FR2971307A1 - Sleeve and controlled crushing zone assembly for use in piton to hold surface cover of e.g. swimming pool, has crushing zone formed at rod end to allow stable wedging of zone during extraction of rod so that rod is integrated with sleeve - Google Patents

Abstract

The assembly has a sleeve (1) in which a metal rod (2) slides. The metal rod includes a flattened end whose width is greater than internal diameter of the sleeve. A cone (3) with height (h), is formed inside the sleeve at an aperture angle. A controlled crushing zone (4) is formed at the end of the rod to allow stable wedging of the zone in the cone during extraction of the rod such that the rod is integrated with the sleeve. The zone is formed in the shape of triangle whose apex angle takes a value (beta) with tolerance of plus or minus gamma degrees of angle.

Description

Set with unconventional adjustment for wedging 10 Technical field. This patent relates to the adjustment of mechanical parts, one of which slides in the other, and to the realization of an unconventional adjustment between a cone made on the female part and a controlled crushing performed on the male part for that a voluntary jamming of the two parts can be done. This heterogeneous adjustment applies in the context of this patent pitons retaining the pool covers. 20

STATE OF THE ART Two technical fields are examined, that of piton anchors for swimming pool covers, and that of jamming cones. 25 To hold tarpaulins stretched on the surface of a pool or use several types of pitons that are fixed or sealed themselves at the beach. Tarpaulins are tied to these peaks by straps or bungees. We find: - Pitons called `retractable ', because they are permanently sealed on a beach and retract completely in the beach when they are not used. These 30 pitons have at least two work positions, one with the head out. This position is maintained thanks to an internal stainless spring. The other position called `retracted 'is obtained by pressing the head and locking it by a rotation. Descriptions of this type of studs can be found in US Pat. No. 3,391,515 or French Patent No. 01 11320. - socket studs consisting of a metal sleeve fixed in the range and in which a rod, also metal, provided at one end, slides; outer side of a large head on the surface to hold bungee and straps tarps to maintain. The other end of the rod is simply crushed strongly to such a width that this rod can not come out of the socket. At this end of the sleeve 40 is often made a small inner chamfer cleanliness. In the mechanical field and in particular in the machine tool, it is used to ensure, on the one hand, the high precision centering of two parts relative to each other, and on the other hand the temporary joining of these two parts. parts, cone jamming or fitting. This cone is more often known by the name of its inventor, the Morse cone (proper name, then become common use). The Morse taper is particularly used for training machine tool tools such as drills, milling machines, counterspeeds, etc.

Appreciation of the technique The fact that the `retractable pegs' have a stable position head output maintained by an internal spring, provides a major use because it frees the two hands of the user to fix under a large tension bungee cord or straps on this head. However the manufacturing by bar turning of these parts is quite complicated, it also requires the presence of a stainless steel spring, which leads to a set difficult to manufacture, so quite expensive. Conversely, the socket stud is very simple to manufacture, in particular the crushing of the internal rod is made in very large series in a rudimentary manner without dimensional requirements, the manufacturing costs are thus 3 to 5 times lower than for pitons `` retractable '' which explains that these socket studs took 90% of this market. However these pitons are not very practical to use, in fact their major disadvantage is that the user must always maintain one hand the head out of this peak, to be able with the other hand to fix under traction force the strap or the bungee cord under the high tension produced by the tarpaulin.

The Morse wedging cone is very difficult to achieve for the blocking is effective, indeed it takes a very high precision machining between the male cone and the cone female conicity quite low by a few degrees, and it also requires a range relatively large of the two pieces of the order 10 to 20 cm. In all cases it is necessary to produce two conical parts which fit perfectly into one another at a high manufacturing cost which is not compatible with the application targeted by the present invention.

Technical problem to be solved The invention described in this document solves the following problem: between two sliding parts constituting a socket stud as described above, the invention describes the characteristics of the realization of a cone on the female part, associated with a controlled crush zone on one end of the fan-shaped male portion to provide an unconventional fit between a cone and a substantially axially truncated comical fan to cause a stable wedge between the two pieces when attempting to extract the rod from the socket. The invention solves the problem of the definition and the realization of this unconventional quasi-adjustment to satisfy the conditions of the wedging between two heterogeneous parts, without the very heavy imperatives of precise machining of the conical parts, so as to remain compatible with the objective of manufacturing price of this type of product.

DESCRIPTION OF THE INVENTION The invention described here relates to the definition of the parameters for producing a cone made at the inner end of the female part of a socket on the one hand, and to the final shape of a crushing of the outer end of a metal rod which slides in this socket on the other hand, these two elements being closely associated in order to obtain a jamming effect during an attempt to extract the rod from the socket . This jamming is stable and permanent when the extraction force becomes zero, and the sleeve and the rod dissociate as soon as one exerts a force opposite to the extraction force. Given the heterogeneous forms of the two parts in contact, jamming occurs only under certain conditions. Either at the angle of the conical part made in the socket on the one hand, and R the angle of the fan part of the rod after its crushing on the other hand. The different values of the parameters satisfying the validity of this jamming are determined by a convergent dichotomous process comprising the steps: definition-realization-tests-verifications-corrections of these parameters. The fan obtained by crushing being not perfectly regular, the measurement of the angle 13 is made on the last millimeters the most regular (for example 2 to 3 mm) of the fan in its widest terminal part, prolonging each of the two sides of the fan on the central axis, and then taking the average angle obtained. The invention also specifies the minimum values (a min) and maximum (a max) that can take the angle a, as well as a tolerance of ± y degrees of angle to be applied to the angle 13 of realization of the fan, so that the jamming conditions are always realized. The values (a max - a min) and y will be as large as possible in order to maximize the respective tolerances of realization while satisfying the jamming function of the two parts of the assembly in order to minimize manufacturing scrap and therefore of to lower as much as possible the respective manufacturing costs of these two parts. Similarly the cone made in the sleeve at a height h of a few millimeters (1 mm to the length of the sleeve). This height h of the cone is the smallest possible while satisfying the conditions of jamming, but is not confused with the chamfer of cleanliness of a few tenths of a millimeter that can be achieved at the entrance of the sleeve or the cone of the invention.

According to a particular embodiment of the assembly, the base of the cone of the sleeve is 1 mm inside said sleeve, and the largest width of the fan after crushing is less than the portion wider of the cone made in the sleeve, so that the rod penetrates inside the socket of i mm during the extraction operation of the rod, for its jamming in the cone of this sleeve thus produced.

To achieve the fan at the base of the sliding rod is used a method of controlled crushing of the cylindrical portion of the base, which then takes a fan shape after this controlled crash. The difficulty lies in the strict dimensional control of the fan after the crushing operation, in order to respect the angles and the tolerance y of the fan, so that the jamming takes place. This crushing operation is done according to several processes, of which three of the most common ones will be mentioned here.

A first method is to apply a force F to two jaws that come together to crush the end of the rod. As the mechanical resistance associated with the crushing of the rod and which opposes F becomes equal to F, the approaching stops and the fan then takes its final form. The solution consists in precisely defining the value of F, which will be done as mentioned above by the experimental dichotomous process. A second method consists in inserting a height wedge between the two jaws so as to calibrate the height of crushing therefore, as a consequence of conservation of the material, the width of the fan obtained. In this second method the height wedge can be simply replaced by a mechanical stop which limits the stroke of the jaws. A third method is to place the part of the squeezing rod to constitute the fan, in a workpiece calibrated exactly to the width of the desired fan and therefore to the desired angle Q, and proceed to the crushing of the stem.

Advantages provided by the invention. For bush studs used to attach straps or bungees swimming pool covers, the invention makes it possible to define an embodiment of these bush studs by producing a functional assembly associating a cone in the bush and a precise fan on the rod so that There is jamming between these two parts. This wedging allows the release of the hands of the user to greatly facilitate the implementation of these bungees or straps. In addition, the invention makes it possible to define and produce these heterogeneous jamming cones at costs that are significantly lower than known conical wedging devices.

Brief description of the drawings. FIG. 1 represents an assembly composed of a bushing (1) associated with a rod (2) with parameters characterizing a cone (3) produced in the bushing (1), and a fan controlled crushing zone (4). on the rod (2). Fig. 2 shows this profile assembly during a crushing operation of the rod (2) to form a fan (4). Figure 3 shows a particular embodiment of the cone (3) inside the sleeve (1).

Description of at least one Embodiment of the Invention FIG. 1 represents an assembly composed of a sleeve (1) in which a rod (2) slides, one of its ends being flattened by crushing so that the width obtained after crushing is greater than the internal diameter of the sleeve (1). FIG. 2 shows a method making it possible to obtain this flattened area after being crushed by two jaws under forces F. According to the invention, said assembly is characterized by the combined combination: on the one hand, of a cone (3) of height h made at one end of the sleeve (1), cone whose angle of the conical opening is a, - and secondly, the embodiment at the end of the rod (2) of a controlled crush zone (4) forming a triangle-shaped fan whose angle at its apex takes on the value R with a tolerance of ± y degrees of angle. The values of the parameters h and a, characterizing the cone (3) and p and y characterizing the range of the controlled crushing zone (4) are closely correlated with each other in order to satisfy the functional objectives of the set consisting of the bushing 30 (1) and the rod (2), that is to say the stable jamming by maintaining the controlled crushing zone (4), in the cone (3) during an extraction attempt the rod (2), so that the rod (2) remains integral with the sleeve (1). The determination of these parameters is done by a convergent dichotomous process: definition - realization - tests - verifications - corrections of these 35 parameters. In order to minimize the production and machining costs, values for said values having maximum tolerances satisfying the functional requirements of jamming of the assembly will be retained.

By the dichotomous process it is thus determined that h must be greater than a few tenths of a millimeter of a chamfer of cleanliness of the sleeve when this chamfer exists, that a must be between a minimum value at min of 2 ° of angle and a maximum value at max of 32 ° angle. In the same way it is determined that the optimum value of f3 must be equal to a but with a tolerance of ± y degrees of angle.

According to Figure 1, the measurement of the angle (3 is determined by the extension on the axis, the sides of the range of the controlled crushing zone (4) and taking the average slope of each of the two sides of the fan.

By the same dichotomous process, the acceptable maximum limits of the tolerance y which satisfy the jamming function of the two heterogeneous conical parts are determined: the cone (3) of the sleeve (1) and the fan (4) of the rod (2). ). We find that y must belong to the interval {0 °, 18 °} degrees of angle. The final angle made 13 is between the values (a-y) and (a + y) this angle (3 thus obtained must remain greater than 2 ° angle.

According to a particular embodiment and with reference to Figure 3, the cone (3) of the sleeve (1) is 1 mm inside with respect to the end of said sleeve. To realize the jamming condition, it is necessary that the preceding conditions on the values of the parameters h, a, 13, and y are verified, and that the maximum width L of the fan (4) obtained after crushing of the rod (2) is smaller than the diameter D of the end of the cone (3) formed in the sleeve (1).

Industrial Applications The present invention makes it possible to achieve simply and at a very low price a wedging between a bushing and a sliding rod so as to keep it permanently locked and to unlock it as soon as desired. A first embodiment applies to the studs socket fixing the pool covers.

Claims (9)

1) Assembly consisting of a sleeve (1) may have a chamfer of cleanliness at each end, socket in which slides a metal rod (2), one end of which is flattened such that the width obtained is greater than the internal diameter of the sleeve (1), characterized by the combined combination: - on the one hand, of a cone (3) of height h made inside the sleeve (1), of angle of opening a, and opening at one end of this sleeve (1), 15 - and secondly, the embodiment at the end of the rod (2) of a controlled crushing zone (4) forming a fan in triangle shape whose angle at its apex takes the value 13 with a tolerance of ± y degrees of angle, this combination allowing the stable wedging of the controlled crushing zone (4) of the rod (2), in the cone (3) of the sleeve (1) during an attempt to extract the rod (2), so that the rod (2) remains secured to the sleeve (1). 2) assembly according to claim 1 characterized in that the parameters h, a, 13, and y are determined according to a convergent dichotomous process: definition - realization - tests - verifications - corrections, of said parameters. 3) assembly according to claims 1 and 2 characterized in that a is between two limits, a min being the lower limit, and a max the upper limit of the angle forming the cone (3). 30 4) assembly according to claims 1 to 3 characterized in that a min takes the value of 2 degrees of angle and a max value of 32 degrees of angle. 5) assembly according to claims 1 to 2 characterized in that the parameter h to a value greater than a few tenths of a millimeter of a clean chamfer formed at the end of the sleeve (1) or the cone (3). 6) assembly according to claim 1 and 2 characterized in that the angle 13 is determined by the extension of the sides of the range of the controlled crushing zone (4) taking the average angle obtained by the extension of each on both sides of the fan. 7) assembly according to claim 6 characterized in that the angle 13 has a value identical to the value of a retained for the realization of the cone (3), and with a design tolerance of ± y degrees of angle such that l final angle realized 13 is between the values (ay) and (a + y) degrees of angle. 8) assembly according to claim 7 characterized in that the tolerance y takes a value between 0 ° and 18 ° degrees of angle and ensuring that the angle 13 remains always greater than 2 ° angle. 9) assembly according to claims 1 to 8 characterized in that the widest end D of the cone (3) is i mm inside the sleeve (1) relative to the end of said sleeve, and that the maximum width L of the fan (4) obtained after crushing of the rod (2) is less than the diameter at the diameter D of the end of the cone (3) made in the sleeve (1), all other conditions the parameters h, a, 13, and y are also checked.