US2717978A - Magnetic circuits for relays - Google Patents
Magnetic circuits for relays Download PDFInfo
- Publication number
- US2717978A US2717978A US266523A US26652352A US2717978A US 2717978 A US2717978 A US 2717978A US 266523 A US266523 A US 266523A US 26652352 A US26652352 A US 26652352A US 2717978 A US2717978 A US 2717978A
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- Prior art keywords
- armature
- core
- spring
- relay device
- relays
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H50/00—Details of electromagnetic relays
- H01H50/16—Magnetic circuit arrangements
Definitions
- the invention concerns electromagnetic relay devices of the type including a stationary core carrying energising means and a movable armature pivotally mounted on said core.
- An object of this invention is to provide a relay device of easy construction which does not require elaborate machining and adjustment and which has therefore a low cost price.
- a further object of this invention is. to provide a relay device of long life, able to operate a very large number of times, with a negligible wear, even without maintenance or lubrication.
- a still further object of this invention is to provide a relay device having its magnetic reluctance, when in unattracted position, reduced to a minimum and subject to only very slight friction when actuated.
- Another object of this invention is to provide means for allowing pivotal displacement of the armature relatively to the core, while preventing lateral displacement of said armature.
- Fig. 1 is a longitudinal section of a relay according to the invention, along line II of Fig. 2.
- Fig. 2 is a top plan view of this relay
- Fig. 3 is a section taken along line IIIIII of Fig. 2.
- the relay comprises a comb-shaped core 18 formed with four branches or teeth 18a, 18b, 18c and 18d and bearing in its median portion a hole 20 designed to substantially increase the magnetic reluctance of said portion, thereby rendering the two halves of the core almost completely magnetically independent from one another.
- This core is laminated and the piled up sheets are secured by means of rivets 13.
- This core cooperates with an armature 19 also laminated and also bearing, in its median portion, a hole 20a for increasing the magnetic reluctance of said portion.
- the piled up sheets of this armature are fitted together by means of rivets 13a.
- the invention provides for pivoting means only subject to negligible friction and of high strength.
- This pivoting means is constituted by two cooperating angular portions 21 and 22 belonging respectively to the core 18 and to the armature 19.
- the angular portion 21 is merely the top right-hand edge (on Fig. 1) of the branch 18d, while the angular portion 22 is formed by a protrusion on the lower face of the armature, at the right-hand end thereof.
- the convex angular portion 2,717,978 Patented Sept. 13, 1955 ice 21 fits into the concave one 22.
- the pivoting axis coincides with the vertices, in permanent contact, of the two angular portions.
- the armature is resiliently urged in a resultant direction roughly parallel to the bisector of the angles of contact.
- two resilient members are provided to act in substantially perpendicular directions: a return spring 23 acting parallelly to the branch 13:! of the comb-shaped core 18 and a resilient blade 24 acting, through a metal strip 25, in a direction roughly parallel to the armature.
- the return spring 23 is connected at one end to a clamp-member 3, through a screw-and-nut system 4 allowing adjustment of the tension of the spring.
- This adjustment can be effected by screwing more or less the screw 4a into a nut 41) in the form of a threaded sleeve coaxial with the coil spring 23.
- This sleeve 4b bears an outer threading of same pitch as that of the coil spring, but its outer diameter, slightly larger than the inner diameter of the spring, allows the sleeve 4b to be forced into the spring, so that the coils of the spring slightly widen when the sleeve 4b is screwed into the spring 23.
- This disposition does not permit unscrewing of the coaxial sleeve 41) from the spring 23, since the coils of the spring tend to wind up, more and more closely, around the threads of the sleeve 4b.
- a check-nut 4c is provided for preventing self-disadjustment.
- This clamp-member 3 is secured at 3a to the foot part of the branch 18:! of the core 18.
- the other end of the spring is connected to another clamp-member 5 secured to the armature at 5a.
- the clamp-member 5 is riveted at 6 to the strip 25.
- the latter which is resilient in the plane of displacement of the armature but which has great lateral rigidity, is hooked at 7 to the blade 24. It should be noted that this blade which is clamped to the branch 18a at 8, is so shaped as to form a stop limiting the upward displacement of the armature 19.
- This blade 24 is fast with a plate of insulating material 9 carrying two pairs of contact studs 10.
- the plate 9 is further secured to the branch 18a through a clamp 11.
- the contact strips 33 of the relay are shown in dotted line only in Fig. 2 for clearness sake. These strips are actuated from the armature by means of a small rod 35, preferably of insulating material, extending across the armature and designed to be applied on these strips.
- side abutments 29, 30 are provided. These abutments in the form of sharp protrusions located in the vicinity of the pivoting axis of the armature, are integral with the top flanges of angle-irons 31, 32 which are secured to the branch 18d. These flanges are perforated and the contact strips 33 are secured thereto with insertion of a proper insulator (not shown).
- the relay device which has just been described operates in the following manner:
- the armature 19 When current flows through the energising coils, the armature 19 is attracted and swings about the pivot formed by the angular portions 21-22.
- these two angular portions are held fitted together by means of the return spring 23 on the one hand and of the strip 25 and the blade 24 on the other hand.
- This strip makes up for any looseness which may occur longitudinally of the armature, owing to the resiliency of the blade 24.
- the magnetic reluctance when the armature is not in attracted position, is at a minimum.
- this spring can be selected of a strong and tough type without thereby unduly increasing the attractive force to be exerted on the armature. It is well known that such springs, besides their toughness, need not be accurately determined.
- An electromagneticallyoperated relay device comprising a stationary core having a free end and a pivotal end, said pivotal end including an angular portion with a vertex edge, an armature associated with said core and having a free end movable between a position remote from the free end of said core and a position proximate thereto and a pivotal end including an angular portion with a vertex edge, said two angular portions being adapted to fit together with the respective edges in contact with each other whereby the armature is pivoted on the core about an axis substantially coinciding with said edges, resilient means connected to said core and acting on said armature for urging the pivotal end thereof into contact with the pivotal end of said core.
- a relay device as claimed in claim 1, wherein the further resilient means includes a resilient member secured to the core in the vicinity of the free end thereof and a connecting member between said resilient member and said armature.
Description
Sept. 13, 1955 w. DE FLIGUE 2,717,978
MAGNETIC CIRCUITS FOR RELAYS Filed Jan. 15, 1952 United States Patent MAGNETIC CIRCUITS FOR RELAYS Wladimir de Fligu, Paris, France Application January 15, 1952, Serial No. 266,523
Claims priority, application France March 19, 1948 Claims. (Cl. 317-198) The present application is a continuation in part of my copending application Serial No. 80,511, filed March 9, 1949, now Patent No. 2,591,520.
The invention concerns electromagnetic relay devices of the type including a stationary core carrying energising means and a movable armature pivotally mounted on said core.
An object of this invention is to provide a relay device of easy construction which does not require elaborate machining and adjustment and which has therefore a low cost price.
A further object of this invention is. to provide a relay device of long life, able to operate a very large number of times, with a negligible wear, even without maintenance or lubrication.
A still further object of this invention is to provide a relay device having its magnetic reluctance, when in unattracted position, reduced to a minimum and subject to only very slight friction when actuated.
Another object of this invention is to provide means for allowing pivotal displacement of the armature relatively to the core, while preventing lateral displacement of said armature.
Other objects and advantages of the invention will be apparent during the course of the following description.
In the accompanying drawing in which like reference characters are employed to designate like parts through out the same:
Fig. 1 is a longitudinal section of a relay according to the invention, along line II of Fig. 2.
Fig. 2 is a top plan view of this relay,
Fig. 3 is a section taken along line IIIIII of Fig. 2.
In the drawing, the relay comprises a comb-shaped core 18 formed with four branches or teeth 18a, 18b, 18c and 18d and bearing in its median portion a hole 20 designed to substantially increase the magnetic reluctance of said portion, thereby rendering the two halves of the core almost completely magnetically independent from one another. This core is laminated and the piled up sheets are secured by means of rivets 13.
On the two inner branches 18b and 180 of the core are mounted energizing coils 1 and 2.
This core cooperates with an armature 19 also laminated and also bearing, in its median portion, a hole 20a for increasing the magnetic reluctance of said portion. The piled up sheets of this armature are fitted together by means of rivets 13a.
Contrary to conventional relay devices which comprise various members, such as pivots, subject to considerable wear, the invention provides for pivoting means only subject to negligible friction and of high strength.
This pivoting means is constituted by two cooperating angular portions 21 and 22 belonging respectively to the core 18 and to the armature 19. The angular portion 21 is merely the top right-hand edge (on Fig. 1) of the branch 18d, while the angular portion 22 is formed by a protrusion on the lower face of the armature, at the right-hand end thereof. The convex angular portion 2,717,978 Patented Sept. 13, 1955 ice 21 fits into the concave one 22. Thus the pivoting axis coincides with the vertices, in permanent contact, of the two angular portions.
In order to ensure this permanent contact, the armature is resiliently urged in a resultant direction roughly parallel to the bisector of the angles of contact. To this end, two resilient members are provided to act in substantially perpendicular directions: a return spring 23 acting parallelly to the branch 13:! of the comb-shaped core 18 and a resilient blade 24 acting, through a metal strip 25, in a direction roughly parallel to the armature.
The return spring 23 is connected at one end to a clamp-member 3, through a screw-and-nut system 4 allowing adjustment of the tension of the spring. This adjustment can be effected by screwing more or less the screw 4a into a nut 41) in the form of a threaded sleeve coaxial with the coil spring 23. This sleeve 4b bears an outer threading of same pitch as that of the coil spring, but its outer diameter, slightly larger than the inner diameter of the spring, allows the sleeve 4b to be forced into the spring, so that the coils of the spring slightly widen when the sleeve 4b is screwed into the spring 23. This disposition does not permit unscrewing of the coaxial sleeve 41) from the spring 23, since the coils of the spring tend to wind up, more and more closely, around the threads of the sleeve 4b. A check-nut 4c is provided for preventing self-disadjustment. This clamp-member 3 is secured at 3a to the foot part of the branch 18:! of the core 18. The other end of the spring is connected to another clamp-member 5 secured to the armature at 5a.
The clamp-member 5 is riveted at 6 to the strip 25. The latter which is resilient in the plane of displacement of the armature but which has great lateral rigidity, is hooked at 7 to the blade 24. It should be noted that this blade which is clamped to the branch 18a at 8, is so shaped as to form a stop limiting the upward displacement of the armature 19.
This blade 24 is fast with a plate of insulating material 9 carrying two pairs of contact studs 10. The plate 9 is further secured to the branch 18a through a clamp 11.
The contact strips 33 of the relay are shown in dotted line only in Fig. 2 for clearness sake. These strips are actuated from the armature by means of a small rod 35, preferably of insulating material, extending across the armature and designed to be applied on these strips.
In order to prevent lateral displacement of the armature 19, side abutments 29, 30 are provided. These abutments in the form of sharp protrusions located in the vicinity of the pivoting axis of the armature, are integral with the top flanges of angle- irons 31, 32 which are secured to the branch 18d. These flanges are perforated and the contact strips 33 are secured thereto with insertion of a proper insulator (not shown).
The relay device which has just been described operates in the following manner:
When current flows through the energising coils, the armature 19 is attracted and swings about the pivot formed by the angular portions 21-22.
As specified above, these two angular portions are held fitted together by means of the return spring 23 on the one hand and of the strip 25 and the blade 24 on the other hand. This strip makes up for any looseness which may occur longitudinally of the armature, owing to the resiliency of the blade 24.
Lateral displacement of the armature (i. e. displacement in the plane of Fig. 2) is hindered by the lateral rigidity of the strip 25 and almost entirely prevented, in the pivotal zone, by the two side abutments 29, 30 which offer a very slight clearance and are located in the vicinity of the pivoting axis, so as to reduce to a minimum friction during angular displacements of the armature when the relay device operates.
It should be noted that, as a portion of the armature is always in contact with the core (at the pivotal zone), the magnetic reluctance, when the armature is not in attracted position, is at a minimum.
It should further be noted that, as the point of the armature on Which the spring 23 exerts its pull, is very near the pivoting axis, this spring can be selected of a strong and tough type without thereby unduly increasing the attractive force to be exerted on the armature. It is well known that such springs, besides their toughness, need not be accurately determined.
It is obvious that the number of energising coils can be different from two, according to the design of the relay device.
It is to be understood that the form of the invention herewith shown and described is to be taken as a preferred example of the same and that various changes in the shape, size and arrangement of parts may be resorted to without departing from the spirit of the invention or the scope of the subjoined claims.
What I claim is:
1. An electromagneticallyoperated relay device comprising a stationary core having a free end and a pivotal end, said pivotal end including an angular portion with a vertex edge, an armature associated with said core and having a free end movable between a position remote from the free end of said core and a position proximate thereto and a pivotal end including an angular portion with a vertex edge, said two angular portions being adapted to fit together with the respective edges in contact with each other whereby the armature is pivoted on the core about an axis substantially coinciding with said edges, resilient means connected to said core and acting on said armature for urging the pivotal end thereof into contact with the pivotal end of said core. and further resilient means connected to said core and secured to said armature in all positions thereof and acting on said armature longitudinally thereof in the direction from the pivotal end of said armature towards the free end of said core, whereby the lines of action of said two resilient means on the pivotal end of said armature are substantially perpendicular to each other.
2. A relay device as claimed in claim 1, wherein the further resilient means includes a resilient member secured to the core in the vicinity of the free end thereof and a connecting member between said resilient member and said armature.
3. A relay device as claimed in claim 2, wherein the resilient member is so shaped as to form an abutment for the free end of the armature in the remote position thereof.
4. A relay device as claimed in claim 2, wherein the connecting member is a thin metal strip, the flat faces of which are perpendicular to the direction of displacement of the armature.
5. A relay device as claimed in claim 4, wherein the thin metal strip extends over and longitudinally of the armature from a point in the vicinity of the free end thereof to a point in the vicinity of the pivotal end thereof.
References Cited in the file of this patent UNITED STATES PATENTS 1,462,585 Soreng July 24, 1923 1,552,446 Radley Sept. 8, 1925 1,700,040 Grob Jan. 22, 1929 1,714,336 Yazley May 21, 1929 2,423,116 Price July 1, 1947 2,547,998 Brockway Apr. 10, 1951
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FR2717978X | 1948-03-19 |
Publications (1)
Publication Number | Publication Date |
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US2717978A true US2717978A (en) | 1955-09-13 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US266523A Expired - Lifetime US2717978A (en) | 1948-03-19 | 1952-01-15 | Magnetic circuits for relays |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2912007A (en) * | 1953-04-15 | 1959-11-10 | Johnson Clarence | Pilot operated four-way valve |
US2916585A (en) * | 1957-06-20 | 1959-12-08 | David F Moyer | Switch assembly |
US3102934A (en) * | 1959-10-09 | 1963-09-03 | Ass Elect Ind | Electromagnetic relays |
US4642594A (en) * | 1984-08-10 | 1987-02-10 | Siemens Energy & Automation, Inc. | U-shaped solid magnetic core with at least one opening through the midsection thereof |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1462585A (en) * | 1917-11-24 | 1923-07-24 | Briggs & Stratton Company | Armature construction |
US1552446A (en) * | 1919-08-21 | 1925-09-08 | Cutler Hammer Mfg Co | Electrical control apparatus |
US1700040A (en) * | 1924-10-09 | 1929-01-22 | Grob Hugo | Device for regulating electric voltages |
US1714336A (en) * | 1927-05-06 | 1929-05-21 | Leona C Yaxley | Electromagnet |
US2423116A (en) * | 1944-06-30 | 1947-07-01 | Magnetic Devices Inc | Electric relay |
US2547998A (en) * | 1945-11-03 | 1951-04-10 | Wilhelm W Brockway | Impulse relay |
-
1952
- 1952-01-15 US US266523A patent/US2717978A/en not_active Expired - Lifetime
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1462585A (en) * | 1917-11-24 | 1923-07-24 | Briggs & Stratton Company | Armature construction |
US1552446A (en) * | 1919-08-21 | 1925-09-08 | Cutler Hammer Mfg Co | Electrical control apparatus |
US1700040A (en) * | 1924-10-09 | 1929-01-22 | Grob Hugo | Device for regulating electric voltages |
US1714336A (en) * | 1927-05-06 | 1929-05-21 | Leona C Yaxley | Electromagnet |
US2423116A (en) * | 1944-06-30 | 1947-07-01 | Magnetic Devices Inc | Electric relay |
US2547998A (en) * | 1945-11-03 | 1951-04-10 | Wilhelm W Brockway | Impulse relay |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2912007A (en) * | 1953-04-15 | 1959-11-10 | Johnson Clarence | Pilot operated four-way valve |
US2916585A (en) * | 1957-06-20 | 1959-12-08 | David F Moyer | Switch assembly |
US3102934A (en) * | 1959-10-09 | 1963-09-03 | Ass Elect Ind | Electromagnetic relays |
US4642594A (en) * | 1984-08-10 | 1987-02-10 | Siemens Energy & Automation, Inc. | U-shaped solid magnetic core with at least one opening through the midsection thereof |
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