US2570041A - Soldering iron stand - Google Patents

Soldering iron stand Download PDF

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US2570041A
US2570041A US733506A US73350647A US2570041A US 2570041 A US2570041 A US 2570041A US 733506 A US733506 A US 733506A US 73350647 A US73350647 A US 73350647A US 2570041 A US2570041 A US 2570041A
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container
tip
liquid
iron
shield
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Hardin S Wedmore
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    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F79/00Accessories for hand irons
    • D06F79/02Stands or supports neither attached to, nor forming part of, the iron or ironing board

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  • This invention relates to a soldering iron stand and has for one of its objects the provision of a stand adapted to support a soldering iron during intervals between use, and which stand includes means for preventing scaling and oxidation of the tip.
  • Another object of the invention is the provision. of a stand for electric soldering irons that includes means for controlling the temperature of such irons and for preventing scaling of the tip.
  • currences has been to place the iron in a holder that dissipates the heat to a degree that tends to prevent overheating of the tip.
  • Other methods include thermostatically controlled devices associated with the stands for regulating the temperature of the irons placed on the stands.
  • thermostatically controlled devices associated with the stands for regulating the temperature of the irons placed on the stands.
  • I am aware said stands and devices do not prevent scaling, although they may tend to retard it.
  • the temperature of the iron placed on the stand is maintained at the desired point and the tendency of the iron to scale is substantially eliminated.
  • Fig. 1 is a side elevational view of the stand; partly in section.
  • Fig. 2 is a sectional view taken along line 2-2 of Fig. 1. i
  • Fig. 3 is a sectional View taken along line 3-3 of Fig. 2.
  • the stand illustrated comprises an elongated container I that is adapted to lie hori- "zontally on one of its sides when in use, the said container having a flat side 2 (Fig. 3 adapted to support the container in a stable position on a horizontal surface.
  • a filling opening that is closed by a quick detach-able conventional closure cap 3 (Fig. 1) while the other end.
  • P '6 is flat and adapted to support the container on ing perforated sides, said channel extending longitudinally of the container, I and centrally of .its upper side.
  • This, channel 4 terminates at one end in a. cylindrical extension 5. that. projects to 'modate the stand to different irons.
  • end I3 of the U-shaped wire is adapted to enone side of the container.
  • the sides of said extension are imperforate and it is of a length to fully enclose the tip of a soldering iron (Fig. 1 when the shell I that encloses the heating element of a conventional electric soldering iron is in channel 4 adjacent the extension 5, and when the tubular shank 8 that connects between handle 9 and said shell 1 extends in channel member 4 across the top of container I.
  • channel member 4 are preferably of progressively decreasing height in a direction extending away from extension 5, and the end of th channel member 4 opposite extension 5 may almost come to a point at the bottom side of the channel adjacent end 4.
  • the channel member 4 is preferably perforated, and in the portion of the sides of the channel that are adjacent extension 5, pairs of said perforations I0 may be in axial alignment in opposite sides of the channel member for receiving the oppositely outwardly directed ends I I of a generally U-shaped elongated wire, the legs of which are designated I2 (Fig. 2) and the closed end being designated I3.
  • the legs I2 preferably ext nd toward each other adjacent the ends I I as indicated at I4 for supporting the shell of the iron, and the ends II are positioned in the pair of aligned openings I0 that will position closed end I3 of the wire so that it will engage handle 9 when the tip 6 is in proper position enclosed within extension '5.
  • end II may function to provide a stop and position indicator for the iron, and as the wire support may be so moved as to position end I I at different distances from extension 5, it will be, seen that means is provided to accom- The closed gage the shank 8 of the wire adjacent handle 9 to resist any tendency of the iron to tilt when in the position seen in Fig. 1, although a certain amount of tilt would not materially change the result accomplished.
  • a conduit I5 extends from a point adjacent the bottom 2 and cap 3 of the container to a point within extension 5, and a portion I6 of the conduit that is in extension 5 may extend above the bottom of the latter and have its upper side removed so that any liquid flowing into hem. his lay r may be f any su ta l no flammable material such as asbestos, spun glass, etc.
  • container I may be any suitable heat vaporizable antiscaling liquid, such as distilled water and bismuth-carbonate preferably in the ratio of about /2 pint of water to /2 teaspoonful of the bismuth-carbonate.
  • valve oil and alcohol may be used or any other suitable antiscaling liquid of which there are a number.
  • the Wire in channel member 4 prevents the tip of the iron from contacting anything within extension 5, and heat from the iron will heat the conduit I5 that extends into the container causing sufficient evaporation of the liquid within the container to force liquid into portion i6 where it is vaporized, some overflowing for absorption by the porous material of the liner.
  • the vapors within extensions 5 surround the tip and are in engagement therewith, thus preventing oxidation and sealing of the tip. A transfer of heat to the vapors also occurs tending to prevent overheating of the tip.
  • the screen liner in extension 5 functions to tend to retain the vapors in the extension from escaping through the open ends, and it is very effective in performing this function.
  • the operator may merely stand it on end for convenience, although it may be allowed to lie flat if desired.
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising.
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising, means for retaining said Vapors around said tip.
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising, means for retaining said vapors around said tip including a. cylindrical body of non-inflammable relatively porous material.
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising, an open-ended tube of perforated sheet material in which said tip is adapted to be inserted when on said member, said conduit opening at its discharge end into said tube.
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising, an open-ended tube of perforated sheet material in which said tip is adapted to be inserted when on said member, said conduit opening at its discharge end into said tube, and a tubular liner of screen ma-- terial within said tube.
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a tubular open-ended shield secured to said container and projecting laterally from said container, said shield being adapted to receive the tip of said iron therein when the latter is in a position extends across the top of said container, means for supporting said iron on said container in said position, means for conducting liquid from the said container into said shield for vaporizing by the heat from said tip.
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a tubular open-ended shield secured to said container and projecting laterally from said container, said shield being adapted to receive the tip of said iron therein when the latter is in a position extends across the top of said container, means for supporting said iron on said container in said position, means for conducting liquid from the said container into said shield for vaporizing by the heat from said tip, means connected with said shield for supporting said tip spaced within said shield.
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a tubular open-ended shield secured to said container and projecting laterally from said container, said shield being adapted to receive the tip of said iron therein When the latter is in a position extends across the top of said container,
  • a soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a tubular open-ended shield secured to said container and projecting laterally from said container, said shield being adapted to receive the 6 tip of said iron therein when the latter is in a position extends across the top of said container, means for supporting said iron on said container in said position, means for conducting liquid from said container into said shield for vaporizing by the heat from said tip, and a tubular screen within said shield for extending around said tip when the arm is in said position.

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  • Textile Engineering (AREA)
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Description

Oct. 2, 1951 5, WEDMQRE 2,570,041
SOLDERING IRON STAND Filed March 10, 1947 INVENTOR. (64201 lt ionokf M/ka mag Patented Oct. 2, 1951 UNITED STATES PATENT OFFICE 11 Claims.
This invention relates to a soldering iron stand and has for one of its objects the provision of a stand adapted to support a soldering iron during intervals between use, and which stand includes means for preventing scaling and oxidation of the tip.
Another object of the invention is the provision. of a stand for electric soldering irons that includes means for controlling the temperature of such irons and for preventing scaling of the tip.
currences has been to place the iron in a holder that dissipates the heat to a degree that tends to prevent overheating of the tip. Other methods include thermostatically controlled devices associated with the stands for regulating the temperature of the irons placed on the stands. However, insofar as I am aware said stands and devices do not prevent scaling, although they may tend to retard it.
With the present invention the temperature of the iron placed on the stand is maintained at the desired point and the tendency of the iron to scale is substantially eliminated.
Other objects and advantages will appear in the drawing and description.
In the drawings,
Fig. 1 is a side elevational view of the stand; partly in section.
Fig. 2 is a sectional view taken along line 2-2 of Fig. 1. i
Fig. 3 is a sectional View taken along line 3-3 of Fig. 2.
In detail, the stand illustrated comprises an elongated container I that is adapted to lie hori- "zontally on one of its sides when in use, the said container having a flat side 2 (Fig. 3 adapted to support the container in a stable position on a horizontal surface.
At one end of said container is a filling opening that is closed by a quick detach-able conventional closure cap 3 (Fig. 1) while the other end. P '6 is flat and adapted to support the container on ing perforated sides, said channel extending longitudinally of the container, I and centrally of .its upper side. This, channel 4 terminates at one end in a. cylindrical extension 5. that. projects to 'modate the stand to different irons. end I3 of the U-shaped wire is adapted to enone side of the container. The sides of said extension are imperforate and it is of a length to fully enclose the tip of a soldering iron (Fig. 1 when the shell I that encloses the heating element of a conventional electric soldering iron is in channel 4 adjacent the extension 5, and when the tubular shank 8 that connects between handle 9 and said shell 1 extends in channel member 4 across the top of container I.
The sides of channel member 4 are preferably of progressively decreasing height in a direction extending away from extension 5, and the end of th channel member 4 opposite extension 5 may almost come to a point at the bottom side of the channel adjacent end 4.
As above mentioned, the channel member 4 is preferably perforated, and in the portion of the sides of the channel that are adjacent extension 5, pairs of said perforations I0 may be in axial alignment in opposite sides of the channel member for receiving the oppositely outwardly directed ends I I of a generally U-shaped elongated wire, the legs of which are designated I2 (Fig. 2) and the closed end being designated I3.
The legs I2 preferably ext nd toward each other adjacent the ends I I as indicated at I4 for supporting the shell of the iron, and the ends II are positioned in the pair of aligned openings I0 that will position closed end I3 of the wire so that it will engage handle 9 when the tip 6 is in proper position enclosed within extension '5. Thus, end II may function to provide a stop and position indicator for the iron, and as the wire support may be so moved as to position end I I at different distances from extension 5, it will be, seen that means is provided to accom- The closed gage the shank 8 of the wire adjacent handle 9 to resist any tendency of the iron to tilt when in the position seen in Fig. 1, although a certain amount of tilt would not materially change the result accomplished.
A conduit I5 extends from a point adjacent the bottom 2 and cap 3 of the container to a point within extension 5, and a portion I6 of the conduit that is in extension 5 may extend above the bottom of the latter and have its upper side removed so that any liquid flowing into hem. his lay r may be f any su ta l no flammable material such as asbestos, spun glass, etc.
Within container I may be any suitable heat vaporizable antiscaling liquid, such as distilled water and bismuth-carbonate preferably in the ratio of about /2 pint of water to /2 teaspoonful of the bismuth-carbonate. Or valve oil and alcohol may be used or any other suitable antiscaling liquid of which there are a number.
In actual practice, the Wire in channel member 4 prevents the tip of the iron from contacting anything within extension 5, and heat from the iron will heat the conduit I5 that extends into the container causing sufficient evaporation of the liquid within the container to force liquid into portion i6 where it is vaporized, some overflowing for absorption by the porous material of the liner.
The vapors within extensions 5 surround the tip and are in engagement therewith, thus preventing oxidation and sealing of the tip. A transfer of heat to the vapors also occurs tending to prevent overheating of the tip.
Usually the operator merely tips the container, upon first using the stand so that some liquid will fiow into portion Hi to Wet the asbestos or other similar material held by the screen. Thereafter sufiicient moisture will automatically be supplied to produce the desired vapors.
The screen liner in extension 5 functions to tend to retain the vapors in the extension from escaping through the open ends, and it is very effective in performing this function.
When the stand is not in use, the operator may merely stand it on end for convenience, although it may be allowed to lie flat if desired.
It is to be understood that the detailed description and drawings are not intended to be restrictive of the invention, but are merely illustrative of a preferred form thereof.
I claim:
1. In combination with a container adapted to contain a supply of heat vaporizable antiscaling liquid, means for supporting a hot soldering iron adjacent said container for vaporizing said liquid in the said container and for creating a slight vapor pressure in said container, means for conducting liquid under said pressure to a point adjacent the tip of said iron for vaporizing said liquid at said point, a shield around said tip when supported on said first mentioned means for causing the vapors generated at said point to surround said tip in engagement therewith.
2. In combination with a container adapted to contain a supply of heat vaporizable antiscaling liquid, means for supporting a hot soldering iron adjacent said container for vaporizing said liquid in the said container and for creating a slight vapor pressure in said container, means for conducting liquid under said pressure to a point adjacent the tip of said iron for vaporizing said liquid at said point, a shield around said tip when supported on said first mentioned means for causing the vapors generated at said point to surround said tip in engagement therewith, said first mentioned means being adapted to support said iron with said tip in spaced relation to said shield.
3. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising.
4. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising, means for retaining said Vapors around said tip.
5. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising, means for retaining said vapors around said tip including a. cylindrical body of non-inflammable relatively porous material.
6. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising, an open-ended tube of perforated sheet material in which said tip is adapted to be inserted when on said member, said conduit opening at its discharge end into said tube.
7. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a member on said container for supporting said iron in a generally horizontally extending position with its tip offset to one side of said container but adjacent thereto, means for conducting liquid from said container to a point adjacent and below said tip for vaporization of said liquid at said point whereby said vapors will engage said tip upon rising, an open-ended tube of perforated sheet material in which said tip is adapted to be inserted when on said member, said conduit opening at its discharge end into said tube, and a tubular liner of screen ma-- terial within said tube.
8. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a tubular open-ended shield secured to said container and projecting laterally from said container, said shield being adapted to receive the tip of said iron therein when the latter is in a position extends across the top of said container, means for supporting said iron on said container in said position, means for conducting liquid from the said container into said shield for vaporizing by the heat from said tip.
9. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a tubular open-ended shield secured to said container and projecting laterally from said container, said shield being adapted to receive the tip of said iron therein when the latter is in a position extends across the top of said container, means for supporting said iron on said container in said position, means for conducting liquid from the said container into said shield for vaporizing by the heat from said tip, means connected with said shield for supporting said tip spaced within said shield.
10. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a tubular open-ended shield secured to said container and projecting laterally from said container, said shield being adapted to receive the tip of said iron therein When the latter is in a position extends across the top of said container,
means for supporting said iron on said container in said position, means for conducting liquid from the said container into said shield for vaporizing by the heat from said tip, means connected with said shield for supporting said tip spaced within said shield, and a relatively porous liner within said shield for tending to retain said vapors Within said shield and around said tip.
11. A soldering iron stand comprising a container for a heat vaporizable anti-scaling liquid, a tubular open-ended shield secured to said container and projecting laterally from said container, said shield being adapted to receive the 6 tip of said iron therein when the latter is in a position extends across the top of said container, means for supporting said iron on said container in said position, means for conducting liquid from said container into said shield for vaporizing by the heat from said tip, and a tubular screen within said shield for extending around said tip when the arm is in said position.
HARDIN S. WEDMORE.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 815,313 Sweeney -1. Mar. 13, 1906 851,865 Conant Apr. 30, 1907 919,710 Gero Apr. 27, 1909 1,401,514 Blake Dec. 27, 1921 1,497,104 Lamb -1 June 10, 1924 1,908,055 Riley May 9, 1933 1,996,564 Blanchet Apr. 2, 1935 2,103,709 Cann Dec. 28, 1937 2,289,890 Walter July 14, 1942 2,308,089 Neal Jan. 12, 1943 2,338,433 Holden Jan. 4, 1944
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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3705680A (en) * 1970-06-08 1972-12-12 William Jordan Siegel Tool holder
US3948678A (en) * 1974-01-07 1976-04-06 John Dezzani Solder iron dressing system having a teflon packing
US3990623A (en) * 1975-03-28 1976-11-09 Fortune William S Holder system for soldering instrument
US4118821A (en) * 1977-05-13 1978-10-10 American Electrical Heater Company Device for cleaning soldering iron tips
FR2570628A1 (en) * 1984-09-21 1986-03-28 Elvo Elektronik Ag DEVICE FOR CLEANING SOLDERING IRON FAULTS
US4762979A (en) * 1986-12-04 1988-08-09 Geoffroi Louis E G Holder for holding an electric soldering iron in a use or a standby/storage position
US20100084455A1 (en) * 2008-10-06 2010-04-08 Inventec Corporation Soldering iron device, soldering iron control module and soldering control method thereof
US20170238602A1 (en) * 2014-10-08 2017-08-24 British American Tobacco (Investments) Limited Adhesive Transfer System

Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US815313A (en) * 1905-02-13 1906-03-13 Pacific Surgical Mfg Company Portable sterilizing apparatus.
US851865A (en) * 1905-06-30 1907-04-30 Briscoe Mfg Co Tool-heating furnace.
US919710A (en) * 1908-05-28 1909-04-27 Alphonse J Gero Sterilizer.
US1401514A (en) * 1919-03-12 1921-12-27 Blake James Soldering-furnace
US1497104A (en) * 1923-07-21 1924-06-10 Erwin H Lamb Soldering-iron heating furnace
US1908055A (en) * 1932-10-20 1933-05-09 Herbert E Riley Fumigator
US1996564A (en) * 1934-01-05 1935-04-02 Ovila J Blanchet Furnace sealing device and gas control
US2103709A (en) * 1931-12-05 1937-12-28 Harry E Cann Sterilizer
US2289890A (en) * 1939-02-02 1942-07-14 Carl W Walter Cleaning and sterilizing instruments and other articles
US2308089A (en) * 1941-04-05 1943-01-12 Archie W Mcclary Bung opening construction
US2338433A (en) * 1941-09-12 1944-01-04 Artemas F Holden Salt bath for heating soldering irons

Patent Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US815313A (en) * 1905-02-13 1906-03-13 Pacific Surgical Mfg Company Portable sterilizing apparatus.
US851865A (en) * 1905-06-30 1907-04-30 Briscoe Mfg Co Tool-heating furnace.
US919710A (en) * 1908-05-28 1909-04-27 Alphonse J Gero Sterilizer.
US1401514A (en) * 1919-03-12 1921-12-27 Blake James Soldering-furnace
US1497104A (en) * 1923-07-21 1924-06-10 Erwin H Lamb Soldering-iron heating furnace
US2103709A (en) * 1931-12-05 1937-12-28 Harry E Cann Sterilizer
US1908055A (en) * 1932-10-20 1933-05-09 Herbert E Riley Fumigator
US1996564A (en) * 1934-01-05 1935-04-02 Ovila J Blanchet Furnace sealing device and gas control
US2289890A (en) * 1939-02-02 1942-07-14 Carl W Walter Cleaning and sterilizing instruments and other articles
US2308089A (en) * 1941-04-05 1943-01-12 Archie W Mcclary Bung opening construction
US2338433A (en) * 1941-09-12 1944-01-04 Artemas F Holden Salt bath for heating soldering irons

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3705680A (en) * 1970-06-08 1972-12-12 William Jordan Siegel Tool holder
US3948678A (en) * 1974-01-07 1976-04-06 John Dezzani Solder iron dressing system having a teflon packing
US3990623A (en) * 1975-03-28 1976-11-09 Fortune William S Holder system for soldering instrument
US4118821A (en) * 1977-05-13 1978-10-10 American Electrical Heater Company Device for cleaning soldering iron tips
FR2570628A1 (en) * 1984-09-21 1986-03-28 Elvo Elektronik Ag DEVICE FOR CLEANING SOLDERING IRON FAULTS
US4762979A (en) * 1986-12-04 1988-08-09 Geoffroi Louis E G Holder for holding an electric soldering iron in a use or a standby/storage position
US20100084455A1 (en) * 2008-10-06 2010-04-08 Inventec Corporation Soldering iron device, soldering iron control module and soldering control method thereof
US7950564B2 (en) * 2008-10-06 2011-05-31 Inventec Corporation Soldering iron device, soldering iron control module and soldering control method thereof
US20170238602A1 (en) * 2014-10-08 2017-08-24 British American Tobacco (Investments) Limited Adhesive Transfer System

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