US1912709A - Hydraulic calender - Google Patents

Hydraulic calender Download PDF

Info

Publication number
US1912709A
US1912709A US600944A US60094432A US1912709A US 1912709 A US1912709 A US 1912709A US 600944 A US600944 A US 600944A US 60094432 A US60094432 A US 60094432A US 1912709 A US1912709 A US 1912709A
Authority
US
United States
Prior art keywords
pressure
hydraulic
rolls
calender
pistons
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
US600944A
Inventor
Thomas E Kane
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.)
TEXTILE FINISHING MACHINERY CO
TEXTILE-FINISHING MACHINERY Co
Original Assignee
TEXTILE FINISHING MACHINERY CO
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 TEXTILE FINISHING MACHINERY CO filed Critical TEXTILE FINISHING MACHINERY CO
Priority to US600944A priority Critical patent/US1912709A/en
Application granted granted Critical
Publication of US1912709A publication Critical patent/US1912709A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21GCALENDERS; ACCESSORIES FOR PAPER-MAKING MACHINES
    • D21G1/00Calenders; Smoothing apparatus
    • D21G1/002Opening or closing mechanisms; Regulating the pressure

Definitions

  • This invention relates to a hydraulic calender and has for its object to provide in a hydraulic system using a single accumulator, a means for varying the pressure on the ends of the calender rolls at either side of the calender.
  • Another object of this invention is the provision, in a hydraulic system using this single accumulator, of means for relieving pressure on the ends of the rolls at one side of the calender that a different pressure may be exerted on one edge portion of the material as it passes through the calender than on the other edge portion thereof.
  • a further object of this invention is the provision of control means at a single point for'varying the pressures applied in a hydraulic system acting on opposite sides of the machine, said control being such that the pressure had on one side of the machine is independent, within an operative range, from the pressure applied on the opposite side of the machine.
  • 1 is a front view of the calender equipped with my improved construction.
  • Fig. 2 is a fragmeutal partially sectional view of the upper portion of the machine showing the plunger or ram for hydraulically applying the pressure and my construction for relieving the pressure so applied.
  • Fig. 3 is a sectional view illustrating somewhat diagrammatically the connection from the accumulator to the hydraulic cylinders or compartments through which-pressure is applied to the piston.
  • Fig. 4 is a diagrammatic view illustrating the arrangement of the'conduits of the hy draulic system with indicators attached thereto and the motors and the controls for manipulating the same from a panel board.
  • chanical means have been employed for applying pressure to the ends of the rolls at each side of the machine.
  • This mechanical means has been individually operated to apply more pressure at one side than at the other side of the machine where such condi- ,tion was desired.
  • Hydraulic means have also been used for applying pressure to the ends of the rolls at each side of the machine, which hydraulic system has been fed from and pressure applied through a single fl0 vided for varying the pressure that the ends of the rolls at one side of the machine may apply different pressure from that applied tothe ends of the rolls at the other side of the machine, and in order that this may be accomplished ina system using a single accumulator' I have provided at each side of the machine separate resilient means, such as a spring, to act against the underside of the piston or ram to relieve the pressure applied by the hydraulic system to the ends of- 7 the rol at a selected side of the machine, which spring may be controlled through a movable member operated by an electric motor and controlled from a single point by a switch to secure the desired pressure by
  • 10 designates the standards at the opposite sides of the machine between which extends the braces 11 and 12.
  • these standards there 9 is fixedly mounted a bottom roll 13 and upon. which there is sli'dably mounted in suitable bearings intermediate rolls 14 and a top roll 15.
  • These rolls are suitably driven from any source of power such as by means of pulley 14 fixed to the lower roll shaft.
  • each of these standards pressure is applied to the rolls by means of a hydraulic system.
  • the functioning parts on each standard consist of a suitably formed pressure chamber 17 in which a piston 18 may move to a small extent to vary the volume thereof.
  • a liquid tight packing 19 in the walls 20 slidably engages the surface of the piston 18 to form a liquid tlght seal for the liquid supplied to the chamber 17 and through which pressure is applied to the piston 18.
  • a shaft 21 reduced as at 22 to form a shoulder 23 extends through.
  • This shaft transmits the pressure applied to a slidable pressure block 26 recessed to provide a hydraulic chamber 27.
  • a piston 28 is slidable in this chamber and is secured to the shaft 21 by means of a reduced portion 29 extending therethrough and forming a shoulder 30 to engage the washer 31 and held in secure engagement by the nut 32 threaded on the end 33.
  • the piston 28 is provided with a packing 34 to slide along the walls 35 and form a liquid tight seal.
  • This piston 28 is of equal area. to that of the top of the piston 18, thus the same pressure received at 17 would be transmitted through this shaft or ram as a whole to the pressure block 26 engaging the saddle 36 of the upper roll 15 to apply the same pressure thereto.
  • Each of the hydraulic chambers 17 is connected through the branch ducts 46 and common duct 47 to the accumulator 48 upon which weights 49 rest for the application of the desired pressure to the hydraulic system which is registered at 50 in tons, frequently between fifty and one hundred tons.
  • the springs 43 When it is desired that the same amount of pressure he applied to both sides of the machine, the springs 43 will be relieved of tension. or placed under this same amount of tension, and then the accumulator will be built up or regulated by means of the weights 49 vuntil the indicator 50 registers the desired amount of pressure to be applied to the work passing through the' calender, and indicators 52 and 54 connected to chamber 29 will correspond.
  • the accumulator may be built up until the pressure on the greatest side is attained and then by manipulation of the switch 51 the motor 42 may be revolved to turn the worm wheel 40 until this pressure on one side is relieved to the amount desired as indicated by the dial 52 connected to chamber 29, or if 1t so happens that the springs are under equal tension the accumulator could be built up until the desired lesser amount of pressure was indicated on the indicator 52 and then by switch 53 the motor could be operated reversely to relievethe tension on the spring, whereby the pressure could be built up until the dial 54 registered the greater amount of pressure desired to be applied to one side of the machine.
  • the hydraulic system with a single accu-' mulator is supplied in the usual manner when desired to fill up the system which has been emptied by means of the motor 55 which may be operated from the control board 56 by means of switch 57 in the usual .manner to pump the system full from the reservoir 0 the system.
  • the motor 55 which may be operated from the control board 56 by means of switch 57 in the usual .manner to pump the system full from the reservoir 0 the system.
  • a hydraulic system for applying pressure to both ends of the rolls from a single accumulator, and means in said system to vary the pressure applied to one of the ends of the rolls.
  • a hydraulic system for a plying pressure to both ends of the rolls rom a single accumulator, including a pair of hydraulicall pistons and means for varying t e effective pressure of one of said pistons independent of the other piston.
  • a hydraulic system for applying pressure to both ends of the rolls from a s1n le accumulator including a pair of hytIr'aulically operated pistons and mechanical means for independently and selectively var ing the effective pressure of either of sai pistons.
  • a hydraulic system for applying pressure to both ends of the rolls from a single accumulator including a pair ofhydraulically operated pistons and resilient means for varying the effective pressure of one of said pistons independent of the other piston.
  • a hydraulic system for a plying pressure to both ends of the rolls rom a single accumulator including a pair of hydraulically operated operatedpistons and spring means for independently and selectively varying the efiective pressure of either of said pistons.
  • a hydraulic system for applying pressure to both ends of the rolls from a single accumulator, and means in said system to relieve the effective pressure applied to one of the ends of the rolls to vary the pressure with reference to the pressure applied to the opposite ends of the rolls.
  • a hydraulic s stem for applying pressure to both ends of the rolls from a single accumulator, including a'pair of hydraulically operated pistons and means for relieving the effective pressure of one of said pistons independent of the other of said pistons.
  • a hydraulic system for a plying pressure to both ends of the rolls rom a single accumulator including a pair of hydraulically operated pis-. tons and resilient means for relieving the eifective pressure of one of said pistons independent of the other of said pistons.
  • a hydraulic system for applying pressure to both ends of the rolls from a single accumulator including a pair of hydraulically operated pistons and spring means for independently and selectively relieving the efiective pressure of either of said pistons.
  • a hydraulic means for applying pressure to the ends of plying pressure to each end bearin for the top roll including a pair of hydrau ic chambers and a piston'in each chamber, liquid in said chambers engaging said pistons, accumulator means, ducts leading from said accumulator means to each of said chambers, a spring engagin the underside of each of said pistons, an independent means for tensioning each of said springs to variably relieve pressure of said iston.
  • a series of rolls bearings for said rolls, means for applying pressure to each end bearing for the top roll including a pair of hydraulic chambers and a piston in each 0 amber, liquid in said chambers engaging said pistons, a single accumulator, ducts leading from said accumulator to each of said chambers, a spring engaging the underside of each of said pistons, and a movable nut engaging the other end of each spring to tension the same, and independent means for moving each of said nuts.
  • the rolls including a pair of hydraulically operated pistons, spring means engaging the underside of said pistons to relieve the pressure thereof and means to independently and selectively vary the tension on said spring means.
  • a hydraulic calender a series of rolls, bearings for said rolls, means for applying pressure to each end bearing for the top roll including a pair of hydraulic chambers, a piston in each chamber, liquid in each chamber engaging said pistons, accumulator means, ducts leading from said accumulator to each of said chambers, means en aging the underside of each of said pistons or individually relieving the effective pressure applied t rough the liquid in said hydraulic c amber.
  • a series of rolls bearings for said rolls, means for applying pressure to each end bearing for the top roll including a pair of hydraulic chambers and a piston in each chamber, liquid in said chambers engaging said pistons, accumulator means, ducts leading from said accumulator means to each of said chambers, a spring engaging the underside of each of said pistons, and means for tensioning each of said springs.

Landscapes

  • Casting Or Compression Moulding Of Plastics Or The Like (AREA)
  • Paper (AREA)
  • Treatment Of Fiber Materials (AREA)

Description

T. E. KANE HYDRAULIC CALENDER june 6, 1933.
Filed March 24, 1952 5 Sheets-Sheet l ATTOR .iune 6, 1933. T. E. KANE HYDRAULIC CALENDER June 6, 1933. T. E. KANE HYDRAULIC CALENDER 3 Shee ts-Sheet 3 7 jomasjf W221? flmm Fil'ed March 24, 1932 ATTORNEYS.
Patented June 6, 1933 UNITED STATES PATENT OFFICE THOMAS E. KANE, 01' MANSFIELD, IASSAOHUBET'IS, ASSIGNOR TO THE TEXTILE- I'INISHING MACHINERY COMPANY, A CORPORATION 01 RHODE ISLAND HYDRAULIC GALENDEB Application filed larch 24, 1982. Serial No. 600,944.
This invention relates to a hydraulic calender and has for its object to provide in a hydraulic system using a single accumulator, a means for varying the pressure on the ends of the calender rolls at either side of the calender.
Another object of this invention is the provision, in a hydraulic system using this single accumulator, of means for relieving pressure on the ends of the rolls at one side of the calender that a different pressure may be exerted on one edge portion of the material as it passes through the calender than on the other edge portion thereof.
A further object of this invention is the provision of control means at a single point for'varying the pressures applied in a hydraulic system acting on opposite sides of the machine, said control being such that the pressure had on one side of the machine is independent, within an operative range, from the pressure applied on the opposite side of the machine.
With these and other objects in view the invention consists of certain novel features of construction, as will be more fully described and particularly pointed out in the appended claims.
In the accompanying drawings:
big. 1 is a front view of the calender equipped with my improved construction.
Fig. 2 is a fragmeutal partially sectional view of the upper portion of the machine showing the plunger or ram for hydraulically applying the pressure and my construction for relieving the pressure so applied.-
Fig. 3 is a sectional view illustrating somewhat diagrammatically the connection from the accumulator to the hydraulic cylinders or compartments through which-pressure is applied to the piston.
Fig. 4 is a diagrammatic view illustrating the arrangement of the'conduits of the hy draulic system with indicators attached thereto and the motors and the controls for manipulating the same from a panel board. In the use of calenders or super calenders,
as sometimes called in the paper trade, me-
chanical means have been employed for applying pressure to the ends of the rolls at each side of the machine. This mechanical means has been individually operated to apply more pressure at one side than at the other side of the machine where such condi- ,tion was desired. Hydraulic means have also been used for applying pressure to the ends of the rolls at each side of the machine, which hydraulic system has been fed from and pressure applied through a single fl0 vided for varying the pressure that the ends of the rolls at one side of the machine may apply different pressure from that applied tothe ends of the rolls at the other side of the machine, and in order that this may be accomplished ina system using a single accumulator' I have provided at each side of the machine separate resilient means, such as a spring, to act against the underside of the piston or ram to relieve the pressure applied by the hydraulic system to the ends of- 7 the rol at a selected side of the machine, which spring may be controlled through a movable member operated by an electric motor and controlled from a single point by a switch to secure the desired pressure by suitably operatin a reversible motor to drive it in either direction; and the following is a detailed description of the present embodiment of this invention illustrating the preferred means by which these advantageous results may be accomplished.
With reference to the drawings, 10 designates the standards at the opposite sides of the machine between which extends the braces 11 and 12. In these standards there 9 is fixedly mounted a bottom roll 13 and upon. which there is sli'dably mounted in suitable bearings intermediate rolls 14 and a top roll 15. These rolls are suitably driven from any source of power such as by means of pulley 14 fixed to the lower roll shaft.
At the upper ends of each of these standards pressure is applied to the rolls by means of a hydraulic system. The functioning parts on each standard consist of a suitably formed pressure chamber 17 in which a piston 18 may move to a small extent to vary the volume thereof. A liquid tight packing 19 in the walls 20 slidably engages the surface of the piston 18 to form a liquid tlght seal for the liquid supplied to the chamber 17 and through which pressure is applied to the piston 18. A shaft 21 reduced as at 22 to form a shoulder 23 extends through.
the piston and is held in position by its threaded end 24 and nut 25. This shaft transmits the pressure applied to a slidable pressure block 26 recessed to provide a hydraulic chamber 27. A piston 28 is slidable in this chamber and is secured to the shaft 21 by means of a reduced portion 29 extending therethrough and forming a shoulder 30 to engage the washer 31 and held in secure engagement by the nut 32 threaded on the end 33. The piston 28 is provided with a packing 34 to slide along the walls 35 and form a liquid tight seal. This piston 28 is of equal area. to that of the top of the piston 18, thus the same pressure received at 17 would be transmitted through this shaft or ram as a whole to the pressure block 26 engaging the saddle 36 of the upper roll 15 to apply the same pressure thereto.
Withinthe framework 10 and about the shaft 21 I have fixedly mounted an internally threaded sleeve 37 in which there is a screw threaded member 38 to move along the shaft in response to rotation. This member is reduced at its upper end 39 and extends through and is splined to a worm wheel 40 by a worm 41 which is rotated by an electric motor 42. This nut 38 by its movement. varies the tension on a spring 43 which is positioned "between washers 44, engaging the nut, and washer 45, engaging the lower end of the piston 18, through which the pressure is transmitted.
Each of the hydraulic chambers 17 is connected through the branch ducts 46 and common duct 47 to the accumulator 48 upon which weights 49 rest for the application of the desired pressure to the hydraulic system which is registered at 50 in tons, frequently between fifty and one hundred tons.
When it is desired that the same amount of pressure he applied to both sides of the machine, the springs 43 will be relieved of tension. or placed under this same amount of tension, and then the accumulator will be built up or regulated by means of the weights 49 vuntil the indicator 50 registers the desired amount of pressure to be applied to the work passing through the' calender, and indicators 52 and 54 connected to chamber 29 will correspond. If it is desired to vary the amount of pressure applied to one side of the rolls, the accumulator may be built up until the pressure on the greatest side is attained and then by manipulation of the switch 51 the motor 42 may be revolved to turn the worm wheel 40 until this pressure on one side is relieved to the amount desired as indicated by the dial 52 connected to chamber 29, or if 1t so happens that the springs are under equal tension the accumulator could be built up until the desired lesser amount of pressure was indicated on the indicator 52 and then by switch 53 the motor could be operated reversely to relievethe tension on the spring, whereby the pressure could be built up until the dial 54 registered the greater amount of pressure desired to be applied to one side of the machine.
The hydraulic system with a single accu-' mulator is supplied in the usual manner when desired to fill up the system which has been emptied by means of the motor 55 which may be operated from the control board 56 by means of switch 57 in the usual .manner to pump the system full from the reservoir 0 the system. Thus, it will be observed that all parts may be controlled from a single panel board that a unit control may be had.
The foregoing description is directed solely towards the construction illustrated, but I desire it to be understood that I reserve the privilege of resortin to all the mechanical changes to which t e device is susceptible, the invention being defined and limited only by the terms of the appended claims.
I claim:
1. In a hydraulic calender, a hydraulic system for applying pressure to both ends of the rolls from a single accumulator, and means in said system to vary the pressure applied to one of the ends of the rolls.
, 2. In a hydraulic 'calender,a hydraulic system for a plying pressure to both ends of the rolls rom a single accumulator, including a pair of hydraulicall pistons and means for varying t e effective pressure of one of said pistons independent of the other piston.
"3. In a hydraulic calender, a hydraulic system for applying pressure to both ends of the rolls from a s1n le accumulator, including a pair of hytIr'aulically operated pistons and mechanical means for independently and selectively var ing the effective pressure of either of sai pistons.
4. In a hydraulic calender, a hydraulic system for applying pressure to both ends of the rolls from a single accumulator, including a pair ofhydraulically operated pistons and resilient means for varying the effective pressure of one of said pistons independent of the other piston.
5. In a hydraulic calender, a hydraulic system for a plying pressure to both ends of the rolls rom a single accumulator, including a pair of hydraulically operated operatedpistons and spring means for independently and selectively varying the efiective pressure of either of said pistons.
6. In a hydraulic calender, a hydraulic system for applying pressure to both ends of the rolls from a single accumulator, and means in said system to relieve the effective pressure applied to one of the ends of the rolls to vary the pressure with reference to the pressure applied to the opposite ends of the rolls.
7 In a hydraulic calender, a hydraulic s stem for applying pressure to both ends of the rolls from a single accumulator, including a'pair of hydraulically operated pistons and means for relieving the effective pressure of one of said pistons independent of the other of said pistons.
8. In a hydraulic calender, a hydraulic system for a plying pressure to both ends of the rolls rom a single accumulator, including a pair of hydraulically operated pis-. tons and resilient means for relieving the eifective pressure of one of said pistons independent of the other of said pistons.
9. In a hydraulic calender, a hydraulic system for applying pressure to both ends of the rolls from a single accumulator, including a pair of hydraulically operated pistons and spring means for independently and selectively relieving the efiective pressure of either of said pistons.
10. In a hydraulic calender, a hydraulic means for applying pressure to the ends of plying pressure to each end bearin for the top roll including a pair of hydrau ic chambers and a piston'in each chamber, liquid in said chambers engaging said pistons, accumulator means, ducts leading from said accumulator means to each of said chambers, a spring engagin the underside of each of said pistons, an independent means for tensioning each of said springs to variably relieve pressure of said iston.
14; In a hydraulic calen er, a series of rolls, bearings for said rolls, means for applying pressure to each end bearing for the top roll including a pair of hydraulic chambers and a piston in each 0 amber, liquid in said chambers engaging said pistons, a single accumulator, ducts leading from said accumulator to each of said chambers, a spring engaging the underside of each of said pistons, and a movable nut engaging the other end of each spring to tension the same, and independent means for moving each of said nuts.
In testimony whereof I aifix my signature. -9
THOMAS E. KANE.
the rolls, including a pair of hydraulically operated pistons, spring means engaging the underside of said pistons to relieve the pressure thereof and means to independently and selectively vary the tension on said spring means.
11. In a hydraulic calender, a series of rolls, bearings for said rolls, means for applying pressure to each end bearing for the top roll including a pair of hydraulic chambers, a piston in each chamber, liquid in each chamber engaging said pistons, accumulator means, ducts leading from said accumulator to each of said chambers, means en aging the underside of each of said pistons or individually relieving the effective pressure applied t rough the liquid in said hydraulic c amber.
12. In a hydraulic calender, a series of rolls, bearings for said rolls, means for applying pressure to each end bearing for the top roll including a pair of hydraulic chambers and a piston in each chamber, liquid in said chambers engaging said pistons, accumulator means, ducts leading from said accumulator means to each of said chambers, a spring engaging the underside of each of said pistons, and means for tensioning each of said springs.
18. In a hydraulic calender, a series of rolls, bearings .for said rolls, means for ap-
US600944A 1932-03-24 1932-03-24 Hydraulic calender Expired - Lifetime US1912709A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US600944A US1912709A (en) 1932-03-24 1932-03-24 Hydraulic calender

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US600944A US1912709A (en) 1932-03-24 1932-03-24 Hydraulic calender

Publications (1)

Publication Number Publication Date
US1912709A true US1912709A (en) 1933-06-06

Family

ID=24405703

Family Applications (1)

Application Number Title Priority Date Filing Date
US600944A Expired - Lifetime US1912709A (en) 1932-03-24 1932-03-24 Hydraulic calender

Country Status (1)

Country Link
US (1) US1912709A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2680468A (en) * 1949-08-01 1954-06-08 Gilbert L Lewis Laminating machine
US2687165A (en) * 1951-10-08 1954-08-24 F X Hooper Company Inc Corrugator roll mounting
US2720910A (en) * 1952-03-08 1955-10-18 F X Hooper Company Inc Corrugator roll mounting
US2737089A (en) * 1953-10-21 1956-03-06 John R Baumgartner Apparatus for decurling a web
DE1084227B (en) * 1957-09-16 1960-06-30 Karl Marx Stadt Maschf Loading and unloading device for the rolls of calenders or the like.
US2972378A (en) * 1955-06-23 1961-02-21 Josephu Augustinus Fr Henricus Treatment by compression of fibrocement wet sheet material and the like
US3027827A (en) * 1957-03-13 1962-04-03 United Eng Foundry Co Calendering apparatus

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2680468A (en) * 1949-08-01 1954-06-08 Gilbert L Lewis Laminating machine
US2687165A (en) * 1951-10-08 1954-08-24 F X Hooper Company Inc Corrugator roll mounting
US2720910A (en) * 1952-03-08 1955-10-18 F X Hooper Company Inc Corrugator roll mounting
US2737089A (en) * 1953-10-21 1956-03-06 John R Baumgartner Apparatus for decurling a web
US2972378A (en) * 1955-06-23 1961-02-21 Josephu Augustinus Fr Henricus Treatment by compression of fibrocement wet sheet material and the like
US3027827A (en) * 1957-03-13 1962-04-03 United Eng Foundry Co Calendering apparatus
DE1084227B (en) * 1957-09-16 1960-06-30 Karl Marx Stadt Maschf Loading and unloading device for the rolls of calenders or the like.

Similar Documents

Publication Publication Date Title
US2267380A (en) Hold-down system
US2138397A (en) Compression roll
US4173904A (en) Apparatus for automatically centering an endless band trained over two rolls
US1912709A (en) Hydraulic calender
US2312726A (en) Hydraulic calender
US2569034A (en) Hydraulic impression gear for printing presses
GB747347A (en) Improvements relating to calenders and rolling mills
US2283447A (en) Press brake
US2353389A (en) Apparatus for controlling the slide movement in long-bed hydraulic presses
US3199539A (en) Proportioning control valve for hydraulic cylinders
US2479759A (en) Apparatus for the treatment of webs or fleeces
US2991953A (en) Mill roll stand
DE601123C (en) Hydraulic pressing device for roller bearings or the like on rubber processing machines
US1938758A (en) Spindle oscillator
US3364848A (en) Calender, especially for paper satinizing
US2782603A (en) Power control system
US1699641A (en) Ink grinder
US2038272A (en) Servomotor control
US2755778A (en) Power steering unit
US3070146A (en) System and related device for balancing hydraulic presses in general
US1765922A (en) Calender
GB957805A (en) Improvements in or relating to the working of metals
US1179737A (en) Power-transmitting mechanism.
US1593653A (en) Hydraulic calender
US3065740A (en) Pump multiposition preset control