US1620260A - Bolt or rod straightening machine - Google Patents

Bolt or rod straightening machine Download PDF

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Publication number
US1620260A
US1620260A US523407A US52340721A US1620260A US 1620260 A US1620260 A US 1620260A US 523407 A US523407 A US 523407A US 52340721 A US52340721 A US 52340721A US 1620260 A US1620260 A US 1620260A
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die
block
bolt
cross
head
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US523407A
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Daniel P Kellogg
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    • 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
    • B21D3/00Straightening or restoring form of metal rods, metal tubes, metal profiles, or specific articles made therefrom, whether or not in combination with sheet metal parts
    • B21D3/10Straightening or restoring form of metal rods, metal tubes, metal profiles, or specific articles made therefrom, whether or not in combination with sheet metal parts between rams and anvils or abutments

Definitions

  • Articles of this kind have been reclaimed by the use of a power hammer under which the article is turned constantly by hand until the former shape has been reproduced and it is a further object of this invention to so construct a machine that a single operation will accomplish the reforming of the bolt or rod and at the same time construct the machine to adapt it to articles of this character of different diameters.
  • Fig. 1 is a view in front elevation of the complete machine constructedin accordance with this invention.
  • Fig. 2 is a view in vertical cross section taken on the lines 2-2 of Fig. 1. V
  • Fig. 3 is aview in horizontal cross section taken on the line 3-3 of Fig. 1.
  • Fig. 4 is anenlarged detail View in side elevation illustrating the adjustability of the dies. 7
  • Fig. 5 is an enlarged detail view in perspective of the dies, detached from the machine, illustrating the mode of operation.
  • the base 1 mounts a horizontal driven shaft 2 having pulley wheels 3 on each end adjacent the exterior of the base either one or both adapted to be connected by a'belt to a power shaft, and eccentric cams 1 arranged equidistant on each side of the center of the base.
  • the eccentrics operate a cross head 5 by connecting rods 6 to travel to and from the base Serial No. 523,407.
  • the underside of the cross head is pro vided with an undercut groove 11 adapted to dove tail with a correspondingly cut projection 12 on the upper die block 13.
  • the portion of the base between the eccentrics and guides 7 is provided with an inclined surface 14 over which an adjusting block 15 is mounted to slide between the guides by means of a screw shaft 16 having a head 17 on one end rotatably engaging the block, as shown,. and passing through a threaded block 18 held against rotation by a set screw 19 in the base and having a hand wheel 20 on the exterior end.
  • Theupper surface of the adjusting block is provided with a horizontal plate 21 for supporting the lower die block 22.
  • the under surface of the upper die block 13 is provided with a central longitudinal angular groove 23, the sides of which are .at rightangles to each other and the lower die block 22 is provided with a similar groove 24:.
  • the upper die block 13 is divided by a number of equally spaced recesses 25 parallel to and between its longitudinal ends formed by cutting through the side walls on each,
  • the lower die block22 is preferably formed of a plurality of sections secured together by longitudinal bolts 26 with alternating sections 27 adapted to pass into the recesses 25 in the upper block and one section adapted to pass over the exterior of each longitudinal end of die block 13.
  • the other alternating sections 28 are in reality spacers and have horizontal upper surfaces which are below the lowermo-stnormal end of travel ofthe upper die.
  • the vertical projection 10 of the cross head traveling in the guide cap 9 insures the constant alignment of the upper die block.
  • Some of the sections 27 of the lower 7 on each side to engage the guides and insure the constant relation of the lower die to the upper die.
  • the lower die block rests upon the horizontal plate 21 of the adjusting block 15 so that movement imparted by the handwheel 20 to the adjusting block will change the vertical relation of the lower die block to the upper die block without altering their horizontal relation to each other.
  • Fig. 5 illustrates clearly the manner in which the dies straighten a bolt or rod.
  • the cross head is brought to its uppermost end of travel, the rod or belt inserted between the dies, resting on the lower one, the distance of approach between the dies adjusted to the diameter of the rod and the descent of the upper die will: st-raigl-iten the portion of the rod en'ibra-ced by the two dies.
  • the application of power to the machine may be continuous or regulated by any of the well known power press controlling n'ieans, It is obvious that a bolt which is completely embraced by the dies may be straightened by a single operation, while a rod will be straightened by a series of successive operations by advancing the rod less than the length of the dies between each application of power or reciprocation of the upper die.
  • a machine for reforming rods or cylindrical objects including a pair of die blocks having correspondingly alined angular intermeshing die elements adapted to receive the object to be reformed between them, and means for applying pressure to the die blocks to reform the object, each die block having a series of similar recesses of equal width and parallel sides alternating with the recesses in the other die block so that the portions of one die block will be received with in the reeessses of the other, said recesses extending through the sides of their respective die blocks, the bottoms of the recesses in one block extending as prolongations of the surfaces of the angular die elements and the other block being formed with the bottoms of the recesses parallel to the apices of the angular die elements thereof.
  • a machine for reforming rods or cylindrical objects including a pair" of die blocks having correspondingly alined intermeshing die elements adapted to receive the object to be reformed between them, means for re ciprocating one of the the blocks including guides for both blocks and a cross-head traveling between said guides to which the reclprocable block it attached, a projection extending from said cross-head and a stationary guide for said projection for maintaining constant relation of the die block carried by the cross-head, and means for applying pressure to the cross head to reform the object.
  • a machine for reforming rods or cylindrical objects including a pair of die blocks having correspondingly alined intermeshing die elements adapted to receive the object to be reformed between them, means :for reciprocating one of the die blocks including guides for both blocks, one of said die blocks having portions engaging two sides of each guide, and a cross-head traveling between said guides to which the reciprocable block is attached, a projection extending from said cross-head and astationary guide for said projection for maintaining constant relation of the die block carried by the cross-head, and means for applying pressure to the cross-head to re form the object.
  • a machine for reforming rods or cylindrical objects including a pair of die blocks having correspondingly alined inter-meshing die elements adapted to receive the object to be reformed between them, means for reciprocating one of the die blocks including guides for both blocks, one of said die blocks having portions engaging two sides of each guide, a cross-head traveling between said guides to which the reciprocable block is attached, a projection extending from said cross-head and a stationary guide for said projection for maintaining constant relation of the die block carried by the cross head, and means for applying pressure to the cross-head to reform the object, the die block having portions engaging two sides of each guide, a movable wedge supporting said die block, and means for operating the wedge to vary the relation between the die blocks.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Forging (AREA)

Description

March 8 1927.
D. P. KELLOGG BOLT OR ROD STRAIGHTENING MACHINE Filed Dec. 19, 1921 3 Shee ts-Sheet 1 March ,8, 1927.
D. P. KELLOGG BOLT 0R RFD STRAIGHTENING MAQHINE Filed Dec. 19. 1'92] 3 Sheets-Sheet 2 mu/f2/ March 8, 1927.
D. P. KELLOGG BOLT 0R ROD STRAI'GHTENING mam Filed Dec. 19, 192] 3 Sheets-Sheet 3 Afar-11g Patented Mar. 8, 1927.
UNITED STATES 1,620,260 PATENT OFFICE.
DANIEL P. KELLOGG, 015 LOS AIlG-ELES, CALIFORNIA.
BOLT R ROD STRAIGHTENING MACHINE.
" Application filed. December 18, 1921.
It is an object of this invention to provide a machine in which by one or more operations rods or bolts may be quickly straightened or reformed to be capable of reuse. Articles of this kind have been reclaimed by the use of a power hammer under which the article is turned constantly by hand until the former shape has been reproduced and it is a further object of this invention to so construct a machine that a single operation will accomplish the reforming of the bolt or rod and at the same time construct the machine to adapt it to articles of this character of different diameters.
While the preferred form of this invention is illustrated on the accompanying sheets of drawings, yet it is to be understood that minor detail changes may be made without departing from the scope thereof.
In the drawings: v
Fig. 1 is a view in front elevation of the complete machine constructedin accordance with this invention. I
Fig. 2 is a view in vertical cross section taken on the lines 2-2 of Fig. 1. V
Fig. 3 is aview in horizontal cross section taken on the line 3-3 of Fig. 1.
Fig. 4 is anenlarged detail View in side elevation illustrating the adjustability of the dies. 7
Fig. 5 is an enlarged detail view in perspective of the dies, detached from the machine, illustrating the mode of operation.
In carrying out this invention the base 1 mounts a horizontal driven shaft 2 having pulley wheels 3 on each end adjacent the exterior of the base either one or both adapted to be connected by a'belt to a power shaft, and eccentric cams 1 arranged equidistant on each side of the center of the base. The eccentrics operate a cross head 5 by connecting rods 6 to travel to and from the base Serial No. 523,407.
in guides 7 secured in upright positions by rods 8 and supporting a guide cap 9 through which travels a vertical projection 10 of the cross head.
The underside of the cross head is pro vided with an undercut groove 11 adapted to dove tail with a correspondingly cut projection 12 on the upper die block 13. -The portion of the base between the eccentrics and guides 7 is provided with an inclined surface 14 over which an adjusting block 15 is mounted to slide between the guides by means of a screw shaft 16 having a head 17 on one end rotatably engaging the block, as shown,. and passing through a threaded block 18 held against rotation by a set screw 19 in the base and having a hand wheel 20 on the exterior end. Theupper surface of the adjusting block is provided with a horizontal plate 21 for supporting the lower die block 22.
The under surface of the upper die block 13 is provided with a central longitudinal angular groove 23, the sides of which are .at rightangles to each other and the lower die block 22 is provided with a similar groove 24:. The upper die block 13 is divided by a number of equally spaced recesses 25 parallel to and between its longitudinal ends formed by cutting through the side walls on each,
side, the tops of which are extensions of the opposite angular faces of the groove 23. The lower die block22 is preferably formed of a plurality of sections secured together by longitudinal bolts 26 with alternating sections 27 adapted to pass into the recesses 25 in the upper block and one section adapted to pass over the exterior of each longitudinal end of die block 13. The other alternating sections 28 are in reality spacers and have horizontal upper surfaces which are below the lowermo-stnormal end of travel ofthe upper die. The vertical projection 10 of the cross head traveling in the guide cap 9 insures the constant alignment of the upper die block. Some of the sections 27 of the lower 7 on each side to engage the guides and insure the constant relation of the lower die to the upper die. The lower die block rests upon the horizontal plate 21 of the adjusting block 15 so that movement imparted by the handwheel 20 to the adjusting block will change the vertical relation of the lower die block to the upper die block without altering their horizontal relation to each other.
die block are extended between the guides 1 The operation of the driven shaft 1 through the medium of the eccentrics a, connecting rods 6, and cross head 5 will cause the sections of the upper die block 13 to reciprocate between the sections 2'7 of the lower die block 22 and as the lower die block is adjustable the distance the bot-tom of the goove in the upper die block approaches the bottom of the groove in the lower block may be changed to suit the size of rod or bolt to be straightened.
Fig. 5 illustrates clearly the manner in which the dies straighten a bolt or rod. The cross head is brought to its uppermost end of travel, the rod or belt inserted between the dies, resting on the lower one, the distance of approach between the dies adjusted to the diameter of the rod and the descent of the upper die will: st-raigl-iten the portion of the rod en'ibra-ced by the two dies. The application of power to the machine may be continuous or regulated by any of the well known power press controlling n'ieans, It is obvious that a bolt which is completely embraced by the dies may be straightened by a single operation, while a rod will be straightened by a series of successive operations by advancing the rod less than the length of the dies between each application of power or reciprocation of the upper die.
What I claim is:
l. A machine for reforming rods or cylindrical objects, including a pair of die blocks having correspondingly alined angular intermeshing die elements adapted to receive the object to be reformed between them, and means for applying pressure to the die blocks to reform the object, each die block having a series of similar recesses of equal width and parallel sides alternating with the recesses in the other die block so that the portions of one die block will be received with in the reeessses of the other, said recesses extending through the sides of their respective die blocks, the bottoms of the recesses in one block extending as prolongations of the surfaces of the angular die elements and the other block being formed with the bottoms of the recesses parallel to the apices of the angular die elements thereof.
2. A machine for reforming rods or cylindrical objects including a pair" of die blocks having correspondingly alined intermeshing die elements adapted to receive the object to be reformed between them, means for re ciprocating one of the the blocks including guides for both blocks and a cross-head traveling between said guides to which the reclprocable block it attached, a projection extending from said cross-head and a stationary guide for said projection for maintaining constant relation of the die block carried by the cross-head, and means for applying pressure to the cross head to reform the object.
3. A machine for reforming rods or cylindrical objects, including a pair of die blocks having correspondingly alined intermeshing die elements adapted to receive the object to be reformed between them, means :for reciprocating one of the die blocks including guides for both blocks, one of said die blocks having portions engaging two sides of each guide, and a cross-head traveling between said guides to which the reciprocable block is attached, a projection extending from said cross-head and astationary guide for said projection for maintaining constant relation of the die block carried by the cross-head, and means for applying pressure to the cross-head to re form the object.
i. A machine for reforming rods or cylindrical objects, including a pair of die blocks having correspondingly alined inter-meshing die elements adapted to receive the object to be reformed between them, means for reciprocating one of the die blocks including guides for both blocks, one of said die blocks having portions engaging two sides of each guide, a cross-head traveling between said guides to which the reciprocable block is attached, a projection extending from said cross-head and a stationary guide for said projection for maintaining constant relation of the die block carried by the cross head, and means for applying pressure to the cross-head to reform the object, the die block having portions engaging two sides of each guide, a movable wedge supporting said die block, and means for operating the wedge to vary the relation between the die blocks.
DANIEL P. KELLOGG.
US523407A 1921-12-19 1921-12-19 Bolt or rod straightening machine Expired - Lifetime US1620260A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2416832A (en) * 1943-05-25 1947-03-04 Twentieth Cent Fox Film Corp Nail straightening machine
US2443432A (en) * 1944-04-17 1948-06-15 Garrett Corp Tube flattening means
US2457538A (en) * 1944-11-11 1948-12-28 Burndy Engineering Co Inc Crimping tool
US3060993A (en) * 1960-05-31 1962-10-30 Atlas Tool & Mfg Co Shaft straightener
US4571981A (en) * 1984-03-15 1986-02-25 Southern Railway Company Spike straightening apparatus
US4604890A (en) * 1982-02-08 1986-08-12 Teledyne Penn-Union Compression tool

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2416832A (en) * 1943-05-25 1947-03-04 Twentieth Cent Fox Film Corp Nail straightening machine
US2443432A (en) * 1944-04-17 1948-06-15 Garrett Corp Tube flattening means
US2457538A (en) * 1944-11-11 1948-12-28 Burndy Engineering Co Inc Crimping tool
US3060993A (en) * 1960-05-31 1962-10-30 Atlas Tool & Mfg Co Shaft straightener
US4604890A (en) * 1982-02-08 1986-08-12 Teledyne Penn-Union Compression tool
US4571981A (en) * 1984-03-15 1986-02-25 Southern Railway Company Spike straightening apparatus

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