DE3538931A1 - Wishbone - Google Patents

Abstract

The invention relates to a wishbone with a clamping device for fastening it to a mast, the clamping device having two clamping jaws appropriately curved for embracing the mast and a pivot spindle for the spars, preferably connected to one another via a wishbone end piece. A simple and reliable construction which permits quick handling is achieved in that the pivot spindle for the spars is of two-piece design (2, 3), that the clamping jaws (6, 7) are mounted between the two parts of the pivot spindle and are held via the latter on the wishbone in such a way as to be axially movable to a limited extent, and that at least one construction element increasingly producing a constriction with the pivoting movement of the spars into their position of use is located between the spars as a means (10, 11) pressing the clamping jaws (6, 7) against the mast (8), which spars are preferably connected to one another via a wishbone head piece (1) (Fig. 1). <IMAGE>

Description

The present invention relates to booms accordingly the preamble of claim 1.

Such booms are for example from DE-A 1 34 09 782 known. They have a connecting part on which the two Jaws are mounted by means of a swivel axis. Furthermore, the connecting part still has one in front of the aforementioned White axes lying and extending transversely to these tere pivot axis on which two mounting sleeves for the mast sided ends of the spars are stored. When in use Forks, these receptacles secure the jaws in their Mast clasp position. By swiveling the spars and thus of the receiving sleeves opposite the clamping jaws come from the Receiving sleeves free and in turn release the mast.

This construction allows compared to more well-known mast Boom connections a simple and quick handling that only by placing the jaws on the mast and then There is pivoting of the spars or vice versa to release the connection. A disadvantage of this construction has been found that the spars are articulated individually on the connecting part. Because namely sufficient system rigidity to perform its function receive, the functional parts must be very compact and thus be heavy, what the practical use value of the construction diminishes. This is probably the reason why this construction so far  has not found its way into practice.

The purpose of the present invention is therefore to create a genus to improve and shape the appropriate boom so that it while maintaining the advantages mentioned above known state of the art also light and still disruptive can be kept unemployable and therefore easy to use cher.

According to the invention, this is due to the characteristic features of claim 1 achieved. Because the spars immediately bar or firmly connected to each other via a boom head piece is a great stiffness with minimal use of materials given. In addition, the relocation of the swivel axis brings the Spier a stockier construction, the noticeable unwanted ent load on the windward clamping jaw when the fork is spread Baums prevented.

In a constructive embodiment of the invention, the two Jaws are movably connected to each other, which causes makes handling easier.

It is expedient as the construction element producing the constriction a cam or wedge is provided. This can rotate with the fork be connected to the tree head piece or formed in one piece with it.  It is equally possible that the constriction creates Construction element in one piece with part of the swivel axis is trained.

For the greatest possible axial movement of the jaw when swiveling Reaching the spars can be the constricting construction element a complementary element on the other part (clamping jaw or boom head piece) opposite, which when swiveling the Spiers also creates a constriction.

It has proven to be particularly advantageous that two simultaneously the constriction-generating construction elements are provided which face each other with respect to the pivot axis for the spars. As a result, the stability of the device without special material use significantly improved.

According to another feature of the present invention, the esp Special realizable with a boom of the type described above is, each of the two jaws carries on its mast receiving side End of a two-armed on a mast-parallel axle journal Lever, which is concave on its side facing the mast is.

This construction is a particularly large clasp of the Masts and thus a particularly strong mast-boom connection.  

Embodiments of the invention are in the following with reference to the drawings explained in more detail. Show it:

Fig. 1 is a plan view of the mast side end of a fork in the tree clamped to the mast state,

Fig. 2 shows a section along the line II-II in Fig. 1,

Fig. 3 is a FIG. 1 corresponding top view, but in the clamped state unge the boom,

Fig. 4 shows a section along the line IV-IV in Fig. 3,

Fig. 5 shows a middle longitudinal section through a boom head piece with the mast clasping jaws, but only shown in half, and

Fig. 6 shows the jaws corresponding to Fig. 5, but in the open state.

The end of the boom according to the invention shown in Figs. 1 to 4 consists of a boom head piece 1, using the known per be and therefore in a manner not shown the two spars are connected with each other. The other two ends of the spars can also be connected in a known manner via a boom end piece, which offers the possibility of connecting a sheet for holding and trimming the sail. Of course, it is equally possible to bend the two spars from one piece accordingly.

A pivot axis formed in the boom head piece 1 according to the invention consists of two parts 2 , 3 , which are each axially immovably mounted in one leg 4 or 5 of the boom head piece. On the opposite ends of the axle parts a jaw 6 or 7 is axially movable limited. To Umklamme tion of a mast 8 , the jaws are curved accordingly. For automatic adaptation to usual mast diameter differences, the clamping jaws can carry elastomeric cushions on their clamping surfaces in a known manner. In the present case, the two jaws are still connected to each other by an elastic web 9 , which strives to keep the jaws apart. In this exemplary embodiment, each clamping jaw has two wedges 10 , 11 as a means pressing it onto the mast, which are diametrically opposite with respect to the axle parts 2 , 3 (see FIGS. 2 and 4). These parts work with complementary but in relation to the use position of the boom by about 90 ° twisted elements, which are formed by inserts 12 , 13 in the legs of the boom head 1 . These inserts are non-rotatably connected to the legs. In order to keep the swivel angle of the boom against the mast as large as possible in a compact design, the end of the boom head 1 protruding from the mast is angled upwards in relation to the use position of the boom (see FIG. 2).

From the position of use of the boom shown in FIGS. 1 and 2, in which a firm connection of the boom to the mast is created by gripping the mast 8 from the jaws 6 , 7 and securing the position by the inserts 12 , 13 Swiveling the boom around its axis formed by the axle parts 2 , 3 reach the position according to FIGS . 3 and 4, in which the clamping of the mast is released, since the wedges 10 , 11 of the clamping jaws 6 , 7 in when pivoting the boom the complementary recesses gene inserts 12 , 13 have occurred. In the present embodiment, this is done under the influence of the elastic web 9th In the absence of such a web, the jaws when removing the boom from the mast practically powerlessly by correspondingly bumping the mast into the created space, so that mast and boom can be easily and quickly separated. Conversely, the fixed connection of the two parts can be achieved just as quickly and easily.

In this version by swiveling the boom into the In the position of use, the narrowing and thus the clasping of the mast producing wedges can be created by others, the average person skilled in the art known elements such as screw-shaped cams or the like replace.

FIGS. 5 and 6 show a design variant in which there still another further inventive idea is realized over addition. In Fig. 5 only one half of a boom head piece 15 with the associated jaws 16 is shown in section, to which the respective second mirror-like half or over the second half of an elastic web 19 connects the second jaw. The mast clamped in FIG. 5 is designated 18 . For a standard plug-in connection with a Spier end of the recess 20 in the leg 21 of the boom head piece 15 is used.

The parts described below are also in mirror-like arrangement on the opposite side of the mast 18 . The clamping jaw 16 is formed in one piece with an axle part 23 which engages in a bearing 23 in the leg 21 of the boom head piece in an axially movable manner. Concentric to the axis part 22 are on the clamping jaw 16, two diametrically opposed cams 24 , 25 vorgese hen, which in relation to FIG. 5 corresponding cams 26 , 27 on the leg 21 are opposite, so that the mast is firmly held between the jaws . As with the previously described design, the cams slide against each other when the boom is pivoted, which creates the necessary space for removing the boom from the mast.

The jaw 16 and also the one not shown opposite it carries at their mast receiving end on a mast parallel axis journal 28 in a corresponding recess 29 a two-armed lever 30th This is curved on its side facing the mast 18 corresponding to the jaw 16 . As can be seen in FIG. 5, this construction brings with it an enlarged mast clasp. In Fig. 6 the insertion of the mast 13 in the direction of arrow 31 between the jaws is shown. By bumping the mast against the inner arm of the lever 30 , its pivoting takes place in the holding position. The pivoting of the boom into its position of use then causes, as in the previously described embodiment, the reduction in the distance between the two clamping jaws from one another and thus the firm clasping of the mast. The elastomeric cushions already mentioned in the description of the first exemplary embodiment for adapting to small mast diameter differences and for uniform pressure distribution can also be used in this embodiment on the clamping jaws as well as on the levers 30 .

Claims (8)

1. boom with a clamping device for its attachment to egg nem mast, the clamping device has two correspondingly curved jaws for clasping the mast and a pivot axis for the spars, which are preferably connected via a fork end piece, characterized in that the pivot axis for the spars is in two parts ( 2 , 3 ; 22 ) is designed so that the clamping jaws ( 6 , 7 ; 16 ) are mounted between the two parts of the swivel axis and are axially limitedly movable on the boom and that between the preferably via a boom head piece ( 1 , 15) with interconnected spars at least an increasingly with the pivotal movement of the spars in their position of use an Ver narrowing generating structural member than the clamping jaws (6, 7; 16) to the mast (8, 18) press-forming means (10, 11; 24 - 27 ) is located. 2. boom according to claim 1, characterized in that the two jaws are movable are interconnected.   3. boom according to claim 1 or 2, characterized in that as the narrowing producing Construction element a cam or wedge is provided. 4. boom according to one of the preceding claims, characterized in that the constricting con structural element rotatably connected to the boom head piece or is integrally formed with this. 5. boom according to one of the preceding claims, characterized in that the constricting con structural element in one piece with part of the pivot axis is formed. 6. boom according to one of the preceding claims, characterized in that the constricting con structural element one complementary element on the other Part (clamping jaw or boom head piece) is opposite, which also creates a constriction when the spars are swiveled. 7. boom according to one of the preceding claims, characterized in that two simultaneously produce the constriction ling construction elements are provided, which are in relation diametrically opposite to the swivel axis. 8. boom in particular according to one of the preceding claims, characterized in that each of the two jaws on their  a two-armed end on a mast paralle len axle pivot bearing lever, which on its towards the mast turned side is concave.