Classifications

• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
  • A61M11/00—Sprayers or atomisers specially adapted for therapeutic purposes

Definitions

• nebulizer Recognizing the need for a device to alter the moisture content of the air in the immediate area of the performer or speaker, we have designed a lightweight and convenient nebulizer or humidifier which attaches directly to a microphone by means of an attaching device such as a hook and loop fabric strap.
• the nebulizer is a small cylindrical shaped device w hich, because of its shape and light weight, goes almost unnoticed by the performer when attached to the micrcgtere.
• the carbon dioxide gas which serves as a nebulizer to the distilled water in this device also propels it outward to form a plume of moist air which is invisible except with strong back-lighting.
• the gas comes in a cartridge which powers the device from two to four hours deending en the setting of the mist control.
• the quantity of distilled water equals the carbon dioxide gas supply in that it will last from two to four hours, also depending upon the setting of the mist control. Refilling the water supply and changing the cartridge is a fast and easy procedure.
• Fig. 1 is a perspective view of an entertainer using the invention attached to a microphone
• Fig. 2 is a front and elevational view of the external features of this invention.
• Fig. 3 is a longitudinal cross-sectional view of the invention showing the internal workings
• Fig. 4 is an enlarged fragmentary longitudinal sectional view of the emitter portion of this invention.
• Fig. 5 is an even greater enlarged fragmentary longitudinal sectional view of the helical coil and absorbent disks forming the emitter portion of this invention
• Fig. 6 is a top view of the absorbent fabric disk used in this invention.
• Fig. 7 is an enlarged fragmentary longitudinal sectional view of the valve portion of this invention.
• Fig. 8 is ai exploded view of the invention.
• Fig. 9 is ai enlarged, fragmentary perspective view of the knurled filter of this invention taken frcm the section labelled 9-9 of Fig. 7.
• FIG. 1 a perspective view of the nebulizer 10 is attached to the handle 11 of a microphone 12 and in use by an entertainer 14.
• This figure illustrates the relative size and positioning of the nebulizer 10 on the microphone handle 11.
• the hand 13 of the entertainer 14 ca nfortably fits around both the nebulizer 10 and the microphone handle 11.
• the exact placement of the nebulizer 10 can vary with the personal preference of the individual performer although generally placement of this device is en the ugper surface of the microphone handle 11 with the face cap 15 located slightly below the sensitive portion 16 of the microphone 12.
• the nebulizer is located as close to the null region at the rear of the microphone as possible. This positioning of the nebulizer 10 contributes to a more effective dispersion of the mist emitted by this device into the facial region 17 of a performer where it is needed.
• Fig. 2 illustrates the external features of this device.
• the major portion of the nebulizer 10 is made up a main body 20 which houses a distilled water reservoir 21 and various emitting elements all of which are shown in Fig. 3.
• a reservoir filler cap 22 which provides easy access to refill the reservoir 21 located within the main body 20.
• the nebulizer 10 uses only distilled or deionized water to insure that the mist emitted fr ⁇ n this device is free from contaminants as well as to avoid clogging of the device due to particle build up.
• a chrome face cap 15 Located en the anterior portion of the nebulizer 10 is a chrome face cap 15 which helps to protect the internal working elements of the emitter portion of the device.
• the chrome face cap 15 also serves to eliminate a small amount of side spray of the mist by directing the spraf outward.
• an internal valve body 23 is seen Directly adjacent to the main body 20 a small portion of an internal valve body 23 is seen. Next to the internal valve body 23 an external knurled valve body 24 is found. The external valve body 24 is knurled because rotation of this part opens and closes an internally located valve.
• Manipulation of the external valve 24 allows the adjustment of the density and quality of the mist emitted from the nebulizer 10 due to the threaded relationship which exists between the nebulizer body 20 and valve body 23.
• the knurled texture maintains a sure grip while rotating the valve body 24.
• a polished section 25 separates and identifies the external valve body 24 and a knurled end cap 26.
• the end cap 26 also is threaded to the external valve body 24.
• the end cap 26 serves to hold a carbon dioxide (CO 2 ) cartridge or cylinder but is not involved in the adjustmait of the mist emitted from the nebulizer 10.
• CO 2 carbon dioxide
• the end cap 26 is readily removed for a quick replacement of C0 2 cylinders when the old one is eiipty.
• Fig. 2 The operational relationship depicted in Fig. 2 is danonstrated in Fig. 3.
• the neck 40 of a CO 2 cylinder 27 rests in a cylinder recess 41 in the lower portion 31 of the internal valve body 23 and end cap 26.
• An annular gasket 42 encircles the neck 40 of the cylinder 27 and serves to insure a gas tight fit of the cylinder 27 in the recess 41.
• a cylinder piercing needle 43 is depicted piercing the cylinder top 44 thus allowing the pressurized C0 2 within the cylinder 27 to travel a pathway up into the main body 20 of the nebulizer 10.
• C0 2 travels fr ⁇ the cylinder 27 through the cylinder piercing needle 43 through air space found between the tapered end 45 of the valve stem 32 and the tapered tubular opening 46 of the valve if open.
• the C0 2 then travels around the annular step 51 and up, in a criss-cross pattern, through the knurled filter portion 52 of the valve stem 32. It is at this point that contaminants in the C0 2 are trapped by the filter 52.
• the available C0 2 cartridges are sufficiently contaminant free but the filter 52 provides further assurances of freedem from contaninaticn.
• the helical emitter coil 54 extends through two pile fabrics, e.g. "Velcro" pile disks 35a and 35b and through the backing 36 of fabric disk 35a where the C0 2 is released out into the atmosphere.
• the emitted product from the nebulizer is not merely C0 2 but a fog-like mist which is able to increase the humidity in the air which an aitertainer or speaker breathes when the nebulizer 10 is attached to a microphone.
• the change from C0 2 to a fog-like mist occurs in the nebulizer at the point where the C0 2 cones in contact with the distilled water which is used in this device 10.
• Distilled water is placed into the reservoir 21 by removal of the reservoir filler cap 22 and washer 65 and pouring the water into the reservoir 21.
• a typical water level 37 appears in Fig. 3.
• the end flaps 56 of the absorbent fabric disk 35b functicn as a wick and transports the distilled water in the reservoir 21, no matter what the water level is, up to the absorbent fabric disk 35a.
• the amount of C0 2 emitted and water carried depends upon the adjustment of valve 23.
• Fig. 4 enables a clear view of the parts involved in the conducticn of the water from the reservoir 21 to be seen.
• the end flaps 56 of the absorbent fabric disk 35b are een resting in the general area of the distilled water reservoir 21. (See Fig. 3. )
• any level of distilled water in the reservoir will cause the absorbent legs 56 to transport water to the loops 57 of the Velcro fabric 35 where it is held in a thin sheet between the backing 36 between the backing of disk 35a and a support disk 38 due to the surface tension of water.
• Water molecules move from the loops 57 of the Velcro disks 35 to the outside and thence the inside of the helical emitter coil 54 and form a meniscus 60 due also to the surface tension of water.
• the interstices between the turns of the helix or coil 54 constitute perforations in the emitter wall.
• Fig. 5 illustrates the nebulizer in operation with loops 57 of the loop pile disks 35 and the helical emitter coil 54 water filled with no meniscus 60.
• the inside dianeter of emitter coil 54 is preferably .020-.040 inches in dianeter while coils of inside dianeter of 0.01 to 0.05 inches will work.
• a stream of C0 2 is emitted from the nozzle 55, passes through the helical emitter coil 54 and forms an outlet 61 with an inside diameter in the order of .002 to .010 inches.
• Ths nozzle 55 is in the order of 0.0015 and 0.002 inches in diameter providing high velocity quiet stream of gas into the larger diameter n ebulizing restriction passage 61.
• the C0 2 passing thru the orifice 61 picks up the water molecules which fill the space between the turns of coil 54.
• the water lining is illustrated by lines 58 and 59 describing a hole through droplet 60.
• the distilled w ater and C0 2 mixture is dispersed out past the emitter guard 34 (shewn in Fig 3) in the form of a fog-like mist. Whenever the valve 24 is closed, C0 2 flow ceases and the meniscus 60 reforms.
• Fig. 6 Depicted in Fig. 6 is an absorbent fabric disk 35b with end flaps 56 which act as a wick in the nebulizer 10. Slits 62 in the absorbent fabric disk 35b allow the end flaps 56 to rest in the reservoir 21 seen in Fig. 3. A hole 63 in the center of the absorbent fabric disk 35b allows the extension of the helical emitter coil 54 through the disk like water holding fabric 35.
• Fig. 7 adjustment of the fog-like mist by rotation of the external valve body 24 not shown in this figure, changes the amount of space between the tapered end 45 of the valve stem 32 and the tapered t ⁇ hflar cpening 46 which is located vathin the internal valve body 23.
• the valve is opened as evidenced by the presence of a space 47 which is seen between the internal valve body 23 and the annular stem stop 51 of the emmitter body 33.
• the tapered end 45 of the valve stem inserts into the tapered tubular cpening 46 and either opens or closes the pathway for the C0 2 to travel.
• Present on the lower end 40 of the emitter body 33 is a side wall recess 64 which houses an "0" ring seal 66. Providing a gas tight seal between the valve body 23 and the emitter body 33.
• the valve stem 32 is made up of three sections, a tapered end 45, an annular stem stop 51 and a knurled filter 52 in "push fit" relationship within the recess in emitter body 33.
• the annular start stop 51 secures the placement of the entire valve stem 32 with the emitter body 33.
• the novel knurled filter 52 provides a plurality of helical pathways for the C0 2 to travel up the emitter body 33 and also serves to trap contaminants which may be present within the system and could eventually seriously impede the flow of the mist from the nebulizer.
• the knurled filter 52 is easily cleaned by rinsing with distilled water thus allowing maintenance of this part to be relatively simple.
• Fig. 8 is an exploded view of the invention which illustrates how the parts of this device fit together.
• gasket 18 and a "distilled water only" label 67 all fit together aid thread in a filler opening 68 in the main body 20.
• the label 67 actually adheres to the top 70 of the reservoir cap 23.
• Threading into the ucper portion of the main body 20 is an emitter guard 34 and a face cap 15.
• the emitter guard 34 protects the emitting parts of the nebulizer 10, namely the helical emitter coil 54 and the tip 55 of the emitter tube 53.
• the face cap 15 secures the guard 34 to the main body 20 and directs the mist outward.
• a djacent to the emitter guard 34 are then placed, two Velcro disks 35a and 35b, the latter including end flaps 56. These wrater holding pieces are placed within the emitter body 20 next to the emitter guard and are backed by a threaded nut 37.
• the helical emitter coil 54 is pushed through openings in the nut 37 and disks 35a and 35b.
• the emitter tube 53 with its attached emitter body 33 receives the valve stem 32 within its internal recess shown in Fig. 3.
• the tapered end 45 of the valve stem 32 projects into the tapered tubular opening 46 of the internal valve body 23.
• the external valve body 24 fits over the porticos of the emitter body 33 and the internal valve body 23.
• the cylinder piercing needle 43 is press fit into its recess in internal valve body 23.
• Cylinder 27 is dropped into end cap 26 and cup 26 is threaded onto external valve body 24 until it brings the top 44 of the cylinder 27 into engagement with piercing needle 43. Prior to such engagement, throat gasket or seal 42 has engaged the wall of the internal valve body 23 to establish a gas tight seal. The cylinder remains in the nebulizer until fully discharged. Any attempt to release the cylinder before full discharge by unscrewing end cap 26 results in release of seal 42 before the end cap 26 threads disengages and all residual pressure is released via the thread clearances.
• the nebulizer employs a novel liquid holding system at the emitter region, namely, pile fabric surrounding a helical emitter.
• a novel wicking system also which provides a continuous supply of water to the point of nebulization.
• the emitter itself is a sirrple but effective small diameter tube produced by closely spaced helical turns of wire which pass the nebulizing fluid between adjacent turns to provide a continuous supply of fluid. Nebulizing action is near instantaneous when opened, throttable precisely and effectively stopped by closure of the throttling valve.
• the entire apparatus is unobtrusive and may be attached to conventional microphones without interferences with their operation.

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• Health & Medical Sciences (AREA)
• Engineering & Computer Science (AREA)
• Anesthesiology (AREA)
• Biomedical Technology (AREA)
• Heart & Thoracic Surgery (AREA)
• Hematology (AREA)
• Life Sciences & Earth Sciences (AREA)
• Animal Behavior & Ethology (AREA)
• General Health & Medical Sciences (AREA)
• Public Health (AREA)
• Veterinary Medicine (AREA)
• Nozzles (AREA)

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• 1981
  • 1981-05-26 EP EP19810902066 patent/EP0079890A1/de not_active Withdrawn
  • 1981-05-26 WO PCT/US1981/000709 patent/WO1982004193A1/en unknown
  • 1981-05-26 AU AU74545/81A patent/AU7454581A/en not_active Abandoned

Non-Patent Citations (1)

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