US1594326A - Blank-reversing device for drawing presses - Google Patents

Blank-reversing device for drawing presses Download PDF

Info

Publication number
US1594326A
US1594326A US674255A US67425523A US1594326A US 1594326 A US1594326 A US 1594326A US 674255 A US674255 A US 674255A US 67425523 A US67425523 A US 67425523A US 1594326 A US1594326 A US 1594326A
Authority
US
United States
Prior art keywords
blanks
blank
succession
conveyor
presses
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US674255A
Inventor
Walter E Richter
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
AO Smith Corp
Original Assignee
AO Smith Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by AO Smith Corp filed Critical AO Smith Corp
Priority to US674255A priority Critical patent/US1594326A/en
Application granted granted Critical
Publication of US1594326A publication Critical patent/US1594326A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D43/00Feeding, positioning or storing devices combined with, or arranged in, or specially adapted for use in connection with, apparatus for working or processing sheet metal, metal tubes or metal profiles; Associations therewith of cutting devices
    • B21D43/02Advancing work in relation to the stroke of the die or tool
    • B21D43/04Advancing work in relation to the stroke of the die or tool by means in mechanical engagement with the work
    • B21D43/14Advancing work in relation to the stroke of the die or tool by means in mechanical engagement with the work by turning devices, e.g. turn-tables
    • B21D43/145Turnover devices, i.e. by turning about a substantially horizontal axis
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D43/00Feeding, positioning or storing devices combined with, or arranged in, or specially adapted for use in connection with, apparatus for working or processing sheet metal, metal tubes or metal profiles; Associations therewith of cutting devices
    • B21D43/20Storage arrangements; Piling or unpiling

Definitions

  • WALTER E RICHTER, OF'WA'UWATOSA, WISCONSIN, ASSIGNOR TO A. 0. SMITH OOB- POBATION, OF IIIIIIILVTA'U'IKEE, WISCONSIN, A CORPORATION OF NEW YORK.
  • the present invention is constituted as an operating element of the side bar forming line of presses disclosed in Patent No. 1,47 7 7T8, ranted December 18, 1923, to R. Stanley mith, in which sets com rising curved right and left hand side bars or automobile or other vehicle frames are produced in regular sequence of pairs.
  • the longitudinally curved, flat metal blanks from which the right and left hand side bars are formed in alternation are advanced b a conveyor mechanism in a regular stepy-step procession to positions in their line of travel from which points they are diverted to the drawing presses which turn the longitudinal margins of the blanks to form curved channel bars each composed of a web and flanges extending outwardly therefrom at one side of the web.
  • the two drawing presses employed for imparting the channel shapes to the respective side bars may be the same in structure and operation, but differ only in that they present a different or reverse arrangement of the dies, suitably disposed for the production of the two curved barsof a pair. But inasmuch as the longitudinally curved blanks, following the several preparatory operations, are advanced in the same relative order, that is, with their contours in the same position with relation to each other, and the two drawing presses have areverse arrangement of the dies, it is necessary that each alternate longitudinally curved blank in the advancing line he turned over, so that its contour will conform to the arrangement of the dies of the drawin press 4 which is to convert it into a-curved c annel bar. I
  • the blanks may be consecutively numbered, for the urpose ofillustration, and that the o d numbered blanks will be withdrawn or diverted from the path of their movement to the drawing press which, forms the right hand side bar, I0 and that the even numberedblanks will be withdrawn or diverted to the drawing press which forms the left handside bar.
  • the present invention resides in devices which, after the odd numbered blanks have been withdrawn from the conveyor and diverted to the right hand drawing press, are
  • Figure 1 is a plan view showing in a conventional man ner the conveyor mechanism for advancing the blanks, the devices which reverse the positions of alternate blanks as 75 advanced by the conveyor, and the right and left hand drawing presses to which the blanks are in alternation diverted from their line of travel. 7
  • Fig. 2 is an enlarged view in elevation from the lower side of Fig. 1, showing the devices which efl'ect reversal of the position of the alternate blanks.
  • Fig. 3- is a vertical sectional view transversely of the conveyor mechanism.
  • the right and left hand drawing presses indicated by the letters A and B, respectively, are shown as arranged at one side of the path of travel of the flat curved or otherwise contoured blanks which 00 are to be converted into flanged side bars, in the operation of the said presses.
  • the presses are suitably spaced a art so as to permit the proper location of t e flop-over mechanism for the alternate blanks with relation to the distance by which the presses are separated.
  • the numerals 20 indicate posts for su porting arallel tracks 21, over which the flatbla s are moved edgewise in regular succession in a step by step procession.
  • Brackets 22 attached to the posts adjacent the tracks 21, support rollers 23, u on which the conveyor or feeder G for the banks may move.
  • the said conveyor is formed of parallel rails 24 which are connected at in tervals by means of tie rods. 25, so as to constitute a frame; Both the tracks 21 and the rails 24 may conveniently be formed as angle irons, upon the upstanding flanges of which the flat blanks rest and are supported in their travel laterally.
  • Pivoted dogs 26 are mounted intermedi-- ate their ends at equally spaced points in the length of the fixed tracks 21, the pivotal points thereof being nearer to the forward end, so that the longer ends act as counterweights to raise the shorter ends and project them slightly above the top of the tracks. Movement of the curved blanks over the upwardly projecting forward portions of the dogs will rotate them about their pivots so as to depress their upper ends be- ..ow the plane of the tracks, and when the blanks in their forward movement have passed clear of the dogs, the normal positions of the latter under the influence of gravity are resumed. In such normal positions, the dogs act as stops which prevent the retraction of the blanks due to frictional engagement with the rails 24: in the backward movement of the conveyor.
  • the rails 24 of the conveyor are provided with similarly shaped and mounted dogs 27 which act in the same manner as the dogs 26.
  • a blank in the engagement of the dogs 27 therewith will be advanced until it has been passed beyond a pair of oppositely arranged dogs 26, which will then act as described to prevent backward movement of the blank.
  • the conveyor is then retracted to engage its dogs with the next blank in the line at the rear, and upon the next forward feeding movement of the conveyor, the blank so engaged by the dogs 27 will be advanced as before, and these operations are repeated.
  • a stand 30 is positioned under the conveyor at a point in line with the space separating the presses A and B.
  • a stud 31 fixed in the said stand pivotally supports a radial arm 32 which is adapted to be oscillated through a short are by means of a cam actuated connecting rod 33.
  • the free end of the radial arm 32 is provided with a sector gear 34. The latter meshes with the pinion 35 fastened upon a shaft 36 journalled in the stand 30.
  • the shaft 36 is provided with a plurality of radial arms 37, slotted at their outer ends, in the manner indicated at 38 in Fig. 2.
  • the slots 38 in the several arms 37 are maintained in alignment in a plane coincident with that of the surface of the tracks 21 and rails 24, so as to receive in single order the even numbered contoured blanks when moved by the action of the conveyor.
  • the cam now comes into action and through the link 33 and the intermediate parts, the arms 37 with the blank supported in the radial slots thereof are moved through an arc of 180 so as to deposit the said blank upon the tracks 21 and rails 24 at the other side of the shaft 36.
  • the said blank is pushed out of its enga ement with the slots in the ends of the ra ial arms 37, and its forward feeding movement is continued until it is brought to station E in line with the forming press B.
  • This blank having reached the end of its travel, is then diverted into the said forming press, and is converted into a left handside bar.
  • the shaft 36 may be provided with counterweights 39, which will act to balance the movement of the parts, and render the operation smoother by lessening the vibrations which otherwise would exist.
  • Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with conveying means for moving a succession of blanks to the separate presses, and means for reversing the position of alternate blanks in the succession. for proper presentation to the drawing presses.
  • Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with a track upon which a succession of blanks is supported, a conveyor for advancing the blanks in spaced relation, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses.
  • Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with a track upon which a succession of blanks is supported, a reciprocating conveyor for advancing the blanks in spaced relation, means for holding the blanks in the positions to which they are moved by the conveyor, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses.
  • reciprocating conveyor provided with upwardly projecting pivoted dogs for simultaneously advancing a succession of blanks along the track, pivoted dogs mounted upon the tracks and adapted to hold the blanks against retraction in the rearward move ment of the conveyor, the said dogs being counter-balanced so as to permit their depression by a blank thereover and to resume normal positions when free, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses.
  • Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with conveying means for moving a succession of blanks to the separate presses, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses, such reversing means comprising a shaft with radial arms provided with means thereon for receiving a blank, and means for oscillating the said shaft.
  • Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with conveying metal for moving a succession of blanks to the separate presses, and means for reversing.
  • Such means comprising a shaft having radial arms provided with means thereon for receiving a blank, means on the ing presses.
  • such means comprising a shaft.
  • a blank feeding mechanism comprising a track upon which a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in .combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft provided with means for receiving the blank to be reversed, and
  • a blank feeding mechanism comprising a track upon which a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft extending transversely of the conveyor and provided with holding means adapted to receive a blank from the conveyor at one side of the rock shaft and deliver it to the conveyor at the other side thereof, means on the conveyor for delivering the blank to the said holding means and removing it therefrom, and means for rotating the rock shaft through an arc to reverse the position of the blank.
  • a blank feeding mechanism comprising a track upon which a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft provided with radial arms having axially extending slots in the ends thereof for receiving a blank, means for entering a blank in the said slots at one side of the said shaft and forremoving it therefrom at the other, and means for oscillating the said shaft;
  • a blank feedin mechanism comprising a track upon w ich a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft provided with radial arms-having axially eX- tending slots in the ends thereof for receiv ing a blank, means on the conveyor for entering a blank in the said slots at one side of the said shaft and for removing it there'- from at the other, and means for oscillating the said shaft.
  • a blank feeding mechanism comprising a track upon which a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft provided With radial arms having axially extending slots in the ends thereof for receiving a blank, means for entering a blank in the said slots at one side of the said shaft and for removing it there from at the other, means for oscillating the said shaft, and a counterweight on the shaft for the said radial arms.
  • Two separated drawing presses adapti ed to form reversely flanged bars from a succession of metal blanks of like contour, in combination with means for conveying the succession of blanks to the presses, and means for removing alternate blanks from the con- 3 veyor and restoring them thereto in reversed a position for proper presentation to thedraw- 1n presses.

Description

July 27, 1926.
Filed Nov 12, 1923 2 Sheets-Sheet 1 w Y .9 H H 3 M k\ m Q m INVENTOR. Wa #erf. Ric/1 f BY A TTORNEYS.
1923 2 Sheets-Sheet 2 INVENTOR. Wa/l-er EfP/b/if A TTORNEYS.
July 27, 1926. v
W. E. RICHTER BLANK REVERSING DEVICE FOR DRAWING PRESSES Filed Nov. 12,
Patented July 27, 19 26.
UNITED STATES PATENT. OFFICE.-
WALTER E. RICHTER, OF'WA'UWATOSA, WISCONSIN, ASSIGNOR TO A. 0. SMITH OOB- POBATION, OF IIIIIIILVTA'U'IKEE, WISCONSIN, A CORPORATION OF NEW YORK. I
IBLANK-REVERSING DEVICE FOR DRAWING- PBESBES.
Application filed libvember 12, 1928. Serial no. mast.
The present invention is constituted as an operating element of the side bar forming line of presses disclosed in Patent No. 1,47 7 7T8, ranted December 18, 1923, to R. Stanley mith, in which sets com rising curved right and left hand side bars or automobile or other vehicle frames are produced in regular sequence of pairs.
In the operation of the said side bar- 10 forming line, the longitudinally curved, flat metal blanks from which the right and left hand side bars are formed in alternation, are advanced b a conveyor mechanism in a regular stepy-step procession to positions in their line of travel from which points they are diverted to the drawing presses which turn the longitudinal margins of the blanks to form curved channel bars each composed of a web and flanges extending outwardly therefrom at one side of the web.
r The two drawing presses employed for imparting the channel shapes to the respective side bars may be the same in structure and operation, but differ only in that they present a different or reverse arrangement of the dies, suitably disposed for the production of the two curved barsof a pair. But inasmuch as the longitudinally curved blanks, following the several preparatory operations, are advanced in the same relative order, that is, with their contours in the same position with relation to each other, and the two drawing presses have areverse arrangement of the dies, it is necessary that each alternate longitudinally curved blank in the advancing line he turned over, so that its contour will conform to the arrangement of the dies of the drawin press 4 which is to convert it into a-curved c annel bar. I
By way of explanation of the advancing movement of the succession of curved blanks, it is assumed that the blanks may be consecutively numbered, for the urpose ofillustration, and that the o d numbered blanks will be withdrawn or diverted from the path of their movement to the drawing press which, forms the right hand side bar, I0 and that the even numberedblanks will be withdrawn or diverted to the drawing press which forms the left handside bar.
The present invention resides in devices which, after the odd numbered blanks have been withdrawn from the conveyor and diverted to the right hand drawing press, are
- adapted to receive the even numbered blanks as presented singly by the conveyor mech anism and then operated to turn them over and deliver them again to the conveyor mechanism- The advancing movement of the even numbered blank in its reversed position is then resumed until such'blank has reached the point where its diversion to the left hand drawing press occurs.
These turning or flop-over devices are simple in construction and efiicient in o eration, as will hereinafter be described. eir novelty will be pointed out in the appended claims.
In the drawings herewith Figure 1 is a plan view showing in a conventional man ner the conveyor mechanism for advancing the blanks, the devices which reverse the positions of alternate blanks as 75 advanced by the conveyor, and the right and left hand drawing presses to which the blanks are in alternation diverted from their line of travel. 7
Fig. 2 is an enlarged view in elevation from the lower side of Fig. 1, showing the devices which efl'ect reversal of the position of the alternate blanks. M
Fig. 3-is a vertical sectional view transversely of the conveyor mechanism. as
In the drawings, the right and left hand drawing presses indicated by the letters A and B, respectively, are shown as arranged at one side of the path of travel of the flat curved or otherwise contoured blanks which 00 are to be converted into flanged side bars, in the operation of the said presses. The presses are suitably spaced a art so as to permit the proper location of t e flop-over mechanism for the alternate blanks with relation to the distance by which the presses are separated.
The numerals 20 indicate posts for su porting arallel tracks 21, over which the flatbla s are moved edgewise in regular succession in a step by step procession. Brackets 22 attached to the posts adjacent the tracks 21, support rollers 23, u on which the conveyor or feeder G for the banks may move. The said conveyor is formed of parallel rails 24 which are connected at in tervals by means of tie rods. 25, so as to constitute a frame; Both the tracks 21 and the rails 24 may conveniently be formed as angle irons, upon the upstanding flanges of which the flat blanks rest and are supported in their travel laterally.
Pivoted dogs 26 are mounted intermedi-- ate their ends at equally spaced points in the length of the fixed tracks 21, the pivotal points thereof being nearer to the forward end, so that the longer ends act as counterweights to raise the shorter ends and project them slightly above the top of the tracks. Movement of the curved blanks over the upwardly projecting forward portions of the dogs will rotate them about their pivots so as to depress their upper ends be- ..ow the plane of the tracks, and when the blanks in their forward movement have passed clear of the dogs, the normal positions of the latter under the influence of gravity are resumed. In such normal positions, the dogs act as stops which prevent the retraction of the blanks due to frictional engagement with the rails 24: in the backward movement of the conveyor.
The rails 24 of the conveyor are provided with similarly shaped and mounted dogs 27 which act in the same manner as the dogs 26. In the forward movement of the conveyor, a blank in the engagement of the dogs 27 therewith, will be advanced until it has been passed beyond a pair of oppositely arranged dogs 26, which will then act as described to prevent backward movement of the blank. The conveyor is then retracted to engage its dogs with the next blank in the line at the rear, and upon the next forward feeding movement of the conveyor, the blank so engaged by the dogs 27 will be advanced as before, and these operations are repeated.
It will be seen that in the operation of the conveyor the blanks are advanced in a regular" spaced succession, as indicated at the right of Fig. 1. -When the first curved blank in the procession arrives at station l) in the path of its travel which is directly in line with the drawing press A, the said blank, and the odd numbered ones in the succession which follows, will be di-' verted from its course and fed into the drawing press. by which it will be converted into a right hand bar. The feeding movement of the second blank, however, continues. Thus, the odd numbered blanks are withdrawn. from the line of travel, while the alternating even numbered ones continue to move forwardly past the station at which the odd numbered blanks are diverted to the right hand drawing press.
For the reasons hereinbeforeout-lined, it is necessary to completely reverse the positions occupied by the second, fourth, sixth, and so on, blanks of. the original procession, now reduced by the withdrawal of every other blank, and this action is attaine'd through the instrumentality of simple devices which will now be described.
A stand 30 is positioned under the conveyor at a point in line with the space separating the presses A and B. A stud 31 fixed in the said stand pivotally supports a radial arm 32 which is adapted to be oscillated through a short are by means of a cam actuated connecting rod 33. The free end of the radial arm 32 is provided with a sector gear 34. The latter meshes with the pinion 35 fastened upon a shaft 36 journalled in the stand 30. The shaft 36 is provided with a plurality of radial arms 37, slotted at their outer ends, in the manner indicated at 38 in Fig. 2. The slots 38 in the several arms 37 are maintained in alignment in a plane coincident with that of the surface of the tracks 21 and rails 24, so as to receive in single order the even numbered contoured blanks when moved by the action of the conveyor. The cam now comes into action and through the link 33 and the intermediate parts, the arms 37 with the blank supported in the radial slots thereof are moved through an arc of 180 so as to deposit the said blank upon the tracks 21 and rails 24 at the other side of the shaft 36. In'the next forward movement of the conveyor, the said blank is pushed out of its enga ement with the slots in the ends of the ra ial arms 37, and its forward feeding movement is continued until it is brought to station E in line with the forming press B. This blank, having reached the end of its travel, is then diverted into the said forming press, and is converted into a left handside bar.
In order to compensate for the weight of the radial arms and the curved blank which is lifted thereby, the shaft 36 may be provided with counterweights 39, which will act to balance the movement of the parts, and render the operation smoother by lessening the vibrations which otherwise would exist.
Although I have shown and described my invention for use in connection with drawing presses organized to form curved flanged bars, it is obvious that the invention is not to be limited to the production of flanged bars of that particular form. The invention may be used in connection with the formation of straight flanged bars from rectangular blanks, or blanks having any other contour, in which the perforations in the blanks do not appear in the same relative positions in the completed bars. Under such conditions it becomes necessary, therefore, to reverse the position of one of the blanks of the succession before it is diverted to the drawing press, in order that a properly mated pair of flanged bars may be produced.
Nor is it intended to restrict the appliwhich separate drawing presses, as recited in some of the claims, are employed, for obviously a single press structure provided with a plural number of sets of dies arranged and operated so as to convert the blanks into' mated pairs of flanged bars will be within the scope of my invention.
Other changes in the structure herein-dis closed may be made without departing from the spirit of my invention.
Having thus described my invention what I claim and desire to secure by Letters Patent of the United States, is
1. Separate drawing presses adapted to form mated flanged bars from sheet metal blanks, in combination with means for conveying a succession of blanks, and means for reversing the position of certain blanks in the succession for proper presentation to the drawing presses.
2. Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with conveying means for moving a succession of blanks to the separate presses, and means for reversing the position of alternate blanks in the succession. for proper presentation to the drawing presses.
3. Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with a conveyor adapted to advance a succession of blanks in spaced relation, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses. a
4:. Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with a track upon which a succession of blanks is supported, a conveyor for advancing the blanks in spaced relation, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses.
5. Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with a track upon which a succession of blanks is supported, a conveyor for advancing the blanks in spaced relation, means for holding the blanks in the positions to which they are moved by the conveyor, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses. v
6. Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with a track upon which a succession of blanks is supported, a reciprocating conveyor for advancing the blanks in spaced relation, means for holding the blanks in the positions to which they are moved by the conveyor, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses.
7. Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with a track upon which a'succession of blanks is supported, a conveyor for advancing a succession of blanks along the track, pivoted dogs mounted upon the track and .adapted to hold the blanks against retractive movement, and
means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses.
8. Separate drawing presses adapted to form pairs of flanged barsfrom sheet 'metal blanks, in combination with a track upon which a succession of blanks is supported, a reciprocating conveyor provided with upwardly projecting pivoted dogs for simultaneously advancing a succession of blanks along the track, pivoted dogs mountedupon the tracks and adapted to hold the blanks against retraction in the rearward movement of the conveyor, and means for reversing the position of alternate blanks in the succession forproper presentation to the drawing presses.
9. Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with a track upon which a succession of blanks is supported, a
reciprocating conveyor provided with upwardly projecting pivoted dogs for simultaneously advancing a succession of blanks along the track, pivoted dogs mounted upon the tracks and adapted to hold the blanks against retraction in the rearward move ment of the conveyor, the said dogs being counter-balanced so as to permit their depression by a blank thereover and to resume normal positions when free, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses.
10. Separate drawing pressesadapted to form pairs of flanged bars from sheet metal blanks, in combination with conveying means for moving a succession of blanks to the separate presses, and means for reversing the position of alternate blanks in the succession for proper presentation to the drawing presses, such reversing means comprising a shaft with radial arms provided with means thereon for receiving a blank, and means for oscillating the said shaft.
11. Separate drawing presses adapted to form pairs of flanged bars from sheet metal blanks, in combination with conveying metal for moving a succession of blanks to the separate presses, and means for reversing.
the position of alter ate blanks in the succession for proper plgsentation to the drawing presses. such means comprising a shaft having radial arms provided with means thereon for receiving a blank, means on the ing presses. such means comprising a shaft.
having radial arms provided with means thereon for receiving a blank, means on the conveyor for supplying a blank'to the radial arms, means for removing the blank from the radial arms, and means for oscillating the said shaft.
13. A blank feeding mechanism comprising a track upon which a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in .combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft provided with means for receiving the blank to be reversed, and
means for rotating the rock shaft through an arc to reverse the position of the blank.
14. A blank feeding mechanism comprising a track upon which a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft extending transversely of the conveyor and provided with holding means adapted to receive a blank from the conveyor at one side of the rock shaft and deliver it to the conveyor at the other side thereof, means on the conveyor for delivering the blank to the said holding means and removing it therefrom, and means for rotating the rock shaft through an arc to reverse the position of the blank.
15. A blank feeding mechanism comprising a track upon which a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft provided with radial arms having axially extending slots in the ends thereof for receiving a blank, means for entering a blank in the said slots at one side of the said shaft and forremoving it therefrom at the other, and means for oscillating the said shaft;
16. A blank feedin mechanism comprising a track upon w ich a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft provided with radial arms-having axially eX- tending slots in the ends thereof for receiv ing a blank, means on the conveyor for entering a blank in the said slots at one side of the said shaft and for removing it there'- from at the other, and means for oscillating the said shaft.
17. A blank feeding mechanism comprising a track upon which a succession of metal blanks is supported, a conveyor for advancing a succession of blanks along the track, in combination with means for reversing the position of certain of the blanks, such means comprising a rock shaft provided With radial arms having axially extending slots in the ends thereof for receiving a blank, means for entering a blank in the said slots at one side of the said shaft and for removing it there from at the other, means for oscillating the said shaft, and a counterweight on the shaft for the said radial arms.
18. Separate drawing presses adapted to form reversel flanged bars from a succession of metal blanks of like contour, in combination with means for conveying the succession of blanks to the presses, and means for removing certain of the blanks from the conveyor and restoring them thereto in reversed position for pro-per presentation to the drawing presses.
'19. Two separated drawing presses adapti ed to form reversely flanged bars from a succession of metal blanks of like contour, in combination with means for conveying the succession of blanks to the presses, and means for removing alternate blanks from the con- 3 veyor and restoring them thereto in reversed a position for proper presentation to thedraw- 1n presses.
n testimony whereof, I have signed my name at Milwaukee, this 9th day of November, 1923.
W. E. RICHTER.
US674255A 1923-11-12 1923-11-12 Blank-reversing device for drawing presses Expired - Lifetime US1594326A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US674255A US1594326A (en) 1923-11-12 1923-11-12 Blank-reversing device for drawing presses

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US674255A US1594326A (en) 1923-11-12 1923-11-12 Blank-reversing device for drawing presses

Publications (1)

Publication Number Publication Date
US1594326A true US1594326A (en) 1926-07-27

Family

ID=24705927

Family Applications (1)

Application Number Title Priority Date Filing Date
US674255A Expired - Lifetime US1594326A (en) 1923-11-12 1923-11-12 Blank-reversing device for drawing presses

Country Status (1)

Country Link
US (1) US1594326A (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2664992A (en) * 1950-02-25 1954-01-05 American Metal Co Ltd Inspection conveyer
US2863381A (en) * 1953-01-13 1958-12-09 Steck Ware decorating machine
US2881899A (en) * 1957-01-28 1959-04-14 Western Electric Co Article turnover device
US2943749A (en) * 1956-10-18 1960-07-05 Sylvania Electric Prod Multiple clamping of mount stems
US3138854A (en) * 1960-03-25 1964-06-30 Waldes Kohinoor Inc Combination retaining-ring dispensing and applying means
US3261449A (en) * 1964-06-19 1966-07-19 Simms T S Co Ltd Brush assembly machine
US3342125A (en) * 1965-08-02 1967-09-19 Danly Mach Specialties Inc Apparatus for reversing a workpiece for an automatic press line
US3347349A (en) * 1966-04-28 1967-10-17 Fmc Corp Plate inverting apparatus
DE2757624A1 (en) * 1977-12-23 1979-06-28 Volkswagenwerk Ag Workpiece turning unit between two processing machines - swivels transport carrier through 180 degrees at optimum speed and returns to original position

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2664992A (en) * 1950-02-25 1954-01-05 American Metal Co Ltd Inspection conveyer
US2863381A (en) * 1953-01-13 1958-12-09 Steck Ware decorating machine
US2943749A (en) * 1956-10-18 1960-07-05 Sylvania Electric Prod Multiple clamping of mount stems
US2881899A (en) * 1957-01-28 1959-04-14 Western Electric Co Article turnover device
US3138854A (en) * 1960-03-25 1964-06-30 Waldes Kohinoor Inc Combination retaining-ring dispensing and applying means
US3261449A (en) * 1964-06-19 1966-07-19 Simms T S Co Ltd Brush assembly machine
US3342125A (en) * 1965-08-02 1967-09-19 Danly Mach Specialties Inc Apparatus for reversing a workpiece for an automatic press line
US3347349A (en) * 1966-04-28 1967-10-17 Fmc Corp Plate inverting apparatus
DE2757624A1 (en) * 1977-12-23 1979-06-28 Volkswagenwerk Ag Workpiece turning unit between two processing machines - swivels transport carrier through 180 degrees at optimum speed and returns to original position

Similar Documents

Publication Publication Date Title
US1594326A (en) Blank-reversing device for drawing presses
US3195737A (en) Apparatus for separating individual billets from bundles
US2379911A (en) Article handling apparatus
US1729237A (en) Can-distributing system
US3268059A (en) Conveyor apparatus
US2053315A (en) Delivery apparatus
US2645327A (en) Jog feeder for books
US1467409A (en) Automatic case feeder for bottle washers, etc.
US1503585A (en) Feeding device for vial machines
US2530419A (en) Can unscrambler
US2060561A (en) Frame welder
US1834728A (en) Hotbed
US2279947A (en) Grading machine
US3533519A (en) Transfer apparatus for elongated pads and the like
US1418117A (en) Feeding device for slitters
US2114927A (en) Device for the crosswise delivery or deposition or the counting of cards, sheets, envelopes, or the like
US1806391A (en) Skip-feed attachment for slotting and creasing machines
US1915765A (en) Bag sewing machine
US1891195A (en) Can feeding machine
US2281006A (en) Grouping and arranging mechanism for packet assembling machines
US2247673A (en) Bread-loaf fractionating mechanism
US3029922A (en) High speed kick-out device
US1881187A (en) Can turning mechanism
US1897508A (en) parker
US3089370A (en) Binder comb forming machine