Abstract:
A hair dryer, includes a casing, an electric blower adapted to draw air into the casing from an intake port and blow the air out an exhaust port, one or more electric heating elements disposed to heat the air as it passes through the casing, a power selector switch having two or more wattage settings and adapted to adjust the electrical power supplied to the heating elements, and wherein the power selector switch is designed to be substantially inaccessible to the user.

Description:
BACKGROUND OF THE DISCLOSURE 
   1. Field of the Disclosure 
   The present invention relates to blow dryers having hidden power controls that are designed to be relatively inaccessible to a user but accessible to an installer. 
   2. Description of Related Art 
   Generally, it is known in the art of blow dryers to provide multiple power settings. Typically, a blow dryer will have two or three settings to provide low medium or high heat settings. The change in a heat setting is achieved by providing increased or decreased wattage to the heating coils. 
   A power or wattage problem can arise in multiple unit dwellings, such as hotels wherein multiple high wattage appliances may be used at the same time. In the morning hours, many of the guests are simultaneously using the hotel-supplied blow dryers as they prepare for their day. They may also be using hotel-supplied coffee makers simultaneously. This results in a large power drain on the building&#39;s power system that can cause power outages in buildings with wiring that cannot handle the morning power surge. 
   SUMMARY OF THE DISCLOSURE 
   The present invention is directed to a hair dryer, including a casing, an electric blower adapted to draw air into the casing from an intake port and blow the air out an exhaust port, one or more electric heating elements disposed to heat the air as it passes through the casing, a power selector switch having two or more wattage settings and adapted to adjust the electrical power  supplied to the heating elements. The power selector switch is preferably designed to be inaccessible to the user. 
   In another aspect of the hair dryer, the switching of the power selector switch requires a tool. 
   In another aspect of the hair dryer, the power selector switch is concealed from the user&#39;s view during normal operation of the hair dryer. 
   In another aspect of the hair dryer, the power selector switch is adapted to short out one or more of the heating elements. 
   In another aspect of the hair dryer, the power selector switch is adapted to divert current among the heating elements. 
   Another aspect of the hair dryer includes a user control allowing the user to adjust the power output of the heating elements up to a maximum determined by the setting of the power selector switch. 
   In another aspect of the hair dryer, the user control allows the user to divert alternating current through a diode. 
   Disclosed is a hair dryer including, a casing, an electric blower for drawing air into the casing from an intake port and blowing the air out an exhaust port, one or more electric heating elements for heating the air as it passes through the casing, a power selector switch having two or more wattage settings for adjusting the maximum electrical power supplied to the heating elements, and wherein the power selector s is inaccessible to the user. 
   Disclosed is a hair dryer having a casing, electric blower means for drawing air into the casing from an intake port and blowing the air out an exhaust port, one or more electric heating means for heating the air as it passes through the casing, user switching means having two or  more wattage settings for adjusting the electrical power supplied to the heating elements, and a switch cover means for optionally limiting the wattage setting available to the user. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
       FIG. 1  is a schematic perspective view of an embodiment of the invention. 
       FIG. 2  is a circuit diagram of an embodiment of one circuit according to the invention. 
       FIG. 3  is a circuit diagram of another embodiment of the invention. 
       FIG. 4  is a schematic diagram of a basic single-wattage dryer circuit. 
       FIG. 5  is an embodiment of a hidden control switch and tool. 
       FIG. 6  is a low-cost embodiment of the invention. 
       FIG. 7  is another low-cost embodiment of the invention. 
       FIG. 8  shows another embodiment without a separate control switch. 
   

   DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS 
   Referring to  FIG. 1  there is shown a typical pistol-grip type hair blower or hair dryer  1  having a pistol-grip  6 , a main body  2 , an exhaust port  3  and an intake port  4  defined by an intake grate  4 ′. When the user activates a control  5 , such as a trigger, a blower fan draws air through the intake port  4  and blows it over one or more heating elements and out through the exhaust  3 . 
   Also provided is a power selector switch  10  having two or more power settings  11  that determine the maximum power consumption of the heating element(s). The power selector switch is concealed within the body  2  of the hair dryer  1  in a position that is designed to be  inaccessible to the ordinary user of the device so as the render the power selector switch  10  unusable to the user. 
   Referring to  FIG. 2 , there is shown an embodiment of the circuitry of the blow dryer  1  having a set of power lines  201 ,  202  supplying power to a typical single-wattage dryer circuit  200  as is well known in the blow dryer art. Power extension lines  210  and  212  are provided to allow power to be delivered to one or more supplementary heating coils H 2 , H 3 . The primary heating coil H 1  is located in the basic circuit  200 , see  FIG. 4 . In the embodiment of  FIG. 2 , additional power levels of heating are provided by turning on additional supplementary heating coils by the power selector switch  10 , which in this case is symbolized by a double-pole, triple-throw switch. When this switch is in a first position a, heating elements H 2 , H 3  are both off. In second position b, heating element H 2  turns on. In third position c, heating elements H 2 , H 3  are both on. Hence, additional watts of heating power are added incrementally. 
   In a typical design, the supplementary heating elements H 2 , H 3  will consume much less power than that of the basic single-wattage dryer circuit, perhaps no more than 100 to 300 watts each, so that the power demands on the power selector switch  10  are not great, thereby reducing any chance of arcing. Typically, the lowest power setting for the blower  1 , representing only H 1  activated, will be about 800 to 1,100 watts, and the highest setting will be about 1,200 to 1,900 watts. 
   Referring to  FIG. 3 , there is shown a solid-state version of the circuit of  FIG. 2  wherein a pair of triacs  220 ,  230  are provided to turn the one or more supplementary heating elements H 2 , H 3  on and off. The power selector switch  10  is therefore adapted to control these triacs rather than to control the additional heating elements directly. 
   Alternatively, rather than provide supplementary heating elements, it is possible to provide a single element and control the power supplied to the single element, such as by intermittently interfering with an AC signal or duty cycle. Intermittent interference is the method used by common household light dimmers, well known in the art.  
     FIG. 4  shows a typical basic single-wattage hair dryer circuit wherein the power source may be connected to a rectifier  404  to provide a source of DC power for solid state components. The AC current is first controlled by user controls  401 , namely the on/off trigger  5  of  FIG. 1  and an optional limited power control  7  (see  FIG. 1 ) that allows the user to alter the power output of the blow dryer up to the maximum power output permitted by the inaccessible power selector switch  10 . 
   Referring generally to  FIGS. 1 and 7 , the optional limited power control  7  is shown as a slide switch with four positions, but any other number of configurations are available as are known in the art, such as a continuous slide, a rotary switch or knob, and so forth. Because the user doesn&#39;t know what the actual maximum power is, this limited power control  7  will generally be marked with abstract marks  8  rather than actual numbers. 
   Also provided is an optional tilt switch  402 , which can be a mercury switch that shuts off the dryer if dropped (such as into the bathtub) and a temperature switch  403 , which can be a thermostat to shut off the heating elements if the temperature exceeds a preselected level so as to protect the blower components. 
   A blower motor  405  is also required. Here, the blower motor is also subject to the user controls  401 , so that the blower runs at higher speeds for higher wattages if the optional power slide control  7  is used. Of course there are variants on these configurations. The motor could blow at the same speed at all power settings or, as is common with many blowers, the motor can have its own speed control. 
   Referring to  FIGS. 1 and 5 , a typical power selector switch  10  is provided with three power settings and an optional tool  500  to work it. The power selector switch is substantially inaccessible and unusable to the user of the blower  1 , but not inaccessible to an “administrator”. An administrator will generally be an independent electrician or one of the maintenance staff of the hotel or other complex into which the blow dryers  1  are being installed. The location of the switch  10  will be made known to the administrator, such as hidden behind the intake port  4 , allowing easy access by removing the intake port grating  4 ′, or by access through some other  hatch or opening. The power selector switch  10  may be operated by hand or by a specialized tool or key  500 , preferably one of a type the user would not have with him. For example, an Allen wrench-type tool, i.e., hexagonal, or other unusually cross-sectioned tool, one the user could substitute a common item for, such as car keys, a nail file, or paper clip. Alternatively, one might resort to a standard key and lock. 
   Of course, the tool  500  is to be adapted to operate the switch  10 . If the selector switch  10  is other than a rotary one as shown (e.g., a DIP switch) then, of course the tool must be altered to conform, but rotary switches may often be found to be easier and simpler to provide a key-like tool for. 
   Another advantage of a tool  500 , is that it allows access to the power selector switch  10  without having to remove the intake grate  4  or other hatch. One could simply insert the tool through the grate or other opening to reach a properly positioned selector switch. 
   The embodiments shown represent “high-end” hair dryers. Simpler low-cost designs are also possible, such as shown in  FIGS. 6 and 7 . 
   Referring to  FIG. 6 , there are shown two heating elements H 1 , H 2 . When the hidden power selector switch  10  is open, both heating elements H 1  and H 2  are operating. In this embodiment, they are in series and therefore present greater resistance. The result is that both elements wired in series operate at a lower power. For example, H 1  could be about 10 ohms and H 2  about 3 ohms. With the switch open, such a circuit would operate at about 1,200 watts on house current. Close the power selector switch  10  and it operates at about 1,500 watts because the second heating element H 2  is now shorted out and the overall resistance is lowered, thereby drawing more current. 
   A relatively inexpensive user control  401  is provided. It simply uses a diode D so that when the user activates the switch  401 , current is diverted through the diode and is thereby rectifying the A/C current. Because the current is alternating current, only a half-wave may pass through the diode, thereby reducing the power by half.  
   Referring to  FIG. 7 , there is shown another low-cost circuit having three heating elements H 1 , H 2 , H 3  and a user-controlled slide switch  401 . Here, the first heating element H 1  is always available to the user as a low power setting. For example H 1  could be about 16 ohms and thereby provide a power output of about 500 watts or so, low enough to do without control switch  10  to limit its availability to the user. When the user switches to the higher setting, however, the same hidden power selector switch  10  and heater configuration as shown in  FIG. 6  is provided. 
   Referring to  FIG. 8 , there is shown another embodiment that does now require a separate control switch at all. Here, a switch cover  800  is provided that defines an opening through which the user switch  401  protrudes. If the opening is wide enough, as in  FIG. 8   a , the user has all power settings available to him. Alternatively, as in  FIG. 8   b , a switch cover  800  with a smaller opening may be provided that limits the power settings available to the user. In a preferred embodiment, the switch cover conceals the existence of the inaccessible power settings. 
   While various values, scalar and otherwise, may be disclosed herein, it is to be understood that these are not exact values, but rather to be interpreted as “about” such values, unless explicitly stated otherwise. Further, the use of a modifier such as “about” or “approximately” in this specification with respect to any value is not to imply that the absence of such a modifier with respect to another value indicated the latter to be exact. 
   Changes and modifications can be made by those skilled in the art to the embodiments as disclosed herein and such examples, illustrations, and theories are for explanatory purposes and are not intended to limit the scope of the claims. Further, the abstract of this disclosure is provided for the sole purpose of complying with the rules requiring an abstract so as to allow a searcher or other reader to quickly ascertain the subject matter of the disclosures contained herein and is submitted with the express understanding that it will not be used to interpret or to limit the scope or the meaning of the claims.