ITRE980008A1 - CALIPER FOR CHECKING THE SYMMETRY OF KEYS AND / TONGUES. - Google Patents

Description

.Description of an industrial invention entitled:

Gauge for checking the symmetry of the slots for keys and / or keys.

The present invention refers to a gauge for checking the symmetry of the slots for keys and / or tabs, with respect to the circular cross-section of any cylindrical body, such as for example that of transmission shafts.

The caliper is substantially constituted by a fork having a preferred extension of about a quarter of a circumference, on whose development are positioned: a fulcrum roller at one end, an intermediate support feeler, and a radial through hole, at the end opposite, which constitutes a sighting or reading point for the tip of a measuring instrument, such as for example a comparator, which engages in a clamp coaxial to said radial hole. The fork is configured in such a way as to be substantially approachable and engageable with the external surface of any cylindrical mechanical part, equipped with a longitudinal slot for housing a key or a coupling tab, through three contact points consisting of: fulcrum roller, intermediate support feeler and reading tip of the measuring instrument, such as a comparator. This three-point contact is used for the constitution of trigonometric triangulations with the center of the circular section of the shaft in question, to detect any symmetry errors between said keyway or keyway, and said circular section of the cylindrical part. The fork subtends, preferably but not limitedly, a quarter of the circumference of the shaft, and the way to operate to carry out the symmetry check is based on the trigonometric triangulations formed by the imaginary axes traced between the reading point of the comparator tip, the center of the shaft section and the contact point of the intermediate support feeler, and between the same contact point of the intermediate support feeler, the center of the shaft section and the contact point of the fulcrum roller, engaged in hooking on one side of the quarry itself; where said coupling point is duly corrected by a pre-calculated factor which, taking into account the geometry of the slot, the diameters of the shaft and the roller, and the resting position of the fulcrum on the lateral wall of the slot itself, translates this coupling point into the theoretical position corresponding to the intersection of the circumferential line of the rotor with the radial axis of symmetry of the slot. On the basis of these conditions, imposed by construction, the aforementioned trigonometric triangulations form subtended angles in the center equal to each other, preferably of 45 °. If the second reading, made for example clockwise with respect to the cross section of the shaft, corresponds to the first zeroing reading of the comparator, made in the opposite counterclockwise and specular direction, it means that the triangulations read correspond to those established, in particular at 45 °, and that the controlled slot has been created in an exactly symmetrical position with respect to the circular cross section of the shaft. If, on the other hand, these readings do not coincide, it means that the triangulations detected correspond to subtended angles in the center that are different from each other, and with respect to the preferred 45 °; in this case it means that the controlled quarry was made with symmetry errors with respect to the cross section of the shaft, and the difference between the two readings, multiplied by the corrective factor engraved on the gauge, corresponds to the value of this error. According to the logic described above, and on the basis of the corrective factors precalculated and given accompanying the instrument object of the invention, series of fixed forks can be made for the control of predetermined ranges of shaft diameters, with relative slots for keys or tabs. . It is also foreseen the realization of forks with non-fixed reference points, such as those mentioned above, but adjustable and resettable according to the diameters of the shafts which from time to time are subjected to symmetry control with respect to the respective keyways and / or tabs.

It is known that for the rigid coupling between mechanical parts, such as for example the keying of gears, pulleys, wheels and the like, on shafts and / or rotors, or for stable mechanical couplings in general, keys or of the connection tabs that engage by interlocking in longitudinal grooves, dedicated, made over the areas of the details to be associated. It is also known that in order to obtain lasting, correct and effective couplings, free from non-aligned residual loads that can produce undesirable deformations and / or breakages, the associated parts and the corresponding connecting keys or tabs must be combined together in an orthogonal way. and symmetrical. To obtain these results, or at least to achieve results comparable to the theoretical ones within acceptable and established tolerances, all the necessary mechanical processes must be carried out with great precision, and the parts to be coupled must be subjected to adequate and strict dimensional checks.

For the verification of symmetry, between the circular cross sections of the shafts and / or rotors and the respective slots for keys and / or keys, however, systems that are still rather elementary and of limited precision are currently used: the machined shafts, complete with slots , are arranged in alignment on V-blocks, and the verification is based on a comparative check between the distances of the lateral planes of the slots from a single abutment plane; if they are equal, it means that the quarries in question have been made in a symmetrical position. It is evident that this comparative method is quite empirical and subject to possible errors. Another drawback consists in the fact that, in order to carry out the aforementioned symmetry checks of the slots, the shafts and / or rotors must necessarily be temporarily unloaded from the machine tools, with obvious useless and unproductive waste of time, and with the risk that machine for any and subsequent processing, there may be errors of coaxial positioning and / or realignment, and the like.

The object of the present invention is to eliminate the aforementioned drawbacks. The invention, as it is characterized by the claims, solves the problem by means of a gauge for checking the symmetry of the keyways and / or keyways, with respect to the circular cross-section of any cylindrical body, such as that of shafts of transmission and the like, through which the following results are obtained: the fork, with its reference points, is made with a rigid and non-deformable structure, able to maintain its geometric characteristics and its calibration conditions unchanged over time ; the structure of the fork is simple and inexpensive, it is easy to build and does not require special precautions for use; in its more advanced form, the fork can also be made with adjustable and resettable reference points, for the control of wider diametral ranges, compared to those that can be adopted for fixed point configurations.

The advantages achieved by the present invention essentially consist in the fact that the symmetry check of the slots for keys and / or tabs is carried out by means of comparative readings, in a simple and direct way; the symmetry check of the slots for keys and / or keys can be done directly on the shafts and / or rotors still positioned in correct alignment on the operating machines, without the need to carry out disassembly and reassembly, with evident reduction of dead times, reduction of costs of labor, increase in productivity and exclusion of possible errors and / or processing waste, deriving from inaccuracies of re-positioning or realignments.

The invention is described below in detail according to its embodiments given for illustrative and non-limiting purposes only, with reference to the attached drawings, in which:

Fig. 1 represents the front view of the fork with a fixed structure, associated with the cross section of a shaft equipped with a keyway or keyway,

Fig. 2 represents, in front view, the way to proceed in the two sequential phases of comparative readings, on a shaft in which the keyway or keyway is symmetrically aligned with respect to the cross section,

fig. 3 shows, in front view, the same procedure of comparative readings, applied to a shaft in which the keyway or keyway is in a highly asymmetrical position,

fig. 4 represents the gauge in side view, in the detection position, and

fig. 5 shows the front view of the gauge for checking the symmetry of the slots for keys, of the adjustable type.

The figures show a gauge for checking the symmetry of the slots (8) for keys and / or tabs with respect to the circular cross section (9) of any cylindrical body, such as that of transmission shafts and the like. It is substantially constituted by a fork (1), having a preferred but not limiting extension corresponding to at least a quarter of a circumference, which comprises a fulcrum roller (2), placed at one end, an intermediate support (3), and a sight or reading point (4), located at the opposite end. The target (4) is formed by the tip of a comparator (5) which engages, with its tube (6), in a coaxial clamp (7) integral with the fork itself.

The operation of the gauge is based on the fact that, in conditions of perfect symmetry of the groove (8) of a key or a key with respect to the circular cross section (9) of the shaft or rotor on which it is made, the axes of symmetry of the intermediate support (3) and of the target or reading point (4) intersect at the center of the circular section (9), forming an angle equal to that formed by the intersection at the center of the same axis of symmetry of the intermediate support ( 3) with the axis of symmetry of the groove (8), whose actual position is obtained from the real position of the fulcrum roller (2), resting on a side wall of said groove, multiplied by a pre-calculated numerical factor that takes into account the geometry of the slot, of the diameters of the shaft (9) and of the fulcrum roller (2), and of the same resting position of the fulcrum on the side wall of the slot. For practical reasons of structural simplicity and calculation of the above multiplicative factors, and for the greater precision of the system, the angles in the center are established at 45 °, complementary, and correspond to the optimal condition of orthogonality between the axis of nominal symmetry of the slots (8) passing through the center of the circular section of the shaft (9), and the diametrical axis passing through the reading point (4).

The aforementioned pre-calculated numerical factors, and given to accompany each caliber, are nothing more than multipliers, by means of which the center of the fulcrum roller (2) is algebraically translated, from its actual position, to the theoretical position of intersection of the axis of symmetry of the slot (8) with the outer circumferential line of the shaft (9). The aforementioned symmetry condition must occur with the fulcrum roller (2) first resting on a side wall of the groove (8), and orienting the fork so that points (3) and (4) enter in orthogonal contact relationship with the outer circumferential surface of the shaft (9), then carrying out the same operation, placing the roller on the opposite wall of the groove and reversing the orthogonal orientation of the fork with respect to the circumference itself, as indicated by way of example in figure 2. Based on this , the first reading performed is used for resetting the comparative reading tool (5) and for positioning the references (10) that delimit the range of the allowed error tolerance. The second reading has the function of specifying whether the groove (8) in question is, or is not, symmetrical with respect to the cross section of the shaft (9) on which it was built. If the second reading is included in the field delimited by the references (10) it means that the position of the slot is symmetrical and the asymmetry error detected is within the expected and acceptable tolerance range; if the second reading is not included in the aforementioned field it means that the slot has an unacceptable asymmetry, with respect to the circular section, and the value of this error is given by the difference of the two readings multiplied by the corresponding pre-calculated numerical factor (which is preferably already halved, to quantify Terror with respect to the axis of symmetry).

With the same concept, each fixed fork (1) can not only be used for checking the symmetry of keyways and / or keyways (8) on shafts (9) with nominal diameter (meaning by nominal that diameter with respect to which the aforementioned angles are equal to each other and, preferably but not limited to 45 °, complementary), but it can also be adopted for the control of different diameters and included in delimited and predetermined fields of measurements, around the nominal value, provided that the pre-calculated numerical factors and data supplied with each instrument, also take into account the angular variations with respect to the nominal ones established, such as the preferred ones of 45 °, derived from the variations of the support position on the different external circumferences of the shafts that assume the reference and control points ( 2), (3) and (4).

It should also be pointed out that said numerical factors, varying with linear law, can be easily represented both in the form of printouts and in the form of Cartesian graphs, possibly reported or engraved directly on the back of the forks themselves (1).

In the adjustable and resettable solution according to the diameters of the shafts (9) which from time to time can be subjected to the symmetrical position control of the respective keyways and / or tabs (8), the fork, instead of being fixed, is made up of a structure composed which allows its configuration to be modified, while maintaining the basic geometric and functional characteristics unaltered, Figure 5 shows a non-limiting embodiment of this solution, with complementary angles at the center of 45 °. The fork is composed of a slide (11) on which, in addition to the clamp (7) where the sleeve (6) of the comparator (5) engages and is constrained, a bracket (12) engages orthogonally with which the intermediate support (3). Within each range of measures in which the applicability of the instrument is foreseen, the bracket (12) can be positioned along the slide (11) and be constrained to it in the desired point, depending on the diameter of the shaft (9) that is wants to check. The coupling of the parts requires the presence of adequate vernier references with micrometric positioning and block in the exact desired position. With alignment parallel to the slide (11), an orthogonal cursor (13) engages on the bracket (12), at the end of which the fulcrum roller (2) is applied. Also between the bracket (12) and the slider (13) there are arranged positioning and restraining means. The arrows A, B, and C indicate the directions along which they can translate and the slide (11), the bracket (12) and the cursor (13) can be positioned in combination, for the constitution of the desired trigonometric triangulations between the axes passing through the contact points (2), (3), and (4) and the center of the circular section, in relation to obtaining complementary angles in the center exactly equal to 45 °, depending on the shaft diameter with respect to which symmetry checks of the slot (8) of keys or tabs must be carried out.

While the present invention has been described and illustrated in various solutions, given for illustrative and non-limiting purposes only, it will be evident to those skilled in the art that various modifications to the shapes of the components and references, structures, detection and / or detection means reading, to the points of support and / or reference, to the adjustments and to the triangular trigonometric combinations, can be made, without going out of its scope and purpose.

Claims (7)

CLAIMS 1) Gauge for checking the symmetry of the slots for keys and / or keys (8), with respect to the circular cross sections of cylindrical bodies, such as transmission shafts (9) and the like, to which said slots are associated, characterized by the fact that they are consisting of a fixed (1) or adjustable (11), (12), (13) structure, on which are positioned, or can be positioned: a fulcrum, coupling and reference means (2), an intermediate support and reference means ( 3) and a means or sighting and / or reading point (4), which means are aligned, or can be aligned, along a circular sector trend, with the engagement of the means (2) hooked to one of the side walls of a keyway (8) of a key or key, and the support engagement of the means (3) and (4) along the circumferential surface of the shaft (9) on which the same keyway is formed, and where the axes of symmetry the intermediate support (3) and the finish line or reading point (4) intersect at the center of the circus section line (9), forming an angle equal to that formed by the intersection at the center of the same axis of symmetry of the intermediate support (3) with the axis of symmetry of the slot (8), whose actual position is derived from the real position of the fulcrum roller (2), resting on a side wall of said groove, multiplied by a pre-calculated numerical factor that takes into account the geometry of the groove, the diameters of the shaft (9) and the fulcrum roller (2), and same resting position of the fulcrum (2) on the side wall of the slot (8). 2) Gauge for checking the symmetry of the slots for keys and / or tabs (8) according to claim 1 characterized by the fact that it consists of a fixed structure (1) on which are positioned: a fulcrum, coupling and reference means ( 2), an intermediate support and reference means (3) and a target and / or reading means or point (4), which means are aligned along a circular sector course, with engagement in engagement of the means (2) to one of the side walls of a keyway or keyway (8), and the support engagement of the means (3) and (4) along the circumferential surface of the shaft (9) on which the same keyway is formed, and where the symmetry axes of the intermediate support (3) and of the target or reading point (4) intersect at the center of the circular section (9), forming an angle equal to that formed by the intersection at the center of the same axis of symmetry of the intermediate support (3) with the axis of symmetry of the slot (8) , whose actual position is obtained from the real position of the fulcrum roller (2), resting on a side wall of said groove, multiplied by a pre-calculated numerical factor that takes into account the geometry of the groove, the shaft diameters (9) and of the fulcrum roller (2), and of the same resting position of the fulcrum (2) on the side wall of the slot (8). 3) Gauge for checking the symmetry of the slots for keys and / or tabs (8) according to claim 1 characterized by the fact that it consists of an adjustable structure composed of a slide (11) on which, in addition to the clamp (7) constraint of the sleeve (6) of a reading instrument such as a comparator (5), a bracket (12) engages orthogonally, to which the intermediate support (3) is associated, and on which an orthogonal cursor (13) engages , parallel to said slide (11), at the end of which the fulcrum means (2) is applied; according to orthogonal directions the slide (11), the bracket (12) and the cursor (13), can be moved to each other and can be positioned in associated combination for the constitution, with the following: fulcrum means, coupling and reference (2), means of intermediate support and reference (3) and means or target and / or reading point (4), of alignments along a circular sector trend, with engagement of the means (2) hooking to one of the side walls of a quarry (8 ) of the key or key, and the support engagement of the means (3) and (4) along the circumferential surface of the shaft (9) on which the same slot is formed, in conditions such that the axes of symmetry of the support intersection at the center of the circular section (9), forming an angle equal to that formed by the intersection at the center of the same axis of symmetry of the intermediate support (3) with the 'axis of symmetry of the slot (8), whose actual position is obtained from the real position of the fulcrum roller (2), resting on a side wall of said groove, multiplied by a pre-calculated numerical factor that takes into account the geometry of the groove, the shaft diameters (9) and the fulcrum roller (2) , and of the resting position of the fulcrum (2) on the side wall of the slot (8). 4) Gauge for checking the symmetry of the keyways and / or keyways (8) according to claims 1 to 3 characterized in that the fulcrum, coupling and reference means (2), the intermediate and reference support means ( 3) and the sighting and / or reading means or point (4), are aligned, or can be aligned, along a circular sector trend relative to the nominal diameter of a shaft (9), with engagement in engagement of the means (2) to one of the side walls of a key or key slot (8), and the support engagement of the means (3) and (4) along the circumferential surface of the shaft itself, on which said slot has been formed; the axes of symmetry of the intermediate support (3) and of the target or reading point (4) intersect at the center of the circular section (9), forming an angle equal to that formed by the intersection at the center of the same axis of symmetry of the 'intermediate support (3) with the axis of symmetry of the groove (8), whose actual position is obtained from the real position of the fulcrum roller (2), resting on a side wall of said groove, multiplied by a pre-calculated numerical factor which takes into account the geometry of the slot, the nominal diameter of the shaft (9), the diameter of the fulcrum roller (2), the same resting position of the fulcrum (2) on the side wall of the slot (8) and any resulting variations from the adoption of the gauge for the control of different diameters, included in delimited and predetermined fields of measures, around the value of the nominal diameter. 5) Gauge for checking the symmetry of the slots for keys and / or keys (8) according to claims 1 to 4, characterized in that the axes of symmetry of the intermediate support (3) and of the sight or reading point (4) intersect at the center of the circular section (9), forming an angle of 45 ° equal and complementary to that formed by the intersection at the center of the same axis of symmetry of the intermediate support (3) with the axis of symmetry of the slot (8 ), whose actual position is obtained from the real position of the fulcrum roller (2), resting on a side wall of said groove, multiplied by a pre-calculated numerical factor that takes into account the geometry of the groove, the shaft diameters (9) and of the fulcrum roller (2), and of the same resting position of the fulcrum (2) on the side wall of the slot (8); the angles at the center established of 45 °, complementary, corresponding to the condition of orthogonality between the axis of nominal symmetry of the slots (8) passing through the center of the circular section of the shaft (9), and the diametrical axis passing through the reading point (4). 6) Gauge for checking the symmetry of the slots for keys and / or tabs (8) according to claims 1 to 5 characterized by the fact that the control of said symmetry condition is a function of two comparative readings in which in the first reading the roller fulcrum (2) rests on a lateral wall of the groove (8) and the fork is oriented so that the points (3) and (4) come into orthogonal contact relationship with the outer circumferential surface of the shaft (9) and a second reading is obtained by carrying out the same operation, placing the roller on the opposite wall of the groove and inverting the orthogonal orientation of the fork with respect to the circumference itself; the first reading performed is also adopted for resetting the comparative reading tool (5) and for the possible positioning of the references (10) that delimit the field of tolerance on the admitted error, the second reading, comparative, specifies the condition symmetry of the groove (8) under examination with respect to the cross section of the shaft (9) on which it was made, with a positive result, if it is included in the field delimited by the references (10) with an asymmetry error contained in the field of expected and acceptable tolerance, with a negative result if the second reading is not included in the above field, and where the error value is given by the difference of the two readings multiplied by the corresponding pre-calculated numerical factor. 7) Gauge for checking the symmetry of the slots for keys and / or tabs (8), with respect to the circular cross sections of cylindrical bodies, such as transmission shafts (9) and the like, to which said slots are associated, as described and with the reservation expressed in the last paragraph of the descriptive part, as illustrated by way of example, according to the preceding claims and for the specified purposes.