US1033384A - High-voltage protective device. - Google Patents

High-voltage protective device. Download PDF

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Publication number
US1033384A
US1033384A US58100010A US1910581000A US1033384A US 1033384 A US1033384 A US 1033384A US 58100010 A US58100010 A US 58100010A US 1910581000 A US1910581000 A US 1910581000A US 1033384 A US1033384 A US 1033384A
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Prior art keywords
fuse
protective device
voltage protective
envelop
cork
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US58100010A
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Nicholas J Conrad
Edmund O Schweitzer
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H85/00Protective devices in which the current flows through a part of fusible material and this current is interrupted by displacement of the fusible material when this current becomes excessive
    • H01H85/02Details
    • H01H85/36Means for applying mechanical tension to fusible member

Definitions

  • Our, invention relates to high voltage protective devices or fuses and has for its object the provision of an im roved circuit openin device for use prefera ly in connection with high voltage systems in which the voltage ma be six hundred volts or over and which 1s equally applicable for circuits in which the voltage may be ten thousand volts or even higher.
  • Our invention further contemplates other details not shown in the before mentioned describing two applications among which might be mentioned means for sealing a device so as to secure practical results from, its operation.
  • Figure 1 is a Sectional view of (fur device in completed form ready for use; Fig. 2 Y
  • Fig.3 is a sectional view on lines a-a of Fig. 2
  • Fig. 4 is a sectional view on lines b-b of Fig. 1.
  • a tube preferably of glass which has a sealing cap 2 at one extremity thereof, which cap 1s sealed to the glass preferabl by the use of some suitable material not so uble in the liquid used within the tube which in this case is carbon tetra-chlorid.
  • the adhesive which we use for this sealing purpose is hot shellac which is a vegetable gum having the necessary characteristics.
  • a spring 3 has one extremity securely fastened in the cap at 4 and is associated at its other extremity with a link 5.
  • the upper extremity of the link 5 has ⁇ fastened thereto a fuse 6 which is coiled as shown at 7 about this eX- tremity to fasten the fuse thereto.
  • the upper extremity of the fuse is coiled around the eyelet 8, which eyelet ends in a Wire 9.
  • the wire 9 is brought out through the sealed end at the upper extremity of the tube 1 and is fastened by means of a screw 10 to an annular shell 11 suitably cemented to the tube 1.
  • Carbon tetra chlorid 12 is provided within the interior of the tube 1 as shown.
  • the novel form of sealin the upper extremity of the device consists in the provision of a cork 13 which is forced into the tube 1 so that on account of its resilience it will always bear tightly against the glass even during ex ansion and contraction on account of the c anges of temperature.
  • the remaining portion of the tube 1 outside of the cork is sealed by means of the ⁇ compound 14 which should be of such characteristics that its temperature coefficient is similar to that of the material of which the tube 1 is constructed, and a material which we find gives us these qualifications is litharge cement.
  • a litharge rement having these properties may be made of finely ground litharge mixed with Portland cement, one part of cement to fifty parts of litharge, mixed with glycerin to 'form a thick paste.
  • the spring 3 normally maintains the fuse under tension and the construction here pointed out is of special utility in the assembling, as will be apparent from Fig. 2 where the wire 9 is ot' considerable length and the parts are assembled as shown in Fig. 2 which is easily accomplished. Thereafter the wire 9 is pulled through the cork 13 until the fuse is under the required tension and is then bent around the screw 10 andsecured in place, the rotruding end at the wire then being cut o Thereafter the sealing compound is placed in position.
  • the most important feature of our construction resides in 'the provision of an envelop 15 which surrounds the fuse throughout its entire operative length, that is, the ends of the fuse are doubled when they enter the cork so that the rupture point of the fuse when blowing must be somewhere within the cork.
  • the envelop 15 has a hole 16 somewhat smaller than-the diameter of the fuse and the fuse is drawn into the envelop through this hole so that the two are always in direct association.
  • cork for this envelop as on account of its resilience it iS pressed against the fuse.
  • the envelop should be of an inert material which will not be affected by the operation of the fuse.
  • the envelop 15 is also of Sullicient size to form practically a barrier to the arc which might be formed between the eye 8 and the link 5 upon rupture of the fuse. Sulficient s ace however is left about the periphery o the cork to permit the carbon tetra-chlorid to ow freel
  • the li uid within the tube should be o a nonin ammable character and yet have such characteristics as will permit it to flow readily into the smallest apertures. Carbon tetra-chlorid fulfils these requirements and we use it for that purpose.
  • a high voltage protective device comprising a fuse, an inert envelop in substantial contact with the entire operative length of said fuse and a bath of non-inflammable fluid to flow between the terminals upon rupture of said fuse.
  • a high voltage protective device comprising a fuse, means for maintaining said fuse under tension, an inert envelop covering and compressing the entire operative length ofsaid fuse and a bath of non-inflammable fluid to flow between the terminals upon rupture of said fuse.
  • a high voltage protective device coinprising a fuse, an envelop of cork coverin the entire operative length of said fuse an a bath of non-inflammable fluid to flow between the terminals upon rupture of said fuse.
  • a hi h voltage protective device comprising a use, and an envelop of cork covering the entire operative length of said fuse.
  • a hi h voltage protective device comprising a use, an envelop covering and compressing the entire operative length of said fuse and an arc extinguishing bath therefor.

Description

N. J. CONRAD & E. 0. SCHWEITZER.
HIGH VOLTAGE PROTECTIVE DEVICE.
APPLICATION FILED SEPT4 8, 1910.
Patented July 23, 1912.
L 4 Zi I C K d..
N UNITED STATES PATENT OFFICE.
NICHOLAS J'. CONRAD AND EDMUND 0. SCHWEITZER, OF CHICAGO, ILLINOIS.
HIGH-VOLTAGE PROTECTIVE DEVICE.
Specification ot Letters Patent.
Patented Julyr 23, 1912.
Application filed September 8, 1910. Serial No. 581,000.
To all whom t may concern Be it knowu that we, `NICHOLAS J. CONRAD and EDMUND C. SCHWEITZER, citizens of the ment in High-Voltage Protective Devices,
of which the following is a full, clear, concise, and exact description, reference being had to the accompanying drawings, forming a part of this specification.
Our, invention relates to high voltage protective devices or fuses and has for its object the provision of an im roved circuit openin device for use prefera ly in connection with high voltage systems in which the voltage ma be six hundred volts or over and which 1s equally applicable for circuits in which the voltage may be ten thousand volts or even higher.
In two previously led ap lications, respectivel Ser. No. 550,219, filed Mar. 18, 1910 an Ser. No. 555,005, led April l2, 1910, we illustrate a high potential protective device in which a fusible element under tension is used in connection with a noncombustible liquid which a portion of the fuse is surrounded in a manner to form a barrier to any possible arc that may be formed upon rupture of the fuse.
In our present application we set forth a structure throughl which we entirely cover the operative length of the fuse with a material which will not combine with the products of combustion when the fuse blows, and which envelop is preferably so made that the hole through which the fuse is drawn is smaller in diameter than the diameter of the fuse wire. The material which we prefer toemploy is cork which on account of its resilient characteristics presses inwardly against the fuse wire and thus remains in close association therewith throughout its ent-ire operative length. We thus provide a heat confining means for the fuse so that the heat therein 1s not dissipated but remains to erform its required function of blowing the use when the current reaches the predetermined abnormal value. The heat confining or insulati means herein prevents the substantial radiation of heat from the fuse to the surrounding material. As before stated we find cork as a specific instance of a material which fulfils this requirement.
Our invention further contemplates other details not shown in the before mentioned describing two applications among which might be mentioned means for sealing a device so as to secure practical results from, its operation.
We will explainv our invention more in detail by reference to the accompanying drawing illustrating the preferred embodiment thereof in which:
Figure 1 is a Sectional view of (fur device in completed form ready for use; Fig. 2 Y
shows a cross-sectional view of the device during the process of assembling; Fig.3 is a sectional view on lines a-a of Fig. 2, and: Fig. 4 is a sectional view on lines b-b of Fig. 1.
It will of course be understood that we are specifically herein the form which we have at present selected to carry out our invention without meaning to limit ourselves thereby to this precise structure but meaning it to signify merely one of the many forms to which our invention is applicable.
We use a tube preferably of glass which has a sealing cap 2 at one extremity thereof, which cap 1s sealed to the glass preferabl by the use of some suitable material not so uble in the liquid used within the tube which in this case is carbon tetra-chlorid. The adhesive which we use for this sealing purpose is hot shellac which is a vegetable gum having the necessary characteristics. A spring 3 has one extremity securely fastened in the cap at 4 and is associated at its other extremity with a link 5. The upper extremity of the link 5 has` fastened thereto a fuse 6 which is coiled as shown at 7 about this eX- tremity to fasten the fuse thereto. The upper extremity of the fuse is coiled around the eyelet 8, which eyelet ends in a Wire 9. The wire 9 is brought out through the sealed end at the upper extremity of the tube 1 and is fastened by means of a screw 10 to an annular shell 11 suitably cemented to the tube 1. Carbon tetra chlorid 12 is provided within the interior of the tube 1 as shown.
The novel form of sealin the upper extremity of the device consists in the provision of a cork 13 which is forced into the tube 1 so that on account of its resilience it will always bear tightly against the glass even during ex ansion and contraction on account of the c anges of temperature. The remaining portion of the tube 1 outside of the cork is sealed by means of the` compound 14 which should be of such characteristics that its temperature coefficient is similar to that of the material of which the tube 1 is constructed, and a material which we find gives us these qualifications is litharge cement. A litharge rement having these properties may be made of finely ground litharge mixed with Portland cement, one part of cement to fifty parts of litharge, mixed with glycerin to 'form a thick paste. The spring 3 normally maintains the fuse under tension and the construction here pointed out is of special utility in the assembling, as will be apparent from Fig. 2 where the wire 9 is ot' considerable length and the parts are assembled as shown in Fig. 2 which is easily accomplished. Thereafter the wire 9 is pulled through the cork 13 until the fuse is under the required tension and is then bent around the screw 10 andsecured in place, the rotruding end at the wire then being cut o Thereafter the sealing compound is placed in position.
The most important feature of our construction resides in 'the provision of an envelop 15 which surrounds the fuse throughout its entire operative length, that is, the ends of the fuse are doubled when they enter the cork so that the rupture point of the fuse when blowing must be somewhere within the cork. The envelop 15 has a hole 16 somewhat smaller than-the diameter of the fuse and the fuse is drawn into the envelop through this hole so that the two are always in direct association. We prefer to use cork for this envelop as on account of its resilience it iS pressed against the fuse.
The envelop should be of an inert material which will not be affected by the operation of the fuse. The envelop 15 is also of Sullicient size to form practically a barrier to the arc which might be formed between the eye 8 and the link 5 upon rupture of the fuse. Sulficient s ace however is left about the periphery o the cork to permit the carbon tetra-chlorid to ow freel The li uid within the tube should be o a nonin ammable character and yet have such characteristics as will permit it to flow readily into the smallest apertures. Carbon tetra-chlorid fulfils these requirements and we use it for that purpose.
While we have herein shown and particularly described the preferred embodiment of our invention, we do not mean to limit ourselves to the precise construction and arrangement as herein set forth, but
Having thus described our invention, what We claim as new and desire to secure by Letters Patent is:
1. A high voltage protective device comprising a fuse, an inert envelop in substantial contact with the entire operative length of said fuse and a bath of non-inflammable fluid to flow between the terminals upon rupture of said fuse.
2. A high voltage protective device comprising a fuse, means for maintaining said fuse under tension, an inert envelop covering and compressing the entire operative length ofsaid fuse and a bath of non-inflammable fluid to flow between the terminals upon rupture of said fuse.
3. A high voltage protective device coinprising a fuse, an envelop of cork coverin the entire operative length of said fuse an a bath of non-inflammable fluid to flow between the terminals upon rupture of said fuse.
4. A hi h voltage protective device comprising a use, and an envelop of cork covering the entire operative length of said fuse.
5. A hi h voltage protective device comprising a use, an envelop covering and compressing the entire operative length of said fuse and an arc extinguishing bath therefor.
In witness whereof, we hereunto subscribe our names this 31st day of August A. D., 1910 NICHOLAS J. CONRAD. EDMUND 0. SCHWEITZER.
Witnesses:
MAX W. DABEL, A. LYDA J ONES.
US58100010A 1910-09-08 1910-09-08 High-voltage protective device. Expired - Lifetime US1033384A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3800262A (en) * 1971-12-28 1974-03-26 Ferraz & Cie Lucien Fuse cartridge

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3800262A (en) * 1971-12-28 1974-03-26 Ferraz & Cie Lucien Fuse cartridge

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