The invention relates to a fixing device for fixing a cable to a housing feed-through according to the preamble of claim 1.
Fixing device for fixing cables to a housing feed-through are known in various designs. A need for improvement exists particularly with a view to simplifying the handling as much as possible.
The solution of this problem is the purpose of the invention.
The invention solves this problem with the object of claim 1.
The invention creates a fixing device for cables which have at least one conductor which is provided with at least one insulation, on a housing feed-through of a housing, where the fixing device presents a locking ring which can be fixed axially to the outer circumference of the cable, and where the locking ring is fixed on the housing in a locking manner.
According to the invention, a cable denotes a conductor which is enclosed by at least one insulation. To the extent that more than one conductor is provided, each enclosed by an insulation, these conductors can be embedded in a supplemental cable jacket and/or enclosed by a cable shield.
According to the object of claim 1, a fixing device for housing feed-throughs is produced, which is particularly easy to handle and nevertheless particularly reliable.
In a simple design for the fixation of the cable on the housing feed-through in a locking manner, it is advantageous to design corresponding locking means on the locking ring and on the housing.
According to an additional preferred embodiment, the housing presents a feed-through channel which is designed for feeding the cable through same, and for receiving a ring attachment of the locking ring.
To be able to accommodate the ring attachment and optionally a seal in this feed-through channel, it is advantageous for the housing to have a housing attachment which is provided with a feed-through channel. In this way, the feed-through channel can have a greater length than the thickness of the housing wall outside of the housing attachment.
According to a preferred embodiment, the fixing device can also be designed with a sealing element of higher protection class, particularly a radially acting O ring.
It is advantageous if the locking ring is provided with at least one fixing element for the axial attachment of the locking ring on the outer circumference of the cable. The cable feed-through is thus suitable for absorbing very large tensile forces.
According to a variant which has a particularly simple construction while being nonetheless particularly reliable operationally, the fixing element can be designed as a threaded pin which can be screwed into a radial threaded bore of the locking ring. In this connection, the cost effective design, with only a few elements, should also be emphasized. There is no need for a separate strain relief in addition to the threaded pin.
It should be noted that, instead of the threaded pin as fixing element, other fixing elements can be provided, for example, commercial screws, a clamping and/or cutting fork which fixes the insulation by clamping same in a fixed position, or by slight incision at the radius, so that the clamping and/or cutting cable is fixed axially on the outer circumference of the conductor, where the clamping or cutting cable can be screwed radially into a corresponding recess on the locking ring.
In an embodiment of the connection devices as direct plug-in connection clamp (push-in), it is additionally possible that the connection of the conductor, and the fixing of the fixing ring on the housing feed-through or on the ring attachment occur in only a single work step. A simple and reliable installation in the field is thus made possible.
Furthermore, it should be noted that the conductor end can also be provided optionally with a clamp contact and/or different contact, which itself can then be inserted in a connection device. With a view to the connection device, it should be added, moreover, that the latter can also be a tension spring, particularly in the open position.
For the state of the art, the following are mentioned: DE 10 2006 007 604 A1, DE 20 2004 005 878 U1, DE 202 05 059 U1, DE 202 17 501 U1, DE 62 06 714 B1 and DE 209 29 205 T2.
Advantageous embodiments of the invention can be obtained from the dependent claims.
Below, the invention is described further using embodiment examples in reference to the drawings. The figures show:
The housing 5 is designed particularly preferred embodiment as a connection box for the connection of conductors to conductors (not shown here) of a solar panel. The housing 5 presents a multi-part construction with a lower part 6 and a cover part 7.
In a preferred embodiment of the housing 5 as connection box for solar panels, the housing 5 contains a connection for connecting conductor ends to solar panels (not shown here), and the housing 5 is fixed to the solar panel.
The housing 5 serves, furthermore, to receive electrical or electronic components, particularly diodes. Furthermore, it is used for connecting the conductor 2 to the solar panel. For this purpose, connection devices 8 are arranged in the housing 5, which are designed as connection clamps, in a preferred embodiment. The connection clamps can be particularly screw clamps or spring clamps; however, they can also be designed using a different connection technology. It is particularly preferred to use so-called pressure spring clamps with the direct plug-in technology (push-in), which are designed in such a way that the inserted conductor 2 displaces a clamp spring as it is introduced, pressing the inserted conductor 2 against a current bar 3, so that a conducting contact is established. Such push-in contacts which are particularly suitable for a quick connection requiring no tools are known in themselves, and thus not described further here.
An electrical contact is established by inserting the conductor 2 into the connection device 8, and contacting the conductor 2 with the connection devices 8. Here it is necessary to lead the conductor 2 with the insulation 3 through the housing feed-through 4, and fix it in this area axially for strain relief. It is particularly preferred here to produce a sealed housing feed-through 4 having a relatively high protection type, so that the housing 5 can be used on solar panels, even outdoors.
The housing feed-through 4 of the housing 5 presents, on the housing 5, and protruding towards its outer side, a housing attachment 9, which preferably has a cylindrical interior at least in sections, with a feed-through channel 10 for the cable 2. On the outer circumference of the housing attachment 9 (see also
The locking ring 13 presents a substantially cylindrical ring attachment 14, which is designed in such a way that it can be plugged in a corresponding first inner section 15 of the housing attachment 9. The locking ring presents furthermore a cable feed-through channel 25 which passes axially through same, and a flange section 26 which, in the mounted state, closes off the attachment 9 at the free end to a large extent, and through which the cable passes.
The feed-through channel 10 is designed as a housing wall break-through. It presents a stepped contour. towards the outside, the first inner section 15 of larger inner diameter is provided, which is followed by a second inner section 16 of smaller inner diameter towards the housing interior, whose circumference corresponds substantially to the outer circumference of the cable to be connected, in this case the conductor 2 with the insulation 3.
The inner section 15, on the other hand, presents an inner diameter which corresponds to the outer diameter of the ring attachment 14 of the locking ring 13, where the inner diameter of the locking ring 13 is adapted to the outer diameter of the cable, that is, the conductor 2 with the insulation 3.
It is preferred to arrange a sealing element between the axial end—facing the housing interior—of the ring attachment 14 of the locking ring 13, and the stepping between the inner sections 15 and 16 of the feed-through channel 10. This sealing element is designed preferably as a sealing ring 17.
In particular, as sealing ring, an O ring or a gasket is used, which is designed in such a manner that its cross section is slightly larger than the radial separation between the outer diameter of the conductor insulation 3 and the inner circumference of the inner section 15 of the feed-through channel 10. This seal can also be omitted, and sealing can be achieved by interference fit. This is sealed by the ring 13, which is pressed into the housing, by means of plastic (particularly in case of lower sealing classes).
In this way, the sealing ring has a radial sealing action, which results in an excellent sealing effect on the housing feed-through 4.
The transition between the inner sections 15 and 16 can present a conical design. Furthermore, it is conceivable that the internal inner section 16 of the feed-through channel 10 is followed by an additional conical inner section 23, which forms a kind of introduction funnel for introducing the conductor 2 into the connection device 8.
On the outer axial end, the feed-through channel can also have an area 27 with still larger diameter (optionally with a polygonal inner contour), into which the flange-like axial end 26 of the locking ring 13 can be introduced.
In this connection it should be noted that the conductor end, in an embodiment of the connection device 8 as a push-in clamp, is insulated at its free end.
The locking ring 13 is slipped prior to the installation on the free cable end (see
This attachment occurs by means of a fixing element 18. The fixing element 18 can be designed as a threaded pin which can be screwed into an axially extending threaded bore 19 in the ring attachment 14 of the locking ring 13. In this way, the locking ring 13 can be fixed in a simple way on the outer diameter of the cable.
It is advantageous to dimension the threaded pin 18 in such a way that, during the fixing, it can be screwed radially completely into the threaded bore 19, so that its radial end no longer protrudes out of the threaded bore 19.
In the area of the threaded bore 19, the ring attachment 14 can be provided furthermore with a radial projection 20. This radial projection 20 is designed to be moved into a corresponding reception pocket 21 in the feed-through channel 10. As a result, it is ensured that, after the installation, the threaded pin 18 cannot rotate radially out of the threaded bore.
The locking hooks 12 on the locking ring 13 are formed on one or more, preferably on two, locking ledges 22 which extend radially outside of the outer circumference of the ring attachment 14 parallel to the latter, where the ledges 22 are arranged radially at some separation from the ring attachment 14, so that they can engage over the housing attachment 9 of the outer circumference. The locking hooks 11 are arranged on the outer circumference of the housing attachment 9, preferably in radially extending reception guides 24 for the locking arms 22, which are also preferably diametrically opposite, like the locking arms.
For the installation, the locking ring 13 is first slipped on the free cable end, which is optionally insulated before or after.
Moreover, the locking ring 13 is fixed with the fixing element 18, preferably with the threaded pin, in the bore 19 in the appropriate position. Before or thereafter, the sealing ring 17 slipped on slipped on the ring attachment 14, and the preinstalled unit is introduced in the axial direction into the housing 5, where the conductor 2 reaches into the feed-through channel 10.
The insertion of the cable with the conductor 2 and the conductor insulation 3 into the ring attachment 14 occurs until the locking hooks 12 snap in behind the locking hooks 11 of the ring attachment 14. In this state, the cable is fixed with seal on the housing cover. Then, the housing cover is placed on the housing lower part. As can be seen in
While the locking hooks, according to the enclosed figures, are arranged radially towards the interior on the locking arms 22, they can also be oriented differently according to alternative designs. Thus, the locking hooks can point outward, or locking clasps could be formed, that is, a divided locking arm, where, on the locking arm ends, two locking hook arrangements (not shown here) are provided which point away from each other
Finally, it should be noted that two, preferably mutually diametrically facing, radial bores 19 and projections 20 in/on the locking ring 13 provide the advantage that the fixation of the threaded pin 18 can occur in each case from the easiest accessible installation position. In addition, the insulation of the cable is pressed with fixing effect into the respective facing threaded bore 19 which remains empty.
In addition, the locking hooks do not necessarily have to be under preliminary tension according to the invention, to achieve a radial sealing, which has an advantageous effect on the service life.
The sealing effect in the area of the sealing ring 17 can optionally be increased further by a labyrinth-like design of the areas abutting the sealing ring.
Number | Date | Country | Kind |
---|---|---|---|
202009000899.1 | Jan 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2010/050291 | 1/12/2010 | WO | 00 | 7/8/2011 |