JP6000812B2 - Connector for shielded wire - Google Patents

Description

  The present invention relates to a connector for a shielded electric wire, and more particularly to a connector for a shielded electric wire corresponding to a large current conduction in an electric vehicle, a hybrid vehicle and the like.

In recent years, demand for electric vehicles and hybrid vehicles has increased due to factors such as increasing CO ₂ reduction requirements, stricter exhaust gas regulations, and soaring gasoline prices.
In these, a large current flows between various electric devices such as a battery, an inverter, a motor, and a generator, and these are often electrically connected using a connector.

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  Electric wires and connectors used in electric vehicles and hybrid vehicles have water-tightness that prevents water from entering the wires and connected devices, and flexibility that can withstand repeated vibrations due to the nature of the usage environment on the road. However, it has been difficult to find a connector of this type that satisfies both water tightness and flexibility with a low cost and simple structure.

  Also, in electric vehicles and hybrid vehicles, shielded wires are often used as noise countermeasures, but it is actually difficult to connect the shield and the ground circuit reliably, and the work for that is also troublesome. In order to ensure the grounding, the structure of the connector for the shielded electric wire has to be complicated, which has been a factor in increasing the cost.

  As a result of earnest research on the connector for the shielded electric wire, which is in high demand for electric vehicles and hybrid vehicles, which will be increasingly demanded in the future, the inventor has a simple structure with excellent productivity and a shield. We have succeeded in developing a new connector for shielded wires that can be easily connected to the shielded wires, yet have sufficient water-tightness and flexibility, and can also reliably ground the shield. It is proposed here as an invention.

A flange is integrally formed on the outer peripheral side of the cylindrical portion through which the front end side of the shielded electric wire in which the core wire, the insulation coating, the shield, and the outer sheath are laminated concentrically, and the cylindrical portion The inner diameter front side is an insulation coating holding part having an inner diameter slightly larger than the outer diameter of the insulation coating of the shielded electric wire, and the rear part from the base of the flange is the outer skin holding part having an inner diameter larger than the outer diameter of the outer sheath of the shielded electric wire. The space between the insulating coating holding portion and the outer skin holding portion is a front taper portion having an inner diameter gradually increasing toward the outer skin holding portion, and a rear taper portion having an inner diameter gradually increasing is provided behind the outer skin holding portion. , A metal connector body having male threads formed on the outer periphery near the rear opening;
It has a cylindrical shape with an inner diameter through which a shielded electric wire can be inserted, and a female screw portion that can be screwed into the male screw of the connector body is formed on the front side of the inner diameter, and an inner diameter is formed behind the female screw portion. The gradually reduced reverse taper part and the outer skin holding part with an inner diameter slightly larger than the outer diameter of the outer sheath of the shielded electric wire are formed continuously, and the inner diameter of the part near the rear opening of the outer skin holding part has an arc shape. Metal clamp holder with gradually increasing diameter;
A front annular packing made of rubber having a tapered cross-section with a gradually increasing thickness toward the rear and fitted between the front tapered portion of the connector body and the insulating coating of the shielded electric wire;
Metal disc-shaped collar for insulation coating interposed on the back side of the annular packing; the shield is folded from the outside on the folded portion of the shielded electric wire, and folded by crimping and caulking. A metal cylindrical conductive sleeve pressed against the part;
A rubber rear annular packing having a tapered cross-section with a gradually increasing thickness toward the rear and sheathed between the rear taper portion of the connector body and the outer sheath of the shielded wire;
A metallic disc-shaped outer collar interposed on the rear side of the rear annular packing;
A synthetic resin clamp material having a reverse tapered cross-section with a gradually decreasing thickness toward the rear, and having an annular shape fitted between the reverse tapered portion of the clamp holder and the outer sheath of the shielded electric wire;
It has a cylindrical shape and has a bellows shape in which the enlarged diameter portion and the reduced diameter portion are alternately repeated, the front opening is the outer peripheral surface of the outer skin holding portion of the clamp holder, and the rear opening is a shield inserted in the clamp holder. Rubber dust-proof covers that are elastically fitted to the outer peripheral surface of each attached wire;
After connecting the terminal by caulking the barrel to the exposed part of the core wire on the front end side of the shielded wire, the connector is coated with a synthetic resin adhesive to form an adhesive layer. Furthermore, the above-mentioned problem was solved by covering a heat-shrinkable tube having electrical insulation so as to cover the adhesive layer.

  The tip of the shielded wire covered with a rubber dust cover was inserted into the clamp holder, and the outer skin near the end of the tip was peeled off, the shield was exposed, and this was folded back on the outer skin. Cover the outer periphery of the shield with a conductive sleeve, press the conductive sleeve across the entire circumference to reduce the diameter of the entire surface, press the inner peripheral wall surface of the conductive sleeve against the shield, A plurality of depressed portions are formed at equal intervals by caulking from the side, the tips of the depressed portions are bitten into the shield, the conductive sleeve is fixed to the shield, and both are electrically connected.

  Further, the insulating collar and the front annular packing are inserted into the insulating coating in front of the conductive sleeve, and the outer collar, rear annular packing, and clamp material are inserted into the outer skin behind the conductive sleeve in this order. .

  In this state, the front end side portion of the shielded electric wire with the conductive sleeve, the front annular packing, the clamp material, etc. is inserted from the rear into the connector body, and the front annular packing is inserted into the front taper portion of the cylindrical portion. The rear annular packing is brought into contact with the rear taper portion, the female screw portion of the clamp holder is screwed into the male screw portion of the connector body, the clamp holder is rotated, and the clamp holder is firmly screwed into the connector body. Then, the clamp holder moves in the forward direction, and accordingly, the gap between the outer skin and the reverse taper portion is narrowed, and the clamp material positioned between them is strongly pressed downward by the reverse taper-shaped slope and bites into the outer skin. In this state, the shielded electric wire is fixed to the connector body via the clamp holder.

  Further, the front opening of the rubber dust cover that covers the shielded electric wire is fitted into the outer peripheral surface of the outer skin holding portion of the clamp holder from the rear side, and is connected to the outer skin holding portion and this. Cover the outer peripheral surface of the shielded wire with a rubber dust cover, and crimp the crimped barrel on the back of the terminal to the core wire of the shielded wire exposed from the cylindrical part of the connector body to the front side. After bonding the terminals, a synthetic resin adhesive is applied to the barrel surface to form an adhesive layer, and an electrically insulating heat-shrinkable tube is placed over the adhesive layer. Heat shrink to fix.

At this time, due to the forward movement accompanying the screwing of the clamp holder, the rear annular packing is also pushed forward through the stop collar that is in contact with the front end of the clamp member, and is fitted between the rear taper portion and the outer skin. The gap between the outer skin and the cylindrical part is sealed, and the water tightness of the part is secured.
Furthermore, as the rear annular packing moves in the forward direction, the outer collar, the conductive sleeve, and the insulating coating collar also move forward, and the front annular packing is pressed forward by the end face of the insulating coating collar. It fits between the front taper part and the insulating coating, seals the gap between the insulating coating and the tubular part, and ensures the watertightness of that part.

Thus, water intrusion from the front is prevented by the front annular packing, and water intrusion from the rear is prevented by the rear annular packing.
In addition, since the conductive sleeve strongly bites into the shield due to the overall diameter reduction by press and the formation of the recess by spot caulking, the electrical connection between the conductive sleeve and the shield is stably and reliably maintained. The shield is electrically connected to the flange via the conductive sleeve, the insulating coating collar, and the outer collar.
In addition, the rear end opening of the clamp holder is formed with an enlarged diameter portion that is expanded in an arc shape, so that the flexibility of the shielded electric wire is sufficiently secured, and the rear portion of the shielded electric wire is vertically and horizontally Even if the direction is greatly swung, an excessive bending stress does not act in the vicinity of the rear opening of the clamp holder of the shielded electric wire, and the shielded electric wire is hardly damaged.

And since the rubber dust cover is fitted between the outer peripheral surface of the outer skin holding part of the clamp holder and the outer peripheral surface of the shielded electric wire, dust and foreign matter are placed near the rear opening of the clamp holder. There is no possibility of damage due to these adhesions.
Furthermore, an adhesive layer is formed on the barrel surface of the terminal crimped to the tip of the shielded electric wire, and a heat-shrinkable tube is placed over the surface to heat-shrink. Therefore, the water is prevented from entering the connector body from the terminal direction.
Moreover, since the barrel surface is coated with this heat-shrinkable tube, there is no risk of electric shock even if it contacts the barrel surface.

  The connector for a shielded electric wire according to the present invention has a simple structure and is easy to assemble, and has perfect watertightness, and the shielded electric wire can have sufficient flexibility. Moreover, since the electrical connection between the shield and the ground circuit is reliable, it is optimal as a connector for electric vehicles and hybrid vehicles used outdoors and in harsh environments with vibration.

The longitudinal cross-sectional view of the connector for shielded electric wires which concerns on this invention. Similarly, the expanded sectional view of the principal part. Similarly, the perspective view which separated and drawn the main component parts. The perspective view of the shielded electric wire to which the connector for shielded electric wires according to the present invention is connected. Similarly, the enlarged side view of the electric wire with a shield explaining the situation where a conductive sleeve is installed. Similarly, the enlarged side view which notched and drawn a part of the state which fixed the electroconductive sleeve to the shield. Similarly, the half-cut longitudinal cross-sectional view of the shielded electric wire in the state where the packing or the clamp material is inserted. Similarly, the longitudinal cross-sectional view of the state which is going to screw a clamp holder in a connector main body in the state which inserted packings, clamp materials, etc.

  The shielded wire connector is composed of a cylindrical connector body and an arc-shaped clamp holder that is screwed into the cylindrical connector body, and the connector body is tapered on the inner diameter side near the front opening and the rear opening end. Water-tightness by providing an inclined taper on the inner diameter side of the clamp holder and fitting an annular packing having a tapered section and a cylindrical clamp member having an inverted tapered section on the inclined surface. The maximum feature is that the shielded electric wire is made flexible by forming an arc-shaped enlarged diameter portion at the rear opening end of the clamp holder.

  FIG. 1 is an enlarged longitudinal sectional view of Embodiment 1 of a connector for a shielded electric wire according to the present invention, and FIG. 2 is an enlarged perspective view of an essential part thereof. FIG. 3 is an exploded perspective view showing the main components separately. A connector for a shielded electric wire according to the present invention includes a connector main body 1, a clamp holder 2 screwed with the connector main body 1, and a shielded electric wire. The conductive sleeve 3 to be covered, the clamped material 30 for fixing the shielded electric wire 4 to the clamp holder 2, and various packings for providing watertightness.

  The shielded electric wire 4 fixed to the shielded electric wire connector according to the present invention has a core wire 5, an insulation coating 6, a shield 7, and an outer skin 8 laminated concentrically as shown in FIG. It is.

  The connector body 1 is made of a conductive metal, and as shown in FIGS. 1 and 2, a flange 10 is provided on the outer peripheral side of the cylindrical portion 9 that passes through the front end side of the shielded electric wire 4. A cylindrical insulating coating holding portion 11 having an inner diameter b slightly larger than the outer diameter a of the insulating coating 6 of the shielded electric wire 4 is formed on the front side of the inner diameter of the cylindrical portion 9. A cylindrical outer skin holding portion 12 having an inner diameter d larger than the outer diameter c of the outer skin 8 of the shielded electric wire 4 is formed on the rear side from the root portion of the shield 10, and the insulating coating holding portion 11 and the outer skin holding portion are formed. 12 is connected by a front taper shape 13 whose inner diameter gradually increases toward the rear, that is, toward the skin holding portion 12 side. Further, a rear taper portion 14 having an inner diameter gradually increasing is formed at the rear opening end of the outer skin holding portion 12.

That is, on the inner diameter side of the cylindrical portion 9, from the front to the rear, the insulating coating holding portion 11 having a small diameter, the front taper portion 13 having a large diameter, the outer skin holding portion 12 having a large diameter, and the rear taper shape having a large diameter. 14 is formed continuously in series.
In addition, the outer diameter of the cylindrical portion 9 is reduced at the rear of the base portion of the flange 10 to form a stepped portion 15, and a male screw is formed on the outer periphery behind the stepped portion 15. The male screw portion 16 is provided. Further, an O-ring groove 33 is formed on the outer periphery of the cylindrical portion 9 in the vicinity of the front opening, and an O-ring 34 is attached to the O-ring groove 33.

  On the other hand, the clamp holder 2 is made of metal and has a cylindrical shape having an inner diameter through which the shielded electric wire 4 can be inserted, and the inner peripheral wall surface on the front side thereof is connected to the male screw portion 16 of the connector body 1. A threaded female thread portion 17 is formed, and a reverse taper portion 18 whose inner diameter gradually decreases behind the female thread portion 17 and an inner diameter slightly larger than the outer diameter c of the outer skin 8 of the shielded electric wire 4. The outer skin holding part 19 of e is formed continuously. Further, an enlarged diameter portion 20 whose inner diameter gradually increases in an arc shape is formed in a portion near the rear opening end of the outer skin holding portion 19.

In the figure, reference numeral 21 denotes a rubber front annular packing fitted between the front tapered shape 13 of the connector body 1 and the insulating coating 6 of the shielded electric wire 4, and the thickness gradually increases rearward. It has a trapezoidal cross section, and its front end thickness f is smaller than the width of the rear end of the front taper 13 and rear end thickness h is larger than the width of the rear end of the front taper portion 13. ing.
Next, reference numeral 22 in the figure denotes an insulating coating collar in the form of a metal disk interposed at the front end of the outer skin holding portion 12 of the connector body 1, and has an outer diameter slightly smaller than the inner diameter of the outer skin holding portion 12. In the center, a through hole 23 is formed through which the insulating coating 6 of the shielded electric wire 4 can be inserted.

  In the figure, reference numeral 3 denotes a conductive sleeve having an inner diameter that covers the outer periphery of the shielded electric wire 4 in a state where the portion near the tip of the shield 7 is folded back to the outer skin 8 side. By forming the depression 45 by reducing the diameter by pressing and by caulking, it is firmly fixed to the folded portion 25 of the shield 7 of the shielded electric wire 4. It is about 4/5 of the part 12. Further, the conductive sleeve 3 has a function of electrically connecting the shield 7 and the flange 10 and is preferably made of copper that is easily plastically deformed.

  Further, in the figure, reference numeral 26 denotes an outer collar having a metal plate shape interposed behind the conductive sleeve 3, and has an outer diameter slightly smaller than the inner diameter of the outer skin holding portion 12. Is provided with a through hole 27 through which the outer skin 8 of the shielded electric wire 4 is inserted. In the figure, reference numeral 28 denotes a rubber rear annular packing fitted between the rear taper portion 14 of the connector body 1 and the outer skin 8, and has a substantially trapezoidal cross section in which the thickness gradually increases rearward. The thickness of the front end is substantially the same as the thickness of the conductive sleeve 3, and the thickness of the rear end is substantially the same as the width of the gap at the rear end opening of the rear taper portion. Reference numeral 29 denotes a disc-shaped rubber stop collar interposed behind the rear annular packing 28.

  On the other hand, reference numeral 30 in the figure denotes a clamp material, which is a member having a short cylindrical shape made of synthetic resin, has a reverse tapered cross section whose thickness gradually decreases rearward, and the clamp holder 2 The reverse taper portion 18 is fitted between the shielded wire 4 and the outer skin 8 of the shielded electric wire 4, and as shown in FIG. At the same time, a ridge 35 is formed on the inner diameter side near the rear opening end for biting into the surface of the outer skin 8.

Further, in the figure, reference numeral 36 denotes a rubber dust cover, which has a cylindrical shape and has a bellows shape in which the enlarged diameter portion 37 and the reduced diameter portion 38 are alternately repeated, and the front opening 39 holds the outer skin of the clamp holder 2. On the outer peripheral surface of the portion 19, the rear opening 40 has an inner diameter that is elastically fitted to the outer peripheral surface of the shielded electric wire 4 inserted into the clamp holder 2.
In the figure, 41 is a heat-shrinkable tube having electrical insulation, and a barrel 43 of a terminal 42 is pressure-bonded to the core wire 5 on the front end side of the shielded electric wire 4, and an adhesive layer 44 is formed thereon. Thereafter, the adhesive layer 44 is covered so as to be heat-shrinked.

This Example 1 consists of each said component, and the electric wire 4 with a shield is fixed to this connector with the following procedure.
That is, first, the front end side of the shielded electric wire 4 covered with the rubber dust cover 36 is inserted into the clamp holder 2 and the outer skin 8 near the end of the front end side is peeled off to expose the shield 7. As shown in FIG. 5, it is folded on the outer skin 8 on the rear side, and the conductive sleeve 3 is covered on the outer periphery of the folded shield 7 as shown in FIG. After pressing to reduce the overall diameter, the inner peripheral wall surface of the conductive sleeve 3 is pressed and contacted with the shield 7, and is further spotted from the outer peripheral side to form a plurality of recessed portions 45 at equal intervals, The tip of the depressed portion 45 is bitten into the shield 7, the conductive sleeve 3 is fixed to the shield 7, and both are electrically connected. In addition, in FIG. 6, the conductive sleeve 3 drawn with a broken line has shown the state before diameter reduction by a press.

  Further, as shown in FIG. 7, the insulating coating collar 22 and the front annular packing 21 are inserted into the insulating coating 6 in front of the conductive sleeve 3, and the outer collar 7 is inserted into the outer skin 7 behind the conductive sleeve 3. 26, the rear annular packing 28, and the clamp member 30 are inserted in this order.

  In this state, as shown in FIG. 8, the distal end side portion of the shielded electric wire 4 to which the conductive sleeve 3, the front annular packing 21, the clamp member 30 and the like are attached is inserted into the connector body 1 from the rear side. The front annular packing 21 is brought into contact with the front tapered portion 13 of the tubular portion 9 and the rear annular packing 28 is brought into contact with the rear tapered portion 14, and the female screw portion 17 of the clamp holder 2 is screwed into the male screw portion 16 of the connector body 1. Then, the clamp holder 2 is rotated to strongly screw the clamp holder 2 into the connector body 1. Then, as shown in FIG. 1, the clamp holder 2 moves in the forward direction, and accordingly, the interval between the outer skin 8 and the reverse taper portion 18 is narrowed, and the clamp member 30 positioned therebetween is the slope of the reverse taper portion 18. Therefore, the shielded electric wire 4 is securely fixed to the connector main body 1 via the clamp holder 2.

  Further, the front opening of the rubber dustproof cover 36 that covers the shielded electric wire 4 is fitted into the outer peripheral surface of the outer skin holding portion 12 of the clamp holder 2 from the rear side, so that the outer skin holding portion 12 and this The outer peripheral surface of the shielded electric wire 4 connected to the cable is covered with a rubber dust cover 36, and the core wire 5 of the shielded electric wire 4 exposed to the front side from the tubular portion 9 of the connector body 1 is connected to the rear of the terminal 42. After the crimping and crimping of the barrel 43 provided to bond the terminals 42, a synthetic resin adhesive is applied to the surface of the barrel 43 to form an adhesive layer 44. A heat-shrinkable tube 41 having electrical insulating properties is covered so as to be covered, and this is heat-shrinked and fixed.

At this time, due to the forward movement accompanying the screwing of the clamp holder 2, the rear annular packing 28 is also pushed forward through the stop collar 29 that is in contact with the front end of the clamp member 30, and the rear taper portion 14 and the outer skin 8. And the gap between the outer skin 8 and the cylindrical portion 9 is sealed, and the watertightness of that portion is ensured.
Further, as the rear annular packing 28 moves in the forward direction, the outer collar 26, the conductive sleeve 3, and the insulating coating collar 22 also move forward, and the front annular packing 2 is moved by the end face of the insulating coating collar 22. Is pressed forward, fits between the front taper portion 13 and the insulating coating 6, seals the gap between the insulating coating 6 and the tubular portion 9, and ensures the watertightness of that portion.
The O-ring 34 provided in the vicinity of the front opening end of the cylindrical portion 9 is connected to the water tightness of the coupling portion when the connector body 1 is fixed to an external device such as a motor or a generator using the flange 10. It is for securing.

In this state, the connection relationship between the connector main body 1 and the shielded electric wire 4 is secured by the clamp member 30. Water intrusion from the front is caused by the front annular packing 21, and water entry from the rear is caused by the rear annular packing 28. The shield 7 is electrically connected to the flange 10 via the conductive sleeve 3, the insulating coating collar 22, and the outer cover collar 26.
In addition, since the conductive sleeve 3 is strongly biting into the shield 7 due to the overall diameter reduction by press and the formation of the recessed portion 45 by spot caulking, the electrical connection between the conductive sleeve 3 and the shield 7 is stable. Is held securely and reliably.
Further, since the diameter-expanded portion 20 having a diameter increased in an arc shape is formed in the rear end opening of the clamp holder 2, the flexibility of the shielded electric wire 4 is sufficiently secured, and an arrow A in FIG. As shown, even if the rear part of the shielded electric wire 4 is greatly swung in the vertical and horizontal directions, an excessive bending stress does not act near the rear opening of the clamp holder 2 of the shielded electric wire 4, and the shielded electric wire 4 There is almost no risk of damage to 4.
Since the rubber dustproof cover 36 is elastically fitted between the outer peripheral surface of the outer skin holding portion 12 of the clamp holder 2 and the outer peripheral surface of the shielded electric wire 4, the rear opening of the clamp holder 2 There is no risk of dust or foreign matter adhering to the portion near the part, and there is no possibility of occurrence of a failure due to such adhesion.
Further, an adhesive layer 44 is formed on the surface of the barrel 43 of the terminal 42 that is crimped to the tip of the shielded electric wire 4, and a heat-shrinkable tube 41 is placed thereon to cause heat shrinkage. Therefore, the water-tightness of this portion is sufficiently maintained, and entry of water into the connector main body 1 from the direction of the terminal 42 is prevented.
Further, since the surface of the barrel 43 is coated with the heat-shrinkable tube 41, there is no danger of electric shock even if the surface of the barrel 43 is touched.

  As described above, the shielded wire connector according to the present invention has a simple structure and is easy to assemble, and can have perfect water-tightness, so that it can be used outdoors and in harsh environments with vibration. It is most suitable as a connector for electric vehicles and hybrid vehicles used in Japan.

  It can be used greatly in electric vehicles and hybrid vehicles.

1. Connector body 2. Clamp holder 3. Conductive sleeve Shielded wire 5. Core wire 6. Insulation coating 7. Shield 8. Skin 9 Tubular section 10. Flange 11. Insulating coating holding part 13. Front taper portion 14. Back taper portion 15. Step part 16. Male thread part 17. Female screw part 18. Reverse taper portion 19. Outer skin holding part 20. Expanded diameter part 21. Front annular packing 22. Insulation coating collar 23. Through hole 25. Folded portion 26. Outer collar 27. Through hole 28. Rear annular packing 29. Stop collar 30. Clamp material 31. Cut section 32. Crimp terminal 33. O-ring groove 34. O-ring 36. Rubber dust cover 37. Expanded diameter portion 38. Reduced diameter part 39. Front opening 40. Rear opening 41. Heat-shrinkable tube 42. Terminal 43. Barrel 44. Adhesive layer 45. Depression

Claims (1)

A flange is integrally formed on the outer peripheral side of the cylindrical portion through which the front end side of the shielded electric wire in which the core wire, the insulation coating, the shield, and the outer sheath are laminated concentrically, and the cylindrical portion The inner diameter front side is an insulation coating holding part having an inner diameter slightly larger than the outer diameter of the insulation coating of the shielded electric wire, and the rear part from the base of the flange is the outer skin holding part having an inner diameter larger than the outer diameter of the outer sheath of the shielded electric wire. The space between the insulating coating holding portion and the outer skin holding portion is a front taper portion having an inner diameter gradually increasing toward the outer skin holding portion, and a rear taper portion having an inner diameter gradually increasing is provided behind the outer skin holding portion. , A metal connector body having male threads formed on the outer periphery near the rear opening;
It has a cylindrical shape with an inner diameter through which a shielded electric wire can be inserted, and a female screw portion that can be screwed into the male screw of the connector body is formed on the front side of the inner diameter, and an inner diameter is formed behind the female screw portion. The gradually reduced reverse taper part and the outer skin holding part with an inner diameter slightly larger than the outer diameter of the outer sheath of the shielded electric wire are formed continuously, and the inner diameter of the part near the rear opening of the outer skin holding part has an arc shape. Metal clamp holder with gradually increasing diameter;
A front annular packing made of rubber having a tapered cross-section with a gradually increasing thickness toward the rear and fitted between the front tapered portion of the connector body and the insulating coating of the shielded electric wire;
Metal disc-shaped collar for insulation coating interposed on the back side of the annular packing; the shield is folded from the outside on the folded portion of the shielded electric wire, and folded by crimping and caulking. A metal cylindrical conductive sleeve pressed against the part;
A rubber rear annular packing having a tapered cross-section with a gradually increasing thickness toward the rear and sheathed between the rear taper portion of the connector body and the outer sheath of the shielded wire;
A metallic disc-shaped outer collar interposed on the rear side of the rear annular packing;
A synthetic resin clamp material having a reverse tapered cross-section with a gradually decreasing thickness toward the rear, and having an annular shape fitted between the reverse tapered portion of the clamp holder and the outer sheath of the shielded electric wire;
It has a cylindrical shape and has a bellows shape in which the enlarged diameter portion and the reduced diameter portion are alternately repeated, the front opening is the outer peripheral surface of the outer skin holding portion of the clamp holder, and the rear opening is a shield inserted in the clamp holder. Rubber dust-proof covers that are elastically fitted to the outer peripheral surface of each attached wire;
After connecting the terminal by crimping the barrel and crimping the core wire exposed part on the front end side of the shielded electric wire, a synthetic resin adhesive is applied to the barrel surface to form an adhesive layer, A shielded electric wire connector characterized by covering a heat-shrinkable tube having electrical insulation so as to cover the adhesive layer.

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