US888496A - Feeding mechanism for grinding-machines. - Google Patents
Feeding mechanism for grinding-machines. Download PDFInfo
- Publication number
- US888496A US888496A US31588506A US1906315885A US888496A US 888496 A US888496 A US 888496A US 31588506 A US31588506 A US 31588506A US 1906315885 A US1906315885 A US 1906315885A US 888496 A US888496 A US 888496A
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- grinding
- spindle
- wheel
- feeding mechanism
- grinding wheel
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B5/00—Machines or devices designed for grinding surfaces of revolution on work, including those which also grind adjacent plane surfaces; Accessories therefor
- B24B5/02—Machines or devices designed for grinding surfaces of revolution on work, including those which also grind adjacent plane surfaces; Accessories therefor involving centres or chucks for holding work
- B24B5/06—Machines or devices designed for grinding surfaces of revolution on work, including those which also grind adjacent plane surfaces; Accessories therefor involving centres or chucks for holding work for grinding cylindrical surfaces internally
Definitions
- FIG. 1 is a front elevatiomof a grinding machine embodying my invention.
- Fig. 2 is a sectional view on line 22, Fig. 1, through the feeding mechanism for advanc- Fig. 3 is a detached, and sectional view of a portion of the feeding mechanism.
- Fig. 4 is a lon itudinal sectional. central view through tie head of the machine.
- Fig. 5 is a detached isometric'view of the device for actuating the star wheel of the feeding mechanism
- Fig. 6 is a to view'of the blade spring for reversing thes iding spindle 29.
- My present invention relates to a feeding class'of grinding machines designed for'grinding internal cylindrical surfaces, in which a revolving grinding wheel is given an orbital movement around a fixed center, whereby the peri hery of the grinding wheel is moved 'arounc the surface of the work insteadof revolvin the work around a grinding wheel whlc revolves about a fixed axis. Grinding machines of this type are e'spccially'adaptcd to a great variety of work in which it is inconvenient to revolve the workabout the grinding wheel.
- the grinding wheel is carried upon a rapidly revolving arbor journaled eccentric-ally in a sleeve held the spindle of the in a rotating cylinder, journaledin the head of the machine.
- a rapidly revolving arbor journaled eccentric-ally in a sleeve held the spindle of the in a rotating cylinder, journaledin the head of the machine.
- grinding wheel is carried around in a circular path whose diameter is determined by the eccentricity of the axis of the spindle: to the axis of therotating cylinder.
- the eccentric sleeve carrying the grindmg wheel spindle 1s provided with a feedin mechanism by which it ma be rotat-ed within the cylinder, in order to vary the eccentricity of the grinding wheel spindle relatively tothc rotating cylinder and thereby increase or diminish the diameter of the circular path through which the axis of the grinding Wheel spindle moves as the cylinder is rotated.
- the circular path or orbital movement of the grinding wheel can be varied to adapt the grinding wheel to the internal diameter of the surface to be ground, and when the 0 )er tion of the grinding is in progress the fee mg mechanism enables the grinding wheel to be K moved outward to compensate for the Wear I of the wheel, and to bring the ground surface to the desired diameter.
- My present invention relates to the feeding mechanism by which the eccentricity of the grinding wheel is varied relatively to the rotating cylinder and it has for its object to enable the operator to quickly change the eccentricity of the grinding wheel;-to secure an accurate ad'ustment of the grindin and to facilitate the grinding of uphcate work, and these objects I accomplish by means of the construction and arrangement of parts as hereinafter described and pointed out in the annexed claims.
- 1 denotes the supporting framework of a grinding machine, upon which are mounted bearings 2 and 3 for a rotat ng cylinder 4, carrying a gear wheel 5 which is engaged by a pin-ion 6 upon a shaft 7, carrying a step pulley 8 which is driven'from a pulley 9 on a countershaft at the base of the mach ne.
- Journaled eccentricallyin the cylinder 4 IS a sleeve 10, provided at one end wlth a tubular SlOIl 11 is journaled a revolving spindle 12,
- the Work to be ground is supported upon a table 15 on a bed 16 to which a traversmg motion is given by means of suitable mechanism, such as is commonly used 1n machines of this class to impart a traversing motion to the work.
- the grinding wheel 13 is inserted Within the work to be ground and is rapidly rotated by the belt pulley 14, while a slow orbital movement is given to the grinding wheel by the rotation of the cylinder 4.
- Tl 1e sleeve 10 is capable of being turned within the cylinder 4 in order to vary the eccentricity of the spindle 12 to the axis of the cyhnder 4, and this adjustment of the sleeve 10 1s accoln lished by a feeding mechanism which embo ies my present invention.
- a s indle 29 capable of a'roek-
- One end of the spindle carries a lever handle 30 and the opposite end carries a radial arm- 31, on the outer face of which projects a longitudinal rib 32, one end 33 of said rib being substantially coincident with the axis of, the rocking spindle 29.
- the lever handle 30 is rovided with a radial projecting wing 34, having two recesses 35 and 36 adapted to alternately receive the end of a pin 37 carried by a blade spring 38, attached at one end to the framework of the machine, and having its opposite end 39 projecting beyond the framework to form a convenient handle to enable the pin 37 to be retracted.
- the tension of the spring 38 not only looks the spindle 29 against rotation, but also holds' the radial arm 31 against the framework, with the projecting rib 32 normally out of the path of the star wheel 21 as the latter is carried around the axis of the cylinder 4.
- the spindle 29 may be slightly rocked so as to bring the pin into the other notch and vary the position of the ra-,
- dial arm 31 from the osition shown in full lines in Fig. 2 to that shown by broken lines 40, for the purpose of reversing the movement of the feeding mechanism.
- the projecting rib 32 is slightly eccentric to the axis of the rotating cylinder 4, sufiiciently to cause the star wheel to be turned the space of one tooth as it passes the rib 32, causing a slight movement of the sleeve 10 to increase the eccentricity of the spindle 12 to the axis of the rotating cylinder 4, thereby carrying the grinding wheel slightly outward.
- the projection 32 is brought 'into the path of the star wheel by the operator moving the spindle 29 longitudinally against the tension of the blade s ring 38 by means of the lever handle 30, an holding it in position until the star wheel passes by the rojection 32.
- Each passage of the star w eel by the projecting nb 32 is arranged to carry the periphery of the grinding wheel outward about .00025 of an inch.
- the eccentricity of the grinding wheel spindle 12 is determined by means of a graduated index disk 41, frictionally held on the shaft 19 and capable of being turned under the fixed index point 42.
- the index disk 41 is set at zero.
- the grinding wheel is then moved toward the center of the rotating cylinder 4 to be inserted in the succeeding piece of work and the grinding of the second piece may be continued without interruption for calipering until the index disk returns to zero.
- the interior surface ground will then be of the correct size, varying only a slight amount due to the wear of the wheel while grinding.
- the squared end 26 of the shaft 19 enables a quick feeding movement to be imparted to the grinding Wheel by means of a wrench handle, and a fine adjustment of the grinding wheel may be obtained independently of the projecting rib 32 by means of the hand wheel 25.
- a feeding mechanism for varying the orbital path of the grinding wheel consisting of a rotating star wheel carried in a circular path concentric with the orbital path of the grinding wheel spindle, means for operatively connecting said star wheel and said grinding wheel spindle, and means for imparting an intermittent motion at will to said star wheel during its concentric movement.
- a rotating member for carrying the grinding wheel spindle in an orbital path con centric with the axis of said rotat ng mem-. ber, means for var ing the eccentricity of the grinding wheel spmdle relatively to said ro-. tating member, comprising a star wheel carried by the rotating member, and a projection held in the framework of the machine capable of being'moved into and out of the path of said star wheel.
- a rotating cylinder carrying therinding wheel spindle, a'feeding mechanism or varying the orbital path of the grinding wheel spindle, and comprising a star Wheel
- said feeding mechanism being carried in a.
- a rotating cylinder carrying a grinding wheel spindle, a feeding mechanism carried by sai cylinder and comprising a star wheel, a projecting rib arranged to engage the teeth of said star Wheel as said cylinder rotates, and means for changin the position of said rib in order to reverse t e movement of the star wheel.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Grinding Of Cylindrical And Plane Surfaces (AREA)
Description
PATENTED MAY 26, 1908.
I. N. HEALD.
FEEDING MECHANISM FOR GRINDING MACHINES.
APPLICATION FILED MAY 9, 1906 2 SHEETS-SHEET 1.
Figi- \A flznesses Q6 TWi $758 31B 6 z MW. 9
kg Inv enior No. 888,496. PATENTED MAY 26, 1908.
J. N. HEALD.
FEEDING MECHANISM FOR GRINDING MACHINES.
APPLICATION FILED MAY 9, 1906.
2 SHEETS-SHEET 2. I
[mill/[III]IIIIIIIIIIIIIIIIIIII/IIIIIIIIIWI 51 i 55 F fin I Inventor Wfinesses r r I v I corneg I ing the grinding wheel to the work.
mechanism for that UNITED. STATES PATENT oF roE,
JAMES N. HEALD, OF WORCESTER, MASSACHUSETTS, ASSIGNOR TO THE HEALD MACHINE COMPANY, OF WORCESTER, MASSACHUSETTS, A CORPORATION OF MASSACHUSETTS.
FEEDING MECHANISM FOR GRINDING-MACHINES.
Specification of Letters Patent.
Patented May 26, 1908.
Application filed May 9, 1906. Serial No. 315,885.
To all whom it may concern:
Be it known that 1, JAMES N. HEALD, a citizen of the United States, residing at 'orcester, in the county of \Vorcester and Commonwealth of Massachusetts, have invented a new and useful Improvement in'a Feeding Mechanism for Grindingdlachines, of which the following is a specification, accompanied by drawings forming a part of the same, in which Figure 1 is a front elevatiomof a grinding machine embodying my invention. Fig. 2 is a sectional view on line 22, Fig. 1, through the feeding mechanism for advanc- Fig. 3 is a detached, and sectional view of a portion of the feeding mechanism. Fig. 4 is a lon itudinal sectional. central view through tie head of the machine. Fig. 5 is a detached isometric'view of the device for actuating the star wheel of the feeding mechanism, and Fig. 6 is a to view'of the blade spring for reversing thes iding spindle 29.
Similar reference letters and figures refer to similar parts in the different views.
My present invention relates to a feeding class'of grinding machines designed for'grinding internal cylindrical surfaces, in which a revolving grinding wheel is given an orbital movement around a fixed center, whereby the peri hery of the grinding wheel is moved 'arounc the surface of the work insteadof revolvin the work around a grinding wheel whlc revolves about a fixed axis. Grinding machines of this type are e'spccially'adaptcd to a great variety of work in which it is inconvenient to revolve the workabout the grinding wheel.
In grinding machines of this class the grinding wheel is carried upon a rapidly revolving arbor journaled eccentric-ally in a sleeve held the spindle of the in a rotating cylinder, journaledin the head of the machine. As the cylinder is rotated grinding wheel is carried around in a circular path whose diameter is determined by the eccentricity of the axis of the spindle: to the axis of therotating cylinder. The eccentric sleeve carrying the grindmg wheel spindle 1s provided with a feedin mechanism by which it ma be rotat-ed within the cylinder, in order to vary the eccentricity of the grinding wheel spindle relatively tothc rotating cylinder and thereby increase or diminish the diameter of the circular path through which the axis of the grinding Wheel spindle moves as the cylinder is rotated.
By means of the feeding mechanism the circular path or orbital movement of the grinding wheel can be varied to adapt the grinding wheel to the internal diameter of the surface to be ground, and when the 0 )er tion of the grinding is in progress the fee mg mechanism enables the grinding wheel to be K moved outward to compensate for the Wear I of the wheel, and to bring the ground surface to the desired diameter.
My present invention relates to the feeding mechanism by which the eccentricity of the grinding wheel is varied relatively to the rotating cylinder and it has for its object to enable the operator to quickly change the eccentricity of the grinding wheel;-to secure an accurate ad'ustment of the grindin and to facilitate the grinding of uphcate work, and these objects I accomplish by means of the construction and arrangement of parts as hereinafter described and pointed out in the annexed claims.
Referring to the accompanying drawmgs, 1 denotes the supporting framework of a grinding machine, upon which are mounted bearings 2 and 3 for a rotat ng cylinder 4, carrying a gear wheel 5 which is engaged bya pin-ion 6 upon a shaft 7, carrying a step pulley 8 which is driven'from a pulley 9 on a countershaft at the base of the mach ne. Journaled eccentricallyin the cylinder 4 IS a sleeve 10, provided at one end wlth a tubular SlOIl 11 is journaled a revolving spindle 12,
carrying on one end a grinding wheel 13 and at the opposite end a belt pulley 14.
The Work to be ground is supported upon a table 15 on a bed 16 to which a traversmg motion is given by means of suitable mechanism, such as is commonly used 1n machines of this class to impart a traversing motion to the work. The grinding wheel 13 is inserted Within the work to be ground and is rapidly rotated by the belt pulley 14, while a slow orbital movement is given to the grinding wheel by the rotation of the cylinder 4. Tl 1e sleeve 10 is capable of being turned within the cylinder 4 in order to vary the eccentricity of the spindle 12 to the axis of the cyhnder 4, and this adjustment of the sleeve 10 1s accoln lished by a feeding mechanism which embo ies my present invention.
Attached to the sleeve 10 is a Worm gear 1 7 Wheel,
engaged by a worm 18 on a shaft 19, having a geared connection with a parallel shaft 20 which carriesv a star wheel 21, which is frictionally held from accidental turning by within a casing 28, both of which are ating and a longitu inal movement.
tached to the rotating cylinder 4, causing the feeding mechanism to be carried around by the cylinder 4. Held-in the framework of the machine is a s indle 29 capable of a'roek- One end of the spindle carries a lever handle 30 and the opposite end carries a radial arm- 31, on the outer face of which projects a longitudinal rib 32, one end 33 of said rib being substantially coincident with the axis of, the rocking spindle 29. The lever handle 30 is rovided with a radial projecting wing 34, having two recesses 35 and 36 adapted to alternately receive the end of a pin 37 carried by a blade spring 38, attached at one end to the framework of the machine, and having its opposite end 39 projecting beyond the framework to form a convenient handle to enable the pin 37 to be retracted.
The tension of the spring 38 not only looks the spindle 29 against rotation, but also holds' the radial arm 31 against the framework, with the projecting rib 32 normally out of the path of the star wheel 21 as the latter is carried around the axis of the cylinder 4. By lifting the pin 37 out of engagement with the wing 34, the spindle 29 may be slightly rocked so as to bring the pin into the other notch and vary the position of the ra-,
In the osition of the radial arm 31 as shown in l igs. 2 and 5, the projecting rib 32 is slightly eccentric to the axis of the rotating cylinder 4, sufiiciently to cause the star wheel to be turned the space of one tooth as it passes the rib 32, causing a slight movement of the sleeve 10 to increase the eccentricity of the spindle 12 to the axis of the rotating cylinder 4, thereby carrying the grinding wheel slightly outward. The projection 32 is brought 'into the path of the star wheel by the operator moving the spindle 29 longitudinally against the tension of the blade s ring 38 by means of the lever handle 30, an holding it in position until the star wheel passes by the rojection 32. Each passage of the star w eel by the projecting nb 32 is arranged to carry the periphery of the grinding wheel outward about .00025 of an inch. When the first The-shaft 20 is propiece of work has heen accurately ground as may be determined by calipering, the eccentricity of the grinding wheel spindle 12 is determined by means of a graduated index disk 41, frictionally held on the shaft 19 and capable of being turned under the fixed index point 42. When the grinding is completed the index disk 41 is set at zero. The grinding wheel is then moved toward the center of the rotating cylinder 4 to be inserted in the succeeding piece of work and the grinding of the second piece may be continued without interruption for calipering until the index disk returns to zero. The interior surface ground will then be of the correct size, varying only a slight amount due to the wear of the wheel while grinding.
The squared end 26 of the shaft 19 enables a quick feeding movement to be imparted to the grinding Wheel by means of a wrench handle, and a fine adjustment of the grinding wheel may be obtained independently of the projecting rib 32 by means of the hand wheel 25.
I claim,
1. In a grinding machine of the class described, the cornblnation of a rotating cylinder, a revolving grinding wheel spindle journaled eccentricallywithin said rotating cylinder, a star wheel carried in a circular path by said cylinder, a projection held in the fixed framework of the machine in the path of said star wheel, whereby an intermittent motion is given to said star wheel at each r0- tation of said cylinder, and a feeding mechanism operatively connected with said star wheel for varying the eccentricity of said grinding wheel spindle.
2. In a grinding machine of the class de scribed, a feeding mechanism for varying the orbital path of the grinding wheel, consisting of a rotating star wheel carried in a circular path concentric with the orbital path of the grinding wheel spindle, means for operatively connecting said star wheel and said grinding wheel spindle, and means for imparting an intermittent motion at will to said star wheel during its concentric movement.
3. In a grinding machine of the class described, a feeding mechanism for varying the orbital path of the grinding wheel spindle,
comprising a star wheel having a circular movement around a fixed axis, and a projection held in the framework of the machine capable of being moved at will into the path of said star wheel. I
4. In a grinding machine of the class de-.
scribed, a rotating member for carrying the grinding wheel spindle in an orbital path con centric with the axis of said rotat ng mem-. ber, means for var ing the eccentricity of the grinding wheel spmdle relatively to said ro-. tating member, comprising a star wheel carried by the rotating member, and a projection held in the framework of the machine capable of being'moved into and out of the path of said star wheel.
5. In a grinding machine of the class described, a feeding mechanism for varying the,
orbital movement ofthe grindin wheel spindle, and comprising a star whee? circular path corresponding with the orbital movement of the grinding Wheel spindle a projecting rib supported by the framework of the machine, and means for bringing said rib at willinto position to engage the teeth ofsaid star wheel.
6. In a grinding machine of the class described, a rotating cylinder carrying therinding wheel spindle, a'feeding mechanism or varying the orbital path of the grinding wheel spindle, and comprising a star Wheel,
said feeding mechanism being carried in a.
circular path by said rotating cylinder, a spindle journaled in the framework of the machine, a radial arm carried by said spindle, a projecting rib" on said arm arranged to engage the teeth of-said star wheel, means for rocking said spindle, and means for looking said spindle.
7. In a grinding machine of the class described, a rotating cylinder carrying a grinding wheel spindle, a feeding mechanism carried by sai cylinder and comprising a star wheel, a projecting rib arranged to engage the teeth of said star Wheel as said cylinder rotates, and means for changin the position of said rib in order to reverse t e movement of the star wheel.
carried in a' l on itudinal movement therein, a radial arm hel on-said spindle, a projecting rib on said arm, means for slidingsaid spindle to bring said rojecting rib into the path of said star whee a a p g or reversing the motion of'said spindle. e
9. In a grinding machine of the class described, the combination of a.rot.ating cylinder, a sleeve journaled eccentrically in said cylinder, a grlnding Wheel spindle journaled eccentrically in said sleeve, a framework carried by said cylinder, a feeding mechanism carried by said framework operatively connected with said sleeve, and comprising a star wheel carried by said framework in a circular path concentric with the path of the grinding Wheel spindle, a projection held in the fixed framework of the machine in the path of said starwheel, a graduated disk capable of bein rotated by said feeding mechanism and a ed index finger. I
Dated this first day of May 1906.
, JAMES N. EALDQ I Witnesses:
RUFUS FOWLER, PENELOPE COMBERBACH.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US31588506A US888496A (en) | 1906-05-09 | 1906-05-09 | Feeding mechanism for grinding-machines. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US31588506A US888496A (en) | 1906-05-09 | 1906-05-09 | Feeding mechanism for grinding-machines. |
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US888496A true US888496A (en) | 1908-05-26 |
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US31588506A Expired - Lifetime US888496A (en) | 1906-05-09 | 1906-05-09 | Feeding mechanism for grinding-machines. |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2436608A (en) * | 1944-02-14 | 1948-02-24 | Smith Engineering Works | Cantilever column assemblage for crushers |
-
1906
- 1906-05-09 US US31588506A patent/US888496A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2436608A (en) * | 1944-02-14 | 1948-02-24 | Smith Engineering Works | Cantilever column assemblage for crushers |
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