The present invention relates to a smart small appliance, and more particularly to a multifunctional dryer structure having the functions of foot drying, towel drying and towel disinfection, and can automatically and safely perform drying and disinfection actions.
After bathing, most people usually use a dry towel to dry the body water. However, the towel has already absorbed part of body's moisture and is soaked after the body is wiped. Although the wet towel can be wrung dry and then continue to be used to wipe the body, the action of wringing the towel cannot completely dry, so the towel is still damp, and it is impossible to completely dry the body, such that the towel is still wet, unable to wipe the body completely dry. Therefore, when leaving the bathroom, not only the towels are still damp, but the body is not completely dry, especially the parts of the foot soles and finger seams.
People always choose to dry naturally or use a towel to dry the moisture on the feet; upon natural dry, the moisture on the feet needs a longer time to be dried, and it is difficult to dry naturally between the toes; if a towel is used to dry the moisture on the feet, first of all, because the bathroom is usually a relatively humid environment, the wet towel is hung in the bathroom to dry, and the towel itself being dry enough or not is a problem, and secondly, if the towel is not dried or disinfected in time, then the towel will be contaminated with bacteria or odor, and when it is wet or placed for a long time, it is easy to breed bacteria and produce odor, which will cause foot infections when the towel is used next time.
To design a multifunctional dryer structure having foot drying, towel drying and towel disinfection effects, and capable of automatically and safely performing drying and disinfection, the present invention is proposed.
The main object of the present invention is to provide a multifunctional dryer structure, combining a first drying mechanism for towel drying, a second drying mechanism for foot drying and a ultraviolet ozone lamp into one body, so as to be acted as a smart small appliance, thereby having use convenience.
To achieve the above object, the present invention proposes a multifunctional dryer structure, including: a first dryer mechanism; at least one connecting element, configured on one side of the first drying mechanism; a second drying mechanism, configured on one side of the connecting element away from the first drying mechanism; at least one hanging element, configured on one side of the first drying mechanism; a first air outlet, formed on the first drying mechanism and positioned at one side of the hanging element; a ultraviolet ozone lamp, configured on the first drying mechanism and positioned at one side of the hanging element; a sensing element, in electric connection with the ultraviolet ozone lame adapted to close the ultraviolet ozone lamp when a human body is sensed; a second air outlet, formed on the second drying mechanism for drying the feet of the human body; and a control module, in electric connection with the first drying mechanism, second drying mechanism, ultraviolet ozone lamp and sensing element.
In use, towels can be hung on the hanging element to dry, and a user only needs to operate the control module to start the first drying mechanism and second drying mechanism simultaneously, so as to dry the towels and the feet. In addition, when the sensing element judges that people is leaving, the ultraviolet ozone lamp is started to disinfect the towels. In this way, the three-in-one design not only simplifies the structure and improves the convenience, but also takes into account the safety of use.
With the above technology, the present invention can breakthrough the disadvantages of being not easy to air dry, and easy to breed bacteria due to wet towels and feet, achieving the practical progressiveness of the above advantages.
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The at least one connecting element 2 is configured on one side of the first drying mechanism 1.
The second drying mechanism 3 is configured on one side of the connecting element away from the first drying mechanism 1.
The at least one hanging element 4 is configured on one side of the first drying mechanism 1.
The first air outlet 11 is formed on the first drying mechanism 1 and positioned at one side of the hanging element 4.
The ultraviolet ozone lamp 5 is configured on the first drying mechanism 1 and positioned at one side of the hanging element 4.
The sensing element 6 is in electric connection with the ultraviolet ozone lamp 5, and adapted to close the ultraviolet ozone lamp 5 when sensing a human body approaching, the present embodiment takes an infrared sensor as an example.
The second air outlet 31 is formed on the second drying mechanism 3, thereby drying the feet of the human body.
The control module 7 is in electric connection with the first drying mechanism 1, second drying mechanism 3, ultraviolet ozone lamp 5 and sensing element 6.
With the above components, it can be clearly seen that the present invention mainly combines the first drying mechanism 1 for drying towels and the second drying mechanism 3 for drying feet into one body; the present invention uses a single rod typed connecting element 2 to be in connection with the first drying mechanism 1 upward and the second drying mechanism 3 downward. In addition, the control module 7 is a control component at least having a circuit board, in this embodiment, a touch panel provided on the first drying mechanism 1 is taken as an example, and the sensing element 6 is also provided on the first drying mechanism 1.
In practical use, the hanging element 4 allows for the hanging of towels to be dried, a user only needs to operate the control module 7, and the first drying mechanism 1 and second drying mechanism 3 can then be started so as to blow out heat air from the first air outlet 11 on the lower side of the first drying mechanism 1 and the second air outlet 13 on the front side of the second drying mechanism 3 to dry the towels and feet simultaneously. The control module 7 has basic functions such as timing and temperature control, and the ultraviolet ozone lamp 5 is allowed to be started by the control module 7 by the control module 7 to disinfect the towels when no human body is sensed by the sensing elements 6, so as to ensure use safety. Furthermore, the ultraviolet ozone lamp 5 of the present invention uses light with wavelength 185 mm, and nitrogen dioxide in the air reacts into nitrogen monoxide and oxygen atoms after being irradiated, and oxygen atoms easily react with oxygen to form ozone (as shown by the small circle in the figures), so ozone can be used to diffuse to places where light cannot be seen to perform sterilization.
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