US1003462A - Feeding mechanism for automatic screw-driving machines. - Google Patents
Feeding mechanism for automatic screw-driving machines. Download PDFInfo
- Publication number
- US1003462A US1003462A US47761609A US1909477616A US1003462A US 1003462 A US1003462 A US 1003462A US 47761609 A US47761609 A US 47761609A US 1909477616 A US1909477616 A US 1909477616A US 1003462 A US1003462 A US 1003462A
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- United States
- Prior art keywords
- screw
- screws
- magazine
- shaft
- edge
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21J—FORGING; HAMMERING; PRESSING METAL; RIVETING; FORGE FURNACES
- B21J15/00—Riveting
- B21J15/10—Riveting machines
- B21J15/30—Particular elements, e.g. supports; Suspension equipment specially adapted for portable riveters
- B21J15/32—Devices for inserting or holding rivets in position with or without feeding arrangements
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P19/00—Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes
- B23P19/001—Article feeders for assembling machines
- B23P19/002—Article feeders for assembling machines orientating the articles
Definitions
- Our invention relates particularly to automatic screw-driving machines such as those designed for use in shops and factories where it is desirable to drive screws rapidly and in large numbers.
- Such a machine for example, is shown and described in an application for Letters Patent of the United States, filed by said Wilson P. Hunt, on March 30, 1906, Serial No. 309,009, wherein the screws are fed one at a time from a suitable magazine to the revolving screw-driven bit.
- Figure 1 is a front elevation of one type of screw-driving ma chine showing our improved feeding mechanism applied thereto, said mechanism being shown in central transverse section.
- Fig. 2 is a top plan view of the screw magazine and the feeding device, and showing only a fragmental portion of the driving elements of the machine.
- Figs. 3, 4, and 5 show the three relative positions of the screw-releasing or feeding mechanism, the same being shown in approximately fullsized perspective and detached from the magazine and the other parts of the machine.
- Fig. 6 is an elevation of one of the side faces of the lower end of the cam-rod for operating the screw-releasing blocks.
- A represents a vertical standard having a suitable worktable 13 adjustable verticallythereon. Said standard extends above the plane in which the work is fed to the machine, where it has a laterally disposed supporting plate 0 secured to its upper end for the frame-work in which the operative parts of the machine are held in their proper positions.
- This supporting frame-work comprises a transversely disposed bearing a for the driveshaft 6 of the machine, and has a vertical bearing 0 for a tubular vertically reciprocal shaft d. These bearings communicate with each other and permit said vertical shaft to be rotated by said drive-shaft, through the medium of suitable worm-gears or pinions (not shown).
- the vertical shaft is so arranged that it rotates with said drive shaft but has a vertical reciprocal movement independent thereof.
- this shaft is tubular and its upper end extends above and outside the vertical bearing 0 a suitable distance, where it is surrounded by a sleeve 15.
- Suitable retaining nuts 16 are provided below the sleeve and a collar 18 surrounds the shaft above it thereby preventing the said sleeve from moving longitudinally independent of the shaft although permitting said shaft to rotate independently.
- Sleeve 15 is preferably engaged by the forward bifurcated ends of a pivoted lever 19 operated by means of a suitable foot treadle which, when depressed, moves the shaft (Z downwardly.
- a shaft 7 is connected by frictional devices 2 1 to the tubular shaft d and it extends through the same down to a point below a bushing 6 projecting below the vertical bearing 0.
- the frictional device's operating in conjunction with a spring surrounding the shaft (Z) permit the latter to revolve independent of the inner shaft 7 so that, when the shaft 7 has ceased to revolve by reason of having driven the screw home, the shaft d will continue to revolve by itself and prevent the bit from cutting into the work.
- bracket D Secured to and projecting laterally from the side of the vertical bearing 0 is a bracket D, which, at about its center of length, is.
- the edge of the circular table G (which is secured to the spindle so that its outer portion is in a plane parallel with said flanged edge f) is substantially concentric to said edge but is spaced therefrom a distance less than the diameter of the head of the screws and slightly greater than the thickness of the shank of said screws.
- the circumferential edge of the table may, if desired be beveled to correspond to the bevel of the flanged edge fiof the annular wall and is provided with a downwardly turned flange 9.
- the space between said flanged edge f and the circumferential edge of the table forms a circular space or runway 00 into which the barrels of the screwsslide and are suspended by their headsprior to their being fed out of the magazine.
- the spindle e is driven at a comparatively slow speed through the medium of a worm-gear e thereon, that meshes with and is engaged by a worm F on the adjacent extended end of driveshaft 7).
- the screws are moved around to a point near the vertical bearing 0, where they are dispensed one at a time through the medium of suitable ejecting mechanism into a tubular chute g, that extends from the rim of the magazine downwardly to the screw-driving chuck or bit.
- a horizontal bearing h for a short shaft h Secured to the rear portion of the annular wall E is a horizontal bearing h for a short shaft h, whose forward end extends beyond its bearings over the magazine and is driven by a worm gear 7L (shown in dotted lines, Fig. 2) actuated by the same worm F that drives the spindle 6. Between this worm gear 7L and the adjacent end of the bearing of shaft h, the latter is provided with a circular brush 72.
- a segmental-shaped bar H that fits inside and is secured against the inner surface of the annular wall E just above the flange f thereof. This bar prevents the screws, after passing the brush, from crowding over each other to such an extent that they would clog the runway.
- the discharge opening is preferably made by recessing the under edge of the annular wall E, including a portion of the flange f, on the side of the magazine nearest the vertical bearings c of the machine.
- a screw-releasing mechanism that preferably comprises a suitable rectangularshaped plate K having a shallow channel 76 cut longitudinally along the upper surface thereof, and the vertical portions on each side thereof are provided with screw-holes through which suitable bolts are passed and tapped into the underside of the annular wall E.
- Channel 71 forms a seat or guide for a pair of cooperating screw-releasing blocks L and M that are adapted to be reciprocated back and forth therein.
- the forward edge of the block L (which may be termed the screw-ejecting block) is preferably concaved as indicated with its upper edge countersunk substantially as shown at Z.
- the companion block M (which may be termed the screw-retaining block) has its outer end cut away diagonally and is pointed, preferably toward the corner next to its companion block L.
- These two blocks are adapted to be reciprocated in an intermittent manner by means of a vertically (lisposed cam-carrying plunger N. Said plunger is secured at its upper end to an arm or bracket 22 projecting laterally from the sleeve 15 from which it derives longitudinally reciprocal movement.
- the lower end of said plunger is provided with a flat elongated extension n, of preferably rectangular shape and has cams O and P upon its opposite side faces, that are adapted to engage and operate in suitable transverse recesses m, m, cut substantially vertically in the contacting adjacent side edges of the blocks L and M.
- cams are adapted to time the movements of the blocks so that the screws are fed one at a time to the screwdriving bit.
- cam P moves retaining block M forward (Fig. 4) until its pointed end separates the screw resting upon the ejecting block L from those remaining in the runway w, and prevents the latter from moving forward.
- the retaining block remains stationary, while the cam 0 causes the ejecting block to move backward suflicient to permit the screw supcess in the rim of the wall of the magazine and fall through the chute to suitable clamping jaws 12 just below the lower end of the bit.
- the retaining block remains forward while the ejecting block L returns to its normal position.
- the final movement restores block M to its normal position so as to permit the next screw in the runway to move on to its seat on the forward end of the ejecting block as said screws are swept forward by the rotary motion of the table.
- a substantially U-shaped guide-yoke Q is mounted over the outer end of the plate K.
- the upper arm of this yoke has its top edge provided with two upwardly extending lugs g, 9, between which any suitable antifriction means, such as a roller R, is journaled so that the outer edge of the plunger will touch the edge of said roller at a tangent as the former reciprocates.
- any suitable antifriction means such as a roller R
- WVhat we claim as new is 1.
- a maga- Zine provided with a wall, a table revoluble within the same, there being an annular space between said wall and table, means for ejecting screws from said annular space one at a time, and a brush the axis of which is at an angle to that of said table and revoluble in a direction opposed to that of said table and in a plane tangential to said annular space.
- a magazine comprising an annular wall, a table revoluble within and substantially concentric with said wall, there being an annular space between said wall and table, means for ejecting screws from said annular space one at a time,'and a brush the axis of which is at an angle to that of said table and revoluble in a direction opposed to that of said table and in a plane above and tangential to said annular space.
- a magazine comprising a revoluble table, an annular side-wall having its lower edge flanged inward in the same horizontal plane with the periphery of said table, there being an annular space between said flanged edge and table means for ejecting screws from said annu ar space one at a time, and a brush the axis of which is at an angle to that of said table and revoluble in a direction opposed to that of said table and in a plane tangential to said annular space.
- a magazine provided with a wall, a table revoluble within the same, there being an annular space between said wall and table, means for ejecting screws from said annular space one at a time, a brush the axis of which is at an angle to that of said table and revoluble in a direction opposed to that of said table and in a plane tangential to said annular space, and a segmental bar covering the portion of said annular space between said brush and the screw-ejecting means.
- a magazine In a screw-driving machine, a magazine, a rotatable table having an annular slot between the same and the wall of said magazine, in which the screws hang, and reciprocal means for ejecting screws through said slot one at a time.
- a magazine a rotatable table having its edge pro vided with a downwardly projecting flange and providing an annular slot between the same and the wall of said magazine in which the screws are pendent, and reciprocal means for ejecting screws through said slot one at a time.
- a magas zine having a laterally flanged lower edge, a rotatable table having an annular slot between the same and the flanged edge of said magazine in which the screws are pendent, and reciprocal means for ejecting screws through said slot one at a time.
Description
W. P. HUNT & R. B. WEAVER. FEEDING MECHANISM FOR AUTOMATIC senzw DRIVING MACHINES. APPLIOATION FILLED FEB. 13, 1909.
Patented Sept. 19, 1911.
U TTED STATES PATENT OFFICE.
WILSON P. I-IUNT, OF IVIOLINE, ILLINOIS, AND ROBERT B. WEAVER, OF CLEVELAND, OHIO, ASSIGNORS 'I'O REYNOLDS MACHINE COMPANY, OF ROCK ISLAND, ILLINOIS.
FEEDING MECHANISM FOR AUTOMATIC SCREW-DRIVING MACHINES.
LOO3AO2.
To all whom it may concern:
Be it known that we, WILsoN P. HUNT,
and ROBERT E. WEAVER, both citizens of the United States, and residents of Moline, Rock llsland county, Illinois, and Cleveland, Cuyahoga county, Ohio, respectively, have invented certain new and useful Improvements in Feeding Mechanism for Automatic Screw-Driving Machines, of which the following is a full, clear, and exact description, such as will enable others skilled in the art to which it appertains to make and use the same.
Our invention relates particularly to automatic screw-driving machines such as those designed for use in shops and factories where it is desirable to drive screws rapidly and in large numbers. Such a machine, for example, is shown and described in an application for Letters Patent of the United States, filed by said Wilson P. Hunt, on March 30, 1906, Serial No. 309,009, wherein the screws are fed one at a time from a suitable magazine to the revolving screw-driven bit.
It is the object of our invention to provide a positive and reliable feeding mecha nism that may be readily attached to the magazine whereby the screws will not be permitted to pile up, one upon another, and the feeding of said screws will be so timed relative to the operation of the bit that a single screw will be fed from the magazine during the movement of said bit away from the work.
These objects we accomplish by the means hereinafter fully described and as more particularly pointed out in the claims.
In the drawings: Figure 1 is a front elevation of one type of screw-driving ma chine showing our improved feeding mechanism applied thereto, said mechanism being shown in central transverse section. Fig. 2 is a top plan view of the screw magazine and the feeding device, and showing only a fragmental portion of the driving elements of the machine. Figs. 3, 4, and 5 show the three relative positions of the screw-releasing or feeding mechanism, the same being shown in approximately fullsized perspective and detached from the magazine and the other parts of the machine. Fig. 6 is an elevation of one of the side faces of the lower end of the cam-rod for operating the screw-releasing blocks.
Specification of Letters Patent.
Application filed February 13, 1909.
Patented Sept. 19, 1911.
Serial No. 477,616.
Referring to the drawings, A represents a vertical standard having a suitable worktable 13 adjustable verticallythereon. Said standard extends above the plane in which the work is fed to the machine, where it has a laterally disposed supporting plate 0 secured to its upper end for the frame-work in which the operative parts of the machine are held in their proper positions. This supporting frame-work comprises a transversely disposed bearing a for the driveshaft 6 of the machine, and has a vertical bearing 0 for a tubular vertically reciprocal shaft d. These bearings communicate with each other and permit said vertical shaft to be rotated by said drive-shaft, through the medium of suitable worm-gears or pinions (not shown). The vertical shaft is so arranged that it rotates with said drive shaft but has a vertical reciprocal movement independent thereof. As before stated, this shaft is tubular and its upper end extends above and outside the vertical bearing 0 a suitable distance, where it is surrounded by a sleeve 15. Suitable retaining nuts 16 are provided below the sleeve and a collar 18 surrounds the shaft above it thereby preventing the said sleeve from moving longitudinally independent of the shaft although permitting said shaft to rotate independently. Sleeve 15 is preferably engaged by the forward bifurcated ends of a pivoted lever 19 operated by means of a suitable foot treadle which, when depressed, moves the shaft (Z downwardly. A shaft 7 is connected by frictional devices 2 1 to the tubular shaft d and it extends through the same down to a point below a bushing 6 projecting below the vertical bearing 0. The frictional device's operating in conjunction with a spring surrounding the shaft (Z permit the latter to revolve independent of the inner shaft 7 so that, when the shaft 7 has ceased to revolve by reason of having driven the screw home, the shaft d will continue to revolve by itself and prevent the bit from cutting into the work.
All of the above mechanism, together with the clamping jaws 12 for holding the screws to be driven, is described, claimed, and illustrated in detail in the application for Letters Patent above mentioned, and therefore needs no specific description herein.
Secured to and projecting laterally from the side of the vertical bearing 0 is a bracket D, which, at about its center of length, is.
lower edge f flanged inwardly and beveled on its upper face, and the edge of the circular table G, (which is secured to the spindle so that its outer portion is in a plane parallel with said flanged edge f) is substantially concentric to said edge but is spaced therefrom a distance less than the diameter of the head of the screws and slightly greater than the thickness of the shank of said screws. The circumferential edge of the table may, if desired be beveled to correspond to the bevel of the flanged edge fiof the annular wall and is provided with a downwardly turned flange 9. The space between said flanged edge f and the circumferential edge of the table forms a circular space or runway 00 into which the barrels of the screwsslide and are suspended by their headsprior to their being fed out of the magazine. The spindle e is driven at a comparatively slow speed through the medium of a worm-gear e thereon, that meshes with and is engaged by a worm F on the adjacent extended end of driveshaft 7). As the table revolves slowly the screws are moved around to a point near the vertical bearing 0, where they are dispensed one at a time through the medium of suitable ejecting mechanism into a tubular chute g, that extends from the rim of the magazine downwardly to the screw-driving chuck or bit.
Secured to the rear portion of the annular wall E is a horizontal bearing h for a short shaft h, whose forward end extends beyond its bearings over the magazine and is driven by a worm gear 7L (shown in dotted lines, Fig. 2) actuated by the same worm F that drives the spindle 6. Between this worm gear 7L and the adjacent end of the bearing of shaft h, the latter is provided with a circular brush 72. having wire bristles, the diameter of whose outer periphery is such that the said wires brush any surplus screws, that may be accidentally carried forward, back or to the revolving table, and only allow those to pass which are suspended by their heads in the annular runway In order to do this it is obvious the brush is revoluble in a direction opposite to that of the table,
From a point approximately under shaft 71/ to a point beyond the discharge opening of themagazine, we prefer to cover over the runway a: by a segmental-shaped bar H that fits inside and is secured against the inner surface of the annular wall E just above the flange f thereof. This bar prevents the screws, after passing the brush, from crowding over each other to such an extent that they would clog the runway. The discharge opening is preferably made by recessing the under edge of the annular wall E, including a portion of the flange f, on the side of the magazine nearest the vertical bearings c of the machine. This recess is occupied by a screw-releasing mechanism, that preferably comprises a suitable rectangularshaped plate K having a shallow channel 76 cut longitudinally along the upper surface thereof, and the vertical portions on each side thereof are provided with screw-holes through which suitable bolts are passed and tapped into the underside of the annular wall E. Channel 71: forms a seat or guide for a pair of cooperating screw-releasing blocks L and M that are adapted to be reciprocated back and forth therein.
The forward edge of the block L (which may be termed the screw-ejecting block) is preferably concaved as indicated with its upper edge countersunk substantially as shown at Z. The companion block M (which may be termed the screw-retaining block) has its outer end cut away diagonally and is pointed, preferably toward the corner next to its companion block L. These two blocks are adapted to be reciprocated in an intermittent manner by means of a vertically (lisposed cam-carrying plunger N. Said plunger is secured at its upper end to an arm or bracket 22 projecting laterally from the sleeve 15 from which it derives longitudinally reciprocal movement. The lower end of said plunger is provided with a flat elongated extension n, of preferably rectangular shape and has cams O and P upon its opposite side faces, that are adapted to engage and operate in suitable transverse recesses m, m, cut substantially vertically in the contacting adjacent side edges of the blocks L and M. These cams are adapted to time the movements of the blocks so that the screws are fed one at a time to the screwdriving bit. These movements are as follows, reference being had to Figs. 3, 4t, and 5, of the drawings :-In normal position, when the plunger is elevated, the ejecting block L is in a forward position covering the recess above the chute 9, while the head of a screw is preferably seated in the countersunk concavity Z. As the plunger is lowered, cam P moves retaining block M forward (Fig. 4) until its pointed end separates the screw resting upon the ejecting block L from those remaining in the runway w, and prevents the latter from moving forward. Upon the further downward movement of the plunger the retaining block remains stationary, while the cam 0 causes the ejecting block to move backward suflicient to permit the screw supcess in the rim of the wall of the magazine and fall through the chute to suitable clamping jaws 12 just below the lower end of the bit. After the plunger is reversed and moved upwardly, the retaining block remains forward while the ejecting block L returns to its normal position. The final movement restores block M to its normal position so as to permit the next screw in the runway to move on to its seat on the forward end of the ejecting block as said screws are swept forward by the rotary motion of the table.
In order to provide a guide for the plunger and keep the same properly positioned, a substantially U-shaped guide-yoke Q is mounted over the outer end of the plate K. The upper arm of this yoke has its top edge provided with two upwardly extending lugs g, 9, between which any suitable antifriction means, such as a roller R, is journaled so that the outer edge of the plunger will touch the edge of said roller at a tangent as the former reciprocates. \Vhile we have described a specific device for this purpose it is of course obvious that any well known or desirable expedient may be employed.
WVhat we claim as new is 1. In a screw-driving machine a maga- Zine provided with a wall, a table revoluble within the same, there being an annular space between said wall and table, means for ejecting screws from said annular space one at a time, and a brush the axis of which is at an angle to that of said table and revoluble in a direction opposed to that of said table and in a plane tangential to said annular space.
2. In a screw'driving machine a magazine comprising an annular wall, a table revoluble within and substantially concentric with said wall, there being an annular space between said wall and table, means for ejecting screws from said annular space one at a time,'and a brush the axis of which is at an angle to that of said table and revoluble in a direction opposed to that of said table and in a plane above and tangential to said annular space.
3. In a screw-driving machine a magazine comprising a revoluble table, an annular side-wall having its lower edge flanged inward in the same horizontal plane with the periphery of said table, there being an annular space between said flanged edge and table means for ejecting screws from said annu ar space one at a time, and a brush the axis of which is at an angle to that of said table and revoluble in a direction opposed to that of said table and in a plane tangential to said annular space.
i. In a screw-driving machine a magazine provided with a wall, a table revoluble within the same, there being an annular space between said wall and table, means for ejecting screws from said annular space one at a time, a brush the axis of which is at an angle to that of said table and revoluble in a direction opposed to that of said table and in a plane tangential to said annular space, and a segmental bar covering the portion of said annular space between said brush and the screw-ejecting means.
5. In a screw-driving machine, a magazine, a rotatable table having an annular slot between the same and the wall of said magazine, in which the screws hang, and reciprocal means for ejecting screws through said slot one at a time.
6. In a screw-driving machine, a magazine, a rotatable table having its edge pro vided with a downwardly projecting flange and providing an annular slot between the same and the wall of said magazine in which the screws are pendent, and reciprocal means for ejecting screws through said slot one at a time.
7 In a screw-driving machine a magas zine having a laterally flanged lower edge, a rotatable table having an annular slot between the same and the flanged edge of said magazine in which the screws are pendent, and reciprocal means for ejecting screws through said slot one at a time.
In testimony whereof I have hereunto set my hand and seal this 1st day of February A. D., 1909.
WILSON I. HUNT. [L.S.]
Witnesses:
OLIVE HERO, G. D. REYNOLDS.
In testimony whereof I have hereunto set my hand and seal this 6th day of February A. D., 1909.
ROBERT B. WEAVER.
WVitnessesi W. O. BROOKETT, G. W. SoHILLINe.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents, Washington, I). G.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US47761609A US1003462A (en) | 1909-02-13 | 1909-02-13 | Feeding mechanism for automatic screw-driving machines. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US47761609A US1003462A (en) | 1909-02-13 | 1909-02-13 | Feeding mechanism for automatic screw-driving machines. |
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Publication Number | Publication Date |
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US1003462A true US1003462A (en) | 1911-09-19 |
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US47761609A Expired - Lifetime US1003462A (en) | 1909-02-13 | 1909-02-13 | Feeding mechanism for automatic screw-driving machines. |
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US (1) | US1003462A (en) |
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1909
- 1909-02-13 US US47761609A patent/US1003462A/en not_active Expired - Lifetime
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