CN106766081B

CN106766081B - Water collector and marine tuber pipe machine

Info

Publication number: CN106766081B
Application number: CN201611233110.8A
Authority: CN
Inventors: 唐运佳; 张龙爱; 周江峰
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2016-12-28
Filing date: 2016-12-28
Publication date: 2020-01-07
Anticipated expiration: 2036-12-28
Also published as: WO2018120748A1; CN106766081A

Abstract

The invention provides a water pan and a marine air duct machine. This water collector is including casing (1) that has bottom plate (4) and four at least curb plates, four the curb plate is including relative first curb plate (7) and second curb plate (8), relative third curb plate (9) and fourth curb plate (10) that set up, be provided with first drain opening (2) on first curb plate (7), second curb plate (8) are provided with second outlet (3), just first drain opening (2) for second outlet (3) are close to third curb plate (9) set up, second outlet (3) for first drain opening (2) are close to fourth curb plate (10) and set up. According to the water pan, when the unit tilts and swings, the phenomenon that condensed water in the water pan overflows from a place except the water outlet can be effectively reduced or even prevented, and the reliability of the water pan is improved.

Description

Water collector and marine tuber pipe machine

Technical Field

The invention relates to the technical field of air conditioning, in particular to a water pan and a marine air duct machine.

Background

The design of the water pan mainly solves two problems, namely, the condensate water is prevented from overflowing from a drain pipe of the water pan, and the airflow organization in the machine body is optimized. The marine air duct machine is matched with a ship for use, so that the unit can be normally used in the severe environments of inclination and swinging on the sea. The water pan of the unit is designed by using the civil air duct machine, so that the requirement of optimizing the organization in the unit box body is met, and when the unit water pan is inclined and swung, condensed water in the water pan overflows from the edge, so that the reliability of the water pan is reduced.

Disclosure of Invention

The invention aims to provide a water pan and a marine air duct machine, which can effectively reduce the occurrence of the phenomenon that condensed water in the water pan overflows from a non-drainage port when a unit tilts and swings, and improve the reliability of the water pan.

In order to achieve the above object, according to one aspect of the present invention, a water pan is provided, which includes a housing having a bottom plate and at least four side plates, where the four side plates include a first side plate and a second side plate that are oppositely disposed, and a third side plate and a fourth side plate that are oppositely disposed, a first drain opening is disposed on the first side plate, a second drain opening is disposed on the second side plate, and the first drain opening is disposed close to the third side plate relative to the second drain opening, and the second drain opening is disposed close to the fourth side plate relative to the first drain opening.

Preferably, a water storage tank communicated with the first water discharge port and the second water discharge port is arranged on the bottom plate, and the water storage tank is a groove extending along the direction of a straight line connecting the first water discharge port and the second water discharge port.

Preferably, the catch basin includes two relative groove edges that set up, is respectively being close to the first groove edge of third curb plate and keeping away from the second groove edge of third curb plate, and two the groove edge is the arc shape for the catch basin forms into along the direction of straight line carries out the streamline type groove that extends.

Preferably, the curvature of the first slot edge increases gradually from the position where the first slot edge is connected with the first side plate to the position where the first slot edge is connected with the second side plate, and/or the curvature of the second slot edge increases gradually from the position where the second slot edge is connected with the second side plate to the position where the second slot edge is connected with the first side plate.

Preferably, the height from the position where the first trough edge is connected with the first side plate to the bottom of the water storage trough is lower than the height from the position where the first trough edge is connected with the second side plate; and/or the height from the joint of the second trough edge and the second side plate to the bottom of the water storage trough is lower than the height from the joint of the second trough edge and the first side plate.

Preferably, the height of the first trough edge from the bottom of the water storage trough gradually increases from the position where the first trough edge is connected with the first side plate to the position where the first trough edge is connected with the second side plate; and/or the height of the second trough edge from the bottom of the water storage trough gradually increases from the position where the second trough edge is connected with the second side plate to the position where the second trough edge is connected with the first side plate.

Preferably, the cross-sectional area of the reservoir decreases progressively from the middle to the ends along the direction of extension.

Preferably, the bottom of the water storage tank is also provided with a drainage groove, one end of the drainage groove is communicated with the first drainage port, and the other end of the drainage groove is communicated with the second drainage port.

Preferably, the drainage groove is a straight groove extending along a direction of a straight line connecting the first drainage port and the second drainage port.

Preferably, the bottom of the drainage groove is flush with the bottom of the first and/or second drainage opening; or the bottom of the drainage groove is higher than the bottom of the first drainage port and/or the second drainage port.

Preferably, the bottom plate comprises a smooth cambered surface extending from the top of the third side plate to the water storage tank, and the height of the cambered surface is gradually reduced from the top of the third side plate to the water storage tank; and/or the bottom plate comprises a smooth cambered surface extending from the top of the fourth side plate to the water storage tank, and the height of the cambered surface is gradually reduced from the top of the fourth side plate to the water storage tank.

According to another aspect of the invention, a marine ducted air conditioner is provided, which comprises the water pan.

By arranging the first drain port close to the third side plate relative to the second drain port and arranging the second drain port close to the fourth side plate relative to the first drain port), the first drain port and the second drain port can be effectively staggered in the swinging direction of the water pan, so that when the water pan is applied, if a unit is in a horizontal state, condensed water can be normally drained from the first drain port and the second drain port, and if the unit is in a swinging state, when the unit swings forwards, the condensed water can be collected towards the front side and can flow out from the first drain port close to the third side plate on the front side; when the unit swings backwards, the condensed water is collected towards the rear side and flows out from a second water outlet close to the fourth side plate on the rear side; when the unit swings leftwards, condensed water is collected towards the left side and is quickly discharged from a first water discharge port on the left side; when the unit swings rightwards, the condensed water is collected towards the right side and is quickly discharged from the second water outlet on the right side, so that even if the unit swings, the condensed water can be guaranteed to be discharged from the water outlet in time, the probability of overflow of the condensed water from the place outside the water outlet of the water pan is reduced, and the working reliability of the water pan is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic top view of a water pan according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the water pan of FIG. 1 in the direction A according to the present invention;

FIG. 3 is a schematic view of the internal structure of the water pan in the direction B in FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the drain of the embodiment of the present invention when the drip pan is swung 45 degrees backward toward the fourth side plate;

fig. 5 is a schematic drainage diagram when the water pan of the embodiment of the invention is swung 45 degrees forward towards the third side plate.

Description of reference numerals: 1. a housing; 2. a first drain port; 3. a second water discharge port; 4. a base plate; 5. a water storage tank; 6. a drainage groove; 7. a first side plate; 8. a second side plate; 9. a third side plate; 10. a fourth side plate; 11. a first slot edge; 12. and a second slot edge.

Detailed Description

The invention will be described in detail hereinafter with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The front part and the rear part of the water pan of the marine air duct machine are designed into curved surfaces or inclined surfaces, so that the air flow organization is optimized, when the unit swings +/-45 degrees in the front and rear directions during testing, condensed water in the water pan cannot be discharged from a water opening of the water pan, and when the accumulated amount of the condensed water is more, the condensed water flows back along a curved air duct and flows out of the water pan.

The design idea of the patent is to improve on the basis of the original design, extend the original streamline flow channel of the front part and the back part, the height of the extension part is consistent with the height of the lowest point of the original flow channel, and the air flow is ensured not to generate local resistance to influence the air flow organization when passing through the extension part; the edge of the tail end of the extension flow channel is also designed to be streamline in the vertical direction, the drain pipe on one side moves backwards, and the drain pipe on one side moves forwards, so that when the unit swings forwards and backwards, the two drain pipes of the water receiving disc form a height difference in the vertical direction, and condensed water can be smoothly discharged.

Based on the above thought, referring to fig. 1 to 5 in combination, according to the embodiment of the present invention, the water pan includes a housing 1 having a bottom plate 4 and at least four side plates (the bottom plate is located at the bottom of the housing, and the four side plates are respectively disposed on four edges of the bottom plate and extend upwards to form the water pan capable of receiving water), the four side plates include a first side plate 7 and a second side plate 8 disposed opposite to each other, a third side plate 9 and a fourth side plate 10 disposed opposite to each other, the first side plate 7 is provided with a first water discharge port 2, the second side plate 8 is provided with a second water discharge port 3, the first water discharge port 2 and the second water discharge port 3 are staggered, one of which (the first drain opening 2 with respect to the second drain opening 3) is disposed adjacent to the third side plate 9, and the other of which (the second drain opening 3 with respect to the first drain opening 2) is disposed adjacent to the fourth side plate 10.

Because the first drain opening 2 and the second drain opening 3 of the water pan are staggered, one of the first drain opening and the second drain opening is arranged close to the third side plate, and the other one of the first drain opening and the second drain opening is arranged close to the fourth side plate, when the water pan is applied, if the unit is in a horizontal state, condensed water can be normally discharged from the first drain opening 2 and the second drain opening 3, and if the unit is in a swinging state, when the unit swings forwards, the condensed water can be collected towards the front side and can flow out from the first drain opening 2 close to the third side plate on the front side; when the unit swings backwards, the condensed water is collected towards the rear side and flows out from the position close to the second water discharge port 3 on the fourth side plate on the rear side; when the unit swings leftwards, the condensed water is collected towards the left side and is quickly discharged from the first water discharge port 2 positioned on the left side; when the unit sways to the right, the comdenstion water is collected to the right side, will follow the second outlet 3 quick discharge that is located the right side, consequently, even the unit takes place to sway, also can guarantee that the comdenstion water in time discharges from the outlet, effectively reduces or even avoids the comdenstion water to take place from the condition that the place beyond the water collector outlet overflowed, has improved the reliability of water collector during operation.

Preferably, the housing 1 includes a bottom plate 4, a water storage tank 5 communicating the first drain port 2 and the second drain port 3 is disposed on the bottom plate 4, and the water storage tank 5 is a groove extending along a direction of a straight line connecting the first drain port 2 and the second drain port 3. The water storage tank 5 can collect and temporarily store condensed water, and has a guiding effect on the flow of water flow, after the condensed water is concentrated in the water storage tank 5, the condensed water can be guided particularly along the extension direction of the connecting line direction of the first water outlet and the second water outlet, so that the water flow is reduced along the connecting line direction of the third side plate and the fourth side plate, and the water flow is smoothly discharged from the water outlets, effectively reduced and even prevented from overflowing from other positions. The water storage tank 5 can also be used for enabling condensed water to be more easily gathered towards a water outlet in the swinging direction (for example, when the water receiving tray swings towards the third side plate (front), the condensed water is more easily discharged from the first water outlet, and when the water receiving tray swings towards the fourth side plate (rear), the condensed water is more easily discharged from the second water outlet), and the condensed water is discharged from the corresponding water outlet, so that the problem that the condensed water is accumulated too much and overflows is avoided.

Preferably, the water storage tank 5 comprises two opposite tank edges, namely a first tank edge 11 close to the third side plate 9 and a second tank edge 12 far away from the third side plate 9, and the two tank edges are both arc-shaped, so that the water storage tank 5 is formed into a streamline-shaped tank extending along the direction of the straight line. The streamlined catch basin 5 can increase the volume of catch basin 5 on the one hand to save more comdenstions, on the other hand can lead to the direction and the speed of comdenstion water rivers through the 5 sides of streamlined catch basin, and accelerate the unit and sway the discharge velocity of in-process comdenstion water, reduce the water flow resistance, the comdenstion water spills over the catch basin from the groove limit when preventing that the unit from swaying, or prevents that comdenstion water discharge efficiency is low and lead to the comdenstion water to flow backwards and go out the water collector. Preferably, the first ends of the two sides of the reservoir 5 are tangent to the extending direction of the first drain port 2, and the second ends of the two sides are tangent to the extending direction of the second drain port 3, so that the flow resistance of the condensed water in the reservoir 5 flowing out of the two drain ports can be reduced, and the drainage efficiency can be improved.

Preferably, the curvature of the first slot edge 11 gradually increases from the joint with the first side plate 7 to the joint with the second side plate 8; and/or the curvature of the second slot edge 12 increases gradually from the junction with the second side plate 8 to the junction with the first side plate 7. When the water pan swings towards the rear side, water is collected in the water storage tank 5 under the action of gravity and flows along the second tank edge 12 located at the rear side under the action of gravity, and because the curvature of the second tank edge 12 located at the rear side and far away from the second water outlet 3 is large, condensed water at the position far away from the second water outlet 3 can flow towards the second water outlet 3 more quickly, and therefore the condensed water flows out of the second water outlet 3 as soon as possible. When the defrosting pan sways to the front side, water collects in the water storage tank 5 under the action of gravity, and flows along the first tank edge 11 positioned on the front side under the action of gravity, and the curvature of one side, far away from the first drainage port 2, of the first tank edge 11 on the front side is large, so that condensed water on one side, far away from the first drainage port 2, can flow to the first drainage port 2 more quickly, and is discharged from the first drainage port 2 as soon as possible. Through setting up the side both sides camber to catch basin 5, the drainage efficiency of comdenstion water when can effectively improve the water collector and sway from beginning to end avoids the comdenstion water to spill over from the water collector more effectively.

Preferably, the height from the bottom of the water storage tank to the position where the first tank edge 11 is connected with the first side plate 7 is lower than the height from the position where the first tank edge 11 is connected with the second side plate 8; and/or the height from the bottom of the water storage tank at the joint of the second trough edge 12 and the second side plate 8 is lower than the height of the joint of the second trough edge 12 and the first side plate 7. When the water pan swings forwards or leftwards, the height of the joint of the first trough edge 11 and the first side plate 7 is lower than that of the joint of the first trough edge 11 and the second side plate 8, so that condensed water flows from the second water discharge port 3 at a higher position to the first water discharge port 2 at a lower position along the direction of the first trough edge 11, and the condensed water is favorably collected leftwards and discharged from the first water discharge port 2; similarly, when the water pan swings backwards or rightwards, because the height of the joint of the second groove edge 12 and the second side plate 8 is lower than that of the joint of the second groove edge 12 and the first side plate 7, the condensed water flows from the first drain opening 2 at a higher position to the second drain opening 3 at a lower position along the direction of the second groove edge 12, so that the condensed water is collected to the right and is drained from the second drain opening 3.

Preferably, the height of the first trough edge 11 from the bottom of the water storage trough gradually increases from the position where the first trough edge is connected with the first side plate 7 to the position where the first trough edge is connected with the second side plate 8; and/or the height of the second trough edge 12 from the bottom of the reservoir gradually increases from the location where it meets the second side panel 8 to the location where it meets the first side panel 7. Because the position of the joint of the first trough edge and the first water outlet is closer to the third side plate relative to the position of the joint of the first trough edge and the second water outlet, when the water receiving tray shakes backwards (namely the fourth side plate moves downwards and the third side plate moves upwards), water flow is accumulated at the position of the first trough edge, and due to the streamline action of the first trough edge, the flow rate of the water flow towards the second water outlet is smaller when the water flow is closer to the first water outlet and is larger when the water flow is closer to the second water outlet, so that the probability of overflow of the water flow through the first trough edge is larger when the water flow is closer to the first water outlet and the probability of overflow of the water flow through the first trough edge is smaller when the water flow is closer to the second water outlet (farther away from the first water outlet), the height of the joint of the first trough edge and the first water outlet at the position is gradually reduced when the water flow is closer to the second water outlet, therefore, the overflow of water from the first groove edge (when the water receiving tray shakes) can be effectively reduced or even prevented; because the position of the joint of the second trough edge and the second water outlet is closer to the fourth side plate relative to the position of the joint of the first trough edge and the second water outlet, when the water receiving tray swings forwards (namely the third side plate moves downwards and the fourth side plate moves upwards), water flow is accumulated at the position of the second trough edge, and due to the streamline action of the second trough edge, the flow rate of the water flow towards the first water outlet is smaller when the water flow is closer to the second water outlet, and the flow rate of the water flow towards the second water outlet is larger when the water flow is closer to the second water outlet, so that the occurrence probability of the water flow overflowing through the second trough edge is larger when the water flow is closer to the second water outlet, and the occurrence probability of the water flow overflowing through the first trough edge is smaller when the water flow is closer to the first water outlet (farther away from the second water outlet), therefore, the height of the joint of the second trough edge and the second water outlet is set to be maximum, and the height of, therefore, the overflow of water from the second groove edge (when the water receiving tray shakes forwards) can be effectively reduced or even prevented.

Preferably, the structure of the water storage tank 5 is symmetrical relative to the center of the central connecting line of the first water discharge port 2 and the second water discharge port 3, so that condensed water can be discharged from the two water discharge ports at the maximum efficiency in the process of swinging the water receiving tray back and forth and left and right, overflow of the condensed water from places except the water discharge port of the water receiving tray is effectively reduced or avoided, and the reliability of the water receiving tray during working is improved.

Of course, in the actual design process, the first drain opening 2 may be disposed near the rear side of the fourth side plate 10, and the second drain opening 3 may be disposed near the front side of the third side plate 9, which may be specifically set according to the actual situation.

Preferably, the cross-sectional area of the water storage tank 5 gradually decreases from the middle to the two ends along the extension direction of the water storage tank 5, and after the condensed water is gathered in the water storage tank 5, because the condensed water amount in the middle of the water storage tank 5 is large and the two ends are small, under the action of gravity, the condensed water is gathered to the water outlets at the two ends and is discharged from the water outlets rapidly, so that the discharge efficiency of the condensed water is improved, and the accumulation of the condensed water is reduced.

Preferably, the bottom of the water storage tank 5 is further provided with a drainage groove 6, and one end of the drainage groove 6 is communicated with the first water discharge port 2, and the other end is communicated with the second water discharge port 3. The width of the drainage groove 6 is smaller than that of the water storage groove 5, and the purpose of the drainage groove is to drain the condensed water, so that the condensed water can be discharged from the water outlet more quickly. Because the drainage groove 6 is located the bottom of catch basin 5, consequently the height that highly is less than catch basin 5 of drainage groove 6, after the comdenstion water in the drainage groove 6 discharged from the outlet, the comdenstion water in the catch basin 5 can in time be filled to in the drainage groove 6, continues to discharge from the outlet. By this way, the drainage efficiency of the condensed water can be further improved.

The drainage groove 6 is preferably a straight groove extending along the direction of the straight line connecting the first drainage port and the second drainage port, which is a preferred structure form of the drainage groove of the present invention, and the drainage groove is arranged in a straight groove, so that the flow path of the condensed water can be shortened, and the speed of the condensed water flowing out of the drainage groove can be increased.

Preferably, the bottom of the drainage groove 6 is flush with the bottom of the first and/or

second drainage openings

2 and 3 or the bottom of the drainage groove 6 is higher than the bottom of the first and/or

second drainage openings

2 and 3. The drainage groove 6 is a straight groove, so that the flow path of the condensed water can be reduced, the condensed water can be discharged from the two water outlets more quickly and directly, and the drainage efficiency of the water outlets is improved. Of course, the drainage groove 6 may also be an arc-shaped groove, and the bottom thereof may also be set to be higher in the middle and lower in the two ends, so as to further improve the drainage efficiency and the drainage quality of the drainage outlet.

Preferably, the bottom plate 4 is a smooth arc surface extending from the top of the third side plate 9 to the water storage tank 5, and the height of the arc surface is gradually reduced from the top of the third side plate 9 to the water storage tank 5; and/or the bottom plate is a smooth arc surface extending from the top of the fourth side plate 10 to the water storage tank 5, and the height of the arc surface is gradually reduced from the top of the fourth side plate 10 to the water storage tank 5. Because the water storage tank 5 is positioned at the lowest part of the cambered surface, even if the unit swings, the condensed water can be gathered in the water storage tank 5 positioned at the lowest part of the bottom plate 4 under the action of gravity instead of being directly thrown out of the water receiving tray through the cambered surface, so that the overflow of the condensed water can be more effectively avoided through the water storage tank 5, and the reliability of the water receiving tray is improved.

Preferably, the first drain opening 2 and/or the second drain opening 3 extend along the extension direction of the drainage groove 6, so that when condensed water is discharged from the drain openings, the discharge resistance can be reduced, and the drainage efficiency can be improved.

The operation of the water tray will be described below.

When the unit is in a horizontal state, the condensed water flows into the water receiving tray under the action of gravity, then is collected to the lowest point along the runners at the two sides of the water receiving tray and flows back to the water storage tank 5, and when the condensed water is accumulated to a certain amount, the condensed water flows out from the water outlets at the two sides. Meanwhile, the linear drainage groove 6 between the two water outlets is positioned at the lowest point of the water receiving tray, and the volume is very small, so that after condensed water enters the water storage groove 5, the drainage groove 6 is filled with the condensed water, the condensed water in the drainage groove 6 overflows and then is discharged from the two water outlets, a certain attraction force is formed to induce the condensed water in the water storage groove 5 to flow towards the water outlets, and the water in the water receiving tray is drained at an accelerated speed.

When the unit swings backwards from the horizontal state, because the rear side edge of the water storage tank 5 is designed into a streamline flow channel with a high left side and a low right side, the condensed water in the water storage tank 5 forms certain power under the action of gravity, so that the flow speed of the second water outlet 3 on the right side is increased, when the unit swings to a maximum angle (45 degrees), the water in the water pan is emptied, and therefore the condensed water cannot overflow from the edge of the water pan. Then the unit begins to rock forward, and based on the same reason, because the front side edge design of catch basin 5 becomes the streamlined runner of high left low in the right side, the comdenstion water in the catch basin 5 forms certain power because of the action of gravity to flow to left first drain outlet 2 with higher speed, when the unit rocks to maximum angle (45 °), the water in the water collector has been emptied, consequently also can not have the comdenstion water to spill over from the water collector edge. When the unit swings to the maximum angle, the staying time is short (about 0.5s), the unit quickly turns to swing in the opposite direction, the average generating rate of the unit condensate water is low, for example, 0.5g/s, and therefore the condensate water generated in the period of time cannot directly overflow out of the water receiving tray.

According to an embodiment of the invention, the marine air duct machine comprises the water pan, and the water pan is the water pan.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The water pan is characterized by comprising a shell (1) with a bottom plate (4) and at least four side plates, wherein the four side plates comprise a first side plate (7) and a second side plate (8) which are oppositely arranged, and a third side plate (9) and a fourth side plate (10) which are oppositely arranged, a first water outlet (2) is formed in the first side plate (7), a second water outlet (3) is formed in the second side plate (8), the first water outlet (2) is arranged close to the third side plate (9) relative to the second water outlet (3), and the second water outlet (3) is arranged close to the fourth side plate (10) relative to the first water outlet (2); the bottom plate (4) is provided with a water storage tank (5) communicated with the first water discharge port (2) and the second water discharge port (3), and the water storage tank (5) is a groove extending along the direction of a straight line connecting the first water discharge port (2) and the second water discharge port (3); the water storage tank (5) comprises two oppositely arranged tank edges, namely a first tank edge (11) close to the third side plate (9) and a second tank edge (12) far away from the third side plate (9), and the two tank edges are both arc-shaped, so that the water storage tank (5) is formed into a streamline-shaped tank extending along the direction of the straight line;

the height from the position where the first trough edge (11) is connected with the first side plate (7) to the bottom of the water storage trough is lower than the height of the position where the first trough edge (11) is connected with the second side plate (8); and/or the height from the bottom of the water storage tank to the position where the second tank edge (12) is connected with the second side plate (8) is lower than the height from the position where the second tank edge (12) is connected with the first side plate (7); the structure of the water storage tank (5) is symmetrical relative to the center of the central connecting line of the first water discharge port (2) and the second water discharge port (3).

2. A drip tray according to claim 1, wherein the curvature of the first channel edge (11) increases from the point of attachment to the first side panel (7) to the point of attachment to the second side panel (8), and/or the curvature of the second channel edge (12) increases from the point of attachment to the second side panel (8) to the point of attachment to the first side panel (7).

3. A drip tray according to claim 1, wherein the height of the first gutter edge (11) from the floor of the gutter increases from the location where it meets the first side panel (7) to the location where it meets the second side panel (8); and/or the height of the second trough edge (12) from the bottom of the water storage trough gradually increases from the position where the second trough edge is connected with the second side plate (8) to the position where the second trough edge is connected with the first side plate (7).

4. A drip tray according to any one of claims 1-2, wherein the cross-sectional area of the reservoir (5) decreases from the middle towards the ends in the direction of extension.

5. The water pan according to any one of claims 1 to 2, wherein the bottom of the water storage tank (5) is further provided with a drainage groove (6), and one end of the drainage groove (6) is communicated with the first water discharge port (2) and the other end is communicated with the second water discharge port (3).

6. A drip tray according to claim 5, wherein the drainage channel (6) is a straight channel extending in the direction of the line connecting the first drain opening (2) and the second drain opening (3).

7. A drip tray according to claim 5, wherein the bottom of the drainage channel (6) is flush with the bottom of the first drain opening (2) and/or the second drain opening (3); or the bottom of the drainage groove (6) is higher than the bottom of the first drainage opening (2) and/or the second drainage opening (3).

8. A drip tray according to any one of claims 1-2, wherein the bottom panel (4) comprises a smooth curved surface extending from the top of the third side panel (9) to the reservoir (5), the height of the curved surface decreasing from the top of the third side panel (9) to the reservoir (5); and/or the bottom plate comprises a smooth cambered surface extending from the top of the fourth side plate (10) to the water storage tank (5), and the height of the cambered surface is gradually reduced from the top of the fourth side plate (10) to the water storage tank (5).

9. A ducted air conditioner for a ship, comprising a water pan, wherein the water pan is as claimed in any one of claims 1 to 8.