US3088684A - External main frame pin - Google Patents
External main frame pin Download PDFInfo
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- US3088684A US3088684A US152223A US15222361A US3088684A US 3088684 A US3088684 A US 3088684A US 152223 A US152223 A US 152223A US 15222361 A US15222361 A US 15222361A US 3088684 A US3088684 A US 3088684A
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- pin
- extensions
- bowl
- bore
- main frame
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- Expired - Lifetime
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- 239000000463 material Substances 0.000 description 7
- 230000000712 assembly Effects 0.000 description 5
- 238000000429 assembly Methods 0.000 description 5
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 2
- 230000037431 insertion Effects 0.000 description 2
- 238000003780 insertion Methods 0.000 description 2
- 229910052742 iron Inorganic materials 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
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
- B02C2/00—Crushing or disintegrating by gyratory or cone crushers
- B02C2/02—Crushing or disintegrating by gyratory or cone crushers eccentrically moved
- B02C2/04—Crushing or disintegrating by gyratory or cone crushers eccentrically moved with vertical axis
- B02C2/045—Crushing or disintegrating by gyratory or cone crushers eccentrically moved with vertical axis and with bowl adjusting or controlling mechanisms
Definitions
- a primary object of this invention is to provide a torsion pin assembly to restrict rotational movement of a crushing surface unit in a gyratory crusher.
- a further object is to provide a torsion pin assembly on a gyratory crusher which can be easily observed for wear.
- a still further object is to provide a torsion pin assembly on a gyratory crusher which can be easily replaced when worn.
- Yet another object is to provide an external torsion pin assembly which restricts rotational or incremental movement of a crushing unit in the gyratory crusher.
- Yet another object is to provide a torsion pin assembly on a gyratory crusher wherein the pin is free from radial confinement so that it can be easily replaced.
- a still further object is to provide a torsion pin assembly unit which can be adapted to existing gyratory crushers.
- a particular object is to provide a torsion pin assembly externally fixed to the body frame and to the adjustment ring of a gyratory crusher.
- FIGURE 1 is a partial view in cross section of a gyratory crusher taken on line 11 of FIGURE 2, and
- FIGURE 2 is a top plan view of a gyratory crusher in partial section with parts omitted for clarity.
- the drawing indicates some of the principal features of a well-known gyratory crusher.
- a generally cylindrical main body frame a gyratory head within the main frame, a bowl with a crushing member 26 spaced from a coacting crushing surface of the mantle 27 on the head 20 to define a crushing cavity therebetween.
- the head 20 is generally conical in shape and gyrates within the main frame 10 by an eccentrically driven shaft in an eccentric sleeve fixed to a rotational base (not shown).
- the bowl 25 can be adjusted up and down to increase or decrease the crushing cavity formed by the crushing surfaces 26 and 27. This adjustment may be attained by raising or lowering the bowl 25 which is threaded at 31 to the adjustment ring and which is seated on the flange 32 of the main frame 10.
- the bowl 25 and the adjustment ring threaded thereto are designed to jointly make a releasing movement or to move in response to uncrushable material, such as tramp iron, entering the crushing cavity. Such movement is necessary so the gyratory crusher will not be damaged by the force of the gyr-ating conical head when it meets resistance from uncrushable material.
- the bowl 25 and the adjustment ring threaded thereto releasably move in a generally up and down path until the uncrushable material passes out or is removed from the crushing cavity.
- the releasing movement of the bowl and adjustment ring when uncrushable material enters the crushing cavity is both permitted and restricted by the action of a spring cluster or a group of springs 60 which is best seen in FIGURE 2.
- the individual springs 40 with the cluster 60 are contained at the top by both the transverse member 32 of the body
- Such a crusher has place by a snap ring 62. is loosely fitted in the upper "ice frame and at the bottom by a lowerabutmen-t or segment 41.
- the lower abutment 41 is independent of the body frame 10 and may be held in place by one or more elongated bolts as at 42 and secured by a nut as at 43. Some of the springs 40 may be engaged at the top by a boss or lug 44 depending from the main frame and engaged at the bottom by a boss or lug 4-5 projecting from the abutment 41.
- the lower abutment 41 may be a circumferential or arcu-ate plate designed to fit the side of the body frame 10 and may be of sufiicient size to hold a cluster of such springs. A number of such plates holding a cluster of springs are circumferentially spaced around the body frame and provide tension to allow limited up and down movement of the bowl and associated adjustment ring.
- torsion pin assemblies generally shown at 50 are employed.
- the pins are preferably of generally cylindrical shape and have an enlarged upper portion or an enlarged upper diameter 51 separated from a lower portion or reduced lower diameter 52 by a shoulder or offset 53.
- the torsion pin sits in a central passageway formed by an upper bore 57. in an upper extension 55 of the adjustment ring and a lower bore 58 in a lower extension 56 of the main body frame.
- the torsion pin assembly is externally placed so that any wear thereto can be instantly observed and that worn pins can be easily replaced. Such external placement is provided because the pin assembly is positioned in the upper extension 55 from the adjustment ring and the matching lower extension 56 from the main body frame.
- the pin assembly may be placed at various distances and positions along the periphery of the gyratory crusher.
- the illustration in FIGURE 2 shows the pin assemblies spaced at generally equal distances along the periphery and located between paired spring clusters.
- the upper bore or passageway 57 in the upper extension 55 is preferably of an enlarged diameter, and in this enlarged upper bore may be placed a bushing 61 held in The upper portion of the pin bore, even when a bushing is present so that releasing movement of the adjustment ring can take place when an uncrushable material passes through the crushing cavity.
- the lower portion of the torsion pin is preferably made to snugly but releasably fit the lower bore in the lower projection or car extending from the body frame.
- the pin may be secured in the lower extension by a set-screw 54 engaging a groove 59 in the lower portion of the pin. In such an assembly, the torsion pin and the bushing are readily visible and any wear thereto can be instantly noted,
- a bracket assembly having an upper member and a lower member may be welded or secured by other means respectively to the adjustment ring and to the transverse member of the body frame.
- Such upper and lower members may have corresponding upper and lower bores to define a common passageway to receive a torsion pin.
- a dummy pin may be placed in such a bracket assembly for purposes of alignment prior to insertion of the actual torsion pin.
- the torsion pin be easily withdrawn from the a common pasageway in the upper and lower extensions.
- the pin therefore, should not be confined or secured by any means other than externally releasable means, if any at all. The absence of such confinement renders removal and insertion of the pin a simple operation.
- the torsion pin maybe seated in the common passageway without any confinement, but some confinement means may be optionally used to limit axial movement of the pin.
- the shoulder 53 restricts such downward axial movement but it may be desired to have additional means such as the setscrew 54 engageable with the groove 59 in the lower portion of the torsion pin.
- the gyratory movement of the head 20 within the body frame of a gyratory crusher imparts a rotational force to the bowl and this tends to translate such force into rotational movement of the bowl and adjustment ring.
- the torsion pin assemblies are spaced around the periphery of the body frame and the adjustment ring 30.
- such torsion pins are placed in a common passageway formed by the upper and lower bores in corresponding extensions from the adjustment ring or equivalent extension of the bowl, on one hand, and a transverse member or similar extension of the body frame, on the other hand.
- the assembly permits an up and down release movement of the adjustment ring and bowl because the upper bore in the upper projection is slightly larger than the diameter of the upper portion of the torsion pin.
- the torsion pin may be seated in the common passageway by having its shoulder abutting against the lower extension.
- both the pin and the bushing are readily visible and any wear may be instantly observed.
- the bushing is quickly and simply removed and replaced. It is not necessary to dismantle or remove any of the large parts of the gyratory crusher.
- the adjustment ring is left intact as well as the bowl threaded thereto. The replacement can be performed quickly and without requiring specialized tools.
- torsion pin assemblies In gyratory crushers of the type described, it has been found satisfactory to space six torsion pin assemblies at substantially equal distances along the periphery of the body frame and the adjustment ring. It should be understood, however, that the number of such torsion pin assemblies may be any number of two or more, and such actual number will be determined by the choice of the operator, the size of the gyratory crusher and the rotational force imparted to the bowl by the gyratory movements of the head.
- the pin assembly has been described as externally positioned in extensions which have been shown as continuous along the periphery of the crusher. It will be apparent that such a torsion pin can be placed in noncontinuous extensions or separated projections. Such a pin assembly will still be externally placed and will still provide the other advantages such as visual observance of wear and easy removal and replacement.
- a gyratory crusher having a main frame, a head within the frame mounted for gyratory movement, a bowl in the main frame spaced from the head to define a crushing cavity, an adjustment ring with a continuous extension from the bowl to raise and lower the bowl, said ring seated :on a continuous extension from the main frame, a combination to allow releasing movement of the adjustment ring, yet prevent rotational movement of the adjustment ring, which includes, a plurality of spring cluster units, each unit having a group of individual springs, said cluster units circumferentially distributed below the extensions and releasably holding the ring down on the frame, said cluster units separated by a space-on the extensions substantially greater than the space between the individual springs in the cluster unit, a torsion pin in a space of the extensions between adjacent cluster units, said torsion pin seated in a bore formed in the extensions, said extensions generally coextensive with the spring clusters, :said pin adapted to be dropped into the bore and removed from the bore without
- the crusherof claim 1 further characterized in that the frame extension and the ring extension have aligned passageways to form a bore for seating the torsion pin, and the ring passageway is larger to allow releasing movement of the ring about the torsion pin.
- the crusher of claim 1 further characterized in that aplurality of spaces between adjacent spring clusters have a torsion pin seated in a bore formed in the extensions.
- a gyratory crusher having a main frame, a head within the frame mounted for gyratory movement, a bowl in the main frame spaced from thehead to define a crushing cavity, an adjustment ring with a continuous extension from the bowl to raise and lower the bowl, said ring seated on a continuous extension from the main frame, a combination to allow releasing movement of the adjustment ring, yet prevent rotational movement of the adjustment ring which includes a plurality of paired spring cluster units, each unit in a pair having a group of individual springs, said paired cluster units circumferentially distributed below the extension and releasably holding the ring down on the frame, said paired cluster units separated by a space on the extensions substantially greater than the space between the units in a pair and substantially greater than the space between the individual springs of a cluster unit, a torsion pin in a space of the extensions between adjacent paired cluster units, said torsion pin seated in a bore formed in the extension, said extensions generally coextensive with the spring cluster
Description
y 7, 1963 A. P. SZAJ 3,088,684
EXTERNAL MAIN FRAME PIN Filed Nov. 14, 1961 2 Sheets-Sheet 1 INVENTOR.
May 7, 1963 A. P. SZAJ EXTERNAL MAIN FRAME PIN 2 Sheets-Sheet 2 Filed NOV. 14, 1961 INVENTOR. %w//? in PW/#4) KW/z) Uite States Patent 3,088,684 EXTERNAL MAIN FRAME PIN Arnold I. Szaj, Hales Corners, Wis., assignor to Nordberg Manufacturing Company, Milwaukee, Wis., a corporation of Wisconsin Filed Nov. 14, 1961, Ser. No. 152,223 4 Claims. (Cl. 241-290) This invention relates generally to gyratory crushers, in particular, to a pin assembly for restricting rotational movements of a crushing part.
A primary object of this invention is to provide a torsion pin assembly to restrict rotational movement of a crushing surface unit in a gyratory crusher.
A further object is to provide a torsion pin assembly on a gyratory crusher which can be easily observed for wear.
A still further object is to provide a torsion pin assembly on a gyratory crusher which can be easily replaced when worn. 1
Yet another object is to provide an external torsion pin assembly which restricts rotational or incremental movement of a crushing unit in the gyratory crusher.
Yet another object is to provide a torsion pin assembly on a gyratory crusher wherein the pin is free from radial confinement so that it can be easily replaced.
A still further object is to provide a torsion pin assembly unit which can be adapted to existing gyratory crushers.
A particular object is to provide a torsion pin assembly externally fixed to the body frame and to the adjustment ring of a gyratory crusher.
The foregoing objects and other objects which will become apparent from time to time are now realized by the present invention which is illustrated, in part diagrammatically, in the enclosed drawing wherein:
FIGURE 1 is a partial view in cross section of a gyratory crusher taken on line 11 of FIGURE 2, and
FIGURE 2 is a top plan view of a gyratory crusher in partial section with parts omitted for clarity.
The drawing indicates some of the principal features of a well-known gyratory crusher. a generally cylindrical main body frame a gyratory head within the main frame, a bowl with a crushing member 26 spaced from a coacting crushing surface of the mantle 27 on the head 20 to define a crushing cavity therebetween. The head 20 is generally conical in shape and gyrates within the main frame 10 by an eccentrically driven shaft in an eccentric sleeve fixed to a rotational base (not shown).
The bowl 25 can be adjusted up and down to increase or decrease the crushing cavity formed by the crushing surfaces 26 and 27. This adjustment may be attained by raising or lowering the bowl 25 which is threaded at 31 to the adjustment ring and which is seated on the flange 32 of the main frame 10. The bowl 25 and the adjustment ring threaded thereto are designed to jointly make a releasing movement or to move in response to uncrushable material, such as tramp iron, entering the crushing cavity. Such movement is necessary so the gyratory crusher will not be damaged by the force of the gyr-ating conical head when it meets resistance from uncrushable material. When such uncrushable material enters the crushing cavity, the bowl 25 and the adjustment ring threaded thereto releasably move in a generally up and down path until the uncrushable material passes out or is removed from the crushing cavity. The releasing movement of the bowl and adjustment ring when uncrushable material enters the crushing cavity is both permitted and restricted by the action of a spring cluster or a group of springs 60 which is best seen in FIGURE 2. The individual springs 40 with the cluster 60 are contained at the top by both the transverse member 32 of the body Such a crusher has place by a snap ring 62. is loosely fitted in the upper "ice frame and at the bottom by a lowerabutmen-t or segment 41. The lower abutment 41 is independent of the body frame 10 and may be held in place by one or more elongated bolts as at 42 and secured by a nut as at 43. Some of the springs 40 may be engaged at the top by a boss or lug 44 depending from the main frame and engaged at the bottom by a boss or lug 4-5 projecting from the abutment 41. The lower abutment 41 may be a circumferential or arcu-ate plate designed to fit the side of the body frame 10 and may be of sufiicient size to hold a cluster of such springs. A number of such plates holding a cluster of springs are circumferentially spaced around the body frame and provide tension to allow limited up and down movement of the bowl and associated adjustment ring.
While it is desired to have a releasable movement of the bowl and associated adjustment ring from the main body frame when uncrushable material passes through the crushing cavity, it is not desirable to have rotational or incremental movement of the bowl and associated adjustment ring. Such rotational movement would twist or otherwise damage the spring bolts 42. To restrict such rotational movement, a plurality of torsion pin assemblies generally shown at 50 are employed. The pins are preferably of generally cylindrical shape and have an enlarged upper portion or an enlarged upper diameter 51 separated from a lower portion or reduced lower diameter 52 by a shoulder or offset 53. The torsion pin sits in a central passageway formed by an upper bore 57. in an upper extension 55 of the adjustment ring and a lower bore 58 in a lower extension 56 of the main body frame.
It is provided that the torsion pin assembly is externally placed so that any wear thereto can be instantly observed and that worn pins can be easily replaced. Such external placement is provided because the pin assembly is positioned in the upper extension 55 from the adjustment ring and the matching lower extension 56 from the main body frame.
The pin assembly may be placed at various distances and positions along the periphery of the gyratory crusher. The illustration in FIGURE 2 shows the pin assemblies spaced at generally equal distances along the periphery and located between paired spring clusters.
The upper bore or passageway 57 in the upper extension 55 is preferably of an enlarged diameter, and in this enlarged upper bore may be placed a bushing 61 held in The upper portion of the pin bore, even when a bushing is present so that releasing movement of the adjustment ring can take place when an uncrushable material passes through the crushing cavity. The lower portion of the torsion pin is preferably made to snugly but releasably fit the lower bore in the lower projection or car extending from the body frame. The shoulder 53 of the pingabuts the upper face of the lower extension 56 when the pin is fully seated. The pin may be secured in the lower extension by a set-screw 54 engaging a groove 59 in the lower portion of the pin. In such an assembly, the torsion pin and the bushing are readily visible and any wear thereto can be instantly noted,
It should be understood that such a torsion Pin assembly can be fitted on pre-existing gyratory crushers not equipped therewith. A bracket assembly having an upper member and a lower member may be welded or secured by other means respectively to the adjustment ring and to the transverse member of the body frame. Such upper and lower members may have corresponding upper and lower bores to define a common passageway to receive a torsion pin. A dummy pin may be placed in such a bracket assembly for purposes of alignment prior to insertion of the actual torsion pin.
To attain full advantage of this invention, it is intended that the torsion pin be easily withdrawn from the a common pasageway in the upper and lower extensions. The pin, therefore, should not be confined or secured by any means other than externally releasable means, if any at all. The absence of such confinement renders removal and insertion of the pin a simple operation. The torsion pin maybe seated in the common passageway without any confinement, but some confinement means may be optionally used to limit axial movement of the pin. The shoulder 53, of course, restricts such downward axial movement but it may be desired to have additional means such as the setscrew 54 engageable with the groove 59 in the lower portion of the torsion pin.
The use and operation of my invention are as follows:
The gyratory movement of the head 20 within the body frame of a gyratory crusher imparts a rotational force to the bowl and this tends to translate such force into rotational movement of the bowl and adjustment ring. To prevent this rotational tendency from damaging the coil springs and elongated bolts in the clusters around the outer circumference of the crusher, the torsion pin assemblies are spaced around the periphery of the body frame and the adjustment ring 30. In particular, such torsion pins are placed in a common passageway formed by the upper and lower bores in corresponding extensions from the adjustment ring or equivalent extension of the bowl, on one hand, and a transverse member or similar extension of the body frame, on the other hand. The assembly permits an up and down release movement of the adjustment ring and bowl because the upper bore in the upper projection is slightly larger than the diameter of the upper portion of the torsion pin. The torsion pin may be seated in the common passageway by having its shoulder abutting against the lower extension.
At all times, both the pin and the bushing are readily visible and any wear may be instantly observed. When such wear to the bushing. and the pin reaches a level that requires replacement, the bushing is quickly and simply removed and replaced. It is not necessary to dismantle or remove any of the large parts of the gyratory crusher. The adjustment ring is left intact as well as the bowl threaded thereto. The replacement can be performed quickly and without requiring specialized tools.
In gyratory crushers of the type described, it has been found satisfactory to space six torsion pin assemblies at substantially equal distances along the periphery of the body frame and the adjustment ring. It should be understood, however, that the number of such torsion pin assemblies may be any number of two or more, and such actual number will be determined by the choice of the operator, the size of the gyratory crusher and the rotational force imparted to the bowl by the gyratory movements of the head.
The pin assembly has been described as externally positioned in extensions which have been shown as continuous along the periphery of the crusher. It will be apparent that such a torsion pin can be placed in noncontinuous extensions or separated projections. Such a pin assembly will still be externally placed and will still provide the other advantages such as visual observance of wear and easy removal and replacement.
The foregoing invention can now be practiced by those skilled in the art. Such skilled persons will know that the invention is not necessarily restricted to the particular embodiments presented herein. The scope of the invention is to be defined by the terms of the following claims as given meaning by the preceding description.
I claim:
1. In a gyratory crusher having a main frame, a head within the frame mounted for gyratory movement, a bowl in the main frame spaced from the head to define a crushing cavity, an adjustment ring with a continuous extension from the bowl to raise and lower the bowl, said ring seated :on a continuous extension from the main frame, a combination to allow releasing movement of the adjustment ring, yet prevent rotational movement of the adjustment ring, which includes, a plurality of spring cluster units, each unit having a group of individual springs, said cluster units circumferentially distributed below the extensions and releasably holding the ring down on the frame, said cluster units separated by a space-on the extensions substantially greater than the space between the individual springs in the cluster unit, a torsion pin in a space of the extensions between adjacent cluster units, said torsion pin seated in a bore formed in the extensions, said extensions generally coextensive with the spring clusters, :said pin adapted to be dropped into the bore and removed from the bore without being secured to the extensions, and said pin being observable for wear at all timesin the bore.
2. The crusherof claim 1 further characterized in that the frame extension and the ring extension have aligned passageways to form a bore for seating the torsion pin, and the ring passageway is larger to allow releasing movement of the ring about the torsion pin.
3-. The crusher of claim 1 further characterized in that aplurality of spaces between adjacent spring clusters have a torsion pin seated in a bore formed in the extensions.
4. In a gyratory crusher having a main frame, a head within the frame mounted for gyratory movement, a bowl in the main frame spaced from thehead to define a crushing cavity, an adjustment ring with a continuous extension from the bowl to raise and lower the bowl, said ring seated on a continuous extension from the main frame, a combination to allow releasing movement of the adjustment ring, yet prevent rotational movement of the adjustment ring which includes a plurality of paired spring cluster units, each unit in a pair having a group of individual springs, said paired cluster units circumferentially distributed below the extension and releasably holding the ring down on the frame, said paired cluster units separated by a space on the extensions substantially greater than the space between the units in a pair and substantially greater than the space between the individual springs of a cluster unit, a torsion pin in a space of the extensions between adjacent paired cluster units, said torsion pin seated in a bore formed in the extension, said extensions generally coextensive with the spring clusters, said pin adapted to be dropped into the bore and removed from the bore without being secured to the extensions, and said pin being observable for wear at all times in the bore.
References Cited in the file of this patent UNITED STATES PATENTS 2,358,038 Symons et al Sept. 12, 1944 2,438,049 Gruender Mar. 16, 1948 3,009,660 Symons et al Nov. 21, 1961 FOREIGN PATENTS 74,891 Sweden Feb. 16, 1929
Claims (1)
1. IN A GYRATORY CRUSHER HAVING A MAIN FRAME, A HEAD WITHIN THE FRAME MOUNTED FOR GYRATORY MOVEMENT, A BOWL IN THE MAIN FRAME SPACED FROM THE HEAD TO DEFINE A CRUSHING CAVITY, AN ADJUSTMENT RING WITH A CONTINUOUS EXTENSION FROM THE BOWL TO RAISE AND LOWER THE BOWL, SAID RING SEATED ON A CONTINUOUS EXTENSION FROM THE MAIN FRAME, A COMBINATION TO ALLOW RELEASING MOVEMENT OF THE ADJUSTMENT RING, YET PREVENT ROTATIONAL MOVEMENT OF THE ADJUSTMENT RING, WHICH INCLUDES, A PLURALITY OF SPRING CLUSTER UNITS, EACH UNIT HAVING A GROUP OF INDIVIDUAL SPRINGS, SAID CLUSTER UNITS CIRCUMFERENTIALLY DISTRIBUTED BELOW THE EXTENSIONS AND RELEASABLY HOLDING THE RING DOWN ON THE FRAME, SAID CLUSTER UNITS SEPARATED BY A SPACE ON THE EXTENSIONS SUBSTANTIALLY GREATER THAN THE SPACE BETWEEN THE INDIVIDUAL SPRINGS IN THE CLUSTER UNIT, A TORSION PIN IN A SPACE OF THE EXTENSIONS BETWEEN ADJACENT CLUSTER UNITS, SAID TORSION PIN SEATED IN A BORE FORMED IN THE EXTENSIONS, AND EXTENSIONS GENERALLY COEXTENSIVE WITH THE SPRING CLUSTERS, SAID PIN ADAPTED TO BE DROPPED INTO THE BORE AND REMOVED FROM THE BORE WITHOUT BEING SECURED TO THE EXTENSIONS, AND SAID PIN BEING OBSERVABLE FOR WEAR AT ALL TIMES IN THE BORE.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US152223A US3088684A (en) | 1961-11-14 | 1961-11-14 | External main frame pin |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US152223A US3088684A (en) | 1961-11-14 | 1961-11-14 | External main frame pin |
Publications (1)
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US3088684A true US3088684A (en) | 1963-05-07 |
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US152223A Expired - Lifetime US3088684A (en) | 1961-11-14 | 1961-11-14 | External main frame pin |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3951348A (en) * | 1973-05-24 | 1976-04-20 | Rexnord Inc. | Crusher bowl clamping system |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2358038A (en) * | 1942-08-17 | 1944-09-12 | Nordberg Manufacturing Co | Tilting release for gyratory crushers |
US2438049A (en) * | 1943-11-13 | 1948-03-16 | Nordberg Manufacturing Co | Pedestal type gyratory crusher |
US3009660A (en) * | 1958-09-08 | 1961-11-21 | Nordberg Manufacturing Co | Release and adjustment for gyratory crushers |
-
1961
- 1961-11-14 US US152223A patent/US3088684A/en not_active Expired - Lifetime
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2358038A (en) * | 1942-08-17 | 1944-09-12 | Nordberg Manufacturing Co | Tilting release for gyratory crushers |
US2438049A (en) * | 1943-11-13 | 1948-03-16 | Nordberg Manufacturing Co | Pedestal type gyratory crusher |
US3009660A (en) * | 1958-09-08 | 1961-11-21 | Nordberg Manufacturing Co | Release and adjustment for gyratory crushers |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3951348A (en) * | 1973-05-24 | 1976-04-20 | Rexnord Inc. | Crusher bowl clamping system |
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