EP0317661A1 - Telescopic wishbone - Google Patents

Abstract

To lock the inner spars (8) to the outer spars (1), the telescopic wishbone in each case has a locking device which has an inner sleeve (17) connected to the outer spar (1) and an outer sleeve (20) which can be screwed onto the inner sleeve (17). The inner sleeve (17) has tongues cut free at its end projecting beyond the outer spar (1). A bead-shaped widened portion (18) and a wedge-shaped blocking section (19) are integrally formed on the tongues. When the outer sleeve (20) is screwed forward, correspondingly inclined inner wall sections of the tapering rear end section of the outer sleeve (20) run onto the bead-shaped widened portion (18) and the wedge-shaped blocking section (19) and press them firmly into a selected groove (10) of the inner wishbone (8) as well as onto its peripheral surface. The connection is locked against rotation to the highest degree. <IMAGE>

Description

The invention relates to a telescopic boom according to the preamble of patent claim 1.

Telescopic booms are already known, in which the spars of the rear boom part engage in the spars of the front boom part and can be non-positively connected to them in a selected insertion length by a locking device. In a known telescopic boom of this type, the locking device consists of a locking ring made of rubber, which is inserted into a selected circumferential groove of the inner spar and is covered by a widened end of the outer spar such that a further insertion of the inner spar is blocked. This creates a non-positive connection in the direction of insertion, but the inner rail always remains freely extendable.

A disadvantage of this known construction is that the outer spar and inner spar are not connected to one another in a rotationally secure manner. While in the early days of surfing the trapezoidal hook was fastened in the chest area and a transverse force acting approximately in the plane of the boom was exerted on the boom boom, today harnesses are mainly used, so that the direction of the very large trapezoidal forces has changed . The direction of force now runs at an angle to the boom level, ie diagonally downwards from the boom boom, which means that the boom is exposed to great loads in the torsion direction.

The boom must therefore have increased stability, with a telescopic boom it is required that the connection between the outer spar and the inner spar is twist-proof, so that the torsional forces occurring when trapeze driving are distributed substantially evenly between the two spars. This is not the case with the known telescopic fork trees of the type under consideration. In the known construction using the locking ring, in which only a non-positive connection is created in the direction of insertion, it can also come to a brief extension of the loaded side of the boom when trapezoidal in the event of abruptly occurring large transverse forces, so that the always free extensibility of the inner spar is also associated with stability problems .

The present invention has for its object to develop a telescopic boom of the type under consideration so that it has increased stability. The locking device of the telescopic boom should create a torsion-proof connection between the outer spar and the inner spar under the conditions that occur in practice, especially when trapeze-driving. In addition, the telescopic boom should be easy to use and have a robust structure.

This object is achieved by the features specified in the characterizing part of patent claim 1. Advantageous developments of the invention are characterized in the subclaims.

According to the invention, the locking device of the boom has an inner sleeve firmly connected to the outer spar with at least one locking portion extending in the circumferential direction of the inner spar and an outer sleeve with a rear end portion with a decreasing inner diameter, the dimensions of the at least one locking portion and the preferably tapering Inner surface of the end portion of the outer sleeve are coordinated so that the locking section is pressed firmly against the inner spar by advancing the outer sleeve on the inner sleeve. This creates a non-positive connection in both the axial direction and in the direction of rotation between the outer spar and the inner spar, which withstands all loads that occur. To release the connection, the outer sleeve is moved back on the inner sleeve, whereby the at least one locking section is released again and can be brought into the desired new position by appropriate insertion or by pulling out the inner spar. The adjustment of the length of the telescopic boom according to the invention and the establishment of a force-fit connection on all sides are carried out in an extremely simple manner.

Axially extending tongues, each of which has at least one locking section, should be cut free from the end section of the inner sleeve protruding beyond the end of the outer spar. The tongues, which are made of an elastic material, allow the radial movement of the locking section between the clamping position and the release position. The tongues are advantageously cut free in such a way that that in the locking position, ie in the radially inner position of the tongues, the lateral longitudinal edges of which lie against one another, as a result of which the torsion resistance of the inner sleeve is increased in the region of the tongues. This also creates a practically watertight connection between the outer spar and the inner spar.

A bulge-shaped thickening can be formed as a blocking section on the free end of the tongues, which can engage in a selected annular locking recess, of which several are formed in the outer surface of the inner spar at an axial distance from one another. The tongues can be shaped so that they spring into the respective groove without being acted upon by the outer sleeve with their thickened portions forming a circular ring, but in this state they allow the free movement of the inner spar by exercising a corresponding pull or Slide the pressure force out of the groove. This considerably simplifies the setting of a new length of the boom compared to the connection described above using rubber rings.

To further increase the protection against rotation of the thickening, it can be provided that the bottom of the latching depressions and / or the opposite peripheral surface of the bead-shaped thickening is or are provided with a profile. This can be a toothing that ensures absolute security against rotation.

According to a further proposal of the invention, the tongues can each be provided with a wedge-like locking section which widens radially in the axial feed direction of the outer sleeve and has a contact surface corresponding to the cylindrical shape of the inner spar and an inclined outer surface on which the tapered inner wall section of the outer sleeve whose feed runs up. The wedge surface of the locking section and the run-up surface of the outer sleeve expediently have a corresponding inclination, which can be straight or curved. The inner surface of the locking section is pressed against the opposite circumferential surface of the inner spar and produces the desired non-positive connection in all directions without detent recesses being formed in the circumferential surface of the inner sleeve. In order to increase the friction between the locking sections of the tongues and the peripheral surface of the inner spar, the latter can be provided with a profile or roughened, this naturally also applies to the contact surface of the locking sections. High friction can also be achieved by coating with a material with a high coefficient of friction.

If the tongues each have only one locking section in the form of the wedge described above, this is expediently formed in the region of the free end of the tongue. In this embodiment, the all-round positive connection is caused exclusively by frictional forces.

According to an alternative proposal of the invention, the tongues can be provided with a bead-shaped thickening at their free end as well as with a wedge-like locking section, which further increases the stability of the boom and achieves maximum strength of the connection both in the axial and in the circumferential direction of the bars becomes. With this design, even the greatest torsional forces can be transmitted from one spar to the other without causing mutual twisting in the connection area.

It is proposed with great advantage that the inner sleeve be provided with an external thread and the outer sleeve with a corresponding internal thread. The feed of the outer sleeve on the inner sleeve is thus accomplished by a screwing process with which a large clamping force can be achieved in a simple manner. The locking position is always reliably maintained.

According to an alternative proposal of the invention, the outer sleeve can be pushed onto the inner sleeve in the axial direction of the spars and fastened in the clamping position of the locking sections by means of a bayonet catch. For this purpose, the outer sleeve can have at least one, but expediently two or three, radially inwardly projecting lugs, which are guided in the associated longitudinal grooves of the inner sleeve and, when the clamping position is reached, can enter laterally angled groove sections by rotating the outer sleeve, as a result of which the outer sleeve can be axially Direction is kept. Since with this design such a large clamping force cannot easily be produced, as is the case with the screw connection described above, the use of a bayonet lock should be particularly expedient if a bead-shaped thickening of the tongues engages in locking recesses and a toothing as additional Anti-rotation device is designed

• Fig. 1 eine perspektivische Ansicht einer ersten Ausführungsform der Verriegelungseinrich­tung des erfindungsgemäßen Teleskopgabel­baums;
• Fig. 2 einen Längsschnitt durch die Verriegelungs­einrichtung gemäß Fig. 1 bei eingesetztem Innenholm;
• Fig. 3 eine zweite Ausführungsform der Erfindung im Längsschnitt und
• Fig. 4 eine dritte Ausführungsform der Erfindung, ebenfalls im Längsschnitt.

Further details of the invention result from the following description of some preferred embodiments and from the drawing. Show:

• Figure 1 is a perspective view of a first embodiment of the locking device of the telescopic boom according to the invention.
• FIG. 2 shows a longitudinal section through the locking device according to FIG. 1 with the inner spar inserted;
• Fig. 3 shows a second embodiment of the invention in longitudinal section and
• Fig. 4 shows a third embodiment of the invention, also in longitudinal section.

As shown in FIG. 1, an inner sleeve 2 is firmly connected to an outer bar 1, onto which an outer sleeve 3 can be screwed for fastening an inner bar not shown in this figure. The inner sleeve 2 has in in its central area a threaded section 4 with a pointed thread, to which an internally threaded section 5 of the outer sleeve 3 corresponds (FIG. 2). At the front end portion of the inner sleeve 2 protruding beyond the outer spar 1, a plurality of tongues 6 are cut free, with such a small space that the longitudinal side edges 7 of the tongues 6 abut one another in their radially inner clamping position. This increases the torsional strength between the outer spar 1 and the inner spar 8 in the locking position and prevents water from entering the inside of the spars.

At the free end of the tongues 6 a bead-shaped thickening 9 is formed, which can snap into one of several axially spaced grooves 10 in the peripheral surface of the inner spar 8.

In order to non-positively connect the inner spar 8 to the outer spar 1 in the selected position, the outer sleeve 3 is advanced by a screwing operation on the inner sleeve 2, the inner wall surface of a rear, tapering end portion 11 running onto the overall annular bead 9 and firmly fitting it presses the selected depression 10. The clamping force indicated by arrows A in FIG. 2 causes a force-locking connection in both the axial directions and in the circumferential direction of the spars 1, 8.

Fig. 3 shows a second embodiment of the invention, in which no grooves are formed in the peripheral surface of the inner spar 12. In this embodiment, the length of the fork is continuously adjustable Baums enables. For this purpose, the inner sleeve 13 has at its cut-out tongues essentially wedge-shaped widening locking sections 14 which are pressed against the inner spar 12 with a bearing surface adapted to the cylindrical shape of the inner spar 12 when a corresponding wedge-shaped end section 15 of the outer sleeve 16 is pressed onto the outer wedge surface of the locking section 14 accumulates. This connection also creates a non-positive connection between the spars 1 and 12.

In the embodiment shown in FIG. 4, both a bulge-shaped thickening 18 and a wedge-like locking section 19 are formed on the tongues of the inner sleeve 17. When the outer sleeve 20 is shifted on the inner sleeve 17, correspondingly inclined inner wall sections of the end section of the outer sleeve 20 run on both the radially outer wedge surface of the locking section 19 and on the bulge-shaped thickening 18, which can advantageously also have a wedge-shaped outer surface, and press the bead-shaped one Thickening 18 firmly against the bottom of the selected groove 10 and the inner surface of the locking portion 19 against the circumferential surface of the inner spar 8. This achieves a maximum clamping force.

In all embodiments of the invention, in order to increase the torsional strength of the spars, a toothing acting in the circumferential direction can be provided between the radially inner surfaces of the locking section and / or the bead-shaped thickening and the associated circumferential surfaces of the inner spar. For this purpose, at least one can preferably extend in the axial direction on each tongue the projection or tooth can be formed, which engages in a corresponding longitudinal recess of the inner spar. The arrangement of the projections and depressions can also be reversed.

Claims (10)

1. telescopic boom, in which the spars, preferably of the rear boom part, are inserted into tubular spars of the front boom part and can be non-positively connected to them in a selected insertion length by one locking device each,
characterized by
that the locking device has an inner sleeve (2, 13, 17) firmly connected to the outer bar (1) with at least one locking section (9, 14, 18, 19) extending in the circumferential direction of the inner bar (8, 12) and an outer sleeve (3, 16, 20) with a rear end section (11) with a decreasing inner diameter and that the tapering inner wall of the outer sleeve runs onto the locking section by pressing the outer sleeve on the inner sleeve and presses it firmly against the inner spar. 2. telescopic boom according to claim 1,
characterized in that axially extending tongues (6), each having at least one locking section (9, 14, 18, 19), are cut out of the end section of the inner sleeve (2, 13, 17) which projects axially beyond the outer spar (1). 3. telescopic boom according to claim 1 or 2,
characterized in that at the free end of the tongues (6) in each case a bead-shaped thickening (9, 18) is formed as a blocking section and in that in the outer surface of the inner spar (8) axially spaced annular locking recesses (10) are formed, into which the bead-shaped Thickening can intervene. 4. telescopic boom according to claim 3,
characterized in that the bottom of the locking recesses (10) and / or the opposite peripheral surface of the bead-shaped thickening (9, 18) is or are provided with a profile. 5. telescopic boom according to one of claims 1 to 4,
characterized in that the tongues are each provided with a wedge-like locking section (14, 19) which widens radially in the axial direction of advance of the outer sleeve, with an inner surface corresponding to the cylindrical shape of the inner spar (8, 12) and an inclined outer surface on which the tapering inner wall portion of the outer sleeve (16, 20) runs as it is advanced. 6. telescopic boom according to claim 5,
characterized in that the peripheral surface of the inner spar and / or the inner surface of the locking portion is or are provided with a profile. 7. telescopic boom according to claim 5 or 6,
characterized in that the wedge-like locking section (14) is formed essentially at the free end of the tongue. 8. telescopic boom according to claim 5 or 6,
characterized in that the wedge-like locking section (19) is formed adjacent to the bead-shaped thickening (18). 9. telescopic boom according to one of claims 1 to 8,
characterized in that the internal sleeve (2, 13, 17) is provided with an external thread (4) and the external sleeve (3, 16, 20) is provided with a corresponding internal thread (5). 10. telescopic boom according to one of claims 1 to 9,
characterized in that the outer sleeve can be advanced axially into the locking position and can be locked in the locking position by means of a bayonet lock.

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