US3491604A - Device for modifying rotary motion - Google Patents

Description

Jan. 27, 1970 c. B. LEVI DEVICE FOR MODIFYING ROTARY MOTION 5 Sheets-Sheet 1 Filed Feb. 12, 1968 ifzz/ezfon -J'a6a5' 52a Jan. 27, 1970 c. B. LEVI 3,491,604

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Jan. 27, 1970 1 c. B. LEVI 3,491,604

.DEVIOE FOR MODIFYING ROTARY MOTION Filed Feb. 12, 1968 5 vSheets-Sheet 4 .ZrEze 02", Kass-J 176 Jan. 27, 1970 c. B. LEVI 3,491,504

- DEVICE FOR MODIFYING ROTARY MOTION Filed Feb. I2, 1968 5 Sheets-Sheet 5 I ,4 o h I a M.) v) X ,3 a Q m I \b l I I I l I I I 3 M United States Patent 3,491,604 DEVICE FOR MODIFYING ROTARY MOTION Cass B. Levi, Pittsburg, Kans., assignor of one-half to McNally Pittsburg Manufacturing Corporation, Pittsburg, Kans., a corporation of Kansas Filed Feb. 12, 1968, Ser. No. 704,635 Int. Cl. F16h 21/12, 21/48, 25/08 US. Cl. 74-63 2 Claims ABSTRACT OF THE DISCLOSURE The invention relates to an improved device for modifying rotary motion and has reference more particularly to improved drive means for a feeder or similar apparatus and which can be adjusted to change the feeding action of the apparatus to and from maximum and zero feed.

An object of the invention resides in the provision of a device capable of converting rotary motion at a constant speed into rotary motion having different angular speeds during each revolution.

Another object of the invention is to provide a device of the character described which will employ a single connecting part between the driving member and the driven member. The driving member drives the driven member by means of the connecting part and since the members are offset with respect to each other the connecting part is caused to reciprocate in relation to the driving member. This mode of operation causes the driven member to move through fast and slow angular speeds for each revolution.

A further object is to provide a device for modifying rotary motion as described "and which can be adjusted to vary the reciprocating action of the device with respect to a horizontal plane by adjusting the rotated position of the housing of the device.

With these and various other objects in view, the invention may consist of certain novel features of construction and operation, as will be more fully described and particularly pointed out in the specification, drawings and claims appended thereto.

In the drawings which illustrate an embodiment of the device and wherein like refernce characters are used to designate like parts:

FIGURE 1 is an exploded view in perspective Showing the invention in simplified form;

FIGURE 2 is a transverse sectional view taken substantially along line 22 of FIGURE 1;

FIGURE 3 is a longitudinal sectional view showing a modified form of rotary motion device coming within the invention;

FIGURE 4 is a longitudinal sectional view showing another modification of the invention wherein the housing is rotatably adjustable;

FIGURE 5 is a sectional view taken substantially along line 5-5 of FIGURE 4;

FIGURE 6 is a sectional view taken substantially along line 55 of FIGURE 4, but showing in diagrammatic form the location of the centers of the principal elements for a maximum feeding operation;

FIGURE 7 is a sectional view taken substantially along line 55 of FIGURE 4 but showing the centers of the principal elements when the housing is rotated ninty degres for a minimum feeding operation; and

FIGURE 8 is a rear elevational view of the apparatus of FIGURE 4, the same illustrating the eccentric and associated feeder arm for protruding the desired reciprocatmg motion.

'In FIGURE 1 the driving member is indicated by the numeral 10 and the driven member by the numeral 12. The shaft 11 is suitably fixed to the member 10, whereas the shaft 13 is fixed to the driven member 12. The con necting part 14 consists of a rectangular block having at one end a pin or projection 15. The face of the driving member 10 is provided with an opening 16 offset from the center of rotation and which receives the pin 15. The face of the driven member 12 is provided with a diametrical groove 17 and which receives the connecting part 14.

The operation of the device shown in FIGURE 1 can best be understood by reference to FIGURE 2 wherein A represents the arc of travel of the driven member for the first one hundred and eighty degrees of rotation of the driver and B represents the arc of travel of the driven member for the second one hundred and eighty degrees of rotation of the said driver. The driver 10 drives the driven member 12 by means of the connecting part 14, and since the members are offset with respect to each other, the connecting part reciprocates in the groove 17. This mode of operation causes the driven member to move through fast and slow angular speeds for each revolution.

The above described motion can be utilized by means of an eccentric on the driven member and structure of this nature is shown in FIGURE 3. The eccentric can be em ployed to drive a feeder in a reciprocating manner or a screen or other apparatus of similar nature can also be driven.

The device of FIGURE 3 is substantially the same as that of FIGURE 1 except for the journalling means for the driver and for the driven member. The roller bearing assembly 20 journals the driver 10 and the assembly is supported by the frame 21. In a similar manner the driven member 12 is journalled by the roller bearing assembly 22 supported by the frame 23. The eccentric on the driven member is indicated by the numeral 24.

A commercial embodiment of the invention is shown in FIGURES 4, 5 and 7 wherein a housing journals the drive shaft and also the driven shaft and wherein the housing is rotatably adjustable for obtaining a variation in the reciprocating action produced by the device. The housing 26 is fabricated in two parts 27 and 28 substantially similar in size and shape and the parts are joined at the flanges 30 by the securing bolts 31. The trunnions 32 and 33 are formed integral with the sectional parts and the trunnions are mounted for rotary adjustment in the frame supports 34. The bore 35 in the trunnion 32 is eccentric as regards the housing being displaced a fractional distance in an upward direction on the vertical center line. The bore 36 in the trunnion 33 is one hundred and eighty degrees opposite being displaced the same fractional amount on the center line in a down direction. For effecting the rotative adjustments of the housing, a worm gear wheel 37 is fixed to the left end of the trunnion 32 and the gear wheel has meshing relation with the worm drive 38.

The input shaft or driving shaft is indicated by numeral 40 and said shaft extends through the trunnion 32 for integral connection with the disc or driving member 41. The ball bearing assemblies 39 suitably journal the shaft 40 within the bore 35 of the trunnion 32. The projection or pin which forms part of the connectingmember is indicated by numeral 42 and said pin is received in the opening 43 in the bearing 44 provided in the face of the driving member 41. The roller bearing 44, having location in the opening, is interposed between the pin and said member. The remaining element 45 of the connecting member is in the form of a rod which is slidable in carrying plates forming part of the driven structure which,

win'now be described.

In the form of the invention shown in FIGURE 1 the block 14 was slidable in a groove 17. However, in this commercial apparatus the rod 45 is slidable in special bearings 46 which are retained by the carrying plates 47 fixed to the driven disc or member 48. The said driven member is suitably fixed to the driven shaft 50 and the saidv shaft has the eccentric driving member 51 formed integral therewith. The ball bearing assemblies 52 journal the shaft 50 Within the bore 36 of the trunnion 33. Also in this commercial form of the invention the eccentric 51 is integral with the driven shaft 50 and as shown in FIGURE 4 the eccentric is displaced downwardly on the vertical center line with respect to the center of rotation of driven shaft 50.

A collar 54 is located on the eccentric 51 and the closure plate 55 for this end of the trunnion is in contact with the collar by means of the resilient grease and oil seal 56. The portion of the collar 54 which is in contact with the seal is circular and the same is concentric with the driven shaft 50. The extreme right hand end of the eccentric 51 is provided with the ball bearing assembly 57 for the purpose of journalling the actuating arm 58. The ball bearing assembly is retained in place by the plate 60 fixed to the end of the eccentric by the screws 61. The actuating arm 58 for the feeder or other apparatus to be reciprocated by the device is retained in an axial direction by the ring 62 and by the bolts 63, all as clearly shown in FIGURES 4 and 7.

The commercial form of the invention as shown in FIGURES 4 to 7, inclusive, will operate on the same basic principles as explained for the device of FIGURE 1. The driving and driven shafts 40 and 50, respectively, are offset with respect to each other and a single part operatively connects the same. The said part includes the pin 42 which is located in an opening in member 41 and the part also includes the slidable rod 45. As previously explained with respect to the position of the parts in FIG- URES 4 and 5, the center of the shaft 40 is displaced vertically above the center of rotation of the housing whereas the shaft 50 is displaced vertically below the axis of rotation for the housing. In this position of the housing the feeding effect of the action of the actuating arm 58 is a minimum, assuming the arm to be horizontally disposed as shown in FIGURE 7.

In order to obtain a maximum feeding action, the housing is rotated ninety degrees which will locate the parts as shown in FIGURE 6. In this figure the driving shaft 40 is displaced to the right on a horizontalplane as regards the axis of rotation for the housing and the shaft 50 is similarly displaced to the left. With the arm 62 performing in a substantially horizontal plane, the reciprocating action of the same will be a maximum. Accordingly it is possible to obtain a feeding action from maximum as shown in FIGURE 6 to a minimum as shown in FIGURE 7 by rotative adjustment, in the angular positions of the housing.

The eccentricity of the bores 35 and 36 in the trunnions 32 and 33, respectively, are a matter of design as is ,also theoff set of the pin.42 With respect tov the axis of rotation of drive shaft 40. It will also be understood that the offset relation of the eccentric 51 on the driven shaft 50 can be varied for obtaining the desired vibrating action. However, in all devices the input shaft and driving member will have constant rotation but which is modified by the connecting part into fast and slow angular speeds for the driven member as explained in the description of FIGURE 2. The speed of the driven member will be less than the constant speed for the are A and greater than the constant speed for the arc B.

The invention is not to be limited to or by details of construction of the particular embodiment thereof illustrated by the drawings, as various other forms of the device will, of course, be apparent to those skilled in the art without departing from the spirit of the invention or the scope of the claims.

What is claimed is:

1. In a device for modifying rotary motion, the combination with a housing having a forward trunnion and a rear trunnion, an input shaft providing a driving member and being journalled by the forward trunnion, an output shaft providing a driven member and being journalled by the rear trunnion, the axis of rotation of the input shaft and the driving member being offset with respect to the axis of rotation of the output shaft and driven member and also being offset with respect to the axis of rotation of the housing, a connecting part operatively connecting the driving member with the driven member, said connecting part including a pin rotatably received in an opening in the driving member offset from the axis of rotation, said connecting part also including a slidable member having location in a passage extending diametrically of the driven member, whereby for constant rotation of the input shaft the said output shaft is caused to rotate at difierent angular speeds for each revolution, means mounting the housing for rotation, and additional means operatively connecting with the housing for effecting rotative adjustments of the housing.

2. A device for modifying rotary motion as defined by claim 1, wherein means are provided for mounting the housing for rotation, additional means operatively connecting with the housing for effecting rotative adjustments of the housing, an eccentric on the output shaft, and an arm in associated relation with the eccentric and adapted to be actuated thereby.

References Cited UNITED STATES PATENTS 307,214 10/1884 Monell 7469 2,119,955 6/1938 Litton 7468 2,325,582 8/1943 Anderson.

3,162,055 12/1964 Littell.

FOREIGN PATENTS 1,068,216 2/1954 France.

FRED C. MATTERN JR., Primary Examiner W. S. RAILI E J g ent Ex m n r

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