US1169907A - Rock-breaker. - Google Patents

Rock-breaker. Download PDF

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US1169907A
US1169907A US61854411A US1911618544A US1169907A US 1169907 A US1169907 A US 1169907A US 61854411 A US61854411 A US 61854411A US 1911618544 A US1911618544 A US 1911618544A US 1169907 A US1169907 A US 1169907A
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casing
blocks
rock
breaker
striking
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US61854411A
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Oliver O App
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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
    • B02C13/02Disintegrating by mills having rotary beater elements ; Hammer mills with horizontal rotor shaft
    • B02C13/06Disintegrating by mills having rotary beater elements ; Hammer mills with horizontal rotor shaft with beaters rigidly connected to the rotor
    • B02C13/09Disintegrating by mills having rotary beater elements ; Hammer mills with horizontal rotor shaft with beaters rigidly connected to the rotor and throwing the material against an anvil or impact plate
    • B02C13/095Disintegrating by mills having rotary beater elements ; Hammer mills with horizontal rotor shaft with beaters rigidly connected to the rotor and throwing the material against an anvil or impact plate with an adjustable anvil or impact plate

Definitions

  • This invention relates to disintegrating apparatus, and more particularly to a centrifugally acting mechanism especially adapted for disrupting and breaking up rock, and the like.
  • Figure 1 is a side elevation of one embodiment of my apparatus.
  • Fig. 2 is a section of the same taken on the line IIII of Fig. 3, and viewed in the direction of the arrows.
  • Fig. 3 is a vertical longitudinal section of said apparatus taken substantially on the axis of the revolving elements thereof.
  • Fig. 4 is a detail of the novel striking block and link connection employed in this, my preferred form of device.
  • Fig. 5 is a view of the parts shown in Fig. 4, said parts being viewed from above.
  • a base broadly designated 1 is provided, of any suitable construction, the particular desideratum being however, in any case, that extreme rigidity be attained.
  • said base consists of two I-beam sections 2, which are tied together preferably by means of pairs of channels 3,
  • a stationary casing broadly designated 7, is fixedly secured to the base or frame aforesaid by means of supporting angle ir'ons 8, and Z-bars 9.
  • This casing is preferably approximately cylindrical, the upper portion thereof consisting of a curved plate 10, which latter is secured at one end to one of the plates 4, above referred to, by means of an angle iron 11.
  • the other end of plate 10 may be upwardly or outwardly bent as at 12, to form one side of the mouth 13 of the casing; the other side of said mouth being formed by the plate 14; which is secured to a plate 4, opposite that above referred to, by means of an angle iron 11.
  • the lower part of the casing has substantially the form, in crosssection, of a semi-octagon, the respective sides of which are formed by plates 15 which are secured to the. backs of the innermost channels 3, and which are bent in the manner shown in Fig. 2, in effect thereby constituting a hopper, the mouth 16 of which opens downwardly, and which is suitably stiffened as by means of the bent plates 17, which extend along the respective sides thereof.
  • a semi-circular screen 18 of suitable mesh, or which is provided with perforations of proper size, is disposed within the casing and is supported therein, preferably, by bending the edges of said screen as at 19, said edges bearing against inwardly projecting portions of the plates 44 and being clamped thereagainst by means of bars 20, or the like.
  • the side walls of the casing may be formed of metal sheets 21 which are apertured as at 22 for the reception of breaker bars 23. These latter are preferably serrated as best shown in Fig. 3, so as to, in effect, provide them with a series of blunt teeth.
  • arcuate angle irons 24 which are in turn riveted or otherwise suitably secured to outside plates 25 which are preferably spaced from the said metal plates 21; plates 21 and 25 hence providing double walls at the respective ends of the casing.
  • Other stifi'eners which need not be referred to in detail, are provided, such for eXample, as an arcuate T- bar 26 which is disposed around the screen 18, substantially at the center thereof.
  • the casing are mounted a plurality of rotatable elements carried upon a shaft 27 which is journaled in the bearings 6, above referred to, this shaft being driven, if so desired, by two pulleys 28, one of which is preferably disposed upon either extremity of said shaft.
  • the central portion 29 of the shaft may be made polygonal, and this por tion carries a series of sets of clamping elements or straps 30, the bodies of which are bent to conform to the said polygonal portion of the shaft; pairs of these straps being secured together by means of bolts 31.
  • the clamping elements 30 are bent to provide openings therebetween adapted for the reception of links 34, these links being preferably substantially triangular and being in linked engagement with the eyes 35 which are provided in the striking blocks 36.
  • These blocks and the means of mounting the same constitute very essential features of my invention, the said blocks being relatively quite heavy and being very solidly constructed so as to be adapted to withstand heavy impacts.
  • the striking faces of said blocks are preferably serrated or toothed as at 37 in order to better adapt them to break up the material against which they impinge.
  • the clamping elements with their respective links and striking locks are spaced around the polygonal shaft so that successive faces of said shaft are engaged by adjoining clamps.
  • the shaft is octagonal, and there are preferably four sets of striking blocks upon each side of the machine, so that the blocks may be defined as being in staggered relationship.
  • a separator 38 is disposed across and substantially midway the length of the mouth 13 of the casing; this separator being preferably angular in cross-section, as indicated by the dotted outline thereof shown in Fig. 3.
  • the operation of the mechanism is as follows:
  • the shaft 27 is rotated at a high rate of speed, preferably many hundred revolutions per minute, by means of the pulleys 28, and by reason of the action of centrifugal force, the striking blocks normally extending quite rigidly outward, radially of the shaft, substantially as shown in Fig. 4; the links 34: being under considerable tension.
  • these blocks will rotate in the staggered relationship above referred to, and in such manner as to successively impinge against material in the casing, which will be battered, so to speak, by the striking blocks, and will be thereby hurled against the breaker bars 22, from whence it rebounds or drops back into the paths of the said blocks.
  • the material to be disintegrated is introduced through the casing mouth 13 and the separator 38 serves to divide this material into two streams which are respectively directed toward the ends of the casing.
  • the tendency for the said blocks to maintain their fixed relationship isvery considerable, and they hence impinge against the incoming streams of material with tremendous force, breaking up the same and smashing the rock, or other substance, of which the said streams may be composed, into fragments, these fragments being hurled back and forth between the blocks and the breaker bars, and receiving thereby an immense number of powerful blows in very rapid succession.
  • the action of the staggered striking blocks is such that although "the material to be broken up is delivered toward the sides of the casing, initially, it speedily finds its way toward the center.
  • the advantage of dividing the material as it is fed into the easing, into two streams, resides in the fact that by thus dividing the incoming stream, the larger fragments thereof maybe more readily handled and broken up by the apparatus than if the stream were not so divided. It is obvious that if, let us say, six large masses of stone were to enter the center of the machine together, the striking blocks .at such point would for a time be more clogged or choked in their action than if two, three or four only of these fragments or masses were to enter together.
  • the separator 38 therefore tends to distribute the incoming mass in such manner as to enable the blocks and bars to perform their function efficiently.
  • the casing as a whole is extremely solid, substantial and rigid, and its supporting frame or base is adapted to withstand the tremendous vibration to which the entire mechanism is subjected when in action.
  • the bearings 6 are preferably roller bearings, those shown in the accompanying drawings being of a well known type.
  • This type of bearing is preferable to the babbitted type not alone on account of reduced friction but further on account of the tremendous vibration above referred to, to which the mechanism is subjected when in operation.
  • This vibration and jarring speedily deteriorates a babbitted bearing but does not affect bearings of the roller type; so that there is a peculiar coaction between such bearings and the other parts of the mechanism.
  • the breaker bars 23 may be withdrawn endwise through the sides of the casing and replaced by fresh bars, while any one of the striking blocks with its link may be readily removed by slackening the nuts 32 of the bolts 31.
  • each one of the breaking devices may be regarded as separate and distinct from the others, although co-acting therewith when in operation.
  • a rock breaker a casing, a revolubly mounted shaft therein adapted to be driven at high speed, a member rigidly attached to said shaft, a striking block and a universal joint connection between said striking block and said member, said connection having means for resisting lateral movement when said shaft is rotating, the inner wall of said casing being arranged outside of but adj acent to the path of said striking block and a breaker bar arranged on the inner wall of said casing.
  • a striking block for a rock breaker having an enlarged outer end, one of the faces of said end being provided with teeth and an integral flattened inner end perforated to constitute a projecting eye.
  • a polygonal rotatable shaft having an eye in the inner end thereof, a triangular-shaped link passing through said eye, said block being mounted in one of the apices of the triangular-shaped link, a clamping strap carried by said shaft, said link being connected to said strap to pivot on the side of the triangular link opposite the apex to which the striking block is connected.

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

Description

O. O. APP.
ROCK BREAKER.
APPLICATION FILED APR. 3. 191].
1,169,907. Patented Feb. 1, 1916.
3 SHEETS-SHEET l.
1 O. O. APP.
ROCK BREAKER.
APPLICATION FILED APR. 3, 19H.
1,169,907. Patented Feb.1, 1916.
3 SHEETS-SHEET 2.
:2; 72 1 v,/ i 3 e JIM m g NW6; 1/ 61 e: V w HHHH NW 2 WW" W 77 36 \Q ijij I O. O. APP.
ROCK BREAKER.
APPLICATION FILED APR-3.19M.
1,169,907. Patented Feb.1, 1916.
3 SHEETS-*SHEET 3- 1 E FFICE.
OLIVER O. APP, OF NEW YORK, N. Y.
ROCK-BREAKER.
Application filed April 3, 1911.
To all whom it may concern Be it known that I, OLIVER O. APP, a citizen of the United States, residing at the city of New York, in the borough of Manhattan and Stateof New York, have invented certain new and useful Improvements in Rock- Breakers, of which the following is a full, clear, and exact description.
This invention relates to disintegrating apparatus, and more particularly to a centrifugally acting mechanism especially adapted for disrupting and breaking up rock, and the like.
I am aware that there have been some attempts heretofore to produce rock breakers in which revolving parts were provided, some of which were adapted to impinge against rock injected into the apparatus, but to the best of my knowledge, these appliances have not been wholly successful, by reason, I believe, of faulty and weak construction. I describe herein a practical mechanism of the type in question which has been found to be very efficient and economical in operation, 1nd I am aware that various modifications may be made in the several parts thereof, which properly come within the purview of my invention, and hence I desire to be limited only by the scope of the appended claims.
Various novel features of construction will be hereinafter set forth and more particularly pointed out in the said claims.
In the drawings which form a part hereof and in which like reference characters designate like parts throughout the several views: Figure 1 is a side elevation of one embodiment of my apparatus. Fig. 2 is a section of the same taken on the line IIII of Fig. 3, and viewed in the direction of the arrows. Fig. 3 is a vertical longitudinal section of said apparatus taken substantially on the axis of the revolving elements thereof. Fig. 4 is a detail of the novel striking block and link connection employed in this, my preferred form of device. Fig. 5 is a view of the parts shown in Fig. 4, said parts being viewed from above.
Referring to Figs. 1, 2 and 3, a base broadly designated 1, is provided, of any suitable construction, the particular desideratum being however, in any case, that extreme rigidity be attained. In my preferred form of apparatus said base consists of two I-beam sections 2, which are tied together preferably by means of pairs of channels 3,
Specification of Letters Patent.
Patented Feb. 1, 1916. Serial No. 618,544.
which are mounted upon the respective ends of the said beams, and fastened thereto in any suitable manner. These channels are covered by plates 4-4 and have positioned therebetween upon the respective sides of the apparatus, and on top of the I-beams, sets of smaller or narrower channels 55, which latter provide supports for suitable bearings 6, which latter serve to carry the revoluble parts of the apparatus. A stationary casing, broadly designated 7, is fixedly secured to the base or frame aforesaid by means of supporting angle ir'ons 8, and Z-bars 9. This casing is preferably approximately cylindrical, the upper portion thereof consisting of a curved plate 10, which latter is secured at one end to one of the plates 4, above referred to, by means of an angle iron 11. The other end of plate 10 may be upwardly or outwardly bent as at 12, to form one side of the mouth 13 of the casing; the other side of said mouth being formed by the plate 14; which is secured to a plate 4, opposite that above referred to, by means of an angle iron 11. The lower part of the casing has substantially the form, in crosssection, of a semi-octagon, the respective sides of which are formed by plates 15 which are secured to the. backs of the innermost channels 3, and which are bent in the manner shown in Fig. 2, in effect thereby constituting a hopper, the mouth 16 of which opens downwardly, and which is suitably stiffened as by means of the bent plates 17, which extend along the respective sides thereof. A semi-circular screen 18 of suitable mesh, or which is provided with perforations of proper size, is disposed within the casing and is supported therein, preferably, by bending the edges of said screen as at 19, said edges bearing against inwardly projecting portions of the plates 44 and being clamped thereagainst by means of bars 20, or the like. The side walls of the casing may be formed of metal sheets 21 which are apertured as at 22 for the reception of breaker bars 23. These latter are preferably serrated as best shown in Fig. 3, so as to, in effect, provide them with a series of blunt teeth. They are firmly held in place against the plate 10 by means of arcuate angle irons 24, which are in turn riveted or otherwise suitably secured to outside plates 25 which are preferably spaced from the said metal plates 21; plates 21 and 25 hence providing double walls at the respective ends of the casing. Other stifi'eners which need not be referred to in detail, are provided, such for eXample, as an arcuate T- bar 26 which is disposed around the screen 18, substantially at the center thereof. WVithin the casing are mounted a plurality of rotatable elements carried upon a shaft 27 which is journaled in the bearings 6, above referred to, this shaft being driven, if so desired, by two pulleys 28, one of which is preferably disposed upon either extremity of said shaft. The central portion 29 of the shaft may be made polygonal, and this por tion carries a series of sets of clamping elements or straps 30, the bodies of which are bent to conform to the said polygonal portion of the shaft; pairs of these straps being secured together by means of bolts 31. In practice I find it advantageous to cone the heads of the bolts 31 as shown in Fig. 4, and the nuts 32 of the said bolts are firmly locked thereupon by lock washers 83, or the like. The clamping elements 30 are bent to provide openings therebetween adapted for the reception of links 34, these links being preferably substantially triangular and being in linked engagement with the eyes 35 which are provided in the striking blocks 36. These blocks and the means of mounting the same constitute very essential features of my invention, the said blocks being relatively quite heavy and being very solidly constructed so as to be adapted to withstand heavy impacts. The striking faces of said blocks are preferably serrated or toothed as at 37 in order to better adapt them to break up the material against which they impinge. The clamping elements with their respective links and striking locks are spaced around the polygonal shaft so that successive faces of said shaft are engaged by adjoining clamps. In the machine illustrated, the shaft is octagonal, and there are preferably four sets of striking blocks upon each side of the machine, so that the blocks may be defined as being in staggered relationship. A separator 38, the function of which will b hereinafter referred to, is disposed across and substantially midway the length of the mouth 13 of the casing; this separator being preferably angular in cross-section, as indicated by the dotted outline thereof shown in Fig. 3.
, The operation of the mechanism is as follows: The shaft 27 is rotated at a high rate of speed, preferably many hundred revolutions per minute, by means of the pulleys 28, and by reason of the action of centrifugal force, the striking blocks normally extending quite rigidly outward, radially of the shaft, substantially as shown in Fig. 4; the links 34: being under considerable tension. Owing to the staggered arrangement of the clamping straps 30, these blocks will rotate in the staggered relationship above referred to, and in such manner as to successively impinge against material in the casing, which will be battered, so to speak, by the striking blocks, and will be thereby hurled against the breaker bars 22, from whence it rebounds or drops back into the paths of the said blocks. The material to be disintegrated is introduced through the casing mouth 13 and the separator 38 serves to divide this material into two streams which are respectively directed toward the ends of the casing. Owing to the tremendous rate of speed at which the striking blocks are being rotated, the tendency for the said blocks to maintain their fixed relationship isvery considerable, and they hence impinge against the incoming streams of material with tremendous force, breaking up the same and smashing the rock, or other substance, of which the said streams may be composed, into fragments, these fragments being hurled back and forth between the blocks and the breaker bars, and receiving thereby an immense number of powerful blows in very rapid succession. As a result of this action, the rocks are speedily reduced to small pieces which are whirled around until they have become sufliciently reduced in size to pass through the apertures in the screen 18, through which they are almost immediately ejected when they have become so reduced, passing thence into the hopper formed by plates 15, and out through the mouth 16 thereof into the space below the casing, from which they may be collected or removed in any suitable manner.
It will be observed that the construction herein described is one in which all of the parts have a maximum of strength, while the requisite degree of flexibility is provided whereby upon the striking blocks impinging against a rock of such character as not to be rapidly broken, the said blocks may yield, against of course the action of centrifugal. force. It is for this reason that the said blocks are pivotally connected, or linked to the links 34 in the manner shown, while correspondingly the links in turn may pivot about their connections with the clamping straps so that any block and the link thereof may be forced around through a considerable angle and thereby permit the same to clear the obstructing rock. However, even when the hammers are so forced to yield, their successive impacts will serve in a very short time to reduce the relatively refractory substance to fragments. The action of the staggered striking blocks is such that although "the material to be broken up is delivered toward the sides of the casing, initially, it speedily finds its way toward the center. The advantage of dividing the material as it is fed into the easing, into two streams, resides in the fact that by thus dividing the incoming stream, the larger fragments thereof maybe more readily handled and broken up by the apparatus than if the stream were not so divided. It is obvious that if, let us say, six large masses of stone were to enter the center of the machine together, the striking blocks .at such point would for a time be more clogged or choked in their action than if two, three or four only of these fragments or masses were to enter together. The separator 38 therefore tends to distribute the incoming mass in such manner as to enable the blocks and bars to perform their function efficiently. -The casing as a whole is extremely solid, substantial and rigid, and its supporting frame or base is adapted to withstand the tremendous vibration to which the entire mechanism is subjected when in action.
In order to secure a maximum of efficiency in the machine, the bearings 6 are preferably roller bearings, those shown in the accompanying drawings being of a well known type. This type of bearing is preferable to the babbitted type not alone on account of reduced friction but further on account of the tremendous vibration above referred to, to which the mechanism is subjected when in operation. This vibration and jarring speedily deteriorates a babbitted bearing but does not affect bearings of the roller type; so that there is a peculiar coaction between such bearings and the other parts of the mechanism. Finally, I wish to call attention to the ease with which any part of the mechanism which may become broken or worn while in use may be replaced, the parts, all being relatively inexpensive. The breaker bars 23 may be withdrawn endwise through the sides of the casing and replaced by fresh bars, while any one of the striking blocks with its link may be readily removed by slackening the nuts 32 of the bolts 31. Thus each one of the breaking devices may be regarded as separate and distinct from the others, although co-acting therewith when in operation.
Having thus described my invention, I claim:
1. A rock breaker, a casing, a revolubly mounted shaft therein adapted to be driven at high speed, a member rigidly attached to said shaft, a striking block and a universal joint connection between said striking block and said member, said connection having means for resisting lateral movement when said shaft is rotating, the inner wall of said casing being arranged outside of but adj acent to the path of said striking block and a breaker bar arranged on the inner wall of said casing. v
2. A striking block for a rock breaker having an enlarged outer end, one of the faces of said end being provided with teeth and an integral flattened inner end perforated to constitute a projecting eye.
3. In a rock breaker, a polygonal rotatable shaft, a striking block having an eye in the inner end thereof, a triangular-shaped link passing through said eye, said block being mounted in one of the apices of the triangular-shaped link, a clamping strap carried by said shaft, said link being connected to said strap to pivot on the side of the triangular link opposite the apex to which the striking block is connected.
In witness whereof, I subscribe my signature, in the presence of two witnesses.
OLIVER O. APP.
IVitnesses:
WALDO M. CHAPIN, JAMES B. ANTONIO.
US61854411A 1911-04-03 1911-04-03 Rock-breaker. Expired - Lifetime US1169907A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2563958A (en) * 1946-11-09 1951-08-14 Iowa Mfg Company Hammer mill with decentric rotors
US2827242A (en) * 1953-09-09 1958-03-18 Metals Disintegrating Co Hammer layouts for impact pulverizers
WO1998055234A1 (en) * 1997-06-05 1998-12-10 R & J Hansen, L.L.C. Apparatus for comminuting glass

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2563958A (en) * 1946-11-09 1951-08-14 Iowa Mfg Company Hammer mill with decentric rotors
US2827242A (en) * 1953-09-09 1958-03-18 Metals Disintegrating Co Hammer layouts for impact pulverizers
WO1998055234A1 (en) * 1997-06-05 1998-12-10 R & J Hansen, L.L.C. Apparatus for comminuting glass
US5887804A (en) * 1997-06-05 1999-03-30 R & J Hansen, L.L.C. Apparatus for comminuting glass
US6032883A (en) * 1997-06-05 2000-03-07 R&J Hansen, L.L.C. Apparatus and method for comminuting glass fibers

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