US2667558A - Upsetting of electrically heated rods - Google Patents

Upsetting of electrically heated rods Download PDF

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Publication number
US2667558A
US2667558A US279436A US27943652A US2667558A US 2667558 A US2667558 A US 2667558A US 279436 A US279436 A US 279436A US 27943652 A US27943652 A US 27943652A US 2667558 A US2667558 A US 2667558A
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rod
abutment
electrode
upsetting
swage
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Expired - Lifetime
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US279436A
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Aeckersberg Gustav
Nilgen Karl Anton
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Maschinenfabrik Hasenclever AG
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Maschinenfabrik Hasenclever AG
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21JFORGING; HAMMERING; PRESSING METAL; RIVETING; FORGE FURNACES
    • B21J9/00Forging presses
    • B21J9/02Special design or construction
    • B21J9/06Swaging presses; Upsetting presses
    • B21J9/08Swaging presses; Upsetting presses equipped with devices for heating the work-piece

Definitions

  • This invention relates to a method and device for the upsetting and finishing of the electrically heated end of a rod-shaped material, of the type in which the distance between the electrodes, one of which is constructed as a guiding electrode, is increased by displacement of the other electrode which serves as an abutment.
  • the rod is confined within a predetermined outline as by a hollow sleeve or swage, to prevent spreading of the upset region transversely to the upsetting movement and beyond the outline of the desired finished piece.
  • Fig. 1 is an axial section of the operative parts of the upsetting machine, in their initial position
  • Fig. 2 is a similar view, showing the parts after the beginning of the upsetting
  • Fig. 3 is a similar view, showing the parts at the end of the upsetting process.
  • Fig. 4' is a side view of a workpiece produced in this manner.
  • the cold malleablemetal rod I which is to be upset is chucked or clamped between the jaws 2 of the so-called guide electrode 3 and forced into engagement of its end 4 with the movable bottom part 5 of the die or swage, by exerting pressure on theopposite end 6 of the rod.
  • the plunger 5 is slidably guided in the cavity sleeve 77.
  • the cavity sleeve 1 is fixedly accommodated in an electrode block 8.
  • the two electrode blocks 3 and. Bare connected to the two secondary poles of transformer Sand are insulated from each other except for the connection through the rod l which when inserted constitutes a direct connection between the electrodes.
  • the cavity sleeve 1, the clamping jaws 2 and the abutment electrode or plunger 5 are replaceable by corresponding parts of different shapes and dimensions.
  • the distance between the two electrodes 3 and 8 is variable. workpieces of different cross section and material can thus be worked by adjusting the distance between the electrodes, the upsetting pressure, and the heating voltages.
  • a method of swaging metallic rod-shaped materials comprising the steps of moving the end face of said rod-shaped material in an axial direction into contact with a first abutment member, connecting said first abutment member to one pole of a source of electric current, arranging a second, profiled abutment around the end of the rod, connecting to the second pole of said source of electric current a surface of the rod which is not surrounded by the second abutment, closing the circuit of the source of current, heating to upsetting temperature the part of the rod traversed by current, exerting on the rod a pressure force sufficient to cause upsetting of the part of the rod traversed by current, and moving the first abutment in an axial direction of the rod, said movement causing the upset material to engage the second abutment and to assume the shape defined by the second abutment.
  • a method of swaging metallic rod-shaped materials comprising the steps of moving the end face of said rod-shaped material in an axial direction into contact with a first abutment member, connecting said first abutment member to one pole of a source of electric current, arranging a second, profiled abutment around the end of the rod, connecting to the second pole of said source of electric current a surface of the rod which is not surrounded by the second abutment, closing the circuit of the source of cur rent, heating to upsetting temperature the part of the rod traversed by current, exerting on the rod a pressure force sufficient to cause upsetting of the part of the rod traversed by current, and moving the first abutment in an axial direction of the rod from the moment when the upset material begins to assume the free cross section of the second abutment, said movement causing the upset material to engage the second abutment and to assume the shape defined by the second abutment.
  • a forging press comprising, in combination, an abutment electrode for rod- -shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
  • a forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, said abutment electrode being arranged in such a way in relation to the swage that the abutment electrode in its position of rest is flush with the end face of the swage directed towards the workpiece, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
  • a forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, the abutment electrode, the guide electrode, and the swage being removable for replacement, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
  • a forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, the distance between the abutment and guide electrodes being variable, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
  • a forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, and means for exerting on the rod-shaped material a variable pressure force directed towards the bottom of the swage.
  • a forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, means for adjusting the heating voltage of the source of current, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
  • a method of swaging a metallic rod or the like comprising the steps 01' moving the end face ofsaid rod into contact with an abutment member, guiding the rod at an intermediate portion thereof, heating the part of the rod between said end face and said intermediate portion to upsetting temperature, exerting on the rod a degree of pressure fsufficient to cause upsetting of the heated end part of the rod, and moving the abutment axially of the rod and in the direction of the applied pressure, while confining the upset portion of the rod within a predetermined outline, whereby upon continued movement of the abutment, the heated portion of the rod is swaged to the said predetermined outline.

Description

1954' G. AECKERSBERG ET AL 2,567,558
UPSETTING OF ELECTRICALLY HEATED RODS Filed March 29, 1952 //v VEN r025 Patented Jan. 26, 1954 UNITED STATES PATENT OFFICE UPSETTING OF ELECTRICALLY HEATED RODS Application March 29; 1952, Serial NO. 279 436 Claims priority, application Germany April 6, 1951 9 Claims.
This invention relates to a method and device for the upsetting and finishing of the electrically heated end of a rod-shaped material, of the type in which the distance between the electrodes, one of which is constructed as a guiding electrode, is increased by displacement of the other electrode which serves as an abutment.
It is an object of the present invention to e1iminate the heretofore necessary finishing by further working of the surfaces of the upset areas, as by hammering, rolling, or after-pressing, which required relatively complicated machines and burdensome operations which have prevented prior proposed processes of this type from being introduced into practice.
It is a further object of the present invention to carry out the electrical heating and the deformation of the workpiece in the manner of a free-form upsetting (free-form forging), the deformation occurring at one end of a malleable metal rod and the rod being heated only at such end.
It is a still further object of the invention to provide a process and apparatus whereby the electrically heated and thereby plastically deformable workpiece is introduced even during the current passage into a hollow swage which opens gradually to the final shape and size-determining position, so that the deformation proceeds gradually, whereby it is made possible to upset the ends of rods of any desired length into the desired shape directly in the electric upsetting machine.
It is also an object of the invention to provide a process and apparatus of the type indicated wherein the iu settirr is completed in a single step, and wherein the extent or length of the upset region can be readily controlled.
The above other objects of the invention, which will become evident as the further description of the invention proceeds, are accomplished by the process and apparatus, hereinafter more fully described, for upsetting and finishshaping of the electrically heated end of a rodshaped workpiece in which, during the upsetting,
the rod is confined within a predetermined outline as by a hollow sleeve or swage, to prevent spreading of the upset region transversely to the upsetting movement and beyond the outline of the desired finished piece.
In the accompanying drawing a now preferred embodiment of the invention is shown by Way of illustration and not by way of limitation.
Fig. 1 is an axial section of the operative parts of the upsetting machine, in their initial position,
Fig. 2 is a similar view, showing the parts after the beginning of the upsetting,
Fig. 3 is a similar view, showing the parts at the end of the upsetting process, and
Fig. 4' is a side view of a workpiece produced in this manner.
Similar reference numerals denote similar parts in the different views.
Referrin now to the drawings in greater detail, and first to Fig. 1, it will be seen that the cold malleablemetal rod I which is to be upset is chucked or clamped between the jaws 2 of the so-called guide electrode 3 and forced into engagement of its end 4 with the movable bottom part 5 of the die or swage, by exerting pressure on theopposite end 6 of the rod. The plunger 5 is slidably guided in the cavity sleeve 77. The cavity sleeve 1 is fixedly accommodated in an electrode block 8. The two electrode blocks 3 and. Bare connected to the two secondary poles of transformer Sand are insulated from each other except for the connection through the rod l which when inserted constitutes a direct connection between the electrodes. When the primary circuit is closed, a current flow between the electrodes 3 and 8, whereby the rod part denoted t is heated. The pressure on the cold end 6 of the rod will cause upsetting of the heated rod part 4 at It.
When the upsetting operation has proceeded to such an extent that the diameter of the upset part Iii has reached the inner diameter of the matrix or die sleeve 1, Fig. 2, the abutment electrode 5 is retracted into the cavity sleeve l. The uniformly compressed heated material will adapt itself to the walls ofthe cavity as the upsetting operation is continued. lhe motion of the plunger 5 has to be adapted to the advance of the continuously upsetting material. Thus the upset material will gradually fill up the entire cavityand adapt itself to the innershape thereof,
without showing any folds, overlaps or burning (Figs. 3 aud t).
The cavity sleeve 1, the clamping jaws 2 and the abutment electrode or plunger 5 are replaceable by corresponding parts of different shapes and dimensions. The distance between the two electrodes 3 and 8 is variable. workpieces of different cross section and material can thus be worked by adjusting the distance between the electrodes, the upsetting pressure, and the heating voltages.
While the invention has been described in detail with respect to a now preferred example and embodiment of the invention it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention and it is intended, therefore, to cover all such changes and modifications in the appended claims.
What is claimed is:
1. A method of swaging metallic rod-shaped materials comprising the steps of moving the end face of said rod-shaped material in an axial direction into contact with a first abutment member, connecting said first abutment member to one pole of a source of electric current, arranging a second, profiled abutment around the end of the rod, connecting to the second pole of said source of electric current a surface of the rod which is not surrounded by the second abutment, closing the circuit of the source of current, heating to upsetting temperature the part of the rod traversed by current, exerting on the rod a pressure force sufficient to cause upsetting of the part of the rod traversed by current, and moving the first abutment in an axial direction of the rod, said movement causing the upset material to engage the second abutment and to assume the shape defined by the second abutment.
2. A method of swaging metallic rod-shaped materials comprising the steps of moving the end face of said rod-shaped material in an axial direction into contact with a first abutment member, connecting said first abutment member to one pole of a source of electric current, arranging a second, profiled abutment around the end of the rod, connecting to the second pole of said source of electric current a surface of the rod which is not surrounded by the second abutment, closing the circuit of the source of cur rent, heating to upsetting temperature the part of the rod traversed by current, exerting on the rod a pressure force sufficient to cause upsetting of the part of the rod traversed by current, and moving the first abutment in an axial direction of the rod from the moment when the upset material begins to assume the free cross section of the second abutment, said movement causing the upset material to engage the second abutment and to assume the shape defined by the second abutment.
3. A forging press comprising, in combination, an abutment electrode for rod- -shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
4. A forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, said abutment electrode being arranged in such a way in relation to the swage that the abutment electrode in its position of rest is flush with the end face of the swage directed towards the workpiece, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
5. A forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, the abutment electrode, the guide electrode, and the swage being removable for replacement, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
6. A forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, the distance between the abutment and guide electrodes being variable, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
'7. A forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, and means for exerting on the rod-shaped material a variable pressure force directed towards the bottom of the swage.
8. A forging press comprising, in combination, an abutment electrode for rod-shaped metallic malleable material, a guide electrode for said material, insulating means between the two electrodes, a source of current which is electrically connected with the abutment and guide electrodes, means for adjusting the heating voltage of the source of current, a swage surrounding the abutment electrode in the form of a sleeve, the abutment electrode being constructed in the form of a movable swage bottom and being movable within and relative to the surrounding swage, and means for exerting on the rod-shaped material a pressure force directed towards the bottom of the swage.
9. A method of swaging a metallic rod or the like, comprising the steps 01' moving the end face ofsaid rod into contact with an abutment member, guiding the rod at an intermediate portion thereof, heating the part of the rod between said end face and said intermediate portion to upsetting temperature, exerting on the rod a degree of pressure fsufficient to cause upsetting of the heated end part of the rod, and moving the abutment axially of the rod and in the direction of the applied pressure, while confining the upset portion of the rod within a predetermined outline, whereby upon continued movement of the abutment, the heated portion of the rod is swaged to the said predetermined outline.
GUSTAV AECKERSBERG. KARL ANTON NILGEN.
References Cited in the file of this patent UNITED STATES PATENTS Number Name a Date 2,581,774 Stone Jan. 8, 1952 FOREIGN PATENTS Number Country Date 247,602 Great Britain 1927
US279436A 1951-04-06 1952-03-29 Upsetting of electrically heated rods Expired - Lifetime US2667558A (en)

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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2755546A (en) * 1952-07-10 1956-07-24 Kaiser Aluminium Chem Corp Metal treatment
US2755544A (en) * 1952-07-10 1956-07-24 Kaiser Aluminium Chem Corp Metal treatment
US2836706A (en) * 1955-11-22 1958-05-27 Cavanagh Daniel Alfred Precision forging method and apparatus
US2925486A (en) * 1958-04-14 1960-02-16 Cavanagh Daniel Alfred Precision forging methods and apparatus
US3021421A (en) * 1958-10-15 1962-02-13 Thompson Ramo Wooldridge Inc Metal gathering process and articles produced thereby
US3487196A (en) * 1966-02-10 1969-12-30 Hasenclever Ag Maschf Die for electrical upsetting
US5979209A (en) * 1998-08-03 1999-11-09 Allevard Ressorts Automobile Method of forming a torsion bar with hexagonal heads
US20110175343A1 (en) * 2005-01-31 2011-07-21 Pipe Maintenance, Inc. Identification system for drill pipes and the like
WO2012128735A1 (en) * 2011-03-24 2012-09-27 Pipe Maintenance, Inc. Identification system for drill pipes and the like

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB247602A (en) * 1925-02-13 1926-11-25 Alfred Willaredt An improved electric forge
US2581774A (en) * 1947-09-15 1952-01-08 Harry F Stone Method and apparatus for producing valve stems

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB247602A (en) * 1925-02-13 1926-11-25 Alfred Willaredt An improved electric forge
US2581774A (en) * 1947-09-15 1952-01-08 Harry F Stone Method and apparatus for producing valve stems

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2755546A (en) * 1952-07-10 1956-07-24 Kaiser Aluminium Chem Corp Metal treatment
US2755544A (en) * 1952-07-10 1956-07-24 Kaiser Aluminium Chem Corp Metal treatment
US2836706A (en) * 1955-11-22 1958-05-27 Cavanagh Daniel Alfred Precision forging method and apparatus
US2925486A (en) * 1958-04-14 1960-02-16 Cavanagh Daniel Alfred Precision forging methods and apparatus
US3021421A (en) * 1958-10-15 1962-02-13 Thompson Ramo Wooldridge Inc Metal gathering process and articles produced thereby
US3487196A (en) * 1966-02-10 1969-12-30 Hasenclever Ag Maschf Die for electrical upsetting
US5979209A (en) * 1998-08-03 1999-11-09 Allevard Ressorts Automobile Method of forming a torsion bar with hexagonal heads
US20110175343A1 (en) * 2005-01-31 2011-07-21 Pipe Maintenance, Inc. Identification system for drill pipes and the like
WO2012128735A1 (en) * 2011-03-24 2012-09-27 Pipe Maintenance, Inc. Identification system for drill pipes and the like

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