JP2020098678A - Connector cover - Google Patents

Abstract

To provide a connector cover capable of suppressing disconnection of a portion connected with a terminal fitting of a connector in a wire of a wire harness.SOLUTION: In a wire harness 1, an end portion of a wire 2 covered by an insulation 2a is connected to a connection of a female terminal fitting 3 of a connector 4. A connector cover 6 comprises a cover body 7 which is fixed to the connector 4 and encloses the end portion of the wire 2 at the side of the connector 4, and the end portion of the wire 2 is supported by the cover body 7. In detail, a grommet 10 including a penetration hole 10a that the wire 2 penetrates is fitted inside of the cover body 7, and the wire 2 is pressed toward the center by the grommet 10. Transfer of vibration of a portion away from the connector 4 in the wire 2 to the end portion of the wire 2 is suppressed by the grommet 10.SELECTED DRAWING: Figure 1

Description

The present invention relates to a connector cover.

In a wire harness provided in a vehicle such as an automobile, an end portion of an electric wire covered with an insulator is connected to a terminal fitting (for example, a female terminal fitting) of a connector. The connector of such a wire harness is connected to another connector provided in a component mounted on the vehicle. At this time, the female terminal fitting of the connector of the wire harness is connected to the male terminal fitting provided on the other connector.

The connector of the wire harness is provided with a connector cover that protects the connector-side end of the electric wire of the wire harness, as shown in Japanese Patent Laid-Open No. 2004-242242. The connector cover includes a cover body that surrounds the connector-side end of the wire of the wire harness, and the cover body supports the end of the wire.

Specifically, the cover main body is fixed to the connector and forms one radial side of the cover main body, and a first one side portion that can be opened and closed with respect to the first one side portion and the other one of the cover main bodies is provided. A second side portion forming one side of the. A rubber plate is attached to each of the inner side of the first side portion and the inner side of the second side portion. When the second side portion is closed with respect to the first side portion, the end portion of the electric wire in the wire harness is closed. The rubber plates are sandwiched and supported.

In the connector cover, when the portion of the electric wire away from the connector vibrates, the vibration is transmitted to the connector-side end of the electric wire by the rubber plate to some extent. If vibration is transmitted to the connector-side end of the electric wire, the portion connected to the terminal fitting at that end vibrates, whereas the terminal fitting is in a fixed state and does not easily vibrate. A portion of the end of the electric wire connected to the terminal fitting may be broken.

JP, 2004-273135, A

According to the connector cover, the transmission of the vibration of the portion of the wire harness away from the connector side to the connector side end of the wire can be suppressed to some extent by the rubber plate. Depending on the mode of vibration of the part of the connector away from the connector side, the transmission of the vibration may not be suppressed.

For example, when vibration of a portion of the electric wire away from the connector side is large, there is a high possibility that the rubber plate for supporting the end portion of the electric wire on the cover body cannot suppress the transmission of the vibration. When the vibration is transmitted to the end portion of the electric wire on the connector side, as described above, the portion of the end portion of the electric wire connected to the terminal fitting may be broken. Therefore, there is room for further improvement in suppressing the disconnection of the portion of the electric wire connected to the terminal fitting of the connector.

An object of the present invention is to provide a connector cover capable of suppressing disconnection of a portion of an electric wire of a wire harness that is connected to a terminal fitting of a connector.

Hereinafter, the means for solving the above problems and the effects thereof will be described.
A connector cover that solves the above problems is applied to a wire harness in which an end of an electric wire covered with an insulator is connected to a terminal fitting of a connector. The connector cover includes a cover body that is fixed to the connector and surrounds an end portion of the electric wire on the connector side, and the cover body supports the end portion of the electric wire. The cover main body is provided with a holding portion through which the electric wire covered with an insulating material penetrates and which presses the electric wire toward the center thereof.

According to the above configuration, it is possible to suppress transmission of the vibration to the connector-side end portion of the electric wire by the holding portion regardless of the vibration mode of the portion of the electric wire of the wire harness away from the connector side. .. Specifically, even when the vibration of the part of the electric wire away from the connector side is large, not only is the end portion of the electric wire supported by the holding portion of the cover body, but also the center of the electric wire is held by the holding portion. Since it is pressed toward, the vibration suppresses the vibration. As a result, the transmission of the vibration to the above-mentioned end of the electric wire is suppressed. Therefore, it is possible to prevent disconnection of a portion of the end portion of the electric wire connected to the terminal fitting of the connector due to transmission of vibration to the end portion of the electric wire on the connector side.

In the connector cover, the holding portion is a grommet fitted inside the cover body. As this grommet, there is a through hole through which the electric wire passes, and when the grommet is not fitted inside the cover body and the electric wire does not pass through the through hole, the grommet is It is conceivable that the diameter is larger than the inner diameter of the cover body, and the inner diameter of the through hole is smaller than the width of the electric wire.

According to the above configuration, when the electric wire penetrates the through hole of the grommet and the grommet is fitted inside the cover body, the end of the electric wire on the connector side is pressed toward the center of the electric wire by the grommet. Will be done. Due to the pressing of the electric wire by the grommet, it is possible to suppress the vibration of the part of the electric wire away from the connector from being transmitted to the end of the electric wire.

In the above connector cover, it is conceivable to form a concave portion and a convex portion that extend in the circumferential direction and mesh with each other on the inner peripheral surface of the cover body and the outer peripheral surface of the grommet.
According to this structure, the interlocking recesses and protrusions formed on the inner peripheral surface of the cover body and the outer peripheral surface of the grommet prevent the grommet from displacing with respect to the cover body in the direction in which the wire of the wire harness extends. To be done. Therefore, it is possible to more effectively suppress the transmission of the vibration of the part of the electric wire away from the connector to the end portion of the electric wire by the grommet.

The grommet may be made of elastomer.
In the connector cover, it is conceivable that the cover body can be selectively fitted with a grommet suitable for an electric wire from a plurality of grommets having different through holes.

According to this configuration, even if the diameter and the number of electric wires are different depending on the type of the wire harness, the connector side end of the electric wire is formed by using the grommet having the through hole having the inner diameter corresponding to the diameter and the number of the electric wires in the wire harness. The part can be retained in the cover body. Therefore, even when using any of various wire harnesses, it is possible to suppress the vibration of the portion of the electric wire away from the connector from being transmitted to the end of the electric wire by the grommet. Become.

Sectional drawing which shows the whole wire harness. The perspective view which shows the connection mode of the female terminal metal fittings of a connector in a wire harness, and an electric wire. The perspective view which shows roughly the structure of the linear part in a cover main body. The perspective view which shows a grommet. The perspective view which shows a corrugate. Sectional drawing which shows the attachment aspect of the grommet with respect to a cover main body.

Hereinafter, one embodiment of the connector cover will be described with reference to FIGS.
As shown in FIG. 1, a wire harness 1 provided in a vehicle such as an automobile includes an electric wire 2 covered with an insulating portion 2a made of an insulating material, and a terminal metal fitting (in this example, an electric wire 2) connected to an end portion of the electric wire 2. A connector 4 provided with a female terminal fitting 3). The connector 4 of the wire harness 1 is connected to another connector provided on a component mounted on the vehicle. At this time, the female terminal fitting 3 of the connector 4 in the wire harness 1 is connected to the male terminal fitting provided on the other connector.

As shown in FIG. 2, there is a portion of the electric wire 2 which is not covered with the insulating portion 2a at the end portion, whereas the outer periphery of the end portion of the electric wire 2 which is covered with the insulating portion 2a is provided. A cylindrical rubber plug 5 is covered. Further, the female terminal fitting 3 grips a connecting portion 3a fixed and connected to a portion of the end of the electric wire 2 from which the insulating portion 2a is removed, and an outer periphery of the rubber plug 5 at the end of the electric wire 2. And a gripping piece 3b. Then, as shown in FIG. 1, the female terminal fitting 3 is housed in the housing portion 4a of the connector 4 so as not to be extracted. In the wire harness 1 of this embodiment, a plurality of (for example, two) female terminal fittings 3 are housed in the connector 4.

A connector cover 6 that protects the end of the electric wire 2 on the connector 4 side is fixed to the connector 4 of the wire harness 1. The connector cover 6 includes a cover body 7 that surrounds the end of the electric wire 2 on the connector 4 side. The cover body 7 is provided with a curved portion 8 which is attached to the connector 4 and holds the electric wire 2 in a state of being bent by approximately 90°, and a linear portion 9 which is connected to the curved portion 8 and extends linearly. ..

An elastomer grommet 10 having a through hole 10a through which the plurality of electric wires 2 covered by the insulating portion 2a penetrate is fitted in a portion of the cover body 7 near the curved portion 8 inside the straight portion 9. In addition, a cylindrical corrugate 11 for protecting the electric wire 2 is fitted in a portion inside the linear portion 9 that is farther from the curved portion 8 than the grommet 10. Then, by fitting the grommet 10 through which the electric wire 2 penetrates into the straight portion 9 of the cover body 7, the end portion of the electric wire 2 is supported by the cover body 7 via the grommet 10.

FIG. 3 schematically shows the structure of the linear portion 9 of the cover body 7. As can be seen from FIG. 3, the cover body 7 includes a first block 12 that is integrally formed with the curved portion 8 (FIG. 1 ), and a second block 13 that can be opened and closed with respect to the first block 12. , Are equipped. The second block 13 is locked to the first block 12 in a closed state, and can be released from the locked state and opened to the first block 12. There is. Then, with the grommet 10 and the corrugate 11 shown in FIG. 1 sandwiched between the first block 12 and the second block 13, the second block 13 is closed and locked with respect to the first block 12 to cover the cover. The grommet 10 and the corrugated 11 are fitted inside the main body 7.

4 and 5 show the shapes of the outer peripheral surfaces of the grommet 10 and the corrugate 11, respectively. As shown in FIG. 4, concave portions 14 and convex portions 15 extending in the circumferential direction are formed on the outer peripheral surface of the grommet 10 so as to be staggered along the center line of the grommet 10. As shown in FIG. 5, on the outer peripheral surface of the corrugate 11, concave portions 16 and convex portions 17 extending in the circumferential direction are formed so as to be positioned alternately along the center line of the corrugate 11. By the way, the interval between the protrusions 17 in the corrugate 11 is shorter than the interval between the protrusions 15 in the grommet 10.

On the other hand, on the inner peripheral surface of the cover body 7 shown in FIG. 3, the concave portions 18 and the convex portions 19 that mesh with the concave portions 14 and the convex portions 15 (FIG. 4) of the grommet 10, and the concave portions 16 and the convex portions 17 ( A concave portion 20 and a convex portion 21 that mesh with FIG. 5) are formed so as to extend in the circumferential direction. The concave portions 18 and the convex portions 19 are formed so as to be positioned alternately along the center line of the cover body 7, and the concave portions 20 and the convex portions 21 are also formed so as to be positioned alternately along the center line. The interval between the protrusions 21 is shorter than the interval between the protrusions 19 corresponding to the protrusions 15 and 17 of the grommet 10 and the corrugated 11.

Under the condition that the grommet 10 is not fitted inside the cover body 7 and the electric wire 2 does not penetrate the through hole 10a, the outer diameter of the grommet 10 and the inner diameter of the through hole 10a are respectively as follows. It is set to satisfy the conditions of [A] and [B]. [A] The diameter of the outer peripheral surface (including the concave portion 14 and the convex portion 15) of the grommet 10 is larger than the diameter of the inner peripheral surface (including the concave portion 18 and the convex portion 19) of the cover body 7. [B] The inner diameter of the through hole 10a is smaller than the radial width of the plurality of electric wires 2 as a whole.

Since the outer diameter of the grommet 10 and the inner diameter of the through hole 10a are determined so as to satisfy the above conditions [A] and [B], respectively, the grommet 10 and the corrugate are provided inside the cover body 7 as shown in FIG. When 11 is fitted, the grommet 10 presses the electric wire 2 penetrating the through hole 10a toward the center thereof. Specifically, the cover body 7 presses the grommet 10 toward the center of the electric wire 2 as indicated by an arrow Y1, and the grommet 10 presses the electric wire 2 toward the center thereof as indicated by an arrow Y2. Therefore, the grommet 10 plays a role as a holding portion that presses the electric wire 2 toward the center thereof.

Regarding the cover body 7, the grommet 10 is attached to the inside of the cover body 7 by opening and closing the second block 13 with respect to the first block 12. Therefore, a plurality of grommets 10 having different through holes 10a having different inner diameters are prepared, and the grommet 10 having the through holes 10a having an inner diameter suitable for the number and diameter of the electric wires 2 in the wire harness 1 is selected from among the grommets 10. Then, it is possible to fit the selected grommet 10 into the cover body 7.

Next, the operation of the connector cover 6 in the wire harness 1 will be described.
In the wire harness 1, when a portion of the electric wire 2 away from the connector 4 vibrates due to vibration of the vehicle or the like, if the same vibration is transmitted to the end portion of the electric wire 2 on the connector 4 side, the following problem occurs. Occurs. That is, at the end of the electric wire 2 on the connector 4 side, a portion connected to the connecting portion 3a of the female terminal fitting 3 shown in FIG. 2, more specifically, a portion gripped by the gripping piece 3b of the female terminal fitting 3 via the rubber plug 5. However, while vibrating through the above-described vibration transmission, the connecting portion 3a of the female terminal fitting 3 is fixed by the connector 4 and is less likely to vibrate. For this reason, at the end of the electric wire 2 on the connector side, there is a possibility that the portion that is not covered with the insulating portion 2a and that is connected to the connecting portion 3a of the female terminal fitting 3 is broken.

However, the wire harness 1 is provided with the connector cover 6 capable of suppressing the transmission of the vibration to the end portion of the electric wire 2 on the connector 4 side. Specifically, a grommet 10 through which the electric wire 2 penetrates is fitted inside the cover body 7 of the connector cover 6, and the grommet 10 presses the electric wire 2 toward the center thereof. In this case, the vibration is suppressed by the grommet 10 regardless of the generation mode of the vibration, such as a large vibration of a portion of the electric wire 2 away from the connector 4 side. As a result, the same vibration is suppressed from being transmitted to the end of the electric wire 2 on the connector 4 side. Therefore, disconnection of the portion of the end of the electric wire 2 connected to the connecting portion 3a of the female terminal fitting 3 of the connector 4 due to the transmission of the vibration to the end of the electric wire 2 on the connector 4 side is suppressed.

According to this embodiment described in detail above, the following effects can be obtained.
(1) It is possible to suppress disconnection of a portion of the wire 2 of the wire harness 1 on the connector 4 side, which is connected to the connecting portion 3a of the female terminal fitting 3 of the connector 4.

(2) In the grommet 10, the outer diameter and the inner diameter of the through hole 10a are set so as to satisfy the conditions [A] and [B]. Therefore, when the grommet 10 is fitted inside the cover body 7 while the electric wire 2 penetrates the through hole 10a of the grommet 10, the end of the electric wire 2 on the connector 4 side is caused by the grommet 10. It will be pressed toward the center of. By the pressing of the electric wire 2 by the grommet 10, it is possible to suppress the vibration of the part of the electric wire 2 away from the connector 4 from being transmitted to the end portion of the electric wire 2.

(3) In the connector cover 6, the concave portion 14 and the convex portion 15 are formed on the outer peripheral surface of the grommet 10 so as to extend in the circumferential direction, while the concave portion 14 and the convex portion 15 are formed on the inner peripheral surface of the cover body 7. The concave portion 18 and the convex portion 19 that mesh with the concave portion 18 are formed so as to extend in the circumferential direction. Therefore, when the grommet 10 is fitted inside the cover main body 7, the recess 14 and the convex portion 15 and the concave portion 18 and the convex portion 19 which mesh with each other cause the grommet 10 to move in the direction in which the electric wire 2 of the wire harness 1 extends. Displacement with respect to is regulated. Therefore, the grommet 10 can further effectively prevent the vibration of the portion of the electric wire 2 away from the connector 4 from being transmitted to the end portion of the electric wire 2 on the connector 4 side.

(4) The cover body 7 can be selectively fitted with a suitable one for the electric wire 2 of the wire harness 1 from among a plurality of grommets 10 having different through holes 10a having different inner diameters. Therefore, even if the diameter and the number of the electric wires 2 are different for each type of the wire harness 1, the connector in the electric wire 2 is formed by using the grommet 10 having the through hole 10a having the inner diameter corresponding to the diameter and the number of the electric wires 2 in the wire harness 1. The end portion on the 4 side can be held by the cover body 7. Therefore, regardless of which of the various wire harnesses 1 is used, the grommet 10 suppresses the vibration of the portion of the electric wire 2 away from the connector 4 from being transmitted to the end portion of the electric wire 2. can do.

(5) The interval between the protrusions 15 of the grommet 10 and the interval between the protrusions 17 of the corrugated body 11 are different, and correspondingly, the interval between the protrusions 19 of the cover body 7 and the interval between the protrusions 21 are also different. Different. Therefore, it becomes possible to prevent the grommet 10 from being accidentally fitted into the portion of the cover body 7 where the corrugated 11 is fitted.

The above embodiment can be modified as follows, for example.
-The grommet 10 may be formed of a material other than the elastomer.
-The corrugate 11 may be omitted.

-Instead of forming the curved portion 8 in the cover body 7 of the connector cover 6, the linear portion 9 may be formed as a portion that linearly connects to the connector 4.

DESCRIPTION OF SYMBOLS 1... Wire harness, 2... Electric wire, 2a... Insulating part, 3... Female terminal metal fitting, 3a... Connection part, 3b... Gripping piece, 4... Connector, 4a... Accommodating part, 5... Rubber stopper, 6... Connector cover, 7 ... cover body, 8... curved part, 9... straight part, 10a... through hole, 10... grommet, 11... corrugate, 12... first block, 13... second block, 14... concave part, 15... convex part, 16... Concave portion, 17... convex portion, 18... concave portion, 19... convex portion, 20... concave portion, 21... convex portion.

Claims (5)

An end of an electric wire covered with an insulator is applied to a wire harness connected to a terminal fitting of a connector, and is provided with a cover body that is fixed to the connector and surrounds an end of the electric wire on the connector side, In a connector cover that supports the end of the electric wire by the cover body,
The connector cover, wherein the cover main body is provided with a holding portion for penetrating the electric wire covered with the insulator and pressing the electric wire toward the center thereof. The holding portion is a grommet fitted inside the cover body,
The grommet has a through hole through which the electric wire penetrates, the grommet is not fitted inside the cover body, and under the condition that the electric wire does not penetrate the through hole. The connector cover according to claim 1, wherein an outer diameter of the grommet is larger than an inner diameter of the cover body, and an inner diameter of the through hole is smaller than a width of the electric wire. The connector cover according to claim 2, wherein the inner peripheral surface of the cover body and the outer peripheral surface of the grommet are provided with recesses and protrusions that extend in the circumferential direction and mesh with each other. The connector cover according to claim 2 or 3, wherein the grommet is made of an elastomer. The cover body according to any one of claims 2 to 4, wherein a suitable one for the electric wire can be selectively fitted from among a plurality of grommets having different inner diameters of the through holes. Connector cover.