USRE16077E - Machine fob forming spherical bodies - Google Patents

Description

May 19, 1925. Re. 16,077

H. M. JENKINS MACHINE FOR FORMING SPHERICAL BODIES Original Filed Nov. 11, 1922 4 Sheets-Sheet l INVENTOH 4 Sheets-Sheet 2 V 7 INV;:TOR v M 2 2 MMM I mun mug H. M. JENKINS MACHINE FOR FORMING SPHERICAL BODIES Original Filed Nov. 11,

lHlHl IHIHIHHIII Hlllll May 19, 1925.

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May 19, 1925.

H. M. JENKINS MACHINE FOR FORMING SPHERICAL BODIES 4 Shets-Sheet 5 Original Filed NOV. 11, 1922 mvzu'ron Thu/Md D Q WW -May 19, 1925.

H. M. JENKINS MACHINE FOR FORMING SPHERICAL BODIES 4 Sheets-Sheet 4 Original Filed Nov.

INVEN'TQH Reissuecl May 19, 1925.

HOWARD M. .imzxms, or STEUIBENVILLE, orno.

' MACHINE FOR FORMING srnnmcan Booms;

Original No. 1,488,817,

To all whom'z't may concern:

Be it known that I, HowAnn. M. JnNKINs, a citizen of the United States,'and a resident of Steubenville, inthe county oflJefierson and State of Ohio, have made a new and useful Inventionin Machines for .Forming Spherical Bodies, of which the following is a specification.

This invention relates to apparatus or machines for molding or otherwise ,forming spherical bodies, and an object of thisinvention is to produce such a machine or-apparatus whichis of simple construction.

A further object is to produce such a machine or apparatus for molding or rolling spherical bodies from plastic material.

' A still further object is to produce a machine or apparatus which may be easily adjusted so as to mold or roll spherical bodies of different diameters from plastic material.-

These, as well as other objects which will readily appear to those skilled in this particular art, .I attain by means of the apparatus described in the specification and illustrated in the'drawings accompanying and forming part of this application.

In the drawings, Figure 1 is a view in side elevation of an apparatus or machine en'ibodying this invention. Fig. 2 is a top plan view of the same. Fig. 3 is a view in sectional elevation taken on line 3-3 of Fig.

1, looking in the direction of the arrows. Fig. 4 is a view in end elevation looking toward the left of Fig. 1. Fig. 5 is a diagrammatic view. illustrating the forming wheels in side elevation and this view shows a spherical body in forming position between two co-operating forming wheels; Fig. 6 is a diagrammatic view in top plan of two co operating forming wheels, a portion of the wheel moving downwardly at forming position being cut away as shown by lines Y.'Y, Fig. 4.. Line Z-Z in Fig. 6 is one of the axis lines of the spherical body being formed. Fig. 7 is a diagrammatic view in end elevation of two of the co-operating forming wheels.

, The apparatus in its elemental form consists of a pair of rotating, peripherally grooved. co-operating forming wheels of different peripheral speed and having angularly disposed axes. The peripheral groove in dated April 1', 1924, Serial 1%. eoo,a5-1 filed November 11, 1922. Application for-reissue meg mm 24, 1925. Serial No. 4,613.

each wheel is formed on the arc of a circle and in .cross section is less than half a circle. The wheels are so mounted that their grooves co-operate 1n molding or otherwise forming the material or body operated on.

The axes of the wheels are disposed at a slight angle'one to the other so that the body being operated on is turned on constantly changing axes of rotation whereby it is molded (when plastic material is used) into true spherical form.

The periphery of one wheel" at the forming position moves upwardly while the periphery of the other moves downwardly. The peripheral speed of the wheel moving upwardly at the forming position is greater than thatof the wheel moving downwardly at that position and because of this, the body'being formed is maintained in proper forming position and prevented from falling between the wheels.

A distributor is used for conveying or directing the body or material to be formed to forming position between the co-operating wheels. In order to discharge the finished article, one of the forming wheels is bodily moved away from theother at a predetermined point in the cycle of operation, thereby allowing the finished article to drop through the forming wheels and be conveyed to a point outside of the machine.

The machine illustrated in the drawings, (which is chosen as the preferred embodiment of thisv invention), is a multiple machine in which eight sets of co-operating forming wheels are employed. The distributor for conveying bodies of material to forming position is constructed and arranged so as to distribute to the different sets-of forming wheels in a certain predetermined order bell crank lever loosely mounted on shaft 16.

Ann 15 of each bell crank lever (there the lever it' carries a gear 17 which meshes with a gear 18 keyed to shaft 16.

As the bell crank lever swings about shaft gear 17 rolls on gear 18. Shaft 16 which forms the main drive shaft of the machine is driven from a motor 19 (preferably an electric motor) through drive chain 20, sprocket 21, pinion 22 mounted on the same shaft (23) as sprocket 21 and gear 24 keyed to the main drive shaft 16.

Shaft 11 to which all of the forming wheels 10 are keyed is driven from the main drive shaft 16 by means of a sprocket 25, drive chain 26, sprocket .27, gear 28, keyed to the same shaft as sprocket 27 and a gear 29 keyed to shaft 11.

The main drive shaft at its opposite end from motor 19 carries a pinion 30. This pinion is keyed to shaft 1.6 and is adapted to be replaced by pinions of different diameter when it is desired to change the timing of the distributor and the timing of the separation of the forming wheels for discharging the finished spheres. Pinion 30 meshes with a stub pinion 31 mounted on anarm 32 loosely carried on shaft 33 journaled in suitable bearings in the frame of the machine. Stub pinion 31 meshes with a gear 34 keyed to shaft 33 and arm 32 which carries stub gear 31 may be adjusted to different positions and locked therein by means of bolt 35 which is secured to the frame of the machine and lies within a slot formed in the outer end of arm 32.

Shaft 33 is the cam shaft since it carries a series of cams 36 (one for each bell crank lever) which are keyed to the shaft. Each of these cams" is in line with the lower arm 37 of one of the bell crank levers supporting one of the forming wheels 13. The outer end of arm 37 of each bell crank lever carries an anti-friction roller 38 which is caused to bear against the peripheral face of cam 36 by means of a spring 39 positioned between a depending arm 40 of the lever and a part 41 of the frame of the machine.

The major part 42 of the peripheral face of each cam is circular and concentric with shaft 33 and the cams are of such diameter that forming wheels 13 throughout the major portion of the travel of the cams are held in forming position with relation to forming wheels 10. Each cam is provided with an indentation 43 in its peripheral face so that when the roller 38 in line with the clamped to support plate 45 which extends lengthwise of the machine and projects upwardly from the base 50. v

The series of cams 36 are so arranged on shaft 33 that their indentations 43 operate the bell crank levers in a predetermined order of rotation causing the forming wheels 13 to move in the same predetermined order to discharge the finished spherical bodies.

Since the machine is primarily designed to form or mold spherical bodies such as marbles from plastic glass (although not' limited to the use of such material) I have provided the-machine with a distributor for leading or distributing individual gathers, gobs or drops of plastic glass to forming position between the wheels of the eight sets of co-operating forming wheels.

The distributor is carried by a support member or platform 47 mounted on standards 48-48 and 49 forming part of the framework of the machine. Standards 48 are supported on pedestals 12 which carry the bearings for shaft 11 while standard 49 is supported by base 50 within which motor 19 is housed. Secured to and depending from support member 47 are eight distributor tubes 51. The inlets 52 of said tubes are arranged'in a circle within an annular flange 53 projecting upwardly from the distributor support member 47. The distributor tubes are bent at an easy curve so that each tube leads to the forming position between one pair of co-operating forming wheels.

In order that the drops, gobs or gathers of, glass may be deposited by the gatherers' or feeders at one point for all of the cooperating pairs of wheels", a rotating distributing head 54 is employed. This head is formed in the nature of an inclined tube 55 mounted so as to rotate about the axis of a vertical shaft 56, and is provided with an inlet opening 57 and a discharge opening at its lower end adapted to alternately register with the inlet openings 52 of the distributor tubes 51.

Vertical shaft 56 near its upper end is journaled within a bearing formed in downwardly projecting portion 58 of distributor support member 47. The upper end of the shaft is secured within member 56" which serves as a standard for the distributor. At

its lower end 59 shaft 55 is journaled within. suitable bearings carried by the top member 60 of base 50. Thisshaft 55 near its lower end carries an eight tooth intermittent gear 61 which meshes with a two-tooth intermittent gear 62 carried on a. vertical shaft 62. Shaft 63 is mounted in suitable bearings (it carried by top of base 50 and bearings carried in a gear cover 65 bolted to top 60. Shaft 63 on its upper end carries a crown pinion 66 which meshes with a crown gear 67 keyed to cam shaft33.

Shaft 11 which carries the forming wheels 10 having fixed axes is axially movable within its bearings and the axial positions of the eight forming wheels 10 may be simultaneously adjusted by means of adjustment screws 68 and 69 which respectively bear against the opposite ends of shaft 11. The axial adjustment of forming wheels 10 with relation to forming wheels 13 to some extent has a bearing upon the diameter of the finished products (spherical bodies) molded by the sets of forming wheels. The initial size of the drop,- gob or gather of plastic glass will also determine to a large extent the size of the finished product.

The principle of the machine or apparatus is applicable to machines for grinding spherical bodies from natural rock formations such as quartz. agate, etc. In such a grinding machine where a cutting material such as sand is used in conjunction with the forming wheels for grinding, it, of'course, will be necessary to protect the bearings and other parts of the apparatus from the sand and dust formed during the grinding operation.

It will be apparent that plastic clay or porcelain mixes may be used in the machine as illustrated without modifying the same.

\Vhile I have described and illustrated but one embodiment of my invention, it will be apparent to those. skilled in the art that various changes, additions, substitutions and omissions may be made in the apparatus illustrated without departing from the spirit and scope of the invention as set forth by the appended claims.

I claim as my invention 1. In a machine for making spherical bodies, a pair of rotating peripherally grooved co-operating forming wheels having angularly disposed axes.

2. In a machine for making spherical bodies, a pair of rotating peripherally grooved co-operating forming wheels of different peripheral speed and having anguarly disposed axes.

3. In a machine for making spherical bodies, a pair of rotating peripherally groove co-operating forming wheels having angnlarly disposed axes and means for directing material to forming position between said wheels.

4.111 a machine for making spherical bodies, a pair of rotating er-ipherally grooved co-opera-ting forming w ieels of different peripheral speed having angularly' bodies, a pair of rotating peripherally grooved, .co-operating forming wheels having angularly disposed axes and means for discharging finished articles therefrom.

6. In a machine for making spherical bodies, a pair of rotating peripherally grooved, co-operating forming wheels of different peripheral speed having angularly disposed axes and means for discharging finished articles therefrom.

7. In a machine for making spherical bodies, a pair of rotating peripherally grooved co-operating forming wheels having angularly disposed axes and means for bodily moving one of said wheels away from the other to discharge articles therefrom.

' 8. In' a machine for making spherical bodies, a pair of rotating peripherally grooved co-operating forming wheels of different peripheral speed having angularly disposed axes and means for bodily moving one of said wheels away from the other to discharge articles therefrom.

9. Ina machine for making spherical bodies, a pair of rotating peripherally grooved co-operating forming wheels of different peripheral speed and having angularly disposed axes, means for directing ma terial to forming position between said wheels and means for discharging finished articles therefrom.

10. In a machine for making spherical bodies, a pair of rotary peripherally grooved co-operating forming wheels of different peripheral speed and having angularly disposed axes, means for leading material to forming positions between said wheels and means for bodily moving one of said wheels away from the other to discharge the article v therefrom.

11. In a machine for making spherical bodies, a pair of rotary peripherally grooved co-operating forming wheels of different peripheral speed and having angularly disposed axes, means for leading material to, forming position between said wheels, a pi'votedmember supporting one of said wheels and means for swinging said pivoted member to bodily move the wheel supported by it away from the other wheel Gil pivoted member supporting one of said wheels and a cam for swinging said member to bodily move the wheel supported by it away from the other wheel to discharge the article when finished.

'13. In a machine for makin spherical bodies, a pair of rotary periphera ly grooved co-operating forming wheels of different peripheral speed and having angularly disposed axes, means for leading, material to forming position between said wheels, a bell crank lever supporting one of said wheels, a cam for swinging said lever to bodily move the wheel supported by it away from the other wheel to discharge the article when finished.

14. In a machine for makin spherical bodies, a pair of rotary periphera ly grooved co-operating forming wheels of difierentperipheral speed and having angularly disposed axes, fixed bearings for one of said wheels, movable bearings for the other wheel, means for periodically moving said movable bearings whereby the wheel supported thereby is bodily moved away from the other wheel and means for leading material to forming position between said wheels.

15. In a machine for making spherical bodies, a rotatably mounted peripherally grooved forming wheel having a fixed axis, another rotatably mounted peripherally grooved forming wheel adapted to cooperate therewith, having its axis disposed at an angle to the axis 'of said other wheel and bodily shiftable with relation thereto, a bell crank lever at one end carrying said shiftable wheel, a cam co-operating with.

the other end of said lever to eriodically swing the same whereby the w eel carried by it is moved away from the other wheel and means for rotating said wheels at different peripheral speeds.

16. In a machine for making spherical bodies, a number of pairs of rotating peripherally grooved co-operating forming wheels of which the wheels of each pair have different peripheral speeds and axes angularly arranged one to the other and means for alternately distributing material to forming position between the co-operating wheels.

17. In a machine for making spherical bodies, a number of pairs of rotating peripherally grooved co-operating forming wheels of which the wheels of each pair have different peripheral speeds and axes angularly arranged one to the other, means for alternately distributing material to forming position between the co-operating wheels, and means for discharging finished articles.

18. In a machine for makin spherical bodies, a number of axially aigned, peripherally grooved forming wheels, a corresponding number of peripherally grooved forming wheels co-operating therewith and having their axes angularly disposed with relation thereto, means for rotating'the axlally aligned wheels at a different peripheral speed than those having angularly disposed axes and means for alternately moving the wheels having angularly disposed axes bodily toward and from the axially aligned wheels.

19.111 a machine for making spherical bodies, a number of ipairs of 00-0 erating peripherally grooved orming whee s one of each of which has a fixed axis and the other a shiftable axis with the axes of each pair angularly disposed one to the other means for a lternately leading material to forming posltion between the co-operating wheels, means for discharging finished articles and means for simultaneously shifting axially the wheels havin fixed axes.

20. In a machine for making spherical bodies, a number of pairs of co-operating peripherally grooved forming wheels one of each of which has a fixed axis and the other a shiftable axis with the axes of each pair angularly disposed one to the other, bell crank levers supporting the wheels with shiftabl'e axes, a series of cams co-operating with said levers to alternately move the wheels having shiftable axes out of forming position, means for driving the wheels of each pair at difl'erent peripheral speeds and means for alternately distributing material to forming position between the co-operating wheels.

21. In -a machine for making spherical bodies, a number of axially aligned, peripherally grooved forming wheels, a corresponding number of co-operating perip erally grooved forming wheels havin their axes angularly disposed with relation thereto, means for rotating the axially aligned wheels at a difi'erent peripheral speed than those having angularly disposed axes, means for alternately moving the angularly disposed wheels bodily toward and mm the axially aligned wheels, means for distributing material to said wheels and means for discharging material therefrom.

2 2. In a machine for making spherical bodies, a pair of rotating peripherally grooved co-operating forming wheels of different peripheral speeds with the wheel of greater peripheral speed moving upwardly at forming position and means operating automatically and in synchronism with said wheels for periodically separating the same for the purpose of discharging finished articles therefrom.

23. In a machine for making spherical bodies, a pair of rotating eripherally grooved co-operating forming w eels of different peripheral speeds with the wheel of greater peripheral speed moving upwardly at forming position and means operating automatically and in synchronism with said series of cams co-operating with said levers wheels for periodically bodily moving one to alternately move the wheels having shiftof said wheels away from the other to disable axes out of forming. position, means for charge articles therefrom. driving the wheels of each pair at different 24. In a machine for making spherical peripheral speeds and means for alternately bodies, a pair of rotating peripherally distributing material to forming position grooved co-operating forming wheels of difbetween the co-operating wheels. ferent peripheral speed with the wheel of 26}. In a machine for making spherical greater peripheral speed moving upwardly bodles, a pair 0t grooved co-operating format forming position, means for leading ma- 111g wheels havlng substantlally horlzontal terial to forming position between said axes, means constructed and arranged to bodies, a number of pairs of co-operating wheels, a pivoted member supporting one rotate said wheels in opposite directions and of said wheels and means operating in synat difierent peripheral speeds with the chronism with said wheels for periodically wheel having the greater peripheral speed swinging said pivoted member to bodily m'ovmg upwardly at io rnmg posltlon and move the wheels supported thereby away means adapted to perlodlcallyincrease the from the other wheel to discharge articles distance between the axes of said wheels for therefrom. the purpose of discharging finished articles 25. In a machine for making spherical theleflollfl;v I

In testimony wheffeojf, I have hereunto peripherally grooved forming wheels, one sllbscllbed my name 1 h day Of Deof each of which has a fixed axis and the 081111161, 1924- other a shiftable axis, bell crank levers supporting the wheels with shiftab-le axes, a HOWARD M. JENKINS.

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