US1789583A - Feed grinder - Google Patents

Feed grinder Download PDF

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Publication number
US1789583A
US1789583A US362494A US36249429A US1789583A US 1789583 A US1789583 A US 1789583A US 362494 A US362494 A US 362494A US 36249429 A US36249429 A US 36249429A US 1789583 A US1789583 A US 1789583A
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Prior art keywords
housing
screen
feed
opening
plates
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Expired - Lifetime
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US362494A
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Raymond B Elderkin
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Individual
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C13/00Disintegrating by mills having rotary beater elements ; Hammer mills
    • B02C13/26Details
    • B02C13/282Shape or inner surface of mill-housings
    • B02C13/284Built-in screens

Definitions

  • This invention relates to algrinder for construct the grinder that it will automatically act as an elevatorto elevate the ground feed or fodder into silos, storage bins, and.
  • Still another object of the .invention' is to so construct the device that all fine material will be recovered and all atmospheric dust will be eliminated.
  • a further object of the invention is to provide grinding mechanism which will not be damaged should pieces of metal, .rocks, etc., be accidentally introduced.
  • a still further object of the invention is to provide a grinder which can be quickly and easilyadjusted to grind to diflering degrees of fineness.
  • Fig. 4 is a detail perspective View illustrating the rotor of the grinder.
  • the invention comprises a relatively n'arrow cylindrical housing 10 which is closed at its two sides by means of a front late 11' and aback plate 12.
  • the interior 0 the housing 10 is preferably roughened or toothed as indicated at 36, Fig. 3.
  • the front p and back plates 11 and 12 are clamped against the housing 10 with clamp bolts 13 which extend across the exterior 0,1? the housing 10 through the two plates 1'1 and 12'.
  • the front and back plates are provided with base shoes 14 by meansof which the entire device "can be attached to any suitable foundation such as indicated at 15.
  • Each of the plates 11 and 12 supports a bearing box 16 in which a'drive shaft 17 rotates.
  • the shaft' may be driven froma pulley.21 or in any other desired manner.
  • The-upper portion of th e housing 10 is provided with a screen opening 22, the opening being covered by an arcuate screen 23 which completes the periphery of the hous' ing 10.
  • the screen 23 rests upon the housing 10 at the extremities of the opening 22 and is held in place therein by means of bolts 24 which pass across the screen 23 between the plates. 11 and 12, as shoiwn in Fig. 3. Access may be had to the screen through a removable door 25.
  • the door 25 opens to a discharge compartment 26 formed between the plates 11 and 12 above the housing 10. I The'grinding is accomplished by means of 'a series of radial arms 37, hinged to a rotor" disk 18 uponpivot bolts 20, and provided with paddles-19.
  • the rotor disk 18 is keyed .'-to the shaft "17 within the housing 10.
  • Material is fed into the housing 10 through a feed opening 27 in the front plate 11.
  • the feed opening 27 opens tothe housing immediately below the bearing box 16 and receives material from an'inclined feed hopper 28.
  • the discharge compartment 26 is open to a vertical stack- 29 which discharges into a ground feed receiver 30.
  • the receiver 30 is supported from the plates 11 and 12 upon a suitable bracket 35.
  • the ground feedcan be .dischar ed from the receiver 30 through either one 0 two discharge spouts 31 by actuating a damper 32.
  • a cylindrical dust baflie 33 extends downwardly through the top of the receiver 30.
  • the bafiie 33 is open at both its top and bottom and is covered by means of a cap 34.
  • the material to be ground is placed in the feed hopper 28 and the shaft 17 is rapidly rotated in the direction of the arrow in Fi 3. This causes the device to act as a centrifugal fan or blower intaking through the feed opening 27 and discharging through the stack 29.
  • the suction of the inrushing air draws the material from the feed hopper 28 through the opening 27 where it is subjected to a violent beating. action'by the paddles 19.
  • the centrifu al force of revolution Will .force the material against the grinding surface 36 of the housing 10 and rapidly grind and pulverize it.
  • the material will immediately leave the housing 10, driven by the violent blast of air therefrom, and enter the discharge compartment 26. From here it will be blown upwardly in the stack 29 and deposited in the receiver 30.
  • the air will swirl downwardly about the bafiie 33 and deposit its solid material, thence it will flow upwardly through the baflie 33 and discharge under the edges of the hood 34 free from dust.
  • the mesh of the screen 23 accurately determines the fineness of the grind for the material will immediately leave the housing 10 when it has reached suflicient fineness to pass through the screen. Therefore, none of the material is subjected to unnecessary grinding.
  • the screen is easily removable through the door 25 by removing the bolts 24 so that the device can be quickly adapted to grind difi'er materials to differingdegrees of fineness.
  • the arms 37 are formed integrally with the paddles 19, strengthening ribs being provided on the rear faces of the paddles as illustrated.
  • the arms 37 are bifurcated and pass upon each side of the disk 18 so that the paddles 19 are rigidly maintained parallel to the shaft 17'.
  • the stack 29 may be disconnected from the 'receiver 30 andrun to the desired point.
  • blast from the rotating paddles has been found amply sufiicient to elevate fodder toa height of seventy-five feet.
  • a feed grinder comprising: a cylindrical housing; side plates closing the sides of said housing; clamp bolts clampingsaid side plates against said housing; a shaft mounted in said side plates; paddles carried by said shaft and arranged to rotate within said housing; said housing being provided with a feed opening adjacent its lower part and with a discharge opening in its upper periphery; an arcuate screen closing said discharge opening and completing the periphery of said housing; and a discharge compartment formed above said screen and a door opening to said compartment so as to allow removal of said screen.

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  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Crushing And Pulverization Processes (AREA)

Description

Jan. 20, 1931. k. BL ELDERKIN 1,789,583
' FEED GRINDER'Y Filed May 13. 192-9 EMlllllllllllllllll UNITED STATES?" "iyATEN' I orrlca RAYMOND 3; atom, on DENVER, conomo I man Gamma.
' Application filed Kay 13,
This invention relates to algrinder for construct the grinder that it will automatically act as an elevatorto elevate the ground feed or fodder into silos, storage bins, and.
. the like without additional mechanism.
Still another object of the .invention'is to so construct the device that all fine material will be recovered and all atmospheric dust will be eliminated.
A further object of the invention is to provide grinding mechanism which will not be damaged should pieces of metal, .rocks, etc., be accidentally introduced.
A still further object of the invention is to provide a grinder which can be quickly and easilyadjusted to grind to diflering degrees of fineness.
Other objects and advantages reside in the detail construction of the invention which is designed for simplicity, economy, and efiiciency. These will become more apparent from the following description.
In the following detailed description of the invention reference is had to the accompanying drawing which forms a part hereof. Like numerals refer to like parts in all views of the drawing and throughout the descrip- 1929; Serial No. 862,494.
Fig. 4 is a detail perspective View illustrating the rotor of the grinder.
Gonstmbtion Q The invention comprises a relatively n'arrow cylindrical housing 10 which is closed at its two sides by means of a front late 11' and aback plate 12. The interior 0 the housing 10 is preferably roughened or toothed as indicated at 36, Fig. 3. The front p and back plates 11 and 12 are clamped against the housing 10 with clamp bolts 13 which extend across the exterior 0,1? the housing 10 through the two plates 1'1 and 12'. i
The front and back plates are provided with base shoes 14 by meansof which the entire device "can be attached to any suitable foundation such as indicated at 15. Each of the plates 11 and 12 supports a bearing box 16 in which a'drive shaft 17 rotates. The shaft' may be driven froma pulley.21 or in any other desired manner.
The-upper portion of th e housing 10 is provided with a screen opening 22, the opening being covered by an arcuate screen 23 which completes the periphery of the hous' ing 10. The screen 23 rests upon the housing 10 at the extremities of the opening 22 and is held in place therein by means of bolts 24 which pass across the screen 23 between the plates. 11 and 12, as shoiwn in Fig. 3. Access may be had to the screen through a removable door 25. The door 25 opens to a discharge compartment 26 formed between the plates 11 and 12 above the housing 10. I The'grinding is accomplished by means of 'a series of radial arms 37, hinged to a rotor" disk 18 uponpivot bolts 20, and provided with paddles-19. The rotor disk 18 is keyed .'-to the shaft "17 within the housing 10. Material is fed into the housing 10 through a feed opening 27 in the front plate 11. The feed opening 27 opens tothe housing immediately below the bearing box 16 and receives material from an'inclined feed hopper 28. The discharge compartment 26 is open to a vertical stack- 29 which discharges into a ground feed receiver 30. The receiver 30 is supported from the plates 11 and 12 upon a suitable bracket 35. r
The ground feedcan be .dischar ed from the receiver 30 through either one 0 two discharge spouts 31 by actuating a damper 32.
A cylindrical dust baflie 33 extends downwardly through the top of the receiver 30. The bafiie 33 is open at both its top and bottom and is covered by means of a cap 34.
Operation In use, the material to be ground is placed in the feed hopper 28 and the shaft 17 is rapidly rotated in the direction of the arrow in Fi 3. This causes the device to act as a centrifugal fan or blower intaking through the feed opening 27 and discharging through the stack 29. The suction of the inrushing air draws the material from the feed hopper 28 through the opening 27 where it is subjected to a violent beating. action'by the paddles 19.
The centrifu al force of revolution Will .force the material against the grinding surface 36 of the housing 10 and rapidly grind and pulverize it. -When the material has been ground sufiiciently fine to pass through the meshes of the screen 23 it will immediately leave the housing 10, driven by the violent blast of air therefrom, and enter the discharge compartment 26. From here it will be blown upwardly in the stack 29 and deposited in the receiver 30. In the receiver 30 'the air will swirl downwardly about the bafiie 33 and deposit its solid material, thence it will flow upwardly through the baflie 33 and discharge under the edges of the hood 34 free from dust.
The mesh of the screen 23 accurately determines the fineness of the grind for the material will immediately leave the housing 10 when it has reached suflicient fineness to pass through the screen. Therefore, none of the material is subjected to unnecessary grinding. The screen is easily removable through the door 25 by removing the bolts 24 so that the device can be quickly adapted to grind difi'er materials to differingdegrees of fineness.
bolts, rocks, or other uncompressible and ungrindable material enter the housinglO, the blades will swing backwardly as indicated by the broken line position in Fig. 3, so as to pass over this material without damage to the mafeed the arms can swing backwardly until the amount of material has been reduced or This reduces head resistance, places the full width of the blade at the periphery only Where all of the work is. done and allows a free, unobstructed passage for the entrance of the feed material through the feed opening 37. The arms 37 are formed integrally with the paddles 19, strengthening ribs being provided on the rear faces of the paddles as illustrated. The arms 37 are bifurcated and pass upon each side of the disk 18 so that the paddles 19 are rigidly maintained parallel to the shaft 17'.
Should it be desired to elevate the ground feed to a silo, vbarn, or other storage,'the stack 29 may be disconnected from the 'receiver 30 andrun to the desired point. The
blast from the rotating paddles has been found amply sufiicient to elevate fodder toa height of seventy-five feet.
While a specific form of the improvement has beendescribed and illustrated herein, it is desired to be understood that the same may be varied within the scope of the appended claim, without departing from the spirit of the invention.
Having thus described the invention, what 'is claimed and desired secured by Letters Patent is A feed grinder comprising: a cylindrical housing; side plates closing the sides of said housing; clamp bolts clampingsaid side plates against said housing; a shaft mounted in said side plates; paddles carried by said shaft and arranged to rotate within said housing; said housing being provided with a feed opening adjacent its lower part and with a discharge opening in its upper periphery; an arcuate screen closing said discharge opening and completing the periphery of said housing; and a discharge compartment formed above said screen and a door opening to said compartment so as to allow removal of said screen.
In testimony whereof, I afiix my signature.
RAYMOND B. ELDERKIN.
chineuntil the operator can shut off the power A and remove the obstruction; third, should the machine be overloaded by an unusually rapid
US362494A 1929-05-13 1929-05-13 Feed grinder Expired - Lifetime US1789583A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2494107A (en) * 1945-08-13 1950-01-10 Lyman H Ryan Hammer mill with auxiliary rotor for providing a more effective discharge of material
US2578850A (en) * 1949-04-06 1951-12-18 Archer Daniels Midland Co Shredding rotor
US2712905A (en) * 1951-10-03 1955-07-12 Sandor Bela Thomas Combined disintegrator and blower unit
US2875956A (en) * 1954-11-15 1959-03-03 Microcyclomat Co Pulverizer

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2494107A (en) * 1945-08-13 1950-01-10 Lyman H Ryan Hammer mill with auxiliary rotor for providing a more effective discharge of material
US2578850A (en) * 1949-04-06 1951-12-18 Archer Daniels Midland Co Shredding rotor
US2712905A (en) * 1951-10-03 1955-07-12 Sandor Bela Thomas Combined disintegrator and blower unit
US2875956A (en) * 1954-11-15 1959-03-03 Microcyclomat Co Pulverizer

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