WO2016165582A1 - 具有超声波加湿功能的取暖器 - Google Patents
具有超声波加湿功能的取暖器 Download PDFInfo
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- WO2016165582A1 WO2016165582A1 PCT/CN2016/078744 CN2016078744W WO2016165582A1 WO 2016165582 A1 WO2016165582 A1 WO 2016165582A1 CN 2016078744 W CN2016078744 W CN 2016078744W WO 2016165582 A1 WO2016165582 A1 WO 2016165582A1
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- water
- water tank
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D13/00—Electric heating systems
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F6/00—Air-humidification, e.g. cooling by humidification
- F24F6/12—Air-humidification, e.g. cooling by humidification by forming water dispersions in the air
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
Definitions
- This invention relates to air conditioning devices, and more particularly to devices that implement a variety of air conditioning functions.
- a heater is a device that converts electrical energy into heat and heats the surrounding air to warm it up for heating purposes. Heaters have been widely used in residential, office, hotels, shopping malls, schools and other civilian and public places. However, when the prior art heater is used, the ambient temperature is lowered to some extent due to the increase of the air temperature, so that the air is relatively dry and people feel uncomfortable. Therefore, there is a need for a heater having a humidifying function to solve the deficiencies of prior art heaters.
- the technical problem to be solved by the present invention is to avoid a disadvantage of the prior art and to propose a heater that achieves both air heating and air humidity.
- a heater having an ultrasonic humidification function including a casing surrounded by a front casing, a rear casing and a top cover, and a power source and a control assembly and a heat generating component which are electrically connected to each other and installed in the casing.
- the heater further includes an ultrasonic humidification assembly mounted within the housing.
- the ultrasonic humidification assembly comprises a water tank fixedly mounted in the casing, an atomization cover fixed on the water tank, a water tank detachably mounted on the water tank, and an electric connection power source and a control component installed at the bottom of the water tank Ultrasonic atomizing sheet, and a mist guiding tube.
- the top cover is processed with a water mist outlet, and the water mist outlet is communicated with the atomization cover by means of a mist guiding tube.
- the structure of the ultrasonic humidification assembly enables water in the water tank to flow into the water tank, and the water tank is filled with a certain amount of water, and the ultrasonic atomization sheet is electrically charged, so that the water in the water tank is atomized into a water mist and enters the atomization cover. Then, the atomized mist is discharged from the water mist outlet of the top cover through the mist guiding tube.
- the ultrasonic humidification assembly further includes a water mist guiding fan disposed at the bottom of the water tank and electrically connected to the power source and the control assembly.
- the air outlet duct of the water mist guiding fan communicates with the inside of the atomizing cover, so that the water mist guiding fan can drive the water mist in the atomizing cover into the guiding mist tube in the power working state.
- the bottom surface of the water tank is convex upward to form a separating boss.
- the water tank is detachably mounted on one side of the separating boss, and the atomizing cover buckle separates the water tank on the other side of the boss, thereby being separated by the side wall of the boss, the atomizing cover and the atomized cover
- the bottom of the water tank of the cover buckle encloses an atomization chamber to make water
- the water in the tank flows into the water box and bypasses the separation boss into the atomization chamber.
- the ultrasonic atomizing sheet is disposed at the bottom of the water box portion enclosing the atomization chamber.
- the partition wall defines an air guiding opening on the vertical wall of the atomizing chamber, so that the lower edge of the air guiding opening is higher than the highest water level in the atomizing chamber, and the water mist guiding fan is installed under the separating boss, thereby An air duct is formed between the air outlet of the water mist guiding fan and the air guiding port.
- the front shell is processed with more than one air outlet through hole
- the rear shell is processed with more than one air inlet through hole.
- the heat generating component includes a heat generating body electrically connected to the power source and the control component, and at least one heat flow driving fan mounted on the back of the heat generating body and electrically connecting the power source and the control component.
- the heating element is mounted in the casing such that the front portion of the heating element faces the front case and the back of the heating element faces the rear case.
- the heater further includes a base, and a housing rotating assembly mounted to the bottom of the housing to electrically connect the power source and the control assembly.
- the rotating shaft of the housing rotating assembly protrudes from the bottom of the housing to connect the base, so that the housing can be rotated on the base by the housing rotating assembly.
- the rear casing is processed with a water tank disassembly window connecting the inside and the outside of the casing, and a water tank disassembling door capable of covering the water tank disassembly window.
- a water tank disassembly window connecting the inside and the outside of the casing, and a water tank disassembling door capable of covering the water tank disassembly window.
- the invention integrates the ultrasonic humidification component into the heater, increases the air humidity while heating the indoor air, and uses a multi-purpose machine to save energy, makes the user feel more comfortable, and optimizes the air mediation effect of the heater.
- FIG. 1 is a schematic exploded perspective view of a preferred embodiment of a "heater with ultrasonic humidification function" of the present invention
- Figure 2 is a schematic elevational view of the back of the preferred embodiment in which the rear housing is not mounted, wherein the warm-up portion of the heater is partially cut away.
- the present invention provides a heater having an ultrasonic humidification function, as shown in FIGS. 1 and 2, including a housing surrounded by a front case 31, a rear case 32 and a top cover 33, which are mounted in the housing and electrically connected to each other.
- Power and control components and heating components input the mains, provide power for each of the electrical devices in the heater, and control various operational functions of the heater.
- the power supply and control components are not specifically drawn in FIGS. 1 and 2, and the power supply is not described later. And control The specific structure of the components will be described in detail.
- the heater further includes an ultrasonic humidification assembly mounted within the housing.
- the ultrasonic humidifying assembly comprises a water tank 12 fixedly mounted in the casing, an atomizing cover 13 attached to the water tank, a water tank 14 removably mounted on the water tank 12, and a bottom mounted on the water tank 12
- An ultrasonic atomizing sheet 11 that connects the power source and the control unit, and a mist guiding tube 15.
- a water mist outlet 16 is formed on the top cover 33, and the water mist outlet 16 is communicated with the atomizing cover 13 via the mist guiding tube 15. As shown in FIG.
- the structure of the ultrasonic humidifying unit enables the water 92 in the water tank 14 to flow into the water tank 12, and the water tank 12 is filled with a predetermined amount of water 92, and the ultrasonic atomizing sheet 11 is electrically charged in the water tank 12.
- the water 92 is atomized into the water mist 91 and enters the atomizing cover 13, and the atomized water, that is, the water mist 91, is discharged from the water mist outlet 16 of the top cover 33 through the mist guiding tube 15 to the casing.
- the structure in which the water tank 14 automatically flows into the water tank 12 is widely used in the prior art based on the principle of the connector, such as the water tub structure of the water dispenser, the water tank structure of the air conditioner fan, and the like, and details are not described herein again.
- the ultrasonic humidification assembly further includes water disposed at the bottom of the water tank 12 to electrically connect the power source and the control assembly.
- the mist guiding fan 17 is provided.
- the air outlet duct of the water mist guiding fan 17 communicates with the inside of the atomizing cover 13, so that the water mist guiding fan 17 can drive the water mist 91 in the atomizing cover 13 into the mist guiding tube 15 in the energized working state.
- the water mist guiding fan 17 operates in a water environment, so as to prevent the water in the water box from causing a short circuit of the water mist guiding fan, so that the water 92 contained in the water tank 12 does not affect the normal operation of the water mist guiding fan 17,
- the bottom surface of the middle portion of the water tank 12 is upwardly convex to form a partition boss 121.
- the water tank 14 is detachably mounted on the side of the partition boss 121, and the atomizing cover 13 covers the water tank 12 on the other side of the boss 121, thereby being separated by the boss 121.
- the side standing wall, the atomizing cover 13 and the bottom of the water tank 12 covered by the atomizing cover 13 enclose the atomizing chamber 18, so that the water flow 92 in the water tank 14 enters the water tank 12 and bypasses the separating boss 121 to enter the atomization.
- the ultrasonic atomizing sheet 11 is disposed at the bottom of a portion of the water tank 12 enclosing the atomizing chamber 18.
- the partitioning boss 121 defines an air guiding port 122 on the vertical wall of the atomizing chamber, so that the lower edge of the air guiding port 122 is higher than the highest water level in the atomizing chamber 18, and the water mist guiding fan 17 is installed at The lower side of the boss 121 is formed to form an air duct between the air outlet of the water mist guiding fan 17 and the air guiding port 122.
- the front casing 31 is processed with more than one air outlet through hole 311, and the rear casing 32 is processed. More than one air inlet through hole 321 .
- the heat generating component includes a heat generating body 2 electrically connected to the power source and the control component, and at least one heat flow driving fan 5 mounted on the back of the heat generating body 2 to electrically connect the power source and the control component. As shown in Figure 2, a preferred embodiment of the present invention provides two heat flow driven fans 5.
- the heating element 2 is mounted in the housing such that the front portion of the heating element 2 faces the front case 31 and the back of the heating element 2 toward the rear case 32, thereby driving the fan 5, the air inlet hole 321 and the air outlet hole by means of heat flow.
- 311 forms convection and improves the efficiency of convective heat exchange between the heating element 2 and the air.
- the heater Also included is a base 34, and a housing rotation assembly 6 mounted to the bottom of the housing, electrically connecting the power source and the control assembly.
- the rotating shaft of the housing rotating assembly 6 protrudes from the bottom of the housing to connect the base 34.
- the housing rotating assembly 6 should include a driving motor and a transmission structure to output the output torque of the driving motor to the rotating shaft, and the prior art also There are various specific structures for realizing the function of the housing rotation assembly 6, and details are not described herein again.
- the housing is rotatable on the base 34 by means of the housing rotation assembly 6.
- the rear casing 32 is processed with a water tank disassembly window 322 communicating with the inside and outside of the casing, and a water tank disassembly window 322 capable of covering the water tank.
- the water tank is disassembled and assembled. Since the door structure of a plurality of cover windows exists in the prior art, the water tank disassembly door is not drawn in FIG. When the water tank 14 is disassembled, the water tank detaching door is opened, and the water tank 14 can be inserted into the casing or taken out from the casing by means of the water tank detaching window 322.
- the water tank detaching door is opened, and the water tank 14 is installed on the water tank 12 through the water tank detaching window 322.
- the water 92 in the water tank 14 flows into the water tank 12, and the water in the water tank 12 is wound.
- the separation boss 122 flows into the atomization chamber 18 in the atomization cover 13.
- the power supply and the control component supply power to the respective electrical components, and the heating element 2 is electrically converted to convert the electrical energy into thermal energy, and the fan 5, the air inlet through hole 321 and the air outlet through hole 311 are driven by the heat flow to pass the air outside the heater through the heating element 2
- the utility model is heated and blown out of the heater to realize air heating and heating function for the user; the ultrasonic atomizing sheet 11 is electrically charged, so that the water 92 in the water tank 12 is atomized into the water mist 91 and enters the atomizing cover 13 to be atomized.
- the water, that is, the water mist 91 is discharged from the water mist outlet 16 of the top cover 33 through the mist guiding pipe 15 to realize the function of humidifying the air. Therefore, the "heater with ultrasonic humidification function" of the invention not only achieves air heating, but also humidifies the air to form a warm and humid air environment.
- the invention integrates the ultrasonic humidification component into the heater, increases the air humidity while heating the indoor air, and uses a multi-purpose machine to save energy, makes the user feel more comfortable, and optimizes the air mediation effect of the heater.
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Abstract
一种具有超声波加湿功能的取暖器,包括壳体、发热组件和超声波加湿组件,超声波加湿组件包括水盒(12)、雾化罩(13)、水箱(14)、超声波雾化片(11)和导雾管(15),顶盖(33)上加工有与雾化罩(13)连通的水雾出口(16),超声波雾化片(11)得电使水盒(12)内的水(92)被雾化成水雾(91)而进入雾化罩(13)内,进而雾化的水雾(91)通过导雾管(15)从顶盖的水雾出口(16)排出壳体。
Description
本发明涉及空气调节装置,特别是涉及实现多种空气调节功能的装置。
取暖器是一种能够将电能转变成热能,给周围空气加热使其升温,从而达到取暖目的的一种设备。取暖器已经广泛用于住宅、办公场所、宾馆、商场、学校等各类民用与公用场所。但是,现有技术取暖器在使用的时候,由于空气温度的增加,不同程度地导致环境湿度的降低,使得空气比较干燥,让人感觉不适。因此需要有一种具有加湿功能的取暖器,来解决现有技术取暖器的不足之处。
发明内容
本发明要解决的技术问题在于避免现有技术的不足之处而提出一种既实现空气加热取暖又令空气湿度保持湿润的取暖器。
本发明解决所述技术问题可以通过采用以下技术方案来实现:
设计、制造一种具有超声波加湿功能的取暖器,包括由前壳、后壳和顶盖围成的壳体,安装在壳体内的、互相电连接的电源及控制组件和发热组件。尤其是,所述取暖器还包括安装在壳体内的超声波加湿组件。该超声波加湿组件包括固定安装在壳体内的水盒,罩扣在水盒上的雾化罩,可拆装地安装在水盒上的水箱,安装在水盒底部的、电连接电源及控制组件的超声波雾化片,以及导雾管。所述顶盖上加工有水雾出口,借助导雾管将水雾出口与雾化罩连通。所述超声波加湿组件的结构使水箱内的水能够流入水盒内,保持水盒内装有定量的水,超声波雾化片得电使水盒内的水被雾化成水雾而进入雾化罩内,进而雾化的水雾通过导雾管从顶盖的水雾出口排出壳体。
为了促进雾化后的水能够尽快排出取暖器,所述超声波加湿组件还包括设置在水盒底部、电连接电源及控制组件的水雾导流风扇。该水雾导流风扇的出风风道连通雾化罩内部,从而水雾导流风扇在得电工作状态能够驱使雾化罩内的水雾排入导雾管内。
为使水盒内盛装的水不致影响水雾导流风扇的正常工作,所述水盒中部底面向上凸起而形成分隔凸台。所述水箱可拆装地安装在分隔凸台一侧,所述雾化罩罩扣分隔凸台另一侧的水盒,从而由分隔凸台一侧立壁、雾化罩和被雾化罩所罩扣的水盒底部围成雾化腔室,使水
箱内的水流入水盒并绕过分隔凸台而进入雾化腔室内。所述超声波雾化片设置在围成雾化腔室的水盒部分底部。所述分隔凸台围成雾化腔室的立壁上设置有一导风口,使导风口的下沿高于雾化腔室内的最高水位,所述水雾导流风扇安装在分隔凸台下方,从而在水雾导流风扇出风口至导风口之间形成出风风道。
为了获得更好的取暖效果,所述前壳上加工有一个以上的出风通孔,所述后壳上加工有一个以上的进风通孔。所述发热组件包括电连接电源及控制组件的发热体,以及安装在发热体背部、电连接电源及控制组件的至少一热流驱动风扇。所述发热体安装在壳体内,使该发热体的前部朝向前壳、发热体的背部朝向后壳。
为了增大被加热空气的区域范围,所述取暖器还包括底座,以及安装在壳体内底部、电连接电源及控制组件的壳体转动组件。该壳体转动组件的转动轴从壳体底部伸出而连接底座,从而借助壳体转动组件使壳体能够在底座上转动。
为便于水箱的拆装,所述后壳上加工有连通壳体内外的水箱拆装窗口,以及能够封盖该水箱拆装窗口的水箱拆装门。借助该水箱拆装窗口,所述水箱能够装入壳体内,或者从壳体内取出。
同现有技术相比较,本发明“具有超声波加湿功能的取暖器”的技术效果在于:
本发明将超声波加湿组件整合到取暖器内,在加热室内空气的同时,增加空气湿度,一机多用,节省能源,令使用者感到更加舒适,优化了取暖器的空气调解效果。
图1是本发明“具有超声波加湿功能的取暖器”优选实施例的分解状态轴测投影示意图;
图2是所述优选实施例未安装后壳时背部正投影示意图,其中取暖器下班部分被局部剖开。
以下结合附图所示优选实施例作进一步详述。
本发明提出一种具有超声波加湿功能的取暖器,如图1和图2所示,包括由前壳31、后壳32和顶盖33围成的壳体,安装在壳体内的、互相电连接的电源及控制组件和发热组件。所述电源及控制组件输入市电,为取暖器内各用电器件提供电源,并且控制取暖器的各项操作功能。现有技术已经有多种类型电源器件,控制部件,以及它们结合在一起的电源及控制组件的实例,因此图1和图2中都没有具体绘制电源及控制组件,并且后文不再对电源及控
制组件的具体结构进行赘述。所述取暖器还包括安装在壳体内的超声波加湿组件。该超声波加湿组件包括固定安装在壳体内的水盒12,罩扣在水盒上的雾化罩13,可拆装地安装在水盒12上的水箱14,安装在水盒12底部的、电连接电源及控制组件的超声波雾化片11,以及导雾管15。所述顶盖33上加工有水雾出口16,借助导雾管15将水雾出口16与雾化罩13连通。如图2所示,所述超声波加湿组件的结构使水箱14内的水92能够流入水盒12内,保持水盒12内装有定量的水92,超声波雾化片11得电使水盒12内的水92被雾化成水雾91而进入雾化罩13内,进而雾化的水,即水雾91通过导雾管15从顶盖33的水雾出口16排出壳体。所述水箱14自动流入水盒12的结构基于连通器原理在现有技术多有采用,例如饮水机的水桶结构、空调扇的水箱结构等,此处不再赘述。
为了促进雾化后的水能够尽快排出取暖器,本发明优选实施例,如图1和图2所示,所述超声波加湿组件还包括设置在水盒12底部、电连接电源及控制组件的水雾导流风扇17。该水雾导流风扇17的出风风道连通雾化罩13内部,从而水雾导流风扇17在得电工作状态能够驱使雾化罩13内的水雾91排入导雾管15内。
所述水雾导流风扇17工作在水环境内,为防止水盒内的水造成水雾导流风扇短路,使水盒12内盛装的水92不致影响水雾导流风扇17的正常工作,所述水盒12中部底面向上凸起而形成分隔凸台121。如图2所示,所述水箱14可拆装地安装在分隔凸台121一侧,所述雾化罩13罩扣分隔凸台121另一侧的水盒12,从而由分隔凸台121一侧立壁、雾化罩13和被雾化罩13所罩扣的水盒12底部围成雾化腔室18,使水箱14内的水流92入水盒12并绕过分隔凸台121而进入雾化腔室18内。所述超声波雾化片11设置在围成雾化腔室18的水盒12部分的底部。所述分隔凸台121围成雾化腔室的立壁上设置有一导风口122,使导风口122的下沿高于雾化腔室18内的最高水位,所述水雾导流风扇17安装在分隔凸台121下方,从而在水雾导流风扇17出风口至导风口122之间形成出风风道。
为了获得更好的取暖效果,提高空气对流效率,本发明优选实施例,如图1所示,所述前壳31上加工有一个以上的出风通孔311,所述后壳32上加工有一个以上的进风通孔321。所述发热组件包括电连接电源及控制组件的发热体2,以及安装在发热体2背部、电连接电源及控制组件的至少一热流驱动风扇5。如图2所示,本发明优选实施例设置两热流驱动风扇5。所述发热体2安装在壳体内,使该发热体2的前部朝向前壳31、发热体2的背部朝向后壳32,从而借助热流驱动风扇5、进风通孔321和出风通孔311形成对流,提高发热体2与空气进行对流热交换的效率。
为了增大被加热空气的区域范围,本发明优选实施例,如图1和图2所示,所述取暖器
还包括底座34,以及安装在壳体内底部、电连接电源及控制组件的壳体转动组件6。该壳体转动组件6的转动轴从壳体底部伸出而连接底座34,所述壳体转动组件6应当包括驱动电机和传动结构,将驱动电机输出转矩输出至转动轴,现有技术也存在多种实现壳体转动组件6功能的具体结构,此处不再赘述。借助壳体转动组件6使壳体能够在底座34上转动。
为便于水箱14的拆装,本发明优选实施例,如图1所示,所述后壳32上加工有连通壳体内外的水箱拆装窗口322,以及能够封盖该水箱拆装窗口322的水箱拆装门。由于现有技术存在多种封盖窗口的门结构可供借鉴,图1中未绘制水箱拆装门。在进行水箱14拆装时,打开水箱拆装门,借助水箱拆装窗口322,所述水箱14能够装入壳体内,或者从壳体内取出。
本发明优选实施例的使用过程是,打开水箱拆装门,通过水箱拆装窗口322将水箱14安装在水盒12上,水箱14内的水92流入水盒12,水盒12内的水绕过分隔凸台122流入雾化罩13内的雾化腔室18内。电源及控制组件为各用电器件供电,发热体2得电将电能转换成热能,借助热流驱动风扇5、进风通孔321和出风通孔311令取暖器外的空气经过发热体2而被加热吹出取暖器,实现空气加热进而为使用者取暖的功能;超声波雾化片11得电使水盒12内的水92被雾化成水雾91而进入雾化罩13内,进而雾化的水,即水雾91通过导雾管15从顶盖33的水雾出口16排出壳体,实现空气加湿的功能。从而本发明“具有超声波加湿功能的取暖器”既实现空气加热,又实现空气加湿,形成温暖湿润的空气环境。
本发明将超声波加湿组件整合到取暖器内,在加热室内空气的同时,增加空气湿度,一机多用,节省能源,令使用者感到更加舒适,优化了取暖器的空气调解效果。
Claims (6)
- 一种具有超声波加湿功能的取暖器,包括由前壳、后壳和顶盖围成的壳体,安装在壳体内的、互相电连接的电源及控制组件和发热组件;其特征在于:还包括安装在壳体内的超声波加湿组件;该超声波加湿组件包括固定安装在壳体内的水盒,罩扣在水盒上的雾化罩,可拆装地安装在水盒上的水箱,安装在水盒底部的、电连接电源及控制组件的超声波雾化片,以及导雾管;所述顶盖上加工有水雾出口,借助导雾管将水雾出口与雾化罩连通;所述超声波加湿组件的结构使水箱内的水能够流入水盒内,保持水盒内装有定量的水,超声波雾化片得电使水盒内的水被雾化成水雾而进入雾化罩内,进而雾化的水雾通过导雾管从顶盖的水雾出口排出壳体。
- 根据权利要求1所述的具有超声波加湿功能的取暖器,其特征在于:所述超声波加湿组件还包括设置在水盒底部、电连接电源及控制组件的水雾导流风扇;该水雾导流风扇的出风风道连通雾化罩内部,从而水雾导流风扇在得电工作状态能够驱使雾化罩内的水雾排入导雾管内。
- 根据权利要求2所述的具有超声波加湿功能的取暖器,其特征在于:所述水盒中部底面向上凸起而形成分隔凸台;所述水箱可拆装地安装在分隔凸台一侧,所述雾化罩罩扣分隔凸台另一侧的水盒,从而由分隔凸台一侧立壁、雾化罩和被雾化罩所罩扣的水盒底部围成雾化腔室,使水箱内的水流入水盒并绕过分隔凸台而进入雾化腔室内;所述超声波雾化片设置在围成雾化腔室的水盒部分的底部;所述分隔凸台围成雾化腔室的立壁上设置有一导风口,使导风口的下沿高于雾化腔室内的最高水位,所述水雾导流风扇安装在分隔凸台下方,从而在水雾导流风扇出风口至导风口之间形成出风风道。
- 根据权利要求1至3之任一所述的具有超声波加湿功能的取暖器,其特征在于:所述前壳上加工有一个以上的出风通孔,所述后壳上加工有一个以上的进风通孔;所述发热组件包括电连接电源及控制组件的发热体,以及安装在发热体背部、电连接电源及控制组件的至少一热流驱动风扇;所述发热体安装在壳体内,使该发热体的前部朝向前壳、发热体的背部朝向后壳。
- 根据权利要求1至3之任一所述的具有超声波加湿功能的取暖器,其特征在于:还包括底座,以及安装在壳体内底部、电连接电源及控制组件的壳体转动组件;该壳体转动组件的转动轴从壳体底部伸出而连接底座,从而借助壳体转动组件使壳体能够在底座上转动。
- 根据权利要求1至3之任一所述的具有超声波加湿功能的取暖器,其特征在于:所述后壳上加工有连通壳体内外的水箱拆装窗口,以及能够封盖该水箱拆装窗口的水箱拆装门;借助该水箱拆装窗口,所述水箱能够装入壳体内,或者从壳体内取出。
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