US376623A

US376623A - Egbert e

Info

Publication number: US376623A
Authority: US
Publication date: 1888-01-17
Anticipated expiration: 1905-01-17

Description

me' Model.) R. E. M. BAIN.

l l VISE. No. 376,623. Patented Ja 11. 17, 1.888.

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UNITED STATES ROBERT E. M. BAINLOF ST. LOUIS, MISSOURI, ASSIGNOR OF ONE-HALF TO GRAY STAUNTON, OF SAME PLAGE.

MISE.

SPECIFICATION forming part of Letters Patent No. 376,623, dated January 17, 1888.

Application filed July 8, 1887. Serial No. 243,773. (No model.)

To @ZZ whom it may concern:

Be it known that I, ROBERT E. M. BAIN, ofl

the city of St.V Louis, in theState of Missouri, have invented certain new and useful Improvements in Sliding-Jaw `Vises, of which the following is a full, clear, and exact description, reference being had to the accompanying drawings, forming part of this specification, and in whichl Figure I is a side view of my improved vise, part broken away to show the position of the stem of the sliding jaw when thrown in to effect the grip of the clamping-wedges. Fig. II is a top view with part broken away to show the bevel edges of the stem Vexpanding the wedgeclamps to engagement with their corrugated seatsto hold the grip. Fig. III is a transverse section taken on line III III, Fig. I, showing the wedge-clamps with their expandable bearings. Fig. IV is a transverse section taken on line IV IV, Fig. I, showing the slid-` ing stem within the casing of the stationary jaw. Fig. V is a longitudinal detail section taken on line V V, Fig. I, showing the stem of the slidingjaw and the clamping-wedges relaxed; and Fig. VI is a longitudinal detail section of a modification, showing the clampingwedges working in a smooth track, relying o n friction for retention.

This inventionrelates to devices in slidingjaw or sudden-clamp vises; andthe invention consists in features of novelty hereinafter fully described, and pointed out in the claims.

Referring to the drawings, in which figures of reference indicate like parts in all the views, l represents the stationary jawof my vise, and 2 the sliding jaw thereof. 3 is the stem of the sliding jaw, that works longitudinally in the elongated slot 4 within the case 5 of the stationary jaw. The stem of the sliding jaw in transverse section is in the form of a St. Georges cross, and is thereby effectually ref enforced against any wringing tendency of the jaws in effecting their grip. There is, however, unlike the screw vise, no wringing tendency in its movements, except the slight lateral pressure sometimes caused by the grip of the jaws on obj eets of irregular form,for it has otherwise a direct longitudinal clamping movement. The sliding stem 3 is provided with a central longitudinal bore, 6, from end to end,

that also extends through the pedestal 7 of the sliding jaw, which pedestal and the jaw that surmounts it are in parallel position to the stationary pedestal 8 and its surmounting jaw. A shaft, 9, is seated in said bore, and has an extension beyond the sliding stem that carries a spiral spring, 10, and passes through ovalshaped perforations 11 of the twin edges or bevel-faced clamps 12,which are secured on the threaded end of the shaft by the screwnut 13.

The end ofthe stem 3 of the sliding jaw has vertical bevel faces 16, that run parallel to the bevel faces of the wed ge-clamps. The wedgeclamps havecorrugatious 14C on their straight sides, which, when said clamps are expanded apart and become operative, engage in the corrugations 15 in the elongated slot et within the case of thc stationary jaw.

On the outer end of the shaft 9 is a diskhead, 17, integral thereon. A clamping-lever, 18, weighted with a ball-knob, 19, and provided with a bifurcated eccentric camhead, 20, has pivotal connection to the diskhead 17 by the bolt 2l, that engages iu the eccentrically-located perforation 22 through the cam and disk-head.

Side brackets, 23, ou the bench-seat of the stationary member of the vise, have perforations 24, in which screw-bolts may be seated to secure the vise to the bench, and a vertical lug, 25, firmly presses against the front edge of thebench to hold the vise from twisting on its seat. A bracket, 26, projects in front of the bench from said stationary member, and supports the sliding jaw and its stem, and also forms-a track on which it slides.

Spiral springs 27 are seated in sockets 28 in the wedge-clamps 12, and carry caps 29, that bear against the outer scat in which said clamps slide. When the eccentric cam-lever is relaxed, the spiral spring 10 projects said jaw with its stein forward. The spiral springs 27 then throw the wedge-clampsloose from their corrugated seats to enable the sliding jaw to be withdrawn without difficulty.

The operation of the vise is as follows: The article to be held by the vise being placed within its jaws and thc eccentric cam-lever 18 elevated, the stem of the sliding jaw is pushed iu until its beveled end presses against the IO D spiral screw l0. The cam -lever is then brought down, inthe first place, forcing the bevel edges of the stem of the sliding jaw within the corresponding bevel edges of the twin wedge-clamps, pressing them apart and bringing their corrugated back edges into engagement with the corrugations 15in the elongated slot, and thus stationing said wedgeclamps and locking them on their seats. At the same time, by the continued pressure of the lever, the spiral spring. is pushed home for future service, and an instantaneous tight grip of the jaws on the article they embrace is effected.

It will be seen that the oval perforations through the wedgeclamps,through which the shaft 9 passes, allow said wedges to shift their bearings laterally, both to allow the corrugated edges of the clamps to be forced into engagement with their corrugated seats, and when said wedge-clamps are released the spiral springs 27 in their sockets in said wedgeclamps unlock them from their scat.

To ungrip the vise, the eccentric camlevcr is again elevated. The return action of the spring then repulses the stem of the sliding jaw,which allows the spiral springs 27 to unseat the wedge-clamps by projecting them out of their corrugated seats, and the jaw can then be slid out to any extentrequired.

I have described my invention with corrugated wedge-clamps as my preferable form; but I do not so confine myself, for the same device may be operated with smooth friction wedge-clamps with smooth friction-seats within the elongated slot,espeeially forlight work, where there is no sudden jar or strain to endanger the loosening of the grip.

It will be seen that the sliding jaw is enforced with a directlongitudinalmovement to its work,avoiding the twisting or wringing inclination inseparable from all screw vises; also, the end action ofthe eccentric cam-lever is direct in line with the line of propulsion of the sliding jaw, avoiding the lateral friction that would result if the lever operated from the side of the vise; also, by the use of a vertical cam-lever instead of a horizontal one, I am enabled to utilize a ball-knob, 19, thereon as a gravity-lock to enforce the continuous pressure of the jaws.

I claim as my inventiony 1. In a sliding-jaw vise, the combination of the stationary jaw 1, provided with au elongated slot, in which the stem 3 of the sliding jaw 2 engages, the shaft 9, that passes through said stem, and at one end engages the wedgeclanips 12, to clamp said end, and has at the other end a head-disk, 17, that is pivotally connected to the eccentric cam'levcr 18, arranged as a sudden-action sliding clamp to enforce the grip of thejaws, substantially as described, and for the purpose set forth.

2. In a sliding-jaw vise, the combination of the stationary and sliding jaw, the former provided with an elongated slot and the latter having a horizontal stem that engages in said slot, the bevel edges of said stem that engage the bevel edges of the wedge-clamps and force them to engagement in their corrugated seats, said wedges and the spiral spring 10 being secured by the shaft 9, that passes through said stem and is operated bythe eccentric camlever to effect a sudden sliding clamp-grip of the jaws, said wedge-clamps carrying spiral springs 27, substantially as described, and for the purpose set forth.

3. In a sliding-jaw vise, the combination of the stationary and sliding jaws, the shaft 9,0perated by the eccentric camdever and passing through the pedestal 7, stem 3, and corrugated wedgeclamps that are provided with oval perforations, and said shaft carrying the spiral spring lO, all arranged to force the wedge clamps into their corrugated seats, clamp the grip by the eccentric cainlever, and when released by the eccentric cam project the stem by the spiral screw and release the wedgeclamp, and then allow them to be unseated from their locking-seat by the spiral springs 27, substantially as described, and for the purpose set forth.

4. In a sliding-jaw vise, the combination of the stationary and sliding jaws, the projected bevel end of the stem of the latter enforcing the engagement of the corrugated wedgeclamps in their corrugated seats, the shaft 9, spiral unclamping-spring 10, the spiral unlockingsprings 27,and the disk-head 17, thatis pivotally engaged by the eccentric cam 20 of the lever 18, said lever having a ball-weight, 19, to enforce the clamp, substantially as described, and for the purpose set forth.

5. In a sliding-jaw vise, the combination of the stationary and sliding jaws, the projected bevel end of the stem of the latter enforcing the clamp of the smooth friction-wedges 12, the spiral unclamping-spring 10 on the shaft 9, that carries the wedge-clamps, said shaft passing through said stem, and the disk-head 17, pivotally engaged by the eccentric cam ofthe balllever and operated to effect a sudden clamp-grip of the jaws, substantiallyf as described, and for the purpose set forth.

ROBERT E. M. BAIN. In presence of- BENJN. A. KNIGHT, SAML. KNIGHT.

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