US2517344A - Machine for straightening rods or tubes - Google Patents

Machine for straightening rods or tubes Download PDF

Info

Publication number
US2517344A
US2517344A US78072A US7807249A US2517344A US 2517344 A US2517344 A US 2517344A US 78072 A US78072 A US 78072A US 7807249 A US7807249 A US 7807249A US 2517344 A US2517344 A US 2517344A
Authority
US
United States
Prior art keywords
work
rolls
feed
straightening
housings
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
US78072A
Inventor
Picton John Burley
Tinley Ernest Lambert
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.)
Bigwood Joshua & Son Ltd
Joshua Bigwood & Son Ltd
Original Assignee
Bigwood Joshua & Son Ltd
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 Bigwood Joshua & Son Ltd filed Critical Bigwood Joshua & Son Ltd
Application granted granted Critical
Publication of US2517344A publication Critical patent/US2517344A/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
    • 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
    • B21D3/02Straightening or restoring form of metal rods, metal tubes, metal profiles, or specific articles made therefrom, whether or not in combination with sheet metal parts by rollers
    • B21D3/04Straightening or restoring form of metal rods, metal tubes, metal profiles, or specific articles made therefrom, whether or not in combination with sheet metal parts by rollers arranged on axes skew to the path of the work

Definitions

  • This invention relates Lto machines for straightening rods vor ⁇ tubes Vof the Akind Iin ⁇ which the rods or tubes are 'passed endwise between one or more pairs ⁇ of rotating straightening .l1-oils.
  • the invention is particularly applicable ⁇ but not restricted ⁇ to thai'l ⁇ kind of machine in ⁇ which the rod or tube is ,passed between a lplurality of pairs orgroupslof skew rolls formed ywith ⁇ concave ,peripheriea the pairs lor groups of Arolls being spaced apart inthe direction in ⁇ which the work is moved, ⁇ and the machine usually incorporating one Aor more pressure rolls 'acting on the work to produce pressure thereon ein a direction ⁇ at rightlangles to its travel.
  • the rod ⁇ or tube has ⁇ :imparted ⁇ toit a ⁇ helical motion, i. e. a combined rotary and endwise motion, as ⁇ it ⁇ passes through the machine.
  • the object of the present invention is to provide an improved construction of machine whereby the workcanbe fed into and/ or removed from the straightening rolls without danger to the operator.
  • a pair of driven 'skew rolls each having a concave periphery and arranged at opposite sides of thework, these rolls operating as feed or extraction rolls and imparting the same helical motion to the work as will be :produced by the straightening rolls, so that ⁇ the work is fed into or delivered from the straightening mechanism by the said skew rolls, these rolls being mounted so that they canbe moved toward and away ⁇ from the axis of Vthe work pass .whereby they can be moved apart to allow the leading end zpart of the work to be placed ⁇ or to pass between them, and can then be :made to approach ⁇ 2 the saidaxis so as togrip the work and feed it into thestraightening lrolls or to grip the ⁇ work as it is leaving the machine.
  • the ⁇ feed or extraction rolls may be independent ⁇ ofthe ⁇ straightening mechanism and maybe mounted adjacent that end ⁇ of the supporting or a receiving cradlewhichis near to the straightening mechanism.
  • the first or llast pairlof straightening rolls maybe ⁇ used as feed :or ⁇ ,extraction rolls in which case they are mountedso that they can be ⁇ moved towards and awayfromlthe axis of thepass ⁇ whereby ⁇ ,they :can be moved apartto 'allow the leading end cf the work to bel-inserted or to pass ⁇ between them, and can ⁇ then ⁇ be made ⁇ to approacl'l ⁇ the said ⁇ axislso as to grip :and Vdrivel-the work.
  • Figure 1 is a view ⁇ in side ⁇ elevationzshowing :the cradle ⁇ in section.
  • Figure 2 is a plan wiew.
  • Figure 4 is asectionfon line 4-41of Figure.
  • Figure 5 is a section on line 5-5 of Figure f2.
  • the .feed zrolls lll, .Il are skew rolls far-ranged on axes disposed in spaced parallel planes, the axes being inclined to one another. Between the feed rolls we may provide a work support I1 which is adjustable in an up-and-down direction.
  • each feed roll is supported in a fork I8 formed at the end of a housing I9 containing driving gear, and these housings are slidably mounted upon a supporting gear, and these housings are slidably mounted upon a supporting guide plate 20 which forms the top of the support I5, which guide is disposed at right angles to the pass.
  • the support I is of boxlike form and comprises a base 2l, sides 22 and the top plate which extends beyond the side members 22 at both edges.
  • the housings I9 are slidably mounted on the top plate 20 and engage the top surface thereof at 23 and the edges at 24. Further, the housings are provded with detachable plates 25 which engage the under surfaces 25 of the laterally projecting portions of the plate 20.
  • the support I5 also incorporates end plates 21 provided with bearings 28 for a shaft 29 upon which are mounted two long gear wheels 39.
  • Each end plate 21 is provided with an upwardly extending bracket 3I and mounted on these brackets are pneumatic cylinders 32, 33.
  • One of the housings i9 cao-operates with an adjustable stop 34 which is mounted on the support and which is formed as a screw 35 which can be locked by a lock nut 36.
  • This adjustable stop limits the movement of this housing towards the axis of the work, and in practice the stop is adjusted in accordance with the diameter of the Work.
  • the two housings i9 can be advanced towards each other by pneumatic pressure admitted to cylinders acting upon pistons, the piston rods 31 of which are connected by heads 38 to the ends of the housings.
  • the housing which co-operates with the stop 34 is acted upon by a pneumatically operated piston 63 which is of slightly larger diameter than the piston 69 of the other pneumatic element, and both pneumatic elements are fed with compressed air by pipes 39 from the same source.
  • the pneumatic elements may be double acting so that they can be used for sliding the housings apart, as well as for sliding them towards each other to grip the work, and in conjunction with the housing I9 which co-operates with the adjustable stop a second adjustable stop 40 adapted to engage the opposite end of the housing may be provided for limiting the return movement of the housing.
  • the stop 49 is similar to the stop 34.
  • Each of the housings I9 comprise a main body 4I for receiving the head 38 which is retained in position by a plate 44. At the opposite end each body is formed as a fork I9 in which is mounted a shaft carrying one of the rollers Iii or II.
  • the body 4I is further provided with bearings 41, 43 for a shaft 49 and with a bearing 55 for a shaft 5I.
  • the end plate 42 is provided with a bearing 52 and the body with a bearing 53 for a shaft 54.
  • Each housing i9 contains one of the shafts 49 which are at right angles to the axis of the Work which passes between the rolls, and each of these shafts is provided with a gear-wheel 55 gearing with a further gearwheel 56 on the shaft 54, which gearwheel projects through the lower side of the housing and through a slot 51 in the support, these gearwheels 56 engaging the long driving gearwheels 3B on the shaft 29 extending through the support I5.
  • This driving shaft 29 is provided with the long gearwheels 30, one for each of the gears 55 in the housing, and the driving gearwheels are of a length vwhich permits the sliding movement of the housings to take place without interrupting the drive.
  • Each of the shafts 49 is provided with a bevel Wheel 58 engaging a bevel Wheel 59 on the transverse shaft 5I extending through the side of the housing body, these shafts 49, 5I being in planes parallel to the pass, and on the exterior of the housing is further gearing connecting in each case a gear wheel 60 on the transverse shaft 5I with a gearwheel 6I on the shaft 45 of the feed roll.
  • An intermediate gearwheel 62 mounted in a, pin 63 attached to the housing body is used between the wheels 69 and 6I. This gearing is enclosed in a cover 54.
  • the axes of the rollers I0 and Il are inclined to each other and to the axis of the work and the aXis of each of the rollers II) and II is parallel to the axes of the straightening rolls on the same side of the shaft. Moreover the rolls I0 and II are driven at the same peripheral speed as the driven rolls of the straightening machine.
  • the shaft 29 is provided with a sprocket 65 which is connected by a chain 66 to a sprocket on the driving shaft of a driving motor 61.
  • the unit incorpora-ting the rolls I0 and Il is placed at the feed end of the straightening machine which is shown at I2. If it is intended to use a unit for extracting the work from the straightening machine then a unit similar to that shown is placed at the delivery end of the straightening machine or a unit such as that shown can be used at the delivery end only.
  • the pair of straightening rolls either at the feed end or at the delivery ⁇ end of the straightening machine may be used instead, in which case the said rolls will be mounted and driven in a manner similar to that described with reference to the rolls I0 and Il.y
  • each feed roll may be adjustable about an axis at right angles to its length and intersecting with its axis midway between its ends.
  • the housings are moved apart suiciently to enable the leading end of the work to be placed on the work support between the feed rolls. Compressed air is then admitted to the pneumatic cylinders, causing the housings to approach each other.
  • One housing, which is subjected to the greater pressure moves up to the adjustable stop, in which position the periphery of its feed roll engages one side of the work.
  • the other housing also moves towards the work until the periphery of its feed roll presses against the work.
  • the work is now gripped between the two feed rolls, which can be set in action by setting the driving shaft in motion, and the work is then fed helically by the feed rolls in the straightening mechanism.
  • the feed rolls are at opposite sides of the work and they are driven in a direction which imparts combined rotary and endwise movement to the work, so that the Work is fed into the straightening rolls at the same rotary and endwise speed and in the same direction as those produced by the straightening rolls without any possibility of a whirling movement being transmitted to the work.
  • Feed mechanism for feeding work into or out of a straightening machine in Which the work is straightened by passing it through a system of skew rolls comprising a support having a supporting guide disposed at right angles to the work, a pair of housings slidably mounted on said supporting guide, each of said housings having means carrying a feed roll, pneumatic cylinders mounted on the support parallel to said supporting guide, a piston in each cylinder, each of which pistons has a piston rod projecting from the cylinder and engaging one of said housings, one of said pistons and cylinders being of larger diameter than the other, an adjustable stop on the support for limiting the movement of the housing upon which the larger piston acts, towards the axis of the Work, means for driving said feed rolls and means on said support for supporting the work between said feed rolls.
  • Feed mechanism for feeding work into or out of a straightening machine in which the work is straightened by passing it through a system of skew rolls comprising a support having a supporting guide disposed at right angles to the Work, a pair of housings slidably mounted on said 4supporting guide, each of said housings having means carrying a feed roll, pneumatic cylinders mounted on the support paralle1 to said supporting guide, a piston in each cylinder, each of which pistons has a piston rod projecting from the cylinder and engaging one of said housings, one of said pistons and cylinders being of larger diameter than the other, an adjustable stop on the support for limiting the movement of the housing upon which the larger piston acts towards the axis of the work and an adjustable stop on the support for limiting the movement of the said housing away from the axis of the work, means for driving said feed rolls, and means on said support for supporting the work between said feed rolls.
  • Feed mechanism for feeding work into or out of a straightening machine in which the Work is straightened by passing it through a system of skew rolls comprising a box-like support having a slotted guide plate disposed at right angles to the work, the ends of said support having bearings, a driving shaft in said bearings, gear wheels on said driving shaft, a pair of housings slidably mounted on said Supporting guide, each of said housings having means carrying a feed roll, power operated means for moving said housings on said guide towards and away from each other, each of said housings containing a transmission shaft disposed parallel to the driving shaft, a gear wheel on each of these transmission shafts, each of said housings having an opening in the side adjacent the guide plate and a further shaft adjacent to said opening and parallel to the driving shaft, gear wheels on each of said further shaft and on the transmission shafts, the gear wheels on said further shafts being located in the openings in the bearings and projecting through the slots of the guide plate and engaging the gear wheels on the driving shaft and the gear Wheels on said transmission
  • Feed mechanism for feeding work into or out of a straightening machine in which the work is straightened by passing it through a system of skew rolls comprising a box-like support having a slotted guide plate disposed at right angles to the work, the ends of said support having bearings, a driving shaft in said bearings, gear wheels on said driving shaft, a pair of housings slidably mounted on said supporting guide, each of said housings having means carrying a feed roll, power operated means for moving said housings on said guide towards and away from each other, gearing carried by said housings for driving said feed rolls, said gearing including a gear wheel projecting through one of the slots in the guide plate and engaging one of the gearwheels on the driving shaft and means on said support for supporting the work between said feed rolls.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Straightening Metal Sheet-Like Bodies (AREA)

Description

Aug. l, 1950 1.a Plc-roN ETAL MACHINE FOR STRAIGHTENING RODS 0R TUBES 3 Sheets-Sheet l `Filed Feb. 24. 1949 Aug. 1, 1950 .1.3. PlcToN ETAL MACHINE Fon STRAIGHTENING Rous 0R TUBES Filed Feb. 24, 1949 3 Sheets-Sheet 2 n@ mv Aug. l, 1950 J. B. PlcToN Erm.
MACHINE FOR STRAIGHTENING RODS v0R TUBES Filed Feb. 24, 1949 INVENTRS,
5w-fu AGENTS Patented Aug. 1, 1950 MACHINE FOR l STRAIGHTE NING RODS `OR TUBES :lohn `Burley Pictonand Ernest -`Lambert Tinley, Wolverhampton, England, assignors tto Joshua Big-wood & Son `Limited, Wolverhampton, Eng- `1and,;a British company Application February 24, 1949, Serial No.`78`,072 In'GreatBritain February 27, 1948 f4 Claims. 1
` This invention relates Lto machines for straightening rods vor `tubes Vof the Akind Iin `which the rods or tubes are 'passed endwise between one or more pairs `of rotating straightening .l1-oils.
The invention is particularly applicable `but not restricted `to thai'l `kind of machine in `which the rod or tube is ,passed between a lplurality of pairs orgroupslof skew rolls formed ywith `concave ,peripheriea the pairs lor groups of Arolls being spaced apart inthe direction in `which the work is moved, `and the machine usually incorporating one Aor more pressure rolls 'acting on the work to produce pressure thereon ein a direction `at rightlangles to its travel. ,In such a machine the rod `or tube has `:imparted `toit a `helical motion, i. e. a combined rotary and endwise motion, as `it `passes through the machine.
Itis usual to feed Athework into `the straightening machine by hand, the work being placed `in a supporting cradle arranged `in line with the pass, this cradle allowing of limited lateral movement to the work 'in any direction, .and `the ,operator pushing the leadingend of the work into the pass between the straightening rolls. thisoperation there is a period of some danger to `the operator between the moment when the leading end of the work `encounters the .rst pair or group of rolls and .the .moment when the leading end of the` work has been engagedby a subsequent pair or group o'f straightening rolls, A similar period vof danger occurs `whenthe work is leaving the machine and is still engaged by the last pair or group of rolls. During these periods of danger it sometimes happens that a whirling action may be imparted to the work, causing injury Vto the operator.
The object of the present inventionis to provide an improved construction of machine whereby the workcanbe fed into and/ or removed from the straightening rolls without danger to the operator.
According to the present invention we provide at the feed end or at the delivery end or Vatlboth ends of the machine, a pair of driven 'skew rolls each having a concave periphery and arranged at opposite sides of thework, these rolls operating as feed or extraction rolls and imparting the same helical motion to the work as will be :produced by the straightening rolls, so that `the work is fed into or delivered from the straightening mechanism by the said skew rolls, these rolls being mounted so that they canbe moved toward and away `from the axis of Vthe work pass .whereby they can be moved apart to allow the leading end zpart of the work to be placed `or to pass between them, and can then be :made to approach `2 the saidaxis so as togrip the work and feed it into thestraightening lrolls or to grip the `work as it is leaving the machine.
The `feed or extraction rolls may be independent `ofthe `straightening mechanism and maybe mounted adjacent that end `of the supporting or a receiving cradlewhichis near to the straightening mechanism. Alternatively however, the first or llast pairlof straightening rolls maybe `used as feed :or `,extraction rolls in which case they are mountedso that they can be `moved towards and awayfromlthe axis of thepass `whereby `,they :can be moved apartto 'allow the leading end cf the work to bel-inserted or to pass `between them, and can `then `be made `to approacl'l` the said `axislso as to grip :and Vdrivel-the work.
Pfreierablyxboth `the feeder extraction rolls'are movable at right angles to the axis of the Work, and ,lit is preferred to providewan. adjustable `stop to limit the `movement of 'one lfeed `or l extraction roll towardsthe axis :of the-work. Further, the feed or :extraction `rolls may be advanced into the workfgripping position by pneumatic presh sure, -or `by mechanical .or hydraulic means, the arrangement :being such that :if mechanical means is ,provided `for this `purpose nwhen the .required grip `has been `obtained on the `work elements l, are provided to enable the .mechanical feed mechanism to slip. l
The roll with which ltheadjustablestop co-opcrates is ,preferably subjected to a .somewhat greater pressure :towards the axis of the work than the `other lfeed yroller, so that by adjusting the stop Ain accordance with `the `diameter of the work `the `,correct `position of the work with its axis ,in `line with `the pass of `the straightening rollslcan=beiensured,and the feed roll which has no stop may be subjected to rather less pressure than the other roll so that `it :cannot push the rst-,rollfout cof the correct position.
The `inventionis illustrated in the accompanying -clrawings wherein:
Figure 1 is a view `in side `elevationzshowing :the cradle `in section.
Figure 2 `is a plan wiew.
Figure is-alsection online 3-3 of AFigure 2.
Figure 4 is asectionfon line 4-41of Figure.
Figure 5 is a section on line 5-5 of Figure f2.
,In the construction illustrated `apair of lfeed rolls I0, l Maize provided adjacent `to theentrance end :I3 of the straightening mechanism :12, and these 'feed rolls `form 'part of `a `feed lunit I- mounted on a :suitable :support t5 between lthe supporting cradle t6 and `the `straightening mechanism |`2.
The .feed zrolls lll, .Il, are skew rolls far-ranged on axes disposed in spaced parallel planes, the axes being inclined to one another. Between the feed rolls we may provide a work support I1 which is adjustable in an up-and-down direction.
The shaft of each feed roll is supported in a fork I8 formed at the end of a housing I9 containing driving gear, and these housings are slidably mounted upon a supporting gear, and these housings are slidably mounted upon a supporting guide plate 20 which forms the top of the support I5, which guide is disposed at right angles to the pass. The support I is of boxlike form and comprises a base 2l, sides 22 and the top plate which extends beyond the side members 22 at both edges. The housings I9 are slidably mounted on the top plate 20 and engage the top surface thereof at 23 and the edges at 24. Further, the housings are provded with detachable plates 25 which engage the under surfaces 25 of the laterally projecting portions of the plate 20.
The support I5 also incorporates end plates 21 provided with bearings 28 for a shaft 29 upon which are mounted two long gear wheels 39. Each end plate 21 is provided with an upwardly extending bracket 3I and mounted on these brackets are pneumatic cylinders 32, 33.
These pneumatic cylinders 92, 33 and pistons 69, 68 respectively within them are provided for sliding the two housings I9 towards each other.
One of the housings i9 cao-operates with an adjustable stop 34 which is mounted on the support and which is formed as a screw 35 which can be locked by a lock nut 36. This adjustable stop limits the movement of this housing towards the axis of the work, and in practice the stop is adjusted in accordance with the diameter of the Work.
The two housings i9 can be advanced towards each other by pneumatic pressure admitted to cylinders acting upon pistons, the piston rods 31 of which are connected by heads 38 to the ends of the housings. The housing which co-operates with the stop 34 is acted upon by a pneumatically operated piston 63 which is of slightly larger diameter than the piston 69 of the other pneumatic element, and both pneumatic elements are fed with compressed air by pipes 39 from the same source. The pneumatic elements may be double acting so that they can be used for sliding the housings apart, as well as for sliding them towards each other to grip the work, and in conjunction with the housing I9 which co-operates with the adjustable stop a second adjustable stop 40 adapted to engage the opposite end of the housing may be provided for limiting the return movement of the housing. The stop 49 is similar to the stop 34.
Each of the housings I9 comprise a main body 4I for receiving the head 38 which is retained in position by a plate 44. At the opposite end each body is formed as a fork I9 in which is mounted a shaft carrying one of the rollers Iii or II. The body 4I is further provided with bearings 41, 43 for a shaft 49 and with a bearing 55 for a shaft 5I. The end plate 42 is provided with a bearing 52 and the body with a bearing 53 for a shaft 54.
Each housing i9 contains one of the shafts 49 which are at right angles to the axis of the Work which passes between the rolls, and each of these shafts is provided with a gear-wheel 55 gearing with a further gearwheel 56 on the shaft 54, which gearwheel projects through the lower side of the housing and through a slot 51 in the support, these gearwheels 56 engaging the long driving gearwheels 3B on the shaft 29 extending through the support I5. This driving shaft 29 is provided with the long gearwheels 30, one for each of the gears 55 in the housing, and the driving gearwheels are of a length vwhich permits the sliding movement of the housings to take place without interrupting the drive.
Each of the shafts 49 is provided with a bevel Wheel 58 engaging a bevel Wheel 59 on the transverse shaft 5I extending through the side of the housing body, these shafts 49, 5I being in planes parallel to the pass, and on the exterior of the housing is further gearing connecting in each case a gear wheel 60 on the transverse shaft 5I with a gearwheel 6I on the shaft 45 of the feed roll. An intermediate gearwheel 62 mounted in a, pin 63 attached to the housing body is used between the wheels 69 and 6I. This gearing is enclosed in a cover 54.
The axes of the rollers I0 and Il are inclined to each other and to the axis of the work and the aXis of each of the rollers II) and II is parallel to the axes of the straightening rolls on the same side of the shaft. Moreover the rolls I0 and II are driven at the same peripheral speed as the driven rolls of the straightening machine.
The shaft 29 is provided with a sprocket 65 which is connected by a chain 66 to a sprocket on the driving shaft of a driving motor 61.
In the construction shown the unit incorpora-ting the rolls I0 and Il is placed at the feed end of the straightening machine which is shown at I2. If it is intended to use a unit for extracting the work from the straightening machine then a unit similar to that shown is placed at the delivery end of the straightening machine or a unit such as that shown can be used at the delivery end only.
Instead of providing a separate unit for driving the work either at the feed end or the delivery unit, the pair of straightening rolls either at the feed end or at the delivery` end of the straightening machine may be used instead, in which case the said rolls will be mounted and driven in a manner similar to that described with reference to the rolls I0 and Il.y
If required, each feed roll may be adjustable about an axis at right angles to its length and intersecting with its axis midway between its ends.
In operation, the housings are moved apart suiciently to enable the leading end of the work to be placed on the work support between the feed rolls. Compressed air is then admitted to the pneumatic cylinders, causing the housings to approach each other. One housing, which is subjected to the greater pressure moves up to the adjustable stop, in which position the periphery of its feed roll engages one side of the work. The other housing also moves towards the work until the periphery of its feed roll presses against the work. The work is now gripped between the two feed rolls, which can be set in action by setting the driving shaft in motion, and the work is then fed helically by the feed rolls in the straightening mechanism. The feed rolls are at opposite sides of the work and they are driven in a direction which imparts combined rotary and endwise movement to the work, so that the Work is fed into the straightening rolls at the same rotary and endwise speed and in the same direction as those produced by the straightening rolls without any possibility of a whirling movement being transmitted to the work.
`What We claim then is: f
1. Feed mechanism for feeding work into or out of a straightening machine in Which the work is straightened by passing it through a system of skew rolls comprising a support having a supporting guide disposed at right angles to the work, a pair of housings slidably mounted on said supporting guide, each of said housings having means carrying a feed roll, pneumatic cylinders mounted on the support parallel to said supporting guide, a piston in each cylinder, each of which pistons has a piston rod projecting from the cylinder and engaging one of said housings, one of said pistons and cylinders being of larger diameter than the other, an adjustable stop on the support for limiting the movement of the housing upon which the larger piston acts, towards the axis of the Work, means for driving said feed rolls and means on said support for supporting the work between said feed rolls.
2. Feed mechanism for feeding work into or out of a straightening machine in which the work is straightened by passing it through a system of skew rolls comprising a support having a supporting guide disposed at right angles to the Work, a pair of housings slidably mounted on said 4supporting guide, each of said housings having means carrying a feed roll, pneumatic cylinders mounted on the support paralle1 to said supporting guide, a piston in each cylinder, each of which pistons has a piston rod projecting from the cylinder and engaging one of said housings, one of said pistons and cylinders being of larger diameter than the other, an adjustable stop on the support for limiting the movement of the housing upon which the larger piston acts towards the axis of the work and an adjustable stop on the support for limiting the movement of the said housing away from the axis of the work, means for driving said feed rolls, and means on said support for supporting the work between said feed rolls.
3. Feed mechanism for feeding work into or out of a straightening machine in which the Work is straightened by passing it through a system of skew rolls comprising a box-like support having a slotted guide plate disposed at right angles to the work, the ends of said support having bearings, a driving shaft in said bearings, gear wheels on said driving shaft, a pair of housings slidably mounted on said Supporting guide, each of said housings having means carrying a feed roll, power operated means for moving said housings on said guide towards and away from each other, each of said housings containing a transmission shaft disposed parallel to the driving shaft, a gear wheel on each of these transmission shafts, each of said housings having an opening in the side adjacent the guide plate and a further shaft adjacent to said opening and parallel to the driving shaft, gear wheels on each of said further shaft and on the transmission shafts, the gear wheels on said further shafts being located in the openings in the bearings and projecting through the slots of the guide plate and engaging the gear wheels on the driving shaft and the gear Wheels on said transmission shafts, further gearing on each housing for driving each feed roll from the transmission shaft in the housing, and means on said support for supporting the work between said feed rolls.
e. Feed mechanism for feeding work into or out of a straightening machine in which the work is straightened by passing it through a system of skew rolls comprising a box-like support having a slotted guide plate disposed at right angles to the work, the ends of said support having bearings, a driving shaft in said bearings, gear wheels on said driving shaft, a pair of housings slidably mounted on said supporting guide, each of said housings having means carrying a feed roll, power operated means for moving said housings on said guide towards and away from each other, gearing carried by said housings for driving said feed rolls, said gearing including a gear wheel projecting through one of the slots in the guide plate and engaging one of the gearwheels on the driving shaft and means on said support for supporting the work between said feed rolls.
JOHN BURLEY PICTON. ERNEST LAMBERT TINLEY.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS
US78072A 1948-02-27 1949-02-24 Machine for straightening rods or tubes Expired - Lifetime US2517344A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB2517344X 1948-02-27

Publications (1)

Publication Number Publication Date
US2517344A true US2517344A (en) 1950-08-01

Family

ID=10908923

Family Applications (1)

Application Number Title Priority Date Filing Date
US78072A Expired - Lifetime US2517344A (en) 1948-02-27 1949-02-24 Machine for straightening rods or tubes

Country Status (1)

Country Link
US (1) US2517344A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2730158A (en) * 1949-08-25 1956-01-10 Louvroil Montbard Aulnoye Straightening machines with hyperbolic rolls
DE1034953B (en) * 1955-05-12 1958-07-24 Schloemann Ag Device for straightening profiled rolled material
US2987096A (en) * 1959-03-11 1961-06-06 Taylor Wilson Mfg Co Cross roll machines
US3219863A (en) * 1960-10-07 1965-11-23 Ling Temco Electronics Inc Electron tube having concentric electrodes
US3492850A (en) * 1964-03-24 1970-02-03 Dalmine Spa Device for straightening circular cross section workpieces having varying diameters
US3533257A (en) * 1967-06-09 1970-10-13 Redman Tools Holding Ltd Machines for straightening bars or tubes
US3693390A (en) * 1967-11-04 1972-09-26 Brueninghaus Gmbh Stahlwerke Method and apparatus for the production of elongated conical metallic articles

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US165819A (en) * 1875-07-20 Ighatitfs jela
US180643A (en) * 1876-08-01 Improvement in machines for straightening round bars and tubes
US1039992A (en) * 1912-03-09 1912-10-01 Walter J Muncaster Shafting machinery.
US1713138A (en) * 1927-08-06 1929-05-14 Scullin Steel Company Rod-straightening machine

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US165819A (en) * 1875-07-20 Ighatitfs jela
US180643A (en) * 1876-08-01 Improvement in machines for straightening round bars and tubes
US1039992A (en) * 1912-03-09 1912-10-01 Walter J Muncaster Shafting machinery.
US1713138A (en) * 1927-08-06 1929-05-14 Scullin Steel Company Rod-straightening machine

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2730158A (en) * 1949-08-25 1956-01-10 Louvroil Montbard Aulnoye Straightening machines with hyperbolic rolls
DE1034953B (en) * 1955-05-12 1958-07-24 Schloemann Ag Device for straightening profiled rolled material
US2987096A (en) * 1959-03-11 1961-06-06 Taylor Wilson Mfg Co Cross roll machines
US3219863A (en) * 1960-10-07 1965-11-23 Ling Temco Electronics Inc Electron tube having concentric electrodes
US3492850A (en) * 1964-03-24 1970-02-03 Dalmine Spa Device for straightening circular cross section workpieces having varying diameters
US3533257A (en) * 1967-06-09 1970-10-13 Redman Tools Holding Ltd Machines for straightening bars or tubes
US3693390A (en) * 1967-11-04 1972-09-26 Brueninghaus Gmbh Stahlwerke Method and apparatus for the production of elongated conical metallic articles

Similar Documents

Publication Publication Date Title
US2517344A (en) Machine for straightening rods or tubes
US2293156A (en) Straightening apparatus
US3911708A (en) Apparatus for straightening long metal workpieces
US2501241A (en) Bending machine
US518403A (en) Machine for straightening rods
US3410126A (en) Machine for straightening tubes and rods
US1950929A (en) Mandrel rod supports
US2757707A (en) Rotary bar and tube straightener
KR100479831B1 (en) Measurement apparatus of rolls gap
US2708378A (en) Mechanically operated feed mechanism for swaging machines
US2062559A (en) Apparatus for reducing metal stock
US3384730A (en) Machine feed mechanism
US2017374A (en) Tube rolling mill
US2007464A (en) Meat-tenderer
SU1046124A1 (en) Apparatus for feed and removal of blanks from press working zone
CN220658836U (en) Metal product bending device
US1400764A (en) Machine for straightening bent pipes, rods, &c.
DE621550C (en) Veneer knife machine
US2615480A (en) Cork cutting machine
US293611A (en) Feed-table for hammering-machines
US395400A (en) mo-cool
DE1109122B (en) Feeding device for a pilgrim step rolling mill
SU806287A1 (en) Machine for working elongated articles
US2353845A (en) Straightening machine
US3080838A (en) Machine for forming metal sections or tubes