Title of Invention

A NOVEL USE OF A GEARCASE UNIT

Abstract

The invention relates to a gear case unit (1) comprising two mounting surfaces, a lower (3) and an upper (12) mounting surfaces being located at different distances from the axes of the motor (2) and the gear case unit shafts- An additional front mounting surface (6) is provided at least a flange (7,9,1Ø) of the gear case casing which has through holes (6a,8,11) and recesses (N). The gear case unit (1) may toe coupled to any type of motor (2) having a protrusion to a user device, either in a step up or in a step down configuration for usage in the industrial and agricultural field.

Full Text

-1A- The present invention relates to a gear case unit as a mechanical speed reduction unit, i.e., to a mechanical device for transmitting power constituted by coupled mechanical elements, for example shafts and gears, which is interposed between a motor, which is generally electric, and any user device to be driven at a reduced speed, or even at a higher speed, assuming more appropriately the name' of "step-up or overgear unit" in the latter case; in any case, the moving mechanical elements, which constitute the reduction or step-up unit, are enclosed in a casing which rotationally supports at least the drive shaft and the driven shaft in mutual alignment or even the drive shaft arranged off-axis with respect to the driven shaft. The state of the art comprises mechanical speed reduction and step-up units, hereinafter briefly referenced to as "reduction units", whose casing can be provided with: — a mounting surface which is parallel to the axis of the shaft (or shafts) and is constituted by a continuous or discontinuous base provided with holes for the passage of corresponding screws or bolts (version generally known as B3, as shown in figures 1 and 2); — a wall mounting surface which lies normal to the shaft axis and is constituted by a monolithic flange, with holes for the passage of corresponding screws or bolts inserted from the motor side or from the opposite side (monolithic version B5, as shown in figures 3 and 4); - a wall mounting surface which lies normal to the shaft axis and is constituted by a peripherally continuous or discontinuous flange with threaded holes for screwing 2 therein screws which can be operated on from the opposite side with respect to the motor side (version B14, as shown in figures 5 and 6); — a continuous or discontinuous base mounting surface and a mounting surface which lies normal to the axis with a continuous or discontinuous flange provided with threaded holes (version B3/B14, as shown in figures 7 and 8); — a mounting surface which lies normal to the axis and is constituted by an applied flange provided with through holes (add-on version B5 as shown in figures 9 and 10); — a continuous or discontinuous base mounting surface and a mounting surface which lies normal to the axis on an applied flange with through holes (add-on version B3/B5, as shown in figures 11 and 12). This state of the art, however, entails considerable drawbacks caused by the fact that a single reduction unit provided with one or two mounting surfaces as mentioned above cannot meet a plurality of different requirements for mounting it along surfaces which lie parallel or normal to the axis. Accordingly, versions which allow a single kind of mounting (B3, B5) force one to purchase two different reduction units, whilst versions which allow two kinds of mounting, respectively (B3/B14) and (add-on B3/B5), are not satisfactory, since for example for type B3/B14 wall mounting requires accessibility of said wall on the opposite side with respect to the motor side, and this is often impossible and in any case more complicated, whilst for the add-on B3/B5 type it is necessary to assemble an additional flange. 3 Moreover, amidst the complexity of systems, it often happens that the reduction unit, in addition to the need to be mounted to a lower or wall support, must also be mounted to an upper support; since the reduction unit is not preset therefor, it would have to be turned upside down, with the consequent need to provide special lubrication means. Finally, the reduction unit axis may sometimes have to assume different distances from the supporting surface: however, since this is not immediately feasible, it is necessary to provide for specific corrective structures. It is understood that reduction units can also be coupled in vertical or otherwise inclined arrangements. This prior state of the art is susceptible of considerable improvements as regards the possibility to eliminate the above drawbacks. The above description first of all clearly shows the need to solve the technical problem of finding a reduction unit which can be coupled to any electric or non-electric motor and can meet new installation requirements for coupling to supporting surfaces, i.e., immediate adaptability for mounting to an upper support, and advantageously simultaneously meets at least two of the following requirements: — mounting on an upper support; — mounting on a front wall; — mounting on a lower support; as regards adaptability for simultaneous mounting on lower and upper supports, since it is necessary to meet the most disparate overall size requirements according to the kind of 4 motor associated with the reduction unit and according to the space available in the supporting structure, another aspect of the same problem is to mount the reduction unxt on a surface, for example an upper surface, despite the presence of the terminal strip which protrudes from the electric motor on the same side or of protrusions, in general, of other kinds of motors. The invention solves the above problem by adopting, in the reduction unit, an additional mounting surface which is parallel to the axis and is advantageously arranged above it, and as regards achieving an increase in the installation possibilities, by adopting, in the reduction unit, at least one front mounting surface and another mounting surface which is parallel and opposite to the upper one; as regards the application of the mounting surface, for example on the terminal strip side, by adopting between the two upper and lower mounting surfaces a different distribution of their distances with respect to the axis, the greatest of said distances being, in the specific case, located on the side of said terminal strip. The advantages achieved by the present invention are: as regards the adoption of an additional mounting surface which is parallel to the axis, advantageously in opposition with respect to the conventional one, the possibility to immediately choose between lower mounting and upper mounting, both with equal distances between the two mounting surfaces and the axis and with different distances; said axis being able to assume the smallest or greatest of the distances from the mounting surface of the reduction unit-user machine assembly; as regards the adoption of the front 5 mounting surface, the possibility, together with provisions for mounting along at least one surface which is parallel to the axis, to allow insertion of the mounting means both from the motor side and from the other side; another advantage being constituted by the possibility to neutralize the bulk of the terminal strip of the electric motor (or other equivalent protrusion of a non-electric motor) to mount the reduction unit on the same side; this by arranging the coupling of the reduction unit which has the greatest distance between the mounting surface and the axis on the same side as said terminal strip or protrusion. Some embodiments of the invention are illustrated, accompanying merely by way of example, in the/ drawings, wherein: figures 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 and 12 are pairs of partially sectional side views and left views, respectively, of reduction unit types B3, monolithic B5,B14, B3/B14, add-on B5, add-on B3/B5, which constitute the state of the art, coupled to an electric motor; figures 13 and 14 are, respectively, a partially sectional side view and left view of the embodiment of a reduction unit provided with mounting means constituted by the combination of a lower mounting surface with a discontinuous base and of a front mounting surface with a monolithic flange, in which advantageously, appropriate recess structures are used, in order to reduce bulk - also in relation to the distribution of the internal components -in the regions for the insertion of mounting screws or bolts; 6 figures 15 and 16 are partially sectional views of the embodiment of a reduction unit provided with mounting means constituted by the combination of the monolithic-flange front mounting and of the upper mounting surface; figures 17 and 18 are views of the embodiment of a reduction unit provided with mounting means constituted by upper and lower mounting surfaces which are equidistant from the axis of the driving and driven shafts by a suitable extent, designated, for example, by the reference capital letter A; figures 19 and 20 are views of an embodiment which is similar to the embodiment of figures 17 and 18 but with a different distance of the mounting surfaces with respect to the axis, in which B is smaller than A; figures 21 and 22 are views of an embodiment with three mounting surfaces: a lower one and an upper one which are equidistant and a front one constituted by a flange provided with threaded holes; figures 23 and 24 are views of an embodiment such as the one of figures 21 and 22, but with lower and upper mounting surfaces which are not equidistant with respect to the axis; figures 25 and 26 are views of an embodiment which is similar to the one of figures 21 and 22, but with an applied flange provided with through holes; figures 27 and 28 are similar to figures 23 and 24, but illustrate an applied flange with through holes; figures 29 and 30 are views of an embodiment which is similar to the one of figures 25 and 26, but with a monolithic flange provided with through holes; 7 figures 31 and 32 are views of an embodiment which is advantageous with respect to the embodiment of figures 27 and 28, owing to the introduction of a monolithic flange with through holes, this embodiment being preferred according to the present invention; figure 33 is a side view of an application by bottom mounting of the preferred embodiment of figures 31 and 32, both by means of screws and by means of bolts; figure 34 is a side view of the application of the same reduction unit as in figure 33, with a smaller lower axis height (B), bottom mounting, and bulk of the terminal strip of the motor 2 accommodated within the space occupied by the reduction unit 1; figure 35 is a side view for the application of said reduction unit by front wall mounting, with the possibility to use screws or bolts both on the motor side and on the opposite side. The reference numeral 1 designates the reduction unit coupled to a generic electric motor 2 , with an upper terminal strip; the reference numeral 3 designates the lower mounting surface, provided with through holes 4; the reference numeral 5 (figure 3) designates a monolithic flange provided with a front mounting surface (6) with through holes 6a; the reference numeral 7 (figure 5) designates a flange with threaded holes 8; the reference numeral 9 (figure 9) designates an applied flange, with through holes 6a; the reference numeral 10 (figure 13) designates a monolithic flange with through holes 11 and corresponding recesses N for the insertion and operation of 8 screws or nuts; the reference numeral 12 designates the upper mounting surface, provided with through holes 4; the reference numeral 13 (figures 33, 34 and 35) designates mounting screws; the reference numeral 14 designates a mounting bolt; the reference numeral 15 designates a mounting bolt with insertion in the wall 16 from the side lying opposite to the side of the motor 2. In practical execution, the materials, the dimensions and the constructive details may be different from those described but technically equivalent thereto, without thereby abandoning the scope of the present invention. Accordingly, the mounting elements related to the upper mounting surface and to the lower mounting surface might be constituted by applied plates which are fixed to the casing by means of screws and are provided with through holes. Where technical features mentioned in any claim are followed by reference signs, those reference signs have been included for the sole purpose of increasing the intelligibility of the claims and accordingly such reference signs do not have any limiting effect on the scope of each element identified by way of example bv such reference signs, -9-We Claim: 1 A gear case unit for connecting a motor (2) having a protrusion to a user device, either in a step-up or in a step down configuration, the gear case unit comprising a casing which encloses the elements for transmitting motion so as to reduce or increase the speed, and drive and driven shafts having aligned or otherwise parallel axesVa first one of said shafts being the input shaft connectable to the motor (2) and the second one of the output shaft connectable to the user device, said casing being provided with a continuous or discontinuous surface (3) for front mounting through screws (13), bolts (14, 15) which lies normal to said shaft axes, with a continuous or discontinuous lower mounting surface (3), which can be crossed by mounting means selected from a group constituted by screws (13), bolts (14, 15) and with an upper mounting surface (12) of any adapted configuration, which can be crossed by mounting means selected within a group which comprises screws (13), bolts (14, 15), said upper and lower surfaces (3, 12) being parallel to said shaft axes, and characterized in that said front mounting surface (6) is constituted by a flange (7,9,10), with a circular contact surface and mounting through or threaded holes (6a, 8,11) for insertion of said screws or bolts (13, 14, 15), said contact surface and mounting through or threaded holes being provided concentrically with respect to the axis of the output shaft such that one of said upper (12) and said lower (3) surfaces is disposed on the same side of the protrusion of said motor -10- (2) at the greatest distance from the axis of the shaft to accommodate the bulk of the protrusion of the motor (2) within the space occupied by the gear case unit 2. The gear case unit as claimed in claim 1, wherein the said flange (7) constituting said front mounting surface (6) is provided with threaded holes(8) 3. The gearcase unit as claimed in claim 2, comprising additional mounting flange (9) having mounting-through holes (6a) which is applied at said flange (7) 4. The gearcase unit as claimed in claim 1, wherein said flange (10) constituting said front mounting surface (6) is formed monolithic with said casing and has a through holes (11). 5 The gearcase unit as claimed in claims 1 to 4, wherein the front mounting surface (6) associated with both said upper mounting surface (12) and said lower mounting surface (3), are provided with through mounting holes (6a, 11). -11- 6 The gear case unit as claimed in any of the claims 1 or 5, wherein a distance (A) between the shaft axes and the upper mounting surface (12) if configured greater than the distance to the lower mounting surface (B), the gearcase unit is mounted at the lower mounting surface (3), the motor (2) being coupled thereto with a 180° offset. 7 The gear case unit as claimed in one or more of the preceding claims, wherein said upper (12) and lower (3) mounting surfaces are provided with through holes (4) which can be crossed by said mounting means (13, 14, 15) and having corresponding recesses (N) located in the walls of the casing so as to allow insertion and /or operation of said mounting means (13, 14, 15) from the side opposite to the mounting surfaces 8 The gearcase unit as claimed in claim 7, wherein said front mounting surface (6) is provided with recesses (N) which are located in complementary relationship with said mounting through holes (11). The invention relates to a gear case unit (1) comprising two mounting surfaces, a lower (3) and an upper (12) mounting surfaces being located at different distances from the axes of the motor (2) and the gear case unit shafts- An additional front mounting surface (6) is provided at least a flange (7,9,1Ø) of the gear case casing which has through holes (6a,8,11) and recesses (N). The gear case unit (1) may toe coupled to any type of motor (2) having a protrusion to a user device, either in a step up or in a step down configuration for usage in the industrial and agricultural field.

Documents:

01154-cal-1997-abstract.pdf

01154-cal-1997-claims.pdf

01154-cal-1997-correspondence.pdf

01154-cal-1997-description(complete).pdf

01154-cal-1997-drawings.pdf

01154-cal-1997-form-1.pdf

01154-cal-1997-form-2.pdf

01154-cal-1997-form-3.pdf

01154-cal-1997-form-5.pdf

01154-cal-1997-pa.pdf

01154-cal-1997-priority document other.pdf

01154-cal-1997-priority document.pdf

1154-CAL-1997-FORM 27.pdf

1154-CAL-1997-FORM-27.pdf

1154-cal-1997-granted-abstract.pdf

1154-cal-1997-granted-claims.pdf

1154-cal-1997-granted-correspondence.pdf

1154-cal-1997-granted-description (complete).pdf

1154-cal-1997-granted-drawings.pdf

1154-cal-1997-granted-examination report.pdf

1154-cal-1997-granted-form 1.pdf

1154-cal-1997-granted-form 2.pdf

1154-cal-1997-granted-form 3.pdf

1154-cal-1997-granted-form 5.pdf

1154-cal-1997-granted-letter patent.pdf

1154-cal-1997-granted-pa.pdf

1154-cal-1997-granted-priority document.pdf

1154-cal-1997-granted-reply to examination report.pdf

1154-cal-1997-granted-specification.pdf

1154-cal-1997-granted-translated copy of priority document.pdf