US2527745A

US2527745A - Hair drying apparatus

Info

Publication number: US2527745A
Application number: US752870A
Authority: US
Inventors: Lawrence William Arthur
Original assignee: Individual
Current assignee: Individual
Priority date: 1947-06-06
Filing date: 1947-06-06
Publication date: 1950-10-31
Anticipated expiration: 1967-10-31

Description

Oct. 31, 1950 w. A. LAWRENCE HAIR DRYING APPARATUS 2 sheets sheet 1 Filed June 6, 1947 Ill llll kin Ill-ill lllllll Illl IIII Illl llllllllllllllllll l.rllillll l.

R O T N E V m m a/n'um/aitaw ATTORNEYS BY WW,

Oct. 31, 1950 w. A. LAWRENCE 3 2,527,745

HAIR DRYING APPARATUS Filed Jline 6, 1947 2 Sheets-Sheet 2 I BY c a/hwto-n4fiuaml ATTORNEYS Patented Oct. 31, 1950 UNITED STATES PATENT OFFICE 2 Claims.

' This invention relates to the process and apparatus for drying hair, in beauty shops, barber shops or other places, following shampooing, washing, chemical or other treatments in which moisture or other volatile liquids or vaporizable substances are to be reduced or evaporated.

Instead of the usual types of apparatus, through use of which the hair is dried by the circulation or recirculation of atmospheric air, either heated or at surrounding temperatures, the improved process and apparatus covered by this specification provides means of humidity extraction from the circulated air through means of control of wet and dry bulb temperatures and adjustment or reduction of barometric pressure within the helmet enclosing the subjects hair which is being treated or dried.

The apparatus comprises a helmet assembly with air supply and return connections from and to a special air dehumidifying and conditioning apparatus included in this specification.

One form of the invention is illustrated in the accompanying drawing in which Figure 1 is a vertical section of the assembled apparatus; and

Figure 2 is a plan section; both figures showing Type I unit in which an adsorptive medium of silica gel, activated alumina, or like medium is used for moisture extraction from the dryer air circuit.

The helmet assembly I, with flexible replaceable sanitary hood 2, form an enclosure for the subjects head. An inner shell or helmet 3, fits within outer helmet l, affording an annular air passage for the air supply to the subjects head, which is delivered through flexible tubular connection 4. Return of damp air from subjects head is upward through inner helmet by way of flexible tubular suction connection 5, from the top of inner helmet 3. Return damp air from the helmet passes through return connection 5,

to fan 6, which forces the air downward through removable mechanical air filters i, thence the air passes through screens 8 and 9 which, together, form an electrostatic type filtration unit, the electrostatic charge being imparted by electrostatically charging screen 3, and the collecting screen attracting dust or other foreign particles, being 9. After filtration, the air continues by an ultra-violet ray lamp assembly 50, for exposure to sterilizing rays. Following exposure to ultra-violet rays the air passes upward through containers II, of the moisture adsorptive silica gel, activated alumina or other medium and, by

means of valve port opening l2, through butterfly valve l3, returns as filtered, dry sterilized and conditioned air to the helmet for hair drying and recirculation... Valve H3 in the conditioned air supply to helmet, valve M in the moist air return and cross or by-pass valve l5, form together a means of regulating the air supply, air return, rates of drying, velocity and pressure within the helmet, as Well as the humidity in the return. Opening valve l5, by-passes part of the air so that, instead of passing through the helmet, a portion returns directly to the fan; under which condition rate of drying is decreased and discomfort of coolness from excessive rate of drying is avoided. A further adjustment for prevention of excessive coolness of subjects head is afforded by thermostatically controlled electrical air tempering heater l6, which is interposed in the air circuit above'the before mentioned adsorptive trays l I.

For re--activation of the adsorptive media contained in the removable trays ll, there are provided sets of removable electrical resistance heating coil elements ll. Prior to energizing heating coils H, for re-activation of absorptive material inll, valves l2, I3, I 5 and I5 are closed and valves l8 and i9 opened. Valve It? opens the outside air supply to the fan which circulates outside air through the unit by way of heaters ll. Hot air from heaters ll, passes through adsorptive medium trays H, drives off adsorbed moisture in the air effluent by way of valve port [9, opened for the purpose, and through discharge tube 20 leaves the circuit and passes to the outside atmosphere.

a In addition to manual control, thermostats are provided for'temperature control of re-activation heating coils ll and for air tempering heater It. In addition to manual control of valves l3, l4 and 5 a 'hurnidistat may be added for adjustment of by-pass air and rate of drying; also to adjust fan speed and shut down machine when subjects head is dried and there is no longer any moisture differential within the circuit.

Another form of the inventionis illustrated in the accompanying drawing in which Figure 3 is a vertical section of the assembled apparatus and Figure 4 is a plan section; both figures showing the Type II unit in which refrigerated cooling coils are used for lowering of the dew point and accomplishment of dehumidification or moisture extraction from the dryer air circuit. i

The helmet assembly Hi i, with flexible replaceable sanitary hood iElZ, form an enclosure for the subjects head. An inner shell or helmet I03, fits within outer helmet I I, affording an annular air passage for the air supply to the subject's head. Dry and conditioned air is delivered through flexible tubular connection I04. Return of damp air from subjects head is upward through inner helmet by way of suction connection 105, from the top of inner helmet I03. Return damp air from the hair enclosing inner helmet passes through return connection I05, to fan I00, which forces the air downward through removable mechanical air filters I01, thence the air passes through screens I 08 and I09 which, together, form an electrostatic type filtration unit; the electrostatic charge being imparted by electrostatic charging screen I08, and the collecting screen attracting dust or other foreign undesirable particles being I09. After filtration, the air continues by an ultra-violet ray lamp assembly H0, for exposure to the lamps sterilizing rays.

Following exposure to ultra-violet rays the air passes upward through refrigerant evaporative dehumidifying coils I12, by way of regulating valved connection III. The moisture in the air is condensed and removed by contact, cooling and condensation on cooling coils H2 and drainage is effected through a collecting pan I I8, having an outlet with valve. Following cooling and deh-umidification by passage through refrigerant evaporator coils II 2, the air continues upward through regulating valve II B and on through refrigerant condensing coils Ill. The cool air is warmed and the relative humidity reduced in passing through the condenser coils by absorbing the latent heat and heat of compression from the refrigerant in its process of condensation within the coils. Passage I I3 allows a portion of the air from the filters and ultra-violet ray lamp to circulate through the compressor fan IZI, and pass around compressor cylinder head and back through duct I20 to the air circuit below control valves H4 and H5. Utilization of the waste heat of the compressor cylinder permits tempering the air leaving condenser coils by introduction of compressor heated air through control valve H4, or further introduction, via control valve H5, into air efiiuent from condenser coils II'I. I25 is the compressor motor and I26 the circulating fan motor. Valves III, H4, H5 and H5 either by fixed, manual, temperature, or humidistatically actuated means, are available for optimum control of dehumidi'fication and temperature control of air from the conditioning unit; which is delivered through flexible connection I04 to helmet assembly I iii, for further and continuous air drying. I24 is a wet and dry bulb connection for humidity control operation and may be used to shut down machine automatically when the hair has been dried and there is no moisture pick up in the return air. I23 is a wet and dry bulb connection for humidity control operation based upon pyschrometric requirements of the conditioned air to the helmet.

The conditioning unit is to be capable of operating a single drying helmet or by increase in size, may be utilized to operate a number of helmets at one time in parallel as required.

The helmet assembly forms an enclosure for the subjects hair and is provided with a specially designed, readily changeable, plastic, sanitary flexible seal around the subjects :head and is so arranged that dry or otherwise conditioned air may be circulated under pressures, above, equivalent to or below atmospheric conditions. This helmet is provided with an air inlet flexible tube connection for a supply of air which has been 4 properly dried, purified, conditioned for optimum temperature, humidity and subjected to the desired pressure control. The helmet includes an air outlet flexible tubing connection for return of air containing moisture and volatiles evaporated from the hair drying process. The pressure of the return air to the conditioning unit may be regulated to pressures above, equal to or below atmospheric conditions as desired, by means of adjustable damper controls establishing differentials in pressure within the power fan operated air circuit. The rate of drying is controlled, by adjustment within the system, of the air pressure, dry and wet bulb temperatures and rates of circulation. So that desired high rates of drying may be accomplished without sense of chill to the subjects head, there is provided within the air circuit a means of raising and controlling the air temperature.

The air conditioning unit which furnishes the air supply and return from the drying helmet is optionally one or the other of two types.

Type I .Comprises an air conditioning unit employing an adsorptive medium of silica gel, activated alumina or like medium for moisture extraction from a fan powered air circuit. The apparatus includes heating elements of electrical type and air by-passes for use in reactivating and expelling the moisture from the adsorptive me dium for its re-use.

Type II.Comprises an air conditioning unit of the electrically driven compressor refrigerant type of unit in which the evaporator section is used in the air circuit for humidity extraction and the condensing section is utilized for necessary reheating, in combination with suitable by-passes for temperature and humidity control of the air to the drying air supply to the helmet.

'Iypes both I and II, if desired by the user, include means of air purification, optionally of the air filter (glass wool throw away type), wet type (cleanable) or electrostatic type plus (also if desired by user) an ultra-violet ray section in the air stream for sterilization.

What is claimed is:

1. In an apparatus for drying hair, an air conditioning cabinet, a vertica1 partition in said abinet extending from a point adjacent the top wall of said cabinet to a point adjacent to but above its bottom wall and defining two vertical chambers in said cabinet communicating at their lower extremities, air filters and dust collecting means in the upper portion of one of said chambers, a fan in the upper portion of said chamber to draw air from outside said cabinet and force it downwardly through said chamber over, said filters and said dust collecting means evaporator and condenser units in the second of said chambers over which the air from said first chamber is forced upwardly by said fan, a double walled helmet, a conduit extending from the top of said second chamber communicating with one of said compartments of said helmet, a second conduit communicating between the other of said comartments of said helmet and the intake of said fan in said first chamber, and control means in said conduits for regulating the flow of conditioned air to said helmet.

2. In an apparatus for drying hair, an air conditioning cabinet, a vertical partition in said cabinet extending from a point adjacent the top wall of said cabinet to a point adjacent to but above its bottom wall and defining two vertical chambers in said cabinet communicating at their lower extremities, air filters and dust collecting means in the upper portion of one of said chambers, a

fan in the top of said chamber to draw air from outside the cabinet and force it downwardly through said chamber over said filters and said dust collecting means, evaporator and condenser units in the second of said chambers over which the air from said first chamber is forced upwardly by said fan, a compressor for compressing refrigerant in said evaporator, a supplemental branched conduit communicating between said chambers and with said compressor and including a vertical conduit extending upwardly through said second chamber and bypassing said evaporator and condenser units, valve means in said branched conduit for controlling the flow of conditioned air therethrough, a double walled helmet, a conduit extending from the top of said second chamber communicating with one of said compartments of said helmet, a second conduit communicating between the other of said compartments of said helmet and the intake of said fan in said first chamber and control means in said conduits for regulating the flow of conditioned air to said helmet.

WILLIAM ARTHUR LAWRENCE.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS