FR2898179A1 - SELF-ADJUSTING CYLINDRICAL TELESCOPIC DEVICE WITH EXTENSIBLE SUPPORT, WITH TWO OR MORE BEARINGS AND WHICH CAN BE BLOCKED IN POSITION AT EACH OF THE EXTENSION POSITIONS. - Google Patents

Abstract

Self-adjusting cylindrical telescopic support device that can be extended with two or more bearings and can be locked in position at each of the extension positions. A telescopic support device that can be extended, with two or more bearings, the elongation of which is obtained at the different high levels. by the support of at least one vertical abutment protruding from a female part (2), on one of the support bases or steps (8a, 8b, ... 8n) provided to project on a part male (1), the choice of a base or a step being determined by the position of a guide finger (6), secured to the female part (2) and moving inside a system based on at least one cam profile, arranged at the periphery of the male part (1) and in which the male part (1) is provided hollow, the bearing surfaces (8a, 8b,. ..8n), provided projecting on the male part (1), being arranged in said hollow part, internally in the ylindre described by its inner periphery and the, or at least one, vertical stop (26), provided projecting, being disposed on the inner horizontal surface of the female part (2) and being arranged to be also inscribed internally therein same inner cylinder to the male part, parallel to its axis.This telescopic device is particularly applicable to the inclination and elevation of a sleeping surface.

Description

The invention relates to the creation of a telescopic support with two or

  several bearings, the elongation of which is obtained, at the different high levels, by the bearing of at least one abutment projecting on a female part, on one of the support bases or steps provided projecting on a male part, the choice of a base or a step being determined by the position of a guide finger, integral with the female part and moving inside a guide system based on at least a cam profile, arranged at the periphery of the male part and in which the male part is provided hollow, the bearing surfaces of the telescopic support provided protruding from the male part being arranged in said hollow part, internally to the cylinder described by its inner periphery and the or at least one stop, 1l) provided projecting, being disposed on the inner horizontal surface of the female part and being arranged to be also inscribed internally to the same cylinder int laughing to the male part, parallel to its axis. Supports are already known to allow the proclive and the declivity, or even the temporary elevation of a sleeping plan. In particular, a telescopic support is known which is based on the use of a rotating cam system, integral with one of the elements, with a guiding finger integral with the other element, the cam constituting a closed circuit and defining bearing bearings at a low level and one or more high levels, which comprises means for holding at at least one high bearing defined by the cam-finger system, constituted by at least one abutment 20 formed of a recess at the upper periphery of the male part and protruding on the female part object of EP-01651 patents; 0 FR 9004645 and FR 90 14573 Due to the surface occupied by the cam and the presence, for example, of at least one recess on the surface of the cylinder defined by the outer cylindrical surface of the male element 1, this support of the prior art limits, for an initial height and a given diameter, the number and amplitude of the high bearings that can be arranged. This extensible self-adjusting support according to the prior art indeed provides a maximum stop length related to the elongation defined by the height of the cam segment in which the guide finger moves at the beginning and at the end of the extension / compression cycle. delimited at its upper part by its junction with the lower edge of the cam segment allowing the return of the guide finger. This same support of the prior art also restricts the number of support positions possible by providing that the second section of the cam has an ascending zigzag pattern. An extensible support is also known for one or more high bearings, the extension of which results from the engagement of a stop of fixed length arranged vertically on the periphery of one of the elements, internally for the female element or externally for male element, in at least one conjugate housing of the other telescopic element, the support of at least one abutment taking place on the bottom of at least one conjugate housing or on the upper horizontal part of the male element, object of patent FR 92 14230. This telescopic support according to the prior art, which provides for the choice between at least two levels of high bearings by means of a prepositioning of the telescopic elements relative to each other , comprises on one of the telescopic elements, for each level of planned bearing, a recess of equivalent depth, the recesses being obligatorily disjoint and their total number thus being limited due to the increased surface occupied thereby on the cylinder described by the inner part of this telescopic element. An extensible support is also known for one or more high bearings, the extension of which results from the lateral engagement of abutments as well as a locking in position by a notched device, object of patent FR 2 691 343 A. The resistance of this set is a function of the resistance to the vertical thrust of each of the abutments arranged projecting from the two telescopic elements and in particular those which are arranged in the lower part of the female telescopic element. The height adjustment of the device also involves the loosening of the two telescopic elements relative to each other, then the identification of the guide and bearing stops corresponding to the new extension sought, then the introduction of the abutments conjugate and finally the tightening in position. The easy operation of these manipulations implies in particular that the loosening and then the tightening of the elastic clips can be obtained without difficulty during the entire life of the device.

  The extensible telescopic supports according to the present invention avoid these drawbacks by combining the flexibility of use, the reliability of the self-adjusting supports, objects of patents EP-0165190, FR 90 04645 and FR 90 14.573 and the faculty of increasing, with diameter and height. constants, their total amplitude and the number of high bearings that can be arranged. The invention relates to the creation of a cylindrical telescopic support self-adjusting support extendable to two or more bearings and can be locked in position at each of the extended positions. According to a first characteristic of the telescopic support, it comprises two or more bearings, the elongation of which is obtained, at different high levels, by the bearing of at least one abutment protruding from a female part, on one support bases or steps provided projecting on a male part, the choice of a base or a step being determined by the position of a guide-finger, integral with the female part and moving inside. a guide system based on at least one cam profile, arranged at the periphery of the male part and in which the male part is provided hollow, the bearing surfaces of the telescopic support provided projecting on the male part being disposed in said hollow part, internally to the cylinder described by its inner periphery and the or at least one abutment, projecting, being disposed on the inner horizontal surface of the female part and being arranged in It is also possible to insert the same inner cylinder inside the male part, parallel to its axis. According to one embodiment of the telescopic support of self-adjusting type, is constituted of the guide system based on at least one cam profile consists of at least one multi-guide guide guide-finger system, arranged laterally, in loop, over the entire periphery of the male part and in that each multi-profile system comprises, successively, a cam profile (A) vertical ascending, a cam profile (B), ascending or horizontal, zigzag in which open vertical cam profiles corresponding to the bearing positions (P. P. P2 Pä) and which are spaced laterally from an arc corresponding to the conjugate arcs separating the gripping surfaces from each other; bearing on the male part, and a segment (C), arranged beyond the bearing position Pn 20 corresponding to the maximum extension of the telescopic support and whose end operates as a junction with the vertical cam profile (A) whose pos angularity, at the periphery of the male part, corresponds to the position of the guide finger before any extension of the telescopic support. According to another characteristic of the telescopic support object of the invention, the abutment 25 projecting on the inner horizontal part of the female part consists of an open cylinder, inside the female part, the centers of the female part and the cylinder being merged, and has on its horizontal free surface bearing surfaces in contact with the bearing surfaces formed in the hollow part of the male part on the free edge of a cylinder bearing at its other end on the inner horizontal part 3o of said hollow male part. According to another characteristic of the telescopic support object of the invention, the segment (C) of the cam system (A), (B), (C) arranged at the periphery of the male part has a slope forming an angle (a) , such that the support of the guide-finger on its lower edge determines the automatic rotation of the female part under the effect of a vertical thrust exerted by the male part after the guiding finger secured to the female part has passed, in the extension phase, the last ascending profile of the zigzag segment (B) of the cam system (A), (B), (C) of the male part. According to another characteristic of the telescopic support object of the invention, for a support system providing, for a zero extension, the total imbrication of the conjugate open surfaces of the cylinders respectively on the male and female parts, the slope of the segment ( C) forming an angle (a), is provided equal to or greater than the slope, forming an angle (b), of the open surface of the abutment, shaped as a cylinder, on the female part which interconnects the mating surfaces of the surfaces. bearing support to the conjugate surface Io of the stop, shaped as a cylinder, on the male part, so as to allow the progressive engagement of the cylinders respectively on the male part and on the female part. According to another characteristic of the telescopic support object of the invention, the bearing surfaces on the male part are arranged in steps, the arcs they describe being a function of the arcs separating the angular positions occupied by the guide finger 15 integral with the female part in the bearing positions (Po, P, P2, .... Pa), while the slopes of the front portions of the steps separating the successive bearing surfaces on the male part correspond to the conjugate slopes of the ascending segments of the zigzag cam profile (B). According to another characteristic, object of the invention, the telescopic support 20 further comprises locking means in the extended position, at different levels of the two telescopic elements, male and female, with respect to the other. According to one embodiment, the position-locking means is constituted by a guide-finger mounted movably on its axis in the female part, so that its frustoconical end can penetrate, by screwing into the cam segments, into housings. 25 arranged at the periphery of the male part, the levels successively achieved by the finger when the abutment integral with the female part, is in position of bearing on the mating surface of the male part. According to another embodiment, the locking in position is obtained by adding, on each of the vertical cam profiles (A) ensuring, on the male telescopic element 30, the angular positioning of the guide finger, on the one hand , of horizontal housings, of a length allowing the housing of the guide finger, after a rotation of the female part relative to the male part, at each of the levels reached when the stop, internal to the female part, is supported on one of the bearing positions of the male part corresponding to the same vertical cam profile (A), and secondly, of the tightenings arranged at the entrance of said housing to prevent unintentional exit of the finger -guide. According to another characteristic, for a number n of vertical cam segments (A), corresponding to the bearing position Po, the male part is provided with at least 3-n vertical rib (s), p. ex. extending, in particular upwards, vertical cam segments, and furthermore connected, for one of them, to a cam profile (C) in zigzag, and thus ensuring, at any moment of its travel, the guiding in sliding of the male part inside the female part. According to a last characteristic, the male part has on its surface a graduated scale allowing, as and when the amplitude gain of the telescopic device, to use the free edge of the female part as a reading index of the height of the foot, whatever its lengthening. By way of illustration, drawings are attached, which show in a non-limiting manner: - fig.l, a plan view of the two telescopic elements nested with respect to each other - fig. 2, the planar development of the periphery of a male part comprising a multiprofile carne system (A), (B), (C) arranged in circumferential loop, and the planar development of the open ends, in the form of steps bearing, cylinders acting as abutments, disposed internally to the male and female parts and bearing on their respective inner horizontal portions. - fig. 3a and fig. 3b, sections, in a diametral plane, the same extensible support positioned at two different extension levels. - fig. 4a, 4b and 4c are perspective views of the assembled telescopic parts (Fig. 4a) and the interior arrangement of the respective male (Fig. 4b) and female (Fig. 4c) telescopic parts. FIG. 1 represents a plan view of a self-adjusting telescopic support whose male part (1) comprises, at its periphery, a multi-profile system (A), (B), (C) for guiding the guide finger ( 6) secured to the female part (2), arranged laterally, in a loop, over the entire 3U of the male part (1), the housings (27) and their constrictions (28) allowing the extensible support to be locked in position, arranged laterally with respect to the vertical cam segments at levels corresponding to the levels attained by the guide finger (6) when at least one bearing surface (8a, 8b, 8 ,, ... 8o) the male part (1) bears on at least one bearing surface (8A, 8n, 8, ..., 8N) conjugate with the female part 20 (2), a graduated scale (29); at the level of the upper horizontal part of the male part (1), a housing (20) provided for the insertion of a fastener allowing the installation of the telescopic support on the equipment to be supported. FIG. 1 also presents, arranged internally to the male part (1) and to the female part (2), the conjugate bearing cylinders (24) and (26) as well as the internal horizontal surfaces (22) and (25) on which they respectively support. Finally, FIG. 1 shows the preferably semispherical end (19) of the female part, whose weight contributes to the sliding of the female part (2) on the male part (1) during the successive extensions of the telescopic support. FIG. 2 represents, respectively, the developed plane of the periphery of a male part (1) comprising a multi-profile cam system (A), (B), (C) arranged in a loop, a connecting cam ( 7) allowing the insertion of the guide pin into the cam system and thus the assembly of the telescopic support, the lateral housings (27) for locking the telescopic support and their tightening (28), as well as the planar development of the open ends. in the form of bearing steps (8a, 81 ,, 8 ,, ... 8a) and 8n. 8c .... 8N), arranged at the open ends of the cylinders (24) and (26) acting as stops, arranged internally to the male parts (1) and female (2) and bearing on their respective inner horizontal portions. FIG. 2 also shows the slope (a) of the segment (C) equal to or greater than the slope (b) of the open surface of the abutment (26), which interconnects the conjugate surfaces (8N) and (8A) of the bearing surfaces (8n) and (8a) on the male part (1). FIGS. 3a and 3b show sections, in a diametral plane, of the same extensible support positioned at two different levels of extension and, on each of them, a male part (1), a female part (2), a guide finger (6), the two mating bearing surfaces 81 ,, 8t3 and 8 ,, 8c. the ribs 14 delimiting the vertical segments of cams, respectively at their upper and lower ends, where they extend vertically to the lower horizontal end of the male part (1); the counterbore cylinders (26) and (24) respectively on the male (1) and female (2) parts, the inner horizontal surfaces (22) and (25) on which the conjugate abutment cylinders (26) and ( 24) respectively bear on the male (1) and female (2), as well as the 3o housing (20) provided for the insertion of a fastener on the outer horizontal part of the male part (1). FIGS. 4a, 4b and 4c show perspective views, respectively assembled and disassociated from the telescopic support (FIG 4a) and the interior arrangement of the respective male (FIG 4b) and female (FIG 4c) telescopic parts, comprising the guide finger (6), the housing (20) provided for the insertion of a fastener on the outer horizontal part of the male part (1); male (1) and female (2) parts on which are respectively presented the cylinders of abutting abutments (26) and (24), as well as bearing surfaces (8 ,, 81 ,, ... 8n) and (8: 813 .... 8N) arranged in steps at the open ends of the cylinders (24) and (26). The arrangement of the cam segment system in a circumferential loop at the periphery of the male part (1), as well as the arrangement of the bearing system inside the male (1) and female (2) parts. ) allow to obtain, at initial height and constant diameter, a greater amplitude and a number of support positions U) greater than that obtained with a device of the prior art. The availability of the bayonet locking system, as shown in FIGS. 1 and 2, allows, for example. ex. when the extensible supports according to the invention support an object of significant weight or with which they are not secured by a fixed assembly, to search, in a first step, in self-adjusting mode, the sought extensions or extensions of the devices telescopic, then block them at the level (s) of extension reached (s), prior to their establishment under the object.

Claims (10)

claims   1. Telescopic extensible support device, with two or more bearings, the elongation of which is obtained, at the different high levels, by the bearing of at least one vertical abutment protruding from a female part (2), on one of the support bases or steps (8a, 8h .... 8a) provided on a male part (1) projecting, the choice of a base or a step being determined by the position of a guide finger (6), integral with the female part (2) and moving inside a guide system based on at least one cam profile, arranged at the periphery of the male part (1) and in which the male part (1) is provided hollow, characterized in that the bearing surfaces (8a, Sh .... 8e) provided in projection on the male part (1) are arranged in the said hollow part, internally to the cylinder described by its inner periphery and in that the or at least one vertical abutment (26) projecting is disposed on the surface horizontal inner of the female part (2) and is arranged to be also inscribed internally to the same inner cylinder to the male part, 15 parallel to its axis.   2. Telescopic support device according to claim 1, of the self-adjusting type, characterized in that the guide system based on at least one cam profile consists of at least one multi-guide guide guide-finger system. (6), arranged laterally, in a loop, over the entire periphery of the male part (1) and in that each mufti-profiles system comprises, successively, an ascending vertical cam profile (A), a profile of cam (B) in zigzag in which vertical cam profiles corresponding to the bearing positions (Po, P, P2, .... Pa) emerge and which are spaced laterally from an arc corresponding to the conjugate arcs separating the bearing surfaces (8a, 81) .... 8a) on the male part (1) and a segment (C) arranged beyond the position of 25 support Pn corresponding to the maximum extension of the telescopic support and whose end operates as a junction with the profile of cam (A) vertical, whose angular position, at the periphery of the male part (1), corresponds to the position (P ,,) of the guide finger (6) before any extension of the telescopic support.   3. Telescopic support device according to claim 1, characterized in that the vertical stop protruding from the inner horizontal part (25) of the female part (2) consists of an open cylinder (26), inside the female part (2), the centers of the female part (2) and the cylinder (26) being merged, and which has on its free horizontal surface bearing surfaces (8_a, 8B.   .8N) combined with the bearing surfaces (8a, 51) .... 8a) arranged in the hollow part of the male part (1) on the free edge of a cylinder (24) bearing, at its other end, on the inner horizontal part (22) of said hollow male part (1) ... CLMF: 4. Telescopic support device according to claims 1 and 2, characterized in that the segment (C) of the cam system (A), (B), (C) arranged at the periphery of the male part (1) has a slope forming an angle (a), such that the support of the guide finger (6) on its lower edge determines the automatic rotation of the female part (2) under the effect of a vertical thrust exerted by the male part ( 1) after the guiding finger (6) integral with the female part (2) has passed, during the extension phase, the last ascending profile of the zigzag segment (B) of the cam system (A), (B) , (C) of the male part (1). ~ 0   5. Telescopic support device according to claim 4, characterized in that for a support system providing, for a zero extension, the total imbrication of the combined open surfaces of the cylinders (24) and (26), respectively on the male (1) and female (2) portions, the slope of the segment (C) forming an angle (a) is equal to or greater than or at the slope forming an angle (b) of the open surface of the abutment (26). ), which interconnects the surfaces (8N) and (8A) conjugate bearing (8n) and (8a) on the male part (1), so as to allow the progressive nesting of the cylinders (24) and (26).   6. Telescopic support device according to claims 1, 2, 3 and 4, characterized in that the bearing surfaces (8 ,, 8h,   8a), on the male part (1), are arranged in steps, the arcs they describe being a function of the arcs separating the angular positions occupied by the guiding finger (6) integral with the female part (2) in the bearing positions (Po, P, P2 Pa), and in that the slopes of the front portions of the steps separating the successive bearing surfaces (8a, 8h .... 8a) on the part male (1) correspond to the conjugate slopes of the ascending segments of the cam profile (B) arranged in a zigzag ... CLMF: 7. Telescopic support device according to any one of the preceding claims, characterized in that it further comprises locking means in the extended position at the different levels of the two telescopic elements (1) and (2), one with respect to the other.   8. Telescopic support device according to claims 2 and 7, characterized in that the locking in position is obtained by the addition, on each of the vertical cam profiles 3o (A) ensuring, on the male telescopic element (1). , the angular positioning of the guide finger (6), on the one hand, of horizontal housings (27), of a length allowing the housing of the guide finger (6), after a rotation of the female part (2) by relative to the male part (1), at each level reached when the stop (26), internal to the female part (2), bears on one of the bearing positions (8a, 8h. ... 8a) of the male part 2898179 (1) corresponding to the same vertical cam profile (A), and secondly, of constrictions (28) disposed at the inlet of said housing to prevent unintentional exit guide finger (6), so as to constitute a bayonet type system.   9. Telescopic support device according to claims 1 and 2, characterized in that for a number n of vertical cam segments (A) corresponding to the bearing position Po, the male part (1) is provided with at least 3-n vertical ribs (14), extending upwardly from the vertical cam segments, and further connected, for one of them, to the cam profile (B) zigzag thus ensuring, at any moment of its travel, the sliding guide of the male part (1) inside the female part (2).   10. Telescopic support device according to any one of the preceding claims, characterized in that the male part (1) comprises on its surface a graduated scale (29), as and when measuring the amplitude of the telescopic device, use the free edge of the female part (2) as a reading index for the height of the foot, whatever its elongation.