The invention relates to an assembly for an electrical connector comprising:
The invention also relates to an electrical connector comprising this tight assembly.
More particularly, the invention relates to a multiway electrical connector, like a male or a female multiway connector.
This kind of connectors may be used for connecting electrical elements of a motor vehicle to other electrical elements.
Multiway electrical connectors are well known. These connectors are made of a rigid material and includes a plurality of cavities in a back end for receiving a plurality of electrical wires ended by crimped terminal fittings. At their front ends, these connectors are provided with female or male connecting elements for receiving a complementary counterpart connector. Between these two ends, channels extend between corresponding cavities, for receiving the said electrical wires.
Usually, a one-piece or integral resilient mat seal is sandwiched between a front part and a rear part of the connector. The mat seal has a plurality of channels such that, when the mat seal is mounted in the connector, each channel of the mat seal faces an associated channel of the connector.
During the insertion of the electrical wires in the channels of the rear part of the connector, the channels of the mat seal are passed by the plurality of terminal fittings that are then housed in the channels of the front part of the connector. The said terminal fittings are then at the neighboring of the front end of the connector.
The channels of the mat seal are further arranged for tightly maintained the electrical wires.
This resilient mat seal is thus preventing moisture and dust by entering the connector.
It is known by example from EP 0 625 807 to obtain a good tight contact between the electrical wires and the mat seal, by providing the surfaces of the channels with lips extending inwardly. These lips allow the passage of the terminal fittings and then press the electrical wires, when the terminal fittings are passed. The tightness is then ensured.
A problem raised by this kind of mat seal is that, if the cross-section of the wires is not substantially the same as those of the terminal fittings, the passage of the terminal fittings stress the said lips. The latter cannot then press efficiently the wire for ensuring a sufficient tightness.
Additionally, there is a need for mat seals adapted for receiving wires having different cross-sections.
US 2005/0118850 attempts to solve these problems by firstly proposing a mat seal having the following two different types of channels:
Channels of the first type are designed for receiving wires having small cross-sections. The principle is the same as those disclosed in EP 0 625 807.
Channels of the second type are designed for receiving wires having large cross-sections.
In this second type, a portion of the outer surface of the wires is surrounded with a resilient sealing sleeve. This sealing sleeve has lips extending outwardly from its outer surface. The mat seal has further a cross-section equal or greater than the terminal fittings.
The passage of the terminal fittings is then not aggressive to the smooth surface of the mat seal channels, the tightness being then ensured by the pressure of the lips of the sealing sleeve to the smooth surface of the corresponding channels.
Additionally, this tight assembly can provide a tight contact for two wires having different cross-sections.
But the problem stays the same for the wires with small cross-sections.
Additionally, it would be grateful to provide a mat seal having channels designed so that each one can receive wires with different cross-sections.
WO 2004/025787 proposes a tight assembly wherein wires having different cross-sections can be tightly secured in one channel of a mat seal.
This channel has the two following portions:
Wires having large cross-sections are tightly secured at the channel rear portion.
Wires having small cross-sections are provided, on a portion of their outer surface, with sealing sleeve having lips extending outwardly from its outer surface. These wires are then tightly secured at the channel front portion by the lips of the sealing sleeve which are tightly secured at the smooth channel rear portion.
An objective of the invention is to propose a low-cost and easier tight assembly to manufacture, which overcomes the foregoing problems.
A particular objective of the invention is to propose a tight assembly that can ensure the tightness of an electrical connector, that can be used for different cross-sections of electrical wires to connect.
For this purpose, this invention proposes a assembly for an electrical connector comprising:
Other characteristics of this tight assembly are:
it further comprises at least one electrical wire and one terminal fitting fixed to each electrical wire, wherein the said sealing sleeve surrounded the portion of the electrical wire neighboring the terminal fitting;
it further comprises at least one electrical wire which is not surrounded by the said sealing sleeve, wherein the cross-section of this electrical wire is substantially the same as the cross-section of the said sealing sleeve;
the sealing sleeve is partly hold by the terminal fitting;
the mat seal is integrally molded.
According to a second aspect, the invention proposes an electrical connector intended to be connected to a counterpart electrical connector along a plugging axis, comprising:
at least one sealing sleeve entirely surrounding a portion of at least one electrical wire engaged in one of said channels and tightly maintained on said wire, wherein the sealing sleeve has at least a portion with a smooth outer surface and an outer cross-section of said portion chosen such that said portion of the sealing sleeve and the channel lip are in tight engagement with each other when the wire provided with said sealing sleeve is positioned in its respective channel.
Another characteristic of this electrical connector is:
the electrical wires are fixed to metallic terminal fittings.
Other means, objectives and advantages of the invention will appear clearly in support of the following specification, not limitative, illustrated by the following figures:
According to
Each cavity 7a, 7b, 7c . . . can receive a female terminal fitting 4, as previously described, or a male terminal fitting.
A terminal fitting 4 may be crimped around an electrical wire that can have a small cross-section, i.e. a cross-section inferior to the cross-section of the terminal fitting.
A terminal fitting may also be crimped around an electrical wire having substantially the same cross-section as the cross-section of the terminal fitting.
According to the invention, the tight assembly of the connector 1 comprises, on one hand, a resilient multiway mat seal 10, mounted in the connector 1, and, on the other hand, one or several one-piece sealing sleeves 20 fixed to electrical wires 5.
The multiway resilient mat seal 10 comprises one or several channels 11, each aimed to receive an electrical wire 5. More precisely, the multiway resilient mat seal 10 comprises a channel 11 extending from the end of each cavity 7a, 7b, 7c . . . of the connector 1. Thus, each channel 11 receives an electrical wire 5 which ends in the terminal fitting housed in the cavity located at the extension of the considered channel 11.
If the electrical wire 5 is of a small cross-section, the one-piece sealing sleeve 20, for example tubular-shaped, surrounds the electrical wire 5, on a portion of its length. The one-piece sealing sleeve 20 is smooth i.e. without lip or the like. It can be made from a soft material.
It is introduced in the channel 11 of the mat seal 10. Of course, the tight assembly according to the invention comprises a number of one-piece sealing sleeves that are quite the same as the number of electrical wires that have a small cross-section.
It is to be understood that the one-piece sealing sleeve 20 surrounds the wire 5 at the zone where the electrical connection is not crimped.
The one-piece sealing sleeve 20 has a smooth outer surface. Especially, the one-piece sealing sleeve 20 has no lip.
The sealing sleeve 20 is then easy to manufacture.
Each channel 11 of the multiway mat seal 10 has a generally cylindrical shape from the surface of which at least one lip 12 is extended inwardly, this at least one lip 12 is designed for pressing the sealing sleeve 20 (and thus the electrical wire 5) in order to prevent the penetration of moisture or dust in the connector.
With reference to
In that case, as the cross-section of the electrical wire 5 is substantially the same as or greater than the cross-section of the terminal fitting 4, the passage of the terminal fitting in the channel 11 does not risk to deteriorate the lip(s) 12, and then the quality of its pressure onto the wire 5. The lip(s) 12 ensures then by itself the tightness of the connector. It is thus not necessary in this case to use a one-piece sealing sleeve 20.
Accordingly, depending on the value of the cross-section of the electrical wire 5, the tightness of the connector 1 is ensured by the pressure of the lip(s) 12 either on the one-piece sealing sleeve 20 (
As shown in
As shown in
This
As previously suggested, such a one-piece sealing sleeve 20 has the advantage of locally increasing the cross-section of the electrical wire 5, if the latter is small in comparison to those of the terminal fitting 4.
It is to be noticed that a tightness is also ensured between the sealing sleeve 20 and the electrical wire 5 by a manner known per se by the man skilled in the art.
With reference to
At least one of these channels is provided with the said at least one lip 12, extending inwardly from the surface of the channel. This lip 12 is designed for leaving a free space 12a at its center. The cross-section of this free space 12a is inferior to the cross-section of the one-piece sealing sleeve 20 and of the electrical wires 5 having large cross-section.
Thus the one-piece sealing sleeve 20 (
The multiway mat seal 10 according to the invention can be manufactured in two plates 10a and 10b positioned one to the other such that the channels be in accordance. The two plates can be fixed together by different means of fixation like for example some glue.
Alternatively, the resilient mat seal 10 may be manufactured in one piece.
In the embodiment illustrated by
The tight assembly according to the invention permits then to connect different types of electrical wires 5 in one channel 11 of the connector 1.
Additionally, the tight assembly is easy to manufacture, as the one-piece sealing sleeve has a simple shape (like a cylindrical shape), with no need of lips or other specific elements.
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/IB2006/003461 | 7/13/2006 | WO | 00 | 7/9/2009 |