Magnetic switch

Abstract

An improved magnetic switch assembly (16) has a housing (24), a first electrode (40) positioned within the housing (24), a second electrode (42), and a magnetically movable component (48) located within the housing (24) and shiftable between a first position in simultaneous contact with electrodes (40, 42), and a second position out of such simultaneous contact. The electrode (40) has a radially enlarged contact section (44, 58) adjacent the free end thereof which prevents hangup or sticking of component (48) in the first position.

Claims

1. A magnetic switch assembly comprising a housing, an elongated first electrode extending into said housing, a second electrode spaced from the first electrode, and a component within said housing shiftable between first and second switch positions depending upon the magnetic condition acting upon said component, said first switch position being when the component is in simultaneous contact with the first and second electrodes, said second switch position being when the component is out of such simultaneous contact, said first electrode having an elongated section with a free end, a cross-sectional area, and a corresponding longitudinal axis, said first electrode further including an enlarged section of greater cross-sectional area proximal to said free end, said enlarged section having a first end adjacent said free end and an opposed second end spaced from said first end and axially spaced from said free end, with a first contact surface extending between said first and second ends, the cross-sectional area of said enlarged section at said second end thereof being greater than the cross-sectional area of said first electrode, said second electrode presenting a second contact surface spaced from said first contact surface, said component, in said first switch position thereof, simultaneously contacting said first and second contact surfaces, the chord between said first and second contact surfaces being perpendicular to said longitudinal axis.

2. The assembly of claim 1, said elongated section of said first electrode being of constant cross-sectional area throughout the length thereof.

3. The assembly of claim 1, said elongated section of said first electrode being cylindrical, and said enlarged section of said first electrode being frustoconical.

4. The assembly of claim 1, the chord between said first and second contact surfaces being transverse to said longitudinal axis.

5. The assembly of claim 4, said component, in said first switch position thereof, having portions of the component on opposite sides of said chord.

6. The assembly of claim 1, said longitudinal axis being upright.

7. The assembly of claim 1, said second electrode being a part of said housing.

8. The assembly of claim 1, said second contact surface converging toward said first contact surface.

9. A magnetic switch assembly comprising a housing, an elongated first electrode extending into said housing, a second electrode spaced from the first electrode, and a component within said housing shiftable between first and second switch positions depending upon the magnetic condition acting upon said component, said component having a diameter D, said first switch position being when the component is in simultaneous contact with the first and second electrodes, said second switch position being when the component is out of such simultaneous contact, said first electrode having an elongated section with a free end, a cross-sectional area, and a corresponding longitudinal axis, said first electrode further including an enlarged section of greater cross-sectional area proximal to said free end, said enlarged section having a first end adjacent said free end and an opposed second end spaced from said first end and axially spaced from said free end, with a first contact surface extending between said first and second ends, the cross-sectional area of said enlarged section at said second end thereof being greater than the cross-sectional area of said first electrode, said second electrode presenting a second contact surface spaced from said first contact surface, said component, in said first switch position thereof simultaneously contacting said first and second contact surfaces, with a plane both containing said diameter D and perpendicular to said longitudinal axis intersecting said first electrode at a point spaced from said second end of said enlarged section the chord between said first and second contact surfaces being transverse to said longitudinal axis; said chord being perpendicular to said longitudinal axis.

10. The assembly of claim 9, said elongated section of said first electrode being of constant cross-sectional area throughout the length thereof.

11. The assembly of claim 9, said elongated section of said first electrode being cylindrical, and said enlarged section of said first electrode being frustoconical.

12. The assembly of claim 9, said component, in said first switch position thereof, having portions of the component on opposite sides of said chord.

13. The assembly of claim 9, said longitudinal axis being upright.

14. The assembly of claim 9, said second electrode being a part of said housing.

15. The assembly of claim 9, said second contact surface converging toward said first contact surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is an elevational view of a conventional door protected using a magnetic switch in accordance with the invention;

(2) FIG. 2 is an enlarged, vertical sectional view of one magnetic switch in accordance with the invention;

(3) FIG. 2A is a greatly enlarged, fragmentary view illustrating the orientation of the switch ball of the magnetic switch in the first position thereof in simultaneous contact with the switch electrodes, illustrating important dimensional relationships;

(4) FIG. 3 is a view similar to that of FIG. 2, but depicting another magnetic switch embodiment;

(5) FIG. 4 is a view of similar to that of FIGS. 2 and 3, but illustrating a still further magnetic switch embodiment; and

(6) FIG. 5 is a schematic representation depicting the interconnection of magnetic switches in accordance with the invention into an alarm system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(7) FIG. 1 illustrate a switch assembly 10 including a housing 12 adapted to be mounted within a stationary door frame 14 and having a magnetic switch 16 therein. In this illustration, the assembly 10 is designed to monitor the condition of door 18 within frame 14 via hinges 20. The switch 16 operates in conjunction with an actuating body 22 mounted on door 18, so that when the latter is closed, the body 22 is in direct adjacency with switch 16.

(8) The switch 16 is illustrated in FIG. 2 and has a hollow metallic housing 24 presenting a circular in cross-section converging wall 26 terminating in a lowermost wall 28. A cover 30 is affixed to the upper end of housing 24 and includes an outer, annular, electrically conductive metallic segment 32 and an inner central segment 34 formed of non-conductive material, such as glass, ceramic, or synthetic resin. A pair of electrical leads 36 and 38 are respectively secured to segment 32 and a rod-like electrode extending through the central segment 34. The switch 16 thus has a pair of electrodes electrically coupled with the leads 36, 38, namely the first central electrode 40 and a second electrode 42 spaced from the electrode 40 and comprising the metallic housing 24 itself. As illustrated in FIG. 2, an enlarged, electrically conductive frustoconical section 44 is provided adjacent the lowermost free end of the electrode 40, which is important for reasons to be described.

(9) The overall switch 16 further includes an annular, multiple-loop biasing ring 46 located about housing 24 adjacent the upper end thereof in alternate embodiments, a single loop biasing ring may be employed. Also, a shiftable switch component in the form of a spherical switch ball 48 is located within housing 24 and is magnetically shiftable between alternate first and second switch positions, i.e., a first position shown in bold line in FIG. 2, in simultaneous contact with section 44 and converging wall 26, and a second position in phantom out of such simultaneous contact. Referring to FIG. 2A, it will be seen that when the ball 48 is in the first position thereof, the ball contacts section 44 at a point 50, and simultaneously contacts wall section 26 at a point 52. The distance L spanning the distance between ball/housing contact points 50, 52 presents a chord 54, which is less than the diameter D of the ball 48.

(10) The biasing ring 46, ball 48, and actuating body 22 cooperatively provide a magnetic switching assembly broadly referred to by the number 56, which serves to operate switch 16. In preferred forms, the ball 48 is made of a suitable permanent magnetic material (or is coated with such a material), whereas biasing ring 46 and actuating body 22 are made of corresponding magnetic materials which magnetically couple with ball 48, i.e., the materials are capable of attracting the ball 48.

(11) Again referring to FIGS. 1 and 2, where door 18 is in the closed position with actuating body 22 adjacent housing 24, the magnetic coupling and attraction between body 22 and ball 48 causes the latter to assume the first position thereof shown in FIG. 2A, against the bias of ring 46. However, when the door 18 is opened, thereby separating the body 22 and housing 24, the biasing ring 46 comes into play in order to magnetically couple with and shift the ball upwardly to the phantom line position of FIG. 2, wherein the ball 48 is out of the simultaneous contact, and is in contact only with the housing 24 and segment 32. It will be understood though, that the magnetic assembly 56 can be differently constituted. Thus, the ring 46 and body 22 could be formed of magnetic material, whereas the ball 48 comprises metallic material. In this configuration, the switch 16 would operate in the same manner owing to the magnetic coupling and attraction between the ball 48, ring 46, and body 22. Of course, combinations of these configurations are also possible. What is important is that the assembly 56 be designed so as to magnetically move the ball 48 between the first and second positions thereof as a result of changing the position of housing 24 relative to body 22.

(12) The presence of the enlarged section 44 adjacent the bottom or free end of central electrode 40 serves an important function in the invention. That is, because of the fact that the main body of electrode 40 is of reduced diameter relative to the section 44, the ball 48 cannot become frictionally locked or stuck between the electrode 40 and the housing 24. Normally, the length L of chord 54 is less than that of the diameter D of the ball 48, and this serves to prevent locking of the ball 48. Generally speaking, it is preferred that the ratio of the length L of chord 54 relative to diameter D ranges from about 65-96%, more preferably from about 70-94%.

(13) FIG. 3 illustrates another embodiment of the invention, which contains many of the same parts as the FIG. 2 embodiment and these common parts are similarly numbered. The difference in FIG. 3 is that the frustoconical section 44 is replaced by a radially enlarged circular ring or head 58 having opposed, annular surfaces 60 and 62. As illustrated, when ball 48 is in the first position thereof, there is a point contact between the outer end of surface 60 and housing wall 26, much in the same manner as the point contact of FIG. 2A. There is no particular criticality in the shape of the enlargement provided at the end of the electrode 40, so long as it serves to prevent locking of the ball 48 in the first position thereof.

(14) FIG. 4 illustrates a still further embodiment making use of a housing 24a different than the housing 24 of FIG. 2. In the FIG. 4 embodiment, the housing 24a has a tubular side wall section 64 and an essentially flat bottom section 66. Again, the enlargement 44 serves to create a desirable point contact with ball 48 in the first position thereof.

(15) FIG. 5 illustrates a switch 16 in accordance with the invention as a part of an alarm system 68. The switch 16 is coupled via leads 36 and 38 to an alarm controller 70, which operates alarm bell 72 or other perceptible alarm device.

(16) In operation, the system 68 when armed is designed to detect an unauthorized opening of door 18. In the door closed position of FIG. 1, the actuating body 22 is directly adjacent the switch 16 and, as a consequence, the ball 48 is in the first position thereof owing to the magnetic coupling between body 22 and ball 48, shown in bold lines in FIG. 2. Upon opening of the door 18, the switch 16 moves out of proximity to the body 22 to a remote position, so that the biasing ring 46 operates to magnetically couple with and move the ball 48 to the second position thereof, illustrated in phantom. This serves to initiate operation of the device 72, via controller 70. When door 18 is again closed, the situation is reversed and actuating body 22 serves to magnetically move the ball 48 back to the first position.

(17) It will be appreciated that while the switches of the invention have been described in the context of a security system for doors, the invention is not so limited. That is, the switches may be used in security systems for windows or any other openable structures. Moreover, the switches hereof may be used in any environment where a switch condition change is effected by an alteration in the magnetic field condition operating on the ball 48 or other movable component. For example, the switches can be readily adapted for use as proximity sensors. In this environment, the switches would signal the presence of a body, which magnetically couples with the ball 48. Thus, the switches can be located at a selected sensing position and, in the event that a magnetic coupling structure comes into proximity with the switches, a magnetic attraction is effected between structure and the switch ball 48 or other movable component, thereby signaling the presence of the coupling structure.