6f in which the pair of braided barrels 6b and 6c behind the outer conductor cover 6 is extended is placed on the braided reversing portion Wg of the braided We.

  Then, as shown in FIG. 8, the braided barrels 6b and 6c are crimped and connected to the braided reversing part Wg by crimping the braided barrels 6b and 6c. At this time, as shown in FIGS. 1 (a) and 1 (b), the locking piece 6d protrudingly formed at the tip of one braided barrel 6b is notched at the tip of the other braided barrel 6c. By fitting into the holes 6e, the ends of the braided barrels 6b and 6c are locked, and the braided barrels 6b and 6c are prevented from being opened by the springback after the crimping.

  As shown in FIGS. 1A and 1B, the connection piece 5d provided on the outer conductor case 5 is sandwiched between the braid reversing portion Wg and the braid barrels 6b and 6c. And connected to the braided barrels 6b and 6c.

  As described above, since the sleeve 7 attached to the outer periphery of the end portion of the sheath Wf is crimped by the braided barrels 6b and 6c, a plurality of curved portions 7a curved in the radial direction are formed along the outer periphery. When the sleeve 7 is compressed radially inward by the compression of the barrels 6b and 6c, the curved portion 7a changes from the state shown in FIG. 5B to the state shown in FIG. 1B. It is displaced so as to fall down smoothly inward in the radial direction.

  Thus, when the sleeve 7 is compressed radially inward, the plurality of curved portions 7a are displaced so as to smoothly fall down radially inward of the sleeve 7, so that a part of the sleeve 7 is buckled by the compression. It is prevented that the portion breaks.

  As a result, as shown in FIG. 1B, in order to improve the fixing force between the sheath Wf and the sleeve 7, the sleeve 7 is moved radially inward to such an extent that there is no gap between the signal line Wa and the braided We. Even when compressed and crushed, the sleeve 7 does not break due to buckling, so that a desired fixing force with the sheath Wf is obtained, and as a result, sufficient tensile strength of the shield twisted pair cable W with respect to the shield connector 1 can be ensured. .

  Further, as shown in FIG. 1A, the braided barrels 6b and 6c are compressed so as to leave the front and rear end portions of the sleeve 7 with a predetermined length, so that the front and rear end portions of the sleeve 7 are compressed. Constrictions 7b and 7b having a diameter larger than that of the portion are formed. Thereby, when the shield twisted pair cable W is pulled, the rear end edges of the braided barrels 6b and 6c are hooked to the rear constricted portion 7b. When the shield twisted pair cable W is pushed forward, the front end edges of the braided barrels 6b and 6c can be hooked to the front constricted portion 7b. Thereby, the pushing strength and tensile strength of the shield twisted pair cable W with respect to the shield connector 1 are improved.

  Next, a modified example in which the curved portion 7a is formed on the sleeve 7 will be described with reference to FIGS. As shown in FIG. 9A, the sleeve 7 according to this modified example is caulked by being sandwiched between an upper crimper 111 and an anvil 113 disposed below the caulking device 110. Yes.

  In this case, the crimper 111 has a semicircular portion 112a whose diameter is smaller than the outer diameter of the sleeve 7 and whose cross-sectional shape is opened downward, and a relief portion 112b in which outer portions of both arc ends of the semicircular portion 112a are recessed. A pressure surface 112 having 112b is formed. Similarly, the anvil 113 has a semicircular portion 114a whose diameter is smaller than the outer diameter of the sleeve 7 and whose cross-sectional shape is open upward, and a relief portion 114b in which outer portions of both arc ends of the semicircular portion 114a are recessed. A pressure receiving surface 114 having 114b is formed.

  As shown in FIG. 9A, when the sleeve 7 attached to the outer periphery of the sheath Wf of the shielded twisted pair cable W is placed on the pressure receiving surface 114 of the anvil 113 and the crimper 111 is lowered from above, The sleeve 7 is compressed radially inward by being sandwiched between the pressure surface 112 and the pressure receiving surface 114, and the remaining thickness of the sleeve 7 is the relief portions 112 b and 112 b of the pressure surface 112 and the relief portions 114 b and 114 b of the pressure receiving surface 114. 9b, curved portions 7a, 7a that are curved outward are formed on the left and right sides of the sleeve 7, as shown in FIG.

  Since the inner diameter of the sleeve 7 is reduced in accordance with the formation of the curved portions 7a and 7a, the inner diameter of the reduced sleeve 7 is the outer diameter of the sheath Wf of the shielded twisted pair cable W as shown in the figure. It will be formed smaller than. At this time, the sheath Wf is also compressed radially inward, so that the gap between the braided We and the signal line Wa covered with the metal foil Wd is smaller than before compression as shown in the figure.

  And, as shown in FIG. 10, the sleeve 7 attached to the outer periphery of the terminal portion of the sheath Wf is formed with curved portions 7a, 7a that are curved so as to protrude outward in the radial direction. When the sleeve 7 is compressed inward in the radial direction by crimping the braided barrels 6b and 6c, the curved portions 7a and 7a change from the state shown in FIG. 9B to the state shown in FIG. It is displaced so as to fall down smoothly inward in the radial direction.

  When the sleeve 7 is compressed radially inward in this way, the curved portions 7a, 7a on both the left and right sides are displaced so as to smoothly fall down radially inward of the sleeve 7, so that a part of the sleeve 7 is compressed. It is prevented from buckling and breaking at that portion.

  According to the terminal crimping method described above, before the crimping of the braided barrels 6b and 6c, a plurality of curved portions 7a curved in the radial direction are formed along the outer periphery of the sleeve 7 attached to the outer periphery of the end portion of the sheath Wf. Therefore, when the sleeve 7 is compressed inward in the radial direction by crimping the braided barrels 6b and 6c, the plurality of curved portions 7a are displaced so as to fall down smoothly inward in the radial direction of the sleeve 7. ,

  This prevents a part of the sleeve 15 from buckling due to compression as shown in FIG. 12B described in the prior art and breaking at that part. Further, as shown in FIGS. 1B and 10, even if the sleeve 7 is compressed radially inward to such an extent that there is no gap between the signal line Wa and the braided We, the sleeve 7 buckles. Therefore, a desired fixing force with the sheath Wf can be obtained, and as a result, a sufficient tensile strength of the shielded cable W with respect to the shield connector 1 can be ensured.

  In this case, since the plurality of curved portions 7 a are formed at positions facing each other in the radial direction of the sleeve 7, when the sleeve 7 is compressed inward in the radial direction by crimping the braided barrels 6 b and 6 c, The pressure applied to each curved portion 7a can be made uniform, and the displacement of each curved portion 7a to the inside in the radial direction of the sleeve 7 can be made uniform. Thereby, any one of the curved portions 7a is prevented from being greatly buckled by being displaced inward as compared with the other curved portions 7a.

  Further, the braided barrels 6b and 6c are provided narrower than the sleeve 7, and the front and rear end portions of the sleeve 7 are crimped so as to leave a predetermined length. Since the constricted portions 7b and 7b having a large diameter are formed, when the shield twisted pair cable W is pulled or pushed in, the end portions of the braided barrels 6b and 6c can be caught by the constricted portions 7b and 7b. . Thereby, it becomes possible to further improve the pushing strength and tensile strength of the shield twisted pair cable W with respect to the shield connector 1.

  Furthermore, since both ends of the braided barrels 6b and 6c are locked with each other after the crimping by the locking pieces 6d and the locking holes 6e, the braided barrels 6b and 6c are prevented from being opened by the springback after the pressing. Thus, the braided barrels 6b and 6c can hold the sleeve 7 with a stable holding force through the braided We, and the tensile strength of the shield cable with respect to the sleeve and the barrel can be further improved.

  As mentioned above, although the embodiment of the terminal crimping method according to the present invention has been described, the present invention is not limited to these examples, and can be implemented in various modes without departing from the gist of the present invention. Of course. For example, in the embodiment, the shielded cable is described using a shielded twisted pair cable having four signal lines, but the number of signal lines is not limited. Needless to say, the shield connector can be applied to both male and female connectors.

1: Shield connector 2: Inner conductor terminal 3: Inner housing 4: Outer conductor terminal 5: Outer conductor case 6: Outer conductor cover 6b, 6c: Braided barrel 6d: Locking piece 6e: Locking hole 6f: Bottom plate 7: Sleeve 7a: curved portion 7b: constricted portion 100: crimping device 101: crimper 102: pressurizing surface 102a: semicircular portion 102b: tapered portion 102c: protruding portion 103: anvil 104: pressure receiving surface 104a: arc portion 104b: protruding portion 110: caulking Device 111: Crimper 112: Pressurized surface 112a: Semicircular portion 112b: Escape portion 113: Anvil 114: Pressure receiving surface 114a: Semicircular portion 114b: Escape portion W: Shielded twisted pair cable Wa: Signal wire Wd: Metal foil We: Braided Wf : Over the scan Wg: braided reversing section

Claims (6)

  A conductive sleeve having a circular tube shape on the outer periphery of the end portion of the sheath, which is stripped so that the braid of a shielded cable formed by covering a plurality of signal lines with a conductive braid and an insulating sheath is exposed. Is attached to the braid reversing portion that is placed on the outer periphery of the sleeve so as to invert the exposed braid and is extended upward from the left and right end portions of the bottom plate provided at one end of the outer conductor terminal. A first crimping method for crimping the barrel of the sleeve, wherein a plurality of curved portions curved in the radial direction are formed along the outer periphery of the sleeve mounted on the outer periphery of the sheath terminal portion; and the first step And a second step of crimping the pair of barrels to the braid reversing part that is reversed on the outer periphery of the sleeve by reversing the exposed braid.   The terminal crimping method according to claim 1, wherein in the first step, the plurality of curved portions are formed at positions facing each other in a radial direction of the sleeve.   In the first step, the sleeve mounted on the outer periphery of the sheath terminal portion is clamped by sandwiching and crimping the sleeve between the pressure surface of the crimper disposed above and the pressure surface of the anvil disposed below. When forming a plurality of curved portions curved in the radial direction along the outer periphery, a plurality of protruding portions are formed to protrude on the pressure surface and the pressure receiving surface, and a part of the outer peripheral surface of the sleeve is formed on the plurality of protruding portions. The terminal crimping method according to claim 1, wherein a plurality of the curved portions are formed in the sleeve by pressing the sleeve.   In the first step, the sleeve mounted on the outer periphery of the sheath terminal portion is clamped by sandwiching and crimping the sleeve between the pressure surface of the crimper disposed above and the pressure surface of the anvil disposed below. When a plurality of curved portions curved in the radial direction are formed along the outer periphery, a plurality of relief portions are recessed in the pressure surface and the pressure receiving surface, and a part of the outer peripheral surface of the sleeve is formed in the plurality of relief portions. The terminal crimping method according to claim 1, wherein a plurality of the curved portions are formed in the sleeve by protruding.   The pair of barrels are provided narrower than the sleeve, and in the second step, the pair of barrels are pressure-bonded to the braid reversing portion so that the front and rear end portions of the sleeve remain a predetermined length. The terminal crimping method according to claim 1, wherein the terminal crimping method is performed.   At the tip of the pair of barrels, a locking portion that is locked to each other is provided, and in the second step, the pair of barrels are pressure-bonded to the braid reversing portion while being locked to each other. The terminal crimping method according to claim 1, wherein the terminal crimping method is performed.

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