US3332629A

US3332629A - Automatic clearing mechanism for crushers

Info

Publication number: US3332629A
Application number: US396058A
Authority: US
Inventors: Donald G Miller
Original assignee: American Pulverizer Co
Current assignee: American Pulverizer Co
Priority date: 1964-09-14
Filing date: 1964-09-14
Publication date: 1967-07-25
Anticipated expiration: 1984-07-25

Description

y 25, 1967 D. G. MILLER AUTOMATIC CLEARING MECHANISM FOR CRUSHERS 2 Sheets-Sheet 1 Filed Sept. 14, 1964 n M f I FIGJ mm 0 L Wu M w 4 2 m M fl z m F M,MWW

United States Patent 3,332,629 AUTOMATIC CLEARING MECHANISM FOR CRUSHERS Donald G. Miller, Glendale, Mo., assignor to American Pulverizer Company, St. Louis, Mo., a corporation of Missouri Filed Sept. 14, 1964, Ser. No. 396,058 Claims. (Cl. 241-33) The present invention relates to automatic clearing crushers, and more particularly to a shock-initiated pneumatically actuated opening mechanism for discharging uncrushable material such as tramp metal and the like from crushers.

The present invention is an improvement over various rotary motion crushers and grinders which utilize tramp metal traps and impact operated discharge gates. Typically, the present invention is an improvement over US. Patent No. 1,520,228 granted Dec. 23, 1924, to Paul Knittel. One of the most difiicult problems presented in crushing and grinding operations of metal turnings, coal and other materials is the inherent inclusion of uncrushable materials in the feed stock. For example, metal turnings often include nuts, bolts, etc. swept up in the process of obtaining metal turnings. Likewise, small chunks of stock material cut off during turning or cutting operations are often mixed with metal turnings. Previous machines had independently suspended gates which operated under impact and some also included a lever and lift bar for operating a multiplicity of the gates or fingers, as often referred to, whenever large quantities of tramp metal or other tramp material were present.

The present invention afford-s impact actuated fingers which under extreme conditions could independently operate and also be operated by an automatic control system. Preferably, the discharge or clearing gates or fingers, as they have become known, are preferably 8-10 inches wide to reduce leakage between adjacent fingers without impeding the efliciency of the grinding operation and the tramp material discharge operation. The mechanical lever for operating the lift bar to open a series of discharge fingers has been replaced by a pneumatic cylinder which has a plunger attached to a linkage adapted to raise the bar and hence open the fingers to discharge tramp material whenever the air cylinder plunger is retracted. An impact actuated switch is provided at a sensitive location on the crusher housing which detects impacts of shredder rings or hammers on tramp material. Whenever the shock or impact level is of a predetermined amount, the actuator switch completes a timing circuit which controls the operation of a solenoid valve to supply appropriate air pressure to retract the pneumatic cylinder plunger thus raising the bar opening the fingers to permit discharge of the tramp material present. The control timer provides a predeterminable time interval during which the fingers remain open.

It is, therefore, an object of the invention to provide an automatic clearing mechanism for a rotary type crusher to permit discharge of undesired tramp material.

It is another object of the invention to provide a tramp material discharge mechanism including a pneumatically actuated finger trip member controlled by an impact initiated electrical controller which operates a solenoid valve to control the operation of the pneumatic cylinder.

It is another object of the invention to provide an impact actuator switch on a crusher housing which has a crushing chamber and a tramp material discharge door, the actuator impact switch providing a control signal to a controller whenever tramp material is present in the crusher chamber whereby the controller activates an 3,332,629 Patented July 25, 1967 opening mechanism to open the crusher chamber tramp material discharge door.

It is another object of the invention to provide a pneumatically operated tramp material discharge door for a crusher in which shock level present in the crusher because of the presence of tramp material is detected by a control circuit to open the tramp material discharge door for a preselected period of time and continued preselected intervals until discharge of the tramp material causing the detected shock.

These and other objects and advantages of the invention will become apparent from the appended claims and the detailed description forthcoming in con-junction with the drawings wherein:

FIG. 1 depicts in cross section the rotary crusher apertaining to the invention,-

FIG. 2 is a rear view of the crusher in FIG. 1 illustrating the pneumatic finger trip mechanism,

FIG. 3 is a front view of the crusher illustrated in FIG. 1 which depicts an impact actuator switch in the normal location and alternate more sensitive and less sensitive possible locations, and

FIG. 4 schematically represents the control circuit connected to the pneumatic finger trip mechanism for opening the crusher chamber tramp material discharge fingers.

Referring now to FIGS. 1, 2 and 3 the preferred crusher will be described. Crusher 10 is supported from foundation 1. Lower housing 5 mounts pillow blocks 2. Rotor shaft 3 extends between pillow blocks 2 and has key 4. Rotor shaft 3 carries cross arms 6 keyed to key 4 in shaft 3. Cross arms 6 have ring shafts 7 which loosely support shredder rings 8. The ,crusher 10 has removable lower plate 9, grinding plate cover 11 and upper cover 12. Upper housing 13 (see FIG. 2) partly supports breaker and grinder plate 14 that rests in lower housing 5. Plate 14 is attached to plate cover 11 by bolts 14a. Liner 16 is bolted to upper housing 13 by bolts 16a, and liner 17 is attached to housing 13 by bolts 17a. Liner 18 is fixed to upper cover 12 by bolts. Liner 15 is attached to bottom housing 5 by bolts 15a. Grate bar panels 19 are supported by lower housing 5. Round top 20 with liner 21 bolted thereto by bolts 22 completes the fully lined crusher chamber 25 with the exception of apron fingers 23 pivoted about finger shafts 24. Finger shanks 26 mount counterweights 27. Automatic apron 28 Pivotally supported at hinge 29 mounts finger shaft 24. Apron 28 carries counterweight 31. Additionally, spring assemblies 33 at each side hold apron 28 in position. Support brace 34 attached by bolts 36 to apron 28 supports pneumatic cylinder 37 which has a plunger rod 38. Lift bar 39 is pivoted from finger shaft 24, and seats under shanks 26 in back of counterweights 27. Linkage 41 couples plunger rod 38 to lift bar 39. Thus whenever plunger rod 38 retracts into pneumatic cylinder 37, lift bar 39 rotates about finger shaft 24 rotating fingers 23 thereabout.

In accordance with the invention, impact actuator switch 45 is positioned at the front of crusher 10 (see FIG. 3). Alternatively actuator switch 45 may be placed at position 45a for minimum sensitivity or at position 45b for maximum sensitivity. Referring to FIG. 4, impact actuator switch 45 is connected by electrical leads 45' to control timer 47. Also, manual control 46 is connected by leads 46' to timer 47. Timer 47 is electrically connected to solenoid control valve 48 by electrical conduit 49. The timer 47 and valve 48 are conveniently mounted on remote control panel 50. The pneumatic valve 48 has the conventional air filter 51 and oiler 52 interposed between the air pressure source and pneumatic valve 48. Air control flexible lines 52 supply air pressure.

In operation, a motor (not shown) rotates shaft 3 and cross arms 6 in a counterclockwise direction to crush metal shaving, etc. between shredder rings 8 and breaker and grinder plate 14 discharging the desired material through grate bars 19. However, whenever a piece of uncrusha'ble material or tramp metal entered into the crusher chamber 15, the impact of shredder rings 8 thereon would produce sufiicient shock to activate impact actuator switch 45 completing a circuit to the control timer 47 which in turn would activate pneumatic valve 48 to supply air pressure in pneumatic cylinder 37 raising plunger rod 38 moving lift bar 39 opening apron fingers 23 for a controlled period of time to discharge the uncrushable material.

For a more detailed description of the crusher operation, the heretofore noted US. Patent No. 1,520,228 should provide complete information. The present invention improves fingers 23 and increases their efliciency by widening them to avoid loss of material between adja cent fingers.

The pneumatic cylinder alternatively may be designed to operate from a manual switch control 46 rather than merely by the impact actuator switch 45. The manual control switch can be used to override the automatic controls if occasion should arise and it is deemed necessary to keep the fingers open continuously for an extended period of time.

One such occasion for using the manual switch to over-- ride the automatic controls might be when a piece of tramp material is of such size, shape and density that it may require several or even a number of cyclings of the automatic control before it is ejected from the crushing chamber.

Another such occasion might be when it is known that extra large size tramp material or an extra large quantity of tramp material is about to or has entered the crusher and it is desired to get them out as soon as possible to avoid possible heavy damage and not wait for the time required to do this automatically through one or two opening cycles even though this time may be relatively short.

Another such occasion might arise if some malfunction should occur in the automatic controls. If this should happen the malfunctioning controls could be overridden by the manual switch until such time as they could be repaired.

Although the invention hasbeen described with par ticular reference to a crusher quite similar to the crusher of U.S. Patent No. 1,520,228 it may be used equally well with various other types of crushers and grinders such as the drop grate or screen cage type crushers which are now prevalent. An air actuated pneumatic cylinder suitable for use as cylinder 37 may be obtained under the trade name Nopack Model E double acting nonrotating type, manufactured by Galland-Henning Nopack Division, Milwaukee 46, Wisconsin. A suitable pneumatic air valve 48 is one of the solenoid air valves Model 3JLSA4 manufactured by Numatics Inc., Highland, Michigan. A suitable impact actuator switch and control circuit is the vibra switch sold under the trade designation Robertshaw 66- CWT-1l5 or 65-C-EP115, manufactured by the Robertshaw Fulton Controls Company.

Various changes and modifications in the details of the automatically actuated finger trip mechanism of the present invention will become readily apparent to those skilled in the art and such minor changes and modifications are deemed to be within the spirit and scope of the present invention which is limited as solely necessitated by the scope of the appended claims.

What is claimed is:

1. An automatic clearing mechanism for crushers comprising in combination with a crusher including a housing, a concaved bottom grating supported within said housing, and a rotary shredder mechanism within said housing cooperating with said grating to define a crusher chamber, an opening defined by said housing for discharging un'crusha-ble material from said crusher chamber, a series of pivoted fingers supported from said housing for independently and yieldably closing said opening, a bar operator for pivoting said series of pivoted fingers, pneumatic means for moving said bar operator, a time interval controller for activating said pneumatic means during a preset period, and an impact switch for activating said internal controller whenever the shock level within said crusher chamber indicates the presence of uncrushable material.

2. An automatic clearing mechanism for crushers comprising (A) in combination with a crusher including a housing, a concaved bottom grating supported within said housing, and a rotary shredder mechanism within said housing cooperating with said grating to define a crusher chamber,

(B) an opening defined by said housing for discharging uncrushable material from said crusher chamber,

(C) a series of pivoted fingers supported from said housing for independently and yielda-bly closing said opening,

(D) a bar operator for pivoting said series of fingers in concert, and

(E) means for moving said bar operator to pivot said fingers into open position.

3. The mechanism of claim 2 wherein the housing includes a fixed portion and movable apron, the said housing opening being defined by an edge of the apron and an edge of the fixed portion of the housing whereby the said opening is enlarged when the apron is moved to an open position, the pivoted fingers being mounted on the apron, and the bar operator moving means is a pneumatic cylinder and piston mounted on a support fixed to the apron and movable therewith, and including link means con meeting the bar operator to the piston for movement therewith.

4. The device of claim 2 wherein means for moving the bar operator is pneumatic and the pneumatic means is operated by a solenoid valve and including an impact sensor mounted on the crusher for operating said solenoid valve when uncrusha'ble material is present in the chamber.

5. The device of claim 4 including a manual override means for operating said solenoid valve independently of the impact sensor.

References Cited UNITED STATES PATENTS 1,520,228 12/ 1924 Elzemeyer et al. 24l,86 2,405,059 7/1946 Sahmel 241-33 FOREIGN PATENTS 222,934 8/ 1962 Austria.

ANDREW R. JUHASZ, Primary Examiner.

Claims

1. AN AUTOMATIC CLEARING MECHANISM FOR CRUSHERS COMPRISING IN COMBINATION WITH A CRUSHER INCLUDING A HOUSING, A CONCAVED BOTTOM GRATING SUPPORTED WITHIN SAID HOUSING, AND A ROTARY SHREDDER MECHANISM WITHIN SAID HOUSING COOPERATING WITH SAID GRATING TO DEFINE A CRUSHER CHAMBER, AN OPENING DEFINED BY SAID HOUSING FOR DISCHARGING UNCRUSHABLE MATERIAL FROM SAID CRUSHER CHAMBER, A SERIES OF PIVOTED FINGERS SUPPORTED FROM SAID HOUSING FOR INDEPENDENTLY AND YIELDABLY CLOSING SAID OPENING, A BAR OPERATOR FOR PIVOTING SAID SERIES OF PIVOTED FINGERS, PNEUMATIC MEANS FOR MOVING SAID BAR OPERATOR, A TIME INTERVAL CONTROLLER FOR ACTIVATING SAID PNEUMATIC MEANS DURING A PRESET PERIOD, AND AN IMPACT SWITCH FOR ACTIVATING SAID INTERNAL CONTROLLER WHENEVER THE SHOCK LEVEL WITHIN SAID CRUSHER CHAMBER INDICATES THE PRESENCE OF UNCRUSHABLE MATERIAL.