JP7116040B2 - waterproof shield connector - Google Patents

Description

The present invention relates to waterproof shielded connectors.

Shielded connectors with improved waterproofness are known (for example, Patent Document 1, etc.). This shield connector has a waterproof structure for preventing water droplets from entering the space for crimping the shield. This waterproof structure is attached to the shielded wire and configured as a part of the wire end accommodating tube portion provided in the connector housing. The water stop structure is composed of a plug member, a seal packing, a first seal cap, and a second seal cap. A small-diameter cylindrical portion at the end of the plug member is housed in a sealed space defined by the seal packing and the first seal cap.

Therefore, even if moisture enters the shield crimping space side along the inner or outer periphery of the plug member from the open end side of the wire end housing cylindrical portion, the moisture that has flowed in is isolated in the sealed space. It does not reach the space for shield crimping. As a result, the shield connector is prevented from entering water into the shield crimping space in the shield connector from the outside. In addition, since the inner-diameter collar portion of the second seal cap functions as a waterproof wall that blocks the gap between the core wire accommodating portion side of the wire end portion accommodating cylindrical portion and the waterproof structure accommodating portion side, Ingress of water in the opposite direction is also prevented.

JP 2011-70848 A

However, in the shield connector described above, since the waterproof structure is composed of the plug member, the seal packing, the first seal cap, and the second seal cap, the number of parts is large and the structure is complicated. was there.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a waterproof shield connector capable of obtaining a waterproof function with a smaller number of parts and a simpler structure than conventional connectors.

The above objects of the present invention are achieved by the following configurations.
(1) A housing that accommodates a shielded wire, a shield terminal that is electrically connected to a shield member of the shielded wire, and a shield terminal assembled in the housing that covers the housing and contacts the shield terminal that is exposed from the housing. a shield shell, a wire sealing member for watertight sealing between the shield terminal and the sheath of the shielded wire, a housing seal portion for watertightly sealing between the inner coating of the shielded wire and the housing, and the shield terminal. a terminal seal portion for water-tightly sealing with the shield shell; and a connection portion for connecting the housing seal portion and the terminal seal portion , wherein the connection portion is formed in a cylindrical shape, and the housing seal portion is formed in an annular shape protruding radially inward from the front end side of the connecting portion, and the terminal seal portion protrudes radially outward from the rear end side of the connecting portion and is formed in an annular shape, and is formed in a rear end side of the housing. is located on the outer diameter side of the connecting portion so as to face the annular front end surface of the terminal seal portion, and the front end side of the sheath is located on the annular rear end surface of the housing seal portion. positioned on the inner diameter side of the connecting portion so as to face each other, and the end of the housing is positioned on the rear end side of the end of the sheath,
The waterproof shield connector , wherein the terminal seal portion is assembled in a state in which the tip surface is pressed and biased by the end portion of the housing in a direction away from the housing seal portion .

According to the waterproof shield connector having the above configuration (1), the housing seal portion that water-tightly seals between the inner coating and the housing, and the terminal seal portion that water-tightly seals between the shield terminal and the shield shell are connected to each other. are connected by That is, the housing seal portion and the terminal seal portion form an integrated seal cap (seal member) connected by the connecting portion. Therefore, the waterproof shield connector of this configuration utilizes the shield terminal, which is the basic structural member, and the inner coating and sheath of the shield wire, and uses two parts, the seal cap and the wire seal member, to form the crimped portion. It can be sealed in an enclosed space to provide a watertight seal. As a result, the waterproof function can be obtained with a smaller number of parts and a simpler structure than the conventional waterproof structure that requires the four parts of the plug member, the seal packing, the first seal cap, and the second seal cap.
Furthermore, in the waterproof shield connector of this configuration, the terminal seal portion can block the entry path of water reaching the outer periphery of the shield terminal from between the housing and the shield shell. As a result, it is possible to prevent water from entering between the shield shell and the shield terminal and accumulating without being discharged. Therefore, in the waterproof shield connector of this configuration, it is possible to prevent the shield shell and the shield terminal from being corroded and deteriorating the waterproof performance.

Furthermore, according to the waterproof shield connector having the above configuration ( 1 ), the terminal seal portion connected to the housing seal portion by the connecting portion is pushed away from the housing seal portion by the end (rear end) of the housing. Assembled in a biased state. That is, the terminal seal portion, which is connected to the housing seal portion by the connection portion, protrudes in an annular shape from the rear end side of the connection portion to the outer diameter side so as to come into contact with the inner circumference of the shield shell. Therefore, the end (rear end) of the housing can be brought into contact with the front end surface of the annular terminal seal portion protruding to the outer diameter side to form a watertight seal. As a result, it is possible to prevent water from entering and accumulating between the outer circumference of the connecting portion and the inner circumference of the housing. As a result, it is possible to eliminate water stagnation inside the housing and prevent dew condensation or the like due to high humidity inside the housing.

( 2 ) The waterproofing device according to (1 ) above, wherein the locking portion projecting from the outer peripheral surface of the connecting portion is locked to an annular groove recessed in the inner peripheral surface of the housing. shielded connector.

According to the waterproof shield connector having the above configuration ( 2 ), the seal cap, in which the housing seal portion and the terminal seal portion are integrally connected by the connecting portion, has the locking portion of the connecting portion locked to the annular groove of the housing. As a result, even if pressure (water pressure, atmospheric pressure) is applied from outside the connector, it is difficult for the connector to be displaced from the specified position. In addition, when assembling the seal cap to the housing, the worker can feel the response when the locking portion is fitted into the annular groove, and can sensuously assemble the seal cap in the prescribed position. Therefore, it is possible to prevent variation in the mounting position of the seal cap due to a change in worker.

(3) a housing that accommodates the shielded wire;
a shield terminal electrically connected to the shield member of the shield wire;
a shield shell assembled to the housing to cover the housing and contact the shield terminal exposed from the housing;
a wire sealing member for water-tightly sealing between the shield terminal and the sheath of the shield wire;
a housing seal portion for water-tightly sealing between the inner coating of the shielded wire and the housing;
a terminal seal portion for water-tightly sealing between the shield terminal and the shield shell;
a connecting portion that connects the housing seal portion and the terminal seal portion;
with
a locking portion projecting from the outer peripheral surface of the connecting portion is locked to an annular groove recessed in the inner peripheral surface of the housing;
A waterproof shield connector, wherein the engaging portion is made of a material harder than that of the connecting portion .

According to the waterproof shield connector having the configuration ( 3 ), for example, the locking portion is made of a hard material such as synthetic resin that is harder than the connection portion that is integrally molded with the housing seal portion and the terminal seal portion using an elastic material such as synthetic rubber. is formed. As a result, the locking portion has a higher locking force with respect to the annular groove, and a greater response when it is fitted into the annular groove.

According to the waterproof shield connector of the present invention, it is possible to obtain a waterproof function with a smaller number of parts and a simpler structure than conventional connectors.

The present invention has been briefly described above. Furthermore, the details of the present invention will be further clarified by reading the following detailed description of the invention (hereinafter referred to as "embodiment") with reference to the accompanying drawings. .

1 is a perspective view showing a waterproof shield connector according to a first embodiment of the present invention and a mating connector to be fitted to the waterproof shield connector; FIG. FIG. 2 is an exploded perspective view of the waterproof shield connector shown in FIG. 1; FIG. 3 is a cross-sectional view showing the vicinity of a terminal seal portion in the waterproof shield connector shown in FIG. 2; 4 is an enlarged view of part A in FIG. 3; FIG. 5 is an enlarged view of a main portion showing a modification of the terminal seal portion shown in FIG. 4; FIG. FIG. 11 is a partially broken perspective view showing a housing and a seal cap in a waterproof shield connector according to a second embodiment of the invention; FIG. 7 is a cross-sectional view showing the vicinity of a terminal seal portion in the waterproof shield connector shown in FIG. 6; FIG. 8 is an enlarged view of a B portion in FIG. 7;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments according to the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view showing a waterproof shield connector 11 and a mating connector 13 fitted to the waterproof shield connector 11 according to the first embodiment of the present invention. FIG. 2 is an exploded perspective view of the waterproof shield connector 11 shown in FIG.

The male-female connector 15 to be fitted to each other consists of the waterproof shield connector 11 which is a female connector and the mating connector 13 which is a male connector. The mating connector 13 is inserted into a receptacle provided in a housing (mounted portion) of various electrical equipment such as an inverter and a motor mounted on an electric vehicle or a hybrid vehicle, thereby connecting the electrical equipment. and waterproof shield connector 11.

The waterproof shield connector 11 of the first embodiment is a high-voltage two-pole type connector directly connected to equipment. The waterproof shield connector 11 has a shielding function for shielding electromagnetic waves and grounding. Moreover, the waterproof shield connector 11 has a waterproof structure. The entry route of water in the waterproof shield connector 11 is assumed to be from both the front end side, which is the fitting side with the mating connector 13, and the rear end side, which is the wire extending side. In this specification, the mating side of the waterproof shield connector 11 is referred to as the front end side, and the wire extension side is referred to as the rear end side.

As shown in FIGS. 1 and 2, the waterproof shield connector 11 is connected to the end of the shield wire 17 . The shield wire 17 is conductively connected by removing the outermost sheath 19 and folding back the shield member 55 to the outside of the sheath 19 by crimping the shield terminal 25 . In general, when the crimped portion of the shield member 55 to the shield terminal 25 is corroded due to contact with water, the electrical characteristics become unstable. On the other hand, the water stop structure requires the shield member 55 crimped on the outside of the sheath 19 to be connected to the shield shell 21, so that the number of parts has been increased and the structure has been complicated.

The waterproof shield connector 11 according to the first embodiment includes a housing 23, a shield terminal 25, a shield shell 21, a wire seal member 27, a housing seal portion 29, a terminal seal portion 31, a connecting portion 33, as a main configuration.

As shown in FIG. 2, housing 23 accommodates shielded wire 17 . The housing 23 is made of an electrically insulating synthetic resin and includes a pair of terminal housing portions 37 that respectively house a pair of terminals 35, and a pair of seal housing portions 38 that respectively house a pair of seal caps 91, which will be described later. have. The terminal accommodating portion 37 is inserted into the fitting tubular portion 39 of the mating connector 13 . A ring-shaped packing 41 is fitted around the outer periphery of the terminal accommodating portion 37 of the housing 23 . In the waterproof shield connector 11 , when the terminal accommodating portion 37 is inserted into the fitting cylindrical portion 39 of the mating connector 13 , the male terminal 43 enters from the receiving port 45 and is conductively connected to the internal terminal 35 . A terminal contact 47 is accommodated inside the terminal 35 to improve contact with the male terminal 43 . An interlock short terminal 49 is attached to the housing 23 so as to be able to contact an interlock terminal (not shown) of the mating connector 13 .

The shielded wire 17 has an inner sheath 53 that covers the core conductor 51 , and a shield member 55 that covers the outer circumference of the inner sheath 53 . The core wire conductor 51 of the shielded wire 17 is inserted into a conductor connecting portion 57 opened at the rear portion of the terminal 35 and crimped and fixed. A copper shield braid or the like is used as the shield member 55 . As the shield member 55, an aluminum foil or the like may be used, or an aluminum foil may be used together with a shield braid made of copper.

FIG. 3 is a cross-sectional view showing the vicinity of the terminal seal portion 31 in the waterproof shield connector 11 shown in FIG. 4 is an enlarged view of part A in FIG. 3. FIG.
The shield terminal 25 is made of conductive metal. The shield terminal 25 is formed in a stepped cylindrical shape in which a plurality of (for example, three) enlarged-diameter portions that increase in diameter from the front end side to the rear end side are continuously provided. These diameter-enlarged portions are a sheath extra-insertion portion 59, a terminal seal portion contact portion 61, and a wire seal portion contact portion 63 from the distal end side.

As shown in FIG. 3 , the shield terminal 25 is conductively connected to the shield member 55 of the shield wire 17 . The outermost sheath 19 of the shielded wire 17 is removed in the housing 23 to expose the shield member 55 . A shield terminal 25 is externally attached to the terminal of the sheath 19 . The shield terminal 25 is covered with a folded shield member 55 on the outer periphery of the sheath external insertion portion 59 on the distal end side. The outer circumference of the folded shield member 55 is crimped and fixed to the sheath 19 together with the sheath externally inserted portion 59 by the shield sleeve 65 .

The shield shell 21 consists of a lower shell 67 and an upper shell 69, as shown in FIG. The lower shell 67 has a female hood portion 73 that receives the male hood portion 71 of the mating connector 13 inside. The male hood portion 71 inserted into the female hood portion 73 is watertightly sealed with the shield shell 21 by the packing 41 .

A rear portion of the lower shell 67 is formed with a housing mounting portion 75 on which the seal accommodating portion 38 of the housing 23 is mounted and whose upper side is open. The housing 23 placed on the housing placement portion 75 is surrounded by an upper shell 69 that covers the upper portion of the seal accommodation portion 38 and is fastened with bolts 77 . As a result, the outer periphery of the housing 23 is electromagnetically shielded. In the shield shell 21 covering the housing 23 , the outer peripheral surface of the wire seal contact portion 63 of the shield terminal 25 protruding from the rear portion of the housing 23 contacts the inner peripheral surface of the shield shell 21 and is electrically connected to the shield member 55 . be. That is, the shield shell 21 is assembled with the housing 23 to cover the housing 23 and contacts the shield terminals 25 exposed from the housing 23 .

Further, the lower shell 67 is formed with an equipment fixing piece 79 projecting outward. A device fixing bolt 81 is rotatably attached to the device fixing piece 79 while being prevented from being detached by an E-ring 83 . The shield shell 21 is fixed to a housing of an electrical device such as an inverter unit with device fixing bolts 81 in a state where the waterproof shield connector 11 is fitted to the mating connector 13 .

The wire sealing member 27 is made of annular sealing rubber. The wire seal member 27 has a small-diameter front cylindrical portion 87 and a rear cylindrical portion 89 formed in front of and behind the intermediate large-diameter portion 85 . Lips are formed on the outer and inner circumferences of the intermediate large-diameter portion 85 so as to be in contact with the inner circumference of the wire seal contact portion 63 and the outer circumference of the sheath 19 , respectively. The front cylindrical portion 87 of the wire seal member 27 is inserted between the terminal seal contact portion 61 and the sheath 19 . The wire seal member 27 has a rear tubular portion 89 inserted between the shield shell 21 and the sheath 19 . This wire sealing member 27 provides a watertight seal between the shield terminal 25 and the sheath 19 of the shield wire 17 .

The housing seal portion 29 is made of annular seal rubber. The housing seal portion 29 provides a watertight seal between the inner coating 53 of the shielded wire 17 and the housing 23 .
The terminal seal portion 31 is made of annular seal rubber. The terminal seal portion 31 provides a watertight seal between the shield terminal 25 and the shield shell 21 .

In the waterproof shield connector 11 of the first embodiment, the housing seal portion 29 and the terminal seal portion 31 are integrally connected by a connecting portion 33 . That is, the housing seal portion 29 and the terminal seal portion 31 constitute an integral "seal cap 91" connected by the connecting portion 33. As shown in FIG. The seal cap 91 is a seal member integrally formed of an elastic material such as synthetic rubber.

In addition, in the waterproof shield connector 11 of the first embodiment, the terminal seal portion 31 of the seal cap 91 housed in the seal housing portion 38 is separated from the housing seal portion 29 by the rear end portion (end portion) 93 of the housing 23 . It is assembled in a state of being pressed and biased in the direction of separation.

Next, the operation of the waterproof shield connector 11 according to the first embodiment will be described.
In the waterproof shield connector 11 according to the first embodiment, part of the shielded wire 17 is housed in the housing 23 . The outermost sheath 19 of the shielded wire 17 is removed in the housing 23 to expose the shield member 55 . A shield terminal 25 is externally attached to the terminal of the sheath 19 . The shield terminal 25 is covered with a folded shield member 55 on the outer periphery of the sheath externally inserted portion 59 on the distal end side, and is crimped and fixed on the outer periphery by the shield sleeve 65 . The rear end side of the shield terminal 25 where the shield wire 17 extends is exposed from the housing 23 . The shield shell 21 is assembled with the housing 23 . The shield shell 21 covers the housing 23 and contacts the outer periphery of the wire seal contact portion 63 on the rear end side of the shield terminal 25 exposed from the housing 23 . The shield terminal 25 is water-tightly sealed by the wire seal member 27 between the inner periphery of the wire seal contact portion 63 on the rear end side and the sheath 19 of the shield wire 17 .

The end of the inner coating 53 of the shielded wire 17 is exposed between the terminal 35 connected to the core wire conductor 51 and the folded shield member 55 . The shielded wire 17 is water-tightly sealed by the housing seal portion 29 of the seal cap 91 between the outer periphery of the exposed inner coating 53 and the inner surface of the housing 23 .

In the shield terminal 25 , the outer periphery of the terminal seal contact portion 61 faces the inner periphery of the shield shell 21 . A terminal seal portion 31 of a seal cap 91 provides a watertight seal between the terminal seal portion contact portion 61 of the shield terminal 25 and the inner circumference of the shield shell 21 .

A housing seal portion 29 that water-tightly seals the space between the inner coating 53 and the housing 23 and a terminal seal portion 31 that water-tightly seals the space between the shield terminal 25 and the shield shell 21 are connected by a connecting portion 33. . That is, the housing seal portion 29 and the terminal seal portion 31 form an integrated seal cap 91 connected by the connecting portion 33 .

The connecting portion 33 is formed in a cylindrical shape. The housing seal portion 29 is formed in an annular shape on the distal end side of the connecting portion 33 so as to protrude radially inward from the inner coating 53 . On the other hand, the terminal seal portion 31 is formed in an annular shape on the rear end side of the connecting portion 33 so as to protrude radially outward.

Therefore, the crimped portion of the shield member 55 and the shield terminal 25 is secured by the seal cap 91 (housing seal portion 29, connecting portion 33, terminal seal portion 31), shield terminal 25, inner coating 53, sheath 19 and wire seal member 27. , will be housed in a sealed space watertightly cut off from the outside.

In the waterproof shield connector 11 of the first embodiment, the seal cap 91 and the wire seal member 27 are separated by using the shield terminal 25 as a basic component and the inner coating 53 and the sheath 19 of the shield wire 17. With two parts, the crimped portion can be sealed in an enclosed space for a watertight seal. As a result, the waterproof function can be obtained with a smaller number of parts and a simpler structure than the conventional waterproof structure that requires the four parts of the plug member, the seal packing, the first seal cap, and the second seal cap.

Furthermore, in the waterproof shield connector 11 of the first embodiment, the terminal seal portion 31 can block the entry path of water reaching the outer periphery of the shield terminal 25 from between the housing 23 and the shield shell 21 . As a result, it is possible to prevent water from entering between the shield shell 21 and the shield terminal 25 and accumulating without being discharged. Therefore, in the waterproof shield connector 11, it is possible to prevent the crimped portion of the shield member 55 against the shield terminal 25, the shield shell 21, and the shield terminal 25 from being corroded and deteriorating in waterproofness.

Further, in the waterproof shield connector 11 of the first embodiment, the terminal seal portion 31 connected to the housing seal portion 29 by the connecting portion 33 is pushed away from the housing seal portion 29 by the rear end portion 93 of the housing 23 . Assembled in a biased state. That is, the terminal seal portion 31 connected to the housing seal portion 29 by the connecting portion 33 protrudes in an annular shape from the rear end side of the connecting portion 33 to the outer diameter side so as to contact the inner circumference of the shield shell 21 . Therefore, the rear end portion 93 of the housing 23 can be brought into contact with the front end surface 97 of the annular terminal seal portion 31 protruding to the outer diameter side to form a watertight seal. As a result, it is possible to prevent water from entering and accumulating between the outer circumference of the connecting portion 33 and the inner circumference of the housing 23 . As a result, it is possible to eliminate water stagnation inside the housing and prevent dew condensation or the like due to high humidity inside the housing.

Further, the terminal seal portion 31 of the seal cap 91 accommodated in the seal accommodation portion 38 is assembled while being pressed and biased by the rear end portion 93 of the housing 23, thereby positioning the seal cap 91 at an appropriate position. can. As a result, watertight sealing failure due to misalignment of the seal cap 91 is less likely to occur.

FIG. 5 is an enlarged view showing a modification of the terminal seal portion 31 shown in FIG.
Furthermore, the waterproof shield connector 11 may be provided with a lip 99 on the tip surface 97 of the terminal seal portion 31 as shown in FIG. One lip 99 may be provided annularly, or a plurality of lips (for example, two in the illustrated example) may be provided concentrically. Since the terminal seal portion 31 is provided with the lip 99, it is possible to more reliably block the entry of water between the outer periphery of the connecting portion 33 and the inner periphery of the housing 23, thereby reliably preventing water from accumulating. As a result, dew condensation or the like can be made more difficult to occur.

FIG. 6 is a partially broken perspective view showing a housing 23A and a seal cap 91A in a waterproof shield connector according to a second embodiment of the invention. FIG. 7 is a cross-sectional view showing the vicinity of the terminal seal portion 31 in the waterproof shield connector shown in FIG. 8 is an enlarged view of the B portion of FIG. 7. FIG. Constituent members similar to those of the waterproof shield connector 11 according to the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.

As shown in FIGS. 6 to 8, an annular groove 34 extending in the circumferential direction is recessed in the inner peripheral surface of the seal accommodating portion 38 of the housing 23A in which the seal cap 91A is accommodated. The annular groove 34 according to the second embodiment is a groove having a substantially U-shaped cross section, but the annular groove of the present invention is not limited to this, and may have various shapes such as a V-shaped cross section and a semi-circular cross section. It goes without saying that a cross-sectional shape can be adopted.

As shown in FIGS. 6 to 8, a locking portion 32, which is an annular projection that protrudes radially and extends in the circumferential direction, is provided on the outer peripheral surface of the connecting portion 33 of the seal cap 91A. The locking portion 32 according to the second embodiment is formed of a synthetic resin material harder than the material of the connecting portion 33, and is integrated with the connecting portion 33 of the seal cap 91A formed of a synthetic rubber material by two-color molding or the like. molded. The engaging portion of the present invention is not limited to this, and needless to say, a separately formed engaging portion may be attached to the connecting portion of the seal cap, or may be integrally formed with the connecting portion of the seal cap. Further, the locking portion of the present invention is not limited to the annular protrusion extending in the circumferential direction, and is arranged on the outer peripheral surface so as to be symmetrical with respect to a straight line orthogonal to the central axis of the cylindrical connecting portion 33. A plurality of protrusions may be used.

Further, a tapered portion 36 is provided on the inner peripheral surface of the seal accommodating portion 38 of the housing 23</b>A on the rear end portion 93 side of the annular groove 34 so that the opening diameter increases toward the rear end portion 93 . When the seal cap 91A is inserted into the seal accommodating portion 38, the taper 36 guides the insertion of the engaging portion 32 provided on the outer peripheral surface of the connecting portion 33, thereby enabling smooth assembly work. Further, when the housing 23A is injection-molded, it is necessary to forcibly remove the mold in order to form the annular groove 34 as an undercut on the inner peripheral surface of the seal accommodating portion 38. As shown in FIG. Therefore, by forming the taper 36 on the inner peripheral surface on the rear end portion 93 side, it is possible to smoothly remove the mold having the annular groove 34 formed therein.

Next, the operation of the waterproof shield connector according to the second embodiment will be described.
According to the waterproof shield connector according to the second embodiment, the seal cap 91A in which the housing seal portion 29 and the terminal seal portion 31 are integrally connected by the connecting portion 33 is configured such that the locking portion 32 of the connecting portion 33 is connected to the housing 23A. By being locked in the annular groove 34 of the connector, even if pressure (water pressure, air pressure) is applied from the outside of the connector, it is difficult to shift from the specified position. Further, when the seal cap 91A is assembled to the housing 23A, the operator can feel a "click" when the engaging portion 32 is fitted into the annular groove 34, and the operator can sensuously assemble the seal cap 91A into the prescribed position. can be attached. Therefore, it is possible to prevent variation in the assembly position of the seal cap 91A due to a change in the operator. Of course, the waterproof shield connector according to the second embodiment has effects similar to those of the waterproof shield connector 11 according to the first embodiment described above.

Further, according to the waterproof shield connector according to the second embodiment, the synthetic rubber (elastic material), which is harder than the connecting portion 33 integrally molded with the housing seal portion 29 and the terminal seal portion 31, makes the synthetic resin (hard material) A locking portion 32 is formed. Therefore, the engaging portion 32 has a higher engaging force with respect to the annular groove 34 and a greater response when it is fitted into the annular groove 34 .

Therefore, according to the waterproof shield connector 11 according to the present embodiment, it is possible to obtain a waterproof function with a smaller number of parts and a simpler structure than in the prior art.

It should be noted that the present invention is not limited to the above-described embodiments, and can be modified, improved, etc. as appropriate. In addition, the material, shape, size, number, location, etc. of each component in the above-described embodiment are arbitrary and not limited as long as the present invention can be achieved.

Here, the features of the embodiments of the waterproof shield connector according to the present invention described above are briefly summarized in [1] to [4] below.
[1] A housing (23) for housing a shielded wire (17);
a shield terminal (25) electrically connected to the shield member (55) of the shield wire (17);
a shield shell (21) assembled to the housing (23, 23A) to cover the housing (23, 23A) and contact the shield terminal (25) exposed from the housing (23, 23A);
a wire sealing member (27) for water-tightly sealing between the shield terminal (25) and the sheath (19) of the shield wire (17);
a housing seal portion (29) for watertight sealing between the inner coating (53) of the shielded wire (17) and the housing (23, 23A);
a terminal seal portion (31) for watertight sealing between the shield terminal (25) and the shield shell (21);
a connecting portion (33) connecting the housing seal portion (29) and the terminal seal portion (31);
A waterproof shielded connector (11) comprising:
[2] The terminal seal portion (31) is assembled while being pressed and biased in a direction away from the housing seal portion (29) by the end portion (rear end portion 93) of the housing (23, 23A). The waterproof shield connector (11) according to the above [1], characterized by:
[3] A locking portion (32) projecting from the outer peripheral surface of the connecting portion (33) is locked to an annular groove (34) recessed from the inner peripheral surface of the housing (23A). The waterproof shield connector according to the above [1] or [2], characterized by:
[4] The waterproof shield connector according to [3], wherein the engaging portion (32) is made of a material harder than that of the connecting portion (33).

DESCRIPTION OF SYMBOLS 11... Waterproof shield connector 17... Shield wire 19... Sheath 21... Shield shell 23... Housing 25... Shield terminal 27... Wire seal member 29... Housing seal part 31... Terminal seal part 33... Connection part 53... Inner coating 55... Shield member 67 Lower shell 69 Upper shell 93 Rear end (end)

Claims (3)

a housing that accommodates the shielded wire;
a shield terminal electrically connected to the shield member of the shield wire;
a shield shell assembled to the housing to cover the housing and contact the shield terminal exposed from the housing;
a wire sealing member for water-tightly sealing between the shield terminal and the sheath of the shield wire;
a housing seal portion for water-tightly sealing between the inner coating of the shielded wire and the housing;
a terminal seal portion for water-tightly sealing between the shield terminal and the shield shell;
a connecting portion that connects the housing seal portion and the terminal seal portion;
with
The connecting portion is formed in a cylindrical shape, the housing seal portion is formed in an annular shape so as to protrude radially inward from the distal end side of the connecting portion, and the terminal seal portion has an outer diameter at the rear end side of the connecting portion. protruded to the side and formed in a ring shape,
an end portion on the rear end side of the housing is positioned on the outer diameter side of the connecting portion so as to face the annular tip surface of the terminal seal portion;
the distal end of the sheath is located on the inner diameter side of the connecting portion so as to face the annular rear end surface of the housing seal portion;
the end of the housing is located on the rear end side of the end of the sheath;
The waterproof shield connector , wherein the terminal seal portion is assembled in a state in which the tip surface is pressed and biased by the end portion of the housing in a direction away from the housing seal portion . 2. The waterproof shield connector according to claim 1 , wherein the engaging portion projecting from the outer peripheral surface of the connecting portion is engaged with an annular groove recessed in the inner peripheral surface of the housing . a housing that accommodates the shielded wire;
a shield terminal electrically connected to the shield member of the shield wire;
a shield shell assembled to the housing to cover the housing and contact the shield terminal exposed from the housing;
a wire sealing member for water-tightly sealing between the shield terminal and the sheath of the shield wire;
a housing seal portion for water-tightly sealing between the inner coating of the shielded wire and the housing;
a terminal seal portion for water-tightly sealing between the shield terminal and the shield shell;
a connecting portion that connects the housing seal portion and the terminal seal portion;
with
a locking portion projecting from the outer peripheral surface of the connecting portion is locked to an annular groove recessed in the inner peripheral surface of the housing;
A waterproof shield connector, wherein the engaging portion is made of a material harder than that of the connecting portion .

Images