US1863436A - Iron clad relay magnet - Google Patents

Iron clad relay magnet Download PDF

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Publication number
US1863436A
US1863436A US468414A US46841430A US1863436A US 1863436 A US1863436 A US 1863436A US 468414 A US468414 A US 468414A US 46841430 A US46841430 A US 46841430A US 1863436 A US1863436 A US 1863436A
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spring
core
elements
relay
over
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US468414A
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Paniagua Ysabel Marie-Louis De
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/16Magnetic circuit arrangements
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H51/00Electromagnetic relays
    • H01H51/02Non-polarised relays
    • H01H51/04Non-polarised relays with single armature; with single set of ganged armatures
    • H01H51/06Armature is movable between two limit positions of rest and is moved in one direction due to energisation of an electromagnet and after the electromagnet is de-energised is returned by energy stored during the movement in the first direction, e.g. by using a spring, by using a permanent magnet, by gravity

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  • My invention has for its object an iron clad electromagnetic relay having an outer cylinder and a central core of magnetic mate- ⁇ r1a1 carryin at its ends magnetic covers closlI ing the cyhnder.
  • my invenl0 posed a contact spring secured through one end to one core element and carrying in front of the nonmagnetic body the armature adapted to be attracted by the core in a kdirection substantially perpendicular tothe axis ofthe latter.
  • Fig. 1 is a cross-section of the devic through the axis thereof.
  • Fig. 2 is a cross-section perpendicular to the axis showing the connection between the coil and the terminals.
  • Fig. 3 shows diagrammatically the distribution of the lines of force.
  • the electromagnet comprises two alined bars of suitable magnetic metal such as soft iron 1 and 2 connected through a sufficiently thick plate 2, of nonmagnetic material such as copper or brass.
  • the bar 2 engages with some friction the central aperture of a disc 4 of same magnetic metal, part of the aperture remaining free so as to allow the contact-bearing spring 7 of the relay to pass.
  • the disc 4 is provided with a flange 8 inside whichL a cylinder 9 also of soft iron or the like is engaged with slight friction so as to form the casing of the relay.
  • a cylinder 9 also of soft iron or the like is engaged with slight friction so as to form the casing of the relay.
  • the cylinder is providedwith a circular groove carrying a second disc 11 of soft steel or the like provided with a central aperture.
  • the soft steel bar l ends with ashoulder 12 and a part of reduced diameter 13 passing through the said aperture in the disc 11; its end is threaded for receiving the assembling nut 14.
  • the exciting coil 15 is Wound over a copper or brass tube 16 and is bounded by insulating flanges 10.
  • the ends of the wire forming this coil are connected with plugs 17 (F ig. 2) passing through the disc 4 from which they are insulated by sleeves such as 18.
  • the plugs are fitted with friction inside metal sleeves carried by the insulating support 19 and provided at their ends with terminals or else with wires to which are Welded the ends of the outer leads.
  • the plate 19 is geld against the disc 4 by a shoulder 22 on the
  • the movable armature 23 is secured to the springr 7 of nonmagnetic material such as bronze or brass. This spring'is secured to the bar 1 through one end, the other end carrying a contact part 24 adapted to open or to close the circuit controlled by the relay.
  • the movable armature 23 is disposed in front of the connecting plate 3.
  • My relay is capable of many applications. It is in particular very'useful in systems for protection against fire andtheft.
  • the core, the outer discs and the cylindric casing are of soft iron.
  • any magnetic metal may be used and it is possible by using a suitable material to make the properties of the relay vary to a considerable degree.
  • I mayreplace the soft iron by metal or alloys which are magnetically very permeable such as the so-called permalloy alloy or certain very pure nickel-iron alloys.
  • the same parts may be advantageously made of a similar alloy having a smaller remanent power.
  • Vhat I claim is:
  • An electromagnetic relay comprising a magnet body constituted by a central core of two alined elements separated by a gap, two discs fitted over the outer ends of said elements and a cylindrical part fitted between the peripheries ofthe discs, a non-mag netic part separating the two core elements, a spring disposed parallel to and adjacent the core7 a coil wound over the core, and passing over the spring, means for securingr one end of the spring, a contact controlled by the spring and an armature carried by the spring in front of the non-magnetic part separating the two core elements.
  • An electromagnetic relay comprising a magnet body constituted by a central core of two alined elements separated by a gap, two discs fitted over the outer ends of said elements and a cylindrical part fitted inside the periphery of one disc and passing over the periphery of the other, a non-magnetic part separating the two core elements a spring dis posed parallel to and adjacent the core, a coil y wound over the core, and passing over the spring, means for securing one end of the spring, a contact controlled by the spring and an armature carried by the spring in front of the non-magnetic part separating the two core elements.
  • An electromagnetic relay comprising a magnet body constituted by a central core of two alined elements separated by agap, two discs fitted over the outer ends of said elements, one disc being frictionally set over the corresponding core element, a nut for securing the other disc over its core element and a cylindrical part fitted between the peripheries of the discs, a non-magnetic part separating the two core elements, a spring disposed parallel to and adjacent the core, a coil wound over the core, and passing over the spring, means for securing one end of the spring, a contact controlled by the spring and an armature carried by the spring in front of the non-magnetic part separating the two core elements.
  • An electromagnetic relay comprising a magnet body constituted by a central core of two alined elements separated by a. gap, the core elements being cut away in front of said gap so as to form a trapezoidal recess, two discs fitted over the outer ends of said elements and a cylindrical party fitted between the peripheries of the discs, a nonmagnetic part separating the two core elements and the surface of which forms the bot-toni of the trapezoidal recess thereof, a spring disposed parallel to and adjacent the core, a coil wound over the core and passing over the spring, means for securing one end of the spring, a contact controlled by the spring and an armature carried by the spring in front of the non-magnetic part separating the two core elements.
  • An electromagnetic relay comprising a magnet body made of very permeablelnickel iron alloy and constituted by a central core of two alined elements separated by a gap, two discs fitted over the outer ends of said elements and a cylindrical part fitted between the peripheries of the discs, a non- Inagnetic part separating the two core elements, a spring disposed parallel to and adjacent the core, a coil ywound over the core and passing over the spring, means for securing one end of the spring, a contact controlled by the spring and an armature carried ,by 'the spring in front of the nommagnetic part separating the two core elements.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Electromagnets (AREA)
  • Details Of Connecting Devices For Male And Female Coupling (AREA)

Description

June |14, 1932- I Y. M. 1 DE PANIAGUA 1,853,436
IRON CLAD RELAY MAGNET Filed July 16, 1930 Vin/@Hwy /czgf Patented June 14, 1932 YSABEL MARIE-LOUISE DE PANIAGUA, OF PARIS,-FRANCE VIIRON CLAD RELAY MAGNET Application filedJuly 16, 1930, Serial No.y 468,414, and in France July 22, 1929.
My invention has for its object an iron clad electromagnetic relay having an outer cylinder and a central core of magnetic mate-` r1a1 carryin at its ends magnetic covers closlI ing the cyhnder. According to my invenl0 posed a contact spring secured through one end to one core element and carrying in front of the nonmagnetic body the armature adapted to be attracted by the core in a kdirection substantially perpendicular tothe axis ofthe latter. J
I have described hereinbelow by way of example and illustrated in accompanying drawing a form of execution of my invention.
' Fig. 1 is a cross-section of the devic through the axis thereof.
Fig. 2 is a cross-section perpendicular to the axis showing the connection between the coil and the terminals.
Fig. 3 shows diagrammatically the distribution of the lines of force.
The electromagnet comprises two alined bars of suitable magnetic metal such as soft iron 1 and 2 connected through a sufficiently thick plate 2, of nonmagnetic material such as copper or brass. The bar 2 engages with some friction the central aperture of a disc 4 of same magnetic metal, part of the aperture remaining free so as to allow the contact-bearing spring 7 of the relay to pass.
The disc 4 is provided with a flange 8 inside whichL a cylinder 9 also of soft iron or the like is engaged with slight friction so as to form the casing of the relay. At its other end the cylinder is providedwith a circular groove carrying a second disc 11 of soft steel or the like provided with a central aperture. The soft steel bar l ends with ashoulder 12 and a part of reduced diameter 13 passing through the said aperture in the disc 11; its end is threaded for receiving the assembling nut 14.
The exciting coil 15 is Wound over a copper or brass tube 16 and is bounded by insulating flanges 10. The ends of the wire forming this coil are connected with plugs 17 (F ig. 2) passing through the disc 4 from which they are insulated by sleeves such as 18. The plugs are fitted with friction inside metal sleeves carried by the insulating support 19 and provided at their ends with terminals or else with wires to which are Welded the ends of the outer leads. The plate 19 is geld against the disc 4 by a shoulder 22 on the The movable armature 23 is secured to the springr 7 of nonmagnetic material such as bronze or brass. This spring'is secured to the bar 1 through one end, the other end carrying a contact part 24 adapted to open or to close the circuit controlled by the relay. The movable armature 23 is disposed in front of the connecting plate 3.
It is apparent that the mounting and dismantling of the apparatus are very easy. By unscrewing the nut 14,- I may Aremove the disc 11, then the cylinder 9 and finally slide off the coil 15. The feed plugs 17 are removed without cliiculty`f1'om their metal sleeves. The spring 7 and zthe armature 23 are then apparent and easy to inspect.
The electric working is as follows: the ends (Fig. 3) of the bars land 2 show at their end trapezoid'al notches provided with bevels against which the armature 23 is adapted to bear. If Vthe thickness of the plate 3 is suilicient and the notchwide enough, it is apparent that the greater part of the magnetic flux passes through the gap'between the armature 3 and the bevels and through the armature, so as to act on the latter with a view to controlling the contact at 24. 4
My relay is capable of many applications. It is in particular very'useful in systems for protection against lire andtheft.
It has been stated that the core, the outer discs and the cylindric casing are of soft iron. In practice any magnetic metal may be used and it is possible by using a suitable material to make the properties of the relay vary to a considerable degree. y
Thus for improving the sensitivity of the relay, I mayreplace the soft iron by metal or alloys which are magnetically very permeable such as the so-called permalloy alloy or certain very pure nickel-iron alloys. I
obtain with such material remarkable results due to the fact that the cylindrical casing screens them from the action of any external magnetic iield.
It on the contrary it is desired to obtain a high frequency response, the same parts may be advantageously made of a similar alloy having a smaller remanent power.
It is apparent that by a modification in the material constituting the parts mentioned, a considerable range of relays with different properties may be obtained.
Vhat I claim is:
1. An electromagnetic relay comprising a magnet body constituted by a central core of two alined elements separated by a gap, two discs fitted over the outer ends of said elements and a cylindrical part fitted between the peripheries ofthe discs, a non-mag netic part separating the two core elements, a spring disposed parallel to and adjacent the core7 a coil wound over the core, and passing over the spring, means for securingr one end of the spring, a contact controlled by the spring and an armature carried by the spring in front of the non-magnetic part separating the two core elements.
2. An electromagnetic relay comprising a magnet body constituted by a central core of two alined elements separated by a gap, two discs fitted over the outer ends of said elements and a cylindrical part fitted inside the periphery of one disc and passing over the periphery of the other, a non-magnetic part separating the two core elements a spring dis posed parallel to and adjacent the core, a coil y wound over the core, and passing over the spring, means for securing one end of the spring, a contact controlled by the spring and an armature carried by the spring in front of the non-magnetic part separating the two core elements.
3. An electromagnetic relay comprising a magnet body constituted by a central core of two alined elements separated by agap, two discs fitted over the outer ends of said elements, one disc being frictionally set over the corresponding core element, a nut for securing the other disc over its core element and a cylindrical part fitted between the peripheries of the discs, a non-magnetic part separating the two core elements, a spring disposed parallel to and adjacent the core, a coil wound over the core, and passing over the spring, means for securing one end of the spring, a contact controlled by the spring and an armature carried by the spring in front of the non-magnetic part separating the two core elements.
4. In a relay as claimed in claim 1 the provision of plugs secured to the ends of the coil, metal sockets forming terminals fitted over the plugs and an insulating plate held against one of the magnetic discs and carrying said sockets.
5. An electromagnetic relay comprising a magnet body constituted by a central core of two alined elements separated by a. gap, the core elements being cut away in front of said gap so as to form a trapezoidal recess, two discs fitted over the outer ends of said elements and a cylindrical party fitted between the peripheries of the discs, a nonmagnetic part separating the two core elements and the surface of which forms the bot-toni of the trapezoidal recess thereof, a spring disposed parallel to and adjacent the core, a coil wound over the core and passing over the spring, means for securing one end of the spring, a contact controlled by the spring and an armature carried by the spring in front of the non-magnetic part separating the two core elements.
6. An electromagnetic relay comprising a magnet body made of very permeablelnickel iron alloy and constituted by a central core of two alined elements separated by a gap, two discs fitted over the outer ends of said elements and a cylindrical part fitted between the peripheries of the discs, a non- Inagnetic part separating the two core elements, a spring disposed parallel to and adjacent the core, a coil ywound over the core and passing over the spring, means for securing one end of the spring, a contact controlled by the spring and an armature carried ,by 'the spring in front of the nommagnetic part separating the two core elements. y. In testimony whereof I haXe aflixed my signature.
YSABEL MARIE-LOUISE de PANIAGU.
US468414A 1929-07-22 1930-07-16 Iron clad relay magnet Expired - Lifetime US1863436A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
FR543589X 1929-07-22

Publications (1)

Publication Number Publication Date
US1863436A true US1863436A (en) 1932-06-14

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US (1) US1863436A (en)
BE (1) BE371864A (en)
DE (1) DE543589C (en)
ES (1) ES119013A1 (en)
FR (1) FR678835A (en)
GB (1) GB353689A (en)
NL (1) NL29220C (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2759062A (en) * 1952-05-02 1956-08-14 Bell Aircraft Corp Magnetic relay
US2767279A (en) * 1952-01-25 1956-10-16 North Electric Co Electromagnetic relay

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
BE504051A (en) * 1951-06-18
US2993104A (en) * 1959-01-21 1961-07-18 Gen Electric Electromagnetic relay
DE3124412C1 (en) * 1981-06-22 1989-01-12 Hendel, Horst, Ing. (grad.), 8031 Eichenau Small polarized electromagnetic relay

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2767279A (en) * 1952-01-25 1956-10-16 North Electric Co Electromagnetic relay
US2759062A (en) * 1952-05-02 1956-08-14 Bell Aircraft Corp Magnetic relay

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Publication number Publication date
DE543589C (en) 1932-02-08
BE371864A (en)
NL29220C (en)
ES119013A1 (en) 1930-08-16
FR678835A (en) 1930-04-04
GB353689A (en) 1931-07-30

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