Water tank and humidifier
Technical Field
The utility model relates to a domestic appliance field, concretely relates to water tank and humidifier.
Background
In dry autumn and winter, the relative humidity of air is low, which has adverse effect on respiratory tract systems of people, and in order to humidify the air and increase the air humidity, the humidifier is produced. Most of the mainstream humidifiers in the market at present adopt an ultrasonic oscillation technology, so that water in the humidifier is changed into water mist with small water drops as a main form and is applied to the air, and the water drops are difficult to directly increase the air humidity due to large water drops and easily drip on a table top or the ground around the humidifier, so that the table top or the ground is wetted; if a user uses tap water, calcium and magnesium ions in the water are dropped into the air along with the water drops, so that powdery mildew is easily formed on the surface of the house, and bad experience is caused for the user. The evaporative humidifier evaporates liquid water into gaseous water molecules through the air duct, and the gaseous water molecules are discharged into the air, so that the air humidity is directly and rapidly increased, the desk top or the ground cannot be wetted, and white powder is not generated. The existing evaporative humidifier on the market has the problems of low humidification efficiency, inconvenience in water adding, complex air duct assembly, inconvenience in water tank cleaning and the like. The design of wind channel is optimized to this scheme, has effectively improved the humidification efficiency of humidifier, makes to add water, the water tank washs more conveniently, and the outward appearance is clean and tidy.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at solving one of the technical problem that exists among the prior art at least, provide a water tank and a humidifier.
In a first aspect of the present invention, there is provided a water tank for a humidifier, the water tank comprising an outer shell and an inner shell disposed within the outer shell, a water storage chamber being disposed within the inner shell,
the inner shell with the shell links to each other and is provided with the wind channel between the two, the wind channel runs through the water tank.
Optionally, the inner shell includes the wind channel wall and with the first connecting wall that the wind channel wall is connected, the wind channel wall with be provided with between the inside wall of shell the wind channel, first connecting wall with the shell inside wall is connected.
Optionally, the inner shell further includes a second connecting wall, and the second connecting wall is respectively connected to the air duct wall and the inner side wall of the outer shell.
Optionally, the second connecting wall and the first connecting wall are symmetrically arranged relative to the inner shell.
Optionally, the air duct is annular.
Optionally, the first connecting wall includes a first connecting sub-wall and a second connecting sub-wall which are oppositely spaced, the second connecting wall includes a third connecting sub-wall and a fourth connecting sub-wall which are oppositely spaced, and the air duct wall includes a first annular air duct wall and a second annular air duct wall; wherein,
two ends of the first annular air duct wall are respectively connected with the first connector wall and the third connector wall;
and two ends of the second annular air duct wall are respectively connected with the second connector wall and the fourth connector wall.
Optionally, the first annular air duct wall and the second annular air duct wall are symmetrically arranged with respect to the inner casing.
Optionally, a water level observation window is further arranged on the outer side wall of the outer shell, the water level observation window corresponds to the first connecting wall in position, and the water level observation window penetrates through the outer side wall of the outer shell to be communicated with the inside of the inner shell.
Optionally, when the water tank includes the second connecting wall, an overflow hole is further formed in the outer side wall of the outer shell, the overflow hole corresponds to the second connecting wall in position and is consistent with the set water level, and the overflow hole penetrates through the outer side wall of the outer shell to be communicated with the inside of the inner shell.
A second aspect of the present invention provides a humidifier, comprising a water tank as described above.
The water tank of the utility model adopts a structure that the air channel and the water tank are integrated, the air channel is designed into an annular air channel, the ventilation volume is effectively increased, the structure is simplified, the cost is reduced, the installation is convenient, the complicated and fussy steps of disassembling and installing the air channel assembly are not needed, in addition, the inner side wall of the water tank is smooth, and the cleaning is convenient; secondly, be equipped with overflow hole and observation window on the water tank lateral wall, when water exceeded when setting for the water level, the automatic overflow hole of following of water in the inner shell flows, also can watch the water level in the inner shell at any time through the observation window, in addition, the utility model provides a water tank is used for the humidifier, is convenient for business turn over the safety in utilization of wind in order to improve humidification efficiency and humidifier.
Drawings
Fig. 1 is a schematic view of a three-dimensional structure of a water tank according to an embodiment of the present invention;
fig. 2 is a top view of the water tank in fig. 1 according to the embodiment of the present invention.
Detailed Description
In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
As shown in fig. 1 and 2, a first aspect of the present invention provides a water tank 100 for a humidifier, the water tank 100 including an outer shell 110 and an inner shell disposed in the outer shell 110, a water storage chamber 130 being disposed in the inner shell, and an air duct 140 being connected to the inner shell and the outer shell 110 and disposed therebetween, the air duct 140 penetrating the water tank 100. That is to say, this wind channel 140 all communicates with the outside from top to bottom to have great air volume, improve business turn over wind efficiency, this water storage chamber can effectively increase the air volume with wind channel in the structure of an organic whole, simplify structure, reduce cost, simple to operate, do not need the complicated loaded down with trivial details step of dismantling installation wind channel subassembly, increase product appearance aesthetic property, secondly, the water tank inside wall is smooth in this embodiment, the washing of being convenient for.
It should be noted that, in order to further improve the air inlet and outlet efficiency, the air duct 140 is configured to be annular, as shown in fig. 1 and fig. 2.
Specifically, as shown in fig. 1 and 2, the inner casing includes air duct walls (121, 122) and a first connecting wall 151 connected to the air duct walls (121, 122), an air duct 140 is disposed between the air ducts (121, 122) and an inner side wall of the outer casing 110, and the first connecting wall 151 is connected to the inner side wall of the outer casing 110. The inner case further includes a second connection wall 152, and the second connection wall 152 connects the air duct walls (121, 122) and the inner side wall of the outer case 110, respectively. The second connecting wall 152 and the first connecting wall 151 are symmetrically disposed relative to the inner case. That is, the inner shell includes the air duct wall 140, the first connecting wall 151 and the second connecting wall 152, and the water storage cavity 130 defined by the air duct walls (121, 122), the first connecting wall 151 and the second connecting wall 152, in this embodiment, the first connecting wall 151 and the second connecting wall 152 are symmetrically disposed with respect to the inner shell, and of course, those skilled in the art can select other positions to dispose the first connecting wall and the second connecting wall according to actual needs, which is not limited herein.
Specifically, as shown in fig. 1 and 2, the first connecting wall 151 includes a first connecting sub-wall 151a and a second connecting sub-wall 151b that are oppositely spaced, the second connecting wall 152 includes a third connecting sub-wall 152a and a fourth connecting sub-wall 152b that are oppositely spaced, and the air duct wall includes a first annular air duct wall 121 and a second annular air duct wall 122, wherein both ends of the first annular air duct wall 121 are respectively connected to the first connecting sub-wall 151a and the third connecting sub-wall 152 a. Both ends of the second annular air duct wall 122 are connected to the second and fourth connection sub-walls 151b and 152b, respectively. Optionally, the first annular duct wall 121 and the second annular duct wall 122 are symmetrically disposed with respect to the inner casing.
That is, the annular air duct wall is provided with a first connecting wall 151 and a second connecting wall 152 along two ends of the diameter of the inner casing, the connecting walls divide the annular air duct wall into two parts, and the first connecting sub-wall 151a, the second connecting sub-wall 151b, the third connecting sub-wall 152a and the fourth connecting sub-wall 152b connect the two parts of the annular air duct wall respectively to form a closed air duct wall, so that the ventilation amount is effectively increased, and the humidification amount is ensured to the maximum extent.
Optionally, as shown in fig. 1, a water level observation window 160 is further disposed on an outer sidewall of the outer casing 110, the water level observation window 160 corresponds to the first connection wall 151, and the water level observation window 160 penetrates through the outer sidewall of the outer casing 110 to communicate with the inside of the inner casing. That is, the first connecting wall 151 is mainly used to connect the water level observation window 160 disposed on the outer side wall of the outer casing 110 with the annular air ducts (121, 122), so that the water level change in the inner casing can be directly observed from the outside in real time through the water level observation window 160, thereby improving the safety of the water tank. It should be noted that the water level observation window 160 may be made of an ultrasonic welding transparent material.
Optionally, as shown in fig. 1, when the water tank 100 includes the second connecting wall 152, an overflow hole 170 is further provided on an outer side wall of the outer shell 110, the overflow hole 170 corresponds to the second connecting wall 152 and is at a same height as the set water level, and the overflow hole 170 penetrates through the outer side wall of the outer shell 110 to communicate with the inside of the inner shell. That is, the second connecting wall 152 is mainly used to connect the overflow holes 170 provided on the outer side wall of the outer shell 110 with the annular air ducts (121, 122), and when the water exceeds the set water level, the water in the inner shell automatically flows out from the overflow holes 170, so as to ensure the safety of use.
The utility model discloses a water tank adopts wind channel and water tank in structure of an organic whole, is the annular air duct with the wind channel design, effectively increases the air volume, simplifies structure, reduce cost, simple to operate, does not need complicated loaded down with trivial details step of dismantling installation wind channel subassembly, increases the outward appearance clean and tidy nature of product. In addition, the inner side wall of the water tank is smooth, so that the water tank is convenient to clean; secondly, be equipped with overflow hole and observation window on the water tank lateral wall, when water exceeded and set for the water level, the water in the inner shell is automatic to be followed overflow hole and is flowed, also can see the water level in the inner shell at any time through the observation window.
The second aspect of the present invention provides a humidifier, which comprises the water tank 100 described above, and the specific structure of the water tank 100 is described above, which is not described herein. The utility model provides a water tank is used for the humidifier to improve the business turn over wind efficiency of humidifier, thereby improve the safety in utilization of humidification efficiency and humidifier.
It is to be understood that the above embodiments are merely exemplary embodiments that have been employed to illustrate the principles of the present invention, and that the present invention is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.