CN209960725U - 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 utility model discloses wherein the chassis structure includes: the water fetching motor area is suitable for leading water in the water fetching motor area into the water draining area. The utility model discloses in, through set up interface channel between the motor district of fetching water and the water drainage district, the discharge of condensate water in the motor district of fetching water can be more convenient realization, promotes the drainage efficiency of base, prevents effectively that the comdenstion water from gathering and overflowing the emergence of the condition of base in the motor district of fetching water, promotes the thoroughness of base drainage to promote the performance of the air conditioner of using this base.

Description

Air conditioner chassis structure and air conditioner

Technical Field

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

Background

During operation of the air conditioner, condensate water is generally produced on its internal structure, for example on the heat exchanger. For the mobile air conditioner, under the general condition, the condensed water generated by the internal structure can be preferentially gathered at the water fetching groove, and the water fetching wheel is driven by the high-speed operation of the water fetching motor to atomize the condensed water so as to be fetched to the hot condenser to be evaporated, thereby being consumed inside. However, during the water fetching process, the condensed water still flows to the water fetching motor area along the water fetching wheel shaft and the motor shaft, so that accumulated water is formed in the water fetching motor area, and if the accumulated water is accumulated for a long time and is not discharged, the situations of chassis structure overflow and the like of the air conditioner are easy to occur, and the service performance of the air conditioner is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses in view of above-mentioned prior art's situation and completion, its aim at provides one kind and enables to beat the smooth and easy drainage in water motor district, thereby prevent chassis structure and air conditioner of chassis structure ponding.

To this end, an aspect of the present invention provides a chassis structure, which includes: the water fetching motor area is suitable for leading water in the water fetching motor area into the water draining area.

The utility model discloses an in the one hand, through set up interface channel between the motor district of fetching water and the water drainage district, the discharge of the interior condensate water of motor district of fetching water can be more convenient realization, promotes the drainage efficiency of base, prevents effectively that the comdenstion water from gathering and overflowing the emergence of the condition of base in the motor district of fetching water, promotes the thoroughness of base drainage to promote the performance of the air conditioner of using this base.

Additionally, the utility model provides an in the chassis structure, optionally, the electric machine district of fetching water includes the water guide bottom surface, when the chassis structure level was placed, on the left and right sides direction, keep away from on the water guide bottom surface water drainage area one side highly be higher than the water guide bottom surface is close to water drainage area one side's height. Under the condition, the height difference of the left side and the right side of the water guide bottom surface can enable the water beating motor area to be in an inclined state, so that condensed water in the water beating motor area flows to the lower side, namely flows to the direction of the water drainage area, therefore, the water beating motor area is more beneficial to discharging water in the water beating motor area, the discharging efficiency of the water beating motor area is improved, and meanwhile, the discharging thoroughness of the condensed water in the water beating motor area is ensured.

In addition, in the chassis structure provided by the utility model, optionally, the contained angle of water guide bottom surface and horizontal plane is the xi, and wherein, 2 xi is no less than 10. Preferably, 2 DEG.xi.ltoreq.5 deg. Under normal conditions, when the included angle is too large, namely the inclination angle is too large, the water flow speed is too large, the conditions of splashing and the like are easy to occur in the outflow process of condensed water, and the overall performance of the base and the air conditioner thereof is affected; when the included angle is too small, namely the inclination angle is too small, the water flow speed is too small, so that the drainage efficiency of condensed water is influenced. Therefore, the included angle between the water guide bottom surface and the horizontal plane is set within a certain range, so that the drainage efficiency of the condensed water can be ensured, the situations of the condensed water splashing and the like can be avoided, and the drainage smoothness and stability of the condensed water are improved.

Additionally, the utility model provides an among the chassis structure, optionally, the motor district of fetching water is provided with the district strengthening rib of fetching water. Under the condition, the mechanical property of the water beating motor area can be improved through the arrangement of the reinforcing ribs of the water beating area, so that the use stability of the chassis structure and the air conditioner thereof is improved, the service life of the chassis structure is prolonged, and the like; and, the setting of district's strengthening rib of fetching water 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.

Additionally, in the chassis structure provided by the utility model, optionally, it is more than one to beat the reinforcing rib of water district. From this, can set up the drainage district strengthening rib of different quantity according to the difference of the quantity in water guide district to promote chassis structure's overall stability.

Additionally, the utility model provides an in the chassis structure, optionally, the district strengthening rib of fetching water sets up along the fore-and-aft direction. Under the condition, the water fetching area reinforcing ribs can be arranged on the water guide bottom surface and connected with the side plates of the water fetching motor area, so that the mechanical property of the water guide bottom surface can be improved, and the overall stability of the water fetching motor area is further enhanced.

Furthermore, the utility model provides an in the chassis structure, optionally, the district strengthening rib of fetching water sets up towards the direction of water drainage district. Under this condition, can further guide the comdenstion water in the motor district of fetching water to the direction flow of water drainage zone, promote chassis structure drainage efficiency and the thoroughness of drainage.

In addition, in the chassis structure provided by the present invention, optionally, the connection channel further includes a transition side wall adapted to make a width of an inlet in the connection channel in the water flow direction larger than a width of an outlet. Under this condition, can carry out effectual aggregation action to the comdenstion water of beating in the water motor district to at the inside effort that assembles that forms of comdenstion water, with the speed of its inflow water drainage district of accelerating, promote the drainage efficiency of chassis structure.

Additionally, in the chassis structure provided by the present invention, optionally, the transition side wall includes a multi-section transition surface, the transition side wall is adapted to make the width of the connection passage gradually decrease along the water flow direction. Under general conditions, the comdenstion water assembles through the linking channel and flows into the drain region, can take place the change of rivers direction at the linking channel, consequently, sets up the transition lateral wall of linking channel into the transition cambered surface, can make the comdenstion water turn to gradually through the setting of multistage transition face, plays the effect that the multistage is slowly flowed.

Furthermore, in the chassis structure provided by the utility model, optionally, the drainage zone still includes: the water guide device comprises a water guide area, a transition area and a drain pipe, wherein the water guide area is communicated with the transition area, and the drain pipe is communicated with the transition area. Under this condition, through structural the drain pipe that sets up in the chassis, when being applied to the air conditioner with the chassis structure, more do benefit to the comdenstion water that collects and discharge the air conditioner operation in-process and produce, and, through set up the transition district that is linked together with the drain pipe in the drainage district, make the comdenstion water of drawing forth from the water guide district can flow through this transition district earlier, again from the transition district through the drain pipe discharge, therefore, can optimize the circulation route of comdenstion water, it is more smooth and easy to promote drainage efficiency messenger's drainage, simultaneously can also make the drainage more thorough.

Furthermore, in the chassis structure provided by the utility model, optionally, the electric machine district of fetching water only with the water drainage district is linked together. Resulting in the repeated circulation of the condensed water, resulting in incomplete drainage and direct drainage of the water from the air conditioner through the drainage area.

An aspect of the utility model provides an air conditioner, it includes: the chassis structure as described above.

The utility model discloses an in the on hand, through set up interface channel between the motor district of fetching water and the water drainage district at the chassis structure, the discharge of the interior condensate water of motor district is fetched water in realization that can be more convenient promotes the drainage efficiency of base, prevents effectively that the comdenstion water from gathering and spilling over the emergence of the condition of base in the motor district of fetching water, promotes the thoroughness of base drainage to promote the performance of air conditioner.

Additionally, in the air conditioner provided by the utility model, optionally, still include: the water fetching mechanism is suitable for fetching water in the water fetching tank onto the condenser, and the water fetching motor area is suitable for collecting water on the water fetching mechanism. In this case, the pumping mechanism consumes the condensed water by pumping water onto the condenser, and the pumping motor region collects the condensed water introduced through the pumping mechanism. Through the cooperation in the motor district of fetching water, collection comdenstion water that can be more comprehensive to discharge through the water drainage district, promote the practicality of air conditioner.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is a schematic partial configuration diagram of an air conditioner according to an embodiment of the present invention;

FIG. 2 is the drawing I in FIG. 1₁A partial enlargement of (a);

fig. 3 is a schematic structural view of a water-fetching motor area of a chassis structure according to an embodiment of the present invention;

fig. 4 is a cross-sectional view of a drain pipe according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a connection passage of a chassis structure according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a drain region of a chassis structure according to an embodiment of the present invention.

Description of reference numerals:

1-chassis structure, 2-water fetching structure, 400-water discharging area, 411-water guiding area, 412-transition area, 413-water discharging area reinforcing rib, 420-water discharging pipe, 600-water fetching motor area, 610-connecting channel, 613-transition side wall, 6131-first transition surface, 6132-second transition surface, 6133-third transition surface, 620-water guiding bottom surface, 630-water fetching area reinforcing rib and 700-water fetching groove.

Detailed Description

In the present invention, the embodiments and the features of the embodiments may be combined with each other without conflict.

In addition, all directions or positional relationships mentioned in the embodiments of the present invention are positional relationships based on the drawings, and the "up, down, left, right, front, and back" coordinate system appearing in the drawings is only for the convenience of understanding the simplified description of the present invention, and does not imply that a specific orientation that a device or element referred to must have is not to be construed as limiting the present invention.

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

Fig. 1 is a schematic partial configuration diagram of an air conditioner according to an embodiment of the present invention; FIG. 2 is the drawing I in FIG. 1₁A partial enlargement of (c).

Fig. 1 and 2 schematically show the configuration of the air conditioner according to the present embodiment, and the description of other configurations of the air conditioner will be omitted in the following description. As shown in fig. 1 and 2, the air conditioner according to the present embodiment may include a base plate structure 1, a water supply mechanism 2, a water supply tank 700, and a condenser (not shown). In some examples, the water fetching mechanism 2 includes a water fetching motor (not shown) and a water fetching wheel (not shown), the water fetching wheel is located in the water fetching groove 700, the water fetching wheel is connected with a motor rotating shaft, the water fetching motor area 600 is suitable for collecting water on the motor rotating shaft, and the water fetching mechanism 2 is suitable for fetching water in the water fetching groove 700 to a condenser. In this case, the pumping mechanism consumes the condensed water by pumping water onto the condenser, and the pumping motor region collects the condensed water introduced through the pumping mechanism. Through the cooperation in the motor district of fetching water, collection comdenstion water that can be more comprehensive to discharge through the water drainage district, promote the practicality of air conditioner.

In the present embodiment, as shown in fig. 2, the chassis structure 1 may include a water hammering motor region 600, a connection passage 610, and a drain region 400. In some examples, the sump motor section 600 may be in communication with the drain section 400 via a connecting passage 610 adapted to direct water from the sump motor section 600 to the drain section 400. It should be noted that the water-fetching motor area 600 is only communicated with the water-draining area 400, so that the connection between the water-fetching motor area 600 and the main water-collecting area is avoided, the condensed water is repeatedly circulated, the water is not completely drained, and the water is directly drained out of the air conditioner through the water-draining area 400.

In this embodiment, through set up interface channel between the motor district of fetching water and the water drainage district, the discharge of the interior condensate water of motor district of fetching water can be more convenient realization, promotes the drainage efficiency of base, prevents effectively that the condensate water from fetching water the motor district accumulation and overflowing the emergence of the condition of base, promotes the thoroughness of base drainage to promote the performance of the air conditioner of using this base.

In the present embodiment, as shown in fig. 3 and 4, the water striking motor region 600 may include a water guide bottom surface 620. In some examples, when the chassis structure is horizontally placed, the height of the side of the water guide bottom surface 620 distant from the drain region 400 may be higher than the height of the side of the water guide bottom surface 620 near the drain region 400 in the left-right direction. Under the condition, the height difference of the left side and the right side of the water guide bottom surface can enable the water beating motor area to be in an inclined state, so that condensed water in the water beating motor area flows to the lower side, namely flows to the direction of the water drainage area, therefore, the water beating motor area is more beneficial to discharging water in the water beating motor area, the discharging efficiency of the water beating motor area is improved, and meanwhile, the discharging thoroughness of the condensed water in the water beating motor area is ensured.

In the present embodiment, the angle between the water guide bottom surface 620 and the horizontal plane may be ξ, which is not particularly limited in magnitude. In some examples, xi can range in value from 2 ≦ xi ≦ 10. In other examples, xi may also take on a value of 2 ≦ xi ≦ 5. Here, the angle between the water guide bottom surface 620 and the horizontal plane is ξ, which means that when the chassis structure is placed horizontally, the angle between the water guide bottom surface 620 and the horizontal plane is ξ. Under normal conditions, when the included angle is too large, namely the inclination angle is too large, the water flow speed is too large, the conditions of splashing and the like are easy to occur in the outflow process of condensed water, and the overall performance of the base and the air conditioner thereof is affected; when the included angle is too small, namely the inclination angle is too small, the water flow speed is too small, so that the drainage efficiency of condensed water is influenced. Therefore, the included angle between the water guide bottom surface and the horizontal plane is set within a certain range, so that the drainage efficiency of the condensed water can be ensured, the situations of the condensed water splashing and the like can be avoided, and the drainage smoothness and stability of the condensed water are improved.

In this embodiment, the pumping motor zone 600 may be provided with a pumping zone reinforcing rib 630. Under the condition, the mechanical property of the water beating motor area can be improved through the arrangement of the reinforcing ribs of the water beating area, so that the use stability of the chassis structure and the air conditioner thereof is improved, the service life of the chassis structure is prolonged, and the like; and, the setting of district's strengthening rib of fetching water 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 the present embodiment, the number of the striking zone ribs 630 is not particularly limited. In some examples, the number of the water striking zone reinforcing ribs 630 may be more than one, such as two, three, or four, etc. From this, can set up the drainage district strengthening rib of different quantity according to the difference of the quantity in water guide district to promote chassis structure's overall stability.

In the present embodiment, the arrangement direction of the water hitting region beads 630 is not particularly limited. In some examples, the striking zone ribs 630 may be arranged in a front-to-rear direction. Here, the front-rear direction refers to a front-rear direction when the chassis structure is horizontally placed, i.e., a coordinate direction in fig. 1. It should be noted that the water fetching region reinforcing ribs are arranged on the water guide bottom surface 620 and connected with the side plates of the water fetching motor region, so that the mechanical property of the water guide bottom surface can be improved, and the overall stability of the water fetching motor region is further enhanced. In the present embodiment, the water hitting region rib 630 may be provided in the front-rear direction in order to face the water hitting region rib 630 toward the side wall of the water hitting motor region that communicates with the drain region 400. The pumping region reinforcing rib 630 may be directly provided toward the drain region 400. Here, the arrangement in the direction toward the drain means that the water hitting region bead 630 is inclined in the direction toward the drain. Under this condition, can further guide the comdenstion water in the motor district of fetching water to the direction flow of water drainage zone, promote chassis structure drainage efficiency and the thoroughness of drainage.

Fig. 5 is a schematic structural view of a connection passage of the chassis structure according to the embodiment of the present invention.

In this embodiment, the connecting channel 610 further includes a transition side wall 613 adapted to be along the water flow direction, and the width of the inlet of the connecting channel 610 and the width of the outlet of the connecting channel 610 are not particularly limited. The width here refers to the distance between the two transition side walls 613 of the connecting channel 610. In some examples, as shown in fig. 5, the width of the inlet of the connecting channel 610 may be greater than the width of the outlet of the connecting channel 610. In some examples, the transition sidewall 613 is adapted to gradually decrease the width of the connection channel 610 in the direction of water flow. Under this condition, can carry out effectual aggregation action to the comdenstion water of beating in the water motor district to at the inside effort that assembles that forms of comdenstion water, with the speed of its inflow water drainage district of accelerating, promote the drainage efficiency of chassis structure.

In this embodiment, the transitional side wall 613 includes a plurality of sections of transitional surfaces, where the number of the transitional surfaces may be two or more, in this embodiment, the transitional side wall 613 includes a first transitional surface 6131, a second transitional surface 6132, and a third transitional surface 6133, and the first transitional surface 6131, the second transitional surface 6132, and the third transitional surface 6133 are sequentially connected along the water flow direction. Here, the first transition surface 6131 and the second transition surface 6132 are provided as arc surfaces, and the third transition surface 6133 is provided as an inclined surface. Under general conditions, water gathers through the linking channel and flows into the water drainage district, can take place the change of rivers direction at the linking channel, consequently, sets up the transition lateral wall of linking channel into the transition cambered surface, can make the comdenstion water turn to gradually through the setting of multistage transition face, plays the effect that the multistage is slowly flowed.

Fig. 6 is a schematic structural view of a drain region of a chassis structure according to an embodiment of the present invention.

In the present embodiment, as shown in fig. 6, the drain region 400 may include: a water guide region 411, a transition region 412 communicating with the water guide region 411, and a drain pipe 420 communicating with the transition region 412. In some examples, through set up the drain pipe on the chassis structure in this case, when being applied to the air conditioner with the chassis structure, more do benefit to and collect and discharge the comdenstion water that the air conditioner operation in-process produced, and, through set up the transition district that is linked together with the drain pipe at the drainage district, make the comdenstion water of drawing forth from the water guide district can flow through this transition district earlier, discharge through the drain pipe from the transition district again, therefore, can optimize the circulation route of comdenstion water, it is more smooth and easy to promote drainage efficiency messenger's drainage, can also make the drainage more thorough simultaneously.

Further, in the present embodiment, the shape structure of the transition region 412 is not particularly limited. In some examples, the transition region 412 may be a transition arc, such as a circular arc transition region. In other examples, the transition region 412 may be a fifth circle. Under this condition, can be more convenient realization transition district and be connected between the drain pipe, promote the smooth and easy nature of being connected between transition district and the drain pipe to further promote the smooth and easy nature of drainage, more do benefit to and improve drainage efficiency, ensure the thoroughness of drainage, prevent that ponding from remaining in chassis structure and influencing air conditioner's wholeness ability etc..

In addition, in the present embodiment, the manner of manufacturing the transition region 412 is not particularly limited. In some examples, the transition region 412 may be injection molded via a mold. In other examples, the transition area 412 may be integrally formed with the drain pipe 420 and the water guide area 411 through a mold. Under the condition, through injection molding or integrated molding of the mold, sundries such as flash or burr and the like which possibly block the drain pipe are not easily formed in the transition area, so that the drainage efficiency of the condensed water is further improved, and the drainage thoroughness of the condensed water is further ensured.

Further, in the present embodiment, the drain 400 may further include a drain rib 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. Under the condition, 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 structure and the air conditioner thereof is improved, the service life of the chassis structure 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, in the present embodiment, the number of the drain reinforcing ribs 413 is not particularly limited. In some examples, the number of drain reinforcing ribs 413 may be more than one, such as two, four, or five, etc. From this, can set up the drainage district strengthening rib of different quantity according to the difference of the quantity in water guide district to promote chassis structure's overall stability.

Further, in the present embodiment, the height of the pumping motor section 600 may be greater than the height of the drain section 400. Here, the height refers to a height difference between the pumping motor area 600 or the drainage area 400 and the lying plane when the chassis structure is horizontally placed. Under this condition, make the motor district of fetching water be higher than the water drainage district, can further improve the drainage efficiency of chassis structure to do benefit to and thoroughly discharge the comdenstion water in the motor district of fetching water, thereby promote the performance of air conditioner.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalents, improvements and the like made by those skilled in the art within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An air conditioner base plate structure, comprising: the water fetching motor comprises a water fetching motor area (600), a connecting channel (610) and a water draining area (400), wherein the water fetching motor area (600) is communicated with the water draining area (400) through the connecting channel (610) and is suitable for leading water of the water fetching motor area (600) into the water draining area (400).

2. The air conditioner base pan structure of claim 1, wherein the water pumping motor area (600) includes a water guide bottom surface (620), and a height of a side of the water guide bottom surface (620) far from the drain area (400) is higher than a height of a side of the water guide bottom surface (620) close to the drain area (400) in a left-right direction when the base pan structure is horizontally placed.

3. The air conditioner base plate structure as claimed in claim 2, wherein the angle between the water guiding bottom surface (620) and the horizontal plane is xi, wherein xi is 2 ° ≦ 10 °.

4. The air conditioner base pan structure according to claim 1, wherein the water hammering motor region (600) is provided with at least one water hammering region reinforcing rib (630).

5. The air conditioner base pan structure according to claim 4, wherein the water hitting region reinforcing ribs (630) are provided in a front-rear direction.

6. The air conditioner base pan structure according to claim 1, wherein the connection passage (610) further includes a transition sidewall (613) adapted to make a width of an inlet in a water flow direction in the connection passage (610) larger than a width of an outlet.

7. The air conditioner base pan structure of claim 6, wherein the transition sidewall (613) includes a multi-segment transition surface.

8. The air conditioner base pan structure according to claim 1, wherein the water motor region (600) communicates only with the drain region (400).

9. An air conditioner characterized by comprising the air conditioner base pan structure as claimed in any one of claims 1 to 8.

10. The air conditioner according to claim 9, further comprising: the water fetching device comprises a water fetching mechanism (2), a water fetching groove (700) and a condenser, wherein the water fetching mechanism (2) is suitable for fetching water in the water fetching groove (700) onto the condenser, and a water fetching motor area (600) is suitable for collecting water on the water fetching mechanism (2).

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