US1753188A - Variable resistance - Google Patents

Variable resistance Download PDF

Info

Publication number
US1753188A
US1753188A US155357A US15535726A US1753188A US 1753188 A US1753188 A US 1753188A US 155357 A US155357 A US 155357A US 15535726 A US15535726 A US 15535726A US 1753188 A US1753188 A US 1753188A
Authority
US
United States
Prior art keywords
resistance
helix
loops
split ring
resistance element
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US155357A
Inventor
John L Howie
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kellogg Switchboard and Supply Co
Original Assignee
Kellogg Switchboard and Supply Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kellogg Switchboard and Supply Co filed Critical Kellogg Switchboard and Supply Co
Priority to US155357A priority Critical patent/US1753188A/en
Application granted granted Critical
Publication of US1753188A publication Critical patent/US1753188A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01CRESISTORS
    • H01C10/00Adjustable resistors
    • H01C10/30Adjustable resistors the contact sliding along resistive element
    • H01C10/301Adjustable resistors the contact sliding along resistive element consisting of a wire wound resistor
    • H01C10/303Adjustable resistors the contact sliding along resistive element consisting of a wire wound resistor the resistor being coated, e.g. lubricated, conductive plastic coated, i.e. hybrid potentiometer

Definitions

  • My invention relates to electrical resistance devices and more particularly to a variable resistance unit, and an object of my invention is to provide a simple and inexpensive variable resistance unit which is positivein its operation and can be constructed to covera very wide range of resistances.
  • a feature of my invention is the provision of a new and improved resistance element in combination with a suitable insert which makes contact with the body of the resistance element.
  • Another feature of my invention is the provision of a suitable supporting member which 5 is made integral with the resistance element by means of a suitable moulding operation and the provision of a wiper rotatably supported by said member for engaging the insert for varying the amount of resistance in a circuit.
  • Fig. 1 is a rear view of the variable resist-.
  • Fig. 2 is a rig t side view of Fig. 1,
  • Fig. 3 is a sectional view along the line 3-3 of Fig. 1, v
  • Fig. 4 is a perspective view of the fibre split ring insert which supports a helix of conducting material
  • Fi 5 is a perspective view of the resistance element of the variable resistance with the fibre split ring and its supported helix embedded in the formed resistance element, and
  • Fig. 6 is a perspective view of the resistance element in its final form in which the convolutions of the helix partially embedded in the element are severed by a suitable operation to form individual loops.
  • variable resistance of my invention comprises a split ring shaped resistance element 2 of suitable conducting material.
  • fibre split ring 3 and supported helix 4 are partially embedded in the formed split ring shaped resistance element 2 as clearly illustrated in Fig. 5.
  • the edge 5 of the split ring shaped fibre 3 and is supported helix 4 project slightly from the face 6 of the element 2 and the other edge 7 of the fibre split ring 3 and the remaining portion of the helix 4 are embedded in the body of the element 2 but in i proximity to the opposite face 8.
  • ,Suflicient material is removed from this face 8 by means of a suitable grinding operation to sever the individual convolutions of the helix 4 which convolutions after being severed form a series of individual loops'9 are clearly illustrated in Figs. 3 and 6 and these individual loops 9 make permanent and unvarying contact with the conducting material of the resistance element 2.
  • the unit comprising the ring 3 and helix 4 and the resistance element 2 is next placed in a suitable mold containing a suitable nonconducting compound, and by means of heat and pressure the phenol compound is hardened to fuse with the resistance element 2 and the rin 3 and helix 4 to form a cup shaped mem er G, with the .projectin edge 5 of the fibre split ring 3 and expose portions of the loops 9 forming an annular ring 10 on the rim 11 of the cup member C, whereby the resistance element 2 and the helix 4 and its supporting rin 3 and the phenol compound form a sing e unitary structure.
  • Conducting plates 12 and 13 are provided and contact with the exposed portions of the loops 9 at the respective ends 14 and 15 of the fibre split ring 3 partially embedded in the element 2.
  • Screw 16 passin through suitable orifices in the wall 17 o the member C and plate members 12 and 13 receive nuts 18 I I 22 which terminates at its opposite end in a to maintain the plates 12 and 13 positioned in engagement'with theloops 9 as just described.
  • Terminals 19 are secured to the screws 16 by suitable nuts and these terminals 19 receive the external circuit connec;v
  • a terminal screw 21 passes through an arm resistance element 2 when the same is fused .to form the cup shaped member C.
  • the reduced portion 25 of the shaft 24 which extends through the orifice 26 in the cup member 0 forms a shoulder 30 which rests against a washer 31 and prevents inward longitudinal movement of the shaft 24.
  • a wiper 32 and a follower arm 33 are secured to the end 34 of-the reduced portion 25 of the shaft 24 by a suitable screw 35 which hasthreaded engagement with a tapped orifice in the end of the shaft 24.
  • the wiper 32' is provided with an integrally formed split r dished portion 36 which engages the CII'CIIQ lar plate 23 associated with the arm 22 which is formed so as to produce a spring effect and force the plate23 in contactual engage ment with the dishedportion 36 of the wiper 32, and provides frictional means for holding the wiper 32 in any of its adjusted positions, as will be presentlydescribed.
  • the wiper 32 is provided with an enlarged I 'end portion 38 which is adapted to engage the respective exposed portions of the loops 9 and this end of the wiper 38 is formed to provide a spring effect for gripping the loops 9 to assure a good contactual engagement between the wiper end 38 and the loops 9.
  • the arm 22 which is integrally formed with the plate 23 electrically connects the terminal 40, secured to the screw 21 by a'nut 41,
  • a knob K attached to the end .of the shaft 24 by suitable means rotates the shaft 24 and carries the 1 .end 38 of the wiper 32 over the loops 9 of the element 2 and through the agency of the loops 9 which are embedded in the resistance material of the element 2 the resistance of a circuit with which the variable resistance of my invention maybe associated may be changed between any desired limits dependlng upon the density of the resistance element and the proportion of the graphite.
  • a variable resistance of the character described including a molded split ring conductive element, a non-conducting material fused with said conductive element to form a cup-shaped element, metallic loop members partially embedded in said member, said con ductive element, said loop members and said non-conducting material forming 'a unitary structure, a rotatable. shaft supported by said unitary structure and a terminal secured to said unitary structure, aconducting member having one end secured to said terminal and its other end enlargedto form a disk, a movable contact arm supported by said shaft and having an enlarged end comprising a plurality of depending members engaging said disk, said other end of said contact arm being in contact with said loop members.
  • variable resistance of the character described comprising a molded split ring conductive element, a nonconducting material fused with said conductive element to form a cup shaped member, metallic loop members partially embedded in said element, and a conducting member having an enlarged end,
  • a contact a rhn having an enlarged end comcomprising a split ring supporting a helix of wire, a mixture of conducting material and phenol condenslte. material, sa1d conducting and phenol type material and said ring and supporting helix being molded to form a unitary cup shaped member and to.
  • a device of the character described comprising 'a split ring supporting a helix of wire partially embedded in a molded ring conductive material forming a resistance element, the convolutions of the embedded helix being severed on one surface of said molded split ring resistance element to form individual loops, a phenol type material and said resistance element and said helix being fused to form a unitary cup shaped member with said exposed portion of said split'ring and its supporting loops forming'an annular ring on the rim of said cup shaped member, a terminal member, a conducting member secured at one of its ends to said terminal and having 7 its other end shaped into a disk, and a contact arm having one of its ends adapted to move over said loops and its other end comprising a plurality of depending legs adapted to engage said disk to secure said wiper in its adjusted position.
  • a device of the character described comprising a split ring supporting a helix of wire partially embedded in a molded split ring conductive material forming a res1stance element, the convolutionsv of the embedded helix on one surface of said molded tion product fused with said resistance member to form a unitary cup shaped supporting member, and a movable contact member having one end composed of a plurality of depending legs adapted to engage associated mechanism for maintaining said contact member in its adjusted positions, said contact member for variably engaging said contacts for changing the effective resistance be split ring resistance element being severed to form individual loops, a phenol type material and said resistance element being fused to form a unitary cup shaped member with said exposed portion of said split ring and its supporting loops forming'an annular ring on the rim of said cup shaped member, and a wiper arm rotatably supported by said cup shaped member movable exposed loops.
  • a device including a resistance member provided with conducting contacts molded therein, a phenol condensation product fused with said resistance member and said con- .tacts to form a unitary cup-shaped supporting member, and a contact member having one end composed of a plurality of depending legs adapted to engage associated mechanism for maintaining said contact member in its adjusted positions, said contact member for variably engaging said contacts to variably change the effective resistance;
  • a device including a contact, a resistance member having contacts of conducting material molded therein, a phenol condensain contact with said

Description

April 1, 1930. J. L. HOWIE VARIABLE RESISTANCE Filed Dec. 17, 1926 Patented Apr. 1, 1930 UNITED STATES PATENT OFFICE JOHN L. HOWIE, OF CHICAGO, ILLINOIS, ASSIGNOR 'IO KELLOGG' SWITCHIBOARD AND I SUPPLY COMPANY, OF CHICAGO, ILLINOIS, A. CORPORATION OF ILLINOIS VARIABLE RESISTANCE Application filed December 17, 1926. Serial No. 155,357.
My invention relates to electrical resistance devices and more particularly to a variable resistance unit, and an object of my invention is to provide a simple and inexpensive variable resistance unit which is positivein its operation and can be constructed to covera very wide range of resistances.
A feature of my invention is the provision of a new and improved resistance element in combination with a suitable insert which makes contact with the body of the resistance element.
Another feature of my invention is the provision of a suitable supporting member which 5 is made integral with the resistance element by means of a suitable moulding operation and the provision of a wiper rotatably supported by said member for engaging the insert for varying the amount of resistance in a circuit.
The above features as well as others not.
specificall'y'pointed out will be more fully hereinafter outlined, and fora more complete'understanding of my inventionreference may be had to the accompanying drawing, in which like reference characters in the several views'denote like parts, and in which:
Fig. 1 is a rear view of the variable resist-.
ance unit of m invention,
Fig. 2 is a rig t side view of Fig. 1,
Fig. 3 is a sectional view along the line 3-3 of Fig. 1, v
Fig. 4 is a perspective view of the fibre split ring insert which supports a helix of conducting material,
Fi 5 is a perspective view of the resistance element of the variable resistance with the fibre split ring and its supported helix embedded in the formed resistance element, and
Fig. 6is a perspective view of the resistance element in its final form in which the convolutions of the helix partially embedded in the element are severed by a suitable operation to form individual loops.
Referring now more in detail to 'my inventionas illustrated in the accompanying drawings, the variable resistance of my invention comprises a split ring shaped resistance element 2 of suitable conducting material. The
fibre split ring 3 and supported helix 4 are partially embedded in the formed split ring shaped resistance element 2 as clearly illustrated in Fig. 5. The edge 5 of the split ring shaped fibre 3 and is supported helix 4 project slightly from the face 6 of the element 2 and the other edge 7 of the fibre split ring 3 and the remaining portion of the helix 4 are embedded in the body of the element 2 but in i proximity to the opposite face 8. ,Suflicient material is removed from this face 8 by means of a suitable grinding operation to sever the individual convolutions of the helix 4 which convolutions after being severed form a series of individual loops'9 are clearly illustrated in Figs. 3 and 6 and these individual loops 9 make permanent and unvarying contact with the conducting material of the resistance element 2.
The unit comprising the ring 3 and helix 4 and the resistance element 2 is next placed in a suitable mold containing a suitable nonconducting compound, and by means of heat and pressure the phenol compound is hardened to fuse with the resistance element 2 and the rin 3 and helix 4 to form a cup shaped mem er G, with the .projectin edge 5 of the fibre split ring 3 and expose portions of the loops 9 forming an annular ring 10 on the rim 11 of the cup member C, whereby the resistance element 2 and the helix 4 and its supporting rin 3 and the phenol compound form a sing e unitary structure. Conducting plates 12 and 13 are provided and contact with the exposed portions of the loops 9 at the respective ends 14 and 15 of the fibre split ring 3 partially embedded in the element 2. Screw 16 passin through suitable orifices in the wall 17 o the member C and plate members 12 and 13 receive nuts 18 I I 22 which terminates at its opposite end in a to maintain the plates 12 and 13 positioned in engagement'with theloops 9 as just described. Terminals 19 are secured to the screws 16 by suitable nuts and these terminals 19 receive the external circuit connec;v
tions of the circuit with which the variable resistance operates.
A terminal screw 21 passes through an arm resistance element 2 when the same is fused .to form the cup shaped member C. The
screw 21 passed through this insulating portion of the wall 17 and a nut 29 having threaded engagement With the screw 21 secures the arm 22 and its integrally formed plate 23 in position. v
The reduced portion 25 of the shaft 24 which extends through the orifice 26 in the cup member 0 forms a shoulder 30 which rests against a washer 31 and prevents inward longitudinal movement of the shaft 24. A wiper 32 and a follower arm 33 are secured to the end 34 of-the reduced portion 25 of the shaft 24 by a suitable screw 35 which hasthreaded engagement with a tapped orifice in the end of the shaft 24. The wiper 32' is provided with an integrally formed split r dished portion 36 which engages the CII'CIIQ lar plate 23 associated with the arm 22 which is formed so as to produce a spring effect and force the plate23 in contactual engage ment with the dishedportion 36 of the wiper 32, and provides frictional means for holding the wiper 32 in any of its adjusted positions, as will be presentlydescribed.
The wiper 32 is provided with an enlarged I 'end portion 38 which is adapted to engage the respective exposed portions of the loops 9 and this end of the wiper 38 is formed to provide a spring effect for gripping the loops 9 to assure a good contactual engagement between the wiper end 38 and the loops 9.
The arm 22 which is integrally formed with the plate 23 electrically connects the terminal 40, secured to the screw 21 by a'nut 41,
-with the wiper 32 so the same maybe con-.
nected with an external circuit. A knob K attached to the end .of the shaft 24 by suitable means rotates the shaft 24 and carries the 1 .end 38 of the wiper 32 over the loops 9 of the element 2 and through the agency of the loops 9 which are embedded in the resistance material of the element 2 the resistance of a circuit with which the variable resistance of my invention maybe associated may be changed between any desired limits dependlng upon the density of the resistance element and the proportion of the graphite.
embed said ring and supporting Having described. a specific form of my invention, I do not wish to be limited to the exact structure illustrated and described, but
aim to cover all changes and modifications as come within the scope of the appended claims.-
?W hat I claim as new and desire to secure by United States Letters Patent is:
,1. A variable resistance of the character described including a molded split ring conductive element, a non-conducting material fused with said conductive element to form a cup-shaped element, metallic loop members partially embedded in said member, said con ductive element, said loop members and said non-conducting material forming 'a unitary structure, a rotatable. shaft supported by said unitary structure and a terminal secured to said unitary structure, aconducting member having one end secured to said terminal and its other end enlargedto form a disk, a movable contact arm supported by said shaft and having an enlarged end comprising a plurality of depending members engaging said disk, said other end of said contact arm being in contact with said loop members.
2. A variable resistance of the character described comprisinga molded split ring conductive element, a nonconducting material fused with said conductive element to form a cup shaped member, metallic loop members partially embedded in said element, and a conducting member having an enlarged end,
prising a plurality of depending legs engaging said enlarged end of said conducting member for maintaining said contact arm in position, said contact arm being movable in material, a phenol condensation product fused with said resistance element to form a unitarycup shaped member, a terminal supported by said cup shaped member, a conducting member having one end secured to said terminal and its other end formed into a disk, and a movable contact arm adapted to contact with the loops of wireand having anenlarged end comprising a plurality of depending legs engaging said disk to maintain'said contact arm in its adjusted position.
4. In a device of the character described a contact a rhn having an enlarged end comcomprising a split ring supporting a helix of wire, a mixture of conducting material and phenol condenslte. material, sa1d conducting and phenol type material and said ring and supporting helix being molded to form a unitary cup shaped member and to. artially elix 'in the molded split ring resistance element, the convolutions of the embedded helix being severed to form individual loops which contact with the conductive material of said resistance element, a terminal member, a conducting member secured at one of its ends to said terminal and having its other end shaped into a disk, and a contact arm having one of its ends adapted to move over said loops and its other end comprising a plurality of depending legs adapted to engage said disk to secure said wiper in its adjusted pos'ition.
5. In a device of the character described comprising 'a split ring supporting a helix of wire partially embedded in a molded ring conductive material forming a resistance element, the convolutions of the embedded helix being severed on one surface of said molded split ring resistance element to form individual loops,a phenol type material and said resistance element and said helix being fused to form a unitary cup shaped member with said exposed portion of said split'ring and its supporting loops forming'an annular ring on the rim of said cup shaped member, a terminal member, a conducting member secured at one of its ends to said terminal and having 7 its other end shaped into a disk, and a contact arm having one of its ends adapted to move over said loops and its other end comprising a plurality of depending legs adapted to engage said disk to secure said wiper in its adjusted position.
6. A device of the character described comprising a split ring supporting a helix of wire partially embedded in a molded split ring conductive material forming a res1stance element, the convolutionsv of the embedded helix on one surface of said molded tion product fused with said resistance member to form a unitary cup shaped supporting member, and a movable contact member having one end composed of a plurality of depending legs adapted to engage associated mechanism for maintaining said contact member in its adjusted positions, said contact member for variably engaging said contacts for changing the effective resistance be split ring resistance element being severed to form individual loops, a phenol type material and said resistance element being fused to form a unitary cup shaped member with said exposed portion of said split ring and its supporting loops forming'an annular ring on the rim of said cup shaped member, and a wiper arm rotatably supported by said cup shaped member movable exposed loops. 7. A device including a resistance member provided with conducting contacts molded therein, a phenol condensation product fused with said resistance member and said con- .tacts to form a unitary cup-shaped supporting member, and a contact member having one end composed of a plurality of depending legs adapted to engage associated mechanism for maintaining said contact member in its adjusted positions, said contact member for variably engaging said contacts to variably change the effective resistance; T
8. A device including a contact, a resistance member having contacts of conducting material molded therein, a phenol condensain contact with said
US155357A 1926-12-17 1926-12-17 Variable resistance Expired - Lifetime US1753188A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US155357A US1753188A (en) 1926-12-17 1926-12-17 Variable resistance

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US155357A US1753188A (en) 1926-12-17 1926-12-17 Variable resistance

Publications (1)

Publication Number Publication Date
US1753188A true US1753188A (en) 1930-04-01

Family

ID=22555114

Family Applications (1)

Application Number Title Priority Date Filing Date
US155357A Expired - Lifetime US1753188A (en) 1926-12-17 1926-12-17 Variable resistance

Country Status (1)

Country Link
US (1) US1753188A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2694127A (en) * 1952-07-01 1954-11-09 Syntron Co Cylindrical rheostat
US2726306A (en) * 1953-05-27 1955-12-06 Huston E Ferguson Electronic resistor
US3222629A (en) * 1961-02-23 1965-12-07 Beckman Instruments Inc Variable resistance bridge
US4142022A (en) * 1976-04-05 1979-02-27 Brunswick Corporation Ceramic-metal laminate

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2694127A (en) * 1952-07-01 1954-11-09 Syntron Co Cylindrical rheostat
US2726306A (en) * 1953-05-27 1955-12-06 Huston E Ferguson Electronic resistor
US3222629A (en) * 1961-02-23 1965-12-07 Beckman Instruments Inc Variable resistance bridge
US4142022A (en) * 1976-04-05 1979-02-27 Brunswick Corporation Ceramic-metal laminate

Similar Documents

Publication Publication Date Title
US3260807A (en) Automatic and manual time switch
US2658975A (en) Delay switch
US1753188A (en) Variable resistance
US2576771A (en) Operating mechanism for electric switches
US2551989A (en) Potentiometric device
GB1087135A (en) Improvements in or relating to electric snap-action switch devices
US1886284A (en) Electric switch
US3281552A (en) Cam operated rotary switch using leaf spring and overlying actuator
US3387247A (en) Housing and base construction for variable resistance device
US2600652A (en) Control switch
US2847522A (en) Electric switches
US3354278A (en) Stack-type thermoresponsive switch having a supplemental heater with annularly-shaped heater portion and terminal regions
US2677777A (en) Holder for brush element or elements
US2501195A (en) Switch
US1448681A (en) Execteicai besistance
US2765376A (en) Rotary multi-point switch
US2424745A (en) Electrical switch
US2177482A (en) Circuit altering device
US2248672A (en) Control device
US2117578A (en) Thermostat assembly
US2041246A (en) Thermostatic switch
US555074A (en) Electric transformer
US2752439A (en) Infinitely variable control switch
US1739942A (en) Rheostat
US1691916A (en) Rheostat