Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
  • F16B—DEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
  • F16B7/00—Connections of rods or tubes, e.g. of non-circular section, mutually, including resilient connections
  • F16B7/10—Telescoping systems
  • F16B7/14—Telescoping systems locking in intermediate non-discrete positions
  • F16B7/1481—Telescoping systems locking in intermediate non-discrete positions with a gripping helical spring

Definitions

• the invention relates to a device for coupling to an elongate member at an adjustable position a body displaceable relative to the elongate member, comprising:
• an elongate member - a sleeve-like clamping member manufactured from wire material which is shorter than the elongate member and which is located completely round the elongate member,
• the present invention has for its object to provide an improved coupling device of the type stated in the preamble with which the possible applications of the coupling device are increased while retaining the favourable properties of the device known from the prior art. Particularly important herein is the property that only a very limited release force can suffice to release a fastening, even when a great force is being exerted thereon.
• the present device provides for this purpose a coupling device as described in the preamble wherein the elongate member is a rigid rod-like member, the displaceable body wholly encloses the clamping member, the operating means are arranged in the displaceable body and biasing means are arranged between the outer ends of the clamping body for pushing apart the outer ends of the clamping body.
• the biasing means are preferably integrated into the clamping body.
• the coupling device can be used in a wide variety of adjust- able mechanical constructions instead of only in devices with adjustable rope or cable engagement.
• a rigid rod-like member in combination with a complete enclosure of the clamping member, constructions can be realized with which a very reliable and sturdy coupling can be realized which is nevertheless simple to disengage.
• the device will be subject to relatively little fouling and also be little susceptible to wear. From an aesthetic viewpoint the device according to the invention also offers great advantages.
• the clamping member is wholly concealed from view and the rod-like member requires no special modification.
• the rodlike member is connected axially and rigidly to a first profile part at least partially enclosing the displace- able body and the displaceable body comprises a second profile part with a cross-section substantially corresponds in external shape with the shape of the interior of the cross-section of the first profile part.
• the operating means can herein be fixed to the second profile part at a distance from the clamping member and be connected to the outer end of the clamping member by means of a disengaging member situated on the inside of the second profile part. Using these steps a telescopic rod construction can be obtained, of which the part with smaller cross-section can slide into the part of larger cross-section. Possible applications of this construction are: length-adjustable walking stick, adjustable table and chair legs, stand, height-adjustable suspension construction for instance for a lamp etc. This preferred embodiment will be elucidated herein- below with reference to fig. 1.
• the rod-like member is connected axially and rigidly to a third profile part in line with the rod-like member and the displaceable body comprises a fourth profile part with a cross-section which substantially corresponds in internal shape with the shape of the outside of the cross-section of a third profile part.
• the operating means can herein be fixed to the fourth profile part at a distance from the clamping member and be connected to the outer end of the clamping member by means of a coupling member situated on the inside of the fourth profile part.
• profile parts in both the above stated preferred embodiments can for instance be tubular.
• Such profile parts are inexpensive, easy to clean and give the telescopic construction a generally accepted appearance .
• the rod-like member is connected pivotally to a frame close to the outer end and the body displaceable relative to the rod- like member is connected pivotally to the frame at a distance from the pivot point between rod-like member and frame so that a relative movement is realized between the rod-like member and displaceable body during pivoting of the rod- like member.
• the displaceable body herein preferably encloses the rod-like member complete- ly.
• the operating means preferably comprise an element which is movable relative to the displaceable body and in which the outer end of the rod- like member is received for axial displacement.
• a very advantageous application here is a hand brake in an automobile.
• a drawback of the existing hand brake construction is that when it is in the engaged position it can only be disengaged by producing a relatively great force. With a coupling device according to the invention the locking can be released with a relatively very limited force.
• Such a hand brake is continuously operative whereby an optimum tension can always be applied to the brake.
• Yet another preferred embodiment of the invention is characterized in that the displaceable body is provided with two support elements, which support elements are located between two engaging elements which are rigidly connected to the outer ends of the clamping member such that the mutual distance between the support elements is less than the distance between the engaging elements.
• At least one engaging element is preferably provided herein with an operating member connected to the displaceable body.
• Fig. 1 shows a cross-section through a telescopic construction according to the invention
• Fig. 2 shows a cross-section through an alternative telescopic construction
• Fig. 3 shows a cross-section through the telescopic construction shown in fig. 2 in which a spring is arranged
• Fig. 4a shows a cross-section through a pivotable construction in starting position
• Fig. 4b shows a cross-section through the pivotable construction shown in fig. 4a in partially pivoted position
• Fig. 5 shows a cross-section through a coupling device with bilateral locking.
• Fig. 1 shows a telescopic construction in which an internal tube 2 (also designated second profile part) is displaceable in an external tube 3 and an operating ring 4 is arranged on internal tube 2.
• an internal tube 2 also designated second profile part
• an operating ring 4 is arranged on internal tube 2.
• the construction can be embodied such that the force to be exerted on operating ring 4 to release internal tube 2 relative to external tube 3 can be very limited irrespective of the load being exerted on internal tube 2.
• Mother advantage is that when operating ring 4 is released the telescopic construction 1 is immediately locked again.
• the internal tube 2 will hereby follow the hand with which the operating ring 4 is operated. Accidental disengaging of telescopic construction 1 is then only possible when operating ring 4 is loaded. As soon as it is noticed that telescopic construction 1 is released and the user's hand is withdrawn from the operating ring, the telescopic construction 1 is immediately locked again.
• a round rod 5 is received in external tube 3 at fixed axial position.
• a clamping sleeve 6 Arranged round a part of rod 5 is a clamping sleeve 6 which is formed by a woven wire structure. Clamping sleeve 6 is fixedly connected at the bottom to internal tube 2 and engages at the top onto an operating tube 7 which is situated in the upper part of internal tube 2.
• clamping sleeve 6 On the side of operating tube 7 remote from clamping sleeve 6 the tube engages on operating ring 4. By now exerting a force directed in the direction of arrow P on operating ring 4 the operating tube 7 will be urged downward a limited distance. The upper part of clamping sleeve 6 will hereby also be displaced downward a limited distance. As a consequence the clamping sleeve 6 is compressed over a limited distance and will no longer engage on rod 6. Clamping sleeve 6 is embodied herein such that when operating ring 4 is not loaded the clamping sleeve 6 engages on rod 5 so that telescopic construction 1 is locked.
• Clamping sleeve 6 can be embodied such that the outer ends move so far apart in non- loaded situation of operating ring 4 that clamping sleeve 6 engages on rod 5, but it is also possible to accommodate a compression spring for instance between the bottom of internal tube 2 and the bottom of operating tube 7. Such a compression spring does however have the drawback that at least the biasing force of the compression spring must be overcome by the force exerted on operating ring 4 when telescopic construction must be released.
• Fig. 2 shows a telescopic construction 8 in which the rod 5 on which clamping sleeve 6 engages is axially connected at the bottom to a leg part 9 (also designated third profile part) .
• An external tube 10 (also designated fourth profile part) is displaceable in axial direction relative to leg part 9.
• the bottom of external tube 10 is rigidly connected to the bottom of clamping sleeve 6.
• the top part of clamping sleeve 6 engages on an operating tube 11 situated in the upper part of external tube 10.
• the top part of operating tube 11 engages on operating ring 4.
• the external tube 10 engages round clamping sleeve 6.
• Telescopic construction 8 also only blocks in downward direction. The most significant difference in telescopic construction 8 relative to telescopic con- struction 1 is that operating ring 4 engages on the part with the largest diameter. Telescopic construction 8 is developed particularly for use in crutches and the like, wherein a length adjustment of the crutch from the top is desired but wherein in accordance with general practice the bottom part has a smaller diameter than the top part.
• Fig. 3 shows a telescopic construction 12 which corresponds to a very considerable extent with the telescopic construction 8 as shown in fig. 2.
• an additional compression spring 13 is included which supports at the top on the external tube 10 and at the bottom engages on rod 5 (or leg part 9) which takes a hollow form on the top for this purpose. Due to compression spring 13 the telescopic construction 12 will automatically move apart as soon as a downward force is exerted on operating ring 4.
• a crutch provided with telescopic construction 12 can hereby be extended in very simple manner, while in order to shorten telescopic construction 12 it is necessary after unlocking to exert an axial pressure force on external tube 10 which is greater than the pressure force exerted by compression spring 13.
• the latter preferably has a comparatively great length in order to obtain a more or less equal spring constant irrespective of whether the telescopic construction 12 is fully extended or fully re- tracted.
• Fig. 4a and 4b show a hand brake construction 14.
• a frame 15 is provided with two pivot shafts 16,17 to which are connected a housing 18, the hand brake construction 14 and a rod 19 arranged internally in hand brake construction 14.
• Engaging round a part of rod 19 is a clamping sleeve 20 which on the side closer to pivot shaft 17 engages on a projecting part 21 which is fixedly connect- ed to housing 18.
• the side of clamping sleeve 20 remote from pivot shaft 17 is received in a hollow control knob 22 which is mounted on housing 18 of hand brake construction 14.
• Clamping sleeve 20 is herein "compressed" against the projecting part 21 of housing 18.
• the rod 19 will want to slide to the left relative to clamping sleeve 20, and this is hindered by the clamping sleeve. This will anyway engage on the rod 19.
• the knob 22 In order to pivot the housing 18 downward it is necessary to press on the knob 22, which compresses the clamping sleeve 20 and allows the rod 19 a free passage through clamping sleeve 20.
• the force with which the knob must be operated can be very limited, which enables a simplified disengagement of a hand brake construction 14.
• a possible alternative to this construction is formed by a hand brake construction 14 of which the housing 18 is pivotally connected to the frame 15 but the rod 19 engages by means of a projecting cam in a cam track which is fixedly connected to frame 15.
• Rod 19 must herein be connected to housing 18 such that it is dis- placeable in longitudinal direction. When housing 18 is pivoted the displacement of a cam in the cam track will then result in an axial displacement of rod 19 relative to housing 18.
• An advantage of this construction is that the desired displacement of the rod 19 during pivoting of housing 18 can be precisely defined in the form of a cam track.
• fig. 5 shows a coupling construction 23 in which a clamping sleeve 24 is arranged which engages at the outer ends on operable fixing elements 25,26.
• Clamping sleeve 24 is arranged round a rod-like member 27.
• a tubular housing 28 is also arranged round rod-like member 27.
• On the inside of tubular housing 28 between fixing elements 25,26 are arranged two support members 29,30 respectively for co-action with fixing elements 25,26.

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• Engineering & Computer Science (AREA)
• General Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Mutual Connection Of Rods And Tubes (AREA)

Applications Claiming Priority (3)

Publications (1)

Family

ID=19763468

Family Applications (1)

Country Status (5)

Cited By (1)

Families Citing this family (3)

Family Cites Families (6)

• 1996
  • 1996-09-05 NL NL1003968A patent/NL1003968C2/nl not_active IP Right Cessation
• 1997
  • 1997-08-29 JP JP10512510A patent/JP2001500595A/ja active Pending
  • 1997-08-29 EP EP97939252A patent/EP0923676A1/de not_active Withdrawn
  • 1997-08-29 WO PCT/NL1997/000495 patent/WO1998010196A1/en not_active Application Discontinuation
  • 1997-08-29 AU AU41383/97A patent/AU4138397A/en not_active Abandoned

Non-Patent Citations (1)

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