US1913544A - Electrical apparatus - Google Patents

Electrical apparatus Download PDF

Info

Publication number
US1913544A
US1913544A US512896A US51289631A US1913544A US 1913544 A US1913544 A US 1913544A US 512896 A US512896 A US 512896A US 51289631 A US51289631 A US 51289631A US 1913544 A US1913544 A US 1913544A
Authority
US
United States
Prior art keywords
coil
shield
reactance
inductance coil
apparent
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
US512896A
Inventor
Warner M Haben
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.)
GEN MOTORS RADIO CORP
GENERAL MOTORS RADIO Corp
Original Assignee
GEN MOTORS RADIO CORP
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 GEN MOTORS RADIO CORP filed Critical GEN MOTORS RADIO CORP
Priority to US512896A priority Critical patent/US1913544A/en
Application granted granted Critical
Publication of US1913544A publication Critical patent/US1913544A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F21/00Variable inductances or transformers of the signal type
    • H01F21/02Variable inductances or transformers of the signal type continuously variable, e.g. variometers

Definitions

  • This invention relates to a reactance unit and in more particular to an'inductance coil for a radio receiver.
  • An object of this invention is to provide means for adjusting the apparent reactance of the coil without changing the coil per se. This has been accomplished by providing a closed annular conductor that is positioned within the shield enclosing the coil so that by adjusting the closed annular conductor with respect to the inductance the .apparent reactance of the coil is changed.
  • Fig. 1 discloses a longitudinal sectional view' taken substantially on the line 11 of Fig. 2.
  • Fig. 2 is a sectional view taken on the line 2-2 of Fig. 1.
  • Fig. 3 is a sectional view taken on the line 3-3 of Fig. 1. i
  • Fig. 4 is a longitudinal sectional view of a modification.
  • Fig. 5 is a sectional view taken on the line 5-5 of Fig. 4.
  • Fig. 6 is a longitudinal sectional view of another modification.
  • the reference character 10 indicates a coil supported on a tubular core 12 carried on a cup-shaped member 14 and held in position by a pair of studs 18 and 18 provided with eyes 20 and 22 that have been attached to the core 12 by suitable grommets.
  • one terminal 24 of the coil is electrically connected to the stud 16 and has a nut 26 cooperating with :1 ch 28 groun'ded at 30 so that this terminal 0 the coil has its potential defined.
  • the other terminal 32 of the coil-1O is connected to a clip 34 that is at tached to a suitable conductor 36 that may be connected in an electrical circuit as desired.
  • cup-shaped support 14 telescopically engages a cup-shaped shield 38 that completely shields the coil 10 electrostatically and electromagnetically.
  • member 14 is provided with a detent 40 as best seen in Fig. 3that frictionally engages the surface of the shield 38.
  • annular flange 42 is carried by the cup-shaped shield 38 near the end of the coil having its potential defined.
  • this terminal may be at any other potential difference with respect to the shield.
  • the flange 42 may be press fitted, soldered or otherwise attached to member 38 so as to remain in a fixed relation thereto. It can be readily seen that as the cup-shaped member 38 is moved longitudinally with respect to the axis of the coil 10 the flange 42 will be adjusted along the coil 10 so that the amount of eddy current generated in the flange 42 will depend upon the relative position of the flange 42 with respect to the coil 10 thereby changing the apparent reactance of the coil. In Fig. 1 the flange 42 in the full line position disclosesone extreme position and the dot-dash position 42 another extreme position.
  • short circuited conductor 50 that may be made from a single loop or a plurality of loops is carried b an insulating annulus 52 slidingly mounte within the shield 38.
  • the apparent reactance of the coil 10 may be adjusted by movin the short circuited conductor 50 from t e one position to another as, for example, from the full line position 50 to the dot-dash position 50 in Fig. 4, by means of a rod 54 provided with a knob 56 and extending, through the shield 38 at 58.
  • the short circuited conductor has been disclosed as having only one turn, any number of turns may be used. This modification is desirable where suflicient adjustment is not obtained by the modification disclosed in Fig. 1 due to the physical limits or the dimensions of the shields.
  • a flange 60 is inte al with the shield 38 that has been forme by turnin the edge of the shield 38 inwardly.
  • An inductance unit comprising an inductance coil and a device for adjusting the apparent reacta'nce of the inductance coil
  • cup-shaped su port for said coil a cup-shaped shield te escopically enga g said cup-shaped support, and an annu ar conducting member carried b said shield and electrically associated wit said coil, the position or said conducting member being varied by adjustin the position of the shield thereby changing the apparent reactance oi the coil.
  • A. reactance unit comprisingin combination, an inductance coil and a device djus ing the parent reactance of the unit having the pcdefined, said device A c ed conducting member i supporting the coil, a cup-shaped electrostatic and electromagnetic shielding memher telescopically engaging said. supporting m mber, said members having their potenti s1 defined, a short circuited movable conductor electrically associated with said coil, said conductor being carried by one of said members, and means for adjusting the position of said conductor with respect to said coil whereby the apparent reactance of said coil may be varied.
  • a reactance unit according to claim 2 in which the short circuited conductor is insulatingly mounted within one of said members.
  • An inductance unit comprising, an inductance coil, and a device for adjusting the apparent reactance of the coil, including a shield member and a support member therefor, and a short circuited conductor telescopically engaged by one of said members and electrically associated with the inductance coil, means to vary the osition of the conductor by adjusting t e position of the shield, thereby changing the apparent reactance of the inductance coil.
  • An inductance unit comprising an inductance coil, and a device for adjusting the apparent reactance of the inductance coil, including a support for said coil, a cupshaped shield and an annular conducting member which comprises an integral part of said shield and is electrically associated with said inductance coil, said coil and shield being relatively adjustable and thereby providing means for changing the apparent reactance of the inductance coil.
  • An inductance unit comprising an inductance coil, and a device for adjusting the apparent reactance of the inductance coil.
  • a shielding member including a shielding member, a supporting member for said shield, said members having their potential defined, a short circuited movable conductor electrically associated with said coil, said conductor being carried by one of said members, and means for adjusting the position of said conductor with respect to said coil by, adjustment of the shield and support, whereby the apparent reactanceof said coil may be varied.
  • An electrostatic or electromagnetic shielding unit for an inductance coil including a cup-shaped supporting member, a cupshaped member which telescopically engages with said supporting member, and an inwardly projecting conducting member carried by one of said cup-shaped members for varying the apparent reactance of said inductance coil.
  • An electrostatic or electromagnetic shielding unit for an inductance coil including a cup-shaped supporting member, a cuphaped member which telescopically engages with said supporting member, and an annular flange forming an. integral part of one of said members for varying the apparent reactance of said inductancecoil.
  • An electrostatic or electromagnetic shielding unit for anv inductance coil including a cup-shaped supporting member,
  • cup shaped member which telescopically engages "with said supporting member, and a short circuited conducting member insulatingly mounted within one of said cup shaped members.
  • An electrostatic or electromagnetic shielding unit for an inductance coil including a. supporting member, a shielding member engaging Within the supporting member, and means for varying the apparent reactance of said inductance coil, said means comprising a short circuited conductor mounted peripherally "Within one of said members and being adiustable by movement of one of said memb rs.
  • An electrostatic or electromagnetic shielding unit for an inductance coil including a supporting member, a shielding member shiftably engaged. by said support; and a short circuited conductor insulatingly mounted within one of said members for varying the apparent reactance of the inductance coil.
  • Au electrostatic or electromagnetic shielding unit for an inductance coil including a supporting member, a cup-shaped shielding member, and a ring-like element of conducting material insulatingly telescoped within one of said members for varying the apparent rcactance of the inductance coil.
  • An electrostatic or electromagnetic shielding unit for an inductance coil ineluding a supporting member, a cup-shaped shielding member, and a circular member of conducting material telescoped Within one of said members for varying the apparent rcactance of the inductance coil.
  • a flanged annular ring adapted to be mounted peripherally within the unitand electrically assoriated with the inductance coil, said ring comprising means for varying the apparent rcactance of the inductance coil.
  • an inductance coil shielding device having an inductance coil, and a shield therefor, the combination con'iprising means for varying the apparent rcactance of the inductance coil, and a support for said means, said means including a part formed from said shield.

Landscapes

  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Coils Or Transformers For Communication (AREA)

Description

W. M. HABEN ELECTRICAL APPARATUS Filed Feb 2, 1931 June 13, 1 933.
28 2a /4 n 2 50 f0 26 i'" -.-1 /5 J gwomt ov Patented pp June 13, 1933 UNITED STATES PATENT OFFICE "WARNER I. HABEN, O1 DAYTON, OHIO, ABSIGNOB TO GENERAL MOTORS RADIO COB.- POMTION,'OI DAYTON, OHIO, A CORPORATION OF OHIO morarcu. mmrus 2 This invention relates to a reactance unit and in more particular to an'inductance coil for a radio receiver.
v In the manufacture of coils especially coils l for radio frequency amplifiers it is very dif-' ficult to secure uniform reactance of the coils especiall when produced in mass production. There are a number of factors thatenter into the variation of the reactance of the coil such as the material in the core, the size of the core, the spacing of the windings, thenumber of the windings, etc. Where the inductances are to be used in radio frequency amplifiers, especially radio frequency tuned amplifiers having the several stages tuned in unison, it is ver desirable to have all of the coils uniform t at are similarly located in the circuits. This being the case, it is necessary to either manufacture all coils so as to have the same reactance or to provide some type of adjusting means for changing the apparent rea'ctance of the coil.
An object of this invention is to provide means for adjusting the apparent reactance of the coil without changing the coil per se. This has been accomplished by providing a closed annular conductor that is positioned within the shield enclosing the coil so that by adjusting the closed annular conductor with respect to the inductance the .apparent reactance of the coil is changed.
, Further objects and. advantages of the present invention will be apparent from the following description, reference being had to the accompanying drawing wherein a pre-- ferred embodiment of one form of the pres ent invention is clearly shown.
In the drawing:
Fig. 1 discloses a longitudinal sectional view' taken substantially on the line 11 of Fig. 2.
' Fig. 2 is a sectional view taken on the line 2-2 of Fig. 1.
Fig. 3 is a sectional view taken on the line 3-3 of Fig. 1. i
Fig. 4 is a longitudinal sectional view of a modification. a
Fig. 5 is a sectional view taken on the line 5-5 of Fig. 4.
Fig. 6 is a longitudinal sectional view of another modification.
In the drawing the reference character 10 indicates a coil supported on a tubular core 12 carried on a cup-shaped member 14 and held in position by a pair of studs 18 and 18 provided with eyes 20 and 22 that have been attached to the core 12 by suitable grommets. In the preferred modification one terminal 24 of the coil is electrically connected to the stud 16 and has a nut 26 cooperating with :1 ch 28 groun'ded at 30 so that this terminal 0 the coil has its potential defined. The other terminal 32 of the coil-1O is connected to a clip 34 that is at tached to a suitable conductor 36 that may be connected in an electrical circuit as desired.
The cup-shaped support 14 telescopically engages a cup-shaped shield 38 that completely shields the coil 10 electrostatically and electromagnetically. In order to hold the members14 and 38 in position, member 14 is provided with a detent 40 as best seen in Fig. 3that frictionally engages the surface of the shield 38.
In the preferred modification disclosed in Fig. 1 an annular flange 42 is carried by the cup-shaped shield 38 near the end of the coil having its potential defined. Instead of having one terminal at the same potential as the shield, this terminal may be at any other potential difference with respect to the shield.
The flange 42 may be press fitted, soldered or otherwise attached to member 38 so as to remain in a fixed relation thereto. It can be readily seen that as the cup-shaped member 38 is moved longitudinally with respect to the axis of the coil 10 the flange 42 will be adjusted along the coil 10 so that the amount of eddy current generated in the flange 42 will depend upon the relative position of the flange 42 with respect to the coil 10 thereby changing the apparent reactance of the coil. In Fig. 1 the flange 42 in the full line position disclosesone extreme position and the dot-dash position 42 another extreme position.
In the modification disclosed in Fig. 4 a
short circuited conductor 50 that may be made from a single loop or a plurality of loops is carried b an insulating annulus 52 slidingly mounte within the shield 38. The apparent reactance of the coil 10 may be adjusted by movin the short circuited conductor 50 from t e one position to another as, for example, from the full line position 50 to the dot-dash position 50 in Fig. 4, by means of a rod 54 provided with a knob 56 and extending, through the shield 38 at 58. Although the short circuited conductor has been disclosed as having only one turn, any number of turns may be used. This modification is desirable where suflicient adjustment is not obtained by the modification disclosed in Fig. 1 due to the physical limits or the dimensions of the shields.
In the modification disclosed in Fig. 6, instead of providing an annular flange 4:2 as disclosed in Fig. 1, a flange 60 is inte al with the shield 38 that has been forme by turnin the edge of the shield 38 inwardly.
. This ange may be adjusted along the coil 10 much the same as is the flange 42 in Fig. 1. Although in the modifications disclosed the shield 38 has been provided with the adjustable conductor, the cup-shaped support could carry the conductor. In each of the modifications a single coil has been inclosed within the shield. Instead of the single coil, primary and secondary windings of a transtormer can be inserted in the shield and the reactance of either or both of these windings adjusted.
While the form of embodiment of the present invention as herein disclosed, constitutes a preferred form, it is to be understood that other forms might be adopted, all coming within the scope of the claims which follow.
What is claimed is as follows:
1'. An inductance unit comprising an inductance coil and a device for adjusting the apparent reacta'nce of the inductance coil,
including, a cup-shaped su port for said coil, a cup-shaped shield te escopically enga g said cup-shaped support, and an annu ar conducting member carried b said shield and electrically associated wit said coil, the position or said conducting member being varied by adjustin the position of the shield thereby changing the apparent reactance oi the coil.
52. A. reactance unit comprisingin combination, an inductance coil and a device djus ing the parent reactance of the unit having the pcdefined, said device A c ed conducting member i supporting the coil, a cup-shaped electrostatic and electromagnetic shielding memher telescopically engaging said. supporting m mber, said members having their potenti s1 defined, a short circuited movable conductor electrically associated with said coil, said conductor being carried by one of said members, and means for adjusting the position of said conductor with respect to said coil whereby the apparent reactance of said coil may be varied.
3. A reactance unit according to claim 2 in which the short circuited conductor is insulatingly mounted within one of said members.
4. An inductance unit comprising, an inductance coil, and a device for adjusting the apparent reactance of the coil, including a shield member and a support member therefor, and a short circuited conductor telescopically engaged by one of said members and electrically associated with the inductance coil, means to vary the osition of the conductor by adjusting t e position of the shield, thereby changing the apparent reactance of the inductance coil.
5. An inductance unit comprising an inductance coil, and a device for adjusting the apparent reactance of the inductance coil, including a support for said coil, a cupshaped shield and an annular conducting member which comprises an integral part of said shield and is electrically associated with said inductance coil, said coil and shield being relatively adjustable and thereby providing means for changing the apparent reactance of the inductance coil.
6. An inductance unit comprising an inductance coil, and a device for adjusting the apparent reactance of the inductance coil. including a shielding member, a supporting member for said shield, said members having their potential defined, a short circuited movable conductor electrically associated with said coil, said conductor being carried by one of said members, and means for adjusting the position of said conductor with respect to said coil by, adjustment of the shield and support, whereby the apparent reactanceof said coil may be varied.
7 An electrostatic or electromagnetic shielding unit for an inductance coil, including a cup-shaped supporting member, a cupshaped member which telescopically engages with said supporting member, and an inwardly projecting conducting member carried by one of said cup-shaped members for varying the apparent reactance of said inductance coil.
8. An electrostatic or electromagnetic shielding unit for an inductance coil, including a cup-shaped supporting member, a cuphaped member which telescopically engages with said supporting member, and an annular flange forming an. integral part of one of said members for varying the apparent reactance of said inductancecoil.
9. An electrostatic or electromagnetic shielding unit for anv inductance coil, including a cup-shaped supporting member,
a cup shaped member which telescopically engages "with said supporting member, and a short circuited conducting member insulatingly mounted Within one of said cup shaped members.
10. An electrostatic or electromagnetic shielding unit for an inductance coil, including a. supporting member, a shielding member engaging Within the supporting member, and means for varying the apparent reactance of said inductance coil, said means comprising a short circuited conductor mounted peripherally "Within one of said members and being adiustable by movement of one of said memb rs.
11. An electrostatic or electromagnetic shielding unit for an inductance coil, including a supporting member, a shielding member shiftably engaged. by said support; and a short circuited conductor insulatingly mounted within one of said members for varying the apparent reactance of the inductance coil.
12. Au electrostatic or electromagnetic shielding unit for an inductance coil, including a supporting member, a cup-shaped shielding member, and a ring-like element of conducting material insulatingly telescoped within one of said members for varying the apparent rcactance of the inductance coil.
13. An electrostatic or electromagnetic shielding unit for an inductance coil, ineluding a supporting member, a cup-shaped shielding member, and a circular member of conducting material telescoped Within one of said members for varying the apparent rcactance of the inductance coil.
l-l. In an inductance coil shielding unit, a flanged annular ring adapted to be mounted peripherally within the unitand electrically assoriated with the inductance coil, said ring comprising means for varying the apparent rcactance of the inductance coil.
15. In an inductance coil shielding device having an inductance coil, and a shield therefor, the combination con'iprising means for varying the apparent rcactance of the inductance coil, and a support for said means, said means including a part formed from said shield.
In testimony whereof I hereto aflix my signature.
WARNER M. HABEN.
US512896A 1931-02-02 1931-02-02 Electrical apparatus Expired - Lifetime US1913544A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US512896A US1913544A (en) 1931-02-02 1931-02-02 Electrical apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US512896A US1913544A (en) 1931-02-02 1931-02-02 Electrical apparatus

Publications (1)

Publication Number Publication Date
US1913544A true US1913544A (en) 1933-06-13

Family

ID=24041069

Family Applications (1)

Application Number Title Priority Date Filing Date
US512896A Expired - Lifetime US1913544A (en) 1931-02-02 1931-02-02 Electrical apparatus

Country Status (1)

Country Link
US (1) US1913544A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2442264A (en) * 1944-08-22 1948-05-25 Du Mont Allen B Lab Inc Variable inductance
US2659056A (en) * 1951-06-28 1953-11-10 Zenith Radio Corp Coupling device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2442264A (en) * 1944-08-22 1948-05-25 Du Mont Allen B Lab Inc Variable inductance
US2659056A (en) * 1951-06-28 1953-11-10 Zenith Radio Corp Coupling device

Similar Documents

Publication Publication Date Title
US1641438A (en) Variable condenser
US2113603A (en) High-frequency inductance device
US2428947A (en) Deflection device for cathode-ray tubes
US2549399A (en) Electrode for diathermy apparatus or the like
US1913544A (en) Electrical apparatus
GB633397A (en) Improvements in automatic radio tuning systems
US2250366A (en) Radio frequency tuner unit
US2414280A (en) Variometer
US2489114A (en) Variable inductance device
US1978600A (en) Permeability-tuned resonant circuit
US2673933A (en) Radio circuit tuning device
US2199669A (en) Tuned transmission circuits
US1353145A (en) Device for varying electrical coupling
US1639662A (en) Transformer
US2642559A (en) Inductance coil of the sliding core type
US2673964A (en) Variable inductor
US2458071A (en) Adjustable inductor
US2654034A (en) Circuit tuning device
US2837726A (en) Reluctance tuned radio frequency coil
US1720824A (en) Radiodetector
US2130824A (en) Radio circuits
US2752578A (en) Electrical transformer
US2238763A (en) Arrangement for variable adjustment of band width
GB202115A (en) Improvements in or relating to electrical apparatus for use in high frequency circuits
US2446003A (en) High-frequency coupling device