CN210154051U - Air conditioner chassis structure and air conditioner - Google Patents

Abstract

The utility model provides an air conditioner chassis structure and air conditioner relates to air conditioner technical field. The air conditioner chassis structure of the utility model comprises a main water collecting area, a second water storage area and a water discharging area; the main water collecting area is respectively communicated with the second water storage area and the water draining area, the main water collecting area is higher than the second water storage area, and the second water storage area is higher than the water draining area. Air conditioner chassis structure, be higher than second water storage district through setting up main water collecting area, second water storage district is higher than water drainage district, when main water collecting area water level increased, second water storage district and water drainage district played the effect that increases chassis comdenstion water holding capacity, water drainage district utilizes the gravity drive rivers that high drop brought to flow when the drainage simultaneously for quick and efficient drainage can be realized on the chassis.

Description

Air conditioner chassis structure and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an air conditioner chassis structure and air conditioner.

Background

The mobile air conditioner breaks through the traditional design concept, is light in shape and high in energy efficiency ratio, does not need to be installed, and can be randomly placed in different houses. Under normal conditions, the comdenstion water that the mobile air conditioner inside produced consumes by oneself, however under the too high condition of air humidity, the speed of consuming the comdenstion water can not catch up with the speed that the comdenstion water produced, and the water storage space on traditional chassis is not enough, can lead to the comdenstion water to spill over, consequently needs the water storage capacity on increase chassis.

It can be seen that the structure of the existing mobile air conditioner needs to be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be that the water storage space on traditional chassis is not enough, can lead to the problem that the comdenstion water spills over.

In order to solve the above problem, the utility model provides an air conditioner chassis structure, including main water catch area, second water storage district and water drainage district, main water catch area respectively with second water storage district with water drainage district is linked together, main water catch area is higher than second water storage district, second water storage district is higher than water drainage district.

Air conditioner chassis structure, be higher than second water storage district through setting up main water collecting area, second water storage district is higher than water drainage district, when main water collecting area water level increased, second water storage district and water drainage district played the effect that increases chassis comdenstion water holding capacity, water drainage district utilizes the gravity drive rivers that high drop brought to flow when the drainage simultaneously for quick and efficient drainage can be realized on the chassis.

Optionally, the main water collecting area comprises a gathering part which is of a concave structure with a low middle part and a high periphery.

Air conditioner chassis structure, through will assemble the design of portion for the spill structure, be favorable to realizing the water-collecting function of main catchment area.

Optionally, the converging portion includes four converging surfaces, and the four converging surfaces intersect at the converging point.

Air conditioner chassis structure, through setting up the convergent point, can converge the convergent point with the comdenstion water of main water catch area.

Optionally, an included angle γ between the converging surface and the horizontal plane ranges from 2 degrees to 4 degrees.

Air conditioner chassis structure, assemble the scope of face and the contained angle gamma of horizontal plane through the setting and be 2 ~ 4 degrees, effectively guaranteed the gathering of comdenstion water and the effective of discharge process go on.

Optionally, the air conditioner base plate structure further includes a water tank, and the convergence point is located at a notch of the water tank.

Air conditioner chassis structure, be located the notch department of beating the basin through setting up the convergent point for the comdenstion water can be in the same direction as smooth flowing to beating the basin in and discharge the air conditioner.

Optionally, the air conditioner base plate structure further comprises a water level switch area, and a communication port is arranged at a connection position of the water level switch area and the main water collecting area.

Air conditioner chassis structure, set up the intercommunication mouth through the junction at water level switch district and main water collecting area for water level switch district can play the monitoring effect to the water level of main water collecting area, thereby prevents that the comdenstion water in the chassis from spilling over.

Optionally, the main water collecting area further comprises a wind blocking rib, and the wind blocking rib is opposite to the communicating opening.

Air conditioner chassis structure, set up relatively through setting up the fender wind muscle and intercommunication mouth, under the prerequisite that does not influence rivers flow, reduce the hourglass of intercommunication mouth department.

Optionally, the wind-break muscle is three, three the wind-break muscle is the distribution of article style of calligraphy structure.

Air conditioner chassis structure, be article style of calligraphy structure through setting up three fender wind muscle, under the prerequisite that does not influence the rivers flow direction, reduced the probability that the condition of leaking out takes place.

Optionally, the second water storage area includes a diversion bottom surface, and one side of the diversion bottom surface adjacent to the main water collection area is lower than one side far away from the main water collection area in the front-rear direction, so as to guide the condensed water to flow to the main water collection area.

Air conditioner chassis structure, through the water conservancy diversion bottom surface that sets up to main water catch area slope in second water storage district for the comdenstion water in second water storage district can flow to main water catch area smoothly.

Optionally, the angle between the flow guide bottom surface and the horizontal plane ranges from 2 degrees to 5 degrees.

Air conditioner chassis structure, the inclination scope through setting up the water conservancy diversion bottom surface is 2 ~ 5 degrees for the comdenstion water in the second water storage district can effectively be stored and discharge.

Optionally, the second water storage area further includes a flow guiding side surface, the flow guiding side surface is located on one side of the flow guiding bottom surface adjacent to the drainage area in the left-right direction, and the angle β of the flow guiding side surface relative to the front-back direction ranges from 5 degrees to 10 degrees.

Air conditioner chassis structure, through setting up the water conservancy diversion side in second water storage district for the comdenstion water is more smooth and easy when flowing from second water storage district.

Optionally, the second water storage area is further provided with a wind blocking rib, and the wind blocking rib is located at a water passing hole of the second water storage area.

Air conditioner chassis structure, blow in the second water storage district through hindering the air current, reduce heat exchanger heat transfer loss.

The utility model also provides an air conditioner, including the air conditioner chassis structure of any one section of above-mentioned explanation. Air conditioner beneficial effect that has for prior art the same with above-mentioned air conditioner chassis structure, no longer give unnecessary details here.

Drawings

Fig. 1 is an axial view of a chassis according to the present invention;

fig. 2 is a top view of the chassis according to the present invention;

fig. 3 is a schematic view of a part of the structure of the chassis according to the present invention;

fig. 4 is a schematic view of the convergence portion according to the present invention;

fig. 5 is a schematic view of a second water storage area according to the present invention;

FIG. 6 is a side view of the chassis of the present invention;

fig. 7 is a sectional view taken along a-a' in fig. 6.

Description of reference numerals:

100-a main water collecting area, 110-a converging part, 111-a converging surface, 112-a converging point, 120-a wind blocking rib, 200-a first water storage area, 210-a wind blocking structure, 221-a water passing notch, 300-a second water storage area, 310-a flow guiding bottom surface, 320-a flow guiding side surface, 330-a wind blocking rib, 400-a water discharging area, 411-a water guiding area, 412-a transition area, 413-a water discharging area reinforcing rib, 420-a water discharging pipe, 421-an inner wall, 500-a water level switch area, 510-a communication port, 600-a water pumping motor area and 700-a water pumping groove.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it should be noted that terms such as "upper", "lower", "left", "right", "outer", "inner", etc. in the embodiments indicate terms of orientation, and are only used for simplifying the description of positional relationships based on the drawings of the specification, and do not represent that the elements, devices, etc. indicated in the embodiments must operate according to specific orientations and defined operations and methods, configurations in the specification, and such terms of orientation do not constitute limitations of the present invention.

In addition, the terms "first" and "second" mentioned in the embodiments of the present invention are only used for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1, the utility model provides an air conditioner chassis structure, including main water collecting area 100, second water storage area 300 and water drainage 400, main water collecting area 100 is linked together with second water storage area 300 and water drainage 400 respectively, and main water collecting area 100 is higher than second water storage area 300, and second water storage area 300 is higher than water drainage 400.

Specifically, "above" is defined as: when the whole air conditioner is in a horizontal state, at the joint of the main water collecting area 100 and the second water storage area 300, the vertical height of the lowest point of the main water collecting area 100 at the joint is higher than that of the highest point of the bottom surface of the second water storage area 300, namely, at the joint, the main water collecting area 100 and the second water storage area 300 form a step-shaped structure; the vertical height of the junction of the second water storage region 300 and the main water collection region 100 is greater than the vertical height of the junction of the drain region 400 and the main water collection region 100.

The main water collecting area 100 is a main area for collecting water on the chassis, the main water collecting area 100 is located below a heat exchanger of the air conditioner, condensed water of the air conditioner enters the main water collecting area 100 from the heat exchanger, and the main water collecting area 100 receives a certain amount of condensed water and sends the condensed water exceeding the storage amount to the water fetching groove 700 or the water draining area 400.

Meanwhile, the second water storage area 300 is lower than the main water collection area 100, the water storage capacity of the chassis is increased by the second water storage area 300, and when the water level of the second water storage area 300 is lower than the height of the joint of the second water storage area 300 and the main water collection area 100, the second water storage area 300 plays a role in receiving condensed water; when the water level of the second water storage area 300 is equal to or higher than the main water collection area 100, the condensed water of the second water storage area 300 is gathered toward the main water collection area 100. The heights of the main water collecting region 100 and the secondary water storage region 300 are greater than the height of the drain region 400, so that the condensed water of the main water collecting region 100 and the condensed water from the secondary water storage region 300 are drained through the drain region 400 when the condensed water of the main water collecting region 100 cannot be consumed through the water pouring tub 700. The main water collecting area 100 is arranged higher than the second water storage area 300, the second water storage area 300 is arranged higher than the water discharging area 400, and the gravity caused by the height difference is utilized to drive the water flow to flow, so that the chassis can realize quick and efficient water discharging.

Air conditioner chassis structure, be higher than through setting up first water storage area main water collecting area not only can utilize the gravity drive rivers that high drop brought to flow when the water yield is few for quick and efficient catchment can be realized to the chassis, can realize the common water storage in main water collecting area and first water storage area when the water yield is many moreover.

Optionally, as shown in fig. 2 to 4, the main water collecting area 100 includes a converging portion 110, and the converging portion 110 has a concave structure with a low middle and a high periphery.

Specifically, in conjunction with fig. 4, the convergence portion 110 has a concave structure as a whole, similar to a funnel-shaped structure, wherein fig. 4 shows a schematic view of a region near the convergence point 112, the convergence point 112 is the lowest point of the region and is also the lowest point of the convergence portion 110, a1, a2, A3 and a4 are equal-height points and are also the highest points of the region, and B1, B2, B3 and B4 are equal-height points and are also the next-highest points of the region; the water flow flows through the convergence plane 111 via points a and B and is collected at the convergence point 112, so as to realize the water collection function of the main water collection area 100, and further realize the effective discharge of the condensed water.

Air conditioner chassis structure, through will assemble the design of portion for the spill structure, be favorable to realizing the water-collecting function of main catchment area 100.

Optionally, as shown in fig. 3 and 4, the converging portion 110 includes four converging surfaces 111, and the four converging surfaces 111 intersect at the converging point 112.

Specifically, the converging portion 110 includes four converging surfaces 111, respectively: the four converging surfaces 111 form a concave structure with a low middle part and a high periphery, the converging surface 111 is composed of A1, B1, B4 and a converging point 112, the converging surface 111 is composed of A2, B1, B2 and a converging point 112, the converging surface 111 is composed of A3, B2, B3 and a converging point 112, and the converging surface 111 is composed of A4, B3, B4 and a converging point 112. In this description, the convergence unit 110 is described as being formed by four convergence surfaces 111, but the present invention is not limited thereto, and the convergence unit 110 may be formed by a plurality of convergence surfaces 111, which is not limited to four.

Air conditioner chassis structure, through setting up the convergent point, can converge the convergent point with the comdenstion water of main water catch area.

Optionally, an included angle γ between the converging surface 111 and the horizontal plane ranges from 2 degrees to 4 degrees.

Specifically, as shown in fig. 4, taking one of the converging surfaces 111 as an example, the converging surface 111 is composed of a1, a B1, a B4 and a converging point 112, where the converging surface 111 is formed by rotating a horizontal plane upward by an angle and then rotating the horizontal plane rightward by an angle, and in the process of rotating rightward, a connecting line between the B4 and the converging point 112 is kept in a fixed state, only a portion of the converging surface 111 except for a connecting line between the B4 and the converging point 112 rotates, so that the converging surfaces 111 can be ensured to be converged at the converging point 112, and the remaining converging surfaces 111 are formed in the same manner, and the formed converging portion 110 is a concave structure with a low middle and a high circumference; for example, the rotation angles are all 2 degrees, an included angle γ between the converging surface 111 and the horizontal plane is shown in fig. 4, γ shown in fig. 4 is represented by an included angle between two extension lines, the extension line positioned above is extended from a connecting line between the converging point 112 and a1, the extension line positioned below is extended from a connecting line between the converging point 112 and a vertical projection point of a1 on the horizontal plane, the included angle γ between the converging surface 111 and the horizontal plane is limited to be 2-4 degrees, it is ensured that water flow can be gathered at the converging point 112 and nearby by means of gravity, meanwhile, when excessive condensate water needs to be discharged, the air conditioner does not need to be inclined by too large angle, and the labor load is reduced.

Air conditioner chassis structure, assemble the scope of face and the contained angle gamma of horizontal plane through the setting and be 2 ~ 4 degrees, effectively guaranteed the gathering of comdenstion water and the effective of discharge process go on.

Optionally, the air conditioner base pan structure further includes a sump 700, and the convergence point 112 is located at a notch 710 of the sump 700.

Referring to fig. 3 and 4, the collection point 112 is located at the notch 710 of the pumping groove 700, a proper amount of condensed water flows to the pumping groove 700 through the notch 710 from the collection point 112 of the main water collection area 100, the pumping groove 700 is connected with the pumping motor area 600, the condensed water is atomized by the pumping motor and pumped to the heat exchanger to evaporate the condensed water, so that the condensed water in the air conditioner is discharged, and therefore, the collection point 112 is located at the notch 710, so that the condensed water in the main water collection area 100 can smoothly flow to the pumping groove 700 to be discharged out of the air conditioner.

Air conditioner chassis structure, be located the notch department of beating the basin through setting up the convergent point for the comdenstion water can be in the same direction as smooth flowing to beating the basin in and discharge the air conditioner.

Optionally, the air conditioner base plate structure further includes a water level switch area 500, and a connection portion of the water level switch area 500 and the main water collecting area 100 is provided with a communication port 510.

Specifically, as shown in fig. 1 to 3, the chassis structure includes a water level switch area 500, and the water level switch area 500 determines whether the condensed water has a tendency to overflow the chassis by detecting a height of the water level, and when the condensed water has a tendency to overflow the chassis due to a generation amount greater than a consumption amount, that is, when the water level reaches an early warning height, the water level switch turns off the compressor and increases a consumption speed of the condensed water. The junction of water level switch district 500 and main water collecting zone 100 sets up intercommunication mouth 510 to make water level switch district 500 can play the monitoring effect to the water level of main water collecting zone 100, when the comdenstion water in main water collecting zone 100 was too much, the water level in water level switch district 500 reached the early warning height, and water level switch closes the compressor and improves the consumption speed of comdenstion water, thereby guarantees that the comdenstion water in the chassis can not spill over.

Air conditioner chassis structure, set up the connector through the junction at water level switch district and main water collecting area for water level switch district can play the monitoring effect to the water level of main water collecting area, thereby prevents that the comdenstion water in the chassis from spilling over.

Optionally, as shown in fig. 2 and fig. 3, the main water collecting area 100 further includes a wind blocking rib 120, and the wind blocking rib 120 is disposed opposite to the communication opening 510.

Specifically, the main water collecting area 100 and the water level switch area 500 are communicated through the communication port 510, the communication port 510 mainly plays a role of receiving water flow, but not only condensed water passing through the communication port 510 but also has an air leakage phenomenon, so that the air blocking rib 120 is arranged opposite to the communication port 510, and the air leakage at the communication port 510 is reduced on the premise of not influencing the flow of the water flow.

Air conditioner chassis structure, set up relatively through setting up the fender wind muscle and intercommunication mouth, under the prerequisite that does not influence rivers flow, reduce the hourglass of intercommunication mouth department.

Optionally, as shown in fig. 3, there are three wind-blocking ribs 120, and the three wind-blocking ribs 120 are distributed in a delta-shaped structure.

Specifically, the three wind-blocking ribs 120 are in a delta-shaped structure as shown in fig. 3, and the wind-blocking ribs 120 formed by the delta-shaped structure block the flow direction of wind, so that the wind leakage situation is limited, and the probability of the wind leakage situation is reduced on the premise of not influencing the flow direction of water flow.

Air conditioner chassis structure, be article style of calligraphy structure through setting up three fender wind muscle, under the prerequisite that does not influence the rivers flow direction, reduced the probability that the condition of leaking out takes place.

Optionally, as shown in fig. 5, the second water storage area 300 includes a diversion bottom surface 310, and a side of the diversion bottom surface 310 adjacent to the main water collection area 100 is lower than a side thereof away from the main water collection area 100 in a front-rear direction, so as to guide the condensed water to flow to the main water collection area 100.

Specifically, the second water storage area 300 is located at the right side of the heat exchanger, and the second water storage area 300 plays a role of increasing the water storage capacity of the chassis, so that the second water storage area 300 is provided with the diversion bottom surface 310 inclined toward the main water collection area 100, so that when the water level of the condensed water in the second water storage area 300 is higher than that of the main water collection area 100, the condensed water can flow to the main water collection area 100 by means of gravity and then be discharged through the water discharge area 400 or the water beating tank 700.

Air conditioner chassis structure, through the water conservancy diversion bottom surface that sets up to main water catch area slope in second water storage district for the comdenstion water in second water storage district can discharge smoothly when the water level is higher than main water catch area 100.

Optionally, the angle between the flow guiding bottom surface 310 and the horizontal plane ranges from 2 degrees to 5 degrees

Specifically, water conservancy diversion bottom surface 310 inclines towards main water collecting area 100, and this angle scope has guaranteed that the second water storage district 300 when playing the water storage effect, and the comdenstion water can effectively be preserved in second water storage district 300, and when the comdenstion water in second water storage district 300 flows to main water collecting area 100, relies on gravity to realize the automatic flow of comdenstion water simultaneously to effectively discharge the comdenstion water in the second water storage district 300.

Air conditioner chassis structure, the inclination scope through setting up water conservancy diversion bottom surface 310 is 2 ~ 5 degrees for the comdenstion water in the second water storage district can effectively be stored and discharge.

Optionally, as shown in fig. 5, the second water storage area 300 further includes a flow guiding side surface 320, the flow guiding side surface 320 is located on a side of the flow guiding bottom surface 310 adjacent to the drainage area 400 in the left-right direction, and the angle β of the flow guiding side surface 320 relative to the front-back direction ranges from 5 degrees to 10 degrees.

Specifically, the diversion side surface 320 plays a role in guiding the flow direction of water, for example, when manual drainage is needed, the air conditioner is manually tilted to the right, and the water flows to the main water collecting area 100 and the drainage area 400 along the diversion side surface 320, wherein an included angle β between the diversion side surface 320 and the front-back direction is 5-10 degrees, under the angle range, the water flow can smoothly flow to the main water collecting area 100 and the drainage area 400 by means of gravity, meanwhile, the diversion side surface 320 gradually approaches the back surface of the chassis from front to back, which means that the diversion side surface 320 is formed by clockwise rotating β degrees on a plane perpendicular to the horizontal plane and extending in the front-back direction.

Meanwhile, the second water storage area 300 is further provided with a wind blocking rib 330, the wind blocking rib 330 is located at the water passing port of the second water storage area 300, and the wind blocking rib 330 mainly plays a role in blocking air flow from blowing into the second water storage area 300 and reducing heat exchange loss of the heat exchanger.

Air conditioner chassis structure, through setting up the water conservancy diversion side in second water storage district for the comdenstion water is more smooth and easy when flowing from second water storage district.

In addition to the above description, the present invention further provides a first water storage area 200, and as shown in fig. 3, the first water storage area 200 includes a wind shielding structure 210 and a water passing notch 221, the wind shielding structure 210 is suitable for blocking the air in the heat exchanger from entering the first water storage area 200 through the water passing notch 221 in the assembled state.

In addition, as shown in fig. 6 and 7, the chassis structure of the air conditioner of the present invention includes a water draining area 400, the chassis structure may include the water draining area 400 having a water guiding area 411 and a transition area 412, and a water draining pipe 420 communicated with the transition area 412, wherein the water guiding area 411 and the transition area 412 may be communicated with each other, and the water guiding area 411 is adapted to introduce water into the transition area 412.

Drain 400 may also be provided with drain ribs 413. In some examples, drain region reinforcing ribs 413 may be provided on the water guide region 411. In other examples, drain region stiffener 413 may be located on the side of drain 420 that communicates with transition region 412. In this case, the water guide area and the drain pipe can be connected through the arrangement of the drain area reinforcing ribs, and the connection stability of the water guide area and the drain pipe is improved, so that the use stability of the chassis and the air conditioner thereof is improved, the service life of the chassis and the air conditioner thereof is prolonged, and the like; and, the setting of drainage zone strengthening rib still has certain effect of keeping out the wind to can effectively avoid the emergence of the condition such as air conditioner air leakage, promote the use travelling comfort of air conditioner.

In addition, as shown in fig. 6 and 7 in combination, the inner wall 421 of the drain pipe 420 may gradually increase in diameter in the outflow direction of the water in the drain pipe 420. In other examples, the side of the drain 420 that connects to the transition zone 412 has a height difference from the side away from the transition zone 412. Since the drain pipe 420 is connected to the side wall of the transition region 412, that is, if the side wall is vertical, the axis of the drain pipe 420 is horizontal, and since the diameter of the inner wall 421 of the drain pipe 420 may be gradually increased, the side where water flows into the drain pipe is higher than the side where water flows out of the drain pipe in the water outflow direction, thereby increasing the outflow speed of condensed water in the drain pipe and further ensuring the thoroughness of drainage of the chassis.

Optionally, the utility model also provides an air conditioner, including the air conditioner chassis structure of any one section explanation above. Air conditioner beneficial effect that has for prior art the same with above-mentioned air conditioner chassis structure, no longer give unnecessary details here.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (13)

1. An air conditioner base plate structure is characterized by comprising a main water collecting area (100), a second water storage area (300) and a water draining area (400);

the main water collecting area (100) is communicated with the second water storage area (300) and the drainage area (400) respectively, the main water collecting area (100) is higher than the second water storage area (300), and the second water storage area (300) is higher than the drainage area (400).

2. The air conditioner base pan structure according to claim 1, wherein the main water collecting area (100) includes a convergence portion (110), and the convergence portion (110) has a concave structure with a low middle and a high periphery.

3. The air conditioner base pan structure according to claim 2, wherein the convergence portion (110) includes four convergence surfaces (111), the four convergence surfaces (111) intersecting at a convergence point (112).

4. The air conditioner base pan structure according to claim 3, wherein an angle γ between the converging surface (111) and a horizontal plane is in a range of 2-4 degrees.

5. The air conditioner base pan structure according to claim 4, further comprising a sump (700), wherein the convergence point (112) is located at a notch (710) of the sump (700).

6. The air conditioner base pan structure according to claim 1, further comprising a water level switch area (500), wherein a communication port (510) is provided at a connection of the water level switch area (500) and the main water collecting area (100).

7. The air conditioner base pan structure according to claim 6, wherein the main water collecting area (100) further includes a wind blocking rib (120), and the wind blocking rib (120) is disposed opposite to the communication port (510).

8. The chassis structure according to claim 7, wherein the number of the wind-shielding ribs (120) is three, and the three wind-shielding ribs (120) are distributed in a delta-shaped structure.

9. The air conditioner base pan structure according to claim 1, wherein the second water storage region (300) includes a guide bottom surface (310), and a side of the guide bottom surface (310) adjacent to the main water collection region (100) is lower than a side far from the main water collection region (100) in a front-rear direction to guide the condensed water to the main water collection region (100).

10. The air conditioner base pan structure according to claim 9, wherein an angle between the flow guide bottom surface (310) and a horizontal plane is in a range of 2-5 degrees.

11. The air conditioner base pan structure of claim 9, wherein the second water storage region (300) further includes a flow guide side surface (320), the flow guide side surface (320) being located on a side of the flow guide bottom surface (310) adjacent to the drain region (400) in a left-right direction, the flow guide side surface (320) being at an angle β ranging from 5 to 10 degrees with respect to a front-rear direction.

12. The air conditioner base pan structure as claimed in claim 1, wherein the second water storage area (300) is further provided with a wind blocking rib (330), and the wind blocking rib (330) is located at a water outlet position of the second water storage area (300).

13. An air conditioner characterized by comprising the air conditioner base pan structure as set forth in any one of claims 1 to 12.

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