CN209857354U - Water collector subassembly and have its air treatment device - Google Patents

Abstract

The utility model discloses a water collector subassembly and air treatment facilities who has it, the water collector subassembly includes: the water receiving plate is internally provided with a water receiving space; the detection device comprises two electrode plates, the two electrode plates are arranged in the water receiving space at intervals, the two electrode plates can form electric connection through water in the water receiving space, and the detection device is constructed to emit signals when the two electrode plates are electrically connected. The utility model discloses a water collector subassembly can detect whether have water to enter into the water collector effectively in, improves sensitivity and the reliability that the water collector subassembly used.

Description

Water collector subassembly and have its air treatment device

Technical Field

The utility model belongs to the technical field of air treatment's technique and specifically relates to a water collector subassembly and air treatment device who has it is related to.

Background

In the related art, the water receiving tray is mainly used for receiving water dripping, leaking or overflowing from a system of related equipment using the water receiving tray. However, if a water leakage or overflow occurs in a component above the water pan in the related device, the water pan in the related art cannot be fed back to a system or a user, and thus the reliability of the water pan may be affected to some extent. Therefore, the structure of the water pan assembly needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a water collector subassembly for air treatment facilities, whether can detect effectively that whether there is water to enter into the water collector in, improve sensitivity and the reliability that the water collector subassembly used.

The utility model discloses still provide an air treatment device, including foretell water collector subassembly.

According to the utility model discloses water collector subassembly, include: the water receiving plate is internally provided with a water receiving space; the detection device comprises two electrode plates, the two electrode plates are arranged in the water receiving space at intervals, the two electrode plates can form electric connection through water in the water receiving space, and the detection device is constructed to emit signals when the two electrode plates are electrically connected.

According to the utility model discloses water collector subassembly establishes in the water receiving space through making two electrode slice intervals of detection device to water in two electrode slice accessible water receiving spaces forms the electricity and connects, and detection device is constructed into emission signal when two electrode slice electricity are connected. Therefore, whether water enters the water pan or not can be effectively detected, the use sensitivity and reliability of the water pan assembly are improved, and water saving of a user is facilitated. The mode that the detection device detects whether water exists in the water receiving space is simple and reliable, so that the water receiving tray assembly is simple in structure and convenient to manufacture.

According to the utility model discloses a some embodiments, the partly undercut of the diapire in water receiving space is in order to inject detection space, two electrode slices are established in the detection space.

In some embodiments of the present invention, the detection space is located at an edge of the water receiving space.

According to some embodiments of the utility model, be equipped with the guiding gutter on the diapire in water receiving space, the guiding gutter be suitable for with water direction in the water receiving space is two the electrode slice.

According to some embodiments of the utility model, two electrode slice parallel arrangement.

According to some embodiments of the utility model, at least a part of the diapire in water receiving space forms into the inclined plane, two the electrode slice is located the bottom on inclined plane.

According to some embodiments of the utility model, be equipped with fixed buckle on the water collector, fixed buckle be used for with the electrode slice location is in the water receiving space.

In some embodiments of the present invention, the fixing buckle and the water receiving tray are an integral component.

In some embodiments of the present invention, the fixing buckle is a conductive member.

According to some embodiments of the utility model, be equipped with on the water collector with the outlet of water receiving space intercommunication.

In some embodiments of the present invention, the water receiving tray assembly further includes a siphon device for guiding water in the water receiving space to the water outlet.

Further, the part, close to the water outlet, of the bottom wall of the water receiving space is downwards sunken to define a water collecting space, and the water inlet end of the siphon device is positioned in the water collecting space.

Further, two electrode slices are arranged in the water collecting space.

According to the utility model discloses air treatment device, include according to the utility model discloses above-mentioned embodiment's water collector subassembly.

According to the utility model discloses air treatment device is through setting up the basis the utility model discloses the water collector subassembly of above-mentioned embodiment to whether can detect effectively whether there is water to enter into the water collector in, sensitivity and the reliability that improve the water collector subassembly and use are favorable to user's using water wisely. The mode that the detection device detects whether water exists in the water receiving space is simple and reliable, so that the water receiving tray assembly is simple in structure and convenient to manufacture.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

figure 1 is a schematic view of a drip tray assembly according to some embodiments of the present invention;

figure 2 is a top view of a water pan assembly according to some embodiments of the present invention;

figure 3 is a front view of a water pan assembly according to some embodiments of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

fig. 5 is an enlarged partial view a of a drip tray assembly according to some embodiments of the present invention;

fig. 6 is an enlarged partial view B of a drip tray assembly according to some embodiments of the present invention;

fig. 7 is a schematic view of an air treatment device according to some embodiments of the present invention.

Reference numerals:

a drip tray assembly 100;

a water pan 1; a water receiving space a; a detection space b; a water collecting space c; a water chute 11; a drain port 12;

a detection device 2; an electrode sheet 21;

a siphon device 3; a water inlet flow path 3 a; a siphon tube 31; the first pipe portion 31 a; the second pipe portion 31 b;

a sleeve 32; a connecting portion 321; the mounting holes 321 a;

a water baffle 4; a screw post 41;

an air treatment device 1000;

a humidifying water tank 200;

a water replenishing tank 300; a water inlet 301; a water inlet switch 303;

a water pipe 400 is added.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

A drip tray assembly 100 for an air treatment device 1000 according to an embodiment of the present invention will be described with reference to the accompanying drawings. The air treatment device 1000 may be a ceiling-mounted humidifier, and the air treatment device 1000 may be installed in a kitchen or a bathroom (for example, installed in a ceiling of the kitchen or the bathroom), so that the water inlet of the air treatment device 1000 may be directly connected to a water source or connected to filtered purified water, and then water vapor may be provided indoors to humidify air.

As shown in fig. 1, according to the utility model discloses water collector subassembly 100, include: a water receiving tray 1 and a detection device 2.

Specifically, a water receiving space a is defined in the water receiving tray 1. The detection device 2 comprises two electrode plates 21, the two electrode plates 21 are arranged in the water receiving space a at intervals, the two electrode plates 21 can be electrically connected through water in the water receiving space a, and the detection device 2 is configured to emit signals when the two electrode plates 21 are electrically connected. Therefore, the utility model discloses whether water collector subassembly 100 accessible detection device 2 detects effectively that whether there is water to enter into water collector 1, improves sensitivity and the reliability that water collector subassembly 100 used, is favorable to user's using water wisely. Meanwhile, the mode that the detection device 2 detects whether water exists in the water receiving space a is simple and reliable, so that the water receiving tray assembly 100 is simple in structure and convenient to manufacture.

For example, when the two electrode pads 21 are located on the bottom wall of the water receiving space a and directly attached to the inner bottom wall of the water receiving space a, even if the amount of water entering the water receiving space a is small, the detection device 2 may emit a signal as long as water flows between the two electrode pads 21 and electrically connects the two electrode pads 21, and such a structure may be used to detect whether a component located directly above the water receiving tray assembly 100 leaks water or overflows water. For another example, when the two electrode plates 21 are located in the water receiving space a and the two electrode plates 21 are spaced from the bottom wall of the water receiving space a in the height direction, the detection device 2 may emit a signal when water enters the water receiving space a and the water level reaches a level that contacts the two electrode plates 21 and conducts the two electrode plates 21 for electrical connection, and such a structure may be used to detect whether the water in the water receiving tray assembly 100 exceeds the receivable range, and may also be used to detect whether the water receiving tray assembly 100 overflows.

Specifically, when there is water in the water receiving space a and the water flows to make the two electrode plates 21 conducted to form an electrical connection, the detection device 2 may emit a signal. When there is no water in the water receiving space a, the two electrode plates 21 are spaced apart from each other and cannot be electrically connected. It should be noted that, the detection device 2 may transmit a signal to a user, for example, send a short message or dial a voice smart phone, or a signal lamp disposed on the detection device 2 emits light, or the detection device 2 sends an alarm, and the detection device 2 may also transmit a signal to a control system of the air treatment device 1000, so that the control system of the air treatment device 1000 may control the operation state of each component of the air treatment device 1000 through the received signal, for example, when a water tank in the air treatment device 1000 leaks water into the water receiving space a, the detection device 2 transmits a signal, and the control system may control the air treatment device 1000 to stop sending water into the water tank.

According to the utility model discloses water collector subassembly 100 establishes in water receiving space an through making two electrode slice 21 intervals of detection device 2 to water in two electrode slice 21 accessible water receiving space an forms the electricity and connects, and detection device 2 is constructed into emission signal when two electrode slice 21 electricity are connected. Therefore, whether water enters the water pan 1 or not can be effectively detected, the use sensitivity and reliability of the water pan assembly 100 are improved, and water conservation of users is facilitated. The mode that the detection device 2 detects whether water exists in the water receiving space a is simple and reliable, so that the water receiving tray assembly 100 is simple in structure and convenient to manufacture.

As shown in fig. 1 and 4, according to some embodiments of the present invention, a part of the bottom wall of the water receiving space a is recessed downward to define a detection space b, and two electrode sheets 21 are disposed in the detection space b. Therefore, the detection space b is located in the water receiving space a and is lower in the position in the height direction, so that water entering the water receiving tray 1 flows into the detection space b under the action of gravity, after the water flows into the detection space b, the two electrode plates 21 are electrically connected, and at the moment, the detection device 2 emits a signal to prompt that water enters the water receiving tray 1. Therefore, the timeliness of detecting whether water enters the water pan 1 or not by the detection device 2 can be improved to a certain extent, and the use sensitivity of the water pan assembly 100 is improved. Meanwhile, the two electrode plates 21 are arranged in the detection space b, which is beneficial to reducing the distance between the two electrode plates 21 and improving the detection sensitivity of the detection device 2.

As shown in fig. 1 and 2, in some embodiments of the present invention, the detection space b is located at the edge of the water receiving space a. Thereby facilitating mating engagement of the drip tray assembly 100 with other components of the air treatment device 1000. It should be noted that the specific position of the detection space b is not limited to this, and may be selected according to the specific structure of the water-receiving tray assembly 100 and the matching position of each component in the air treatment device 1000 and the water-receiving tray assembly 100, so as to be beneficial to improving the space utilization rate of the air treatment device 1000 and reducing the overall occupied space of the air treatment device 1000. Alternatively, the inner circumferential wall of the sensing space a is formed in a ring shape, thereby making the fabrication of the drip tray assembly 100 simple and convenient.

As shown in fig. 1 and 2, according to some embodiments of the present invention, a water chute 11 is disposed on the bottom wall of the water receiving space a, and the water chute 11 is suitable for guiding water in the water receiving space a to the two electrode plates 21. Thereby be favorable to making the faster two electrode slices 21 that flow of water that enter into in the water collector 1 so that two electrode slices 21 form the electricity and connect, and then improve the promptness that whether detection device 2 detected that whether there is water to enter into in the water collector 1, improve the sensitivity and the reliability of water collector subassembly 100.

As shown in fig. 2, according to some embodiments of the present invention, two electrode sheets 21 are arranged in parallel. Thereby be convenient for assemble two electrode slices 21 in water receiving space a, when simultaneously when rivers extremely make between two electrode slices 21 so that two electrode slices 21 electricity connect, because two electrode slices 21 parallel arrangement to be favorable to every electrode slice 21 be close to the different positions of another electrode slice 21 with one side all with water contact, thereby improve the reliability that two electrode slices 21 electricity are connected. Thereby improving the reliability of the detection device 2. It can be understood of course that two electrode slices 21 may also be arranged in a non-parallel manner, that is, the planes where two electrode slices 21 are located may intersect, so that two electrode slices 21 may form an electrical connection as long as water flows to one side of two electrode slices 21 close to each other, thereby improving the efficiency of the detection device 2 for transmitting signals, and improving the timeliness of the detection device 2 for detecting whether water enters the water pan 1. The specific positional relationship of the two electrode sheets 21 can thus be set according to the actual requirements and structure of the drip tray assembly 100.

Optionally, the distance between the two electrode sheets 21 is less than 10 mm. Thereby when entering into rivers in the water collector 1 to between two electrode slices 21, can be quick switch on two electrode slices 21 in order to form the electricity and connect, and then improve whether detection device 2 detects the timeliness that whether has water to enter into in the water collector 1, improve sensitivity and the reliability that water collector subassembly 100 used. While facilitating a reduction in the footprint of the detection device 2.

As shown in fig. 1, according to some embodiments of the present invention, at least a portion of the bottom wall of the water receiving space a is formed as an inclined plane, and the two electrode plates 21 are located at the bottom end of the inclined plane. Thereby be convenient for enter into the water in the water collector 1 along the inclined plane bottom that flows to the inclined plane, then water and two electrode slice 21 contacts in order to switch on two electrode slice 21 formation electricity and to be connected, and then detection device 2 can the transmitting signal, improves whether detection device 2 detects the promptness that whether has water to enter into in the water collector 1. The sensitivity and reliability of the drip tray assembly 100 are improved. It should be noted that only a part of the bottom wall of the water receiving space a may be formed as an inclined surface, or all of the bottom wall may be formed as an inclined surface. It can be understood that the larger the area of the inclined surface formed by the bottom wall of the water receiving space a is, the faster the water can flow to the bottom end, and the sensitivity and the reliability of the water receiving tray assembly 100 are improved. Of course, a portion of the bottom wall of the water receiving space a may be formed as an inclined surface in consideration of the specific structure and the occupied space of the water receiving tray assembly 100.

According to some embodiments of the present invention, the water receiving tray 1 is provided with a fixing buckle (not shown), and the fixing buckle is used for positioning the electrode plate 21 in the water receiving space a. Therefore, the two electrode plates 21 can be positioned in the water receiving space a through the fixing buckles, the electrode plates 21 can be conveniently mounted and dismounted, the assembly efficiency of the electrode plates 21 can be improved, and the production efficiency of the water receiving tray assembly 100 is improved. The way of positioning the electrode sheet 21 in the water receiving space a is not limited to this, and for example, the electrode sheet 21 may be stuck in the water receiving space a. For another example, the electrode sheet 21 is fixed in the water receiving space a by a screw. As long as the reliability of the two electrode plates 21 positioned in the water receiving space a is ensured.

In some embodiments of the present invention, the fixing buckle and the water receiving tray 1 are an integral component. Therefore, the production efficiency of the water pan assembly 100 can be further improved, and the reliability of the fixed buckle positioning electrode plate 21 can be improved. It should be noted that, fixed buckle and water collector 1 also can be mutually independent material spare to be convenient for fixed buckle's change.

In some embodiments of the present invention, the fixing buckle is a conductive member. Therefore, the sensitivity of the detection device 2 can be prevented from being influenced by the fact that the outer surfaces of the two electrode plates 21 in contact with the fixed buckles can not be in contact with water to a certain degree, and the sensitivity and the reliability of the water pan assembly 100 are improved.

As shown in fig. 1 to 3, according to some embodiments of the present invention, a water outlet 12 is provided on the water pan 1 and communicates with the water receiving space a. Therefore, water in the water pan 1 can be discharged through the water outlet 12, so that the reliability of the water pan assembly 100 is improved, and the sensitivity and the reliability of the detection device 2 are favorably ensured.

As shown in fig. 1 and 2, in some embodiments of the present invention, the drip tray assembly 100 further includes a siphon device 3 for guiding water in the water receiving space a to the water outlet 12. Accordingly, when water is present in the drip tray 1, the siphon device 3 can guide the water to the drain port 12, and the water can be drained from the drip tray 1. The siphon device 3 mainly uses the siphon effect to discharge water.

As shown in fig. 5 and 6, the siphon device 3 may include a siphon tube 31 and a sleeve 32, the siphon tube 31 may include a first tube portion 31a and a second tube portion 31b that are communicated with each other, the second tube portion 31b may be communicated with the drain opening 12, a water inlet end of the first tube portion 31a may be positioned above a water outlet end of the second tube portion 31b, an axial end of the sleeve 32 may be open, the sleeve 32 may be sleeved on the first tube portion 31a and be in clearance fit with the first tube portion 31a to define a water inlet flow path 3a, the water inlet flow path 3a is respectively communicated with the water receiving space a and the water inlet end of the first tube portion 31a, and the water inlet end of the water inlet flow path 3a may be positioned above the water outlet end of the second tube portion 31 b.

Specifically, the siphon device 3 can introduce the water in the drip tray 1 into the drain port 12 for the purpose of draining. The water receiving space a, the water inlet flow path 3a, the first pipe 31a and the second pipe 31b are communicated with each other. According to the principle of a communicating vessel, the liquid level in the water receiving space a and the liquid level in the water inlet flow path 3a are changed synchronously. When the liquid level in the drip tray 1 is higher than the water inlet end of the first pipe portion 31a, the water in the water inlet flow path 3a starts to enter the first pipe portion 31a, and the water can be discharged through the first pipe portion 31a, the second pipe portion 31b, and the water outlet 12 in this order. According to the siphon principle, the water introduced into the siphon tube 31 can discharge the air in the siphon tube 31, thereby forming a negative pressure in the siphon tube 31. This allows the water in the drip tray 1 to be discharged through the water inlet flow path 3a, siphon tube 31, and drain port 12 in this order. When the liquid level in the water receiving tray 1 is lower than the water inlet end of the water inlet flow path 3a, the siphon device 3 stops draining.

Alternatively, both the sleeve 32 and the first pipe portion 31a may be formed in a cylindrical barrel shape, and the inner diameter of the sleeve 32 is larger than the outer diameter of the first pipe portion 31 a. Wherein, the sleeve 32 comprises an open end at the lower part and a sealed end at the upper part, the sleeve 32 can be sleeved on the first pipe part 31a through the open end, and the sealed end is arranged above the first pipe part 31a and is spaced from the water inlet end of the first pipe part 31 a. Accordingly, when the air in the siphon tube 31 is discharged by the water entering the first pipe portion 31a, a stable negative pressure can be formed in the siphon tube 31, and the drainage effect of the siphon device 3 can be improved.

As shown in fig. 1 and 2, according to some embodiments of the present invention, the water receiving tray assembly 100 may further include a water baffle 4, the water baffle 4 may be disposed in the water receiving tray 1 and cooperate with the water receiving tray 1 to define a water receiving space a, a height of the first pipe portion 31a may be lower than a height of the water baffle 4, the second pipe portion 31b may pass through the water baffle 4 to communicate with the water outlet 12, the siphon pipe 31 may be in sealing fit with the water baffle 4 and the second pipe portion 31b passes through the water baffle 4 to communicate with the water outlet 12, thereby facilitating effective drainage of the siphon device 3.

Optionally, the water baffle 4 may be in sealing fit with the inner peripheral wall of the water collector 1, and the water baffle 4 may also be formed as an integral part with the water collector 1. For example, the water tray 1 may include a bottom plate and a surrounding plate extending in a circumferential direction of the bottom plate and formed in a closed ring shape, the surrounding plate extending upward relative to the bottom plate. The water baffle 4 is arranged in the water receiving tray 1, the water baffle 4 and the bottom plate form an integrated piece, two ends of the water baffle 4 in the length direction are respectively matched with the enclosing plates in a sealing mode, the siphon device 3 is arranged on the water baffle 4, and therefore the bottom plate, the enclosing plates and the water baffle 4 can form a closed water receiving space a. Of course, the water baffle 4 can also be formed into an integral injection molding piece together with the enclosing plate, and the water baffle 4 can also be formed into an integral injection molding piece together with the enclosing plate and the bottom plate.

In some embodiments of the present invention, the siphon tube 31 may be formed as a single piece with the splash plate 4, thereby making the fitting structure of the splash plate 4 and the siphon tube 31 more compact. For example, the siphon tube 31 may be formed as an integrally injection-molded piece with the splash plate 4. It is understood that the siphon tube 31 may be formed as a separate piece with the water guard 4, wherein the first tube 31a may be located in the water receiving space a, one end of the second tube 31b may be located in the water receiving space a to be connected with the first tube 31a, the other end of the second tube 31b may pass through the water guard 4 to communicate with the water outlet 12, and the second tube 31b is in sealing engagement with the water guard 4.

As shown in fig. 5, in some embodiments of the present invention, the sleeve 32 may be provided with a connecting portion 321 extending toward the water baffle 4, and the connecting portion 321 may be fixed to the water baffle 4, so as to conveniently fix the siphon device 3 and make the overall structure of the water collector assembly 100 more compact.

For example, as shown in fig. 5 and 6, the connecting portion 321 may be disposed at a top end of the sleeve 32, one end of the connecting portion 321 is connected to the sleeve 32, the other end of the connecting portion 321 extends toward the direction close to the water guard 4, and the connecting portion 321 is provided with a mounting hole 321 a. The water baffle 4 is provided with a screw column 41, and the mounting hole 321a is arranged opposite to the threaded hole on the screw column 41. A fixing screw may be used to screw-couple the threaded post through the mounting hole 321a, thereby fixing the sleeve 32 to the breakwater 4. Of course, it is understood that the connecting portion 321 may also be connected to the water deflector 4 by riveting, and the connecting portion 321 may also be fixed to the water deflector 4 by adhering with an adhesive.

The manner of fixing the sleeve 32 is not limited to this. For example, the sleeve 32 may be fixed to a wall of the drip tray 1, and the sleeve 32 may be fixed to the siphon tube 31, as long as the inlet flow path 3a is defined between the sleeve 32 and the first tube part 31 a.

Further, as shown in fig. 1, 2 and 6, a portion of the bottom wall of the water receiving space a near the water discharge opening 12 is recessed downward to define a water collecting space c in which the water inlet end of the siphon device 3 is located. Therefore, water in the water pan 1 can flow into the water collecting space c, more water can be discharged out of the water pan 1 through the siphon device 3, the water discharging efficiency of the water pan assembly 100 is improved, and the water in the water pan 1 is cleaner. It will be appreciated that the siphon device 3 stops draining when the water level in the water collecting space c is lower than the water inlet end of the siphon device 3. When the water level of the water collecting space c is lower than the water level of the other part of the water receiving space a and higher than the water inlet end of the siphon device 3, the siphon device 3 can normally drain water, so that the drainage efficiency of the water receiving tray assembly 100 can be improved, the water in the water receiving tray 1 can be drained cleaner, and the reliability of the air treatment device 1000 is improved.

Further, two electrode sheets 21 are provided in the water collecting space c. Therefore, the timeliness of detecting whether water enters the water pan 1 or not by the detection device 2 can be improved, and the use sensitivity and reliability of the water pan assembly 100 are improved. Meanwhile, the space utilization rate of the water pan assembly 100 is improved, and the occupied space of the water pan assembly 100 is reduced.

As shown in fig. 7, an air treatment device 1000 according to an embodiment of the present invention includes a water pan assembly 100 according to the above embodiment of the present invention. The air treatment device 1000 may be a ceiling-mounted air conditioner humidifier, and the air treatment device 1000 may be installed in a kitchen or a bathroom (for example, installed in a ceiling of the kitchen or the bathroom), so that the water inlet of the air treatment device 1000 may be directly connected to a water source or connected to filtered purified water, and thus, water vapor may be provided to the room to humidify air.

According to the utility model discloses air treatment device 1000 is through setting up the basis the utility model discloses water collector subassembly 100 of above-mentioned embodiment to whether can detect effectively whether there is water to enter into water collector 1, improve sensitivity and the reliability that water collector subassembly 100 used, be favorable to user's using water wisely. The mode that the detection device 2 detects whether water exists in the water receiving space a is simple and reliable, so that the water receiving tray assembly 100 is simple in structure and convenient to manufacture.

As shown in fig. 7, in a specific example of the present invention, the air treatment device 1000 may be an air conditioner humidifier, and the air treatment device 1000 includes: the water supply device comprises a machine shell, a water receiving tray assembly 100, a water supplementing water tank 300 and a humidifying water tank 200, wherein the water supplementing water tank 300 and the humidifying water tank 200 are arranged on the inner top wall of the machine shell. The water pan assembly 100 is located under the water replenishing tank 300 and the humidifying tank 200, and the water pan 1 is used for detecting whether water in the water replenishing tank 300 and the humidifying tank 200 drips into the water pan 1 or not and collecting the dripped water. The water supplementing water tank 300 is provided with a water inlet 301 and a water outlet, the water inlet 301 is connected with a water source, the water outlet is connected with the humidifying water tank 200, and a water inlet switch 303 for opening or closing the water inlet 301 is arranged at the water inlet 301. The humidifying water tank 200 is connected to the water replenishing water tank 300 through a water replenishing pipe 400, and the water replenishing water tank 300 can add water into the humidifying water tank 200 by using a siphon principle. Optionally, the water inlet switch 303 is a solenoid valve.

A heating element (not shown) is disposed in the humidification water tank 200, and the heating element may be a PTC heating pipe, which heats water in the humidification water tank 200 to form water vapor. A steam outlet is formed in the case of the humidification water tank 200, and the steam in the humidification water tank 200 can be discharged through the steam outlet. Wherein, the connecting pipeline can be used for introducing the water vapor discharged from the vapor outlet into a specific space (such as an indoor space), and the water vapor can also be directly discharged into the specific space through the vapor outlet.

When water leaks from the water replenishing tank 300 and/or the humidifying tank 200, the leaked water from the water replenishing tank 300 and/or the humidifying tank 200 can drip into the water receiving tray 1, when the water switches on the two electrode plates 21 in the water receiving space a to form electric connection, the detection device 2 transmits a signal, so that a user can be effectively and timely informed that water leaks from the humidifying tank 200, the water replenishing tank 300 or the connection part of the humidifying tank and the water replenishing tank 300, and therefore the user can timely close the water inlet switch 303 of the water replenishing tank 300 and maintain the air treatment device 1000, and the reliability of the use of the air treatment device 1000 is improved.

Alternatively, the air treatment device 1000 may include a plurality of humidification water tanks 200, and the makeup water tank 300 is communicated with each humidification water tank 200 through a plurality of makeup water pipes 400. Wherein, all be equipped with the PTC heating pipe in every humidification water tank 200, all be equipped with the steam outlet on every humidification water tank 200, the PTC heating pipe in humidification water tank 200 can independent control. This can improve the humidification efficiency of the air treatment device 1000, and can also improve the flexibility of the user in using the air treatment device 1000. Of course, the air treatment device 1000 may also include one humidification water tank 200, and the humidification water tank 200 is provided with a plurality of steam outlets, and the plurality of steam outlets may discharge water vapor outwards at the same time.

The structure of the air treatment device 1000 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the following description is only exemplary, and it is obvious that a person skilled in the art may combine, replace, modify and/or modify the technical solutions or some technical features of the present invention after reading the following technical solutions of the present invention, which also falls into the protection scope of the present invention.

As shown in fig. 1 to 7, the air treatment device 1000 according to the embodiment of the present invention is an air conditioner humidifier, and the air treatment device 1000 may be installed in a kitchen or a bathroom (for example, installed in a ceiling of the kitchen or the bathroom), so that the water inlet 301 of the air treatment device 1000 may be directly connected to a water source or connected to filtered purified water, and thus may provide water vapor to the room to achieve the effect of humidifying air.

Specifically, the air treatment device 1000 includes: a cabinet, a humidification water tank 200, a water supplement water tank 300 and a water pan assembly 100. Wherein the cabinet is adapted to be mounted on a ceiling, the humidification water tank 200 and the refill water tank 300 are provided on an inner top wall of the cabinet, and the water tray assembly 100 is located directly below the humidification water tank 200 and the refill water tank 300. The water receiving tray 1 is used for detecting whether water in the water replenishing water tank 300 and the humidifying water tank 200 drips into the water receiving tray 1 or not and collecting the dripped water.

The water supplementing water tank 300 is provided with a water inlet 301 and a water outlet, the water inlet 301 is connected with a water source, the water outlet is connected with the humidifying water tank 200, and a water inlet switch 303 for opening or closing the water inlet 301 is arranged at the water inlet 301. The humidifying water tank 200 is connected to the water replenishing water tank 300 through a water replenishing pipe 400, and the water replenishing water tank 300 replenishes water into the humidifying water tank 200 by using a siphon principle. The water inlet switch 303 may be a solenoid valve.

A heating element is arranged in the humidification water tank 200, and the heating element may be a PTC heating pipe which can heat water in the humidification water tank 200 to form water vapor. A steam outlet is formed in the case of the humidification water tank 200, and the steam in the humidification water tank 200 can be discharged through the steam outlet. Wherein, the connecting pipeline can be used for introducing the water vapor discharged from the vapor outlet into a specific space (such as an indoor space), and the water vapor can also be directly discharged into the specific space through the vapor outlet. The humidification water tank 200 may allow for remote delivery of water vapor. Specifically, the distance of the water vapor sent out by the humidification water tank 200 is more than 3 meters. Thereby improving the working efficiency of the air treatment device 100.

The drip tray assembly 100 includes: water collector 1, detection device 2 and siphon device 3.

Wherein, inject water receiving space a in the water collector 1, the whole slope of diapire in water receiving space a extends in order to form the inclined plane. A part of the bottom end of the inclined plane is downwards sunken to define a detection space b, and the detection space b is located at the edge of the water receiving space a. The detection device 2 comprises two electrode plates 21, the two electrode plates 21 are parallelly and alternately arranged in the detection space b and are adhered to the bottom wall of the detection space b, a water guide groove 11 is further arranged on the bottom wall of the water receiving space a, and the water guide groove 11 is suitable for guiding water in the water receiving space a to the detection space b. Thus, the two electrode pads 21 may be electrically connected by water flowing into the detection space b, and the detection device 2 is configured to emit a signal when the two electrode pads 21 are electrically connected.

When water leakage and/or overflow occur in the water replenishing tank 300 and/or the humidifying tank 200, the water leaked and/or overflowed from the water replenishing tank 300 and/or the humidifying tank 200 may drip into the water receiving tray 1, and when the water flows into the detection space b (along the water chute 11) and the two electrode plates 21 are conducted to form electrical connection, the detection device 2 transmits a signal, so that a user can be effectively and timely notified that water leakage occurs at the connection part of the humidifying tank 200, the water replenishing tank 300 or both, thereby facilitating the user to timely close the water inlet switch 303 of the water replenishing tank 300 and maintain the air treatment device 1000, and improving the reliability of the use of the air treatment device 1000.

A part of the bottom end of the bottom wall of the water receiving space a is sunken downwards to form a water collecting space c, and the water collecting space c is arranged close to the water outlet 12 on the water receiving tray 1. Meanwhile, a siphon device 3 is arranged at the water collecting space c, and the water inlet end of the siphon device 3 is positioned in the water collecting space c so as to guide the water in the water collecting space c to the water outlet 12.

Therefore, the air treatment device 1000 of the embodiment of the present invention can realize the function of humidifying air. Whether the humidifying water tank 200, the water replenishing water tank 300 and the joint of the humidifying water tank and the water replenishing water tank 300 leak water and/or overflow water or not can be effectively, timely and sensitively detected by the detection device 2, and meanwhile, water dripping into the water receiving tray 1 can be effectively discharged through the siphon device 3, so that the use sensitivity and reliability of the air treatment device 1000 can be improved.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (14)

1. A water collector assembly for an air treatment device, comprising:

the water receiving plate is internally provided with a water receiving space;

the detection device comprises two electrode plates, the two electrode plates are arranged in the water receiving space at intervals, the two electrode plates can form electric connection through water in the water receiving space, and the detection device is constructed to emit signals when the two electrode plates are electrically connected.

2. A drip tray assembly for an air treatment device according to claim 1, wherein a portion of the bottom wall of the drip receiving space is recessed downwardly to define a detection space in which the two electrode pads are provided.

3. A drip tray assembly for an air treatment device according to claim 2, wherein the detection space is located at an edge of the drip receiving space.

4. The water collector assembly for an air treatment device as claimed in claim 1, wherein a water chute is provided on a bottom wall of the water receiving space, the water chute being adapted to guide water in the water receiving space to the two electrode sheets.

5. A water tray assembly for an air treatment device as claimed in claim 1, wherein the two electrode pads are arranged in parallel.

6. The water tray assembly for an air treatment device according to claim 1, wherein at least a portion of the bottom wall of the water receiving space is formed as an inclined surface, and two of the electrode tabs are located at a bottom end of the inclined surface.

7. The water collector assembly for an air treatment device as claimed in claim 1, wherein a fixing buckle is arranged on the water collector assembly, and the fixing buckle is used for positioning the electrode plate in the water collecting space.

8. The drip tray assembly for an air treatment device according to claim 7, wherein the securing catch is integral with the drip tray.

9. The water tray assembly for an air treatment device of claim 7, wherein said securing catch is an electrically conductive member.

10. The water collector assembly for an air treatment device as claimed in claim 1, wherein the water collector assembly is provided with a water outlet communicating with the water receiving space.

11. A drip tray assembly for an air treatment device according to claim 10, further comprising siphon means for directing water within the drip receiving space towards the drain opening.

12. A water tray assembly according to claim 11 wherein a portion of the bottom wall of the water receiving space adjacent the water discharge is recessed downwardly to define a water collection space, the water inlet end of the siphon device being located within the water collection space.

13. A drip tray assembly for an air treatment device according to claim 12, wherein two of said electrode pads are provided in said water collecting space.

14. An air treatment unit including a water tray assembly according to any one of claims 1 to 13.