US748018A

US748018A - Work and tool holder.

Info

Publication number: US748018A
Application number: US13177002A
Authority: US
Inventors: Conie J Rowe
Original assignee: Individual
Current assignee: Individual
Priority date: 1902-11-17
Filing date: 1902-11-17
Publication date: 1903-12-29
Anticipated expiration: 1920-12-29

Description

PATENTEDV DEG. 29, 1903.

O. J. ROWE. WORK ANO TOOL HOLDER.

APPLICATION FILED NOY.17, 1902.

2 SHEETS-SHEBT 1.

N0 MODEL.

W/TNESSES.-

1H: Nanms Pneus co. Pnoromrno.. wnsummon. D C- O. J. LOWE.

WORK AND TOOL HOLDER.

APDLIOATION FILED Nov. 17, 1902. NO MODDL4 PATENTED DEC. 29, 1903.

2 SHEETSSHEET 2.

Patented December 29, 1903.

PATENT OFFICE.

CONIE J. ROWE, OF CINCINNATI, OHIO.

WORK AND TOOL HOLDER.

SPECIFICATION forming part of Letters Patent No. 748,018, dated December 29, 1903.

Application liled November 17, 1902. Serial No. 131,770. (No model.)

To a/ZZ whom it may concern.:

Be it known thatI, CONIE IROWVE, acitizen of the United States, residing at Cincinnati, in the county of Hamilton and State of Ohio, have invented certain new and usefulImprovementsin Work and Tool Holders, of which the following is a specification. In factories using many bolts,`nuts, and

screws it is desirable to have as a complement to the outfit a tool for quickly turning said fastenings as well as drills and like boringtools. i

The holder embodies a two-part shaft, one

part, the driver, having the power applied thereto, and the other part, the carrier, receiving the fastening or tool to be rotated, a clutch between said parts to cause them to rotate together and constructed to separate when a given resistance is reached to prevent injurious strain coming upon either the tool be had tothe following description and drawings hereto attached. While the essential and characteristic features of the invention are susceptible of modi' fcation, still the preferred embodiment of the invention is illustrated in the accompanying drawings, in which- Figure 1 is a perspective view of a device embodying the invention. Fig. 2 is a plan section thereof about on the line X X of Fig. 5. Fig. 3 is a plan section about on the line Y Y of Fig. 8. Fig. 4 is a vertical central section of the lower member of the shaft and the parts cooperating therewith. Fig. 5 is a vertical central section of the device, showing the parts of the shaft in clutched engagement. Fig. 6 is a view similar to Fig. 5, showing the parts of the shaft unclutched. Fig.`7 isa view similar to Fig. 5, showing the parts of the 4at its ends by heads 2 and 3.

mechanism. Fig. 10 is a perspective view of the parts shown in Fig. 4. Fig. 1l is a perspective view of the lock and its support.

Corresponding and like parts are referred to in the following description and indicated 4in all the views of the drawings by the same reference characters.

The device comprises a case 1 for housing and supporting the working parts,said case being preferably of cylindrical form and closed The shaft jour naled in the heads 2 and 3 iscom posed of parts 4 and`5, the part 4 being adapted to be rotated in any convenient way, as by means of a flexible sh aft or other contrivance and designated as ythe driven The part 5` is the driven member and is adapted to have the work or tool to be rotated applied thereto,and in contradistinction to the part 4 is designated by the term carrier. The carrier 5 is tubular, so as to receive the spring 6 and lower end of the driver 4. By having the lower end of the part 4 telescope with the part 5 the two parts are heldin alinement. A block 7 is loosely fitted in the part 5 and is pressed 4upward by the spring 6 and is recessed in its upper side to forma seat to receive the ball 8, which is interposed between said block` and the lower end of the driver 4, the latter being correspondingly recessed in its lower end for reception of the upper portion of the ball. A head or chuck 9 is formed with or applied to the lower end of the part 5 and is adapted to `receive either the work or the tool to be roelements 1 1, 12, and 13. The elements 11 and 12 are plates or disks and are formed with or applied to the respective parts 4 and 5, so as to rotate therewith. The elements 13 are roo in the opposing faces of the elements 11 and- 12. The balls 13 constitute clutch-dogs and are carried by the part 11, being retained l in the seats thereof in any accustomed way and, as shown, by means of a keeper-plate 14. The parts are so proportioned that when the spring 6 is free from restraint the driver 4 is moved upward,so as to hold the clutch-dogs 13 out of theseats 15 of the parts 12, as indicated most clearly in Fig. 6, thereby permitting the driver 4 to rotate Without imparting any movement to the carrier 5. Ball-bearings are interposed between the clutch and the head 3 to reduce the friction to the smallest amount possible. Corresponding grooves are formed in the opposing faces of the parts 3 and 12 to form braces to receive the balls 16, constituting the antifriction-bearings between the clutch and head 3. The driver 4 has a portion enlarged, as shown at 17, to form a shoulder 18, over which engages a stop 19, as shown most clearly in Fig. 5, to hold the elements of the clutch in engagement. Aspring 20 yieldingly holds the stop 19 in engagement with the shoulder 18, and its tension is regulated by means of a set-screw 21,threaded into an opening in the side of the case 1. The part of the stop 19 in engagement with the shoulder 18 is slightly beveled to cause automatic disengagement of the stop from the shoulder when the upward thrust of the driver exceeds the tension of the spring 20. By varying the tension of the spring 2O the stop 19 may be caused to release the driver at. a greater or less resistance. The clutch-dogs 13, being of rounded form, tend to ride out of the seats 15 and are held therein by engagement of the stop 19 over the shoulder 18, as indicated in Fig. 5, and when the resistance met with by the driver overcomes the,

tension of the spring 20 the clutch becomes automatically disengaged and the driver is moved upward by the spring 6 and assumes the position substantially as shown in Fig. 6. The clutch is thrown into engagement by a resetting mechanism, comprising

levers

22 and 23, the latter having an end portion projected outward from the case forming a nger-piece to be pressed upon for actuating the lever 22 to move the clutch element 11 into clutched engagement with the element 12. The

levers

22 and 23 are connected by a link 24, and the lever 22 has an opening 25 intermediate of its ends to receive the shaft. A roller 26 is applied to the inner end of the lever 22 and is adapted to bear against the part 11. When it is required to throw'the clutch into engagement, the projecting end of the lever 23 is pressed upon, thereby exerting a pressure upon the'element 11 and causing the driver 4 to move toward the carrier 5 until the shoulder 18 clears the engag.

ing part of the stop 19, which springs thereover and holds the clutch in engagement until the tension of the spring 20 is overcome by the superior force tending to separate the clutch due to the resistance met with by the part applied to the carrier 5.

I-n some classes of work it is desirable that the shaft as a whole rotate under all conditions, and to meet this requirement a lock 27 is provided and engages with the driver 4, preferably by passing over the shoulder 18. The lock 27 is slidably mounted and is operable by means of a set-screw 28, mounted in an opening of the case. A bearing 29 slidably supports the lock 27 and is formed with inner ways 30 to enter grooves 31 in opposite edges of the lock, whereby the latter is directed in its movements and prevented from movement parallel with the shaft. The lock 27 is moved out of the way when the stop 19 is used for holding the parts of the shaft in clutched engagement to admit of their automatic separation under certain conditions; but when a boring-tool or like implement is to be positively rotated under all conditions of strain the lock 27 is moved into engagement `"with the driver, as shown in Fig. 7 thereby holding the clutch lin engagement. The lock may be supplemented by the stop 19, as indicated in said Fig. -7.

The case 1 is provided with handles 32 to enable easyr manipulation of the tool when in operation, thereby enabling great pressure being brought to bear when forcing home a screw or when drilling through metal or wood.

A chuck or contrivance of any kind may be fitted tothe head 9 to hold dies, screws, nuts, drills, and tools of any kind, according to the required use of the tool or holder in any capacity or application.

Having thus described the invention, what is' claimed as new is- 1. In a work and tool holder, a two-part shaft, one part constituting a driver and the other part the carrier, a shoulder, projected from the driver and a clutch connecting the parts of the shaft, independent detent means, one of which is adapted for positive and the other of which for yielding cooperation with the aforesaid shoulder of the driver.

2. In a work and tool holder, a two-part shaft, one part constituting the driver and the other part the carrier, a clutch for connecting the two parts of the shaft, spring means normally tending to hold the parts of the shaft apart, and stop means adapted to counteract the tendency ofthe said spring to connect the parts of the shaft for synchronous rotation, said stop means permitting unshipping of the clutch members and separation of the shaft parts at any given point of resistance, substantially as specified.

3. In a work and tool holder, a two-part shaft, one part constituting the driver and the other part the carrier, a clutch for connecting the two parts of the shaft and adapted to automatically separate when a given resistance is met with, a spring-actuated stop for holding the parts of the shaft in clutched engage- IIO ment, and means for holding the stop in engagement with the driver under variable degrees of pressure, substantially as set forth.v

4. In a work and tool holder, a casing, a twopart shaft, one part constituting the driver and the other part the carrier, a clutch for connecting the two parts of the shaft and adapted to automatically separate when a given resistance is met with, a detent extended from the casing for engagement with the driver to hold same in engagement with the carrier, the engaging portions of the detent and driver being beveled, and means for holding the detent in engagement with the driver under variable degrees of pressure.

5. In a work and tool holder, a two-part shaft, one part constituting the driver and the other part the carrier, a clutch for connecting the two parts of the shaftand adapted to automatically separate when a given resistance is met with, a spring-actuated stop for holding the parts of the shaft in clutched engagement, means for holding the clutch elements separated when out of engagement, and a resetting mechanism for throwing the clutch into engagement, the same comprising corresponding levers, the one adapted to be operated by hand and the other provided at its free end with a roller to exert a pressure upon the movable clutch element, substantially as described.

6. In a work and tool holder, a two-part shaft, one part constituting the driver and the i other part the carrier, a clutch for connecting the two parts of the shaft and adapted to automatically separate when a given resistance is met with, and a lock for holding the part-s of the shaft in clutched engagement under all conditions, substantially as specied.

.7. In a work and tool holder, a two-part shaft, one part constituting the driver and the other part the carrier, a clutch for connecting the two parts of the shaft and adapted to automatically separate when a given resistance is met with, a spring-actuated stop adapted to engage with the driver, and a lock supplemented in its action bythe said stop to prevent unshipping of the clutch, substantially as specied.

AIn testimony whereof I ax my signature in presence of two witnesses.

coNIE J. Rows. [1.. S.]

Witnesses:

E. M. ScHwEIN, M. J. ScHwEIN.