1. Field of the Invention
The invention pertains to a locking device for connector housings that comprises an actuating handle and two locking elements that are rotatable on two bearing pins arranged on a first connector housing half and lockable on two locking pins arranged on a second connector housing half, wherein the two locking elements respectively consist of a one-piece wire element.
A locking device of this type is required for connecting two connector housing halves to one another in an environmentally protected fashion.
2. Description of the Related Art
Publication DE 29 15 574 C2 discloses a housing half closure for multipolar electric connectors with one or even two locking clips that can be pivoted about bearing pins of a lower housing part and are manufactured of the spring steel wire. Such a locking clip is provided with eyelets, a first spring section that is bent in an Ω-like fashion, a catch hook with a slide-on curvature and a second spring section that is bent in an Ω-like fashion. It is furthermore disclosed that a handle part is snapped onto the locking clip. During the closing process, the opening width of the first Ω-like spring section is increased by a force acting upon the connecting section. This causes slide-on curvatures of the locking clip to be bent upward such that they can slide over a bearing pin of the upper housing part. In addition, the unlocking process is also simplified with the proposed housing half closure.
Such a device requires a high elasticity of the locking clip that, in turn, reduces the locking forces. This device therefore is also not stable with respect to its handling.
EP 0 731 534 B1 discloses an electric connector, in which a U-shaped locking clip that can be pivoted about bearing pins of one connector half features pockets in its lateral parts, wherein a specially shaped spring element is respectively arranged in said pockets and makes it possible to lock the connector in cooperation with a locking pin arranged on the second housing half. Such a locking device requires many individual small parts and the manufacture of the locking clip is relatively complicated.
In other locking devices of this design, the locking clips are essentially manufactured of an elastic plastic material and can be elastically bent in such a way that they can be pushed over the bearing pins of an existing connector housing half and engaged at this location. However, these locking clips do not have a sufficient environmental resistance for many applications and are, in particular, not sufficiently heat-resistant for many applications such as, for example, in the vicinity of a blast furnace during the operation thereof.
In the past, it was determined that the locking devices of connectors exhibit particularly significant wear, especially under extreme environmental conditions such as, for example, heat or humidity. These wear phenomena frequently do not manifest themselves until the connector is installed at the site of operation. Consequently, one disadvantage of the state of the art can be seen in that it is impossible or requires great effort to exchange the original locking devices of existing connectors with corresponding locking devices that are more environmentally resistant and, in particular, more heat-resistant.
The invention therefore is based on the objective of developing a locking device for two matching connector housing halves that is designed in the simplest mechanical and most cost-efficient fashion possible and does not exhibit the aforementioned disadvantages.
This objective is attained in that each locking element is realized in the form of a C-shaped limb with two limb ends that are initially bent inward and can then be connected to the actuating handle in a parallel alignment such that they perpendicularly intersect the C-shaped limb, wherein the limb features on the first limb end a part that is realized in the form of an open eyelet and serves for encompassing one of the two bearing pins, and wherein the limb features on the second limb end a bend, the end region of which is provided as a slide-on curvature, as well as a part that is realized in the form of an indentation and serves for producing a snap connection with one of the two locking pins of the second connector housing half.
The invention concerns a locking device for connector housings, particularly so-called “heavy-duty connectors,” in which it must be possible to lock the two housing halves relative to one another in such a way that an environmentally safe protection of internal connector elements is ensured.
The separable connection between the respective locking element and the actuating handle is advantageously suitable for arranging a new, environmentally resistant locking device on an already existing connector system in an unproblematic fashion such that the retrofitting of existing connector systems is significantly simplified.
Consequently, it is particularly advantageous that such a locking device can be subsequently installed, for example, at the site of operation and on already installed housing halves. This significantly simplifies the exchange of a locking device that is not as environmentally resistant with a locking device that has a correspondingly superior environmental resistance.
Another advantage attained with the invention can be seen in that the locking device features an exchangeable actuating handle, into which two locking elements that are mirror-symmetrical to one another can be inserted and engaged therein.
As described further below, the locking device makes it possible to achieve a particularly advantageous ratio between actuating and retention forces. During the locking process, the end piece leading to the first limb end is elastically bent away from the bearing pin by means of a corresponding actuation of the actuating handle and the end piece leading to the second limb end simultaneously is elastically bent toward the corresponding locking pin. A lifting of the slide-on curvatures consequently is ensured such that they can slide over the locking pins during the locking process with comparatively little effort. The thusly achieved particularly advantageous ratio between actuating and retention forces is very important, particularly with respect to heavy-duty connectors, because an environmentally safe protection of the internal connector elements is ensured due to the high retention forces.
Practical experience also showed that the actuating forces during the locking process represent the actual problem in certain connector arrangements while the actuating forces during the unlocking process are comparatively less problematic. Consequently, the optimization of the locking device with respect to a reduction of the actuating forces during the locking process is particularly advantageous for such a connector arrangement.
The wire elements furthermore may be advantageously manufactured in the form of bent wire parts of spring steel wire.
The actuating handle may be realized in the form of an L-shaped extruded section with a continuous oblong hole. This makes it possible to saw several handles from one section with little effort and to arrange locking springs in the ends of the handles in a captive fashion.
One exemplary embodiment of the invention is illustrated in the drawings and described in greater detail below. The figures show:
a is a non-angled locking element,
b is an angled locking element,
A locking device 100 comprises an actuating handle 101 with locking elements 102, 102′ attached to both sides thereof. Such a locking element 102 is illustrated in the form of an individual part in the non-angled state in
The locking element 102 consists of a one-piece spring steel wire and features a C-shaped limb 103 with a first limb end 104 and a second limb end 105.
On the first limb end 104, the locking element is bent inward into an open eyelet 106. The eyelet 106 is followed by an eyelet opening 107, within which the locking element is bent away from the C-shaped limb 103. The locking element furthermore features another bend, due to which the locking element perpendicularly intersects the C-shaped limb 103 in a first end section 108.
On the second limb end 105, the locking element is bent inward by 180° in the shape of a segment of a circle with a suitable curvature radius. The end of this bend forms a slide-on curvature 109. After a short straight section, the locking element features an indentation 110 that also extends in the shape of a segment of a circle. After the indentation 110, the locking element features another bend, due to which it extends parallel to the first end section 108 in a second end section 111 and perpendicularly intersects the C-shaped limb 103.
According to
In another proposed variation, the two end sections 108, 111 are not bent. In this variation, the end sections are also suitable for being connected to a correspondingly designed actuating handle.
Number | Date | Country | Kind |
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20 2009 004 249 U | Mar 2009 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
5658162 | Harting et al. | Aug 1997 | A |
7258557 | Matsubara et al. | Aug 2007 | B2 |
7717723 | Nehm | May 2010 | B2 |
Number | Date | Country |
---|---|---|
29 15 574 | Oct 1980 | DE |
89 08 016 | Aug 1989 | DE |
199 61 708 | Aug 2001 | DE |
10 2004 011509 | Sep 2005 | DE |
10 2004 061046 | Jul 2006 | DE |
0 352 579 | Jan 1990 | EP |
0 731 534 | Sep 1996 | EP |
Number | Date | Country | |
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20100248513 A1 | Sep 2010 | US |