US2311019A

US2311019A - Combination fuse and circuit breaker

Info

Publication number: US2311019A
Application number: US329665A
Authority: US
Inventors: Richard A Bayne
Original assignee: Individual
Current assignee: Individual
Priority date: 1940-04-15
Filing date: 1940-04-15
Publication date: 1943-02-16
Anticipated expiration: 1960-02-16

Description

Feb. 16, 1943.

R. A. BAYNE COMBINATION FUSE AND CIRCUIT BREAKER Filed April 15, 1940 Ema/70 /7 63mm.

2 Sheets-Sheet l INVENTOR.

ATTORNEY5.

Feb. 16, 1943. R. A. BAYNE COMBINATION FUSE AND CIRCUIT BREAKER Filed April 15, 1940 2 Sheets-Sheet 2 m an 3% I INVENTOR. f/O 639mm ATTORNEYS.

Patented Feb. 16, 1943 UNITED STATES PATENT OFFICE COMBINATION FUSE AND CIRCUIT BREAKER Richard A. Bane, Detroit, Mich. Application April 15, 1940, Serial No. 329,665

7 Claims; (01. 200-130) This invention relates to a combination fuse and circuit breaker and more particularly to a combination fuse and circuit breaker of the plug type.

The conventional fuse which is almost universally used, particularly in house electrical wiring systems, is of the plug type which is screwed into a socket connected in the wiring system. The standard fuse plug comprises a hollow cylindrical body of plastic or glass provided at one end with a threaded metallic shell which serves as a contact and for screwing the plug in the socket. The plug is also provided with another contact mounted in series with the threaded metallic contact by a. fusible metal member which melts whenever the wiring system is subjected to an amperage overload. To prevent damage to the wiring system the fusible link isarranged to melt at a given amperage depending upon the amperage rating of the fuse. In most instances the fuse blows out due to a momentarily slight amperage overload and only in a minority of the cases is the fuse blow-out due to a dangerously excessive overload such as occurs from a short circuit.

It is an object of this invention to produce a combination fuse and circuit interrupter wherein the fuse will blow out or melt to break the circuit whenever there is a dangerously excessive amperage overload such as occurs when the wiring system is short circuited, and which will merely interrupt the circuit temporarily in case of a slight amperage overload such as occurs, for example, when the motor of one of the domestic electrical appliances is turned on.

Since the conventional plug type fuse and fuse socket are pretty much standardized in size. it would be impractical in designing a combination fuse and circuit interrupter that would depart from the now well standardized size of the ordinary screw-in plug time fuse. Ject of this invention to produce a combination fuse and circuit breaker of the plug type which will fit any standard fuse socket and which corresponds in size to the standard screw-in plug. This object is achieved by incorporating in the plug a thermostatic laminated metal circuit breaker and fusible link in series.

It is also an object of this invention to produce a combination fuse and circuit breaker wh ch is eiflcient in operation and will under all circumstances break the circuit at the predetermined amperage rating or capacity of the combined fuse and circuit breaker. This object has been achieved by mounting the circuit breaker Thus, it is an obwithin the fuse plug so that the contact pressure between the circuit breaker contacts is divorced or unaffected by the contact pressure existing between the fuse contacts and the contacts in the fuse housing. In other words, the contact pressure between the circuit breaker contacts will remain the same whether the fuse is turned down tightly or lightly into the fuse socket.

In the drawings:

Fig. 1 is a sectional view showing my combination fuse and circuit breaker.

Fig. 2 is a section along the line 2-2 of Fig. l. Fig. 3 is a section along the line 3-3 of Fig. 1.

Fig. 4 is a section along the line 4-4 of Fig. 1.

Fig. 5 is an exploded view showing the parts of the device in their order of assembly.

Fig. 6 is a sectional view through a modified form of fuse and circuit breaker showing the relative positions of the contacts at an elevated atmospheric temperature.

Fig. 7 is a sectional view similar to Fig. 6 through the same modified form of. the invention but showing the positions of the contacts at a lower atmospheric temperature.

Fig. 8 is a section along the line 8-8 of Fig. 7.

Fig. 9 is a sectional view through a second modified form of the invention.

Fig. 10 is a section along the line ill-40 of Fig. 9.

Referring more particularly to the drawings the combination fuse and circuit breaker comprises a hollow housing i of electrically non-conducting material, such as Bakelite or other suitable plastic or glass. provided with a removable cap 2 retained in position by the threaded metal shell 3 screwed on to the housing I. The threaded cylindrical shell 3 serves as a contact member which makes an electrical contact with one of the electrical leads or lines 4. A second contact 5 in the form of a screw is screwed into the cap 2. One leg or resistor 8 consisting of thermostatic laminated metal i secured to the cap 2 by the screw 5.

The. leg 6 is provided with a contact point I .of silver or other suitable metal. When the fuse is screwed into the fuse plug, contact 5 contacts with lead or wire 8, as diagrammatically shown at 9, and contact 3 makes contact with lead or wire 4. as diagrammatically shown at Ill Fig. 2). Another leg ll of thermostatic lam nated metal having the same thermal coeflicient of flexivity and the same electrical resistivity is riveted or otherwise fixed adjacent one end to leg if of metallic support member I3. Leg ii is provided with a contact point of silver or other suitable metal.

Support member I! is mounted between the top of housing I and the cover 2. Positioned on top of the support I! is the metallic ring it provided with a fusible link I. which has a given current carrying capacity so that it will fuse or meltat somepredetermined amperage, e. g., flve amperes more than required to open the circuit breaker. Ring l and fuse link it are connected in series with leg II and contact shell 3. An insulating disk I! is positioned upon ring II and insulates leg 6 and screw 5 from fuse link I! and metallic support member if. r

It will be noted that leg II is shorter than leg 8. Thus per degree rise in temperature, leg 0 flexes a greater distance than leg II. The legs 0 and Ii are preferably made of thermostatic bimetal with the high expanding side on the left, as viewed in Fig. 1, so that upon a rise in tem-- perature the legs will flex toward the right as viewed in Fig. 1. The atmospheric temperatures under which the circuit breaker operates will vary from summer to winter, in some instances roughly through about 100 F. Since leg 0 is longer than leg I I, it will flex a further distance per degree rise in temperature than leg II. In- J asmuch as legs I and II are each mounted to flex in the same direction upon change in temperature, this ambient atmospheric temperature will be partially compensated for so that the contact pressure between contacts 'I and It will remain approximately constant.

The contact pressure is regulated by means of screw l8 threaded in the housing I, the inner end I! of which interengages the bifurcated lower end 20 of arm i2. Thus as screw it is screwed inwardly or toward the right, Fig. l, metallic arm 12 flexes to the right thereby increasing the contact pressure between the contacts I and il. When the screw I8 is screwed to the left, Fig. 1, the contact pressure is decreased. Thus by regulating the contact pressure by means of screw it, the circuit breaker can be set to open at any given amperage. Once the contact pressure is set, the hole for set screw I8 is sealed with wax or other suitable sealer.

Bearing in mind that the space in which the circuit breaker legs can be mounted is exceedingly limited, the rather difllcult problem has presented itself of arranging the thermostatic metal circuit breaker so that sufllcient movement of the contacts could be obtained to properly break the circuit. Numerous attempts to arrange the thermostatic metal circuit breaker within the fuse plug have proved failures. It will be noted that the circuit breaker legs 6 and Ii are positioned parallel to the longitudinal axis of the approximately cylindrical housing I. By thus arranging the legs, sufllcient flexing or movement of the contacts have been achieved so that the circuit breaker will open at the amperage for which it is set under all operating conditions regardless of ambient atmospheric temperatures.

It will be noted that the fuse i6 ismounted in series with the circuit breaker. Thus in operation upon an excessive overload, such as-occurs when the electrical system is short circuited, the fuse It will melt and break the circuit. In the absence of an excessive overload whenever the electrical system is carrying an amperage will separate and break the circuit.

equal to, or slightly above the amperage rating leg 8 flexes a greater distance per degree rise in temperature within a short period of time, say,

for one-half to three minutes. the legs 8 and ii It should be noted that when the fuse plug is turned into the socket the pressure exerted on contacts I and 3 is taken up entirely by the housing I and cover 2 and is not at all transmitted to the circuit breaker legs I and il.

The ircuit breaker shown in the 'modifled form, Figs. 8, 'l and 8, diifers from the principal form of the invention in two particulars, namely, a circuit breaker leg I la is made from a single strip or ply of metal such as brass rather than from laminated thermostatic metal such as leg II and is supported by a strip of laminated thermostatic metal I! having its high expanding lamina positioned on the top. side, as viewed in Figs. 6 to 8, and the low expanding lamina on the bottom side. In this form of the invention the leg 0 is where the temperatures range from 0 F. in the winter to around 100 F. or more in the summer. This modifled form of the invention maintains a constant contact pressure regardless of ambient temperature. In the winter, for example, the

- relative position of the contacts I and .II is demonstrated in Fig. '7. At this time bimetal support 30 is approximately straight. Upon a rise in temperature, say, to a summer temperature of F. or thereabouts, the thermostatic metal leg 5 will flex or swing to the right about contact I as a pivot. This position of leg 8 at an elevated summer temperature is shown in Fig. 6. The amount of movement, of course, will be very small so the drawings are illustrative only. As this rise of atmospheric temperature occurs, support 30 will flex or bow upwardly to the position shown in Fig. 6, which automatically raises the contact l4 vertically. Bearing in mind that leg 8 and contact I are inclined downwardly towards the right, Figs. 6 and 7, as contact I4 is raised by support 30 upon a rise in temperature, the contact pressure between contacts I4 and I will increase provided leg 6 did not simultaneously flex toward the right. However, as a rise in temperature raises contact l4, contact I is moved by the flexing of leg 6 to the right with the net result that the contact pressure remains the same. The reverse of this operation occurs upon a fall of atmospheric temperature. Thus the modified form shown in Figs. 6 to 8 fully compensates for ambient atmospheric temperatures and maintains a constant contact pressure.

In the second modified form of the invention, shown in Figs. 9 and 10, the leg 8a is not made of thermostatic metal but consists of brass 'or some other suitable metal. The leg ill is made from thermostatic laminated metal such as bimetal and is formed integrally with the semicircular rlng portion 25 and support 28 which supports leg Hi. The semi-circular ring portion 25 is clamped between the cover 2 and housing I. In this form of the invention the high expanding lamina of leg i l l is mounted on the right and on the top of support 26, as viewed in Fig. 9, so that upon a rise in temperature the leg III will flex to the left. The support 26 will flex downwardly thus increasing the leftward movement of leg III. A reverse action occurs upon a fall in temperature. Contact pressure is reg- 1. A plug type fuse comprising a hollow housing of electrically non-conducting material, a metallic contact in a wall of said housing having portions located interiorly and exteriorly thereof, a second metallic contact mounted on the outside of the housing spaced from the first mentioned contact, two metallic strips mounted adjacent their ends within and adjacent one end of the housing in spaced relation and extending toward the opposite end of the housing with their free ends normally touching each other and spaced from the interior wall of said housing, one or said strips consisting of I thermostatic laminated metal and constituting an electrical resistor, electrical connections between one of said contacts and one of said strips and between the other of said contacts and the other of said strips whereby the said contacts and strips are normally connected electrically in series, the said fuse being adapted for connection in an electrical circuit whereby when a predetermined amperage flows through the laminated metallic resistor it will flex away from the other strip to break the electrical circuit.

2. A plug type fuse comprising a hollow housing of electrically non-conducting material, a metallic contact in an end wall of said housing having portions located interiorly and exteriorly thereof, a resistor of thermostatic laminated metal supported longitudinally wtihin the housing adiacent one end by said metallic contact and having its free end spaced from the interior wall of said housing, a second metallic contact mounted on the outside 01' said housing spaced from the first mentioned contact, a metallic strip mounted longitudinally within the housing approximately parallel to the resistor having its free end normally in electrically conducting contact with the free end of the resistor, said resistor and said metallic strip each being supported adjacent one and the same end oi said housing and extending toward the opposite end of said housing with their free ends contacting, electrical connections between the said strip and the said second contact, the said contacts, metal strip and resistor normally being connected electrically in series, and means passing through the housing for flexing the said strip to regulate the contact pressure between said metallic strip and resistor whereby when a predetermined amperage flows through the resistor the said resistor will flex away from said strip to break the electrical circuit.

3. A plug type ruse comprising a hollow housing of electrically non-conducting material, spaced metallic contacts mounted on the said housing, a pair or thermostatic laminated metal strips mounted in approximately parallel relation adjacent their ends within the housing and having their iree ends spaced drom the interior wall oi! said housing, electrical connections between the thermostatic metal strips and the said contacts whereby the contacts and strips are normally connected electrically in series, said thermostatic strips flexing in the same direction upon a change in temperature, one of said strips having a greater length than the other whereby per degree rise in temperature it will deflect a greater distance, the said ruse being adapted ior connection in an electrical crlcuit whereby when a predetermined amperage flows through the laminated metallic strips the said strips will flex atdiiferent rates to separate the free ends and break the circuit.

4. An ambient temperature compensated electrical circuit breaker comprising two thermostatic laminated metallic members one of which is an electrical resistor, said members being arranged to flex upon a change in temperature in intersecting directions, and contact points normally in contact supported by said members, said contact points moving one along the other during temperature changes to maintain a constant contact pressure and separating whenever a predetermined amperage flows through said resistor.

5. An ambient temperature compensated electrical circuit breaker comprising two thermostatic laminated metallic members one of which is an electrical resistor, said members being positioned in approximately perpendicular planes, and contact points normally in contact supported in converging relation upon said members, said thermostatic members arranged to flex upon a change in temperature in intersecting directions whereby upon a rise in temperature the one contact point tends to move away from the other and the other tends to move towards the first mentioned contact point to compensate for temperature change and maintain approximately constant contact pressure, said contact points separating whenever a predetermined amperage flows through said resistor.

6. A plug type fuse comprising a hollow housing of electrically non-conducting material, two thermostatic laminated metallic members one of which is an electrical resistor mounted within said housing, one of said members being positioned lengthwise and the other crosswise of the housing, the one thermostatic member flexing upon a change in temperature in a direction approximately parallel to the longitudinal axis of the housing and the other flexing in a direction transversely of the longitudinal axis of the housing, contact points normally in contact supported by said thermostatic members with the faces of the contact points in converging relation, said contact points riding one along the other during a temperature change to maintain a constant contact pressure and separating whenever a predetermined amperage flows through said resistor.

7. A plug type ruse comprising a hollow housing of electrically non-conducting material, two

thermostatic laminated metallic members one of which is a resistor mounted within the housing, one oi said members being supported adjacent an end and extending lengthwise oi the housing and arranged to flex toward and away from the side wall of. the housing a the temperature varies, the other thermostatic member being mounted across the housing and arranged to flex toward and away from the top and bottom walls of the housing as the temperature varies, contact points carried by each of the said thermostatic members, said contact points being mounted in converging relation whereby as the thermostatic. metal members respond to a rise in temperature the one contact point tends to move away from the other andsaid other contact point tends to move toward the first mentioned contact point to maintain a constant contact pressure, the said contact separating whenever a predetermined amperage flows through said resistor.

RICHARD A. BAYNE.