US2802076A

US2802076A - Non-boundcing snap switch

Info

Publication number: US2802076A
Application number: US581699A
Authority: US
Inventors: Morris W Carlson; Myron D Tupper
Original assignee: General Electric Co
Current assignee: General Electric Co
Priority date: 1956-04-30
Filing date: 1956-04-30
Publication date: 1957-08-06
Anticipated expiration: 1974-08-06
Also published as: FR1173635A

Description

' 1957 M. w. CARLSON ETAL 2,802,076

NON-BOUNCING SNAP SWITCH Filed April 30, 1956 INVENTORS MORRIS w. CARLSON By nmou 0 TUPPER ATTORNEY r 2,802,076 NON-BOUNCING SNAP SWITCH Morris W. Carlson, Morrison, Ill., and Myron D. Topper, Schenectady, N. Y., assignors to General Electric Company, .a corporation of New York,

Application April 30, 1956, Serial No. 581,699

11 Claims. c1. 200 -67) Our invention relates to electric snap switches and, more particularly, to electric snap-acting switches which utilize a leaf-spring member in the contact-actuating mechanism.

One of the most difficult problems in small snap-acting electric switches is their tendency to weld upon contact engagement under load. This problem of contact welding is particularly prevalent where small snap-acting electric switches are utilized to control the operation of electric motors since the in-r ush of starting current when the switch contacts engage is several times greater than the normal load current.

One of the chief causes of such welding is believed to be due to the bouncing of the contacts when they engage under high velocity. Many expedient-s such as damping pads have been utilized to reduce contact bounce in relatively large switches or contactors but these expedients are generally inapplicable to switches of the small map acting leaf-spring variety.

Accordingly, an object of the invention is to provide improved snap-acting switches characterized by greatly increased life before the occurrence of a failure due to contact welding.

Another object is to provide snap-acting electric switches having reduced bouncing of the contacts.

- A further object is to provide an improved vibrationdamping mechanism for operating the contacts of an electric switch.

In general, in accord with the invention, an electric switch is provided in which a fiat-strip member carries a movable contact into engagement with a stationary contact, and a cold-pliant, plastic material envelops this flatstrip member in a region removed from the contacts which tends to move as a result of reaction forces developed upon contact engagement. The phrase, cold pliant plastic materials, is used .to connote pliable solid materials which may easily be formed or molded at normal room temperatures and which retain their plasticity even at low temperatures in the neighborhood of zero degrees Centigrade. For optimum results this cold-pliant plastic material is preferably thixotropic and has high viscosity and low elasticity. By using such materials in accord with the invention, it has been found possible to increase the number of switch operations without failure due to welding to many times the number of operations without the presence of such material.

The novel features believed characteristics of the invention are set forth in the appended claims. The invention itself, however, together with further objects and advantages thereof may be easily understood by referring to the following description taken inconnection with the accompanying drawingr 1' "Figure 1 is a perspective view of a switch embodying the invention,

I nited States Patent 2,802,076 Patented .Aug. 6, 1957 Figure 4 is a bottom plan view of the switch showing the terminal connections thereof.

Referring to the drawing, we have shown our invention in one form embodied in snap-acting switch 10 including a generally rectangular insulating housing 11 divided into a base member 12 and a cover member 13. The switch mechanism is mounted within the housing and arranged to be actuated by a push-button type rod or plunger 14 extending through the top of cover member 13.

Screwdown terminals

15 and 16 are provided within suitable recesses of the base member 12 for making connection to an electric circuit whose current is to be interrupted.

Within housing 11 at one end is provided a stationary contact 17 connected by terminal strip member 18 to terminal 16. A snap-acting-switch mechanism including a leaf-.type-spring member 19 carries a second or movable contact 20 at one end into high velocity engagement with stationary contact 17 during movement into its contactmaking position. Strip member 19 is preferably composed of a resilient or spring-type conductive metal such as berryllium copper.

in the particular snap-acting mechanism shown in the drawing, strip member 19 includes three generally

parallel arms

21, 22 and 23 all joined together at bot-h ends and with the central arm split into two longitudinally extending sections 22a and 22b respectively. One end 24 of strip member 19 carries movable contact 20 while the other end 25 partially encircles a shouldered-portion 26 of actuating rod 14. The

outer arms

21 and 23 are pressed into a corrugated or undulating configuration, as shown in Figure 3, in order to produce an end-to-end tension in the member 19. The inner ends of the two sections 22a and 22b of the central arm 22 fit within notches 27 on opposite sides of a central conductive metal post 28 about which the strip member 19 stresses and pivots. Metal post 28 is fastened to terminal strip member 29 upon which screwdown terminal 15 is mounted. The

terminal strip members

18 and 29 and the components mounted thereon are firmly held in place on base member 12 by virtue of

suitable rivets

30 and 31 respectively. A coil spring 32 beneath a shoulder 33 of actuating rod 14 tends to keep rod 14 in its elevated position.

As is well known, depression of actuating rod 14 causes the contact-carrying end 24 of strip member 19 to move away from stationary contact 17 with a snap action until the end 24 comes to rest against a back stop member 34. When push button 14 is released the actuating rod 26 and button 14 are elevated by the action of spring 32 carrying the adjacent end 25 of strip member 19 upward above the pivot points represented by notches 27 on post 28 thereby causing contact-carrying end 24 to close contacts 17 and 20 with a snap action.

The snap-acting switch mechanism described above is not our invention but represents one of many similar types of snap-acting switch devices which may suitably embody our invention. A snap-acting switch of the general type described above is described and claimed in United States Patent 2,332,911, granted to G. M. Hausler on October 26, 1943, and assigned to the present assignee.

In accord with our invention, a body of cold-pliant plastic material 36 is applied to strip member 19 in a region remote from movable contact 2i) where the reaction forces of contact engagement tend to cause movethe outer arms 21, '23. However, considerable improvement in reducing contact bounce is achieved by applying plastic bodies between any pair of members having relative motion. For instance, plastic body 36 can be applied between any pair of legs .21, 22and 23 orbetween the strip member 19 .and the base member 12. The body is preferably applied, however, so as also to embed the region of loose mechanical coupling at the pivots between the inner ends of central arm portions 22a and 22b of strip member 19 .and the notches 27 on post 28. This pivotal region may be embedded within plastic body 36 regardless of whether post 28 is stationary as described above in connection with switch or is utilized with any cold pliant plastic material, for example-putty or clay, optimum results are achieved if the material is (a) thixotropic, i. e., retains its molded shape and exerts no force upon a stationary embedded object but flows as a result of movement of such embedded object; (b) has high viscosity, i. e., generates a force opposing the movement of an embedded object in a flowing material to a degree considerably above the opposing force generated by water; and (c) has low elasticity, i. e.,

does not tend to resist deformation or to recover its original shape when deforming forces are removed as would be the case, for example, with vulcanized rubberlike materials. minimum allowable contact force, so essential to reliable This is important, since otherwise the switch operation, would be reduced. Further improvement in the physical characteristics, especially with respect to reducing or eliminating static flow is achieved if the plastic body contains added inert fillers, such as cotton fibers, as a strengthening and viscosity-increasing agent.

Illustrative of the phenominal improvement resulting from the invention are the results of the following tests. Five electric switches 10 utilizing a plastic body 36 consisting of a putty-like material known as Duxseal manufactured by John Mansfield Company were connected to operate a /2 horsepower motor load in a circuit having about 44.4 amperes in-rush current for second, and carrying 7.4 amperes full-load current at 115 volts. Without such plastic body 36 these switches normally have an average life of from 10,000 to 15,000 operations before welding when tested with this load. These five switches utilizing this Duxseal plastic body 36 failed by welding at 315,058; 243,273; 145,477; 61,572;

and 52,234 operations respectively.

Another specific material found particularly suitable for use as plastic body 36 is a silicone compound, type S-2706, commercially available from the Dow Corning Corporation. Analysis of this material indicates that it is a dimethyl silicone gum compounded with silica fillers without a vulcanizing agent. This material shouldhave a plasticity in the range of 60 to.90 mils, as. measured on a Williams Plastometer. Preferably this Dow-Corning 8-2706 compound is thoroughly mixed with medical cotton fibers in a ratio of 80 parts compound to one part fibers by weight. This mixture is particularly suitable because it neither hardens, flows, decomposes or otherwise changes for a long-life period, for example 20 years. In addition, it does not flow even under conditions of relatively high temperature, for example'200 degrees Fahrenheit, and does not produce vapors which may contaminate the switch contacts.

The surfaces of strip member 19 should be thoroughly clean before plastic body 36 is applied. The body 36 is pressed into place by suitable pressure around its 4 periphery to assure good adherence between the plastic body 36 and the portion of strip member 19 embedded thereby.

Tests upon switches utilizing this silicone compound plastic body 36 have indicated that the number of average operations under load was increased from about 12,500 to 135,000 operations before welding when used in a motor-starting circuit as described above in connection with the Duxseal tests.

Although we have described our invention above in connection with specific materials and specific switch mechanisms it will be understood that the invention involved is equally applicable to many other similar types of materials and switch mechanisms. It is to be understood, therefore, that we intend by the appended claims to cover all such modifications as fall within the true spirit and scope of the invention.

What we claim as new and desire to secure by Letters Patent of the United States is:

1. An electric switch comprising a first contact, a strip member having a second contact mounted thereon, means acting upon said strip member for rapidly moving said second contact into engagement with said first contact and producing upon said contact engagement reaction forces tending to cause movement of said strip member in a region removed from said contacts, and a body of coldpliant plastic material adherent to a portion of said region of movement of said strip member for absorbing some of said reaction forces.

2. The electric switch of claim 1 wherein said plastic body includes a small percentage of cotton fibers.

3. The electric switch of claim 1 wherein said plastic body comprises a puttylike material of high viscosity.

4. The electric switch of claim 1 wherein said plastic body is thixotropic with high viscosity and low elasticity.

5. The electric switch of claim 1 wherein said plastic body comprises a dimethyl silicone gum compounded with silica fillers and free of vulcanizing agents.

6. The electric switch of claim 5 wherein the plastic body contains a small percentage of cotton fibers.

7. An electric switch comprising a first contact, a resilient flat strip member having a second contact mounted thereon, means acting upon said strip member for moving said second contact with snap-action into engagement with said first contact and producing upon said contact engagement reaction forces tending to cause fiexure of said resilient strip member in a region removed from said contacts, and a body of cold-pliant plastic material surrounding and adhering to a portion of said region of fiexure of said strip member for reducing bouncing of said contacts.

8. An electric switch comprising a first contact, a flat strip member having a second contact mounted thereon, said strip member being pivotally mounted, means acting upon said strip member for rapidly moving said strip member about its pivot to bring said second contact into engagement with said first contact, and a cold-pliant plastic body surrounding and adhering to a portion of said flat strip member and the pivotal mounting thereof.

9. An electric switch comprising a first contact, a fiat metal strip member having a second contact mounted thereon, a post member loosely coupled mechanically to said strip member in a region remote from said second contact, means for producing relative movement between said strip member and post member to bring said second contact rapidly into engagement with said first contact, and a body of cold-pliant plastic material adhering to and embedding said strip member and post member in the region of said loose mechanical coupling.

10. An electric switch comprising a first contact, a flat metal strip member having a pair of parallel arms joined together at one end, a second contact mounted at said one end, operating means acting upon said strip member for moving one arm relative to the other arm to snap said second contact into engagement with said first contact, and a body of cold-pliant plastic material extendand a component of said switch having considerable ing across and adherent to a portion of said relatively movement relative to said strip member portion during moving parallel arms. actuation of said operating means.

11. An electric switch comprising a base member, a

first contact mounted on said base member, a flat metal 5 References Cited in the file Of this Patent strip member having a second contact mounted at one UNITED STATES PATENTS end, operating means acting upon said strip member for moving the second contact rapidly into engagement with g fi s 2 f2 said first contact, and a body of cold-pliant plastic matey e rial extending between a portion of said strip member 10 2755349 S11v6 July 1956