The present invention relates to humidifier technical field, more particularly, to aromatherapy humidifier.
As the development of science and technology, people's living standards are improving day by day, and people's requirements for living environment are gradually improving. Air humidity is one of the important factors affecting environmental comfort. Especially at the north part of China and the place where air conditioning is used for a long time, the environment is very dry. It is necessary to use the corresponding equipment to increase the humidity of the air and adjust the comfortable living environment. Therefore, aromatherapy humidifier is more and more popular in the public family and become a necessary home appliances.
At present, the general humidifier is provided with an atomizer to atomize water, some essential of is added into the water to atomize with it. However, the way of mixing essential oil and water in a certain proportion has many disadvantages, for example, in order to smell in the mist, the amount of essential oil is higher which increases the cost, and the essential oil is mostly acidic, it is easy to corrode the ordinary plastic container, which makes the life of humidifier shorter.
In order to over come the shortcomings of the prior art, the present invention provides an aromatherapy humidifier, which separate the essential oil and the water to be atomized in the atomizing chamber to solve the problem of high consumption of essential oil and corrosion to plastic containers. The present invention also improves the structure of the aromatherapy humidifier, which can automatically control the water storage in the atomizing chamber. The structure of aromatherapy humidifier is more reasonable and simple.
The technical scheme of the present invention is as follows:
An aromatherapy humidifier includes a base, a shell and a cover, which are superimposed sequentially. An atomizing container is arranged on the base. A water storage tank is arranged on the atomizing container. The atomizing container and the water storage tank are contained in the shell. The water storage tank supplies water for the atomizing container and is provided with a mist channel communicated with the atomizing container. The atomizing container is provided with an atomizing assembly for atomizing water into mist and an aromatherapy assembly for volatilizing essential oil. The cover is covered on the shell and the water storage tank, the cover is provided with a spray port communicated with the mist channel and an water inlet communicated with the water storage tank, the mist and the volatilizing essential oil float through the mist channel and the spray port to humidify air.
The atomizing container is a groove formed by a bottom plate and a side plate.
The atomizing assembly is arranged on an atomizing bottom plate, which are sealed at the side surface of the bottom plate facing the base, and the atomizing assembly is passed through the bottom plate into the atomizing container.
A part of the bottom plate further sinks to form the atomizing chamber, which is provided with a first through hole communicating with the base. The atomizing bottom plate is fixed at the side of the atomizing chamber towards the base, the atomizing bottom plate seals the first through hole, and the atomizing assembly extends through the first through hole into the atomizing chamber.
The bottom plate is provided with a sink, an aromatherapy assembly, such as an essential oil bottle, is contained in the sink.
The other part of the bottom plate is rose to form a platform, the sink is arranged at the platform, thereby the aromatherapy assembly is higher than the water after it is contained in the sink.
Preferably, a side of the sink is provided with a wind channel, the side of the bottom plate facing the base is provided with an air-blower, the air-blower blows wind towards the wind channel, the wind channel is provided with wind holes at the side toward the aromatherapy assembly. The wind passes through the wind holes to blow the essential oil to volatilize.
The atomizing container is provided with a control-water assembly for controlling the water in the water storage tank into the atomizing container. The control-water assembly includes a bracket, a floating plate, an ejector rod and a sealing plug. The bracket is fixedly arranged on the bottom plate, the floating plate has a main body and an installing portion arranged on the main body, the installing portion pivots a rotary shaft, the rotary shaft is fixedly arranged on the bracket. The side of the installing portion towards the water storage tank is provided with a pushing column. The top end of the pushing column is provided an inclined surface. The bottom end of the ejector rod is matched with the inclined surface.
Preferably, the bottom end of the ejector rod is a matching plate which is close to the inclined surface. The top end of the ejector rod is provided with the sealing plug. The bottom of the water storage tank is provided with a second through hole. The top end of the ejector rod extends into the second through hole and the sealing plug seals it.
Preferably, the bottom plate of the atomizing container sinks to form a water chamber, and the floating plate and the bracket are housed in the water chamber.
Preferably, the water storage tank is provided with a filter at the second through hole to clean and filter the water entering the atomizing chamber.
Preferably, the water chamber and the atomizing chamber are communicated through a water channel, in which an ultraviolet lamp is arranged, the wall of the water channel is also provided with silica gels around the ultraviolet lamp, and the top of the ultraviolet lamp is provided with a lamp cover.
Preferably, the atomizing chamber is provided with a control-water assembly for controlling the water in the water storage tank into the atomizing chamber. The control-water assembly includes a motor arranged at the bottom plate of the atomizing container, the motor has a shaft which is provided with a horizontal commutator, the horizontal commutator is provide with a vertical pushing column, the vertical pushing column is provided with a seal, the vertical pushing column passes through the bottom plate of the atomizing chamber to support an ejector rod, the seal seals the place where the vertical pushing column passes through the bottom plate. The top of the ejector rod is fixedly provided with a sealing plug , the bottom of the water storage tank is provided with a second through hole. The top end of the ejector rod extends into the second through hole, the sealing plug seals the second through hole.
The control-water assembly also has a water level detector arranged on the bottom plate, the water level detector passes through the bottom plate and extends into the atomizing container, the water level detector is electrically connected and signally connected with a control board.
The end of the horizontal commutator is provided with a spring. The bottom plate is provided with a position column, the spring is arranged on the positioning column.
The water storage tank has a bottom plate above the atomizing chamber, the mist channel is arranged on the bottom plate.
Preferably, the mist channel has an mist inlet at its bottom and an mist outlet at its top, a baffle plate is also arranged at the mist inlet and the mist outlet respectively. The baffle plate is provided with pores for the mist passing through.
The cover is covered on the shell and the water storage tank. The cover has an ring portion and a center portion, The ring part is a downward slope, and the center portion is supported on the ring portion through several supporting rods. The water inlet is formed among the ring portion, the center portion and the supporting rods. The center portion is provided with the spray port toward the mist channel The mist is sprayed out from the spray port.
The base is provided with a button and a power supply socket, and the base is provided with a control board in it. The button is electrically connected with the control board, the control board is electrically connected with the atomizing assembly, the ultraviolet lamp, the air-blower to control them to work or stop working. The power supply socket is connected with a power supply.
The base is also provided with a plurality of LED lights, which are illuminated from the bottom of the aromatherapy humidifier to make the aromatherapy humidifier more beautiful when used. Preferably, the LED is a multi-color lamp, when used, it changes the colors in turns. the LED lamp is electrically connected with the control board.
The aromatherapy humidifier according to the present invention has the advantages: The aromatherapy humidifier is provided with the water chamber and the sink for containing the essential oil in the atomizing chamber. The essential oil is mixed with the mist, and the consumption of the essential oil is less to avoid corrosion to the atomizing chamber made from plastic material, thus prolonging the service life of the aromatherapy humidifier.
The aromatherapy humidifier is also provide with a control-water assembly to automatically control the water amount in the atomizing chamber.
The aromatherapy humidifier is also provide with the ultraviolet lamp to sterilize the water in the atomizing chamber to ensure that the atomized water is clean and hygienic.
The aromatherapy humidifier is also provide with LED lamps at its bottom, which makes the aromatherapy humidifier show dynamic light change effect and beautiful shape.
In order to explain more clearly the technical scheme in the embodiment of the present invention, a brief introduction is given below to the attached drawings needed in the embodiment. Obviously, the attached drawings in the following description are only some embodiments of the present invention, for ordinary technicians in this field, other drawings can be obtained according to these drawings without paying creative labor.
The embodiment of the present invention is described in detail below, and an example of the embodiment is shown in the attached Figs., where the same or similar label from beginning to end represents the same or similar element or element with the same or similar function. The following embodiments described by reference to the attached drawings are exemplary and are intended to be used to explain the embodiments of the present invention, and can not be understood as limiting the present invention.
In the description of the embodiment of the present invention, it needs to be understood that the azimuth or position relation indicated in the term “length”, “width”, “upper”, “lower”, “front”, “rear”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inside”, “outside” and so on is based on the azimuth or position relation shown in the attached figure, only for the convenience of describing the embodiment and simplifying the description of the present invention, rather than indicating or implying that the device or element must have a specific orientation, construction and operation with a specific orientation, so it can not be understood as a restriction on the present invention.
Furthermore, the terms “first”, “second” are used only for descriptive purposes and can not be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, the qualification of “first” and “second” features may include one or more of them explicitly or implicitly. In the description of the embodiment of the present invention, the meaning of “multiple” is two or more, unless otherwise specified.
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In some embodiments of the invention, the control-water assembly 80 includes a bracket 81, a floating plate 82, an ejector rod 83 and a sealing plug 84. The bracket 81 is fixedly arranged on the bottom plate 41, the floating plate 82 has a main body 821 and an installing portion 822 arranged on the main body 821, the installing portion 822 pivots a rotary shaft 823, the rotary shaft 823 is fixedly arranged on the bracket 81. The side of the installing portion 822 towards the water storage tank 50 is provided with a pushing column 824. The top of the pushing column 824 is provided an inclined surface 825. The bottom end of the ejector rod 83 is matched with the inclined surface 825.
Concretely, the bottom end 831 of the ejector rod 83 is a matching plate which is close to the inclined surface 825. The top end 832 of the ejector rod 83 is provided with the sealing plug 84. The bottom 54 of the water storage tank 50 is provided with a second through hole 52. The top end 832 of the ejector rod 83 extends into the second through hole 52 and the sealing plug 84 seals it. When the water in the atomizing container is enough, under the buoyancy of water, the floating plate 82 is raised relative to the installing portion 822, the inclined surface 825 of the pushing column 824 slips relative to the bottom end 831 of the ejector rod 83 from the higher place to the lower place on the inclined surface 825, and the ejector rod 83 drops under the action of gravity. The sealing plug 84 then drops and seals the second hole 52. The water in the water storage cylinder 50 can no longer flow into the atomizing container 40.
When the water in the atomizing container is not enough, the buoyancy suffering by the floating plate 82 is reduced, so the floating plate 82 is reduced relative to the installing portion 822, the inclined surface 825 of the pushing column 824 slips relative to the bottom end 831 of the ejector rod 83 from the lower place to the higher place on the inclined surface 825, and the ejector rod 83. The sealing plug 84 then rises and opens the second hole 52. The water in the water storage cylinder 50 can flow into the atomizing container 40.
Preferably, the bottom plate 41 of the atomizing container 40 sinks to form a water chamber 85, and the floating plate 82 and the bracket 81 are housed in the water chamber 85.
Preferably, the water storage tank 50 is provided with a filter 52 at the second through hole 52 to clean and filter the water entering the atomizing container 40.
It should be understood that the above control-water assembly 80 is not the only structure that can control the water in the water storage tank 50 to enter the atomizing chamber 40. In other embodiments of the invention, another structure of a control-water assembly 80′ is provided.
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The control-water assembly 80′ also has a water level detector 88 arranged on the bottom plate 41, the water level detector 88 passes through the bottom plate 41 and extends into the atomizing container 41, the water level detector 88 is electrically connected and signally connected with a control board 15. When the water level detector 88 detects that the water level in the atomizing container 40 is below a predetermined value, the control board 15 starts the motor 87 to drive the ejector rod 83′ to move up and down, thereby opening the second through hole 52. The water in the water storage cylinder 50 can enter the atomizing container 40. Conversely, When the water level detector 88 detects that the water level in the atomizing container 40 is higher than the predetermined value, The control board 15 closes the motor 87, The sealing plug 84′ seals the second through hole 52, The water storage cylinder 50 stops supplying water to the atomizing container 40. This structure realizes intelligent control of water level in the atomizing container 40 and prevent “dry burning” from happening, improve the safety.
The end 8721 of the horizontal commutator 872 is provided with a spring 873. The bottom plate 41 is provided with a position column 874, the spring 873 is arranged on the positioning column 874. When the motor 87 stops to driving the horizontal commutator 872 to move up and down, the spring 873 adapts to the bottom plate 41 and push the horizontal commutator 872 to reset, thereby the ejector rod 83′ is reset, the sealing plug 84′ seals the second through hole 52. The water in the water storage tank 50 can enter the the atomizing container 40.
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Preferably, the mist channel 51 has an mist inlet 511 at its bottom and an mist outlet 512 at its top, a baffle plate 513 is also arranged at the mist inlet 511 and the mist outlet 512 respectively. The baffle plate 513 is provided with pores 514 for the mist passing through. The baffle is used for blocking the vapour for separate the gathering water in the vapour.
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The cover 30 has an ring portion 33 and a center portion 34. The ring part 33 is a downward slope, and the center portion 34 is supported on the ring portion 33 through several supporting rods 35. The water inlet 31 is formed among the ring portion 33, the center portion 34 and the supporting rods 35. When it needs to add water into the water storage tank 50, the water is poured on the ring part 33 and flows through the water inlet 31 into the water storage tank 50. The center portion 34 is provided with the spray port 32 toward the mist channel 51. The mist is sprayed out from the spray port 32.
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The base 10 is also provided with a wind bore 16 for the blower 71 to blow and radiate heat.
The shell 20 is made of metal material, glass material, ceramic material, plastic material, etc. The atomizing container 40 is made of metal material, glass material, ceramic material, plastic material, etc.
The top of the side plate 42 is provided with a lift switch 49 and a holding slot for the lift switch 49, which controls the control plate 14. When the water storage tank 50 is placed on the atomizing container 40, the lift switch 49 is pressed, thus opening the control board 14 to supply power for the atomizing assembly 60, the ultraviolet lamp 91, and the blower 71. When the water storage tank 50 is removed from the atomizing container 40, the pressing switch 49 rises and disconnects the control board 14 so that it can not supply power for the atomizing container 60, the ultraviolet lamp 91, and the blower 71.
The above contents are further detailed instructions to the utility model in combination with the specific optimal selection implementation mode, and it can not be concluded that the specific implementation of the utility model is limited to these instructions. For the ordinary technical personnel in the technical field of the utility model, the structure form of the utility model can be flexible and changeable, and the series of products can be derived without breaking away from the conception of the utility model. Only a few simple deductions or replacements should be regarded as falling within the scope of patent protection of the utility model determined by the submitted claim.