US1771056A - Electrical resistance construction - Google Patents
Electrical resistance construction Download PDFInfo
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- US1771056A US1771056A US201079A US20107927A US1771056A US 1771056 A US1771056 A US 1771056A US 201079 A US201079 A US 201079A US 20107927 A US20107927 A US 20107927A US 1771056 A US1771056 A US 1771056A
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- resistance
- putty
- passage
- conducting
- resistance element
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01C—RESISTORS
- H01C7/00—Non-adjustable resistors formed as one or more layers or coatings; Non-adjustable resistors made from powdered conducting material or powdered semi-conducting material with or without insulating material
- H01C7/003—Thick film resistors
- H01C7/005—Polymer thick films
Definitions
- This invention relates to the construction of electrical resistance devices.
- One of the objects thereof is to provide a device of the above nature which is practical and eflicient 6 in operation.
- Another object is to provide a device of the above nature capable of affording a high electrical resistance and particularly well adapted for use in apparatus employed in connection with radio rece ving equipment.
- Another object is to provide a device of the above nature which is capable of carrying substantial loads and dependably withstanding severe usage.
- Another obJect is to provide a device of the above nature which is simple in construction and 1nex'- pensive to manufacture.
- Another ob ect is to provide a practical art of making resistance devices of the above nature which may be carried on conveniently and with inexpensive apparatus.
- Other objects Wlll be in part obvious or in part pointed out hereinafter.
- the invention accordingly consists in'the features of construction, combinations of elements, arrangements of parts and n the several steps and relation and order of each of the same to one or more of the others all as will "be illustrativel described here1n, and the scope of .the a B 'cation of which will be indicated in the f5 owing claims.
- Figure 2 is an end'view of Figure 1;
- Figure 4 is aptra-nsverse section taken as indicated by the line 44 in Figure 3;
- F igu 5 is a longitudinal section showing the resistance device at a further stage toward completion
- Figure 6 is a section taken as indicated by the line 66 in Figure 5;
- Figure 7 is a longitudinal section through a completed resistance device
- Figure 9 is a diagrammatic representation of an electric circuit in which the resistance device is employed.
- a member 10 which serves as a support.
- This member 10 is of material having good electrical insulating'properties and is preferably ofa' porous composition such, for example, as a chalk. It is found 5 that lavite, a porous chalk, is particularly suitable, being an insulating material and having other desired characteristics as will be lpointed out hereinafter.
- he supporting member 10 has formed therein a longitudinal passage extending preferabl from end to end thereof and pref- 'erably ta ing the form of an axial passage 11, the supporting member 10 being thus, in the referred form, tubular.
- a conducting path of high electrical resistance preferably extending through the passage
- This conducting path preferably takes the form of a film of conducting material'deposited upon a suitable nonconducting surface
- the resistance element conveniently comprises a thin glass rod or a glass fiber or thread coated with a film of conding application, Serial No. 33,327, filed ay 28, 1925
- the high resistance element shown herein at' 12 accordingly comprises a thin glass thread coated with a thin film of carbon or graphite to form thereon a conducting path, a thin film of resin or other suitable binder being deposited exterior of the carbon film as a protection for the latter.
- the resistance element 12 is supported in the passage 11 adjacent to the longitudinal axis of the supporting tube orcrod 10 and out of contact'with the walls of the passage.
- the ends thereof are embedded in a small mass 7 of metal 13 which makes electrical connection with the conducting film.
- This metal 13 is preferably a suitable alloy of comparatively high melting point such as a high melting point solder.
- the alloy 13, supporting the resistance element 12 at its two ends, is positioned in the two ends of the passage 11 and preferably within a pair of metal caps 14 which are fitted about the respective ends of the supporting rod 10.
- the alloy 13 makes electrical connection between the conducting film and the terminal caps 14 which are shaped to be received in spring clips, for example.
- the terminal capsl4 close the ends of the passage 11, covering the ends of the rod or tube, and theyare secured to the supporting member by means of any suitable adhesive such as rosin.
- the passage 11 and in intimate contact with th resistance element 12 is a material which is molded into the groove while in a plastic state and preferably after the resistance element 12 has been mounted therein as above described.
- This mass of material 15 thus surrounds and encloses the resistance element and is adapted to protect the resistance element from access of air thereto and to conduct away the heat generated by current flowing through the conducting film.
- putty is admirably suited for this purposeand particularly putty made of finely powdered chalk (calcium carbonate), ordinarily known as whiting, and linseed oil.
- putty for example, white lead putty
- other materials such as other kinds of putty, for example, white lead putty
- the commercial high grade putty made of whiting and linseed oil is found to be particularly suitable and to achive the desired results in a highly eflicient manner.
- Figure 1 shows the supporting rod or tube 10 formed in readiness to receive the other parts of the structure. At each end of the member 10 is formed by any suitable means a diametrical slot 28.
- the resistance element 12 formed preferabl as described in my above-mentioned co-peuding application, is inserted into the passage 11 and is secured therein by the solder 13 at each end.
- the solder 13 makes electrical connection with the conducting film and supports the resistance element 12 substantially coaxially with the passage 11.
- Preferably sufficient of the solder 13 is employed to insure the firm support for the part 12 and, as shown in Figures 3 and 5, this solder extends a short distance into the slots 28.
- the putty is now forced into the passage 11 through one or more of the openings provided by the slots 28.
- a suitable pressure gun may be employed as indicated at 29 in Figure 5.
- the putty is forced into the passage 11 and tightly packed therein about the resistance element 12.
- the metal caps 14 are placed in position over the ends of the device, making electrical conin an oven and baked for a period of time at a relatively high temperature.
- the tei'nperature preferably employed in the baking is in the neighborhood of 130 C., and when this temperature is employed the baking is continued for about twelve hours. As a result of this baking the putty hardens and becomes permanently set about and in intimate contact with the resistance element 12.
- This resistance device is capable of affording a very high electrical resistance, for example on the order of ten megohms, or it can be made to have a much lower resistance, for example on the order of 100 ohms, and it is capable of carrying a substantial load without being harmfully affected thereby, for example, a load on the order of three or four watts.
- An apparatus in which this resistance device is particularly well adapted for use is a current rectifier or B-battery eliminator employed in radio receiving equipment and a simple form of which is illustrated in Figure 9. Referring to Figure 9, the leads 16 and 17 supply alternating current and across these leads is connected the primary 18 of a transformer. The secondary 19 of the transformer supplies current to leads 20 and 21 across which the load is connected.
- a suitable electric valve 22 such as a Raytheon tube and a choke coil 23, and connected across the circuit are a pair of condensers 24 and 25.
- resistance devices herein described are illustrated at 26 and 27 connected in series across the load circuit between the rectifier and the load.
- the resistance devices 26 and .27 pro vide a path for the'continuous discharges of the condensers and hence they are rm uircd to carry a considerable electrical loin for which they are adapted as has been pointed out above.
- the hardened putt y 15 is substantially iinpervions to the passage of air and hence protee-ts the conducting lihn against oxidation under the relatively high temperatures which are reached uudcr operating conditions.
- the putty also, has a very high heat conductivity so that it rapidly dissipates the generated heat.
- the porous nature of the supporting rod 10 is an important factor in expediting Two of the v the proper drying out of the putty, permitting 'seepage'of a large part of the oil.
- the heat conducting and protective material 15 which is employed have a coeflicient of expansion which is substantially equal to that of the insulating support upon which the conducting film is deposited and supported since, if the coefiicient of expansion of these two parts is substantially different, repeated heating and cooling is liable to result in a cracking and disruption of the conducting film.
- the conducting film is supported upon a glass member, as in the preferred construction here shown, the putty has the added great advantage that its coefficient of expansion is substantially equal to that of the glass.
- the operating temperature of this resistance device may reach a value in the neighborhood of 125 C.
- the putty After the putty has been molded into place about the resistance element and has been allowed to stand or is baked as described, it hardens but does not become brittle and is not apt to fracture so that it forms a highly dependable and long-lived protection for the resistance ele-' ment. Moreover, the characteristics of the putty are such that it is not melted or softened by the operating temperatures of the device.
- a resistance element comprising an insulating support and a film of conducting ma terial thereon forming a conducting path of high resistance, and a mass of putty molded about said resistance element.
- an insulating support having a passage therethrough substantially from end to end, metal terminals closing the ends of said passage, conducting means of high resistance extending through said passage between said terminals and comprising a glass member having a film of conducting material thereon, and putty molded about said conducting means.
- a resistance element comprising an insulating support and a conducting film thereon, metal terminalsconnected to said conducting film at the ends thereof, and putty molded about said resistance element between said terminals.
- an insulating support having a passage therethrough substantially from end to end, metal terminals closing the ends of said passage, conducting means of high resistance extending through said passage between said terminals, and putty molded about said conducting means.
Description
July 22, 1930.
H. PENDER ELECTRICAL RES I STANCE CONSTRUCTION Filed June 24, 1927 41mm W 8. (my
Patented July 22, 1930 PATENT OFFICE HAL OLD FENDER, OI MEBION, PENNSYLVANIA ELECTRICAL RESISTANCE CONSTRUCTION Application filed June 24, 1927. Serial in. 201,079.
This invention relates to the construction of electrical resistance devices. One of the objects thereof is to provide a device of the above nature which is practical and eflicient 6 in operation. Another object is to provide a device of the above nature capable of affording a high electrical resistance and particularly well adapted for use in apparatus employed in connection with radio rece ving equipment. Another object is to provide a device of the above nature which is capable of carrying substantial loads and dependably withstanding severe usage. Another obJect is to provide a device of the above nature which is simple in construction and 1nex'- pensive to manufacture. Another ob ect is to provide a practical art of making resistance devices of the above nature which may be carried on conveniently and with inexpensive apparatus. Other objects Wlll be in part obvious or in part pointed out hereinafter.
The invention accordingly consists in'the features of construction, combinations of elements, arrangements of parts and n the several steps and relation and order of each of the same to one or more of the others all as will "be illustrativel described here1n, and the scope of .the a B 'cation of which will be indicated in the f5 owing claims.
' In the accompanyin drawin in which is shown one of the various POSSI le embodiments of the mechanical features of thls invention, Y 0 s Figure 1 shows one member of the resistanoe device at an early stage in the process of manufacture;
Figure 2 is an end'view of Figure 1;
0 Figure 3 shows the resistance device at a later stage in its manufacture;
Figure 4 is aptra-nsverse section taken as indicated by the line 44 in Figure 3;
F igu 5 is a longitudinal section showing the resistance device at a further stage toward completion; g
' Figure 6 is a section taken as indicated by the line 66 in Figure 5;
Figure 7 is a longitudinal section through a completed resistance device;
conducting material as described in my Figure 8 is an elevational viewof the completed device, and
Figure 9 is a diagrammatic representation of an electric circuit in which the resistance device is employed.
Similar reference characters refer to similar parts throughout the several views of the drawing Referring now to the drawing in detail, there is shown a member 10 which serves as a support. This member 10 is of material having good electrical insulating'properties and is preferably ofa' porous composition such, for example, as a chalk. It is found 5 that lavite, a porous chalk, is particularly suitable, being an insulating material and having other desired characteristics as will be lpointed out hereinafter.
he supporting member 10 has formed therein a longitudinal passage extending preferabl from end to end thereof and pref- 'erably ta ing the form of an axial passage 11, the supporting member 10 being thus, in the referred form, tubular. Within this longitudinal passage 11 is'positioned a conducting path of high electrical resistance, preferably extending through the passage,
.or through the supporting tube, from end to end thereof. This conducting path preferably takes the form of a film of conducting material'deposited upon a suitable nonconducting surface, and'the resistance element conveniently comprises a thin glass rod or a glass fiber or thread coated with a film of conding application, Serial No. 33,327, filed ay 28, 1925 The high resistance element shown herein at' 12 accordingly comprises a thin glass thread coated with a thin film of carbon or graphite to form thereon a conducting path, a thin film of resin or other suitable binder being deposited exterior of the carbon film as a protection for the latter. The resistance element 12 is supported in the passage 11 adjacent to the longitudinal axis of the supporting tube orcrod 10 and out of contact'with the walls of the passage. The ends thereof are embedded in a small mass 7 of metal 13 which makes electrical connection with the conducting film. This metal 13 is preferably a suitable alloy of comparatively high melting point such as a high melting point solder. The alloy 13, supporting the resistance element 12 at its two ends, is positioned in the two ends of the passage 11 and preferably within a pair of metal caps 14 which are fitted about the respective ends of the supporting rod 10. The alloy 13 makes electrical connection between the conducting film and the terminal caps 14 which are shaped to be received in spring clips, for example. The terminal capsl4: close the ends of the passage 11, covering the ends of the rod or tube, and theyare secured to the supporting member by means of any suitable adhesive such as rosin.
\Vithin the passage 11 and in intimate contact with th resistance element 12 is a material which is molded into the groove while in a plastic state and preferably after the resistance element 12 has been mounted therein as above described. This mass of material 15 thus surrounds and encloses the resistance element and is adapted to protect the resistance element from access of air thereto and to conduct away the heat generated by current flowing through the conducting film. I have found that putty is admirably suited for this purposeand particularly putty made of finely powdered chalk (calcium carbonate), ordinarily known as whiting, and linseed oil. Other materials, such as other kinds of putty, for example, white lead putty, may be employed with varying degrees of success, but the commercial high grade putty made of whiting and linseed oil is found to be particularly suitable and to achive the desired results in a highly eflicient manner.
Considering now more particularly my preferred method of making this resistance device, Figure 1 shows the supporting rod or tube 10 formed in readiness to receive the other parts of the structure. At each end of the member 10 is formed by any suitable means a diametrical slot 28. The member as shown in Flgure 1,
10 having been formed the resistance element 12, formed preferabl as described in my above-mentioned co-peuding application, is inserted into the passage 11 and is secured therein by the solder 13 at each end. The solder 13 makes electrical connection with the conducting film and supports the resistance element 12 substantially coaxially with the passage 11. Preferably sufficient of the solder 13 is employed to insure the firm support for the part 12 and, as shown in Figures 3 and 5, this solder extends a short distance into the slots 28.
The putty is now forced into the passage 11 through one or more of the openings provided by the slots 28. For the purpose of forcing the putty into position, a suitable pressure gun may be employed as indicated at 29 in Figure 5. The putty is forced into the passage 11 and tightly packed therein about the resistance element 12. Therenpon the metal caps 14 are placed in position over the ends of the device, making electrical conin an oven and baked for a period of time at a relatively high temperature. The tei'nperature preferably employed in the baking is in the neighborhood of 130 C., and when this temperature is employed the baking is continued for about twelve hours. As a result of this baking the putty hardens and becomes permanently set about and in intimate contact with the resistance element 12. By the heating a considerable amount of the oil is driven out of the putty and seeps out into and through the pores of the porous supporting rod or tube 10. The linseed oil remaining in the putty is largely oxidized and the resulting product forms a binder which, with the whiting, forms about the resistance element a very hard and durable mass having highly advantageous characteristics, A
This resistance device is capable of affording a very high electrical resistance, for example on the order of ten megohms, or it can be made to have a much lower resistance, for example on the order of 100 ohms, and it is capable of carrying a substantial load without being harmfully affected thereby, for example, a load on the order of three or four watts. An apparatus in which this resistance device is particularly well adapted for use is a current rectifier or B-battery eliminator employed in radio receiving equipment and a simple form of which is illustrated in Figure 9. Referring to Figure 9, the leads 16 and 17 supply alternating current and across these leads is connected the primary 18 of a transformer. The secondary 19 of the transformer supplies current to leads 20 and 21 across which the load is connected. In this circuit is a suitable electric valve 22 such as a Raytheon tube and a choke coil 23, and connected across the circuit are a pair of condensers 24 and 25. resistance devices herein described are illustrated at 26 and 27 connected in series across the load circuit between the rectifier and the load. The resistance devices 26 and .27 pro vide a path for the'continuous discharges of the condensers and hence they are rm uircd to carry a considerable electrical loin for which they are adapted as has been pointed out above.
The hardened putt y 15 is substantially iinpervions to the passage of air and hence protee-ts the conducting lihn against oxidation under the relatively high temperatures which are reached uudcr operating conditions. The putty, also, has a very high heat conductivity so that it rapidly dissipates the generated heat. The porous nature of the supporting rod 10 is an important factor in expediting Two of the v the proper drying out of the putty, permitting 'seepage'of a large part of the oil. It is important that the heat conducting and protective material 15 which is employed have a coeflicient of expansion which is substantially equal to that of the insulating support upon which the conducting film is deposited and supported since, if the coefiicient of expansion of these two parts is substantially different, repeated heating and cooling is liable to result in a cracking and disruption of the conducting film. When the conducting film is supported upon a glass member, as in the preferred construction here shown, the putty has the added great advantage that its coefficient of expansion is substantially equal to that of the glass. The operating temperature of this resistance device may reach a value in the neighborhood of 125 C. After the putty has been molded into place about the resistance element and has been allowed to stand or is baked as described, it hardens but does not become brittle and is not apt to fracture so that it forms a highly dependable and long-lived protection for the resistance ele-' ment. Moreover, the characteristics of the putty are such that it is not melted or softened by the operating temperatures of the device.
As many possible embodiments may be made of the mechanical features of the above invention and as the art herein described might be varied in various parts all without departing from the scope of the invention, it is to be understood that all matter hereinabove set forth or shown in the accompanying drawing is to be interpreted as illustrative and not in a limiting sense.
I claim as my invention:
1. In an electric resistance, in combination, electrical conducting means of high resistance, and a covering of putty thereover comprising a hardened mixture of whiting and linseed oil.
2. In an electric resistance, in combination, a resistance element comprising an insulating support and a film of conducting ma terial thereon forming a conducting path of high resistance, and a mass of putty molded about said resistance element.
3. In an electric resistance, in combination, electrical conducting means of-high resistance, a mass of putty packed thereabout, and a member of non-conducting and porous material bywhich said putty is embraced and supported.
an insulating support having a passage therethrough substantially from end to end, metal terminals closing the ends of said passage, conducting means of high resistance extending through said passage between said terminals and comprising a glass member having a film of conducting material thereon, and putty molded about said conducting means.
6. In an electric resistance, in combination, a resistance element comprising an insulating support and a conducting film thereon, metal terminalsconnected to said conducting film at the ends thereof, and putty molded about said resistance element between said terminals.
7. The herein described art of making resistance devices which consists in mounting a high resistance element upon a fragile nonconducting support and packing putty about said resistance element.
8. The herein described art of-making resistance devices which consists in mounting a resistance means in a passage in a porous member, placing about said means and between it and the walls of said passage a mixture of whiting and linseed oil, and baking the resultant structure.
9. The herein described art of making resistance devices which consists in mounting a resistance means in a passage in a porous member, placing putty about said means and between it and the Walls of said passage, and baking the resultant structure at a temperature on the order of 130 C.
In testimony whereof, I have signed my name to this specification this second day of June, 1927.
HAROLD FENDER.
4. In an electric resistance, in combination, an insulating support having a passage therethrough substantially from end to end, metal terminals closing the ends of said passage, conducting means of high resistance extending through said passage between said terminals, and putty molded about said conducting means.
5. In an electric resistance, in combination,
Priority Applications (1)
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US201079A US1771056A (en) | 1927-06-24 | 1927-06-24 | Electrical resistance construction |
Applications Claiming Priority (1)
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US201079A US1771056A (en) | 1927-06-24 | 1927-06-24 | Electrical resistance construction |
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US1771056A true US1771056A (en) | 1930-07-22 |
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US201079A Expired - Lifetime US1771056A (en) | 1927-06-24 | 1927-06-24 | Electrical resistance construction |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2421759A (en) * | 1944-01-05 | 1947-06-10 | Bell Telephone Labor Inc | Resistor |
-
1927
- 1927-06-24 US US201079A patent/US1771056A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2421759A (en) * | 1944-01-05 | 1947-06-10 | Bell Telephone Labor Inc | Resistor |
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