US2539261A

US2539261A - Fuse

Info

Publication number: US2539261A
Application number: US129659A
Authority: US
Inventors: Henry C Miller
Original assignee: Pennsylvania Salt Manufacturing Co
Current assignee: Pennsylvania Salt Manufacturing Co
Priority date: 1949-11-26
Filing date: 1949-11-26
Publication date: 1951-01-23
Anticipated expiration: 1968-01-23

Description

Jan. 23, 1951 A. c. MILLER 2,539,261

FUSE

Filed Nov. 26, 1949 voltage conditions.

lPatented Jan. 23, 195i Henry C.

Miller, Wyndmoor, Pa.,

assignor to The Pennsylvania Salt Manufacturing Company, Philadelphia, Pa., a corporation-of Pennsylvania Application November 26, 1949, Serial No. 129,659 6 Claims. (Cl. 200-120) My invention relates to electric fuses and the like.

`It has come to be generally recognized, in the eld of protective systems for preventing excess current flow, that one of the most simple and reliable indications of excess current is the liberation of heat. The use of fusible links in electric circuits for the purpose of protecting the circuits has, therefore, become of general practice, and is one of the accepted methods of preventing excess current ow.

Fusible links are generally satisfactory for circuit protection Where the current or power is not relatively great, or where an exceptionally rapid break is not essential. However, it is generally necessary to employ protective means other than fusible links when the voltage, power or current is large, or when an exceptionally rapid break is necessary. For example, where very delicate electrical instruments are being protected a substantially instantaneous break is necessary to prevent serious damage thereto. Fusible links do not provide this rapid break since there is a tendency for an arc to form between the ends of the broken link resulting in a flow of current across the break and through the fuse until either the voltage drops to a level too low to support the arc, or until the gap becomes too wide for the arc to continue under theexisting This naturally results in a delayed interruption of the current with possible damage to the electric equipmentvthe fuse was supposed to protect, the amount of delay being a function of the voltage, power or current being employed. The formation of the arc betweenA the broken ends of the fusible link is due'p'rimarily to' the existence, during the occurrence of and immediately after the break, of metal vapor-` around the fusing metal and withinvthe gap formed.

This metal vapor permits .the arc' to form and helps maintain the arc with the-result that a substantial current flow continues through the fuse link, despite the break, vas long asthe arc exists.

Fusible links are generally used-in preference to other types of protective devices'whenever it is possible to use such links satisfactorily.- The reason for this is that the design of protective devices, depending on fusible links for their operation, is simple as compared with the design ofV other types of protective devices. Thisl results in important factor.

Despite these obvious advantages of electric fuses over other types of protective devices, it has frequently been impractical to employ electric fuses due to the danger of the current arcing over the break formed when the fuse blows with resulting damage to equipment.

I have now discovered that if the link of fusible material is enveloped in an atmosphere of sulfur hexafluoride under a pressure of preferably not less than 35 pounds per square inch absolute, the possibility of arc formation between the broken ends of the fuse is considerably reduced and any arc formed is rapidly extinguished, the rate at which the arc is extinguished being considerably more rapid than when the atmosphere surrounding the fuse is air alone. The fusible element may be formed of any of the conventional fusible alloys used for forming fuse elements such as the alloy having the composition of 53% bismuth, 32% lead, and 15% tin with a melting point of 96 C.; or the alloy having the composition of 20% bismuth and 80% tin with a melting point of 200 C.

As a result of surrounding the fusible element with an atmosphere of sulfur hexailuoride under pressure, a quick. acting fuse is obtained which can be used to rapidly and safely break currents in circuits where the voltage, power or current are substantially higher than that possible with' conventional air filled fuses. ing fuse is obtained.

Also, a quicker act- It is thought that reasons probably contributing to the, excellent results obtained are: that y sulfur hexafluoride is a good dielectric which in and of itself would tend to minimize arc formation; but more important, that sulfur hexafluoride reacts rapidly with the heated metal at the break, forming compounds which are non-conducting and relatively stable with respect to ionization, thus inhibiting the formation of metal vapor within the fused gap. This would seem to be substantiated by the observed fact that when circuit breakers are operated in an atmosphere of sulfur hexaiiuoride, a non-conducting coating fuses being less expensive to manufacture than other types of protective devices and permits the manufacture of fuses of relatively small size is'rapidly formed on the contacts preventing resumption of the electric current when the circuit breaker is again closed.

In the attached drawing I is a container made of a relatively non-conducting gas impervious material'such as glass, in which there is positioned a fusible link 2 extending through the container and terminating in the caps l and 4 used to seal the container ends. The caps l and 4 may be made of a conducting material, or electric leads I and I may be connected to the ends of the fuse element 2 and provide the necessary contacts whereby the fuse may be connected into the electric circuits which it is to protect. The atmosphere within the container I consists of sulfur hexafluoride at a pressure of between 35 and 200 pounds per square inch absolute, the contalner having been charged through an inlet 1 which is afterwards sealed to the atmosphere.

It is apparent that the type of structure of the f use device is not essential to the practice of my invention since it is only necessary that the container, in which the fusible element is placed, be sufficiently strong and impervious to gasesto permit its being nlled in whole or in part with sulfur hexauoride preferably at total gas pressures in excess of 35 pounds per square inch absolute'. Furthermore, it is apparent that small quantities of other gases mayv be present together with the sulfur hexailuoride without departing from the scope of the invention, it being understood that the term sulfur hexafiuoride or atmosphere of sulfur hexailuoride as used in the specification and claims include pure sulfur hexanuoride together with such mixtures of sulfur hexailuoride and other gases.

Having thus described my invention, I claim:

1. In a fuse device, the combination of a container nlled with sulfur hexafluoride and a fusible link within said container.

2. In a fuse device, the combination comprising a .container filled with sulfur' hexafluoride under pressure and a fusible link within said container.

3. In a protective device for electric circuits a container, a fusible link within said container, said link being surrounded by an atmosphere of sulfur hexauoride under a pressure of at least 35 pounds per square inch absolute.

4. In a protective device for electric circuits a container, a fusible link within said container, said link being surrounded by an atmosphere of sulfur hexauoride under a pressure of 35 to 200 pounds per square inch absolute.

5. A fuse device comprising a container formed of insulating material, an electric conducting path extending through said container a portion of whichl path consists of a fusible link, said fusible link being surrounded by an atmosphere of sulfur hexafluoride under a pressure of not less than 35 pounds per square inch absolute.

6. In a fuse device, a containervformed of a material whichis substantially non-conducting to electricity, terminals extending from said container formed from a material which is a relatively good electric conductor", a link of fusible material within said container electricallyY con-` nected to saidterminals so as to permit current passage from one terminal through said link to the other terminal, and an atmosphere of sulfur hexailuoride surrounding said link of fusible material within said container, said sulfur hexafluoride being under a pressure of from 35 to 200 pounds per square inchabsolute.

HENRY C. MILLER.

y asFnasNcEs crrsn The following references lare of record in the 30 ille of this patent:

UNITED STATES PATENTS Number Name Date 2,038,507 Edsall Apr. 21, 1936 35 2,221,671 Cooper Nov. 12, 1940 2,285,602 McMahon June 9, 1942 FOREIGN lPATENTS Number Country Date 40 303,090 Great Britain Dec. 28, 1928 Great Britain Oct. 22, 1930