US3160352A

US3160352A - Apparatus for pulverizing and dispersing solid material into liquid suspension

Info

Publication number: US3160352A
Application number: US820273A
Authority: US
Inventors: Gilman B Mollring
Original assignee: Individual
Current assignee: Individual
Priority date: 1959-06-15
Filing date: 1959-06-15
Publication date: 1964-12-08
Anticipated expiration: 1981-12-08

Description

Dec. 8, 1964 G. B.MOLLRING 3,160,352 APPARATUS FOR PULVERIZING AND DISPERSING soun MATERIAL mwo LIQUID SUSPENSION Filed June 15, 1959 mven'romf 1 United Stat cs Fatent O arsassz APPARATUS FGR PULVERIZING AND DEPERSING SQLID MATEREAL INTQ MQUID SUSPENEON Gilman B. ,Mollring, 2590 S. Westgate Ave,

Los Angelcs 64, Calif. Filed June 15, 1959, Ser. No. 820,273 2 Qlairns. (*Jl. 241-93) It is the broad object of this invention to provide a unique method and a highly versatile apparatus whereby a solid material may be reduced to the desired particle size and almost simultaneously dispersed in a liquid media to thus make a hydrosol, oleosol, plastisol and the like.

More specifically it is the object of this invention to provide a method and a device whereby a cold solid chunk of relatively low penetration, high melting point asphalt or similar thermoplastic material together with its fibrous sack or container may be both reduced to small particle size and almost simultaneously dispersed in the desired amount and type of liquid desired.

Other objects of the invention include the avoidance of danger of any dust explosion and of heat build up within the mill housing itself; and the complete elimination of the usual dust problems normally experienced with the pulverization of a solid by means of the conventional impact mills.

It is also the object of this invention to provide a pulverization unit in combination with a mixing or dispersion unit whereby the operator may at will accomplish dry or wet pulverization with or without wet or dry mixing as well as wet or dry mixing sans pulverization.

Other objects of this method and apparatus will be apparent from the following specification, drawing and claims.

To fully understand exactly how and in what respects my process and device differs from the prior art it willbe necessary to point out that the present day impact mills belong to two general classifications, one of which is an impact mill having a plurality of discs and the like all of equal circumference. These discs or rotors are mounted vertically on a horizontal shaft and are provided with impactors, shredders, cutters, hammers and the like. The impactors or hammers etc., may be of stationary or pivotal type or indeed may be a part of each disc itself. In operating this type of mill relatively large pieces of solid material are fed through a mill opening and the solid material passes downwardly into the path of the rapidly moving discs with their impactors. The solid material is thus struck with full shock of impact and is shattered and hurtled against a stationary target area. This so called target area usually consists of a screen, screed, breaker plate, perforated plate, lugs, pins or ribs and the like. The solid material hurtled by the impactors against the target area' is further shattered by force of impaction with same. It is very important to repeat that the rotors or discs of this type of mill are of equal circumference and as a consequence the peripheral speed of each disc or rotor is identical to its companion disc or rotor.

The other common type of impact mill is one having a singular horizontal rotor or grinding table and the like provided with impactors, cutters, shredders etc., mounted on a vertical shaft and usually powered by a turbine type motor. In operation this type of mill relatively smaller sized particles of solid material are fed through the mill opening and the solid material passes downwardly against and upon the rapidly moving rotor and impactors etc. The solid material is struck by force of impaction thus shattering and accelerating the solid material to a high velocity. The shattered particles thus acquire by centrifugal force and by impaction a high kinetic I have discovered that I can obtain improved particle I size reduction and at the same time achieve the objects or" my invention it] employ a plurality of discs rotors and the like with impactors, impellors, shredders, cutters etc., mounted horizontally on a vertical shaft. My discs or rotors dilier from the above mentioned mills in one very important manner in that I provide two or a plurality of discs of progressively larger circumference as the solid material passes downwardly from the mill opening. First the solid material is struck by full force of impaction by a primary rotor of relatively small circumference and the shattered material is hurtled against a first target area, following which the material thus shattered is directed downwardly against and upon a secondary rotor having a slightly larger circumference than the primary rotor. Thus the solid material is hurtled against a secondary target area by increasing peripheral speed and greater force of impaction and directed! downwardly against and upon a tertiary rotor of even larger circumference than the secondary rotor from which it is thrown outwardly against the third target area from which point the thus pulverized material is thrust downwardly into a mixing, dispersion or temporary storage compartment which is provided with a suitable outlet port or ports as may be desired by the operator. My device permits many variants in operation as for example: (1) Dry pulverization, no mixing, (remove lower impellor or impellors). (2) Wet pulverization, no mixing, (lower impeller or impellors removed). (3) Dry pulverization and dry mixing. (4) Dry pulverization and wet mixing. (5) Wet pulverization and wet mixing. (6) Wet or dry mixing by bypassing upper pulveriza-tion chamber.

While I have indicated primary, secondary and tertiary rotor of progressively larger circumference it is apparent that more or fewer rotors could be employed without departing from the spirit of the invention. It is equally obvious that these rotors may be provided with any one or combinations of many types of impactors, shredders, cutters, maces, hammers and the like without departing from the objects of the process or device itself, and that such impactors may be separately pivoted or secured to, or may be integral parts of the crusher rotor. This same logic applies to the so called target area consisting of one or a combination of any of the following objects: projecting pins, pegs, ribs, screeds, cutter rings or similar proiections against which the solid material is hurtled by means of the. rotors with their impactors etc.

My process and device is implemented by two or more zones of impaction which consists essentially of primary, secondary, tertiary crushing areas wherein the solidmaterial encounters progressively higher peripheral speeds with progressively diminishing distances to corresponding target areas beyond the periphery of the disc or rotors. Thus the solid material is struck harder and harder as it passes downwardly against ever diminishing tolerances in respect to distance between rotor or discs and the inner wall of the pulverization housing to thus obtain improved particle size reduction.

This invention is a continuation in part of my co-pending application filed August 20, 8, Serial Number 756,- 083, Method of Producing a Composite Liquid Bituminous Binder, now abandoned.

a in Other objects and advantages will become apparent in the ensuing specification and appended drawing in which: FIG. 1 is a side elevational view of the crusher mill of an apparatus embodying my invention, with parts broken away and shown in section to better illustrate the construction; and

FIG. 2 is a schematic diagram of the apparatus.

The Apparatus Referring now to the drawings in detail, I have shown therein, as an example of one form of an apparatus that may be utilized in the practice of the invention, a system wherein a mixer 6 receives from a surge tank 8, a mixture of pulverized material and solvent which has been processed in a crusher mill indicated generally at 10.

Referring now to FIG. 1, the mill 10 has a housing including a side wall 11, a top' wall'l2 and a bottom wall 13 integrally joined to define a closed processing chamber. Secured to the inner face of side wall 11 is a cylindrical wear resistant liner 14. Communicating with the upper area of this chamber is an inlet nozzle 15. A motor 16, mounted upon a fiange 18 on a tubular neck 17 on the housing top 12 at the center thereof, has its drive shaft connected through a coupling 19 to the crusher shaft 2d which is mounted in

bearings

21 and 23 on the vertical major axis of the crusher. Top bearing 21 constitutes an integral part of a spider 22 which is secured to and suspended from the housing top 12. Bearing 23 is a part of a spider 24 which is secured at 25 to the side wall 11 of the housing.

The crusher embodies a drum 26 having a crown 27 presenting a frusto conical surface for deflecting chunks of material downwardly and outwardly, having a bottom disc 28, having a frusto conical side wall 29 of relatively steep inclination with respect to the inclination of crown 27, and having

bearings

30 and 31 formed integrally with the bottom plate 28 and crown 27 respectively.

Secured to the side wall 29 (e.g. by welding) are upper and intermediate

hammer support rings

32 and 33 and a pair of vertically opposed lower support rings 34 and 35. Mounted between the rings 34 and 35 are grinder rollers 36. Hammers 37 are pivotally mounted upon the support rings '32 and 33. Opposed to the hammers 3'7 and rollers 36 respectively are three impact target rings 38, and between the rings 38 are two impact ribs 39, the parts- 38 and 39 all being mounted upon the liner 14.

Mounted in the housing top 12 is a tubular fluid injection ring 40 having an inlet 41 extending through the top 12. Injection ring 40 has a series of circumferentially spaced delivery apertures through which fluid is sprayed onto a deflector collar 42 having a large number of apertures 43 for directing the fluid downwardly in a cylindrical spray, into the annular area above the series of

crusher gaps

44, 45 and 46 which are defined between the hammers 37 and grinder rollers 36 on the one hand and the impact rings 38 on the other hand. It may be noted that the gaps 44,. 45 and 46 are of progressively decreasing radial width corresponding to the progressively increasing diameters of the paths of the hammers 37 and grinding rollers 36.

At 47 is shown a relatively large chunk of asphalt material which has entered the crusher chamber through the inlet nozzle 15. As the lower end of the chunk of material 47 reaches the plane of rapid rotation of the hammers 37, smaller chunks of the material will be broken away from the large chunk 47 and will be thrown violently outwardly against the upper impact ring 38, Where they will be further reduced by exploding impact with the ring 38. The finer chunks thus produced will drop through the gap 44 against the hammers 37 of the crusher ring 33 and will be further reduced by impact with these hammers and by being thrown against the intermediate impact ring 38. The still finer particles thus produced will drop through the gap 45 against the rollers 36 and will be thereby thrown outwardly against the tertiary impact ring 38 and pulverized by impact and grinding action to produce a relatively fine stream of pulverized solid particles sifting downwardly in the spray of solvent liquid descending from the deflecting collar 43. This mixture will collect in the bottom of the crusher tank to form the hydrosol 48 the upper level of which is indicated at 49. Impellers 5d and 53 on the lower end of actuator shaft 20-, will continually agitate the hydrosol 48 to promote the suspension or dissolution of the solid particles in the solvent.

In the operation of the apparatus, the hydrosol will be drawn off through a valved outlet 51 and transferred to the surge tank 8 from which it will be again transferred into the mixer 6. A drain-connection 52 in the bottom 13 of the crusher tank, and a clean-out door 54 in the lower.

area of the side wall 11, are provided for clean out purposes. Supporting

legs

55 and 56 may be utilized for supporting the crusher. tank at a suitable height for gravity draining into the surge tank 8.

The Process My improved process of pulverization will be partially apparent from the above description of the apparatus. In general, it contemplates the introduction of chunks of solid material into the upper of a series of impact-crushing gaps of progressively diminishing radial widths, in which the chunks of material are successively reduced to finer particle size, while an annular curtain of solvent spray is dropped into the crushing gaps, commingling with the particles as they are progressively reduced, and finally descending in a mixture of finely crushed particles and solvent mist, into a liquid body of the mixture of solvent and particles in the bottom of a crusher tank. In particular, the process utilized a series of crushing steps executed by a'number of groups of crushing hammers or impellers,

V rotating respectively in a number of vertically spaced horizontal planes, in rotary paths of successively greater diameter, and with correspondingly increased speed of impelling and impact action at each of the successively lower planes of rotation. Thus, as the particles are progressively reduced in size, the finer particles are impacted by impellers rotating at a higher peripheral speed than the impellers at a higher level which act upon the larger particles. This higher speed of rotation of the impellers which act upon the finer particles is important in obtaining a satisfactory degree of further reduction of the finer particles.

I claim:

1. Apparatus for the processing of hydrocols, oleosols, and the like, wherein a solid material is pulverized and suspended in a liquid phase and is maintained in suspension or solution in a body of the liquid, said apparatus comprising: a mill housing;-means supporting said housng in a fixed position on a vertical axis, said housing havmg an upper pulverization chamber and a lower dispersion chamber; an actuator shaft journalled in said housing upon the vertical axis thereof; means for rotating said shaft; a crusher rotor mounted on and driven by said shaft, said rotor comprising a plurality of groups of hammers rotating in respective paths of rotation which are vertically spaced from one another and are of progressively increasing diameter and peripheral speed of rotation from the upper toward the lower area of said rotor; means providing a plurality of fixed target areas on the inner wall of said housing in horizontally opposed relation to the respective groups of hammers and spaced therefrom by puiverizing gaps of respectively decreasing widths from the upper toward the lower area of said rotor; means at the top of said housing providing an annular spray of liquid descending through said gaps and mixing with the pulverizing material discharged from the lower gap into said dispersion chamber; and means for drawing olf the suspensionof liquid and solid particles from the lower area of said dispersion chamber'in a controlled manner such as to maintain a body of liquid filling at least a portion of said dispersion chamber; said shaft projecting downwardly into said dispersion chamber and further including an agitator secured to said shaft in a position for operation in said body of liquid in the dispersion chamber for inhibiting the settling out of the solid particles from said body of liquid.

2. Apparatus for pulverizing solid materials comprising a mill housing; means supporting said housing in a fixed position on a vertical axis, said housing defining a pulverization chamber; means for delivering chunks of solid material into the upper portion of said pulverization chamber at the periphery thereof; a crusher rotor rotatably mounted in said chamber for rotation on said vertical axis and comprising a plurality of groups of hammers rotating in respective paths of rotation which are vertically spaced from one another and are of progressively increasing diameter and peripheral speed of rotation in a downward direction; and means providing a plurality of fixed targets of circular configuration in respective vertically spaced horizontal planes, radially opposed to the respective groups of hammers and horizontally spaced therefrom by pulverization gaps of respectively decreasing width in a downward direction, said rotor further including a drum having a substantially closed periphery disposed circumferentially of said vertical axis and radially inwardly of but adjacent said hammers, for confining said chunks of solid material within said pulverization gaps during downward movement thereof in the pulverization chamber, wherein said hammers are pivoted to said drum periphery on vertical axes at their inner ends.

References Cited in the tile of this patent UNITED STATES PATENTS 31,492 Stewart Feb. 19, 1861 311,258 Randolph June 27, 1885 598,646 Saunders Feb. 8, 1898 1,220,257 Molander Mar. 27, 1917 1,458,542 Plauson June 12, 1923 1,956,293 Klein Apr. 24, 1934 2,370,200 Shabaker -1 Feb. 27, 1945 2,460,546 Stephanotl Feb. 1, 1949' 2,614,756 Ferguson Oct. 21, 1952 2,769,785 Walker Nov. 6, 1956 3,067,013 Lamb Dec. 4, 1962

Claims

1. APPARATUS FOR THE PROCESSING OF HYDROCOLS, OLEOSOLS, AND THE LIKE, WHEREIN A SOLID MATERIAL IS PULVERIZED AND SUSPENDED IN A LIQUID PHASE AND IS MAINTAINED IN SUSPENSION OR SOLUTION IN A BODY OF THE LOQUID, SAID APPARATUS COMPRISING: A MILL HOUSING; MEANS SUPPORTING SAID HOUSING IN A FIXED POSITION ON A VERTICAL AXIS, SAID HOUSING HAVING AN UPPER PULVERIZATION CHAMBER AND A LOWER DISPERSION CHAMBER; AN ACTUATOR SHAFT JOURNALLED IN SAID HOUSING UPON THE VERTICAL AXIS THEREOF; MEANS FOR ROTATING SAID SHAFT; A CRUSHER ROTOR MOUNTED ON AND DRIVEN BY SAID SHAFT, SAID ROTOR COMPRISING A PLURALITY OF GROUPS OF HAMMERS ROTATING IN RESPECTIVE PATHS OF ROTATION WHICH ARE VERTICALLY SPACED FROM ONE ANOTHER AND ARE OF PROGRESSIVELY INCREASING DIAMETER AND PERIPHERAL SPEED OF ROTATION FROM THE UPPER TOWARD THE LOWER AREA OF SAID ROTOR; MEANS PROVIDING A PLURALITY OF FIXED TARGET AREAS ON THE INNER WALL OF SAID HOUSING IN HORIZONTALLY OPPOSED RELATION TO THE RESPECTIVE GROUPS OF HAMMERS AND SPACED THEREFROM BY PULVERIZING GAPS OF RESPECTIVELY DECREASING WIDTHS FROM THE UPPER TOWARD THE LOWER AREA OF SAID ROTOR; MEANS AT THE TOP OF SAID HOUSING PROVIDING AN ANNULAR SPRAY OF LIQUID DESCENDING THROUGH SAID GAPS AND MIXING WITH THE PULVERIZING MATERIAL DISCHARGED FROM THE LOWER GAP INTO SAID DISPERSION CHAMBER; AND MEANS FOR DRAWING OFF THE SUSPENSION OF LIQUID AND SOLID PARTICLES FROM THE LOWER AREA OF SAID DISPERSION CHAMBER IN A CONTROLLED MANNER SUCH AS TO MAINTAIN A BODY OF LIQUID FILLING AT LEAST A PORTION OF SAID DISPERSION CHAMBER; SAID SHAFT PROJECTING DOWNWARDLY INTO SAID DISPERSION CHAMBER AND FURTHER INCLUDING AN AGITATOR SECURED TO SAID SHAFT IN A POSITION FOR OPERATION IN SAID BODY OF LIQUID IN THE DISPERSION CHAMBER FOR INHIBITING THE SETTLING OUT OF THE SOLID PARTICLES FROM SAID BODY OF LIQUID.