Coupling for connecting construction parts, a truss provided therewith and associated method and use

Abstract

The invention relates to a coupling for connecting construction parts, a truss provided therewith and associated method and use. The coupling comprises a female and a male coupling part. The female coupling part comprises: a tubular receiving part, in the wall of which an opening is provided; a ball which is placed in the opening and which is movable in radial direction of the receiving part; and a locking sleeve which is screwed onto and encloses the receiving part and which by being screwed is movable in the longitudinal direction of the receiving part between an opened position, in which the locking sleeve allows movement of the ball in the opening for the purpose of placing/removing the male coupling part into/from the receiving part, and a closed position in which the locking sleeve locks the male coupling part in the female coupling part with the ball,
wherein the male coupling part is an elongate pin which comprises in its outer wall a groove for the ball.

Claims

1. Coupling for connecting construction parts, comprising: a female coupling part and a male coupling part for placing in the female coupling part, wherein the female coupling part comprises receiving part which is at least partially tubular and comprises at its outer end an insertion opening for receiving the male coupling part in the tubular portion, wherein at least one through-opening is provided in the wall of the tubular portion of the receiving part; a ball which is placed in the at least one through-opening and which is movable in radial direction of the receiving part; and a locking sleeve which is screwed onto the receiving part and encloses the receiving part, wherein by being screwed the locking sleeve is movable relative to the receiving part in the longitudinal direction of the receiving part between an opened position, in which the locking sleeve allows a movement of the ball in the at least one through-opening in a direction away from the longitudinal axis of the receiving part for the purpose of placing the male coupling part into the receiving part or removing it from the receiving part during use, and a closed position in which the locking sleeve presses the at least one ball in the direction of the longitudinal axis of the receiving part for the purpose of locking the male coupling part in the female coupling part with the at least one ball during use, wherein the male coupling part is embodied as an elongate pin which comprises rounded first and second outer ends and in its outer wall a groove for receiving the at least one ball, and wherein the elongate pin has a longitudinal axis and the rounded outer ends are tapered in a direction along the longitudinal axis.

2. Coupling as claimed in claim 1, wherein the locking sleeve is screwed onto the receiving part by means of multiple-start thread.

3. Coupling as claimed in claim 1, the female coupling part further comprising at least one stop for bounding the movement of the locking sleeve relative to the receiving part.

4. Coupling as claimed in claim 3, wherein the stop is provided as a stop ring screwed onto the receiving part.

5. Coupling as claimed in claim 3, wherein the stop is located on a side of the locking sleeve opposite the side of the locking sleeve facing toward the insertion opening for the purpose of bounding movement of the locking sleeve in the direction toward the opened position, wherein the coupling further comprises a clamp which fits clampingly between the stop and the locking sleeve in the closed position of the locking sleeve.

6. Coupling as claimed in claim 1, wherein the groove has an inclining wall for guiding the ball into the groove.

7. Coupling as claimed claim 1, wherein the male coupling part comprises a through-opening in the longitudinal direction.

8. Coupling as claimed in claim 1, wherein the male coupling part is manufactured from an aluminum alloy from the 7000 group in accordance with the International Alloy Designation System (IADS).

9. Coupling as claimed in claim 1, wherein the first outer end of the male coupling part is configured for coupling to the female coupling part and the second outer end of the male coupling part is configured for coupling to a second corresponding female coupling part.

10. Coupling as claimed in claim 9, wherein the female coupling part comprises around the insertion opening of the receiving part a flange for co-action with a second corresponding flange of the second corresponding female coupling part.

11. Coupling as claimed in claim 10, wherein the receiving part of the female coupling part has a recess which is adjacent to the flange and comprises a contact surface, and the male coupling part comprises on its outer wall two contact surfaces facing in opposite directions for co-action with the contact surfaces of the female coupling parts.

12. Coupling as claimed in claim 1, wherein the receiving part of the female coupling part is provided close to the outer end with the insertion opening with a groove having therein an O-ring for clamping the locking sleeve in its closed position.

13. Coupling as claimed in claim 1 further comprising a truss.

14. Coupling as claimed in claim 1 wherein the coupling is used in trusses, lattice girders and supporting construction parts.

15. Coupling as claimed in claim 4, wherein the stop is located on a side of the locking sleeve opposite the side of the locking sleeve facing toward the insertion opening for the purpose of bounding movement of the locking sleeve in the direction toward the opened position, wherein the coupling further comprises a separate clamp which fits clampingly between the stop and the locking sleeve in the closed position of the locking sleeve.

Description

(1) Further advantages, features and details of the invention are elucidated on the basis of preferred embodiments thereof, wherein reference is made to the accompanying drawings.

(2) FIG. 1 shows a cut-away view of a female coupling part of the coupling according to a first embodiment of the invention;

(3) FIG. 2 shows the female coupling part of FIG. 1 which is connected to a tube of a truss, and a pin for receiving in the female coupling part;

(4) FIG. 3 shows the female coupling part and the pin of FIG. 2 in coupled position;

(5) FIG. 4 shows a cross-section of the female coupling part with pin in an opened position;

(6) FIG. 5 shows a cross-section of the female coupling part with pin in a position in which the pin has been partially inserted into the receiving part of the female coupling part;

(7) FIG. 6 shows a cross-section of the female coupling part with pin in a closed position;

(8) FIG. 7 shows a truss provided with a female coupling part according to an embodiment of the invention;

(9) FIG. 8 shows a female coupling part of a coupling according to a second embodiment of the invention in the opened position; and

(10) FIG. 9 shows a female coupling part of a coupling according to a third embodiment of the invention in the closed position.

(11) Female coupling part 2 (FIG. 1) comprises a tubular receiving part 4, the side wall of which is provided all around with holes 6. Outer end 8 comprises an insertion opening 11 for receiving a male coupling part in the form of a pin, also referred to as coupling piece or coupler. A stop ring 10 is moreover provided on outer end 8.

(12) Female coupling part 2 further comprises balls 12 for placing in holes 6. In addition, female coupling part 2 comprises a locking sleeve 14 which encloses receiving part 4 in mounted position (FIG. 2). Locking sleeve 14 is optionally provided with a serrated outer wall as shown in the figure for the purpose of providing grip.

(13) Female coupling part 2 can be provided on a construction part. Coupling 2 is for instance attached to a tube 18 of a truss (FIGS. 1-3). Receiving part 4 of coupling 2 is for instance coupled by means of a screw connection to a connecting piece 50, which is in turn fixed in tube 18, for instance by means of welding.

(14) Receiving part 4 comprises external screw thread 22 for screwing sleeve 14 onto receiving part 4. Receiving part 4 moreover comprises a second external screw thread 24 for screwing second stop ring 16 onto receiving part 4. Outer end 26 of receiving part 4 is optionally also provided with screw thread for attaching the coupling to a construction part such as tube 18.

(15) Sleeve 14 optionally comprises a recess for receiving a hex key, wherein the hex key can serve as tool in unscrewing the sleeve 14 from its closed position.

(16) A male coupling part 20 takes the form of an elongate pin. Pin 20 can be received in receiving part 4. The coupling can then be closed by screwing sleeve 14 as according to arrow A in the direction of stop ring 10. Stop ring 10 bounds the movement of locking sleeve 14 here. Pin 20 is held in the receiving part in the locked position (FIG. 3). In order to open the coupling the sleeve 14 is screwed as according to arrow B in the direction of stop ring 16. Stop ring 16 here bounds the movement of locking sleeve 14 in direction B.

(17) In the shown embodiment screw thread 22 is multiple-start, and in particular quadruple-start thread. The sleeve can hereby be carried in one revolution from the closed to the open position. In an advantageous alternative embodiment octuple-start thread is applied so that the sleeve can be carried in a half-revolution from the closed to the open position. Opening and closing of the coupling will be further elucidated hereinbelow with reference to FIGS. 4-6.

(18) Sleeve 14 comprises on its inner wall a contact surface 28 (FIG. 4). In the opened position (FIG. 4) contact surface 28 is located at the position of a wall part 30 of receiving part 4 which has no external screw thread. A wall part 32 of sleeve 14 lying closer to insertion opening 11 than contact surface 28 has an inner diameter which is greater than at the position of contact surface 28. In the opened position some space is hereby provided for movement of balls 12.

(19) In short, as seen in the direction from outer end 26 (FIG. 1) to insertion opening 11 sleeve 14 successively comprises a part 34 (FIG. 4) with internal screw thread for co-action with screw thread 22 of receiving part 4, contact surface 28 and a part 32 with an inner diameter greater than the inner diameter at the position of contact surface 28. The transition from contact surface 28 to part 32 preferably has a rounded shape for co-action with balls 12, wherein the rounded shape preferably has a curvature substantially corresponding to the curvature of balls 12.

(20) In the shown embodiment the inner diameter of sleeve 14 at the position of contact surface 28 is equal to, or at least roughly equal to, the outer diameter of receiving part 4 at the position of openings 6.

(21) It is noted that female coupling part 2 is configured such that sleeve 14 also encloses balls 12 in the opened position, so preventing the possibility of balls 12 dropping out of opening 6.

(22) Pin 20 is elongate and may comprise a through-hole 36 in its longitudinal direction.

(23) Pin 20 is provided on its outer wall with grooves 38 which extend in the shown embodiment round the whole periphery of the cylinder-symmetrical pin 20. The grooves have a substantially semi-circular section, the curvature of which preferably corresponds to the curvature of balls 12. Outer ends 40 of pin 20 are rounded.

(24) For coupling of construction parts pin 20 is inserted into female coupling part 2 (FIG. 5). Because sleeve 14 allows movement of balls 12 in the opened position of female coupling part 2, pin 20 can be moved past balls 12 during insertion. In order to align pin 20 with coupling 2, pin 20 comprises a protrusion 42 which extends in radial direction beyond the other parts of pin 20. Protrusion 42 comprises an inclining contact surface directed toward coupling 2 for co-action with a matching contact surface 43 of stop ring 10 (FIG. 5) which is embodied as conical hole. Pin 20 is hereby aligned relative to female coupling part 2: pin 20 is inserted as according to arrow C into insertion opening 11 until contact surfaces 43, 44 make contact and further movement in the direction of arrow C is prevented. When contact surfaces 43, 44 make contact with each other, one of the grooves 38 of pin 20 is aligned with holes 6 of receiving part 4 so that balls 12 can be carried into this groove 38.

(25) For the purpose of holding pin 20 in female coupling part 2, sleeve 14 is now screwed in the direction of arrow A, wherein contact surface 28 of sleeve 14 is displaced in the direction of holes 6 (FIG. 6). Balls 12 are locked here in groove 38 of pin 20 by contact surface 28 of sleeve 14. Pin 20 is therefore held in receiving part 4 of female coupling part 2. The screwing movement of sleeve 14 over receiving part 4 in the direction of insertion opening 11 is bounded by stop ring 10. Stop ring 10 therefore prevents contact surface 28 being screwed beyond the holes 6, whereby the coupling could be released again. On the other side second stop ring 16 bounds the movement of sleeve 14 over receiving part 4 as according to arrow C, i.e. the movement to the opened position is bounded. This prevents wall part 32 of receiving part 4 being moved beyond openings 6, whereby balls 12 could drop out of holes 6. Second stop ring 16 optionally comprises a recess 48 for receiving a hex key which can serve as tool in fixing stop ring 16 on receiving part 4.

(26) Holes 6 have a conical form, wherein the diameter of the openings decreases to some extent from the outer wall to the inner wall of receiving part 4. This prevents balls 12 dropping out of holes 6 in the direction of the interior of receiving part 4.

(27) Because balls 12 are applied the coupling is self-locating. That is, if pin 20 is not placed with contact surface 44 wholly against contact surface 43 in insertion opening 11, ball 12 will press against the incline of groove 38 during closing of female coupling part 2 so that pin 20 is pulled inward until ball 12 has reached the lowest point in groove 38.

(28) In this closed position (FIG. 6) an outer end of male coupling part 20 still protrudes from female coupling part 2. This outer end can then be placed in a second corresponding female coupling part. Front surface 39 of stop ring 10 forms a flange here against which the corresponding stop ring of the second female coupling part is placed. Protrusion 42 of male coupling part 20 comprises two contact surfaces 44, 45. Contact surface 44 lies in the closed position against conical contact surface 43 of receiving part 4. Contact surface 45 co-acts in similar manner with a conical contact surface of the second female coupling part. Because male coupling part 20 is pulled inward during closing, the two female coupling parts are pressed with their flanges 39 against each other.

(29) In FIG. 5 pin 20 is still not sufficiently inserted to take advantage of the self-locating capability of coupling 2. In this case balls 12 do not make contact with groove 38 but make contact with the rounded outer end 40 of pin 20. If coupling 2 is now nevertheless closed by screwing sleeve 14 in the direction of stop 10 (as according to arrow A), balls 12 will then press against rounded outer end 40 of pin 20 so that pin 20 is moved outward. It will then be immediately apparent to the user that pin 20 has been inserted incorrectly, so that the user can open the coupling again in order to then insert pin 20 correctly.

(30) In the shown embodiment stop ring 10 is formed integrally with receiving part 4. It is however also possible to provide receiving part 4 with external screw thread, wherein stop ring 10 is provided as separate ring with internal threaded part so that it can be screwed onto receiving part 4. If desired, stop ring 16 can in that case be formed integrally with receiving part 4, although it is also possible to provide both stop rings 10, 16 as separate components.

(31) Female coupling part 2 is attached in the shown embodiment to a tube 18 of a truss. Optionally provided for this purpose is a connecting piece 50 which is fixed into tube 18, for instance by welding. Connecting piece 50 comprises internal screw thread so that outer end 26 of receiving part 4 can be screwed into connecting piece 50.

(32) Shown in FIG. 7 is a truss 52 with parallel tubes 18 which are connected to each other by means of bars. Shown in the example is a truss with a triangular shape, although the invention can likewise be applied to trusses with quadrangular or other shapes. Each tube 18 is provided with a female coupling part 2 according to the invention. Placed in each female coupling part 2 is a male coupling part 20 for coupling of truss 52 to a similar truss.

(33) A second exemplary embodiment of a female coupling part 2 is shown in FIG. 8. The figure shows female coupling part 2 with locking sleeve 14 in the opened position. Female coupling part 2 comprises a groove in its outer wall close to outer end 8 with insertion opening 11. The groove is situated in the shown embodiment directly behind stop ring 10. An O-ring 52 is placed in the groove. O-ring 52 is visible in the opened position. When locking sleeve 14 is moved to the closed position, sleeve 14 slides over O-ring 52. O-ring 52 clamps here against sleeve 14 so that the sleeve is held in place. Locking sleeve 14 is hereby prevented from opening in undesired manner.

(34) The O-ring is preferably provided with a conspicuous colour, such as red or orange, so that the user immediately notices when the coupling is not closed.

(35) In a third embodiment the coupling comprises a separate clamp 56 (FIG. 9). In the closed position of locking sleeve 14 as shown in FIG. 9 stop 16 is situated some distance from locking sleeve 14. Thus present between locking sleeve 14 and stop 16 is a space 58, which in the shown embodiment is annular. Clamp 56 can be placed in space 58 in order to thus block movement of locking sleeve 14 to the open position.

(36) Clamp 56 has a form fitting onto the receiving part at the position of space 58. In the shown embodiment clamp 56 is U-shaped so that it fits in clamping manner round the substantially cylindrical outer wall of receiving part 4 at the position of space 58.

(37) Clamp 56 is embodied in the shown example as resilient element, i.e. the legs of the U-shaped clamp 56 can move resiliently so that the clamp can be snapped round receiving part 4.

(38) Clamp 56 is for instance manufactured from plastic.

(39) Clamp 56 is fitted for instance at the outer ends of its U-shape with optional protrusions 60. Protrusions 60 serve as point of engagement for removing clamp 56 from a space 58 again if desired in order to enable opening of the coupling.

(40) Roughly halfway along its U-shape the clamp 56 comprises in the shown embodiment a further optional protrusion 62 provided with an opening. A wire can be inserted through this opening so that clamp 56 can be removed from receiving part 2 by pulling on the wire. When clamp 56 is not placed round receiving part 2, clamp 56 can be suspended temporarily with the wire from the construction to which coupling 2 is attached.

(41) It is noted that a female coupling part can if desired comprise a groove with O-ring 52 as in the second embodiment as well as a clamp 56 as in the third embodiment.

(42) In FIGS. 8 and 9, sleeve 14 is provided with a recess for receiving a hex key, which may serve as a tool for unscrewing sleeve 13 from its closed position. However, the recess is optional and may be omitted if desired.

(43) A method for manufacturing a female coupling part and a pin as described above will be elucidated hereinbelow with reference to FIG. 1. Receiving part 4 is manufactured from metal, preferably aluminium. Receiving part 4 is manufactured for instance by pressing, extrusion, casting and/or machining. Receiving part 4 is for instance formed by deforming a metal tube by means of pressing, after which screw threads 22, 24 and optionally 26 are manufactured by machining, and openings 6 are made by means of drilling. Sleeve 14 and stop ring 16 can be manufactured from the same material as receiving part 4. Preferably however, sleeve 14 is manufactured from a material other than receiving part 4, preferably steel, such as galvanized steel. Sleeve 14 and/or ring 16 are for instance likewise manufactured by means of pressing, extrusion, casting and/or machining. Balls 12 are placed in the conical holes 6 of receiving part 4. Sleeve 14 is then screwed onto receiving part 4. Finally, stop ring 16 is screwed onto receiving part 4.

(44) Pin 20 is manufactured from a tensively strong material. Use is for instance made of an aluminium alloy with zinc, more preferably of a 7xxx aluminium alloy. The base of pin 20 is for instance formed by pressing of the aluminium alloy, after which grooves 38, rounded outer ends 40 and protrusion 42 are formed on pin 20 by machining the outer wall of pin 20. The opening which passes through pin 20 in the longitudinal direction is formed in the pressing process so that material is saved. The through-opening can alternatively be made by means of drilling. In a currently preferred embodiment the pin 20 takes a solid form, preferably of a 28 ST aluminium alloy.

(45) In the shown exemplary embodiments receiving part 4 is tubular along its whole length. It is alternatively possible according to the invention for outer end 8 to be tubular, while another part of receiving part 4 takes a solid form.

(46) The invention is by no means limited to the above described preferred embodiments thereof. The rights sought are defined by the following claims, within the scope of which many modifications can be envisaged.