NL1003968C2 - Mechanical fastening construction. - Google Patents

Description

MECHANICAL FASTENING STRUCTURE

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The invention relates to a device for attaching a body displaceable relative to the elongated member to an elongate member in an adjustable position, comprising: 5 - an elongated member, - a sleeve-shaped clamping member made of wire material which is shorter than the elongated and which is located completely around the elongated member, - a body movable axially with respect to the elongated member 10 with supporting means for supporting the body near the at least one end in an axial direction away from the clamping sleeve, and - operating means which engage at least one end of the clamp body for exerting an axial release force directed towards the other end at the end.

Such a fastening device is already known in the prior art. In particular, applications are known for gripping ropes, cables or other flexible elongated members.

The object of the present invention is to provide an improved fastening device of the aforementioned type with which the application possibilities of the fastening device are increased while retaining the favorable properties of the device known from the prior art. It is important in particular the property that only a very limited release force can be sufficient to release an attachment, even if a great force is exerted thereon.

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The present invention provides for this purpose a fastening device as described in the preamble, wherein the elongated member is a rigid rod-shaped member, the movable body completely encloses the clamping member 5, the operating means are accommodated in the movable body and biasing means are arranged between the ends of the clamping body for pushing the ends of the clamp body apart. The biasing means are preferably integrated in the clamping body.

Due to the measures according to the invention, the fastening device can be used in a multitude of adjustable mechanical constructions, instead of only with devices with adjustable rope or cable engagement. By using a rigid rod-shaped member in combination with a complete shielding of the clamping member, constructions can be realized with which a very reliable and sturdy fastening can be realized which is nevertheless easy to disconnect. The device will become relatively little contaminated and will also have little sensitivity to wear. The device according to the invention also offers great aesthetic advantages. After all, the clamping member is completely hidden from view and the rod-shaped member does not require any special adjustments.

In a preferred embodiment of the invention, the rod-shaped member is axially and rigidly connected to a first profile part surrounding the movable body at least partly, and the movable body comprises a second profile part with a cross-section which, in terms of shape, substantially corresponds to the shape of the interior. of the cross section of the first profile part. The operating means can be attached to the second profile part at a distance from the clamping member and connected to the end of the clamping member by means of a disconnecting member, which is located on the inside of the second profile part. With the aid of these measures, a telescopic rod construction can be obtained, the part of which with a smaller cross section can be slid into the part with a larger cross section. Possible 5 applications of this construction are: length-adjustable walking stick, adjustable table and chair legs, tripod, height-adjustable hanging instruction for, for example, a lamp, etc.

This preferred embodiment will be explained below with reference to Fig. 1.

In another preferred embodiment of the device, the rod-shaped member is axially and rigidly connected to a third profile part, which is an extension of the rod-shaped member, and the movable body comprises a fourth profile part with a cross-section which, in terms of shape, substantially corresponds to the shape of the outside of the cross section of a third profile part. The operating means can then be mounted at a distance from the clamping member and the fourth profile part and connected to the end of the clamping member by means of a coupling member which is located on the inside of the fourth profile part. By means of these measures, a telescopic construction can be obtained, in which exactly the opposite situation is obtained, as described above, namely that the movable body is formed by a profile part into which another profile part can be slid. The applications are also possible for these telescopic constructions, as already mentioned above. However, this particular preferred embodiment is preferred for use in, for example, crutches. After all, in the prior art it is the case that the bottom side of a crutch is usually narrower than the top side of the crutch, while for a simple operation the operating means of a crutch should be located just in the top side of the crutch. For a more simple acceptance of a crank provided with a fastening device according to the invention, it is therefore desirable that the crank be designed in such a way that the movable body with larger cross-section is at the top of the construction. These preferred embodiments will be further elucidated with reference to Figures 2 and 3.

The shape of the profile parts in both above-mentioned preferred embodiments can for instance be tubular. Such profile parts are inexpensive, easy to clean and give the telescopic construction a generally accepted appearance.

In yet another preferred embodiment of the invention, the bar-shaped member is pivotally connected to a frame near the end, and the body movable relative to the bar-shaped member is pivotally connected to the frame at a distance from the hinge point between bar-shaped member and frame, so that a relative movement is realized between the rod-shaped member and movable body when the rod-shaped member is pivoted. The movable body preferably encloses the rod-shaped body completely. The operating means preferably comprise an element movable relative to the displaceable body, in which the end of the rod-shaped member is accommodated axially displaceable.

By means of these measures, a construction is obtained in which a pivotable body can be fixed with the aid of devices according to the invention. A very advantageous application is a parking brake in a car. A drawback of the existing handbrake construction is that when it is in the engaged condition it can only be released by supplying a relatively large force. With a fastening device according to the invention, the lock can be broken with a relatively very limited force. Such a hand brake is infinitely adjustable, so that an optimum tension can always be exerted on the brake. This preferred embodiment is further elucidated with reference to Figures 4a and 4b.

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Yet another preferred embodiment of the invention is characterized in that the movable body is provided with two support elements, which support elements are located between two engagement elements which are rigidly connected to the ends of the clamping member, such that the mutual distance between the support elements is smaller than the distance between the engaging elements. At least one engaging element is preferably provided with an operating member which is connected to the movable body. By means of these measures, a fastening device can be realized with which the movable body is secured in two directions by a single clamping member. A possible application of this preferred construction is a length-adjustable ski pole. After all, in applications of this construction, a two-sided locking should be desired, which is the case with a ski pole in connection with the support on the stick, when a pressure force is exerted on the stick and pulling the ice out of and / or snow. pole, where a pulling force is exerted on the pole. This preferred construction will be further elucidated with reference to Fig. 5. As already indicated, the present invention will be further elucidated with reference to the non-limitative exemplary embodiments shown in the following figures. Herein shows:

Fig. 1 shows a cross section through a telescopic construction according to the invention, FIG. 2 a cross section through an alternative telescopic construction,

Fig. 3 is a cross-sectional view through the telescopic construction shown in FIG. 2 incorporating a spring, FIG. 4a is a cross section through a pivoting construction in the initial state, 1003 968 6

Fig. 4b is a cross section through the pivotal construction shown in FIG. 4a in a partially pivoted state, and

Fig. 5 is a cross section through a fastening device with two-sided blocking.

Fig. 1 shows a telescopic construction in which an inner tube 2 (also referred to as the second profile part) is movable in an outer tube 3 and an operating ring 4 is arranged on the inner tube 2. By exerting a limited force in the direction according to the arrow P, the inner tube 2 can be moved downwards. It is not necessary to load the operating ring 4 for moving the inner tube 2 upwards relative to the outer tube 3 (also referred to as the first profile part). The construction can be designed in such a way that the force to be exerted on the operating ring 4 for unlocking the inner tube 2 relative to the outer tube 3 can be very limited, irrespective of the load exerted on the inner tube 2. Another the advantage is that the telescopic construction 1 is immediately locked again when the operating ring 4 is released. As a result, the inner tube 2 will "follow the hand with which the operating ring 4 is operated".

Accidental disconnection from the telescopic construction 1 is only possible when the operating ring 4 is loaded. Thus, as soon as it is noticed that the telescopic construction 1 is unlocked and the operating hand is withdrawn from the operating ring, the telescopic construction 30 is immediately locked again.

A round rod 5 is accommodated in the outer tube 3 at a fixed axial position. A clamping sleeve 6 is provided around one of the rod 5, which is formed by a braided wire structure. The clamping sleeve 6 is fixedly connected at the bottom side to the inner tube 2 and engages at the top side with an operating tube 7 which is located at the top side in the inner tube 2. On the side of the 1003 9 68 7 control tube 7 facing away from the clamping sleeve 6, it engages with the control ring 4.

By now exerting a force directed in the direction of arrow P on operating ring 4, operating tube 7 will be pushed down over a limited distance.

As a result, the top side of the clamping sleeve 6 will also be moved down an unlimited distance. As a result, the clamping sleeve 6 is compressed over a limited distance and will no longer engage the rod 6. The clamping sleeve 6 is designed in such a way that when the operating ring 4 is not loaded, the clamping sleeve 6 engages the rod 5 so that the telescopic construction 1 is locked. The clamping sleeve 6 can be designed in such a way that the ends of the operating ring 4 in the unloaded state move apart so far that the clamping sleeve 6 engages on the rod 5, but it is also possible, for example, between the bottom of the inner tube 2 and the bottom of the operating tube 7 to receive a compression spring. Such a compression spring has the drawback, however, that at least the biasing force of the compression spring must be overcome by the force exerted on the operating ring 4 when the telescopic construction 1 is to be unlocked.

Fig. 2 shows a telescopic construction 8, 25 in which the rod 5, on which the clamping sleeve 6 engages, is axially connected at the bottom with a leg part 9 (also referred to as a third profile part). An external tube 10 (also referred to as the fourth profile part) is displaceable in axial direction relative to the leg part 9. The bottom side of the outer tube 10 is rigidly connected to the bottom side of the clamping sleeve 6. The top side of the clamping sleeve 6 engages an operating tube 11 which is located at the top in the outer tube 10. The top side of the operating tube 11 engages on the operating ring 4. In contrast to the telescopic construction 1 shown in fig. 1, in the telescopic construction 8 as shown in fig. 2 the outer tube 10 engages around the clamping sleeve 6. Also 100 3 9 68 8 the telescopic construction 8 only blocks in the downward direction. The main difference of the telescopic construction 8 compared to the telescopic construction 1 is that the operating ring 45 engages the part with the largest diameter. The telescopic construction 8 has been developed in particular for use in crutches and the like, whereby a length adjustment of the crutch is desired from the top, but in which, according to general custom, the bottom also has a smaller diameter than the top.

Fig. 3 shows a telescopic construction 12 which largely corresponds to the telescopic construction 8 as shown in fig. 2. In this telescopic construction, however, an extra compression spring 13 is included which rests on the outer tube 10 at the top and engages at the bottom. on the bar 5 (or the leg part 9), which is hollow at the top for this purpose. Due to the compression spring 13, the telescopic construction 12 will automatically slide apart as soon as a downward force is exerted on the operating ring 4. As a result, a crank provided with the telescopic construction 12 can be extended in a very simple manner, while for shortening the telescopic construction 12 it is necessary to exert an axial pressure force on the outer tube 10 after unlocking which is greater than the pressure force exerted. by the compression spring 13. The compression spring 13 preferably has a relatively great length for obtaining a more or less equal spring constant regardless of a telescope construction 12 which is fully extended or fully collapsed.

Figures 4a and 4b show a handbrake construction 14. A frame 15 is provided with two hinge shafts 16, 17 to which a housing 18, the handbrake construction 14 and an internal rod 19 incorporated in the handbrake construction 14 are connected, respectively. Around a part of bar 19 a clamping sleeve 1003968 9 20 engages on the side facing the pivot shaft 17 on a protruding part 21 which is fixedly connected to the housing 18. The side of the clamping sleeve 20 remote from the pivot shaft 17 is accommodated in a hollow control knob 22 attached to the housing 18 of the handbrake construction 14. When the housing 18 is pivoted upward from the condition shown in Fig. 4a, the rod 19 will be relative to the housing, and in particular relative to the housing. of the projecting part 21 of the housing 18 to the right. The clamping sleeve 20 is thereby "compressed" against the protruding part 21 of the housing 18.

However, when the housing 18 has to be pivoted downwards again from the position shown in Fig. 4b, the rod 19 will want to slide to the left relative to the clamping sleeve 20, which is hindered by the clamping sleeve. After all, it will engage on the rod 19. For pivoting down the housing 18, it is necessary to press the button 22, which compresses the clamping sleeve 20 and allows the rod 19 to pass through the clamping sleeve 20. The force with which the button is to be actuated can be very limited, which allows a simplified unlocking of a handbrake construction 14.

A possible alternative to this construction is a hand brake construction, the housing 18 of which is pivotally connected to the frame 15, but the rod 19 engages by means of a protruding cam in a cam track which is fixedly connected to the frame 15. The rod 19 must be connected to housing 18 in such a way that it can be moved in the longitudinal direction. When the housing 18 is pivoted, the displacement of a cam in the cam track will then result in an axial displacement of the rod 19 relative to the housing 18. An advantage of this construction is that the desired displacement of the rod 19 when the housing 18 is pivoted can be accurately determined in the form of a cam track.

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Pig. 5 finally shows a fastening construction 23 in which a clamping sleeve 24 is included, which engages at the ends on operable fastening elements 25, 26. The clamping sleeve 24 is arranged around a rod-shaped member 27. A tubular housing 28 is also arranged around the rod-shaped member 27. On the inner side of the tubular housing 28, two supporting members 29, 30 are arranged between the fastening members 25, 26, respectively, for cooperation with the fastening members 25, 26. When the tubular housing 28 is moved upwards relative to the rod 27, the supporting member 13 will rest on the fastening member 26. As a result, the position of the tubular housing 28 relative to the rod 27 is fixed. Also in a downward direction, a fixation takes place when the tubular housing 28 is moved downwards. After all, the support member 29 will then rest on the fastening member 25. It is noted that the fastening construction 23 as shown in this figure requires some play, which can possibly be taken up with a spring.

In order to unlock the fastening construction 23, a force 25 in accordance with the arrow F1 must be exerted on the fastening member 25 and a force F2 must be exerted on the fastening member 26 respectively. The mounting construction 23 as shown in Fig. 5 thus allows a two-sided blocking support of the tubular housing 28 on the rod 27.

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Claims (13)

Device for attaching to an elongated member in an adjustable position an element displaceable relative to the elongated member, comprising: 5. an elongated member, - a sleeve-shaped clamping member made of wire material which is shorter than the elongated member and which is completely situated around the elongated member, - a body movable axially with respect to the elongated member 10 with supporting means for supporting the body axially away from the clamping sleeve in the axial direction remote from at least one end, and - operating means which engage on at least at least one end of the clamping body for exerting an axial uncoupling force directed towards the other end at the end, wherein the elongated member is a rigid rod-shaped member, the movable body completely surrounds the clamping member, the operating means in the movable body included and between the ends of it clamping body biasing means are included for pushing the ends of the clamping body apart. Fixing device according to claim 1, wherein the biasing means are integrated in the clamping body. Fastening device according to claim 1 or 2, wherein the elongated member is axially and rigidly connected to a first profile part that surrounds the movable body at least partially, and the movable body comprises a second profile part with a cross section which is externally shaped in shape. substantially corresponds to the shape of the interior of the cross section through the first profile part. Fastening device according to any one of the preceding claims, wherein the operating means are attached to the second profile part at a distance from the clamping member and are connected to the end of the clamping member by means of a disconnecting member, which is located on the inside of the second profile part. Fixing device according to claim 1 or 2, wherein the elongated member is axially and rigidly connected to a third profile part located in line with the elongated member, and the movable body comprises a fourth profile part with a cross-section which substantially corresponds internally in shape. with the shape of the outside of the cross-section through the third profile part. 6. Fixing device according to claim 5, wherein the operating means are mounted at a distance from the clamping member to the fourth profile part and are connected to the end of the clamping member by means of a coupling member which is located on the inside of the fourth profile part. Fastening device according to any one of the preceding claims, wherein the profile parts are tubular. Fastening device according to claim 1 or 2, wherein the elongated member is pivotally connected to a frame near one end, and the body displaceable relative to the elongated member is pivotally connected to the frame at a distance from the hinge point between elongated member and frame. so that relative movement is realized between elongated member and movable body when pivoting the elongated member. Fastening device according to claim 8, wherein the movable body completely encloses the elongated member. 100 3 9 68 Fixing device according to claim 8 or 9, wherein the operating means comprise an element movable relative to the movable body, in which an end of the elongated member is accommodated axially displaceable. Fastening device according to claim 1 or 2, wherein the elongated member is provided with a cam, which cam engages in a cam track which is fixedly connected to a frame, and the body displaceable relative to the elongated body is pivotally connected to the frame so that when the movable body is pivoted the cam is moved in the cam track, whereby a relative movement is realized between elongated member and movable body. Fastening device according to claim 1 or 2, wherein the movable body is provided with two supporting elements, which supporting elements are located between two engaging elements which are rigidly connected to the ends of the clamping member, such that the mutual distance between the supporting elements is smaller than the distance between the engaging elements. Fixing device according to claim 11, wherein at least one engaging element is provided with an operating member which is connected to the movable body. ***** 1003 968