US2544137A - Fire extinguisher - Google Patents

Fire extinguisher Download PDF

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Publication number
US2544137A
US2544137A US769654A US76965447A US2544137A US 2544137 A US2544137 A US 2544137A US 769654 A US769654 A US 769654A US 76965447 A US76965447 A US 76965447A US 2544137 A US2544137 A US 2544137A
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valve
inhibitor
container
air
chemical
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US769654A
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Elmer E Cyphert
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    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62CFIRE-FIGHTING
    • A62C13/00Portable extinguishers which are permanently pressurised or pressurised immediately before use
    • A62C13/003Extinguishers with spraying and projection of extinguishing agents by pressurised gas

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  • a My present invention relates to an improved fire extinguisher of the type embodying an air cylinder and a liquid chemical cylinder with valve apparatus and controls therefor so that in case of need the air under pressure may be introduced to the chemical outlet valve to discharge the same under pressure and is an improvement over the structure ydescribed and claimed in Patent No. 1,782,083.
  • Fig. 1 is a front lelevational view of the improved extinguisher with parts broken away ⁇ for clarity of observation.
  • Fig. 2 is a similar View with the valve actuating lever in valve opening position.
  • Fig. 3 fis a top -plan View.
  • Fig. 4 is a horizontal sectional ⁇ view through the valve structure.
  • Fig. 5 is Va sectional View at line 5-5 of Fig. 3.
  • Fig. -6 - is an enlarged detailed sectional view of the filling mechanism of the inhibitor.
  • a pump cylinder I2 is located between the cylinders 8 and I0 and is actuated by pump rod I4 having handle I6.
  • the cover I8 has sockets 20 and 22 on the air and chemical cylinders in air-tight relation and on this cover is provided the valve apparatus comprising the valve casings 24 and 26 having valve seats 28 and 38 and ports 32 and 34 communicating respectively with the air and gas cylinders, and passage 36 connecting these ports.
  • Needle valves 38 'and 40 control the valve ports and the ends of the valve stems 42 and 44 are secured in lever 46 and link 48 pivotally connected by link 50 so that the valves are simultaneously opened or yclosed as the lever is moved to its selected positions.
  • Packing glands 52 seal the valve stems, and the valve 54 having lever 55 permits the charging of the air cylinder from another source Such as a lling station compressor.
  • the pressure gauge 56 shows readily the air pressure in the air cylinder and the window 58 in the chemical cylinder shows the level of the contents.
  • I provide a tube 60 depending from the cover and aligned with the additional Apor-t 33 within the air cylinder and spaced from the bottom thereof.
  • the upper end of the rod ⁇ has a hollow plunger 1,6 the open end .of which is closed lwith a cap f1.8 urged upwardly to valve closing v4position by ⁇ vspr-ing l80 seated in the recess 82 .of .collar 84.
  • the cap of the plunger is vlocated in the path of movement ⁇ of the lever 46 as it is swung to valve opening position and as 'it bears ⁇ on the cap and rod ⁇ against the spring tension the valve is opened allowing the gas inhibitor in the tube V64 to discharge through port 68 to mix with the compressed air and vent through tube 60 to discharge -the chemical 'in conventional fashion.
  • the tube When 'the-inhibitor is exhausted the tube may be refilled by removing ⁇ cap 13 and Ypouring the fresh supply through the hollow plunger to pass th-roughipor-t 86 into the tube 64.
  • Hose 88 directs the mixture as desired and plug 9
  • the ipresent device operates in the same manner as described in my above mentioned patent and the addition of the inhibitor tube 64 does not aiect the operation.
  • the chemical charge for this device will be a two package charge furnished with complete 3 lling instructions.
  • the inhibitor charge will be poured in through the inhibitor tube.
  • the vaporizing liquid will be poured into the chemical chamber.
  • the application is for automatic chemical inhibitor and not for the inhibitor itself.
  • the inhibitor tube is filled with ammonium hydroxide and this material is brought into contact with vaporizing liquid when the machine is placed in operation the ammonium hydroxide will neutralize any hydrochloric acid or other decomposition products which might be formed in the device.
  • a fire extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position.
  • a re extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position, and means for charging the container through the valve rod.
  • a re extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a pick up tube in the cylinder in communication with the air cylinder valve, a valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position.
  • a re extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a spring-pressed valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position, and means for charging the container through the valve rod.
  • a fire extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a pick up tube in the cylinder in communication with the air cylinder valve, a springpressed valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position, and means for charging the container through the valve rod.
  • a fire extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a valve for the container, and a valve rod having a plunger and cap in the container extending through the head and in the path of movement of the lever when moved to valve opening position.
  • a re extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a spring-pressed valve for the container, and a valve rod having a plunger and cap in the container extending through the head and in the path of movement of the lever when moved to valve opening position.

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  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Fire-Extinguishing By Fire Departments, And Fire-Extinguishing Equipment And Control Thereof (AREA)

Description

March 6, 1951 Filed Aug. 20, 1947 E. E. CYPHERT 2,544,137
FIRE EXTINGUISHER v2 Sheets-Sheet 1 ATTCI RN EYE March 6, 1951 E. E. CYPHERT FIRE EXTINGUISHER 2 Sheets-Sheet 2 Filed Aug. 20, 1947 INVENTR 7257. Cyp/3er? Elms Patented Mar. 6, 1951 'UNITED S TAT PAT O FEICE 2,544,137 FIRE EXTINGUISHER Elmer E. Gyphert, Norwalk? Ohio Application August 20, 1947, serial No. 769,654
8 Claims. l
a My present invention relates to an improved fire extinguisher of the type embodying an air cylinder and a liquid chemical cylinder with valve apparatus and controls therefor so that in case of need the air under pressure may be introduced to the chemical outlet valve to discharge the same under pressure and is an improvement over the structure ydescribed and claimed in Patent No. 1,782,083. Y
It has been found that while the extinguisher of that patent is wholly satisfactory in its .construction and operation, occasions arise from the use of certain chemicals where noxious and toxic gases may be formed when the air discharged chemical is subject to the heat of re, and for that reason I have added to the patent a structure whereby an inhibitor for such gases is injected into the air land gas stream to neutralize the gases without affecting the operation or vthe ability of the. structure to extinguish fires.
In the accompanying drawings I have illustrated one complete example of the physical Yembodiment of my invention according to the best mode I have `thus far devised, but it will be understood that various changes and alterations may be made in the exemplified structure within the scope of the appended claims.
In the drawings:
Fig. 1 is a front lelevational view of the improved extinguisher with parts broken away `for clarity of observation.
Fig. 2 is a similar View with the valve actuating lever in valve opening position.
Fig. 3 fis a top -plan View.
Fig. 4 is a horizontal sectional `view through the valve structure.
Fig. 5 is Va sectional View at line 5-5 of Fig. 3.
Fig. -6 -is an enlarged detailed sectional view of the filling mechanism of the inhibitor.
Referring now to the drawings I have illustrated the device of my invention embodied in the fire extinguisher including the base 2 having spaced sockets 4 and 6 for the air cylinder 8 and the chemical cylinder IIJ.
A pump cylinder I2 is located between the cylinders 8 and I0 and is actuated by pump rod I4 having handle I6.
The cover I8 has sockets 20 and 22 on the air and chemical cylinders in air-tight relation and on this cover is provided the valve apparatus comprising the valve casings 24 and 26 having valve seats 28 and 38 and ports 32 and 34 communicating respectively with the air and gas cylinders, and passage 36 connecting these ports.
Needle valves 38 'and 40 control the valve ports and the ends of the valve stems 42 and 44 are secured in lever 46 and link 48 pivotally connected by link 50 so that the valves are simultaneously opened or yclosed as the lever is moved to its selected positions. Packing glands 52 seal the valve stems, and the valve 54 having lever 55 permits the charging of the air cylinder from another source Such as a lling station compressor.
The pressure gauge 56 shows readily the air pressure in the air cylinder and the window 58 in the chemical cylinder shows the level of the contents.
According to my invention I provide a tube 60 depending from the cover and aligned with the additional Apor-t 33 within the air cylinder and spaced from the bottom thereof.
Also in the air cylinder I provide `a collar 62 threaded to receive the tube =64 having Vits lower `end closed by disk 66 formed with a Icentral port 68 tapered at -l to -seat v'the tapered valve 1'2 on valve rod I4. The upper end of the rod `has a hollow plunger 1,6 the open end .of which is closed lwith a cap f1.8 urged upwardly to valve closing v4position by `vspr-ing l80 seated in the recess 82 .of .collar 84.
The cap of the plunger is vlocated in the path of movement `of the lever 46 as it is swung to valve opening position and as 'it bears `on the cap and rod `against the spring tension the valve is opened allowing the gas inhibitor in the tube V64 to discharge through port 68 to mix with the compressed air and vent through tube 60 to discharge -the chemical 'in conventional fashion.
When 'the-inhibitor is exhausted the tube may be refilled by removing `cap 13 and Ypouring the fresh supply through the hollow plunger to pass th-roughipor-t 86 into the tube 64. Hose 88 directs the mixture as desired and plug 9|] lpermits vthe relling of `the chemical cylinder l0.
The ipresent device operates in the same manner as described in my above mentioned patent and the addition of the inhibitor tube 64 does not aiect the operation.
In other words when the operating lever 46 is moved to start the discharge of the chemical, the inhibitor control valve 12 is moved to allow the liquid in the inhibitor tube to ow into the air chamber, the air pressure carries the iluid up through the pickup tube 60 through the passage 36 in the top casting and down into the liquid chamber.
The chemical charge for this device will be a two package charge furnished with complete 3 lling instructions. The inhibitor charge will be poured in through the inhibitor tube. The vaporizing liquid will be poured into the chemical chamber.
After the machine is charged the operation of the device will be the same as above described by simply pulling up the operating lever the machine will start to discharge.
In this specic type of the inhibitor used or the eiects gained by the inhibitor do not have any relation with regard to the application as described, in other words the application is for automatic chemical inhibitor and not for the inhibitor itself. However, if for instance the inhibitor tube is filled with ammonium hydroxide and this material is brought into contact with vaporizing liquid when the machine is placed in operation the ammonium hydroxide will neutralize any hydrochloric acid or other decomposition products which might be formed in the device.
Thus the gases as set forth in the objects of the invention will be neutralized Without electing the operation of the device.
From the above description of the extinguisher and the inhibitor injecting device of my invention it will be apparent that the discharge of the inhibiting matter may be accomplished simply and with existing apparatus including the valve control lever so that if necessary, pressure on the pivoted lever will open the inhibitor valve and the air under pressure will pick up the inhibitor and mix it with the air and chemical mixture.
Having thus fully described my invention what I claim as new and desire to secure by Letters Patent is:
1. In a fire extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position.
2. In a fire extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a spring-pressed valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position.
3. In a re extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position, and means for charging the container through the valve rod.
4. In a re extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a pick up tube in the cylinder in communication with the air cylinder valve, a valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position.
5. In a re extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a spring-pressed valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position, and means for charging the container through the valve rod.
6. In a lire extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a pick up tube in the cylinder in communication with the air cylinder valve, a springpressed valve for the container, and a valve rod in the container extending through the head and in the path of movement of the lever when moved to valve opening position, and means for charging the container through the valve rod.
7. In a lire extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a valve for the container, and a valve rod having a plunger and cap in the container extending through the head and in the path of movement of the lever when moved to valve opening position.
8. In a re extinguisher having valved air and chemical cylinders, a head for the cylinders and an actuating lever for the valves, the improvement comprising an inhibitor container in the air cylinder, a spring-pressed valve for the container, and a valve rod having a plunger and cap in the container extending through the head and in the path of movement of the lever when moved to valve opening position.
ELMER E. CYPHERT.
REFERENCES CITED The following references are of record in the le of this patent:V
UNITED STATES PATENTS Number Name Date 1,782,083 Wilcox Nov. 18, 1930 2,219,096 Tomkin Oct. 22, 1940 2,335,901 Ayers, Jr Dec. '7, 1943
US769654A 1947-08-20 1947-08-20 Fire extinguisher Expired - Lifetime US2544137A (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1782083A (en) * 1927-10-11 1930-11-18 Firex Extinguisher Company Fire extinguisher
US2219096A (en) * 1938-09-17 1940-10-22 Abraham E Tomkin Fire extinguisher
US2335901A (en) * 1939-12-19 1943-12-07 United Aircraft Corp Corrosion inhibitor

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1782083A (en) * 1927-10-11 1930-11-18 Firex Extinguisher Company Fire extinguisher
US2219096A (en) * 1938-09-17 1940-10-22 Abraham E Tomkin Fire extinguisher
US2335901A (en) * 1939-12-19 1943-12-07 United Aircraft Corp Corrosion inhibitor

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