US1747934A - Apparatus for hardening products of iron, steel, and other ferromagnetic materials - Google Patents

Apparatus for hardening products of iron, steel, and other ferromagnetic materials Download PDF

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US1747934A
US1747934A US241621A US24162127A US1747934A US 1747934 A US1747934 A US 1747934A US 241621 A US241621 A US 241621A US 24162127 A US24162127 A US 24162127A US 1747934 A US1747934 A US 1747934A
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furnace
product
hardening
iron
steel
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US241621A
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Heidenhain Willy
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    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D1/00General methods or devices for heat treatment, e.g. annealing, hardening, quenching or tempering
    • C21D1/54Determining when the hardening temperature has been reached by measurement of magnetic or electrical properties

Definitions

  • the hardening temperature of all ferromagnetic materials nearly coincides with the temperature of the magnetic transformation and this property has already been utilized 5 for automatic hardening purposes in such a way that the object to be treated is held in the through the mage product falls out rnace as soon as the weight of the product exceeds the attractive magnetic force which decreases in consequence of the magnetic transformation.
  • the demagnetization o the products to be hardened does not take place suddenly, but according to a gradually sloping curve.
  • dur- 111 rising temperatures occurs a long time before the necessary hardening temperature is reached and at such a low rate that, if even powerful electro-magnets are used, the weight, 25 of the product to be hardened exceeds the magnetic attractive force and consequently the product leaves the furnace before the proper time.
  • the said so drawback is overconie by feeding the product to be hardened along a slanting or inclined track through the furnace, so that the time of retention of the product inside of the furnace is increased in consequence of the frictional resistance.
  • the product is held against movement in the furnace until the temperature of the magnetic transformation is approximated, then the product begins to travel along the inclined track, the speed of the travel being very slow in consequence of the frictional resistance, so that the product is subjected to the proper hardening tem perature before it leaves the furnace.
  • the product is agitated by any suitablemeans.
  • the interior 1 of the furnace is formed by one or several tubes 2 composed of a heat resistant material.
  • the tubes are surrounded with an electric heating-spiral 3, and an isolating or insulating mantle 4 is provided to prevent radiation of the heat outwardly.
  • the interior of the furnace is slanting'or inclined. Outside of the isolating mantle, the upper part of the furnace is surrounded by cooling coils 5 which are arranged in such a way that a space exists between the exterior surface of the isolating mantle 4 and said cooling coils 5.
  • an electromagnetic'coil 6 is arranged and is protected by said cooling coils against the heat radiating from the furnace 1.
  • the furnace 1 is pivoted at its upper end to the shaft 7.
  • a cam shaft 8 is provided and when rotated engages the lower free end of the mantle 4 to impart oscillation to the furnace in a vertical plane.
  • a trough 9 which contains the hardening liquid.
  • the operation of the furnace is as follows:
  • the furnace is heated up to the hardening temperature by connecting the heating spiral 3 with the usual current supply, and at the same time the cooling water is circulated through the cooling coils 5.
  • the coil 6 Before charging the furnace the coil 6 is energized by the current supply, and the cam shaft 8 is rotated so that the lower end of the tube 2 is oscillated upon the shaft 7
  • the products to be hardened have been introduced into the furnace through the upper end of the tube 2, they are first held against movement in the upper part of the furnace through the effect thereon of the magnetic field produced by the coil 6.
  • the product is held against movement until the temperature of the product is equal to the temperature of the magnetic transformation. s soon as this temperature is reached, the product, being unaffected by the influence of the magnetic field, begins to travel by gravity downward along the inclined tube.
  • the s 'eed of the product is decreased through the riction between the product and the furnace wall, and an adherence of the product to the furnace wall is prevented by the oscillatory movement imparted by the cam shaft 8 to the tube 2.
  • the temperature of the product reaches the degree necessary for hardening, said degree being obtained by a slight increase of temperature, the diiference between the temperature of the magnetic transformation and the hardening 1o temperature being relatively small.
  • the product arrives at the lower end of the tube 2 and falls into the trough 9 to be subjectcd to treatment by the hardening liquid.
  • a furnace for hardening iron magnetic products including a tubular inclined member having its upper end pivoted, means for oscillating the lower end thereof, an electrical heating unit surrounding the member the full length thereof, an electromagnet surrounding said tubular member adjacent the upper inlet end thereof, and a tempering bath adjacent the lower outlet end of the tubular member.
  • a furnace for hardening iron magnetic products including a tubular inclined member having its upper end pivoted, means for oscillating the lower end thereof, an electrical heating unit surrounding the member the full length thereof, an electromagnet surrounding said tubular member adjacent the upper inlet end thereof, a tempering bath 7 adjacent the lower outlet end of the tubular I member, and a cooling means interposed between the electromagnet and the tubular member to produce a heat shield for the electromagnet.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Heat Treatment Of Articles (AREA)

Description

Feb. 18, 1930. w HEIDENHAIN 1,747,934
APPARATUS FOR HARDENING PRODUCTS OF IRON, STEEL, AND OTHER FERROMAGNETIG MATERIALS Filed DEC. 21, 1927 hardening furnace solely treated thereof, the demagnetization vention.
Patented. Feb." 18, 1930 .UNITED STATES PATENT OFFICE WILLY zanmmmnm, or mean, GERMANY APPARATUS I'OFEG- PRODUCT OF IRON, STEEL, AND OTHER FEBRO- MAGNETIC MATERIALS Application filed Deoemberfil, 1927, Serial 1T0. 241,621, and in Germany December 28,1928.
The hardening temperature of all ferromagnetic materials nearly coincides with the temperature of the magnetic transformation and this property has already been utilized 5 for automatic hardening purposes in such a way that the object to be treated is held in the through the mage product falls out rnace as soon as the weight of the product exceeds the attractive magnetic force which decreases in consequence of the magnetic transformation.
It has been found through many tests that the hardening heretofore effected by said netic influence, so that of the fu 15 method, is very faulty for the reason that,
during the risin of the temperature, the demagnetization o the products to be hardened does not take place suddenly, but according to a gradually sloping curve. In consequence occurring dur- 111 rising temperatures occurs a long time before the necessary hardening temperature is reached and at such a low rate that, if even powerful electro-magnets are used, the weight, 25 of the product to be hardened exceeds the magnetic attractive force and consequently the product leaves the furnace before the proper time.
According to the present invention the said so drawback is overconie by feeding the product to be hardened along a slanting or inclined track through the furnace, so that the time of retention of the product inside of the furnace is increased in consequence of the frictional resistance. In this way the product is held against movement in the furnace until the temperature of the magnetic transformation is approximated, then the product begins to travel along the inclined track, the speed of the travel being very slow in consequence of the frictional resistance, so that the product is subjected to the proper hardening tem perature before it leaves the furnace. To avoid any stoppage or halting of the product while on the track the product is agitated by any suitablemeans.
The accompanying drawing is a sectional elevation of an apparatus for carrying out the new method according to the present ininterior of the Referring to the drawing, the interior 1 of the furnace is formed by one or several tubes 2 composed of a heat resistant material. The tubes are surrounded with an electric heating-spiral 3, and an isolating or insulating mantle 4 is provided to prevent radiation of the heat outwardly. The interior of the furnace is slanting'or inclined. Outside of the isolating mantle, the upper part of the furnace is surrounded by cooling coils 5 which are arranged in such a way that a space exists between the exterior surface of the isolating mantle 4 and said cooling coils 5. Around the cooling coils 5 an electromagnetic'coil 6 is arranged and is protected by said cooling coils against the heat radiating from the furnace 1. The furnace 1 is pivoted at its upper end to the shaft 7. At the lower end of the furnace a cam shaft 8 is provided and when rotated engages the lower free end of the mantle 4 to impart oscillation to the furnace in a vertical plane. Below the lower end of the tube 2 of the furnace is a trough 9 which contains the hardening liquid.
The operation of the furnace is as follows:
The furnace is heated up to the hardening temperature by connecting the heating spiral 3 with the usual current supply, and at the same time the cooling water is circulated through the cooling coils 5. Before charging the furnace the coil 6 is energized by the current supply, and the cam shaft 8 is rotated so that the lower end of the tube 2 is oscillated upon the shaft 7 After the products to be hardened have been introduced into the furnace through the upper end of the tube 2, they are first held against movement in the upper part of the furnace through the effect thereon of the magnetic field produced by the coil 6. The product is held against movement until the temperature of the product is equal to the temperature of the magnetic transformation. s soon as this temperature is reached, the product, being unaffected by the influence of the magnetic field, begins to travel by gravity downward along the inclined tube. The s 'eed of the product is decreased through the riction between the product and the furnace wall, and an adherence of the product to the furnace wall is prevented by the oscillatory movement imparted by the cam shaft 8 to the tube 2. During this downward travel of the product along the inclined tube 2 the temperature of the product reaches the degree necessary for hardening, said degree being obtained by a slight increase of temperature, the diiference between the temperature of the magnetic transformation and the hardening 1o temperature being relatively small. Finally the product arrives at the lower end of the tube 2 and falls into the trough 9 to be subjectcd to treatment by the hardening liquid.
I claim:
1. A furnace for hardening iron magnetic products, including a tubular inclined member having its upper end pivoted, means for oscillating the lower end thereof, an electrical heating unit surrounding the member the full length thereof, an electromagnet surrounding said tubular member adjacent the upper inlet end thereof, and a tempering bath adjacent the lower outlet end of the tubular member.
2. A furnace for hardening iron magnetic products, including a tubular inclined member having its upper end pivoted, means for oscillating the lower end thereof, an electrical heating unit surrounding the member the full length thereof, an electromagnet surrounding said tubular member adjacent the upper inlet end thereof, a tempering bath 7 adjacent the lower outlet end of the tubular I member, and a cooling means interposed between the electromagnet and the tubular member to produce a heat shield for the electromagnet.
In testimony whereof I have hereunto set my hand.
WILLY HEIDENHAIN.
US241621A 1926-12-28 1927-12-21 Apparatus for hardening products of iron, steel, and other ferromagnetic materials Expired - Lifetime US1747934A (en)

Applications Claiming Priority (1)

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DE282750X 1926-12-28

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FR (1) FR647296A (en)
GB (1) GB282750A (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415376A (en) * 1943-05-29 1947-02-04 Budd Co Electromagnetic means for feeding a ferromagnetic charge to a furnace
US2464727A (en) * 1944-06-07 1949-03-15 Sunbeam Corp High-frequency inductor heattreating apparatus
US2482545A (en) * 1945-07-24 1949-09-20 Gen Electric High-frequency heating apparatus
US2505049A (en) * 1945-03-31 1950-04-25 Linde Air Prod Co Electric powder control
US2513778A (en) * 1946-11-09 1950-07-04 Chrysler Corp Heat-treating apparatus
US2697596A (en) * 1952-07-22 1954-12-21 Loftus Engineering Corp Magnetic brake for quenching apparatus
US2780666A (en) * 1954-04-06 1957-02-05 Mallory Sharon Titanium Corp Induction furnace control and method
US2823781A (en) * 1956-02-27 1958-02-18 Gen Electric Article handling apparatus
US3645518A (en) * 1969-02-04 1972-02-29 Borel Sa Hardening and/or tempering furnace for self-hardening steel alloys and high-speed steels

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SE442641B (en) * 1981-04-28 1986-01-20 Pavljukov Valentin G INSTALLATION FOR THERMAL OR CHEMICAL THERMAL TREATMENT OF THE WORKING METAL
CS240429B1 (en) * 1981-11-03 1986-02-13 Viktor V Drokin Equipment for half-finished products feed into press working end

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415376A (en) * 1943-05-29 1947-02-04 Budd Co Electromagnetic means for feeding a ferromagnetic charge to a furnace
US2464727A (en) * 1944-06-07 1949-03-15 Sunbeam Corp High-frequency inductor heattreating apparatus
US2505049A (en) * 1945-03-31 1950-04-25 Linde Air Prod Co Electric powder control
US2482545A (en) * 1945-07-24 1949-09-20 Gen Electric High-frequency heating apparatus
US2513778A (en) * 1946-11-09 1950-07-04 Chrysler Corp Heat-treating apparatus
US2697596A (en) * 1952-07-22 1954-12-21 Loftus Engineering Corp Magnetic brake for quenching apparatus
US2780666A (en) * 1954-04-06 1957-02-05 Mallory Sharon Titanium Corp Induction furnace control and method
US2823781A (en) * 1956-02-27 1958-02-18 Gen Electric Article handling apparatus
US3645518A (en) * 1969-02-04 1972-02-29 Borel Sa Hardening and/or tempering furnace for self-hardening steel alloys and high-speed steels

Also Published As

Publication number Publication date
FR647296A (en) 1928-11-22
GB282750A (en) 1929-01-17

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