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US2593165A - Aerosol insecticide bomb - Google Patents

Aerosol insecticide bomb
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US2593165A
US2593165AUS52034AUS5203448AUS2593165AUS 2593165 AUS2593165 AUS 2593165AUS 52034 AUS52034 AUS 52034AUS 5203448 AUS5203448 AUS 5203448AUS 2593165 AUS2593165 AUS 2593165A
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bomb
valve
gas
pressure
carbon dioxide
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Floyd J Metzger
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April 15, 1952 METZGER 2,593,165
AEROSOL INSECTICIDE BOMB Filed Sept. 30, 1 948 F IG.I
x v 11 r L :1
ATTORNEY Patented Apr. 15, *1952 UNITED STATES PATENT OFFICE 2,593,165 7 AEROSOL INSECTICIDE BOMB Floyd J. Metzger, New York, N. Y.
Application September 30, 1948, Serial No. 52,034 20mins. (Cl. 299-95 This invention relates to aerosol insecticide bombs, and particularly to improvements therein whereby filling of the bomb is accomplished readily so that the bomb 'may be used repeatedly.
Aerosol bombs containing solutions of insecticides and insectifuges are well known. The bomb mustbe made of metal of substantial strength to withstand internal pressure. form, these bombs are discarded after the contents are discharged, a wasteful procedure, since the bomb container is relatively expensive. Refillable bombs have been developed, but these must be returned to the factory for charging, thus involving another economic waste.
Moreover, the solutions used in aerosol bombs are not adapted to effect the best results and are in fact harmful when applied to plant life and to other materials. The usual solvent employed is difluorodichloromethane, commonly known as Freon 12. Freon is not a good solvent for the active agents. It is necessary, therefore, to add or more of a solvent such as a hydrocarbon oil in which the active agents are soluble. Such oils are objectionable because they stain objects upon which the spray is directed. Also, such a except with special equipmentand by persons skilled in handling such material.
It is the object of the present invention to provide an improved aerosol insecticide bomb which can be refilled with solutions of insecticides or insectifuges and charged with a gas such as carbon dioxide under pressure.
Other objects and advantages of the invention will be apparent as it is better understood by reference to the following specification and the accompanying drawing, in which Fig. l is a longitudinal section through an aerosol bomb embodying my invention;
Fig. 2 is a plan view of the release mechanism for the bomb;
Fig. 3 is a section on theline 3--3 of Fig. 2;
Fig. 4 is a section on the line 4-4 of Fig. l; and
Fig. 5 is a section on the line 5--5 of Fig 4.
I have discovered that excellent results can be obtained by dissolving the active agents in a simple solution such as acetone, which is liquid at atmospheric temperature and pressure. Such a solution may be introduced readily to a suitable container or bomb by anyone without the use of special apparatus or skill. To afford the pressure In the common necessary to expel the solution as a spray, the solution in the container or bomb is charged with a gas such as carbon dioxide. This is easily accomplished by using a capsule containing liquid carbon dioxide which'is available in commerce. The capsule is-punctured by means attached to the container or bomb and the gas is introduced to the solution through a check valve which prevents escape of the gas when the capsule is exhausted. The gas thus introduced affords sulficient pressure within the container or bomb to expel the liquid when the outlet valve is released and the spray can be directed to the place of application. The solution carrying the active ingredients is thus discharged until the pressure is exhausted. Thereupon the container or bomb can be opened and recharged with the solution and with the gas as often as may be required.
The solvents such as acetone are harmless to plant life, do not stain materials to which the spray is applied, and otherwise are harmless. Because of the content of carbon dioxide in the spray, the resulting vapors are non-inflammable. even though the solvent itself may be inflammable. Thus the insecticide bomb affords numerous advantages over bombs as heretofore known.
Nevertheless it is both inexpensive and quite as effective as any of such devices.
Any insecticide or insectifuge which is soluble in the solvents employed may be utilized. Those commonly used are pyrethrins, rotenone, piperine (extract of black pepper) and dichlorodiphenyl trichlorethane, commonly known as DDT. These active agents and others of a similar nature, as well as mixtures thereof, may be utilized in accordance with my invention.
As a solvent for the active agents, I utilize materials which are liquids at normal atmospheric pressure and temperature but have low boiling points, i. e., below C. at normal atmospheric pressure, and high vapor pressures, i. e. above 50 mm. Hg at 20 C., so that the liquids evaporate with great rapidity when discharged in the form of fine spray into the atmosphere. The following examples of suitable solvents will illustrate the type of solvents to which I refer:
These solvents are relatively pure chemical compounds readily obtainable in commerce and relatively cheap. They leave no measurable residues when evaporated and do not injure materials or vegetation to which the composition may be applied.
The selected active agents are dissolvedin the selected solvent. Since they are readily' soluble, it is not necessary to add oils such as petroleum oils in order to maintain the solutions. The solution is then introduced to the bomb, which is thereafter charged with carbon dioxide to the desired pressure resulting from discharge into the bomb of carbon dioxide from standard capsules containing approximately 8 to 9 grams or more of liquid carbon dioxide. The bomb is then ready for use.
The carbon dioxide serves several purposes. First, the pressure forces the liquid through a pipe extending from a point adjacent the bottom of the bomb to the orifice, and thence through the orifice when the valve is released, thereby .spraying the liquid into the atmosphere in a finely divided form. Second, the carbon dioxide is quite freely soluble in the solvents employed and, because of the large amount of dissolved carbon dioxide, the stream or spray issues with explosive force, thereby atomizing the spray into an extremely fine state of subdivision which is fog-like in appearance. Third, the presence of such large proportions of carbon dioxide in the vapors as they issue from the bomb makes the jet non-inflammable even though the solvent may be inflammable.
- Another advantage of the compositions as described is that the solvents employed have low boiling points and highvapor pressures at ordinary atmospheric temperatures and pressures, and therefore evaporate with great rapidity. The spray can be directed upon any surface without leaving an oily residue, and it is particularly desirable in spraying vegetation, since there is no oily residue to injure plants.
Referring to the drawing, indicates a container or bomb which may be made of metal having sufficient strength to withstand the internal pressure. It should be noted that pressures such as those resulting from the use of Freon are not attained in the use of the present inventiomand consequently a bomb of much lighter metal may be used. The precise form of the container 5 is unimportant, but it is preferably cylindrical, withdished ends 6 and I securely held to seal the ends of the bomb. Conveniently ahandle 8 may be provided to facilitate the use of the bomb.
Thehead 6 is provided with an inlet opening 9 which is sealed by acap 10 threadedly or otherwise secured to facilitate filling of the bomb.
The filling opening 9 may be disposed in the dishedend 6 or otherwise.
A tube ll extends from a point adjacent the edge of the dishedend 1 through the dishedend 6, being threadedly or otherwise mounted in an opening in thedished end 6 and held by a nut or boss I2. This tube ensures discharge of all of the liquid under-pressure in the bomb. Connected to the end of the tube II is a nipple l3 containing the outlet valve mechanism. Any suitable valve may be used, but conveniently an ordinary air tire valve will serve the purpose. As shown in Fig. 3, such a valve comprises a stem M loosely and slidably supported in a member which is threadedly mounted in the nipple l3 and carries a valve l6 co-operating with a seat H. The end of the stem I4 is loosely mounted in a spacing member I8 which rests on the bottom IQ of thenipple I 3. A spring is disposed between a shoulder 2| on the spacing member l8 .and a 4valve member 22 which is adapted to engage aseat 23. Thevalve member 22 normally is held closed by thespring 20. However, when the stem I4 is depressed, thevalve member 22 ,is carried away from the seat, permitting flow of fluid upwardly through the valve and around the stem [4. The fluid in the present case is discharged through acapillary passage 24 in the form of a fine spray.
To actuate the stem [4, alever 25 is pivoted at 26 in abracket 21 and has a dependingportion 28 engaging adiaphragm 29 which seals the upper end of the nipple l3. When thelever 25 is depressed, thediaphragm 29 and the stem l4 are similarly depressed to permit escape of the fluid from the bomb through thecapillary passage 24. Thus the spray may "be directed upon the surfaces or into the space desired.
In order to permit charging of the bomb witha gas under pressure such as carbon dioxide, anipple 30 is threadedly or otherwise secured to the dishedend 1 and held by acap 3| within the bomb. Threadedly mounted within thenipple 30 is amember 32 having anextension 33 which is hollow and is provided with a sharpenedend 34. Avalve member 35 of rubber or similar material is mounted above themember 32 and is provided with a minute slit or opening 36 which permits the inward passage of gas under pressure but prevents return flowof the gas because the resiliency of the rubber causes theslit 39 to close whenever the pressure of the entering gas falls below the pressure of the gas within the bomb. Aferrule 31 of rubber or othersuitablematerial is disposed in the nipple on the opposite side of themember 32 and is held in place by asplit ring 38.
Amember 39, havingwings 40 and a recess for acapsule 4| is adapted to threadedly engage thenipple 39. The capsule 4i rests in the recess and is'held by theabutment 42 at the end of themember 39. Thus, as themember 39 is turned on thenipple 30, it is forced inwardly and themember 32 pierces a diaphragm at the end of thecapsule 4|, permitting discharge of the liquid carbon dioxide under pressure through themember 33 and the opening or slit 36 into the interior of the bomb, thereby charging the liquid contents with the gas.
In utilizing the device, the cap I0 is first removed and the bomb is nearly filled with the previously prepared solution of the active agents in the solvent. The cap is then replaced and themember 39, with thecapsule 4| .therein, is manipulated to introduce the gas under pressure to the solution. When the capsule is completely discharged, themember 39 may be separated from the bomb, which is then ready for use. By depressing the lever- 25, the solution may be discharged in the manner hereinbeforeindicated.
Various changes may be made in the details of the construction and arrangement of the parts without departing from .the invention or sacrificing the advantages thereof.
Iclaim:
1. An aerosol insecticide bomb comprising a receptacle having upper and lower ends and a filling opening, a closure for the filling opening, an outlet tube extending .through the upper end and to a point adjacent the lower end within the receptacle, a valve within said tube, a flexible diaphragm extending entirely across and sealing the upper end of said tube, means positioned outwardly of the diaphragm and acting against the outer side thereof for actuating the valve, said tube having a capillary opening between the 2. An aerosol insecticide bomb as defined inclaim 1 in which the valve means of the inlet connection comprises a resilient member inwardly of the piercing member and having a slit to permit the passage of a gas from a capsule of liquefied gas into the receptacle, and pressure within the receptacle normally acts on the resilient member to maintain the slit closed against backward fiow of contents of the receptacle through the slit.
FLOYD J. METZGER.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date Altmann Nov. 21, 1933 Campbell .Jan. 22, 1935 Seat Oct. 8, 1935 Iddings Feb. 9, 1937 Brewer Dec. 5, 1939 Smith -May 5, 1942 Threm Sept. 7, 1943 Ward June 13, 1944 Goodhue Dec. 17, 1946 Simanton Jan. 12, 1951
US52034A1948-09-301948-09-30Aerosol insecticide bombExpired - LifetimeUS2593165A (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2910391A (en)*1954-07-281959-10-27Ohio Commw Eng CoMethod of applying aerosol detergent fog
US3110422A (en)*1960-06-271963-11-12Jr Earl J BeckEngine starting device
US3111269A (en)*1962-04-091963-11-19Minnesota Mining & MfgNozzle
US3189405A (en)*1962-03-061965-06-15Robert A FultonDecontaminating device and fog generator
US3243085A (en)*1962-07-051966-03-29Reynolds Metals CoDispensing container having a gas pressure container therein
US3244331A (en)*1964-01-241966-04-05Robert N KharaschDisposable single charge aerosol capsule
US3404811A (en)*1966-12-021968-10-08Cernei JoseContainer for maintaining in separate condition liquids which are to be mixed together and which may be manipulated to commingle such liquids
WO1983000316A1 (en)*1981-07-271983-02-03SZABO, MiklósDevice for discharging pourable material from closed space by means of gas of over-atmospheric pressure
US4737320A (en)*1985-01-281988-04-12Rothschild Bertram PCarbonating head
EP2300354A4 (en)*2008-05-132013-04-10Primepak Mfg Pty LtdDispensing of fluids

Citations (10)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US1935973A (en)*1929-03-181933-11-21Altmann MaxHand apparatus for mouth or dental treatment
US1988979A (en)*1932-10-131935-01-22Campbell Robert HunterDental spraying apparatus
US2016301A (en)*1933-08-091935-10-08Seat Jay LawrenceFire extinguisher
US2070167A (en)*1932-09-231937-02-09Iddings CarlMethod of making liquid sprays
US2182742A (en)*1936-12-091939-12-05Sparklets LtdSpraying apparatus for dental, medical, and like purposes
US2281604A (en)*1936-04-241942-05-05Aeration Processes IncContainer for holding liquid under pressure
US2328863A (en)*1941-08-111943-09-07Threm William BernardControllable charging head
US2351376A (en)*1941-07-071944-06-13Knapp Monarch CoSpraying device
US2412728A (en)*1943-12-081946-12-17NasaDevice for producing aerosols
US2536231A (en)*1945-01-111951-01-02Gulf Research Development CoApparatus for producing air-borne particles of insecticide

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US1935973A (en)*1929-03-181933-11-21Altmann MaxHand apparatus for mouth or dental treatment
US2070167A (en)*1932-09-231937-02-09Iddings CarlMethod of making liquid sprays
US1988979A (en)*1932-10-131935-01-22Campbell Robert HunterDental spraying apparatus
US2016301A (en)*1933-08-091935-10-08Seat Jay LawrenceFire extinguisher
US2281604A (en)*1936-04-241942-05-05Aeration Processes IncContainer for holding liquid under pressure
US2182742A (en)*1936-12-091939-12-05Sparklets LtdSpraying apparatus for dental, medical, and like purposes
US2351376A (en)*1941-07-071944-06-13Knapp Monarch CoSpraying device
US2328863A (en)*1941-08-111943-09-07Threm William BernardControllable charging head
US2412728A (en)*1943-12-081946-12-17NasaDevice for producing aerosols
US2536231A (en)*1945-01-111951-01-02Gulf Research Development CoApparatus for producing air-borne particles of insecticide

Cited By (10)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2910391A (en)*1954-07-281959-10-27Ohio Commw Eng CoMethod of applying aerosol detergent fog
US3110422A (en)*1960-06-271963-11-12Jr Earl J BeckEngine starting device
US3189405A (en)*1962-03-061965-06-15Robert A FultonDecontaminating device and fog generator
US3111269A (en)*1962-04-091963-11-19Minnesota Mining & MfgNozzle
US3243085A (en)*1962-07-051966-03-29Reynolds Metals CoDispensing container having a gas pressure container therein
US3244331A (en)*1964-01-241966-04-05Robert N KharaschDisposable single charge aerosol capsule
US3404811A (en)*1966-12-021968-10-08Cernei JoseContainer for maintaining in separate condition liquids which are to be mixed together and which may be manipulated to commingle such liquids
WO1983000316A1 (en)*1981-07-271983-02-03SZABO, MiklósDevice for discharging pourable material from closed space by means of gas of over-atmospheric pressure
US4737320A (en)*1985-01-281988-04-12Rothschild Bertram PCarbonating head
EP2300354A4 (en)*2008-05-132013-04-10Primepak Mfg Pty LtdDispensing of fluids

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