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Patent Searching and Data


Title:
HAIR DRYING APPARATUS
Document Type and Number:
WIPO Patent Application WO/1983/000607
Kind Code:
A1
Abstract:
A portable hair drying apparatus has a tubular body (60) with an air inlet at one end also containing an electric motor driving impeller (73) and powered by rechargeable cells (74). The air flows over a gas burner assembly (61) fed with gas from a liquid gas container (78) via valve means (69). The container (78) may be recharged through valve (69) or detached at a coupling joint (79) and replaced. The gas burner (61) may comprise a tube surrounded by a catalyst impregnated fibre forming a flameless catalytic gas burner. The gas burner may be separated from direct contact with the air flow by means of a heat pump, one end of which is heated by the burner with the other end being located in the air flow.

Inventors:
RACCAH EDWARD REX (GB)
KING JAMES BERTRAM (GB)
Application Number:
PCT/GB1982/000255
Publication Date:
March 03, 1983
Filing Date:
August 13, 1982
Export Citation:
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Assignee:
RACCAH EDWARD REX (GB)
International Classes:
A45D20/06; (IPC1-7): A45D20/06
Foreign References:
FR1459311A1966-11-18
BE688039A1967-03-16
FR2423726A11979-11-16
FR2392339A11978-12-22
US3563251A1971-02-16
DE3103843A11982-09-02
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Claims:
CLAIMS
1. Hair drying apparatus having a body unit, air impelling means to draw air through the body from an inlet and to expel same through an outlet nozzle, and a heating means disposed within the air flow to heat the air during passage from the inlet to the outlet, characterised by the heating means being a gas burner.
2. Apparatus as claimed in Claim 1, wherein the gas burner is a catalytic combustion burner.
3. Apparatus as claimed in Claim 2, wherein the burner comprises a coiled tube positioned within the airflow, one end of the tube being fed with a combustible gas mixture, the tube having apertures spaced along its length and a fibrous catalyst material around the outside retained by a support wire.
4. Apparatus as claimed in Claim 1, wherein the burner comprises an assembly positioned within the air flow, the gas flame impinging on a heat dissipator screening the flame from the air flow.
5. Apparatus in accordance with any preceding claim, wherein the body is tubular with an air inlet at one end and an air impelling means located within the body at said end, the gas burner being located within the body and connected by a gas feed duct to a gas reservoir within a hand grip secured to the body, an air outlet nozzle being provided at the other end of the body. A 2 .
6. Apparatus in accordance with Claim 5, wherein the air impelling means is a fan driven by an electric motor supplied from batteries located in the hand grip,.
7. Apparatus in accordance with Claim 5, wherein the impelling means is a fan driven by a turbine supplied with gas under pressure.
8. Apparatus in accordance with Claim 7f wherein the pressure gas is also the combustible gas fed to the burner.
9. Apparatus in accordance with Claim 7, wherein the pressure gas is CO gas supplied from a cartridge.
10. Apparatus in accordance with any preceding Claim 5 to 9j wherein the hand grip comprises a first part adjacent the body having a manually operable gas valve and switch means to operate the impeller, together with, a compartment for batteries and a second part forming a gas reservoir and secured to the first part,.
11. Apparatus in accordance with Claim 10, wherein the second part is adapted to receive a gas cartridge connecting with the gas duct supplying the burner via the gas valve.
12. Apparatus in accordance with Claim 10, wherein the second part comprises a gas container detachably connected with the first part. OMPI H3 .
13. Apparatus in accordance with Claim 10, wherein the second part comprises a gas container secured to the first part and having a gas refilling valve assembly for recharging the container.
14. Apparatus in accordance with any preceding Claim, wherein a temperature sensing means is provided adjacent the gas burner operable to reduce or shutoff the gas supply at or above a predetermined temperature,.
15. Apparatus in accordance with Claim 14, wherein the sensing means comprises a sealed tube containing a liquid and acting on a valve in the gas supply, the valve being closed by expansion of the liquid.
16. Apparatus in accordance with any preceding Claim, wherein the air impelling means throughput is controlled by a temperature sensing means, the air flow being increased as temperature at the burner rises,.
17. Apparatus in accordance with Claim 16, wherein the sensing means comprises a thermistor connected in the supply to an electric motor driving the impeller.
18. Modification of the apparatus of any preceding Claim, wherein the gas burner is located outside the air flow and heats one end of a heatpump unit, the other end of the heatpump unit being positioned within the air flow. H .
19. Apparatus in accordance with any preceding Claim, wherein the gas burner incorporates an electrical ignition means.
20. Apparatus in accordance with any preceding Claim, wherein the burner is shrouded to exhaust combustion products externally of the airflow.
21. Apparatus in accordance with any preceding Claim, wherein an air cooling means is provided in the air flow preceding the heating means.
22. Apparatus in accordance with Claim 21, wherein the cooling means is integrated with, the gas burner and has a refrigerant circuit heated by the gas burner with heat being given up to the air flow prior to expansion producing the cooling of the intake air.
23. Apparatus in accordance with Claim 21 or 22, wherein the gas supply is used as tne refrigerant being initially heated by the burner to drive a turbine powering the impeller and to give up heat prior to the heating of the air flow by the burner and to thereafter expand to absorb heat by cooling the intake air flow and prior to combustion of the expanded gas in the burner. Or.'. Z .5 .
24. Hair drying apparatus comprising a tubular body with an air inlet at one end with an electric motor in said end driving an air impeller, heating means comprising a gas burner with a'heat radiating assembly positioned within the air flow and in the body, an air outlet nozzle at the other end of the body, a housing beneath the body and containing an electric power source to drive the electri motor, a gas valve and electric switch mounted in the housing operable by a manual trigger, a liquid gas container connected with the housing and forming a handgrip, a gas duct feeding the burner from the gas container through the gas valve, and means to ignite or initiate combustion within the burner.
25. Hair drying apparatus as claimed in Claim 24, wherein the gas burner comprises a tubular gas duct located within the air flow, said duct being perforated to permit gas to pass through the wall thereof, the duct having around the outer wall a fibrous catalyst impregnated material to effect flameless combustion of the gas.
26. Hair drying apparatus constructed and arranged to function substantially as described herein with reference to any one of Figures 1 to 6 of the accompanying drawings. c:.
Description:
"Hair Drying Apparatus"

This invention relates to a hair drying apparatus and is primarily concerned with a portable apparatus which may function independently of a mains power supply.

Conventional hand held hair dryers, even small size units, require an electrical power input of some 250 watts or more principally to provide sufficient heating of the air flow. Power is also consumed by the air impeller means which may be a tangential, centrifugal or axial electric fan. It is impractical to obtain this order of electrical power from storage batteries.

Hand held dryers achieve the drying effect through air flow to speed-up natural evaporation and heat to further assist the evaporation process. Practicalities dictate a fairly narrow range of combination of air flow and heat to obviate damage and prevent discomfort both physical and aural. Relative humidity in the environment of use of the dryer also considerably effects the drying.

In one aspect this invention seeks to provide a hair-dryer which is portable, operating independently of a fixed power source. In a second aspect the invention provides an improved hair dryer apparatus, preferably portable, to achieve a better

OMPI

and quicker drying process independently of atmospheric conditions

According to this invention there is provided hair drying apparatus having a body unit, air impelling means to draw air through the body from an inlet and to expel same through an outlet nozzle, and a heating means disposed within the air flow to heat the air during passage from the inlet to the outet, characterised by the heating means being a gas burner. The burner may be a flame burning kind or a catalytic combustion device which is fla eless. Preferably the burner is screened from the air flow and incorporates a flame detector means operative to shut off the gas supply in the event of flame failure. The burner -unit may be positioned within the air flow to transfer heat to the air passing thereover or by using a heat pump the burner may be remotely located from the air flow,for example in a part of the body integral with or separate from the nozzle unit.

The gas may be contained within a body part, such as the handle, and may be contained in a removable and replaceable cartridge or a container refillable from an external gas bottle. The gas used preferably will comprise mainly butane stored in liquid form. In one embodiment the gas is acetylene produced preferably by the action of water on calcium carbide, suitably contained integrally or at a remote location. The air impelling means may be driven by a turbine

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supplied with pressure gas or within the gas flow path to the burner, said path being preferably heated by the burner to increase the energy in the gas to operate the turbine.

In order to provide a more time-efficient drying process the invention also proposes a hair drying apparatus including a cooling means to condense moisture from the air drawn in prior to heating. Such an arrangement ensures that the air has a reasonable water absorbing capacity even under conditions of high humidity. Quicker drying can thus be produced at lower air temperatures.

The cooling means may be integrated with the gas burner and may include a refrigerant circuit heated by the gas burner with heat being given up to the air flow prior to expansion producing the cooling of the intake air. The arrangement may comprise a combined refrigerating means and heat pump. The gas supply may be used as the refrigerant being initially heated by the burner to drive the turbine and to give up heat prior to the heating of the air flow by the burner and to thereaf er expand to absorb heat by cooling the intake air flow and prior to combustion of the expanded gas in the burner.

By simultaneous use of the gas to heat the air flow and cool same good efficiency in the overall cycle is obtained, being an open cycle where the refrigerant is the gas. A closed cycle using a separate refrigerant can be used in which case the turbine used for the air flow may drive a compressor.

An absorptive (Electrolux) refrigerant system could, however, be used.

The apparatus using the cooling means could be electrically powered using electric power means for the refrigerant system and air impeller and gas for the heating. The gas storage cylinder may be made heatable by the gas burner whereby the pressure energy in the gas for expansion is increased, in such a case the gas storage cylinder can be made rechargeable from a supply cylinder giving a capacity sufficient for a normal operation.

Embodiments according to this invention are shown by way of examples only in the accompanying drawings, wherein:- Figure 1 shows a side sectional part view of one embodiment, Figure 1a shows a detail of an alternative catalytic combustion heating device, Figure 2 illustrates a modification, Figure 3 shows a second embodiment, Figure 4 shows a modification of the embodiment of Figure 3,

Figure shows a control circuit diagram, and Figure 6 shows a further embodiment.

Referring to Figure 1 this shows part of a hand held hair dryer comprising a tubular housing 1 with an air inlet 2, electric air Impeller means 3 ≥E- a gas burner £_. * Heated air

C

is expelled through nozzle outlet 5« The burner 4 includes a flame shielding plate 6 provided with fins 7 to dissipate the heat of combustion and a burner body 7flhaving further fins. The ai inlet to the burner may be positioned such that the forced draught of the air flow passes therein to provide for combustion of high gas flow rates than would otherwise be possible.

A slide valve and switch or trigger 8 forms a control device which initiates flow of gas and operates an igniter preferably an electrical means such as a piezo-electrisdevice or hot wire. The gas flow may include a valve only opened when the supply voltage is sufficient to operate the igniter. A flame or temperature detector may be included to operate the impeller 3 only when the burner is lit. The trigger 8 nay be a slide or other two way switch serving to open a gas valve B_ and close switch 8_ to drive the fan by battery 8c. The gas may be ignited by a separate switch 8d and igniter element 8e.

Alternatively tbe burner may be of a catalytic or flameless kind as shown in Figure 1a. This comprises a coiled length of tubing 70 which is perforated and around which is wrapped a catalyst such as asbestos fibre 7 dipped in a salt of platinum

retained by a fine wire mesh 72 and an initiator comprising a wire 73 heated by a battery 74. This assembly may be encased within a heat radiating shroud. The gas supply may comprise a cartridge C insertable into

a handle integral with housing 1 or a gas container may be provided in the handle which is charged from an external cylinder or refill container, the charge being sufficient for one normal ' operation. The handle may also Include a battery, preferably rechargeable nickel cadmium or sealed lead-acid, to drive the impeller 3 and power the igniter and flame sensor circuit.

As an alternative both the gas supply and battery can be housed within a portable carrying case and connected to the dryer by flexible piping and cable preferably integrated into a single pipe. The carrying case may then include a battery charger.

Figure 2 shows a modification in which the high pressure gas supply 10 feeds a turbine 11 forming also a pressure reducer to drive the impeller 3 a d- thence to the burner 7» The gas used conveniently is a butane or propane mix, the latter being preferred or the arrangement of Figure 2 in view of the higher pressure available at normal temperatures. The gas may however be preheated by passage through the burner assembly and in one arrangement the gas storage cylinder Is associated, thermally, with the burner. The cylinder being charged prior to use and absorbing a part of the burner heat output to drive the turbine.

In a modification applicable to all embodiments described the fan is driven by a turbine powered from a compressed CO2

gas cartridge or other inert propellant compounds such as those used in domestic aerosol sprays.

Expansion through the turbine reduces the gas temperature and heat may be absorbed from the inlet air flow by fins 12 to lower the dew point and condense excessive water vapour from the air prior to heating thus giving an enhanced drying effect.

Figure 3 shows an embodiment wherein a gas storage cylinder 3 or coil is charged once or repetitively through valve y from a cartridge 3 . The charge cylinder 30 is thermally associated with a gas burner 32 and the high temperature pressurised gas is cooled through a coil 33 which precedes the burner in the direction of air flow from impeller 34• The gas is expanded through a turbine 35 to drive the impeller and thereafter through a coil or finned unit >6 where heat is absorbed from the incoming air flow to reduce the dew point and condense out excess water vapour which is passed to a drain 37•

The expanded gas then passes to the burner. This arrangement provides for some adjustment in the requirement for high gas pressure energy to drive the turbine which might otherwise provide a gas volume in excess of that needed to heat the air. The refrigeration cycle provides a means of reducing the effective burner heat output. A separate refrigerant circuit could be used.

If the gas pressure is sufficiently great then the embodiment of Figure 4 provides for the supply 40 to be fed to the turbine 41 directly to drive Impeller 42 and thence to the absorption coil 43 to effect cooling of the incoming air.

A valve will advantageously be included in the gas feed to the burner, the valve being thermostatically controlled to reduce the gas supply as the temperature rises. The valve may be manually set to provide temperature control. The gas driven turbine for the impeller may be coupled with an electrical impeller means to provide a constant air flow regardless of gas flow; the gas driven turbine being assisted by the electric impeller as required.

A logic control diagram for the ignition means is illustrated In Figure 5 » comprising a battery voltage sensor 50 to determine if sufficient power is available for correct control followed by an ignition device 1 which turns on the gas supply 5 and effects ignition. If no gas flame or combustion is detected at 53 ----- ignition is reoperated but only 1. number of times determined by counter 54 after which the gas is shut off at 55 and a no-gas ignition indicator 56 lights. If a flame is detected the fan 57 is switched on, if electric, and the speed monitored at 58, in addition the outlet air temperature is monitored at 59» if either falls outside limits the gas Is shut off. In the event of flame-out

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the igniter may be reoperated or overridden to shut off the gas.

The burner may be arranged so that combustion products do not enter the air flow by provision of ducts or shrouds. Such an arrangement will result in heat being lost and this is minimised by extracting as much heat as possible from the combustion gases before exhausting same.

A further embodiment is shown in Figure 6 of the drawings wherein a cylindrical casing 60 has mounted coaxially therein a burner assembly 61 comprising a jet 62 with air Inlet orifices 63 and a burner head 64. The burner head is shrouded by a screen 65 incorporating heat radiating ins and the whole burner may further be constructed with a large surface area by- using fins in order to dissipate heat to the air. Associated with the burner is a piezo-electric igniter 66 with a manually operable button 67 which may be pressed so as to cause a spark to jump between electrodes 68 and the burner head thus igniting the gas. Gas is fed from a control valve 69 which is operatively coupled with a capillary 70 containing a fluid serving as a temperature sensing means whereby the valve progressively closes on increasing temperature. The valve 6 is operated by a manual slide switch 7 which also serves to operate an electrical switch 72 connecting an electrically driven impeller 73 to rechargeable batteries 74« In. the assembly shown four batteries 74 are provided within a base

portion 75 integral with the housing 60. A cover 76 enables the batteries to be removed if necessary and an electrical connector socket 77 enables them to be recharged from an external unit. Gassupply to the valve 6$ is taken from storage container 78 forming the lower part of the handle and this may include a refill valve 79 in its base. By constructing the handle of circular form the container 78 may be unscrewed at a coupling joint 79 and replaced when exhausted rather than being refilled. Alternatively, the container 78 *π y be permanently bonded to the battery compartment 75 to form an integral rugged assembly.

An alternative or additional temperature control means may be provided comprising a thermistor mounted closely adjacent the burner and connected either directly or indirectly through a control means into the fan circuit 73 * This thermistor Is arranged so that increasing temperature at the burner decreases its resistance thereby increasing the speed of the fan 73 and hence the low rate of the air by which means a substantially constant safe air temperature can be maintained albeit with varying rate of air throughput.

A further construction which avoids the flame burner would incorporate a catalytic device as indicated in Figure 1a, the arrangement otherwise being generally similar to that shown. In this arrangement a hot wire would be used to Initiate gas combustion rather than the piezo-electric device 66.