US420464A - Grinding-mill - Google Patents
Grinding-mill Download PDFInfo
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- US420464A US420464A US420464DA US420464A US 420464 A US420464 A US 420464A US 420464D A US420464D A US 420464DA US 420464 A US420464 A US 420464A
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- Prior art keywords
- grinding
- spout
- grain
- rings
- mill
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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- 235000020030 perry Nutrition 0.000 description 6
- 210000002832 Shoulder Anatomy 0.000 description 4
- 230000001105 regulatory Effects 0.000 description 4
- 210000001513 Elbow Anatomy 0.000 description 2
- 240000001973 Ficus microcarpa Species 0.000 description 2
- 101700041555 TNIP1 Proteins 0.000 description 2
- 235000001211 Talinum portulacifolium Nutrition 0.000 description 2
- 240000004958 Talinum portulacifolium Species 0.000 description 2
- 210000001364 Upper Extremity Anatomy 0.000 description 2
- 230000001808 coupling Effects 0.000 description 2
- 238000010168 coupling process Methods 0.000 description 2
- 238000005859 coupling reaction Methods 0.000 description 2
- 230000000994 depressed Effects 0.000 description 2
- 230000000881 depressing Effects 0.000 description 2
- 230000002459 sustained Effects 0.000 description 2
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C7/00—Crushing or disintegrating by disc mills
- B02C7/02—Crushing or disintegrating by disc mills with coaxial discs
- B02C7/06—Crushing or disintegrating by disc mills with coaxial discs with horizontal axis
Definitions
- My invention relates -to improvements in grinding-mills in which grain is ground between the faces of two horizontal disks or grinding-rings having vertical axes, one disk .revolving beneath the other; and the objects of my improvements are,f1rst, to provide a centrifugal feeding device which shall regulate automatically the supply of grain to the rings to suit variations of driving-power and consequent changes in speed of revolution, and, second, to provide for supporting the grinding-Inill without Vobstructing the space underneath.
- Fig. 2 is a sectional elevation taken in a plane containing the axis of the vertical shaft and at right' angles to the plane of Fig. l.
- Fig. 3 is a plan of the supporting-frame.
- Fig. 4 is a sectional plan of the part of grinding-mill below the dotted line 1, Fig. 1.
- F represents the frame containing the bearings for driving-shafts G and M.
- the C is ⁇ a circular shield bolted to frame. F and vinclosing the grinding-rings D and E.
- the upper grinding-ring D is bolted to the shield C, and the lower grinding-ring is bolted to a circular plate B, which is caused to rotate by means of the vertical shaft G, driven by suitable connections with a motor.
- the shaft G may connect, by means of a clutch or coupling lV, directly with the vertical shaft of a wind-motor, or it may be driven by means of a belt and horizontal pulley K, attached to the shaft; or shaft G may be driven by means of a belt on the pulley L, or by other connection with the horizontal shaft M, communicating motion through the bevel-gears J and H.
- the horizontal pulley K and bevel-gear H are shown as cast in one Serial No. 311,500. (No model.)
- the plate B is driven by means of a key passing through a slot in the foot of shaft G, and is supported by a.
- step-box T on which it revolves.
- the stepbox T rides on a yoke U, suspended from the shield C by two bolts, one of which is provided with a hand-screw V, by means of which the lower grinding-ring may be adjusted to grind coarse or fine.
- Grain is led to the interior of the grindingrings by means of an inclined spout A, the lower end of wh ich surrounds the shaft G, and, extending down through both grinding-rings, reaches into a central depression Z in the plate B far enough so that when the lower ring is wit-hout Inotion, or is revolving slowly, no grain will get in between the grinding-surfaces of the rings; but a certain speed of revolution is required to throw the grain up out of the depression Z by centrifugal force into the teeth of the rings. The speed required will depend on the depth of the depression Z and the distance the spout A reaches down into it below the grinding-surfaces of the rings.
- the spout form a part of the shield C, or it may be a separate part made vertically adj ustable'by means of a nut X on a stud attached to the spout and passing up through an ear proj ecting from the frame F.
- the spout passes through the upper grindiug-ringD, it is preferably made with shoulders a, which ⁇ nearly lill the circular Opening through the ring, and from there downward is contracted in diameter, so as to leave between the opening through the lower grinding-ring E and the lower end of the spout an annular space for the levit of grain from the depression Z into the teeth of the rings D and E.
- the grain may be shut off from the rings close to the teeth while the spout is full of grain, thus leaving the least possible amount to be ground out and stopping the grinding almost instantly after the depression of the spout.
- the ground grain is delivered at the periphery of the rings, being thrown against the inside of the shield C, whence it drops directly down.
- the mouth of a bag maybe tied around the outside of the shield, or abin A may be rigidly attached to or IOO of any size may be placed underneath the shield, as there is no supporting-base in the way.
- the frame F is sustained from above, being bolted to a timber S, suspended from any suitable support, as a ceiling or roof of a building, so as to leave the space beneath the grinding-mill unobstructed.
- a timber S suspended from any suitable support, as a ceiling or roof of a building, so as to leave the space beneath the grinding-mill unobstructed.
- this arrangement is especially convenient, as the same timber or mast S may support a windmotor at its upper end.
- Thespout A extending down below the teeth of the grinding-rings into the depression Z, constitutes, even when rigidly atlaehed to or forming a part of the shield C, an automatic centrifugal feeding device, which will control the supply of grain to the grinding-rings, increasing the supply as the speed of revolution increases, reducing the supply as the speed decreases, and shutting oif the grain from the rings ent-irely when the lower ring ceases to rotate, so that at the commencement of motion there will be no resistance to rotation caused by grain left or prematurely lodged in the teeth of the grinding-rings.
- the speed of rotation :necessary to commence grinding, as well as the amount of grain fed to the rings with any given speed, can be changed, as the flow of grain will be more or less obstructed, according as the spout A is depressed or elevated.
- Grain maybe conveyed from a bin to the spout A by means of a chute Y, whose lower end telescopes into the upper end of spout A, so as not to interfere with the vertical movement of the latter.
- the supply of grain to the rings may be further automatically regulated, if need be, by means of centrifugal balls N acting to elevate the spout A, so that the flow of grain will be less and less obstructed as the speed of rotation increases.
- the balls N form the upper extremity of bent levers, which are fulcrumed at their elbows on the rim of the bevel-gear H.
- the horizontal arms of the bent levers O engage with two rods P, which pass loosely through slots in the hub of the bevel-gear II, close along the shaft G, and are bent out at their lower ends, so as to catch under a ring Q, surrounding the shaft G, with an annular space between the shaft and ring, through which the rods P pass, and within which they revolve with the shaft G.
- the ring Q does not revolve, but is connected with the spout Aby means of the two rods R, which are free to move vertically through holes in the frame F.
- the nut X being removed, the spoutA will drop of its own weight, so as to absolutely stop the flow of grain into the grinding-rings; but when the speed of revolution becomes suiic-iently rapid the centrifugal force of the balls N will lift the spout A, so as to leave a passage more or less free for grain to enter the grinding-rings.v
- the rapidity of revolution required to lift the spoilt A maybe regulated by adding to or taking from the weight of the spout.
- the casing provided with a central feed-spout, a stationar grinding-ring secured thereto, a revolving plate provided with a central depression, and a grinding-ring secured thereto, said central feed-spout extending down into said depression below the teeth of the revolving grinding-ring, substantially as and for the purpose herein specified.
Description
(No Model.)
T. 0. PERRY.
GRINDING MILL.
No. 420,464. Patented Feb. 4, 1890.
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A I wl. 1 m" y UNITED STATES PATENT OFFICE.
THOMAS o. PERRY, OE oI-IIOAcO, ILLINOIS.
`GRlNDlNG-IVIILL.
SPECIFICATION forming part of Letters Patent No; 420,464, dated February 4, 1890.
Application filed May 20, 1889.
T0 all whom it may concern:
Beit known that I, THOMAS O. PERRY, a citizen of the United States, residing at No. 285 Claremont avenue, Chicago, in the county of Cook and State of Illinois, have invented a new and useful Grinding-Mill, of which the following is a specification.
My invention relates -to improvements in grinding-mills in which grain is ground between the faces of two horizontal disks or grinding-rings having vertical axes, one disk .revolving beneath the other; and the objects of my improvements are,f1rst, to provide a centrifugal feeding device which shall regulate automatically the supply of grain to the rings to suit variations of driving-power and consequent changes in speed of revolution, and, second, to provide for supporting the grinding-Inill without Vobstructing the space underneath. I attain these objects by the mechanism illustrated in the accompanying drawings, in which- Figure 1 is a sectional elevation of the grinding-mill, taken in a plane containing the axes of the vertical and horizontal drivingshafts. Fig. 2 is a sectional elevation taken in a plane containing the axis of the vertical shaft and at right' angles to the plane of Fig. l. Fig. 3 is a plan of the supporting-frame. Fig. 4 is a sectional plan of the part of grinding-mill below the dotted line 1, Fig. 1.
Similar letters refer to similar parts throughout the several views.
F represents the frame containing the bearings for driving-shafts G and M.
C is `a circular shield bolted to frame. F and vinclosing the grinding-rings D and E. The upper grinding-ring D is bolted to the shield C, and the lower grinding-ring is bolted to a circular plate B, which is caused to rotate by means of the vertical shaft G, driven by suitable connections with a motor.
The shaft G may connect, by means of a clutch or coupling lV, directly with the vertical shaft of a wind-motor, or it may be driven by means of a belt and horizontal pulley K, attached to the shaft; or shaft G may be driven by means of a belt on the pulley L, or by other connection with the horizontal shaft M, communicating motion through the bevel-gears J and H. The horizontal pulley K and bevel-gear H are shown as cast in one Serial No. 311,500. (No model.)
' piece keyed to shaft G. The plate B is driven by means of a key passing through a slot in the foot of shaft G, and is supported by a.
step-box T, on which it revolves. The stepbox T rides on a yoke U, suspended from the shield C by two bolts, one of which is provided with a hand-screw V, by means of which the lower grinding-ring may be adjusted to grind coarse or fine.
Grain is led to the interior of the grindingrings by means of an inclined spout A, the lower end of wh ich surrounds the shaft G, and, extending down through both grinding-rings, reaches into a central depression Z in the plate B far enough so that when the lower ring is wit-hout Inotion, or is revolving slowly, no grain will get in between the grinding-surfaces of the rings; but a certain speed of revolution is required to throw the grain up out of the depression Z by centrifugal force into the teeth of the rings. The speed required will depend on the depth of the depression Z and the distance the spout A reaches down into it below the grinding-surfaces of the rings.
The spout form a part of the shield C, or it may be a separate part made vertically adj ustable'by means of a nut X on a stud attached to the spout and passing up through an ear proj ecting from the frame F. /Vhere the spout passes through the upper grindiug-ringD, it is preferably made with shoulders a, which `nearly lill the circular Opening through the ring, and from there downward is contracted in diameter, so as to leave between the opening through the lower grinding-ring E and the lower end of the spout an annular space for the levit of grain from the depression Z into the teeth of the rings D and E. It will be seen that by depressing the spout thus constructed the grain may be shut off from the rings close to the teeth while the spout is full of grain, thus leaving the least possible amount to be ground out and stopping the grinding almost instantly after the depression of the spout. The ground grain is delivered at the periphery of the rings, being thrown against the inside of the shield C, whence it drops directly down. To receive the ground grain, the mouth of a bag maybe tied around the outside of the shield, or abin A may be rigidly attached to or IOO of any size may be placed underneath the shield, as there is no supporting-base in the way.
The frame F is sustained from above, being bolted to a timber S, suspended from any suitable support, as a ceiling or roof of a building, so as to leave the space beneath the grinding-mill unobstructed. In case the grinding-mill is driven by wind-power this arrangement is especially convenient, as the same timber or mast S may support a windmotor at its upper end.
Thespout A, extending down below the teeth of the grinding-rings into the depression Z, constitutes, even when rigidly atlaehed to or forming a part of the shield C, an automatic centrifugal feeding device, which will control the supply of grain to the grinding-rings, increasing the supply as the speed of revolution increases, reducing the supply as the speed decreases, and shutting oif the grain from the rings ent-irely when the lower ring ceases to rotate, so that at the commencement of motion there will be no resistance to rotation caused by grain left or prematurely lodged in the teeth of the grinding-rings.
By making the spout A a separate piece from the shield C and giving ita vertical adjustment by means of the nut X the speed of rotation :necessary to commence grinding, as well as the amount of grain fed to the rings with any given speed, can be changed, as the flow of grain will be more or less obstructed, according as the spout A is depressed or elevated. Grain maybe conveyed from a bin to the spout A by means of a chute Y, whose lower end telescopes into the upper end of spout A, so as not to interfere with the vertical movement of the latter. The supply of grain to the rings may be further automatically regulated, if need be, by means of centrifugal balls N acting to elevate the spout A, so that the flow of grain will be less and less obstructed as the speed of rotation increases. The balls N form the upper extremity of bent levers, which are fulcrumed at their elbows on the rim of the bevel-gear H. The horizontal arms of the bent levers O engage with two rods P, which pass loosely through slots in the hub of the bevel-gear II, close along the shaft G, and are bent out at their lower ends, so as to catch under a ring Q, surrounding the shaft G, with an annular space between the shaft and ring, through which the rods P pass, and within which they revolve with the shaft G. The ring Q does not revolve, but is connected with the spout Aby means of the two rods R, which are free to move vertically through holes in the frame F. The nut X being removed, the spoutA will drop of its own weight, so as to absolutely stop the flow of grain into the grinding-rings; but when the speed of revolution becomes suiic-iently rapid the centrifugal force of the balls N will lift the spout A, so as to leave a passage more or less free for grain to enter the grinding-rings.v The rapidity of revolution required to lift the spoilt A maybe regulated by adding to or taking from the weight of the spout.
Vhat I claim, and desire to secure by Letters Patent, is
` l. In a grinding-mill, the combination of the casing provided with a feed-spout eX- tending downward centrally from the top of said casin g and a stationary grinding-ring secured thereto, with a revolving plate provided with a central depression and a grinding-ring secured thereto, said depression being directly underneath and surrounding the lower end, of said feed-spout, substantially as and for the purpose herein set forth.
2. In a grinding-mill, in combination, the casing provided with a central feed-spout, a stationar grinding-ring secured thereto, a revolving plate provided with a central depression, and a grinding-ring secured thereto, said central feed-spout extending down into said depression below the teeth of the revolving grinding-ring, substantially as and for the purpose herein specified.
3. In a grinding-mill, the combination of the casing provided with a central circular opening, a stationary grinding-ring secured thereto, a revolving plate provided with a central depression, and a grinding-ring secured thereto, said depression being directly underneath said central opening, with an ad justablc circular feed-spout entering said opening and extending down into said depression, and provided with an adj usting-nut X, substantially as and for the purpose herein set forth.
4. In a grinding-mill, the combination of the casing provided with a central circular opening, a stationary grinding-ring secured thereto, a revolving plate provided with a central depression, and a grinding-ring secured thereto, said depression being directly underneath said central opening, with an adjustable circular feed-spout entering said` opening and provided with a shoulder a, whereby by lowering the feed-spout the supply of material is cut entirely off, substantially as described.
THOMAS O. PERRY.
Vitnesses:
ALBERT E. Woon, WM. G. IDEALE.
TOO
IIO
Publications (1)
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US420464A true US420464A (en) | 1890-02-04 |
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US420464D Expired - Lifetime US420464A (en) | Grinding-mill |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2627376A (en) * | 1949-06-29 | 1953-02-03 | Lee Foundation For Nutritional | Attrition-type flour mill with centrifugally controlled feeding means |
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0
- US US420464D patent/US420464A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2627376A (en) * | 1949-06-29 | 1953-02-03 | Lee Foundation For Nutritional | Attrition-type flour mill with centrifugally controlled feeding means |
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