The present disclosure relates to a humidifier for increasing humidity in air, and more particularly, to a vaporization-type (blowing-type) humidifier performing humidification by vaporizing water through a humidification filter (a humidification member).
In general, a humidifier artificially generating and releasing moisture to increase indoor humidity includes a heating-type humidifier using a method of spraying water vapor generated by heating water stored in a water tank to a predetermined temperature according to a method of generating moisture indoors, an ultrasonic-type humidifier using a method of ultrasonically vibrating stored water in a water tank to release fine water particles indoors, and a combination-type humidifier equipped with a heating-type humidification method and an ultrasonic-type humidification method at the same time.
Recently, a vaporization-type (a blowing-type) humidifier using methods such as vaporizing water moved to an upper side of the humidification filter by blowing after immersing the humidification filter (the humidification member), or rotating a part of the humidification filter made of a plurality of disks in a state of being immersed in a water tank to vaporize water attached to a surface of the disk by blowing, are also used.
In general, in the case of a vaporization-type humidifier, as a blowing fan intakes outside air, the air intaken by the blowing fan is atomized while passing through the humidification filter. Atomized air is discharged through an air outlet of the humidifier, to humidify a dry room.
This vaporization-type humidifier uses a water tank accommodating water supplied from the water tank, and the humidification filter is immersed in the water stored in the water tank.
In the case of a conventional vaporization-type humidifier, there is a problem in that even after humidification is complete, water may remain in the water container, causing mold or scale, water scale, or bacterial growth in the water tank.
In addition, in the case of a conventional vaporization-type humidifier, there may be a problem that humidification is performed by the water stored in the water tank even when humidification is not desired.
In the case of a conventional vaporization-type humidifier, there may be a problem in that cleaning is difficult due to parts installed in the water tank.
The present disclosure has been devised to solve at least a portion of the problems of the prior art as described above, and an aspect of the present disclosure is to provide a humidifier capable of blocking a supply of water to a water tank when humidification is not desired or when humidification is complete.
An aspect of the present disclosure is to provide a humidifier that can be easily cleaned.
An aspect of the present disclosure is to provide a humidifier capable of preventing water from remaining in a water tank.
An aspect of the present disclosure is to provide a humidifier capable of adjusting a water level supplied to a water tank.
An aspect of the present disclosure is to provide a humidifier that can be safely used even when a power supply to the humidifier is cut off.
According to an aspect of the present disclosure, a humidifier is provided. The humidifier includes: a water tank which is installed inside a housing and stores water; a humidification member which is immersed in the water stored in the water tank and performs humidification; a water container provided with an opening/closing valve which is opened and closed to supply water stored therein to the water tank; a water container support member which is detachably mounted on an upper portion of the water tank and on which the water container is seated; and a water supply control member which is mounted on the water container support member and opens and closes the opening/closing valve so that the water can be supplied from the water container to the water tank.
In addition, the water supply control member includes a shaft mounted on the water container support member, a lifting and lowering unit formed to extend to one side of the shaft and moved to ascend and descend to press the opening/closing valve, and an operating unit formed to extend to the other side of the shaft. The lifting and lowering unit may be rotated about the shaft as an axis and ascend and descend, according to the movement of the operating unit.
The water container support member may include a rotation support unit on which the shaft is rotatably installed.
In addition, according to an aspect of the present disclosure, the humidifier may further include a driving unit for rotating the operating unit of the water supply control member about the shaft. In this case, the driving unit may be disposed in the housing.
The water supply control member may include a protrusion unit formed upwardly of the operation unit to protrude, and a contact member in contact with the protrusion unit to slidably move so that the lifting and lowering unit rises, and the driving unit may be configured to slidably move the contact member. In this case, the driving unit may include a driving gear that is rotated by a motor and engaged with a rack gear unit formed on the contact member.
In addition, as another embodiment, a first magnet member may be installed in the operating unit, the driving unit may include a second magnet member applying attractive force to the first magnet member. In this case, the driving unit may include a wheel member rotating about a wheel shaft, and the second magnet member may be configured to approach or to be moved away from the first magnet member as it is installed on the wheel member and rotates about the wheel shaft.
In addition, as an aspect of the present disclosure, a humidifier is provided. The humidifier includes: a water tank installed inside a housing, and storing water thereinside; a humidification member immersed in the water stored in the water tank and performing humidification; a water container provided with an opening/closing valve which is opened and closed to supply water stored therein to the water tank; and a water supply control member mounted on a base unit of the housing and configured to open and close the opening/closing valve by magnetic force so that water can be supplied from the water container to the water tank.
In this case, a magnetic force member is mounted on a front end of the opening/closing valve, and the water supply control member may include a solenoid magnet mounted on the base unit, and may be configured to open the opening/closing valve as magnetic force is applied to the solenoid magnet.
The opening/closing valve may include a cap member coupled to an inlet of the water container, a sealing member for sealing an outlet formed in the cap member, a rod member for lifting and lowering the sealing member, and an elastic member for providing elastic force to seal the outlet of the cap member.
In addition, the humidifier according to an aspect of the present disclosure may further include: a water level sensor for measuring a water level within in the water tank; and a control unit configured to control movement of the water supply control member to open and close the opening/closing valve according to the water level detected by the water level sensor.
In addition, the humidifier according to an aspect of the present disclosure may further include: an auxiliary power supply unit for supplying reserve power when a power supply is cut off; and a control unit for controlling the movement of the water supply control member, wherein the control unit may be configured to return the water supply control member to an initial position using power of the auxiliary power supply unit so that the opening/closing valve is in a closed state when the power supply is cut off.
In addition, the humidifier according to an aspect of the present disclosure further includes: a blowing unit proving blowing force so that air introduced from an air inlet flows to an air outlet through the humidification member; a guide unit for guiding an user to an abnormal state; and a control unit for controlling driving of the blowing unit, wherein the control unit may guide the user so that the user can empty the water tank after a predetermined time has elapsed after the driving of the blowing unit is finished through the guide unit.
The humidifier according to an aspect of the present disclosure may further include an air purifying filter for purifying the air introduced from an air inlet.
According to an embodiment of the present disclosure, when humidification is not desired or when humidification is complete, a water supply (a supply of water?) to the water tank may be blocked through the water supply control member, thereby contributing to the user's convenience.
In addition, according to an embodiment of the present disclosure, since the water supply control member does not exist on an inner surface of the water tank, it is possible to obtain an effect that the water tank may be easily cleaned.
According to an embodiment of the present disclosure, it is possible to prevent water from remaining in the water tank, so that it is possible to obtain an effect of minimizing occurrence or proliferation of water scale, scale, mold, bacteria, or the like, in the water tank.
In addition, according to an embodiment of the present disclosure, there is an effect that the water level supplied to the water tank can be properly maintained.
According to an embodiment of the present disclosure, even when power supply to the humidifier is cut off, the water supply to the water tank may be stopped, so that safety accidents such as electric shock or fire can be prevented.
Hereinafter, embodiments in the present disclosure will be described hereinafter with reference to the accompanying drawings. The disclosure may, however, be exemplified in many different forms and should not be construed as being limited to the specific embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. In the drawings, the same reference numerals will be used throughout to designate the same or like elements, and the shapes and dimensions of elements may be exaggerated for clarity.
In addition, the same reference numerals will be used throughout the drawings for elements having the same or similar functions and operations.
Hereinafter, embodiments of the present disclosure will be described with reference to the drawings.
First, a humidifier according to an embodiment of the present disclosure will be described with reference to
As shown in
First, the housing 110 may constitute an exterior of the humidifier 100 according to an embodiment of the present disclosure, and may include an air inlet 111 through which external air is intaken into the housing 110, and an air outlet 112 from which internal air is discharged externally. As shown in
In addition, an air purifying filter 120 may be provided inside the housing 110 to filter (purify) air introduced from the air inlet 111.
The air purifying filter 120 may be installed on a front surface of the blowing unit 190 so that the air introduced from the air inlet 111 may be filtered by the air purifying filter 120 and then flow into the blowing unit 190, but the installation location thereof is not limited.
For example, the air purifying filter 120 may be disposed in an air flow passage at a rear end of the air inlet 111. The air purifying filter 120 may be configured in a rectangular shape corresponding to a shape and a cross-sectional area of the air flow passage, and thereby, the entire amount of air introduced through the air inlet 111 of the housing 110 may pass through the air purifying filter 120. However, the shape of the air purifying filter 120 is not limited thereto, and various known filters may be used. For example, the air purifying filter 120 may be formed of a three-dimensional filter having a circular or square cross-section and having a space formed therein.
In addition, the air purifying filter 120 may be selected from filters having various shapes and functions, and the type, number, shape, and the like, of the filters are not limited to the example shown in
The blowing unit 190 provides blowing force so that the air introduced from the air inlet 111 flows to the air outlet 112 through the humidification member 140. An air flow passage through which air flows by driving the blowing unit 190 is formed between the air inlet 111 and the air outlet 112, and this air flow path can be variously changed according to the positions of the air inlet 111 and the air outlet 112, and the intaken/discharge position and direction of the blowing unit 190.
In addition, the blowing unit 190 includes a blowing fan 191 for flowing air, and a fan motor 192 for driving the blowing fan 191. As shown in
The water tank 130 is installed inside the housing 110 and includes a water accommodation space 131 for accommodating water.
In addition, a water level sensor LS may be installed in the water tank 130 to detect a water level of the water stored in the water tank 130. The water level sensor LS may be configured to measure a full water level indicating a state in which the water tank 130 is full of water or a low water level indicating a state in which the water tank 130 is empty. Such a water level sensor LS may be installed inside the water tank 130, but when the water level sensor LS is installed outside of the water tank 130 for easy cleaning of the water tank 130 and the water tank 130 is coupled, it may be configured to measure the water level using capacitance, or the like.
The humidification member 140 is immersed in the water stored in the water accommodation space 131 of the water tank 130 to absorb water to perform humidification. That is, the air flow generated by an operation of the blowing unit 190, which will be described later, is humidified while passing through the humidification member 140. The humidification member 140 may be configured to have a material or shape having excellent hygroscopicity so as to sufficiently absorb the water stored in the water tank 130. However, the humidification member 140 is not limited to a hygroscopic material or shape, and various types of humidification members used in known vaporization-type humidifiers, such as a disk-shaped member, may be used.
In addition, the water container 150 is configured to store water in an internal space formed in a water container body 151 to supply water to the humidification member 140. The water container 150 may have a structure that is separated from the humidifier 100 to easily fill an inside of the water container 150 with water, but is not limited thereto.
The water container 150 may include an opening/closing valve 153 that opens and closes to supply the water stored in the water container body 151 to the water tank 130. This opening/closing valve 153 may be installed in a cap structure screwed to an inlet of the water container 150, and may have a mechanical valve structure.
For example, as shown in
In addition, the water container support member 160 is detachably installed on an upper portion of the water tank 130, and allows the water container 150 to be seated on a seating surface 162 when the water container 150 is installed in the water tank 130. That is, as shown in
The water supply control member 170 is installed on the water container support member 160 and is configured to open and close the opening/closing valve 153 so that water can be supplied from the water container 150 to the water tank 130. This water supply control member 170 is not installed on the bottom surface of the water tank 130, but is installed on the water container support member 160, detachable from the water tank 130, so that it does not affect the cleaning of the water tank 130.
As an example, referring to
As described above, as the operating unit 171 moves in a vertical direction, as the operation unit 171 moves in the vertical direction, the lifting and lowering pressing unit 177 moves to ascend and descend while rotating the shaft 176 as an axis, thereby, the lifting and lowering pressing unit 177 presses the rod member 156 of the opening/closing valve 153 to open the outlet of the cap member 154.
The driving unit 180 is configured to rotate the operating unit 171 of the water supply control member 170 about the shaft 176. The driving unit 180 may be disposed in the housing 110 because power supply is required to move the operating unit 171. That is, by installing the driving unit 180 in a base unit 115 of the housing 110, adjacent to the water tank 130, a separation operation of the water tank 130 for cleaning does not affect the driving unit 180.
An example of the operation of the driving unit 180 and the operating unit 171 of the water supply control member 170 will be described with reference to
The water supply control member 170 includes a protrusion unit 172 formed to protrude upwardly of the operating unit 171, and a contact member 173, which slidably moves to come into contact with the protrusion unit 172.
The contact member 173 is configured to be exposed to an upper side of the water container support member 160 through a mounting opening 163 formed in the water container support member 160, and a rack gear unit 173a is formed on one side of the contact member 173.
In addition, the driving unit 180 includes a driving gear 181 that is rotated by a motor (not shown), and may be configured such that the driving gear 181 is engaged with a rack gear unit 173a of the contact member 173 and rotates to slidably move the contact member 173.
Referring to
Referring to
As described above, by performing opening and closing of the opening/closing valve 153 through the configuration of the driving unit 180 and the water supply control member 170, it is possible to control the supply of water from the water container 150 to the water tank 130.
Meanwhile, the humidifier according to an embodiment of the present disclosure may include a control unit (C) for controlling driving of the driving unit 180 to move the water supply control member 170. The control unit (C) is configured to move the water supply control member 170 by controlling driving of the driving unit 180 to open and close the opening/closing valve 153 according to a water level detected by the water level sensor LS.
For example, when the water level detected by the water level sensor LS corresponds to a full water level of the water tank 130, the control unit C may control the driving of the driving unit 180 to close the opening/closing valve 153 to block water supply to the water tank 130. Conversely, when the water level sensed by the water level sensor LS corresponds to a low water level of the water tank 130, the control unit C may control the driving of the driving unit 180 to open the opening/closing valve 153 such that water may be supplied to the water tank 130.
Meanwhile, when the power is cut off while the opening/closing valve 153 is opened, since the water supply from the water container 150 to the water tank 130 continues, when power is re-supplied to the humidifier 100, safety accidents such as electric shock or fire may occur. In order to solve this problem, the humidifier 100 according to an embodiment of the present disclosure may include an auxiliary power supply unit (B) for supplying reserve power when the power supply is cut off, and when the power supply to the humidifier 100 is cut off, the control unit (C) may be configured to move the water supply control member 170 to an initial position such that the opening/closing valve 153 is closed, by controlling the driving of the driving unit 180 using the power of the auxiliary power unit (B).
In addition, the humidifier 100 according to an embodiment of the present disclosure may further include a guide unit (D) for guiding an user to an abnormal state of the humidifier. The guide unit (D) can guide the user through visual or auditory guidance when a malfunction occurs in the humidifier 100, when water supply to the water tank 150 is required because the water tank 130 is empty, or the like.
Meanwhile, if a considerable period of time elapses while the water tank 130 is filled with water, since water scale, scale, mold, bacteria, or the like may occur in the water tank 130, the control unit C may be configured to drive the blowing unit 190 for a predetermined time after the use of the humidifying function is finished to remove the water absorbed in the humidification member 140 or the water stored in the water tank 130.
In addition, the control unit (C) may guide the user through the guide unit (D) to empty the water tank after a predetermined time has elapsed after the driving of the blowing unit is finished.
Next, a water supply control member 170 and a driving unit 180 according to another embodiment of the present disclosure will be described with reference to
In the case of the embodiment shown in
In the case of
Referring to
As described above, as the operating unit 171 moves in a vertical direction, the lifting and lowering pressing unit 177 ascends and descends while rotating the shaft 176 as an axis to press a rod member 156 of the opening/closing valve 153 to open an outlet of the cap member 154.
The driving unit 180 is configured to rotate the operating unit 171 of the water supply control member 170 about the shaft 176. The driving unit 180 may be disposed in the housing 110 because power supply is required to move the operating unit 171. That is, by installing the driving unit 180 in the base unit 115 of the housing 110, adjacent to the water tank 130, a separation operation of the water tank 130 for cleaning does not affect the driving unit 180.
Referring to
Accordingly, as the wheel member 185 rotates about the wheel axis, the second magnet member 186 approaches or moves to be away from the first magnet member 174. In this case, as shown in
The wheel member 185 may be configured to rotate by a motor (not shown) driven by a control unit C, and accordingly, the control unit C may control a supply of water from the water container 150 to the water tank 130 by performing opening and closing of the opening/closing valve 153 through the configuration of the driving unit 180 and the water supply control member 170.
Finally, a water supply control member 170 and a driving unit 180 according to another embodiment of the present disclosure will be described with reference to
In the case of an embodiment shown in
In the case of the embodiment shown in
That is, a permanent magnet or a magnetic force member 158 made of a material with strong magnetism may be mounted at a front end of the rod member 156 of the opening/closing valve 153, and in response thereto, the base unit 115 of the housing 110 may include a solenoid magnet 178 to which magnetic force is applied by power supply.
Accordingly, when magnetic force is applied to the solenoid magnet 178 constituting the water supply control member 170 by the driving unit 180, the opening/closing valve 153 may be opened and closed.
For example, as shown in
While exemplary embodiments have been shown and described above, it will be apparent to those skilled in the art that modifications and variations could be made without departing from the scope of the present invention, as defined by the appended claims.
Number | Date | Country | Kind |
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10-2019-0000920 | Jan 2019 | KR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/KR2019/018481 | 12/26/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2020/141796 | 7/9/2020 | WO | A |
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