US776499A - Ejecting mechanism for stereotype-shaving machines. - Google Patents

Ejecting mechanism for stereotype-shaving machines. Download PDF

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US776499A
US776499A US19147404A US1904191474A US776499A US 776499 A US776499 A US 776499A US 19147404 A US19147404 A US 19147404A US 1904191474 A US1904191474 A US 1904191474A US 776499 A US776499 A US 776499A
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ejector
plate
shaft
shaving
operating
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Amandus H Cruse
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23DPLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
    • B23D3/00Planing or slotting machines cutting by relative movement of the tool and workpiece in a vertical or inclined straight line
    • B23D3/04Planing or slotting machines cutting by relative movement of the tool and workpiece in a vertical or inclined straight line in which the tool or workpiece is fed otherwise than in a straight line
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T409/00Gear cutting, milling, or planing
    • Y10T409/50Planing
    • Y10T409/501148Planing with product handling means
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T409/00Gear cutting, milling, or planing
    • Y10T409/50Planing
    • Y10T409/50328Means for shaving by blade spanning work surface
    • Y10T409/503444Concave work surface [e.g., bearing, stereotype printing plate, etc,]

Definitions

  • AMANDUS H. ORUSE OF NFNV YORK, N. Y., ASSIGNOR TO ROBERT HOE,
  • This invention relates to certain improvements in ejecting mechanism for stereotypeshaving machines.
  • Stereotype-plates after being cast are usually subjected to a shaving operation, so as to bring them to the required thickness.
  • This shaving operation is ordinarily effected by placing the plates in a curved support and subjecting them to the action of a rotating' knife, which shaves ofi' from the back of the plate a greater of less amount, as may be required.
  • the plates are then removed from the support by an ejector which is actuated by the operator, this ejector operating to partially push the plate out of the curved support, so that itmay be readily seized for removal by the opcrater.
  • the present invention has for one of its olojects to produce an automatically-operated ejector mechanism of an improved type for use in shaving-machines having curved platesupporting beds.
  • a further object of the invention is to produce an ejector mechanism for use in shavingmachines having curved supporting-beds, in which the ejector shall be automatically held after it has moved the plate out of the bed and with the plate in its displaced position.
  • Afurther object of the invention is to produce an ejector mechanism for use in shavingmachines having curved supporting-beds, in which the ejector shall be held in the position which it assumes when it has displaced the plate and in which the holding means shall be automatically released by the removal of the plate.
  • Figure l is a sectional elevation of so much -of a shaving-machine and its ejecting mechanism as is necessary to an understanding of the invention.
  • the line Z 2 of Fig. l, the knife and ejector being shown in different positions.
  • Fig. 3 is a view similar to Fig. 2, the knife and ejector ⁇ being shown in the position they assume when the ejector ⁇ has operated on the plate.
  • Figs. 4, 5, and 6 are detail views.
  • 1 is a curved plate-support or bed of usual construction, said plate-support being formed by a flanged casting, the iianges Q being' bolted or secured in any other suitable manner to the frame.
  • the shaving mechanism employed may be of any desired character.
  • an operating-shaft 3 said shaft being provided with journals el, which take into bearings 5, formed in the casting before rcferred to.
  • This operating-shaft 3 carries a knife-arm 6, this arm being preferably formed in one piece with the shaft.
  • the shaving-knife 7 Secured to this knife-arm is the shaving-knife 7, said knife being provided with slots, through which its securing-bolts 8 pass, the knife being adjustable by means of set-screws 9.
  • the rotation of the shaft by which the shaving operation is effected may be secured in any desired manner. As illustrated, the
  • Fig. 2 is a section on being provided with fast and loose drivingpulleys 13 14, as is usualin such constructions.
  • the mechanism for operating the ejector to be hereinafter described may be of any desired construction; but it will preferably be automatically operated from the knife-operating shaft.
  • an ejector-operating shaft 15 said shaft being journaled in curved arms 16, rising from the rear of the casting before referred to.
  • This shaft is provided at one of its ends with ahub 17, to which is secured a double arm 18, and between the parts of this arm is pivoted a connecting-bar 19.
  • This bar has on its end a hook 20, which is arranged to engage a cooperating projection 21, formed on the knifeoperating shaft.
  • this projection will be formed by two ears cast on the shaft, said ears having an antifriction-roll 22 journaled between them.
  • the projection is so located on the shaft that as the shaving operation is completed the hook 2O of the bar 19 will drop over it and the further rotation of the knifeshaft will through the bar 19 rock the ejector-operating shaft.
  • the operating connections of whatever form they may be by which it is moved, are interrupted. In the preferred form of the construction this interruption of the operating connections of the ejector-shaft will be automatically effected and by means which may be of any desired construction.
  • the connecting-bar 19 is provided with a cam projection 23, which projection as the knife-shaft rotates strikes the shaft.
  • the cam projection is of sufiicient height to raise the hook 20, so that the roll 22 of the projection 21 runs out of the hook, the operation being clearly illustrated in Fig. 3.
  • the ejector mechanism may be widely varied in construction; but it will be constructed so as to be automatically locked after the operation of displacing the plate is completed.
  • the shaft 15 has connected to it an arm 24, said arm being formed at one end to provide a yoke 25, and in this yoke is pivoted a section 26, which forms a part of the ejector.
  • the operating portion of the ejector consists of a second section 27, which -is properly proportioned to engage the edge of the plate.
  • the ejector mechanism will be of such acharacter that it is automaticall y locked after the displacement of the plate is effected, and preferably it will beautomatically unlocked after the plate is removed.
  • the locking and unlocking of the ejector mechanism will be effected by the action of the ejector on the plate. IVhile the mechanism by which the automatic locking and the unlocking' of the ejector may be varied within wide limits in the preferred construction, the parts 26 and 27 of the ejector will be telescopically connected. In the construction shown this is effected by providing the section 26 with a slot 28, (see dotted lines in Figs. 5 and 6,) through which slot passes a pin 29.
  • the section 27 is formed at its upper end with ears 30, and the pin 29 passes through both these ears, as is clearly shown in the drawings.
  • the pin-and-slot connection permits a telescopic movement of the parts 26 and 27 with relation to each other.
  • one of the ejector-sections 26 is provided with a guide-pin 31, which pin playsin a socket 32 in the section 27. It is obvious that when the ejector-section 27 strikes the plate it will remain stationary, while the section 26 moves downward between the ears 30 until the pin 29 strikes the top of the slot 28, after which the two sections move together.
  • the section 26 is provided with a notch 33, and the ears 30 are each provided with a notch 311. the upper sides of the notches being beveled, as shown, and these notches being so related to each other that after the relative movement, before described, of the sections has occurred the slots will be in line with each other and can be engaged by a suitable locking device.
  • the locking device which is arranged to come into operation after the sections have completed the movement, which they have in ejecting the plate, may be widely varied in construction.
  • the casting in which the curved bed is formed has mounted on it a block 35, from which block rise two ears 36, and between these ears is pivoted a small bellcrank lever 37 38, the pivot of this lever being at 39.
  • the arm 37 of the lever is arranged to engage the notches 33 34, this arm being wide enough so as to engage all three of these notches.
  • the arm 38 in the construction shown is provided with a weight 40, though any other equivalent device may be employed to throw the bell-crank latch forward and cause it to engage the notches when they are opposite the arm 37.
  • the release of the locking mechanism is preferably effected by the removal of the plate. IVhile this might be accomplished in various IOO ITO
  • a spring-41 which is located in a recess 42, formed in the section 26, before referred to, said spring surrounding the pin 31 and bearing against the section 27 at the bottom of the space between the two ears 30.
  • the relative telescopic movement of the sections effected by the push of the ejector against the plate compresses this spring, and when the operator removes the plate this spring is free to expand, so that the section 27 is forced downward.
  • the spring 41 is stronger than the force due tothe counterweight 40, so that the downward movement of the section 27 is readily effected by it.
  • the upper beveled portions of the notches 34 operate as cams and throw the latch portion 37 of the bell-crank 37 38 out of the Y' notch 33 in the section 26 of the ejector, so
  • the ejector may be readily withdrawn.
  • the withdrawal of the ejector is preferably automatically effected.
  • the lever 24 is provided at the end opposite that which carries the ejector with a eounterweight 43; this counterweight being heavy enough to rock the shaft 15. The rocking of the shaft produced by this counterweight not onlywithdraws the ejector, but also pulls back the bar 19, so that its hooked end 2O is in positionto be engaged by the roll 22 as the shaft revolves.
  • the belt will bev shifted from the fast to the loose pulley as soon as the ejector operation is completed-that is, when the parts are about in the position illustrated in Fig. 3.
  • a spring 44 is or may be provided to assist. in maintaining' the ejector in position.
  • a shaving-machine the combination with a curved plate-support, of an operatingshaft, an ejector, operating means for the ejector, and automatic means for connecting the ejector to the operating-shaft after the shaving of the plate is completed, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of an operatingshaft, an ejector, operating means for the ejector, automatic means for connecting the shaft 4and ejector-operating means after the shaving of the plate is completed and for disconnecting them when the ejector has reached the end of its stroke, and means for holding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of an operatingshaft, an ejector, operating means for the ejector, automatic means for connecting the shaft and the ejector-operating means after the shaving of the plate is completed and for disconnecting them when the ejector has reached the end of its stroke, and automatic means for holding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of an ejector, operating means therefor, and means rendered operative and inoperative by the action Aof the ejector on the plate for holding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of an operatingshaft, an ejector, operating' means therefor, means for automatically connecting the ejector-operating means to and disconnecting it from the shaft, and means rendered operative and inoperative by the action of the ejector on the plate for holding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of an operatingshaft, an ejector, an operating-shaft for the ejector, means for automatically connecting said two shafts when the shaving operation is completed and for interrupting the connection when the ejector has operated, and means for holding the ejector in position with IOO the plate displaced, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said I knife-operating shaft and a hooked connectingbar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, and a cam for automatically interrupting the connection after the ejector has operated, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including' a projection on said knife-operating shaft and a hooked connecting-bar for connecting the ej cctor-shaft to the knife-shaft after the shaving operation has been completed, and a cam on the connectingbar for automatically interrupting the connection after the ejector has operated, substantially as described.
  • a shaving-machine With a'curved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said knife-operating shaft and a hooked connecting-bar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, means for automatically interrupting' the connection after the ejector has operated, and means for vholding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine the combination with a curved plate-support,of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said knife-operating shaft and a hooked connectin g-bar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, a cam for automatically interrupting the connection after the ejector has operated, and means for holding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine With a curved plate-support, of a knife-'operating shaft, an ejector, an ejector-operating' shaft, means including a projection on said knife-operating shaft and a hooked connecting-bar for connecting' the ejector-shaft to the knife-shaft after the shaving operation has been completed, a cam on theconnecting-bar for automatically interrupting' the connection after the ejector has operated, and means for holding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine the combination with acurved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said knife-operating shaft and a hooked connecting-bar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, means for automatically interrupting the connection after the ejector on the plate for holding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of aknife-operating shaft, an ejector, an ejector-operating shaft,means including a projection on said knife-operating shaft and a hooked connecting-bar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, a cam for automatically interrupting the connection after the ejector has operated, and means rendered operative and inoperative by the action of the ejector on the plate for holding the ejector in position with the plate displaced, substantially as described.
  • a shaving-machine the combination With a curved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said knife-operating shaft and a hooked connecting-har for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, a c am on the connecting-bar for automatically interrupting the connection after the ejector has operated, and means rendered operative and inoperative .by the action of the ejector on the plate for holding the ejector in position With the plate displaced, substantially as described.
  • a shaving-machine the combination with acurved plate-support, of an ejector comprising a plurality of relatively movable sections,said sections assuming one position When the ejector bears against the plate and another position when the ejector is not bearing against the plate, and a locking mechanism which is operative or inoperative according to the position of the sections, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of an ejector comprising a plurality of relatively movable sections, a spring intermediate the sections, said spring being arranged to yield when the ejector is pressing against the plate, and to expand when the plate is freed from the ejector,
  • notches in the sections arranged to register when the spring is compressed and to be out of register when the spring is expanded, and a latch for engaging the notches when they are in register, the latch being forced out of engagement when the notches are out of register, substantially as described.
  • a shaving-machine the combination with a curved plate-sup port, of an ejector comprising a plurality of relatively movable sections, a spring intermediate the sections, said spring being arranged to yield When the ejector is pressing against the plate and to expand when the plate is freed from the ejector, notches in the sections arranged to register when the spring is compressed and has operated, and means rendered operative to be out of register when the spring is exand inoperative by the action of the ejector panded, and a Weighted pivoted latch for en- IOC gaging the notches when they are in register, the latch being forced out of engagement when the notches areout of register, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of an ejector-operating' shaft, an ejector comprising a plurality of sections, connections between one of the sections and the shaft, a springcontrolled telescopic connection between the sections, said sections assuming dierent relative positions when the ejector is in and out of operating contact with the plate, and a locking device rendered operative and inoperative by the movement of the sections, said device being constructed to engage the ejector and hold it in position with the plate displaced, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of an ejector-operating shaft, an ejector comprising two sections, a telescopic spring-controlled connection between the sections, the spring being arranged to be compressed when one of the sections is forced against the plate, connections between the other section and the operating-shaft, notches on the sections arranged to register when the spring is compressed and to be out of register when the spring is eX- panded, and a latch arranged to engage the notches when the ejector has completed its movement and to be forced out of engagement by the relative movement of the sections produced by the expansion of the spring.
  • a shaving-machine the combination with a curved plate-support, of a knife-operating shaft, an ejector-operating shaft, means for automatically connecting the shafts after the shaving of the plate has been completed and for disconnecting them after the ejector has operated, an ejector comprising notched sections, a telescopic connection including a spring between the sections, said spring' being arranged to yield when one of the sections is forced against the plate so as to bring the notches into register, connections between the ejector and its operating-shaft, and a gravity-latch arranged to engage the notches in the sections of the ejector as the ejector completes its movement and to be disengaged from the ejector by the relative movement of the sections due to the expansion of the spring when the plate is removed from the ejector, substantially as described.
  • a shaving-machine the combination with a curved plate-support, of a knife-shaft, a projection on the shaft, a hooked connecting-bar, a cam on the bar cooperating with the shaft, an ejector-shaft to which the bar is connected, an arm on said shaft, an ejectorsection connected to the arm, a second ejectorsection movably connected to the first section, a spring' between the two sections, said spring being arranged to yield when the ejector is forced against the plate, notches in said sections arranged to register when the spring is compressed, and a gravity-latch for engaging the sections, said latch being forced out of engagement by the relative movement of the sections due to the expansion of the spring when the plate is removed, substantially as described.

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Description

PATENTED DEC. 6, 1904.
A. H. CRIIISB. EJEGTING MEGHANISM FOR STEREOTYPE SHAVING MACHINES.
APPLICATION FILED FEB. 1, 1904.
' zsHBBTssHBET 1.
N0 MODEL.
No. 776,499. PATENTED DEC. 6, 1904. A. H. CRUSE.
EJECTING MEGHANISM POR STEREOTYPB SHAVING MACHINES.
APPLICATION FILED FEB. 1. 1904.
4N0 MODEL. ZSHEETS-SHEBT 2.
Patented December 6, 1904.
are
AMANDUS H. ORUSE, OF NFNV YORK, N. Y., ASSIGNOR TO ROBERT HOE,
' OF NEV YORK, N. Y.
EJEGTING lVlECHANlSlVI FOR STEREOTYPE-SHAVING MCHIINES.
SPECIFICATION forming part of Letters Patent No. 776,499, dated December 6, 1904. Application tiled February l, 1904. Serial No. 191,474. (No model.)
To al?, whom it may con/067171,:
Be it known that l, AMANDUs H. Causa, a citizen of the United States, residing at New York,county of Kings,and State of New York,
` have invented certain new and useful Tinprovements in Ejecting Mechanism for Stereotype-Shaving Machines, fully described and represented in the following` specification and the accompanying drawings,forming a part of the same.
This invention relates to certain improvements in ejecting mechanism for stereotypeshaving machines.
Stereotype-plates after being cast are usually subjected to a shaving operation, so as to bring them to the required thickness. This shaving operation is ordinarily effected by placing the plates in a curved support and subjecting them to the action of a rotating' knife, which shaves ofi' from the back of the plate a greater of less amount, as may be required. The plates are then removed from the support by an ejector which is actuated by the operator, this ejector operating to partially push the plate out of the curved support, so that itmay be readily seized for removal by the opcrater. ln these mechanisms as now constructed it is necessary for the operator to hold the ejector mechanism until he has seized the plate, and if he does not do this the weight of the plate is sufcient to force the ejector mechanism back, thus allowing the plate to slide back into the curved support.
The present invention has for one of its olojects to produce an automatically-operated ejector mechanism of an improved type for use in shaving-machines having curved platesupporting beds.
A further object of the invention is to produce an ejector mechanism for use in shavingmachines having curved supporting-beds, in which the ejector shall be automatically held after it has moved the plate out of the bed and with the plate in its displaced position.
Afurther object of the invention is to produce an ejector mechanism for use in shavingmachines having curved supporting-beds, in which the ejector shall be held in the position which it assumes when it has displaced the plate and in which the holding means shall be automatically released by the removal of the plate.
l/Vith these and other objects not specifically referred to in View the invention consists in certain constructions and in certain parts, improvements, and coinbinations,as will be hereinafter fully described and then specifically pointed out in the claims hereunto appended.
Referring to the accompanying drawings, which illustrate one embodiment of the invention, Figure lis a sectional elevation of so much -of a shaving-machine and its ejecting mechanism as is necessary to an understanding of the invention. the line Z 2 of Fig. l, the knife and ejector being shown in different positions. Fig. 3 is a view similar to Fig. 2, the knife and ejector` being shown in the position they assume when the ejector `has operated on the plate. Figs. 4, 5, and 6 are detail views.
Referring to the drawings, 1 is a curved plate-support or bed of usual construction, said plate-support being formed by a flanged casting, the iianges Q being' bolted or secured in any other suitable manner to the frame. The shaving mechanism employed may be of any desired character. As shown, there is provided an operating-shaft 3, said shaft being provided with journals el, which take into bearings 5, formed in the casting before rcferred to. This operating-shaft 3 carries a knife-arm 6, this arm being preferably formed in one piece with the shaft. Secured to this knife-arm is the shaving-knife 7, said knife being provided with slots, through which its securing-bolts 8 pass, the knife being adjustable by means of set-screws 9.
The construction so far described is a usual one, and any other form of shaving mechanism may be substituted therefor.
The rotation of the shaft by which the shaving operation is effected may be secured in any desired manner. As illustrated, the
shaft 3 is provided at one of its ends with a Worm-gear l0, said gear being driven by a worm ll, formed on a worm-shaft l2, saidshaft being supported in bearings on the side of the 'flanged casting before referred to and Fig. 2 is a section on being provided with fast and loose drivingpulleys 13 14, as is usualin such constructions.
The mechanism for operating the ejector to be hereinafter described may be of any desired construction; but it will preferably be automatically operated from the knife-operating shaft. In the construction illustrated, which is a preferred form, there is provided an ejector-operating shaft 15, said shaft being journaled in curved arms 16, rising from the rear of the casting before referred to. This shaft is provided at one of its ends with ahub 17, to which is secured a double arm 18, and between the parts of this arm is pivoted a connecting-bar 19. This bar has on its end a hook 20, which is arranged to engage a cooperating projection 21, formed on the knifeoperating shaft. In the preferred form of the construction this projection will be formed by two ears cast on the shaft, said ears having an antifriction-roll 22 journaled between them. The projection is so located on the shaft that as the shaving operation is completed the hook 2O of the bar 19 will drop over it and the further rotation of the knifeshaft will through the bar 19 rock the ejector-operating shaft. When a sufficient movement has been given to the ejector-operating shaft, the operating connections, of whatever form they may be by which it is moved, are interrupted. In the preferred form of the construction this interruption of the operating connections of the ejector-shaft will be automatically effected and by means which may be of any desired construction. As shown, the connecting-bar 19is provided with a cam projection 23, which projection as the knife-shaft rotates strikes the shaft. The cam projection is of sufiicient height to raise the hook 20, so that the roll 22 of the projection 21 runs out of the hook, the operation being clearly illustrated in Fig. 3.
The ejector mechanism may be widely varied in construction; but it will be constructed so as to be automatically locked after the operation of displacing the plate is completed. In the construction shown the shaft 15 has connected to it an arm 24, said arm being formed at one end to provide a yoke 25, and in this yoke is pivoted a section 26, which forms a part of the ejector. The operating portion of the ejector consists of a second section 27, which -is properly proportioned to engage the edge of the plate.
As has been indicated, the ejector mechanism will be of such acharacter that it is automaticall y locked after the displacement of the plate is effected, and preferably it will beautomatically unlocked after the plate is removed. Preferably, also, the locking and unlocking of the ejector mechanism will be effected by the action of the ejector on the plate. IVhile the mechanism by which the automatic locking and the unlocking' of the ejector may be varied within wide limits in the preferred construction, the parts 26 and 27 of the ejector will be telescopically connected. In the construction shown this is effected by providing the section 26 with a slot 28, (see dotted lines in Figs. 5 and 6,) through which slot passes a pin 29. In the preferred construction the section 27 is formed at its upper end with ears 30, and the pin 29 passes through both these ears, as is clearly shown in the drawings. The pin-and-slot connection permits a telescopic movement of the parts 26 and 27 with relation to each other. In the preferred construction, furthermore, one of the ejector-sections 26 is provided with a guide-pin 31, which pin playsin a socket 32 in the section 27. It is obvious that when the ejector-section 27 strikes the plate it will remain stationary, while the section 26 moves downward between the ears 30 until the pin 29 strikes the top of the slot 28, after which the two sections move together.
In the construction illustrated the section 26 is provided with a notch 33, and the ears 30 are each provided with a notch 311. the upper sides of the notches being beveled, as shown, and these notches being so related to each other that after the relative movement, before described, of the sections has occurred the slots will be in line with each other and can be engaged by a suitable locking device.
The locking device which is arranged to come into operation after the sections have completed the movement, which they have in ejecting the plate, may be widely varied in construction. As shown, the casting in which the curved bed is formed has mounted on it a block 35, from which block rise two ears 36, and between these ears is pivoted a small bellcrank lever 37 38, the pivot of this lever being at 39. The arm 37 of the lever is arranged to engage the notches 33 34, this arm being wide enough so as to engage all three of these notches. The arm 38 in the construction shown is provided with a weight 40, though any other equivalent device may be employed to throw the bell-crank latch forward and cause it to engage the notches when they are opposite the arm 37.
l/Vith the construction so far described it is apparent that after the ejector-sections have been forced against the plate and after they have been given the relative telescopic movement before referred to, which brings the notches into line, the further movement of the ejector mechanism will push the plate out of the curved plate-support, the displaced plate at the end of this movement of the ejector occupying about the position illustrated in Fig. 3. Ihen the parts have reached this position, the latch 37 38 will drop into the notches and lock the ejector sections against backward movement.
The release of the locking mechanism is preferably effected by the removal of the plate. IVhile this might be accomplished in various IOO ITO
IIS
' ways, in the construction shown there is provided a spring-41, which is located in a recess 42, formed in the section 26, before referred to, said spring surrounding the pin 31 and bearing against the section 27 at the bottom of the space between the two ears 30. The relative telescopic movement of the sections effected by the push of the ejector against the plate compresses this spring, and when the operator removes the plate this spring is free to expand, so that the section 27 is forced downward. The spring 41 is stronger than the force due tothe counterweight 40, so that the downward movement of the section 27 is readily effected by it. As this section moves downward the upper beveled portions of the notches 34 operate as cams and throw the latch portion 37 of the bell-crank 37 38 out of the Y' notch 33 in the section 26 of the ejector, so
that the ejector may be readily withdrawn. The withdrawal of the ejector is preferably automatically effected. lWhile this may be accomplished'in any suitable manner, in the preferred construction the lever 24 is provided at the end opposite that which carries the ejector with a eounterweight 43; this counterweight being heavy enough to rock the shaft 15. The rocking of the shaft produced by this counterweight not onlywithdraws the ejector, but also pulls back the bar 19, so that its hooked end 2O is in positionto be engaged by the roll 22 as the shaft revolves.
In the ordinary operation of the mechanism the belt will bev shifted from the fast to the loose pulley as soon as the ejector operation is completed-that is, when the parts are about in the position illustrated in Fig. 3. After the counterweight has thrown back the ejector, therefore, and drawn back the connecting-bar, another plate may be inserted, the belt shifted to the fast pulley, and the operations repeated. In the preferred construction a spring 44 is or may be provided to assist. in maintaining' the ejector in position.
Changes and variations may be made in the construction by which this invention is carried into effect. The invention is not, therefore, to be limited to the details of construction herein shown and described.
What is claimed is- 1. In a shaving-machine, the combination with a curved plate-support, of an ejector, means for operating the ejector, and automatic means for holding the ejector in position with the plate displaced, substantially as described.
2. In a shaving-machine, the combination with a curved plate-support, of an operatingshaft, an ejector, operating means for the ejector, and automatic means for connecting the ejector to the operating-shaft after the shaving of the plate is completed, substantially as described.
3. Ina shaving-machine, the combination with a curved plate-support, of an operatingshaft, an ejector, operatingmeans for the ejector, automatic means for connecting the ejector to the operating-shaft after the shav- 'ing of the plate is completed, and automatic means for holding the ejector in position with the plate displaced, substantially as described.
4. In a shaving-machine, the combination with a curved plate-support, of an operatingshaft, an ejector, operating means for the ejector, automatic means for connecting the shaft 4and ejector-operating means after the shaving of the plate is completed and for disconnecting them when the ejector has reached the end of its stroke, and means for holding the ejector in position with the plate displaced, substantially as described.
5. In a shaving-machine, the combination with a curved plate-support, of an operatingshaft, an ejector, operating means for the ejector, automatic means for connecting the shaft and the ejector-operating means after the shaving of the plate is completed and for disconnecting them when the ejector has reached the end of its stroke, and automatic means for holding the ejector in position with the plate displaced, substantially as described.
6. In a shaving-machine, the combination with a curved plate-support, of an ejector, operating means therefor, and means rendered operative and inoperative by the action Aof the ejector on the plate for holding the ejector in position with the plate displaced, substantially as described.
7. In a shaving-machine, the combination with a curved plate-support, of an operatingshaft, an ejector, operating' means therefor, means for automatically connecting the ejector-operating means to and disconnecting it from the shaft, and means rendered operative and inoperative by the action of the ejector on the plate for holding the ejector in position with the plate displaced, substantially as described.
8. In a shaving-machine, the combination with a curved plate-support, of an operatingshaft, an ejector, an operating-shaft for the ejector, means for automatically connecting said two shafts when the shaving operation is completed and for interrupting the connection when the ejector has operated, and means for holding the ejector in position with IOO the plate displaced, substantially as described. V
9. 1n a shaving-machine, the combination with a curved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said I knife-operating shaft and a hooked connectingbar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, and a cam for automatically interrupting the connection after the ejector has operated, substantially as described.
11. In a shaving-machine, the combination with a curved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including' a projection on said knife-operating shaft and a hooked connecting-bar for connecting the ej cctor-shaft to the knife-shaft after the shaving operation has been completed, and a cam on the connectingbar for automatically interrupting the connection after the ejector has operated, substantially as described.
12. In a shaving-machine, the combination With a'curved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said knife-operating shaft and a hooked connecting-bar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, means for automatically interrupting' the connection after the ejector has operated, and means for vholding the ejector in position with the plate displaced, substantially as described.
13. In a shaving-machine, the combination with a curved plate-support,of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said knife-operating shaft and a hooked connectin g-bar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, a cam for automatically interrupting the connection after the ejector has operated, and means for holding the ejector in position with the plate displaced, substantially as described.
14. In a shaving-machine, the combination With a curved plate-support, of a knife-'operating shaft, an ejector, an ejector-operating' shaft, means including a projection on said knife-operating shaft and a hooked connecting-bar for connecting' the ejector-shaft to the knife-shaft after the shaving operation has been completed, a cam on theconnecting-bar for automatically interrupting' the connection after the ejector has operated, and means for holding the ejector in position with the plate displaced, substantially as described.
15. In a shaving-machine, the combination with acurved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said knife-operating shaft and a hooked connecting-bar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, means for automatically interrupting the connection after the ejector on the plate for holding the ejector in position with the plate displaced, substantially as described.
16. In a shaving-machine, the combination with a curved plate-support, of aknife-operating shaft, an ejector, an ejector-operating shaft,means including a projection on said knife-operating shaft and a hooked connecting-bar for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, a cam for automatically interrupting the connection after the ejector has operated, and means rendered operative and inoperative by the action of the ejector on the plate for holding the ejector in position with the plate displaced, substantially as described.
17. In a shaving-machine, the combination With a curved plate-support, of a knife-operating shaft, an ejector, an ejector-operating shaft, means including a projection on said knife-operating shaft and a hooked connecting-har for connecting the ejector-shaft to the knife-shaft after the shaving operation has been completed, a c am on the connecting-bar for automatically interrupting the connection after the ejector has operated, and means rendered operative and inoperative .by the action of the ejector on the plate for holding the ejector in position With the plate displaced, substantially as described.
18. In a shaving-machine, the combination with acurved plate-support, of an ejector comprising a plurality of relatively movable sections,said sections assuming one position When the ejector bears against the plate and another position when the ejector is not bearing against the plate, and a locking mechanism which is operative or inoperative according to the position of the sections, substantially as described.
19. In a shaving-machine, the combination with a curved plate-support, of an ejector comprising a plurality of relatively movable sections, a spring intermediate the sections, said spring being arranged to yield when the ejector is pressing against the plate, and to expand when the plate is freed from the ejector,
notches in the sections arranged to register when the spring is compressed and to be out of register when the spring is expanded, and a latch for engaging the notches when they are in register, the latch being forced out of engagement when the notches are out of register, substantially as described.
20. In a shaving-machine, the combination with a curved plate-sup port, of an ejector comprising a plurality of relatively movable sections, a spring intermediate the sections, said spring being arranged to yield When the ejector is pressing against the plate and to expand when the plate is freed from the ejector, notches in the sections arranged to register when the spring is compressed and has operated, and means rendered operative to be out of register when the spring is exand inoperative by the action of the ejector panded, and a Weighted pivoted latch for en- IOC gaging the notches when they are in register, the latch being forced out of engagement when the notches areout of register, substantially as described.
2l. In a shaving-machine, the combination with a curved plate-support, of an ejector-operating' shaft, an ejector comprising a plurality of sections, connections between one of the sections and the shaft, a springcontrolled telescopic connection between the sections, said sections assuming dierent relative positions when the ejector is in and out of operating contact with the plate, and a locking device rendered operative and inoperative by the movement of the sections, said device being constructed to engage the ejector and hold it in position with the plate displaced, substantially as described.
22. In a shaving-machine, the combination with a curved plate-support, of an ejector-operating shaft, an ejector comprising two sections, a telescopic spring-controlled connection between the sections, the spring being arranged to be compressed when one of the sections is forced against the plate, connections between the other section and the operating-shaft, notches on the sections arranged to register when the spring is compressed and to be out of register when the spring is eX- panded, and a latch arranged to engage the notches when the ejector has completed its movement and to be forced out of engagement by the relative movement of the sections produced by the expansion of the spring. y
23. In a shaving-machine, the combination with a curved plate-support, of a knife-operating shaft, an ejector-operating shaft, means for automatically connecting the shafts after the shaving of the plate has been completed and for disconnecting them after the ejector has operated, an ejector comprising notched sections, a telescopic connection including a spring between the sections, said spring' being arranged to yield when one of the sections is forced against the plate so as to bring the notches into register, connections between the ejector and its operating-shaft, and a gravity-latch arranged to engage the notches in the sections of the ejector as the ejector completes its movement and to be disengaged from the ejector by the relative movement of the sections due to the expansion of the spring when the plate is removed from the ejector, substantially as described.
24. In a shaving-machine, the combination with a curved plate-support, of a knife-shaft, a projection on the shaft, a hooked connecting-bar, a cam on the bar cooperating with the shaft, an ejector-shaft to which the bar is connected, an arm on said shaft, an ejectorsection connected to the arm, a second ejectorsection movably connected to the first section, a spring' between the two sections, said spring being arranged to yield when the ejector is forced against the plate, notches in said sections arranged to register when the spring is compressed, and a gravity-latch for engaging the sections, said latch being forced out of engagement by the relative movement of the sections due to the expansion of the spring when the plate is removed, substantially as described.
In testimony whereof I have hereunto set my hand in the presence of two subscribing witnesses.
AMANDUS H. CRUSE.
Vitnesses:
F. WV. H. CRANE, T. F. KEI-ion.
US19147404A 1904-02-01 1904-02-01 Ejecting mechanism for stereotype-shaving machines. Expired - Lifetime US776499A (en)

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