WO2016000409A1 - 空气处理系统 - Google Patents
空气处理系统 Download PDFInfo
- Publication number
- WO2016000409A1 WO2016000409A1 PCT/CN2014/093279 CN2014093279W WO2016000409A1 WO 2016000409 A1 WO2016000409 A1 WO 2016000409A1 CN 2014093279 W CN2014093279 W CN 2014093279W WO 2016000409 A1 WO2016000409 A1 WO 2016000409A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- air
- humidifying
- water tank
- top cover
- water
- Prior art date
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Images
Classifications
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- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
Definitions
- This invention relates to the field of air treatment and, in particular, to an air treatment system.
- an air treatment system includes at least one air treatment device, further comprising: a top cover and a base, the at least one air treatment device being disposed between the top cover and the base,
- the top surface of the top cover is provided with an air outlet
- the bottom surface of the top cover is provided with at least one air inlet
- the bottom surface of the base is provided with an air inlet
- the top surface of the base is provided with at least one air outlet
- At least one air inlet is disposed on a bottom surface of the air treatment device
- at least one air outlet is disposed on a top surface of the air treatment device.
- the technical effect in some illustrative embodiments is as follows:
- the air circulation of the wind on the lower inlet is achieved by the design of the air duct.
- Figure 1 is a perspective view of an air treatment system in some embodiments
- Figure 2 is a cross-sectional view of an air treatment system in some embodiments
- FIG. 3 is a schematic structural view 1 of a first terminal block in some embodiments.
- FIG. 4 is a schematic structural view 2 of a first terminal block in some embodiments.
- Figure 5 is a schematic structural view 1 of a second terminal block in some embodiments.
- FIG. 6 is a second structural diagram of a second terminal block in some embodiments.
- FIG. 7 is a schematic structural view of a first terminal row and a second terminal row being docked in some embodiments
- Figure 8 is a schematic structural view 1 of the base in some embodiments.
- Figure 9 is a schematic structural view 2 of the base in some embodiments.
- Figure 10 is a schematic structural view 1 of a top cover in some embodiments.
- Figure 11 is a schematic structural view 2 of the top cover in some embodiments.
- Figure 12 is a schematic structural view 3 of the top cover in some embodiments.
- Figure 13 is a schematic structural view 1 of a dehumidification device in some embodiments.
- Figure 14 is a schematic structural view 2 of the dehumidification device in some embodiments.
- Figure 15 is a schematic structural view 3 of the dehumidification device in some embodiments.
- Figure 16 is a structural schematic view 4 of the dehumidification device in some embodiments.
- Figure 17 is a schematic structural view 5 of the dehumidification device in some embodiments.
- Figure 18 is a first schematic view of a purification apparatus in some illustrative embodiments.
- Figure 19 is a schematic view 2 of a purification apparatus in some illustrative embodiments.
- Figure 20 is a schematic view 3 of a purification apparatus in some illustrative embodiments.
- Figure 21 is a schematic view 1 of a humidifying device in some illustrative embodiments.
- Figure 22 is a schematic view 2 of a humidifying device in some illustrative embodiments.
- Figure 23 is a schematic view 3 of a humidifying device in some illustrative embodiments.
- Figure 24 is a schematic view 4 of a humidifying device in some illustrative embodiments.
- Figure 25 is a schematic view 5 of a humidifying device in some illustrative embodiments.
- Figure 26 is a first schematic view of another humidifying device in some illustrative embodiments.
- Figure 27 is a second schematic view of another humidifying device in some illustrative embodiments.
- Figure 28 is a schematic view 3 of another humidifying device in some illustrative embodiments.
- 29 is a schematic view 4 of another humidification device in some illustrative embodiments.
- FIG 1 and 2 are perspective and cross-sectional views, respectively, of an air treatment system in some embodiments of the present invention.
- the air handling system includes a base 5 and one or more air handling devices disposed on the base 5.
- each air treatment device comprises an air inlet, an air outlet and a power supply structure.
- the air treatment system has a dehumidifying device 4, a purifying device 3, and a humidifying device 2 which are combined in order from bottom to top. It should be understood that the embodiments of the present invention are not limited thereto, and may be other arrangements, or may be modular devices of other functions.
- different functions are achieved by selecting different modules through the modular design of the air handling device, giving the user more choice.
- the combination of each module adopts the upper and lower stacking method, which can save space.
- the base 5 includes an air inlet, an air outlet, an external power source, and an output power supply structure for powering adjacent air handling devices.
- the base 5 and adjacent air handling devices are coupled by magnetic attraction or a connector.
- Adjacent air handling devices are connected by means of magnetic attraction or connectors.
- the top cover 1 and the adjacent air handling device are connected by means of magnetic attraction or connecting means.
- the various portions are conveniently connected by magnetic attraction or a connector.
- the base 5 and the adjacent air treatment device are connected by magnetic attraction. Adjacent air handling devices are connected by magnetic attraction.
- the top cover 1 and the adjacent air treatment device are connected by magnetic attraction.
- the magnetic coupling is connected to the bottom surface of the top cover 1, the top surface and the bottom surface of the air treatment device, and the top surface of the base 5 are respectively provided with at least one magnetic member.
- the magnetic members on the bottom surface of the top cover 1 correspond to the positions of the magnetic members on the top surface of the uppermost air treatment device and the corresponding magnetic members have opposite polarities.
- the magnetic members on the top surface of the base 5 correspond to the positions of the magnetic members on the bottom surface of the lowermost air treatment device and the corresponding magnetic members have opposite polarities.
- Magnetic components on the top surface of the air handling unit and adjacent correspond and the corresponding magnetic components have opposite polarities.
- the magnetic member may be disposed on the bottom surface of the top cover 1, the top and bottom surfaces of the air treatment device, and the center or circumference of the top surface of the base.
- the modular arrangement of the air handling system utilizes a magnetic pick-up connection that not only makes the air handling system simple in construction, but also facilitates the installation process. Users do not need to use tools to complete the installation themselves.
- the magnetic pick-up method also stabilizes the structure of the installed air handling system.
- the base 5 and the adjacent air treatment device are connected by means of a connector.
- Adjacent air handling devices are connected by means of connectors.
- the top cover 1 and the adjacent air handling device are connected by means of a connector.
- the connecting member may be respectively disposed on the adjacent two sides of the card slot and the claw.
- the claws are inserted into the card slot to connect the parts.
- the connecting member may also be a structure of a guiding groove and a guiding post.
- at least one guide groove is provided on the bottom surface of the top cover 1 and on the bottom surface of the air treatment device, respectively.
- At least one guiding protrusion is respectively disposed on the top surface of the base 5 and the top surface of the air processing device, and the guiding grooves on the adjacent two surfaces correspond to the positions of the guiding protrusions, so that the wire protrusions are inserted into the guiding grooves.
- one surface of the adjacent surface of the air treatment device is a guiding groove
- the other surface is a guiding column to realize the insertion of the guiding groove and the guiding column
- the type of terminal block on each side is not limited.
- the guiding groove and the guiding column can not only realize the structural docking, but also play a guiding role when used together with other connecting structures.
- the guiding groove may be provided with a conductive sheet
- the guiding column is an electrical conductor. This arrangement allows the guide groove and the guide post to function as a guide instead of a part of the electrical connection.
- the air outlet of the top cover 1 is disposed on the top surface of the top cover 1, and the air inlet opening is formed in the bottom surface of the top cover 1.
- the air inlet of the top cover 1 is connected to the air outlet of the adjacent air treatment device.
- the air inlet of the base 5 is disposed on the bottom surface of the base 5, and the air outlet of the base 5 is disposed on the top surface of the base 5.
- the air outlet of each air treatment device is connected to the air inlet of the adjacent air treatment device.
- the air inlet of the air treatment device adjacent to the base 5 is provided in two ways, as follows:
- the air inlet of the air treatment device adjacent the base 5 is disposed on a side wall of the air treatment device.
- the air outlet of the top cover 1 and the air inlet of the air treatment device adjacent to the base 5 are unobstructed and directed to the surrounding environment.
- the air inlet is not provided on the bottom surface of the air treatment device, the air passage between the air treatment device and the base 5 is not connected.
- the wind enters from the air inlet of the air treatment device, not from the base.
- the air inlet of 5 enters.
- the air inlet of the air treatment device can be provided with an air inlet, and the air passage between the air treatment device and the base 5 is connected. At this time, the wind can enter from the air inlet of the air treatment device, or The air inlet of the base 5 enters.
- the air inlet of the air treatment device adjacent the base 5 is disposed on the underside of the air treatment device.
- the air outlet of the base 5 is connected to the air inlet of the adjacent air treatment device.
- the air outlet of the top cover 1 and the air inlet of the base 5 are unobstructed and directed to the surrounding environment. At this time, the wind enters from the air inlet of the base.
- the air treatment device adjacent to the base 5 in this solution should have sufficient strength, and is preferably made of metal.
- each air outlet may be a grid-like air inlet or a hole-shaped air inlet.
- 3 to 7 are schematic structural diagrams 1 and 2 of the first terminal block in some embodiments of the present invention, and structural schematic diagrams 1 and 2 of the second terminal block, the first terminal row and the second terminal row are docked Schematic diagram of the structure.
- the air handling system has a top cover 1, a base 5 and each air handling device provided with a connector that can serve as a power connection interface for the top cover 1, the base 5, and the respective air handling devices. And the structure of the communication connection interface.
- the connector includes a first terminal block 9 and a second terminal block 10.
- a side wall of the first terminal block 9 has a boss 904, and at least one connecting hole 901 is disposed on the boss 904.
- One side wall of the second terminal block 10 is provided with a recess 140 that cooperates with the boss 904, and at least one connecting post 110 that cooperates with the connecting hole 901 is disposed in the recess 140.
- the boss 904 is embedded in the groove 140 and the groove 140 is engaged.
- the connecting post 110 is inserted into the connecting hole 901 to bring the outer surface of the connecting post 110 into contact with the inner surface of the connecting hole 901.
- At least one first terminal 902 electrically connected to the connection hole 901 is disposed on a side wall of the first terminal block 9 that is parallel to the axial direction of the connection hole 901.
- At least one first fixing seat 903 is respectively disposed on two opposite side walls of the first terminal block 9 perpendicular to the side wall provided with the boss 904.
- At least one second terminal 120 electrically connected to the connecting post 110 is disposed on a side wall of the second terminal block 10 opposite to the recess 140 provided with the connecting post 110. At least one of the opposite side walls of the second terminal block 10 perpendicular to the side wall provided with the recess 140 is respectively provided The second mount 130.
- the inner wall or the inner bottom wall of the connecting hole 901 may be a material having a conductive function or a mechanism having a communication pin.
- the connecting hole 901 can be specially provided with a functional contact element.
- the functional contact elements are conductive sheets or communication pins.
- the motion that realizes the line docking can be a linear motion or a rotational motion.
- the number of wires (strong current, weak current) to be connected according to needs can be realized by designing terminals of different logarithms.
- a universal wheel 501 is disposed beneath the bottom surface of the base 5 to facilitate movement of the air handling system.
- the upper surface of the base 5 is provided with a groove.
- the groove is a ring structure concentric with the base.
- the groove can be used for wire coiling to facilitate the storage of the wire.
- the power supply output structure of the base 5 is specifically a base power docking interface 503.
- the base 5 can also include a base communication docking interface for communication communication.
- the base power docking interface 503 and the base communication docking interface can be integrated into one interface.
- the base 5 can also include a base power output interface 502 for connection to an external power source.
- the power docking interface 503, the base communication docking interface, and the base power output interface 502 adopt the first terminal row or the second terminal row structure of the aforementioned connector.
- 10 to 12 are schematic structural views 1, 2 and 3 of the top cover in some embodiments of the present invention.
- the air handling system further includes a top cover 1 disposed on one or more air handling devices.
- the top cover 1 includes an air inlet 191, an air outlet 102, and a power input structure that receives power from an adjacent air handling device.
- the power input structure is disposed on the bottom surface of the top cover 1.
- the power input structure is specifically a top cover power docking interface 107.
- the air handling system may further comprise a top cover communication docking disposed on the bottom surface of the top cover
- the interface 108 is for communication communication.
- the top cover power docking interface 107 and the top cover communication docking interface 108 can be integrated into one interface.
- the top cover power docking interface 107 and the top cover communication docking interface 108 employ the first terminal block or the second terminal block structure of the aforementioned connector.
- a top cover magnet 109 and a guide post 104 are also disposed on the bottom surface of the top cover 1.
- the cap magnet 109 is the aforementioned magnetic member, and the guide post 104 is the aforementioned guide post structure.
- the side wall of the top cover 1 includes an inner wall and an outer wall spaced apart by an inner wall and an outer wall.
- a detection unit is also disposed in the top cover 1.
- the detecting unit includes: a detecting air inlet 181, a detecting air outlet 182, a detecting fan 184, and a sensor.
- the detection air inlet 181 and the detection air outlet 182 are respectively disposed on the surface of the outer wall 106 of the top cover.
- the detection fan 184 and the sensor are disposed within an interval between the detection air inlet 181 and the detection air outlet 182.
- the sensor includes: a VOC (volatile organic compound) sensor 183, a PM2.5 detecting device 185, and a temperature and humidity sensor 186. It should be understood that the present invention is not limited thereto, and may be other types of sensors for detecting air indexes.
- the quality of the air may be detected by providing a detection unit.
- a motor 104 is also disposed within the top cover 1.
- the motor 104 is used to power the air handling system.
- the top surface of the top cover 1 is provided with a projection on the surface of which the display screen 101 is disposed.
- the display screen 101 serves as a human-computer interaction interface for displaying the current working state, the operation being performed by the user, and the like.
- the periphery of the display is a circle of indicator lights that can be used as an indication of machine operation, stop or malfunction.
- the indicator strips can also be used to indicate air quality, for example, different colors of the indicator strips represent different air quality levels.
- the top cover 1 may also add an infrared transceiver for controlling other household appliances.
- the air treatment device may be a dehumidification device 4.
- the dehumidification device 4 includes a heat exchanger 404, a water receiving tray 406, and a water tank 401.
- the water receiving tray 406 is located at the top of the water tank 401, and at least one water outlet hole communicating with the water tank 401 is opened on the water receiving tray 406.
- the angle between the heat exchanger 404 and the plane in which the water tray 406 is located is not equal to 90 degrees.
- the lower end of the heat exchanger 404 is connected along the extension line of the dehumidification device in the axial direction The plane in which the water tray 406 is located intersects.
- heat exchanger 404 is not placed horizontally or vertically above the water tray 406 as in the prior art, and heat exchanger 404 is placed obliquely above water tray 406 so that The condensed water generated by the heat exchanger 404 during operation can flow into the water receiving tray 406 along the bottom end of the heat exchanger 404, and then into the water tank 401 by the water receiving tray 406.
- a hole communicating with the water tank 401 is disposed on the water receiving tray 406 to allow condensed water to flow into the water tank 401 through the hole.
- the hole of the water receiving tray 406 for allowing the condensed water to flow out may also be directly connected to the water outlet pipe, so that the condensed water is discharged through the water outlet pipe to the dehumidifying device.
- the dehumidification device includes an air inlet 431 and an air outlet 432.
- the air outlet 432 is opened on the dehumidification top cover 408 of the dehumidification device.
- the dehumidifying device 4 is disposed in connection with the base 5, so the air inlet 431 has two arrangements as described above.
- the air inlet 431 is opened on the side wall of the dehumidifying device and/or the dehumidifying chassis 410.
- heat exchanger 404 mounting plate 405 is fixedly coupled to the sidewall of the dehumidification device.
- the casing of the dehumidification device includes a dehumidification front casing 402, a dehumidification rear casing 403, a dehumidification header 408, and a dehumidification chassis 410, and the heat exchanger 404 fixing plate 405 is fixed to the dehumidification front casing 402.
- the heat exchanger 404 is fixedly coupled to the heat exchanger 404 mounting plate 405 by bolts.
- heat exchanger 404 and water tray 406 are both disposed inside the housing.
- the water tank 401 and the casing have a separate structure, and a recess for placing the water tank 401 is disposed on the casing, so that the water tank 401 can be detached from the casing of the dehumidifying device, which is convenient for the user to use.
- the dehumidification front case 402 and the dehumidification rear case 403 may be fixedly connected by a card slot or a bolt, and the dehumidification rear case 403 is provided with a recess for placing the water tank 401.
- a water receiving tray 406 is placed on top of the recess of the shell 403 after dehumidification.
- the water receiving tray 406 may be a unitary structure or a separate structure with the dehumidifying rear shell 403.
- a slide rail may be disposed on the groove, and a slide rail is disposed at a corresponding position on the bottom of the water tank 401, so that the disassembly of the water tank 401 is quicker and more labor-saving.
- the air inlet 431 may be disposed on at least a portion of the sidewall of the casing at the bottom of the casing to the bottom of the water tank 401. As shown in FIG. 12, the air inlet 431 is disposed on the entire side wall of the casing at the bottom of the casing to the bottom of the water tank 401.
- the air inlet 431 may be disposed on a part of the side wall, for example only before dehumidification An air inlet 431 is provided on the side wall of the casing 402 or the dehumidification rear casing 403. Of course, the air inlet 431 may also be disposed on the side wall of the dehumidification device above the water tank 401.
- the dehumidification apparatus further includes a compressor 407 and an electrical cabinet. Both the compressor 407 and the electrical box are placed at the bottom of the dehumidification device. As shown in the figure, since the compressor 407 is generally bulky, it is placed in the space surrounded by the dehumidification front case 402. In order to save space, the electrical box body is placed at the bottom of the space surrounded by the dehumidifying rear shell 403. After the dehumidifying, the housing 403 starts to have a recess for placing the water tank 401, and the recess has a certain space to the dehumidifying chassis 410, and the electric box body Placed in this space.
- the electrical cabinet is used to store the circuit board.
- a lower power interface 412 and a lower communication interface 411 are disposed on the dehumidification top cover 408.
- a corresponding upper power interface 413 is also provided on the humidifying chassis.
- the lower power interface 412 and the lower communication interface 411 may be the same interface.
- the lower power interface 412, the lower communication interface 411, and the upper power interface 413 may be the first terminal row or the second terminal row structure of the aforementioned connector.
- the dehumidification device is further provided with a connection structure connected to the other devices, and the connection structure may be the foregoing connector structure, or may be a guide structure (such as a guide groove and a guide) as described above.
- the column, the direct guiding column of each device is correspondingly arranged with the guiding groove).
- a guide groove 414 and a guide post 415 are respectively disposed on the dehumidification top cover 408 and the dehumidification chassis 410.
- a lower magnet 416 and an upper magnet 413 may be separately disposed on the dehumidifying top cover 408 and the dehumidifying chassis 410 to connect the dehumidifying device to other devices by suction.
- the lower magnet 416 and the upper magnet 413 may be the aforementioned magnetic members.
- a lower power interface 412 and a lower communication interface 411 are disposed on the dehumidification cap 408.
- a corresponding upper power interface 413 is also provided on the dehumidification chassis 410.
- Each of the above interfaces can set the aforementioned connector structure and correspond to the position of the corresponding interface of the other device.
- the heat exchanger 404 in the dehumidification apparatus may also be placed horizontally. Since the heat exchanger 404 is horizontally placed, the area of the condensed water dripping downward is relatively large, so the water is taken. The corresponding extent of the disk 406 is correspondingly increased in size according to the horizontal area of the heat exchanger 404.
- the size of the dehumidifier is reduced; the area of the water receiving tray is no longer limited by the size of the heat exchanger; and the heat exchange efficiency is improved.
- 18 to 20 are purification devices in some illustrative embodiments of the present invention. Schematic diagrams one to three.
- the purification device 3 includes a purification front case 301, a purification module 302, a purification rear case 303, a purification top cover 304 disposed on the purification device 3, and a purification disk 305 disposed under the purification device 3.
- the purification module 302 of the purification device 3 is fixed to the purification rear case 303.
- the cleaning module 302 can be pulled out when the replacement is performed, and the purification module 302 can be taken out.
- the purification device 3 may include a sterilization UV lamp or a nano copper and silver sterilization filter, an anion, an aroma and the like in addition to the purification module 302.
- the purification device 3 is also provided with an upper power docking interface 306, an upper communication docking interface 307, a lower power docking interface 308, and a lower communication docking interface 309 having a first terminal row or a second terminal block structure of the aforementioned connector.
- the purification device 3 is also provided with an upper magnet 310 and a lower magnet 311 having the structure of the aforementioned magnetic member.
- the purification device 3 is also provided with a structure having the aforementioned guide post 312 and guide groove 313.
- 21 to 25 are schematic views 1 through 5 of a humidifying device in some illustrative embodiments of the present invention.
- the humidification device includes a water tank 202 that stores water, a water pump 205, and a water tank 241 that is coupled to the water pump 205 via a downpipe 252.
- the water pump 205 is connected to the water tank 202 through the upper water pipe 251.
- the water pump 205 sends the water pump in the water tank 202 to the water tank 241.
- the humidifying device is a pure humidifying device, and the water is pumped from the water tank 202 to the water tank 241 by the water pump 205, and the water in the water tank 241 is diffused into the air by natural evaporation.
- the water level in the water tank 241 can be detected in real time by setting a water level monitoring device in the water tank 241.
- the water pump 205 is started to start pumping water, when the water level reaches a certain level.
- the water pump 205 is stopped.
- a water stop 2411 is provided within the sink 241.
- the height of the water stop 2411 is smaller than the height of the outer wall 2412 of the water tank 241.
- the function of the water stop piece 2411 is to slow down the flow rate of the water flow when the water pump 205 pumps water into the water tank 241, preventing water from splashing out of the water tank 241.
- the shape of the water stop 2411 can be as shown in Fig. 15, the height of the water stop 2411 is lower than the outer wall 2412 of the water tank 241, and is serrated to achieve the effect of slowing the flow of water.
- a water filter 206 is also disposed within the water tank 202.
- the upper water pipe 251 extends into the water tank 202 and is connected to the water filter 206.
- the water filter 206 functions to purify water so that the water entering the water tank 241 is purified by the water filter 206. Remove harmful substances such as bacteria from water.
- a connection seat 208 for securing the downcomer 252 of the water pump 205 is provided within the water tank 241 such that the downpipe 252 does not move due to water flow during pumping of water.
- both the water pump 205 and the water tank 241 are placed inside the housing of the humidification device.
- the water tank 202 and the casing of the humidifying device are in a separate structure, and a recess in which the water tank is placed is disposed on the humidifying casing.
- the housing of the humidifying device includes a humidifying top cover 201, a humidifying front housing 204, and a humidifying rear housing 203. Both the water pump 205 and the water tank 241 are placed in the humidifying front housing 204.
- the casing 203 and the humidifying front casing 204 are connected by a connecting member such as a bolt or a card slot.
- the humidifying top cover 201 is fastened to the upper surfaces of the two casings and fixedly coupled together to form a casing of the humidifying device.
- the casing 203 is provided with a groove, and the structure of the groove cooperates with the water tank 202, so that the water tank 202 can be detached from the casing of the humidifying device, which is convenient for the user to use.
- a slide rail 231 is disposed at the bottom of the groove, and a slide rail is disposed at a corresponding position on the bottom of the water tank 202 to make the disassembly of the water tank 202 faster and less laborious.
- the humidification device includes a wind channel that extends through the humidification device.
- a water tank 201 surrounds the air passage.
- the specific arrangement may be as follows: at the bottom of the humidifying device, that is, after the humidifying front casing 204 and the humidifying rear casing 203 are butted, there is an air inlet 209 dedicated to ventilation at the bottom.
- the water tank 241 is hollow, that is, surrounds the air passage, and when the wind passes through the water tank 241, the evaporation speed of water around the air passage (i.e., the water tank 241) is enhanced.
- On the upper surface of the humidifying device i.e., the humidifying cap 201
- an air outlet 211 for ventilation (the water vapor evaporates outward from the air outlet) is opened.
- the air passage passes through the center of the humidifying device.
- the duct passes through the center of the humidifying device and is also at the center of the sink 241.
- the entire humidifying device can be regarded as a ring structure (cross section), the inner ring and the outer ring can have the same or different shape, and the inner ring or the outer ring can be circular. Structures such as square or triangle.
- the humidifying device is preferably concentric annular, which is more conducive to ventilation and evaporation of water vapor.
- the shape of the inner ring determines the structure of the air passage, that is, the longitudinal section of the air duct may be rectangular or other structures such as a trapezoid; for better understanding, if the longitudinal section of the air duct is rectangular, It can be approximated that the air duct is a cylinder or a cubic structure. If it is trapezoidal, the structure of the air duct can be a near-cone structure.
- the humidification device includes a power supply structure.
- the power supply structure includes a power input structure that accepts external power supply and a power output structure that supplies power to the outside.
- the power input structure and the power output structure may specifically be a power interface.
- a power interface is provided on the top and bottom of the humidifier housing.
- a communication interface may also be provided at the top and bottom of the housing of the humidification device.
- the humidifying top cover 201 is provided with a power communication integrated interface, that is, the power communication lower interface 217, and the power communication upper interface 216 is provided at the bottom of the humidifying device; of course, the power interface and the communication interface may also be two independent.
- the position of the interface can also be set according to the position of the interface on the other device that is connected to the humidifying device.
- the power interface, the power communication integrated interface, and the communication interface may be the first terminal row or the second terminal row structure of the connector as described above.
- the whole circuit is located at the center of the water tank 241 and coincides with the position of the air duct.
- the power communication interface 217 of the humidifying top cover 201 is connected to the circuit connecting member 207, and the circuit connecting member 207 is connected to the power supply and communication upper interface 216 at the bottom of the humidifying device. .
- the present invention provides a fixing bracket 218 at the bottom of the humidifying device to securely connect the above components.
- the humidifying device is provided with a connecting structure connected to the other devices.
- the humidifying top cover 201 may be provided with a card slot 212, and the clamping member 232 is disposed on the bottom of the humidifying device to make the humidifying device and other devices correspondingly disposed.
- the card slot or the claw is matched.
- the connection mode is a snap connection
- a magnet component may be added to the humidification device and other devices to make the device suck and securely and use the installation; of course, the magnet component may also be separately designed from the connection structure, so that The humidifying device is connected to other devices.
- the structure is simple, the safety performance is good, there is no "white powder” pollution, the device is easy to clean, and the principle of natural evaporation is adopted, which is more green and healthy.
- 26 through 29 are schematic views one to four of another humidifying apparatus in accordance with some illustrative embodiments of the present invention.
- the humidifying device includes: a duct axially extending through the humidifying device, a water tank 201b storing water, and a filter element 204b disposed in the water tank; wherein the water tank 201b surrounds the air duct.
- a water tank for storing water is generally provided, and then the evaporation and humidification effect is realized through the water tank (or the water storage tank);
- the water tank 201b is designed.
- the structure of the water tank 201b is as shown in Fig. 28, and can also be regarded as a water tank.
- the water tank 201b is not only used for storing water but also functions as a water tank. This design simplifies the structure of the humidifying device of the prior art and utilizes the space efficiently, and the water tank 201b can be designed to be larger without worrying about the space occupied by the water tank.
- the water tank 201b surrounds the air passage, the water tank 201b is a hollow structure, and the wind can be passed through the water tank 201b, and the water vapor around the air passage, that is, the water tank 201b, functions to rapidly humidify.
- the inner wall 211b of the water tank 201 surrounds the air duct, and a cavity extending through the upper and lower surfaces of the filter element is disposed within the filter element 204b.
- the filter element 204b is fitted to the outside of the inner wall 201b of the water tank through the cavity.
- the function of the filter element 204b is to improve the evaporation efficiency and purify the water in the water tank. Therefore, the filter element 204b is also designed along the air passage ring shape, and cooperates with the annular structure in the water tank 201b so that when the wind passes through the water tank 201b, it also passes through the filter element 204b. Increase the humidification rate.
- the filter element 204b is higher than the inner wall 211b of the water tank 201b when designing the cavity structure of the filter element 204b.
- the inner wall 211b of the water tank 201b is lower than the outer wall 212b, and the height of the filter element 204b is the same as the height of the outer wall 212b. Therefore, the contact area of the filter element 204b with the wind during the whole humidification process includes the upper wall 211b in addition to the area of the upper surface.
- the area of the side wall of the filter element 204b is higher than the inner wall 211b of the water tank 201b when designing the cavity structure of the filter element 204b.
- the inner wall 211b of the water tank 201b is lower than the outer wall 212b
- the height of the filter element 204b is the same as the height of the outer wall 212b. Therefore, the contact area of the filter element 204b with the wind during the whole humidification process includes the upper wall 211b in addition to the area of the upper surface.
- the cavity of the filter element 204b can be further modified so that the area of the bottom of the cavity is larger than the area of the top of the cavity, that is, the cavity of the filter element 204b is formed into a shape with a large opening and a small opening to increase the side surface.
- the area of wind contact is such that the wind is in better contact with the filter element 204b, taking away water vapor.
- the portion of the filter element 204b that is higher than the inner wall of the water tank may be provided with an inwardly bent bent portion, thereby achieving the following effects: one is to increase the area of the side of the filter element 204b in contact with the wind; The area of the upper surface of the filter element 204b; third, the upper port becomes smaller, so that the wind is in full contact with the filter element 204b, taking away more water vapor.
- the filter element 204b can also be designed to be tapered, and the structure of the inner wall of the corresponding water tank 201b can also be set accordingly.
- the water tank 201b and the housing of the humidification device are in a separate configuration with a recess in which the water tank is placed.
- the housing of the humidifying device includes a humidifying top cover 205b, a humidifying housing 202b, a humidifying inner casing 203b, and a humidifying chassis 209b.
- the humidifying inner casing 203b is fixed to the humidifying casing 204b.
- the connection and the connection may be in the form of screwing, bonding, snapping, etc., and the humidifying inner casing 203b is provided with a groove, and the structure of the groove is matched with the water tank 201b, so that the water tank 201b can be from the casing of the humidifying device. Freely disassembled for user convenience.
- the upper part of the water tank 201b is connected to the humidifying inner casing 203b through the upper connecting strip 206b, and the lower part of the humidifying inner casing 203b and the humidifying casing 202b is fixedly connected with the humidifying chassis 209b, and the connection manner may be screwing, bonding, snapping, etc. .
- the bottom of the humidifying inner casing 203b is spaced apart from the humidifying chassis 209b, and a humidifying computer board (humidifying PCB) for controlling the humidifying device is provided in the gap between the humidifying casing 202b and the humidifying inner casing 203b, in humidification.
- the side of the casing 203b surrounded by the humidifying casing 202b may be fixed to the humidifying chassis 209b by bolts, and the bottom edge of the other side of the humidifying inner casing 203b is connected to the humidifying chassis 209b by the lower connecting bar 207b.
- a sliding rail may be disposed on the groove of the humidifying inner casing 203b, and a sliding rail is disposed at a corresponding position on the bottom of the water tank 202b, so that the disassembly of the water tank 202b is quicker and more labor-saving.
- the humidifying top cover 205 is provided with an air outlet, and the upper surface of the filter element 204 in the water tank 201 can be observed from the air outlet. It can be understood that the upper surface of the filter element 204 is exposed in the air to avoid the design of the air outlet. Small, hindering the evaporation and overflow rate of water vapor.
- the humidifying top cover 205b is not directly disposed on the upper surface formed by the humidifying inner casing 203b and the upper connecting strip 206b, and the humidifying top cover 205b is at a certain distance from the upper surface, and a series of Components such as power and communication interfaces.
- a lower power interface 213b and a lower communication interface 214b are disposed on the humidifying top cover 205b; similarly, a corresponding upper power interface 211b and an upper communication interface 212b are also disposed on the humidifying chassis.
- the lower power interface 213b, the lower communication interface 214b, the upper power interface 211b, and the upper communication interface 212b may be the structure of the first terminal row or the second terminal row of the aforementioned connector.
- the air duct runs through the center of the humidification device and is also in the center of the filter element 204b.
- the entire humidifying device can be regarded as a ring structure (cross section), and the shapes of the inner ring and the outer ring can be the same or different.
- the inner or outer ring may be of a circular, square or triangular shape; the humidifying means is preferably concentric annular, i.e., the structure shown in Figures 17-20, which is more conducive to ventilation and evaporation of water vapor.
- the shape of the inner ring determines the structure of the air passage, that is, the longitudinal section of the air duct may be rectangular or other structures such as a trapezoid; for better understanding, if the longitudinal section of the air duct is rectangular, It can be approximated that the air duct is a cylinder or a cubic structure. If it is trapezoidal, the structure of the air duct can be a near-cone structure.
- the humidifying device is provided with a connecting structure connected to the other devices, and the connecting structure may be a guiding structure (such as a guiding groove and a guiding column, and the direct guiding column of each device is correspondingly arranged with the guiding groove), for example, at the humidifying top
- the cover 205b is provided with a guide groove 215b, and a guide post is disposed on the humidification chassis.
- a lower magnet 216b and an upper magnet 217b may be separately disposed on the humidifying top cover 205b and the humidifying chassis 209b to connect the humidifying device to other devices by suction.
- the structure is simple, the safety performance is good, there is no "white powder” pollution, the device is easy to clean, and the principle of natural evaporation is adopted, which is more green and healthy.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Health & Medical Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- Life Sciences & Earth Sciences (AREA)
- Epidemiology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Air Humidification (AREA)
- Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
- Drying Of Gases (AREA)
Abstract
Description
Claims (7)
- 一种空气处理系统,其特征在于,包括顶盖、底座和设置在所述顶盖和所述底座之间的至少一个空气处理装置;所述顶盖的顶面上设置有出风口,所述顶盖的底面上设置有至少一个进风口,所述底座的底面上设置有进风口,所述底座的顶面上设置有至少一个出风口,所述空气处理装置的底面上设置有至少一个进风口,所述空气处理装置的顶面上设置有至少一个出风口。
- 根据权利要求1所述的空气处理系统,其特征在于:和所述顶盖连接的所述空气处理装置的出风口和所述顶盖的进风口连接。
- 根据权利要求1所述的空气处理系统,其特征在于:和所述底座连接的所述空气处理装置的进风口和所述底座的出风口连接。
- 根据权利要求1所述的空气处理系统,其特征在于:所述空气处理装置的出风口和相邻所述空气处理装置的进风口连接。
- 根据权利要求1所述的空气处理系统,其特征在于:所述进风口为栅格状进风口或者孔洞状进风口,所述出风口为栅格状进风口或者孔洞状进风口。
- 根据权利要求1所述的空气处理系统,其特征在于:所述顶盖的出风口以及与所述底座的进风口的方向均是无遮挡的指向周围环境。
- 根据权利要求1-6任一项所述的空气处理系统,其特征在于:所述至少一个空气处理装置包括加湿装置、除湿装置和净化装置中的至少一个。
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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EP14896945.4A EP3165836A4 (en) | 2014-07-03 | 2014-12-08 | Air treatment apparatus |
KR1020167036555A KR101976187B1 (ko) | 2014-07-03 | 2014-12-08 | 공기 처리 시스템 |
US15/323,072 US20170153029A1 (en) | 2014-07-03 | 2014-12-08 | Air treatment apparatus |
Applications Claiming Priority (2)
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CN201410315359.8 | 2014-07-03 | ||
CN201410315359 | 2014-07-03 |
Publications (1)
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WO2016000409A1 true WO2016000409A1 (zh) | 2016-01-07 |
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PCT/CN2014/093279 WO2016000409A1 (zh) | 2014-07-03 | 2014-12-08 | 空气处理系统 |
PCT/CN2014/093247 WO2016000404A1 (zh) | 2014-07-03 | 2014-12-08 | 一种加湿装置和空气处理系统 |
PCT/CN2014/093288 WO2016000413A1 (zh) | 2014-07-03 | 2014-12-08 | 一种空气处理系统的顶盖及空气处理系统 |
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PCT/CN2014/093247 WO2016000404A1 (zh) | 2014-07-03 | 2014-12-08 | 一种加湿装置和空气处理系统 |
PCT/CN2014/093288 WO2016000413A1 (zh) | 2014-07-03 | 2014-12-08 | 一种空气处理系统的顶盖及空气处理系统 |
Country Status (5)
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US (3) | US10415839B2 (zh) |
EP (3) | EP3165836A4 (zh) |
KR (3) | KR20170039095A (zh) |
CN (5) | CN104315696B (zh) |
WO (3) | WO2016000409A1 (zh) |
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KR101976187B1 (ko) | 2019-08-29 |
CN104329733A (zh) | 2015-02-04 |
EP3165834A4 (en) | 2017-07-05 |
CN104315696B (zh) | 2017-10-13 |
CN204141826U (zh) | 2015-02-04 |
WO2016000413A1 (zh) | 2016-01-07 |
EP3165836A1 (en) | 2017-05-10 |
CN104329763A (zh) | 2015-02-04 |
CN104329763B (zh) | 2018-01-23 |
EP3165834B1 (en) | 2018-05-23 |
US20170153029A1 (en) | 2017-06-01 |
US10415839B2 (en) | 2019-09-17 |
KR101976192B1 (ko) | 2019-05-09 |
CN104329733B (zh) | 2017-11-07 |
EP3165834A1 (en) | 2017-05-10 |
EP3165839A1 (en) | 2017-05-10 |
KR20170039095A (ko) | 2017-04-10 |
WO2016000404A1 (zh) | 2016-01-07 |
CN104315608A (zh) | 2015-01-28 |
CN104315608B (zh) | 2017-06-30 |
CN104315696A (zh) | 2015-01-28 |
EP3165836A4 (en) | 2017-06-28 |
KR20170039092A (ko) | 2017-04-10 |
KR20170039097A (ko) | 2017-04-10 |
US20170130977A1 (en) | 2017-05-11 |
US20170130986A1 (en) | 2017-05-11 |
EP3165839A4 (en) | 2017-07-05 |
EP3165839B1 (en) | 2019-08-07 |
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