WO2020207149A1 - 蒸汽发生装置以及空气调节装置 - Google Patents
蒸汽发生装置以及空气调节装置 Download PDFInfo
- Publication number
- WO2020207149A1 WO2020207149A1 PCT/CN2020/077470 CN2020077470W WO2020207149A1 WO 2020207149 A1 WO2020207149 A1 WO 2020207149A1 CN 2020077470 W CN2020077470 W CN 2020077470W WO 2020207149 A1 WO2020207149 A1 WO 2020207149A1
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- WIPO (PCT)
- Prior art keywords
- water
- water tank
- generating device
- steam generating
- steam
- Prior art date
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
- F22B1/00—Methods of steam generation characterised by form of heating method
- F22B1/28—Methods of steam generation characterised by form of heating method in boilers heated electrically
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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
- F24F6/02—Air-humidification, e.g. cooling by humidification by evaporation of water in the air
- F24F6/08—Air-humidification, e.g. cooling by humidification by evaporation of water in the air using heated wet elements
- F24F6/10—Air-humidification, e.g. cooling by humidification by evaporation of water in the air using heated wet elements heated electrically
Definitions
- This application relates to the field of air conditioning, and in particular to a steam generating device and an air conditioning device with the steam generating device.
- the disassembly of the steam generating device is inconvenient. In the process of repairing the steam generating device, it will increase the difficulty of maintenance, which will affect the maintenance efficiency. In addition, when assembling the steam generating device, the assembly is inconvenient, resulting in a decrease in the assembly efficiency of the steam generating device.
- the present application provides a steam generating device, which is arranged outside the air conditioning device, which can improve the convenience of disassembly and installation of the steam generating device.
- This application further proposes an air conditioning device.
- the steam generating device is adapted to generate water vapor for supplying steam to the air conditioning device, and the steam generating device includes a casing suitable for being hoisted to a roof, and the casing includes a top plate and an enclosure.
- a plate and a bottom plate the top plate is spaced apart from the bottom plate, and the top plate and the bottom plate are connected by an enclosure plate, the top plate, the enclosure plate and the bottom plate define a cavity, and the casing is provided
- a partition the partition divides the cavity into a first cavity and a second cavity; an electric control box, the electric control box is arranged in the second cavity; a water tank assembly, the water tank assembly is arranged in In the first cavity, the water tank assembly is connected to the top wall of the cabinet, the water tank assembly has a steam outlet and a water inlet for supplying water to the inside of the water tank assembly, and the water inlet is in communication with a water source.
- the water vapor in the water tank assembly is driven by the air pressure to flow to the air conditioning device; a heating assembly, the heating assembly is provided in the water tank assembly, and the water vapor generated by the heating assembly is suitable for heating from the steam Outlet discharge; float valve, the float valve is arranged in the water tank assembly to control the on and off of the water inlet.
- the steam generating device of the present application through the cooperation of the water tank component, the heating component and the float valve, there is no need to manually add water to the steam generating device, the steam generating device is more convenient to use, and the steam generating device can be installed outside the air conditioning device.
- the convenience of disassembly and installation of the steam generating device can be improved, thereby improving the disassembly and assembly efficiency of the steam generating device.
- the float valve includes: a connecting piece, the connecting piece penetrates the water inlet, the connecting piece has a water passage, and the outer peripheral wall of the connecting piece is connected to the inlet The inner peripheral wall of the nozzle is in a sealed connection; a baffle, the baffle is pivotally connected to the connecting piece; a floating ball, the floating ball is connected to the baffle, the float is driven by the buoyancy of the water The baffle is driven downward to open or close the flow channel.
- the baffle and the floating ball are connected by a connecting rod, the baffle has a central plane, the rotation axis of the baffle lies in the central plane, and the central axis of the floating ball The angle between the central plane is an acute angle.
- a water flow detection device is provided at the water inlet.
- a normally open solenoid valve for water inlet is provided at the water inlet.
- the heating component is an electric heating element.
- the electric heating element is PTC.
- the steam outlet is a plurality of spaced apart.
- a water receiving tray is provided under the water tank assembly.
- the water receiving tray is detachably connected to the water tank assembly.
- the water receiving tray is provided with a water level detecting component in the water receiving tray, and the water receiving tray water level detecting component is provided in the water receiving tray.
- the water level detection component of the water receiving tray is an electrode sheet detection component or a floating ball detection component.
- the water receiving tray has a water outlet pipe, one end of the water outlet pipe is communicated with the inside of the water receiving tray, the other end of the water outlet pipe has a water outlet, and the water outlet pipe penetrates The hoarding.
- the bottom plate, the top plate and the enclosure plate define the cube-shaped enclosure
- the enclosure plate includes a first side plate, a second side plate, and a first side plate that are connected end to end.
- Three side plates and a fourth side plate, the first side plate and the third side plate are opposite, and the water outlet pipe and the pipeline communicating with the steam outlet are both penetrated through the first side plate.
- the pipeline communicating with the water inlet passes through the second side plate.
- the first side plate and the third side plate are both flat plates, and the end of the second side plate connected to the first side plate has a first bent portion, and The first bending part is connected to the end of the first side plate, the end of the second side plate connected to the third side plate has a second bending part, and the second bending part is connected to The ends of the third side plate are connected, and the second side plate and the fourth side plate have the same shape.
- the first bending portion and the first side plate smoothly transition, and the second bending portion and the third side plate smoothly transition.
- the water tank assembly further has a drain, and a drain valve is provided at the drain to control the on and off of the drain.
- the electrical control box is detachably connected to the partition.
- the partition is detachably connected to the top plate.
- the enclosure board and the top board are detachably connected.
- the bottom plate is detachably connected to the enclosure plate.
- a part of the structure of the bottom plate overlaps a part of the structure of the enclosure, and the overlapped part of the base plate and the enclosure is connected by a hand-held screw
- the hand-held screw includes: a threaded rod;
- the threaded rod is provided with an external thread, and the threaded rod penetrates the overlapping part of the bottom plate and the enclosure;
- a hand-held part the hand-held part is provided at the end of the threaded rod, and the hand-held part Located on the outside of the casing, the outer peripheral wall of the hand-held part has anti-skid lines.
- the part where the bottom plate is connected to the enclosure plate transitions smoothly; the part where the top plate is connected to the enclosure plate transitions smoothly.
- the water tank assembly includes: a working water tank, the working water tank has a heating cavity, and the steam outlet is provided in the working water tank; a supplemental water tank, the supplemental water tank is connected to the working water tank through a communication pipe The water tank is in communication, and the water inlet is arranged in the water supply tank.
- the communicating tube is a U-shaped tube.
- the U-shaped pipe is provided with a one-way valve, so that fluid can only flow from the makeup water tank to the working water tank.
- the water tank assembly includes a main water tank with a heating cavity in the main water tank, the water inlet and the steam outlet are both provided in the main water tank, and the heating assembly is provided in the main water tank. Inside the main water tank.
- the air conditioning device includes: an indoor unit having an air outlet; a steam generating device, the steam generating device being the above-mentioned steam generating device; a steam delivery pipeline, one end of the steam delivery pipeline is connected to The steam outlet is in communication, and the steam generating device uses the pressure of the steam to drive steam to flow and sequentially flow through the steam outlet and the steam delivery pipeline to the indoor unit.
- Figure 1 is a schematic diagram of an air conditioning device and a steam generating device implemented according to the present application
- FIG. 2 is a schematic diagram of an air conditioning device implemented according to the present application.
- FIG. 3 is a schematic diagram of an embodiment of a steam generating device implemented according to the present application.
- Figure 4 is a schematic diagram of the upper end of the working water tank and the make-up water tank of the steam generating device implemented according to the present application being connected;
- Fig. 5 is a schematic diagram of a main water tank with a water tank assembly of a steam generating device implemented according to the present application;
- FIG. 6 is a schematic diagram of the connection of multiple working water tanks and supplemental water tanks of the steam generating device implemented according to the present application;
- FIG. 7 is a schematic diagram of the connection of multiple main water tanks of the steam generating device implemented according to the present application.
- Fig. 8 is a schematic diagram of a reed switch float switch of a steam generating device implemented according to the present application
- Fig. 9 is a schematic diagram of the reed switch float switch of the steam generating device implemented according to the present application being arranged on the water supply tank;
- Fig. 10 is a schematic diagram of the reed switch float switch of the steam generating device implemented according to the present application being arranged on the main water tank;
- Figure 11 is a schematic diagram of a water level probe assembly of a steam generating device implemented according to the present application.
- Fig. 12 is a schematic diagram of the water level probe assembly of the steam generating device implemented according to the present application being arranged on the water supply tank;
- FIG. 13 is a schematic diagram of the water level probe assembly of the steam generating device implemented according to the present application arranged on the main water tank;
- Figure 14 is a schematic diagram of another embodiment of a steam generating device implemented according to the present application.
- FIG. 15 is a schematic diagram of another embodiment of a steam generating device implemented according to the present application.
- FIG 16 is a schematic diagram of another embodiment of a steam generating device implemented according to the present application.
- FIG. 17 is a schematic diagram of another embodiment of a steam generating device implemented according to the present application.
- Figure 18 is a schematic diagram of another embodiment of a steam generating device implemented according to the present application.
- Figure 19 is a schematic diagram of another embodiment of a steam generating device implemented according to the present application.
- Figure 20 is a schematic diagram of another embodiment of a steam generating device implemented according to the present application.
- Figure 21 is a schematic diagram of another embodiment of a steam generating device implemented according to the present application.
- FIG 22 is a schematic diagram of a steam generating device implemented according to the present application.
- Figure 23 is a cross-sectional view of a steam generating device implemented according to the present application.
- Figure 24 is an exploded view of the steam generating device implemented according to the present application.
- Figure 25 is a cross-sectional view at another angle of the steam generating device implemented according to the present application.
- Figure 26 is an exploded view of the steam generating device implemented according to the present application.
- Figure 27 is an exploded view of the water supply tank of the steam generating device implemented according to the present application.
- Figure 28 is a schematic diagram of a float valve of a steam generating device implemented according to the present application.
- Figure 29 is a schematic diagram of a drip tray according to some embodiments implemented in the present application.
- Figure 30 is a top view of a water receiving tray according to some embodiments implemented in the present application.
- Figure 31 is a schematic diagram of a water receiving tray according to some embodiments implemented in the present application.
- Figure 32 is a schematic diagram of a drip tray according to some embodiments implemented in the present application.
- Figure 33 is a top view of a water receiving tray according to some embodiments implemented in the present application.
- Figure 34 is a schematic diagram of the mating state of the sleeve and the siphon according to an embodiment of the present application.
- Figure 35 is a partial enlarged view of the part circled A in Figure 34;
- Figure 36 is a top view of a water receiving tray according to an embodiment of the present application.
- Figure 37 is a side view of a water receiving tray according to an embodiment of the present application.
- Figure 38 is a cross-sectional view in the direction of B-B in Figure 37;
- Fig. 39 is a partial enlarged view of the part circled by C in Fig. 38.
- the steam generating device 800 according to an embodiment of the present application will be described below with reference to FIGS. 1 to 39.
- the steam generating device 800 is adapted to generate steam for supplying steam to the air conditioning device 700, and the steam generating device 800 includes: The casing 810, the electric control box 906, the water tank assembly 820, the heating assembly 830, the float valve 870 and the water level detector 840.
- the casing 810 may include a top plate 812, an enclosure plate 813, and a bottom plate 814.
- the top plate 812 is spaced apart from the bottom plate 814, and the top plate 812 and the bottom plate 814 are connected by the enclosure plate 813.
- the top plate 812, the enclosure plate 813 and the bottom plate 814 define a cavity
- a partition 811 is provided in the casing 810.
- the partition 811 divides the cavity into a first cavity and a second cavity.
- the water tank assembly 820 can be arranged in the first cavity.
- the water tank assembly 820 is connected to the top wall of the casing 810.
- the control box 906 may be disposed in the second cavity. This arrangement can arrange the water tank assembly 820 and the electric control box 906 in two cavities respectively, which can avoid interference between the water tank assembly 820 and the electric control box 906, thereby ensuring the working reliability of the water tank assembly 820 and the electric control box 906.
- the water tank assembly 820 has a steam outlet 821 and a water inlet 822 for supplying water to the inside of the water tank assembly 820, and the water inlet 822 is in communication with a water source.
- the "water source” here can be tap water, or tap water equipped with a purification device.
- the heating component 830 is disposed in the water tank component 820, and the steam generated by the heating component 830 is suitable for being discharged from the steam outlet 821.
- the float valve 870 is disposed in the water tank assembly 820, and the float valve 870 is used to control the on and off of the water inlet 822.
- the steam outlet 821 may be arranged close to the top of the water tank assembly 820
- the water inlet 822 may be connected to a water source through a water inlet pipe
- water in the water source may flow into the water tank assembly 820 through the water inlet 822.
- the heating component 830 is arranged in the water tank component 820.
- the heating component 830 can be arranged near the bottom of the water tank component 820.
- the heating component 830 can heat the water in the water tank component 820 to form water vapor.
- the water vapor generated by the heating component 830 is heated in the water tank component 820.
- the water vapor is driven by the air pressure to flow to the air conditioning device 700.
- the water level detector 840 is provided in the water tank assembly 820, and the water level detector 840 is used to detect the water level in the water tank.
- the steam outlet 821 of the steam generating device 800 may communicate with the air outlet 900 of the air conditioning device 700 through a pipeline.
- the controller controls the steam generating device 800 to work, and the heating component 830 heats the water in the water tank component 820.
- the water forms water vapor during the heating process, and the water vapor is located above the water surface in the water tank component 820 As the water vapor increases, the air pressure above the water surface in the water tank assembly 820 gradually increases. Under the action of the air pressure, the water vapor flows from the steam outlet 821 into the air conditioning device 700.
- the water in the steam generating device 800 gradually decreases during the evaporation process
- the water level detector 840 may send a signal to the controller, and the controller The water inlet 822 is controlled to open, so that the water in the water source flows into the water tank assembly 820.
- This arrangement can save the work steps of manually adding water to the steam generating device 800, and the steam generating device 800 is more convenient to use, which can improve user satisfaction.
- the float valve 870 opens the water inlet 822 to allow water to flow from the water inlet 822 into the water tank assembly 820.
- This arrangement can eliminate the manual steps of adding water to the steam generating device 800, and the steam generating device 800 is more convenient to use , Can improve user satisfaction.
- the liquid level in the water tank assembly 820 can be kept equal to the height of the scale line c, thereby ensuring that there is sufficient water in the water tank assembly 820.
- the steam generating device 800 can also be arranged outside the air conditioning device 700.
- the disassembly of the steam generating device 800 is convenient.
- the maintenance difficulty is reduced, so that Improve maintenance efficiency.
- the assembly is more convenient, and the assembly efficiency of the steam generating device 800 can be improved.
- the steam generating device 800 is more convenient to use, and the steam generating device 800 can be installed Outside the air conditioning device 700, the convenience of disassembly and installation of the steam generating device 800 can be improved, so that the disassembly and assembly efficiency of the steam generating device 800 can be improved.
- the float valve 870 may include: a connecting piece 871, a baffle 872 and a float 873.
- the connecting piece 871 penetrates through the water inlet 822, the connecting piece 871 has a water flow channel, and the outer peripheral wall of the connecting piece 871 and the inner peripheral wall of the water inlet 822 are sealedly connected. This arrangement can prevent the water in the water tank assembly 820 from flowing from the connecting piece. Flow out between 871 and water inlet 822.
- the baffle 872 is pivotally connected to the connecting member 871.
- the floating ball 873 is connected to the baffle 872, and the floating ball 873 drives the baffle 872 to open or close the water passage under the buoyancy of water.
- the float 873 rotates downwards, and the float 873 drives the baffle 872 to open the water flow channel, so that water flows into the water tank assembly 820.
- the floating ball 873 drives the baffle 872 to close the water channel so that water cannot flow into the water tank assembly 820, so that the liquid level in the water tank assembly 820 is equal to the height of the scale line c.
- the baffle 872 and the floating ball 873 are connected by a connecting rod 874, the baffle 872 has a central plane, the rotation axis of the baffle 872 lies in the central plane, and the central axis of the floating ball 873 is between the central plane and the central plane.
- the included angle is acute.
- a water flow detection device 880 may be provided at the water inlet 822, and the water flow detection device 880 can detect whether water flows through the water inlet 822.
- the flow detecting device 880 does not work.
- the water flow detecting device 880 continues to have a water flow signal (determined by time), it indicates that there is a leak in a certain position of the steam generating device 800.
- a water inlet normally open solenoid valve 890 is provided at the water inlet 822, and the water inlet normally open solenoid valve 890 is always open when it is not energized and closed when it is energized.
- the controller will control the water inlet normally open solenoid valve 890 to close to ensure that water cannot flow into the steam generating device 800 from the water inlet 822, thereby ensuring water Will not continue to leak.
- the steam generating device 800 may further include: a normally closed water inlet solenoid valve 850, wherein the normally closed water inlet solenoid valve 850 may be connected to a controller to control The device can control the opening and closing of the water inlet normally closed solenoid valve 850.
- the water level detector 840 detects that the water level in the water tank assembly 820 is lower than the replenishing water level line a, the water level detector 840 sends a signal to the controller, and then the controller controls the water inlet normally closed solenoid valve 850 to open so that the water flows into In the water tank assembly 820, when the water level in the water tank assembly 820 rises to the stop water level line b, the water level detector 840 sends a signal to the controller, and then the controller controls the water inlet normally closed solenoid valve 850 to close and stop sending to the water tank assembly 820 Replenish water.
- Such an arrangement can achieve the working purpose of automatically controlling the water supply to the water tank assembly 820, and can ensure that water is stored in the water tank assembly 820 at any time, thereby ensuring the working reliability of the steam generating device 800.
- the water tank assembly 820 may also have a drain port 823, and a drain valve 824 may be provided at the drain port 823.
- the drain valve 824 is used to control the communication of the drain port 823. Off. Wherein, when the water in the water tank assembly 820 needs to be discharged from the water tank assembly 820, the drain valve 824 can be controlled to open, and then the water in the water tank assembly 820 will be discharged from the water tank assembly 820 through the drain port 823.
- control drain valve 824 When water needs to be stored in the water tank assembly 820, the control drain valve 824 is closed, which can prevent the water in the water tank assembly 820 from flowing out of the water tank assembly 820, thereby preventing the water in the water tank assembly 820 from flowing out of the water tank assembly 820.
- the heating element 830 can be set as an electric heating element.
- the electric heating element has high working efficiency and good reliability. This arrangement can make the water in the water tank assembly 820 quickly form steam, which can increase the steam.
- the working efficiency of the generating device 800 can also further improve the working reliability of the steam generating device 800.
- the electric heating element may be set as a PTC (Positive Temperature Coefficient-positive temperature coefficient thermistor), where the temperature of the PTC rises quickly, and the water tank assembly 820 can be lifted during the operation of the steam generating device 800 The rate at which the water inside forms water vapor, so that the working efficiency of the steam generating device 800 can be further improved.
- the PTC can be used in water, and the PTC is not easily damaged. This setting can extend the service life of the electric heating element.
- the water tank assembly 820 may include: a main water tank 825, the main water tank 825 may have a heating cavity 826, the water inlet 822 and the steam outlet 821 may both be provided in the main water tank 825, The heating element 830 may be arranged in the main water tank 825. It should be explained that the water tank assembly 820 is an integrated structure, the steam outlet 821 can be arranged close to the top of the main water tank 825, and the heating assembly 830 can be arranged close to the bottom of the main water tank 825.
- the controller controls The normally closed water inlet solenoid valve 850 is opened, and water can flow into the heating chamber 826 through the water inlet pipe and the water inlet 822. After the main water tank 825 is filled with water, the controller controls the normally closed water inlet solenoid valve 850 to close.
- the controller controls the heating assembly 830 to work, and the heating assembly 830 can quickly heat the water in the heating chamber 826 into steam.
- the water tank assembly 820 may include: a working water tank 827 and a supplemental water tank 828.
- the working water tank 827 and the makeup water tank 828 do not work at the same time.
- the working water tank 827 may have a heating cavity 826
- the steam outlet 821 may be provided in the working water tank 827
- the supplemental water tank 828 may be connected to the working water tank 827 through a communication pipe 829
- the water inlet 822 is provided in the supplementary water tank 828.
- the water can flow into the water supply tank 828 through the water inlet 822, and the water can be stored in the water supply tank 828.
- the water in the water supply tank 828 can flow into the working water tank 827 through the connecting pipe 829. Thereby, it can be ensured that water is always stored in the working water tank 827.
- the water inlet 822 is provided with a water inlet normally closed solenoid valve 850.
- the controller controls the water inlet normally closed solenoid valve 850 to open so that water flows into the water inlet 822. Make-up water tank 828.
- the controller controls the water inlet normally closed solenoid valve 850 to close, and stops replenishing water into the make-up water tank 828.
- This setting can ensure that there is water in the make-up water tank 828. Therefore, the situation that there is no water in the working water tank 827 can be avoided, so that the heating assembly 830 can be prevented from burning dry, and the service life of the heating assembly 830 can be prolonged.
- the communication tube 829 may be configured as a U-shaped tube.
- the structure of the working water tank 827 and the make-up water tank 828 can form a communicating mechanism.
- the water in the working water tank 827 gradually decreases.
- the water level in the make-up water tank 828 is higher than the water surface in the working water tank 827.
- the water in the make-up water tank 828 will be pressed into the make-up water tank 828, so that the work of replenishing water into the working water tank 827 can be realized. purpose.
- the water tank assembly 820 may include: a working water tank 827 and a supplemental water tank 828.
- the working water tank 827 may have a heating cavity 826
- the steam outlet 821 may be provided in the working water tank 827
- the make-up water tank 828 may be connected to the working water tank 827 through a connecting pipe 829, so that the structure of the working water tank 827 and the make-up water tank 828 can form a communicating mechanism.
- the nozzle 822 is provided in the water supply tank 828.
- the upper end of the working water tank 827 is connected to the upper end of the supplementary water tank 828. This arrangement can ensure that the pressures in the working water tank 827 and the supplementary water tank 828 are equal, and can prevent excessive pressure in the working water tank 827 from returning the water pressure to the supplementary water tank 828.
- a one-way valve may be provided on the U-shaped pipe.
- the one-way valve can enable fluid to flow only from the makeup water tank 828 to the working water tank 827. This arrangement can avoid the working water tank.
- the fluid in 827 flows to the make-up water tank 828, so that enough fluid can be stored in the working water tank 827.
- the working water tank 827 may have an air pressure adjusting port 8293, and the air pressure adjusting port 8293 may communicate with the heating chamber 826. It should be noted that when the working water tank 827 needs to be filled with water, the air pressure adjustment port 8293 is opened, and the gas pressure in the heating chamber 826 is rapidly reduced, so that the pressure in the heating chamber 826 can be quickly approached to atmospheric pressure, thereby ensuring that the water supply tank 828 The water quickly flows into the working water tank 827, and the work of refilling the working water tank 827 can be completed.
- a steam valve 8294 may be provided at the air pressure regulating port 8293, wherein the steam valve 8294 can be connected to the controller, and the steam valve 8294 can better control the opening and closing of the air pressure regulating port 8293.
- the controller controls the steam valve 8294 to open so that the pressure in the heating chamber 826 quickly approaches the atmospheric pressure, thereby further ensuring that the water in the water supply tank 828 quickly flows into the working water tank 827.
- the controller controls the steam valve 8294 to close.
- the water filling tank 828 can fill the working water tank 827 through the connecting pipe 829.
- the principle of the communicating device can be used to make the water in the make-up water tank 828 supplement the working water tank 827.
- the water level in the make-up water tank 828 drops, and the water level detector
- the normally closed solenoid valve 850 opens to replenish water into the water supply tank 828.
- the water supply tank 828 and the working water tank 827 form a connector, the liquid levels in the two water tanks are level.
- the water level detector 840 sends an electrical signal to control the water inlet normally closed solenoid valve 850 to close, thereby eliminating the need to fill the water tank 828 with water.
- the heating component 830 can be activated to make the heating component 830 heat the water in the working water tank 827 to generate water vapor.
- the heating component 830 is in the heating process ,
- the atmospheric pressure in the working water tank 827 gradually increases. Because the connecting pipe 829 is provided with a one-way valve, the fluid cannot flow from the working water tank 827 to the makeup water tank 828.
- the makeup water tank 828 is no longer replenishing water, that is, the pressure generated by the height difference between the liquid column heights in the replenishing water tank 828 and the working water tank 827 is equal to the pressure in the working water tank 827.
- the replenishing water tank 828 does not replenish the working water tank 827.
- the heating element 830 After the heating element 830 is heated for a period of time and the water around the heating element 830 is insufficient, a small amount of water vapor is generated or no water vapor is generated in the working water tank 827. If water vapor needs to be continuously generated at this time, water needs to be added to the working water tank 827 , That is, it is necessary to wait for the air pressure in the working water tank 827 to be equal to the air pressure in the make-up water tank 828 before the make-up water tank 828 can supply water to the working water tank 827.
- the following two methods can be used: 1) Since the heating element 830 is not heating, the temperature in the working water tank 827 gradually drops, and the remaining water vapor in the working water tank 827 gradually condenses As a result, the air pressure in the working water tank 827 gradually decreases.
- the water in the make-up water tank 828 can flow into the working water tank 827 by using the principle of the communicating device; 2)
- the pressure in the working water tank 827 and the makeup water tank 828 can be provided with an air pressure regulating port 8293 on the working water tank 827, and a steam valve 8294 can be provided at the air pressure regulating port 8293.
- the steam valve 8294 quickly restores the pressure in the working water tank 827 to atmospheric pressure, which can then be balanced with the pressure in the makeup water tank 828.
- multiple working water tanks 827 can be provided. In unit time, multiple working water tanks 827 work together to increase the amount of water vapor formed by the steam generating device 800, thereby The working efficiency of the steam generating device 800 can be improved.
- each water supply tank 828 is in communication with at least one working water tank 827.
- each supplemental water tank 828 may be connected to one working water tank 827 or may be connected to multiple working water tanks 827.
- the make-up water tank 828 corresponds to the working water tank 827 one-to-one, that is, one make-up water tank 828 is only connected to one working water tank 827, which can also be understood as a make-up water tank. 828 only replenishes one working water tank 827.
- the steam generating device 800 may be connected to a water source through a main water inlet pipe, and multiple water inlet pipes may be provided on the main water inlet pipe, and the multiple water inlet pipes correspond to the water supply tank 828 one by one.
- the make-up water tank 828 and the working water tank 827 are connected by the principle of a communicating device, and the upper end of the make-up water tank 828 is connected with the upper end of the working water tank 827. This arrangement can ensure that the pressures in the make-up water tank 828 and the working water tank 827 are equal. When the pressure of is too high, the water in the working water tank 827 can be prevented from being pressed into the water supply tank 828.
- a normally closed solenoid valve 850 can be provided at the water inlet 822 of each makeup water tank 828, and a water level detector 840 is installed in each makeup water tank 828.
- the inlet normally closed solenoid valve 850 is opened, and the water can flow into the replenishing water tank 828 through the main inlet pipe, the inlet pipe, and the water inlet 822 in turn.
- the inlet normally closed solenoid valve 850 is closed , Stop replenishing water to replenishing water tank 828.
- the water tank assembly 820 includes a main water tank 825 with a heating cavity 826 in the main water tank 825, the water inlet 822 and the steam outlet 821 are both provided in the main water tank 825, and the heating element 830 is provided in the main water tank 825. That is, the water inlet 822 directly supplies water to the main water tank 825, and the heating assembly 830 is used to heat the water in the main water tank 825, and the water vapor flows out from the main water tank 825.
- the main water tank 825 can be provided in multiples.
- the steam generating device 800 can be connected to the water source through a main water inlet pipe, and there can be multiple main water inlet pipes. There are two inlet pipes, and multiple inlet pipes correspond to the main water tank 825 one-to-one.
- the water inlet 822 of each main water tank 825 can be provided with a water inlet normally closed solenoid valve 850, and each main water tank 825 is provided with a water level detector 840.
- the inlet normally closed solenoid valve 850 When the water level in the main water tank 825 is lower than the water supply level line At a, the inlet normally closed solenoid valve 850 is opened, and the water can flow into the main water tank 825 through the main inlet pipe, the inlet pipe, and the water inlet 822 in turn. When the water level rises to the stop water level line b, the inlet normally closed solenoid valve 850 is closed , Stop supplying water to the main water tank 825.
- the water level detector 840 can be configured as a reed switch float switch 841.
- the reed switch float switch 841 has good working reliability. Good detection of the water level in the make-up water tank 828 and the main water tank 825 can improve the accuracy of water level detection.
- the reed switch float switch 841 may have an alarm position 842, which may include a high water position 843 and a low water position 844, and a high water position 843. The position is higher than the low water level 844.
- the reed switch float switch 841 sends an alarm signal to the controller, and the controller controls The normally closed solenoid valve 850 is closed to stop water supply.
- the reed switch float switch 841 sends an alarm signal to the controller, and the controller controls the water inlet normally closed solenoid valve 850 to open to start water supply.
- This setting can realize the function of automatically replenishing water in the water replenishment tank 828 and the main water tank 825, and can improve the accuracy of water replenishment.
- the reed switch float switch 841 may also have an early warning gear 845.
- the early warning gear 845 may include a second-high water level 846 and a second-low water level 847, which The position of the water level gear 846 is higher than the position of the second low water level 847, and the position of the second highest water level is lower than the position of the high water level 843, and the position of the second low water level 847 is higher than the position of the low water level 844.
- the reed switch float switch 841 reports to the controller Sending an alarm signal can enable the user to understand the water level in the make-up water tank 828 and the main water tank 825.
- the reed switch float switch 841 sends an alarm signal to the controller, which can also enable the user to understand the water supply tank 828, The water level in the main water tank 825.
- the reed switch float can be set in the water replenishment tank 828.
- the water replenishment tank 828 When the water is refilled in the water replenishment tank 828, when the water level reaches the low water level 844 and the second low water level in sequence 847.
- the reed switch float switch 841 can send an alarm signal to the controller, so that the user can accurately understand the water supply situation in the water supply tank 828.
- the reed switch float switch 841 When the water level in the water supply tank 828 reaches After the high water level 843, the reed switch float switch 841 sends an alarm signal, and the controller controls the water inlet normally closed solenoid valve 850 to close, and stops the water supply to the water supply tank 828.
- the controller can all The controller sends an alarm signal to enable the user to accurately understand the water level in the makeup water tank 828.
- the working water tank 827 stops working, and the controller controls the water inlet normally closed solenoid valve 850 to open. Start to replenish water into the replenishing water tank 828.
- the reed switch float can be set in the main water tank 825.
- the main water tank 825 When water is added to the main water tank 825, when the water level reaches the low water level 844 and the second low water level in sequence. 847.
- the reed switch float switch 841 can send an alarm signal, so that the user can accurately understand the water supply situation in the water supply tank 828.
- the reed switch float switch 841 sends an alarm signal, and the controller controls the water inlet normally closed solenoid valve 850 to close, and stops supplying water to the main water tank 825.
- the main water tank 825 is in operation, when the water level in the main water tank 825 reaches the high water level 843, the second high water level 846, the second low water level 847, and the low water level 844 in sequence, the reed switch float switch 841 can send The alarm signal allows the user to accurately understand the water level in the main water tank 825.
- the main water tank 825 stops working, and the controller controls the water inlet normally closed solenoid valve 850 to open and start to the main body
- the water tank 825 is filled with water.
- the water level detector 840 can be set as a water level probe assembly 848.
- the work of the water level probe assembly 848 is more accurate. This arrangement can accurately detect the main water tank 825.
- the water level in the make-up water tank 828 can improve the working accuracy of the water level detector 840.
- the water level probe assembly 848 has good working reliability and is not easy to be damaged. Such a configuration can prolong the service life of the water level detector 840.
- the water level probe assembly 848 may include a high water level probe 849, a medium water level probe 8491, and a low water level probe 8492.
- the high water level probe The position of the free end of the 849 is higher than the height of the free end of the middle water level probe 8491, and the height of the free end of the middle water level probe 8491 is higher than the height of the free end of the low water level probe 8492.
- the low water level probe 8492 is the common end, and the remaining probes are connected to the low water level probe 8492 through water.
- the water level probe assembly 848 can be arranged in the water replenishment tank 828 and the main water tank 825.
- the water level in the water replenishment tank 828 and the main water tank 825 is equal to the height of the free end of the middle water level probe 8491, the middle water level probe 8491 and The low water level probe 8492 is turned on, and the water level probe assembly 848 detects that the water level in the makeup water tank 828 and the main water tank 825 is at the middle water level.
- the water level probe assembly 848 detects that the water level in the makeup water tank 828 and the main water tank 825 is at the high water level. At this time, there is no need for the makeup water tank 828 and the main water tank 825.
- the water level probe assembly 848 detects that the water level in the replenishing water tank 828 and the main water tank 825 is at a low water level.
- the water level probe assembly 848 may be arranged in the water replenishment tank 828.
- the controller controls the water inlet normally closed solenoid valve 850 to close, and the water supply to the water supply tank 828 is stopped.
- the water level in the make-up water tank 828 is lower than the height of the free end of the high water level probe 849, and is located between the height of the free end of the high water level probe 849 and the height of the free end of the middle water level probe 8491 ,
- the middle water level probe 8491 and the low water level probe 8492 are connected, so that the water level in the water supply tank 828 connected to the user is at the middle water level.
- the controller controls the water inlet normally closed solenoid valve 850 to open to replenish water into the makeup water tank 828.
- the water level probe assembly 848 can be arranged in the main water tank 825.
- the controller controls the water inlet normally closed solenoid valve 850 to close, and the water supply to the main water tank 825 is stopped.
- the water level in the main water tank 825 is lower than the height of the free end of the high water level probe 849, and is located between the height of the free end of the high water level probe 849 and the height of the free end of the middle water level probe 8491 ,
- the middle water level probe 8491 and the low water level probe 8492 are connected, so that the water level in the main water tank 825 connected to the user is at the middle water level.
- the controller controls the water inlet normally closed solenoid valve 850 to open to supply water to the main water tank 825.
- the steam outlets 821 may be provided in multiple spaced apart. This arrangement enables the multiple steam outlets 821 to simultaneously supply steam to the air conditioning device 700, which can increase the humidity of the gas blown by the air conditioning device 700.
- a water receiving tray 860 may be provided under the water tank assembly 820, wherein, when the water tank assembly 820 leaks, or when the water in the main water tank 825 and the working water tank 827 needs to be drained, the water can be stored in In the water receiving pan 860, it is possible to prevent the steam generating device 800 from leaking to the outside.
- the water receiving tray 860 and the water tank assembly 820 are detachably connected together, and this arrangement facilitates the assembly of the steam generating device 800.
- the water receiving tray 860 is provided with a water receiving tray water level detecting member 861, the water receiving tray water level detecting member 861 is provided in the water receiving tray 860, and the water receiving tray water level detection The component 861 can detect the height of the water in the water tray 860.
- the water level detection component 861 detects that the height of the water in the water tray 860 reaches a predetermined value, the water level detection component 861 can send a signal to the controller , The controller alarms the user, prompting the user to release the water in the drip tray 860.
- the water level detection component 861 of the water receiving tray is an electrode sheet detection component or a floating ball detection component.
- the electrode sheet detection component may include two electrode sheets 21, the two electrode sheets 21 are arranged in the water receiving tray 860 at intervals, and the two electrode sheets 21 can pass through the water in the water receiving tray 860.
- An electrical connection is formed, and the water-receiving pan water level detecting member 861 is configured to emit a signal when the two electrode plates 21 are electrically connected.
- the steam generating device 800 of the embodiment of the present application can effectively detect whether water enters the water receiving pan 860 through the water receiving pan water level detection member 861, which improves the sensitivity and reliability of the steam generating device 800. Conducive to users to save water.
- the method of detecting whether there is water in the water receiving tray 860 by the water receiving pan water level detecting member 861 is simple and reliable, which makes the steam generating device 800 simple in structure and convenient to manufacture.
- the float detection component may include a float switch 210, which is provided in the water receiving tray 860, and two first connecting portions 13 are provided on the bottom wall of the detection space d, each The first connecting portion 13 is formed as a connecting post provided on the inner bottom wall of the water receiving pan 860, the connecting post is provided with a first connecting hole 13a, the first connecting hole 13a is formed as a threaded hole, and the outer peripheral wall of the float switch 210 There are two second connecting parts 211, and the two second connecting parts 211 are arranged in one-to-one correspondence with the two first connecting parts 13.
- Each second connecting part 211 is formed to be arranged on the outer peripheral wall of the float switch 210 and facing An externally extending connecting plate is provided with a second connecting hole 211a, and a fixing screw passes through the second connecting hole 211a and then extends into the corresponding first connecting hole 13a.
- Each first connecting part 13 is also provided with a mating connecting rod 13b, and each second connecting part 211 is provided with a mating connecting hole 211b, and the mating connecting rod 13b is adapted to extend into the corresponding mating connecting hole 211b to make the float
- the switch 210 is more reliably fixed in the detection space d.
- a water guiding groove 11 is also provided on the bottom wall of the water receiving pan 860, and the water guiding groove 11 is suitable for guiding the water in the water receiving pan 860 to the float switch 210.
- the float switch 210 can be closed by the water in the water receiving pan 860, and the water level detecting member 861 of the water receiving pan is configured to emit a signal when the float switch 210 is closed.
- the make-up water tank 828 and/or the working water tank 827 leaks and/or overflows, the leaked and/or overflowed water from the make-up water tank 828 and/or the working water tank 827 can drip into the water receiving pan 860.
- the water receiving pan water level detection element 861 emits a signal, which can effectively and timely notify the user of the water leakage at the connection of the replenishing water tank 828 and/or the working water tank 827 And/or water overflows, thereby facilitating the user to close the water inlet 822 of the water supply tank 828 in time and repair the steam generating device 800, thereby improving the reliability of the use of the steam generating device 800.
- the steam generating device 800 may further include an alarm device, and the alarm device may be electrically connected to the controller.
- the alarm device can send out an alarm signal, which can be a sound or a flashing light, so as to better remind the user that there is more water in the water receiving tray 860, and thus the user can understand that the steam generating device 800 is malfunctioning.
- the siphon assembly 862 may include a siphon tube 121 and a sleeve 122.
- the siphon tube 121 may include a first tube portion 121a and a second tube portion 121b that are communicated with each other.
- the second tube portion 121b may be connected to the water receiving tray.
- the water outlet 11b on the 860 is connected, the water inlet end of the first pipe portion 121a can be located above the water outlet end of the second pipe portion 121b, the axial end of the sleeve 122 can be opened, and the sleeve 122 can be sheathed on the first pipe 121a and the first pipe part 121a are in clearance fit to define the water inlet flow path 12a.
- the water inlet flow path 12a communicates with the water receiving space 11a of the water receiving tray 860 and the water inlet end of the first pipe part 121a, respectively.
- the water inlet end may be located above the water outlet end of the second pipe portion 121b.
- the water receiving tray 860 may have a water outlet pipe 863, one end of the water outlet pipe 863 is connected to the inside of the water receiving tray 860, and the other end of the water outlet pipe 863 has a water outlet 11b.
- the water pipe 863 passes through the enclosure 813. When there is water in the water receiving tray 860, the water in the water receiving tray 860 can flow to the outside of the water receiving tray 860 through the water outlet 11b of the water outlet pipe 863.
- the bottom panel 814, the top panel 812, and the enclosure panel 813 define a cube-shaped housing 810.
- the enclosure panel 813 may include a first side panel 815, a second side panel 816, and a third side panel connected end to end.
- the side plate 817 and the fourth side plate 818, and the first side plate 815 and the third side plate 817 are arranged opposite to each other.
- the water outlet pipe 863 and the pipeline communicating with the steam outlet 821 are all penetrated through the first side plate 815. This arrangement can ensure Draining the water in the water receiving tray 860 to the outside of the casing 810 can also ensure that water vapor is discharged outside the casing 810.
- the pipeline communicating with the water inlet 822 passes through the second side plate 816, so that the arrangement can connect the water inlet 822 with the water source.
- both the first side plate 815 and the third side plate 817 can be configured as flat plates. This arrangement can make the first side plate 815 and the third side plate 817 more flat, so that the casing 810 can be lifted. The aesthetics.
- the end of the second side plate 816 connected to the first side plate 815 has a first bending portion 819, and the first bending portion 819 is connected to the end of the first side plate 815.
- the end of the second side plate 816 connected to the third side plate 817 has a second bent portion 8191, the second bent portion 8191 is connected to the end of the third side plate 817, and the second side plate 816 is connected to the fourth side
- the shapes of the plates 818 are the same.
- the first bending portion 819 and the first side plate 815 are smoothly transitioned, and the second bending portion 8191 and the third side plate 817 are smoothly transitioned.
- This arrangement enables the second side plate 816 and the first side plate 816 to transition smoothly.
- the connection between the side plate 815 and the third side plate 817 is smoother, and the second side plate 816 can be better connected with the first side plate 815 and the third side plate 817 together.
- the siphon assembly 862 can introduce the water in the water receiving space 11a to the water outlet 11b to achieve the purpose of draining water.
- the water receiving space 11a, the water inlet flow path 12a, the first pipe portion 121a and the second pipe portion 121b communicate with each other.
- the water receiving pan 860 is in a water storage state.
- the liquid level in the water receiving space 11a changes synchronously with the liquid level in the water inlet flow path 12a.
- the siphon assembly 862 stops water drainage.
- both the sleeve 122 and the first tube portion 121a may be formed in a cylindrical shape, and the inner diameter of the sleeve 122 is larger than the outer diameter of the first tube portion 121a.
- the sleeve 122 includes an open end 122b and a sealed end 122a.
- the sleeve 122 can be sheathed on the first tube portion 121a through the open end 122b.
- the sealed end 122a is located above the first tube portion 121a and is connected to the first tube portion 121a.
- the water inlet interval is set. Therefore, after the water entering the first pipe portion 121a discharges the air in the siphon tube 121, a stable negative pressure can be formed in the siphon tube 121, and the drainage effect of the siphon tube assembly 12 can be improved.
- the sleeve 122 may be provided with a connecting portion 1221 extending toward the water baffle 14, and the connecting portion 1221 may be fixed to the water baffle 14, thereby
- the siphon assembly 862 can be conveniently fixed, and the overall structure of the water receiving tray 860 can be made more compact.
- the connecting portion 1221 may be provided at the top end of the sleeve 122, one end of the connecting portion 1221 is connected to the sleeve 122, the other end of the connecting portion 1221 extends toward the direction close to the baffle 14, and the connecting portion 1221 is provided with a mounting hole 1221a .
- the water baffle 14 is provided with a screw post 141, and the mounting hole 1221a and the threaded hole on the screw post 141 are arranged directly opposite.
- a fixing screw may be used to pass through the mounting hole 1221 a to be threadedly connected to the threaded column, thereby fixing the sleeve 122 on the water baffle 14.
- the connecting portion 1221 may also be connected to the water baffle 14 by riveting connection, and the connecting portion 1221 may also be fixed on the water baffle 14 by adhesive bonding.
- the electrical control box 906 and the partition are detachably connected together. In the maintenance process, this arrangement can facilitate the removal of the electrical control box 906 and improve the maintenance efficiency.
- the partition 811 is detachably connected to the top plate 812. In the assembly process, this arrangement can facilitate the assembly of the components in the steam generating device 800, thereby improving assembly efficiency.
- the enclosure plate 813 and the top plate 812 are detachably connected. This arrangement can facilitate the assembly of the components in the steam generating device 800, thereby further improving the assembly efficiency.
- the bottom plate 814 and the enclosure plate 813 are detachably connected.
- a part of the structure of the bottom plate 814 overlaps a part of the structure of the enclosure plate 813, and the overlapped portion of the bottom plate 814 and the enclosure plate 813 is connected by a hand-held screw, which may include a threaded rod and a hand-held part.
- the threaded rod may be provided with an external thread, the threaded rod penetrates the overlapping part of the bottom plate 812 and the enclosure 813, the hand-held part is provided at the end of the threaded rod, and the hand-held part is located outside the casing 810, and the outer peripheral wall of the hand-held part has Anti-slip lines.
- the hand-held screws are unscrewed, and the bottom plate 814 and the enclosure plate 813 can be detached.
- the bottom plate 814 and the enclosure plate 813 by tightening the hand-held screws, the bottom plate 814 and the enclosure plate 813 can be assembled together.
- the part where the bottom plate 814 is connected to the enclosure plate 813 is smoothly transitioned, and the part where the top plate 812 is connected to the enclosure plate 813 is smoothly transitioned.
- This arrangement can make the bottom plate 814 and the enclosure plate 813, the top plate 812 and the enclosure plate 813
- the joints of the bottom plate 814 and the enclosure plate 813, and the top plate 812 and the enclosure plate 813 can be better assembled together.
- the cabinet 810 may be installed on the roof of the room by means of a suspended ceiling.
- the top plate 812, the enclosure plate 813 and the bottom plate 814 define the installation space.
- the water tank assembly 820 is installed in the installation space, the top plate 812 is connected to the roof, the water tank assembly 820 and the partition 811 can be connected to the top plate 812, and the enclosure plate 813 is connected to the top plate 812.
- the water receiving tray 860 is connected to the water tank assembly 820, and the bottom plate 814 can be connected to the enclosure 813.
- the bottom plate 814 can be removed first, and then the water receiving tray 860 can be removed, so that the water tank assembly 820 can be exposed, and the water receiving tray 860 can be repaired. Or replacement, which can simplify the maintenance process of the steam generating device 800.
- one water supply tank 828 is provided, and there are multiple working water tanks 827.
- the multiple working water tanks 827 are all connected to the water supply tank 828.
- This arrangement can realize one water supply tank 828.
- the purpose of supplying water to multiple working water tanks 827 at the same time can reduce the volume of the steam generating device 800.
- a one-way valve 8291 may be provided on the communication pipe 829, and a water flow detection device 880 and a water inlet normally open solenoid valve 890 are provided at the water inlet 822.
- a solenoid valve 8292 may be provided on the communication pipe 829.
- the solenoid valve 8292 When the heating assembly 830 is in a non-working state, the solenoid valve 8292 is in a normally open state.
- the working water tank 827 is connected, and the water can flow from the replenishing water tank 828 to the working water tank 827, and finally the liquid level in the replenishing water tank 828 is equal to the liquid level in the working water tank 827.
- the solenoid valve 8292 is powered on to separate the water supply tank 828 from the working water tank 827 so that the water in the working water tank 827 will not flow to the water supply tank 828. At this time, water vapor can only be discharged along the steam outlet 821, and then long-distance transportation and humidification are realized.
- a solenoid valve 8292 is provided on the communication pipe 829, and a water flow detection device 880 is provided at the water inlet 822.
- a solenoid valve 8292 is provided on the communication pipe 829, and a water flow detection device 880 and a water inlet normally open solenoid valve 890 are provided at the water inlet 822.
- the air conditioning device 700 includes an outdoor unit 905, an indoor unit 901, a steam generating device 800, and a steam delivery pipeline.
- the outdoor unit 905 is connected with the indoor unit 901.
- the indoor unit 901 may have an air outlet 900.
- the steam generating device 800 is the steam generating device 800 of the above-mentioned embodiment.
- One end of the steam delivery pipeline is connected to the steam outlet 821.
- One end may be connected to the indoor unit 901, and the steam generating device 800 uses the pressure of the steam to drive the steam to flow and flow to the indoor unit 901 through the steam outlet 821 and the steam delivery pipeline in sequence.
- This arrangement can install the steam generating device 800 outside the indoor unit 901 without manually adding water to the steam generating device 800, making the steam generating device 800 more convenient to use, and can also improve the convenience of disassembly and installation of the steam generating device 800. Therefore, the efficiency of disassembly and assembly of the steam generating device 800 can be improved.
- the indoor unit 901 may have a first air inlet 902, a second air inlet 903, and a heat exchanger 904.
- the heat exchanger 904 is located in the indoor unit 901, as shown in FIG.
- An air inlet hole 902 may be located on the left side of the heat exchanger 904, a second air inlet hole 903 may be located on the right side of the heat exchanger 904, and the steam generating device 800 may be connected to the first air inlet hole 902 of the indoor unit 901.
- the arrangement can ensure that the steam generating device 800 has sufficient installation space, and the installation strength of the steam generating device 800 can be ensured.
- the steam generating device 800 can be connected to the second air inlet 903 of the indoor unit 901. This arrangement can make the wind blown by the indoor unit 901 more humid, and can increase the humidity of the air, thereby improving the air quality of the air conditioning device 700 .
Abstract
Description
Claims (32)
- 一种蒸汽发生装置,其特征在于,所述蒸汽发生装置适于产生水蒸气用以为空气调节装置供水蒸气,所述蒸汽发生装置包括:适于吊装至屋顶的机壳,所述机壳包括顶板、围板和底板,所述顶板与所述底板间隔开,且所述顶板和所述底板通过围板连接,所述顶板、所述围板和所述底板限定出空腔,所述机壳内设有隔板,所述隔板将所述空腔分隔为第一腔和第二腔;电控盒,所述电控盒设于所述第二腔内;水箱组件,所述水箱组件设于所述第一腔内,所述水箱组件与机壳的顶壁连接,所述水箱组件具有蒸汽出口和用于向所述水箱组件内部供水的进水口,所述进水口与水源连通,所述水箱组件内的水蒸气在气压的驱动下流动至所述空气调节装置处;加热组件,所述加热组件设于所述水箱组件内,所述加热组件加热产生的水蒸气适于从所述蒸汽出口排出;浮球阀,所述浮球阀设于所述水箱组件内,用以控制所述进水口的通断。
- 根据权利要求1所述的蒸汽发生装置,其特征在于,所述浮球阀包括:连接件,所述连接件穿设于所述进水口内,所述连接件内具有流水通道,所述连接件的外周壁与所述进水口的内周壁之间密封连接;挡板,所述挡板与所述连接件可枢转地连接;浮球,所述浮球与所述挡板连接,所述浮球在水的浮力带动下驱动所述挡板打开或关闭所述流水通道。
- 根据权利要求2所述的蒸汽发生装置,其特征在于,所述挡板和所述浮球通过连杆连接,所述挡板具有中心平面,所述挡板的旋转轴线位于所述中心平面内,所述浮球中心轴线于所述中心平面之间的夹角为锐角。
- 根据权利要求1-3中任一项所述的蒸汽发生装置,其特征在于,所述进水口处设有流水检测装置。
- 根据权利要求1所述的蒸汽发生装置,其特征在于,所述进水口处设有进水常开电磁阀。
- 根据权利要求1-5中任一项所述的蒸汽发生装置,其特征在于,所述加热组件为电加热件。
- 根据权利要求6所述的蒸汽发生装置,其特征在于,所述电加热件为PTC。
- 根据权利要求6所述的蒸汽发生装置,其特征在于,所述电加热件为多个。
- 根据权利要求1-8中任一项所述的蒸汽发生装置,其特征在于,所述蒸汽出口为间隔开的多个。
- 根据权利要求1-9中任一项所述的蒸汽发生装置,其特征在于,所述水箱组件下方设有接水盘。
- 根据权利要求10所述的蒸汽发生装置,其特征在于,所述接水盘与所述水箱组件可拆卸地连接。
- 根据权利要求10所述的蒸汽发生装置,其特征在于,所述接水盘内设有接水盘水位检测件,所述接水盘水位检测件设于所述接水盘内。
- 根据权利要求12所述的蒸汽发生装置,其特征在于,所述接水盘水位检测件为电极片检测件或浮球检测件。
- 根据权利要求10所述的蒸汽发生装置,其特征在于,所述接水盘内具有虹吸组件。
- 根据权利要求10所述的蒸汽发生装置,其特征在于,所述接水盘具有出水管,所述出水管的一端与所述接水盘内部连通,所述出水管的另一端具有出水口,所述出水管穿设于所述围板。
- 根据权利要求15所述的蒸汽发生装置,其特征在于,所述底板、所述顶板与所述 围板限定出立方体状的所述机壳,所述围板包括首尾依次连接的第一侧板、第二侧板、第三侧板和第四侧板,所述第一侧板和所述第三侧板相对,所述出水管以及与所述蒸汽出口连通的管路均穿设于所述第一侧板。
- 根据权利要求16所述的蒸汽发生装置,其特征在于,与所述进水口连通的管路穿设于所述第二侧板。
- 根据权利要求16所述的蒸汽发生装置,其特征在于,所述第一侧板和所述第三侧板均为平板,所述第二侧板的与第一侧板连接的端部具有第一弯折部,所述第一弯折部与所述第一侧板的端部连接,所述第二侧板的与所述第三侧板连接的端部具有第二弯折部,所述第二弯折部与所述第三侧板的端部连接,所述第二侧板与所述第四侧板的形状相同。
- 根据权利要求18所述的蒸汽发生装置,其特征在于,所述第一弯折部与所述第一侧板平滑过渡,所述第二弯折部与所述第三侧板平滑过渡。
- 根据权利要求1-19中任一项所述的蒸汽发生装置,其特征在于,所述水箱组件还具有排水口,所述排水口处设有排水阀,用以控制所述排水口的通断。
- 根据权利要求1-20中任一项所述的蒸汽发生装置,其特征在于,所述电控盒与所述隔板可拆卸地连接。
- 根据权利要求1-21中任一项所述的蒸汽发生装置,其特征在于,所述隔板与所述顶板可拆卸地连接。
- 根据权利要求1-22中任一项所述的蒸汽发生装置,其特征在于,所述围板与所述顶板可拆卸地连接。
- 根据权利要求1-23中任一项所述的蒸汽发生装置,其特征在于,所述底板与所述围板可拆卸地连接。
- 根据权利要求24所述的蒸汽发生装置,其特征在于,所述底板的部分结构与所述围板的部分结构重叠,所述底板与所述围板重叠的部分通过手持螺钉连接,所述手持螺钉包括:螺纹杆,所述螺纹杆上设有外螺纹,所述螺纹杆穿设于所述底板和所述围板重叠的部分;手持部,所述手持部设于所述螺纹杆的端部,且所述手持部位于所述机壳的外部,所述手持部的外周壁具有防滑纹路。
- 根据权利要求1-25中任一项所述的蒸汽发生装置,其特征在于,所述底板与所述围板连接的部位平滑过渡;所述顶板与所述围板连接的部位平滑过渡。
- 根据权利要求1-26中任一项所述的蒸汽发生装置,其特征在于,所述水箱组件包括:工作水箱,所述工作水箱具有加热腔,所述蒸汽出口设于所述工作水箱;补水水箱,所述补水水箱通过连通管与所述工作水箱连通,所述进水口设于所述补水水箱。
- 根据权利要求27所述的蒸汽发生装置,其特征在于,所述连通管为U型管。
- 根据权利要求28所述的蒸汽发生装置,其特征在于,所述U型管上设有单向阀,以使流体仅能从所述补水水箱流向工作水箱。
- 根据权利要求27所述的蒸汽发生装置,其特征在于,所述工作水箱为多个。
- 根据权利要求1-26中任一项所述的蒸汽发生装置,其特征在于,所述水箱组件包括主体水箱,所述主体水箱内具有加热腔,所述进水口、所述蒸汽出口均设于所述主体水箱,所述加热组件设于所述主体水箱内。
- 一种空气调节装置,其特征在于,包括:室内机,所述室内机具有出风口;蒸汽发生装置,所述蒸汽发生装置为根据权利要求1-31中任一项所述的蒸汽发生装置;蒸汽输送管路,所述蒸汽输送管路的一端与所述蒸汽出口连通,所述蒸汽发生装置利用蒸汽的压强驱动蒸汽流动且依次通过所述蒸汽出口、所述蒸汽输送管路流动至所述室内机。
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