CN109974276A - A kind of air conditioner chassis and air conditioner - Google Patents

Abstract

The present invention provides a kind of air conditioner chassis and air conditioners, the air conditioner chassis is for installing heat exchanger, and the chassis is equipped with storage area, the storage area is located at the side of the heat exchanger in the assembled condition, and the storage area was equipped with water notch and wind shielding structure close to the side of the heat exchanger, the wind shielding structure is suitable for that the air from the heat exchanger orientation is hindered to enter the storage area from the water indentation, there of crossing in the assembled condition.On the one hand air conditioner chassis of the present invention strengthens the structural strength of storage area by the way that wind shielding structure is arranged in storage area, can provide support force to heat exchanger in the assembled condition；On the other hand, the air in heat exchanger can also be hindered to enter storage area from water indentation, there is crossed, to play leakproof wind action, improve the working efficiency of heat exchanger.

Description

A kind of air conditioner chassis and air conditioner

Technical field

The present invention relates to air-conditioning technical fields, in particular to a kind of air conditioner chassis and air conditioner.

Background technique

With the continuous improvement of people's living standards, very extensive application has been obtained in air conditioner.

Existing air conditioner includes the components such as chassis and heat exchanger, and heat exchanger is mounted on chassis, and heat exchanger on chassis Installed position is equipped with main catch basin and side catch basin, and during the work time, heat exchanger can generate a large amount of condensed water to air conditioner, These condensing drips are fallen in the main catch basin and side catch basin on chassis, and side catch basin was equipped with the mouth of a river, and condensed water is from side The mouth of a river of crossing of catch basin flow to main catch basin.And in existing air conditioner, the air in heat exchanger is easy the mistake from side catch basin Approaching side catch basin at the mouth of a river causes the part of heat exchanger to enter the wind and is lost, influences the heat exchange efficiency of heat exchanger.

It can be seen that researching and developing a kind of air conditioner chassis that can effectively solve the above problem is that current technology urgently to be solved is asked Topic.

Summary of the invention

Problems solved by the invention is the easy side catch basin from chassis of air in existing air conditioner, in heat exchanger It crosses at the mouth of a river and is lost, influence the heat exchange efficiency of heat exchanger.

To solve the above problems, the present invention provides a kind of air conditioner chassis, for installing heat exchanger, the chassis is equipped with Storage area, the storage area is located at the side of the heat exchanger in the assembled condition, and the storage area is close to the heat exchanger Side be equipped with water notch and wind shielding structure, the wind shielding structure is suitable for hindering to come from the heat exchanger side in the assembled condition To air from it is described cross water indentation, there enter the storage area.

In this way, on the one hand the setting of wind shielding structure strengthens the structural strength of storage area, can be changed in the assembled condition Hot device provides support force；On the other hand, the air in heat exchanger can also be hindered to enter storage area from water indentation, there is crossed, to rise To leakproof wind action, the working efficiency of heat exchanger is improved.

Optionally, the wind shielding structure includes that first gusset and second that keeps out the wind keeps out the wind gusset, described first keep out the wind gusset and Described second keep out the wind gusset it is described cross water notch institute in the plane projection covering it is described excessively water notch.

In this way, can all be blown on wind shielding structure when the air in heat exchanger is blown into storage area by crossing water notch, and First keep out the wind gusset and second keep out the wind gusset blocking under largely flow back in main gathering ground, to reduce the leakage of heat exchanger Wind.

Optionally, the wind shielding structure further includes that third is kept out the wind gusset, and described first gusset and described second that keeps out the wind keeps out the wind Gusset keeps out the wind with the third link of boards, and is located at the third and keeps out the wind the two sides of gusset；The third wind screen rib One end of plate extends to the water indentation, there excessively, and the water notch of crossing is divided into two parts.

In this way, third is kept out the wind, gusset is divided into two water notch is crossed, so that the air-flow for flowing into storage area by crossing water notch exists It crosses water indentation, there and realizes shunting, reduce the flow velocity of air-flow, and according to bernoulli principle, pressure will when the flow velocity of air-flow reduces Increase, resistance is bigger when air-flow is flowed to storage area, further reduces leaking out for heat exchanger；Meanwhile the fish of wind shielding structure Bone formula structure, it is ensured that chassis is not allowed to be also easy to produce shrink in injection molding, at storage area, improves the manufacture matter on chassis Amount.

Optionally, described first keep out the wind gusset, described second keep out the wind gusset and the third keeps out the wind gusset in plshy bone open point Cloth.

In this manner it is ensured that chassis is not allowed to be also easy to produce shrink in injection molding, at storage area, the manufacture on chassis is improved Quality.

Optionally, the storage area has the first side wall, the V-shaped structure of the first side wall, institute in its longitudinal direction Side of the opening of v-shaped structure towards the storage area far from the heat exchanger is stated, the water notch of crossing is set to the v-shaped structure Top, suitable for guidance condensed water along the first side wall flow to it is described cross water notch.

In this way, the condensed water for dropping onto storage area can be along the first side wall to the flowing of water indentation, there is crossed, so that the first side wall With guide functions, condensed water is prevented to be detained in storage area, to improve the drainage effect on chassis.

Optionally, the v-shaped structure of the first side wall is respectively provided with the first side in the front-end and back-end for crossing water notch Side and second side, the first side relative to the inclination angle alpha 1 on front-rear direction between 5 ° -10 °, and/or, institute Second side is stated relative to the inclination angle alpha 2 on front-rear direction between 5 ° -10 °.

In this angular range, the comprehensive performance of the storage capacity of storage area, diversion effect etc. is preferable, Neng Goubao Storage area is demonstrate,proved in the case where not influencing chassis other structures, not only there is enough water storage areas, prevents air conditioner leakage The phenomenon that water, it is ensured that the first side wall has guide functions, and drainage effect is good.

Optionally, described first gusset is kept out the wind and described second gusset that keeps out the wind is obliquely installed, and described first keeps out the wind gusset With described second keep out the wind gusset free end close to the first side wall, be suitable for guidance condensation flow to the first side wall.

This way it is possible to avoid condensed water by first keep out the wind gusset and second keep out the wind gusset be blocked in far from cross water notch one Side, so that dropping onto, condensed water in storage area keeps out the wind gusset along first and second gusset that keeps out the wind flows to the first side wall, then Water indentation, there was flowed to along the first side wall, diversion effect is more preferable, improves the drainage effect of storage area.

Optionally, described first keep out the wind gusset relative to the inclination angle alpha 3 on front-rear direction between 15 ° -30 °, And/or described second keep out the wind gusset relative to the inclination angle alpha 4 on front-rear direction between 15 ° -30 °.

In this way, in this angular range, both ensure that first keep out the wind gusset and/or second keep out the wind gusset have it is certain Guide functions, in turn ensure condensed water can swimmingly from first keep out the wind gusset and/or second keep out the wind gusset free end and the It was flow to water notch at the mistake water area formed between one side wall, drainage effect is more preferable.

Optionally, the third keep out the wind gusset one end extend to it is described cross water indentation, there, the third is kept out the wind gusset The other end extends to side of the storage area far from the heat exchanger, and the storage area is divided into the first water storage tank and The one of gusset is kept out the wind far from the third on the bottom surface of two water storage tanks, the bottom surface of first water storage tank and second water storage tank Side is higher than the side of link of boards of keeping out the wind with the third, keeps out the wind gusset suitable for guidance condensation flow to the third.

In this way, increase condensed water in the first water storage tank and the second water storage tank to third keep out the wind gusset flow speed, Enable condensed water that storage area is quickly discharged, and condensed water is also discharged cleaner, prevents condensed water in the first storage It is detained in sink and the second water storage tank, forms ponding, further improve the drainage efficiency and drainage effect of storage area.

Optionally, the angle α 5 between the bottom surface and horizontal plane of first water storage tank is between 2 ° -5 °, and/or, institute The angle α 6 between the bottom surface and horizontal plane of the second water storage tank is stated between 2 ° -5 °.

In this way, can not only guarantee the bottom surface of the first water storage tank and the bottom surface of the second water storage tank in this angular range With preferable diversion effect, can also ensure has enough height between the bottom surface of storage area and ground, so that air conditioner It being capable of smooth movement and carrying.

Optionally, far from the water notch of crossing on the bottom surface of first water storage tank and the bottom surface of second water storage tank Side is higher than the side crossed where water notch, is suitable for guidance condensation flow to described and crosses water notch.

In this way, increase flowing velocity of the condensed water in the first water storage tank and the second water storage tank, enable condensed water Storage area is quickly discharged, and condensed water is also discharged cleaner, prevents condensed water in the first water storage tank and the second water storage It is detained in slot, forms ponding, corrodes chassis, not only further improve the drainage efficiency and drainage effect of storage area, also improve The quality on chassis, extends the service life on chassis.

Optionally, the bottom surface of first water storage tank is formed by intersection with intersecting perpendicular to plane in the front-back direction, phase For the tilt angle on left and right directions between 2 ° -5 °, and/or, the bottom surface of second water storage tank with perpendicular to front and back The plane intersection in direction is formed by intersection, relative to the tilt angle on left and right directions between 2 ° -5 °.

In this angular range, can not only guarantee the first water storage tank bottom surface and the second water storage tank bottom surface have compared with Good diversion effect, can also ensure has enough height between the bottom surface of storage area and ground, enables air conditioner suitable Smooth mobile and carrying.

Optionally, the storage area has second sidewall in its longitudinal direction, and the second sidewall, which is equipped with, reinforces knot Structure.

In this way, the structural strength on storage area at second sidewall can be enhanced, so that the intensity on chassis is improved, so that In transportational process or in air conditioner work, the storage area on chassis is vibrated impact or is also less likely to occur shape when hitting Become, and then improves the use quality on chassis.

Optionally, the reinforcement structure is provided with multiple, and the equidistantly distributed in the second sidewall.

In this way, by the structural strength for further enhancing second sidewall, the intensity and quality of the chassis Lai Tigao left side wall are prolonged The service life on long chassis.

To solve the above problems, the present invention also provides a kind of air conditioner, including any of the above-described air conditioner chassis.

Possessed advantage is identical compared with the existing technology with above-mentioned air conditioner chassis for the air conditioner, no longer superfluous herein It states.

Detailed description of the invention

Fig. 1 is the structural schematic diagram on chassis in the embodiment of the present invention；

Fig. 2 is partial enlarged view at A in Fig. 1；

Fig. 3 is heat exchanger and the cross section structure schematic diagram of chassis in the mounted state in the embodiment of the present invention；

Fig. 4 is heat exchanger and the top view of chassis in the mounted state in Fig. 3；

Fig. 5 is the top view on chassis in the embodiment of the present invention；

Fig. 6 is structural schematic diagram of the chassis at storage area in the embodiment of the present invention；

Fig. 7 is partial enlarged view at B in Fig. 6；

Fig. 8 is the cross section structure schematic diagram of storage area in the embodiment of the present invention；

Fig. 9 is the front view on chassis in the embodiment of the present invention；

Figure 10 is partial enlarged view at C in Fig. 9；

Figure 11 is the structural schematic diagram when bottom surface of storage area in the embodiment of the present invention is tilted by left side towards right side.

Description of symbols:

10- heat exchanger, 11- bracket, the main gathering ground 100-, the storage area 200-, 210- wind shielding structure, the first wind screen rib of 211- Plate, 212- second keep out the wind gusset, and 213- third is kept out the wind gusset, 220- the first side wall, and 221- crosses water notch, the first notch of 2211-, The second notch of 2212-, the first side 222-, the second side 223-, 230- second sidewall, 231- reinforcement structure, 240- first are stored up Sink, the second water storage tank of 250-.

Specific embodiment

To make the above purposes, features and advantages of the invention more obvious and understandable, with reference to the accompanying drawing to the present invention Specific embodiment be described in detail.

In the description of the present invention, it should be noted that the instruction such as term " on ", "lower", "left", "right", "high", " low " Direction or positional relationship be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the present invention and simplification retouch It states, rather than the device of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, therefore not It can be interpreted as limitation of the present invention.

In the prior art, the installed position of heat exchanger is equipped with main catch basin and side catch basin on chassis, in the catch basin of side It is not provided with the structure for stopping the air inlet side catch basin in heat exchanger, wherein main catch basin is equivalent in the present invention Main gathering ground 100, side catch basin is equivalent to the storage area 200 in the present invention.The present invention is storing up on the basis of existing technology Wind shielding structure 210 is set in pool 200, and the structure of storage area 200 is improved.

In conjunction with shown in Fig. 1 to Fig. 4, the present embodiment provides a kind of air conditioner chassis to set on chassis for installing heat exchanger 10 There is storage area 200, storage area 200 is located at the side of heat exchanger 10 in the assembled condition, and storage area 200 is close to heat exchanger 10 Side was equipped with water notch 221 and wind shielding structure 210, and wind shielding structure 210 is suitable for hindering to come from heat exchanger 10 in the assembled condition The air in direction enters storage area 200 from crossing water notch 221.

Chassis is equipped with main gathering ground 100 and storage area 200, and water notch 221 is being crossed in main gathering ground 100 and storage area 200 Close cross at water notch 221 is arranged in storage area 200 in place's connection, wind shielding structure 210.When heat exchanger 10 is assembled on chassis When, main gathering ground 100 is located at the lower section of heat exchanger 10, and storage area 200 is located at the left side of heat exchanger 10, and wind shielding structure 210 with The bracket 11 in the left side of heat exchanger 10 is against enabling wind shielding structure 210 to provide support force to heat exchanger 10.Air conditioner is working When, heat exchanger 10 can generate a large amount of condensed water, these condensed waters largely drop onto main gathering ground 100 along heat exchanger 10, There are also sub-fractions to drop onto storage area 200 along the bracket 11 in 10 left side of heat exchanger, and the condensed water of this sub-fraction is received Collection flows into main gathering ground 100 in storage area 200, and from crossing water notch 221, then converges to the area of fetching water on chassis, quilt It is mounted on the motor impact atomization of fetching water fetched water in area, so that condensate evaporation be allowed to fall.In the prior art, it is blown into heat exchanger 10 Air circulated in the inside of heat exchanger 10, to carry out heat exchange, and in heat exchanger 10 carry out in recycle air It can be flowed in main gathering ground 100, but since main gathering ground 100 and storage area 200 are connected at mistake water notch 221, The air that main gathering ground 100 is flowed can flow into storage area 200 from water notch 221 is crossed, since main gathering ground 100 is located at storage area 200 right side, while it being also located at the lower section of heat exchanger 10, therefore be the equal of from the air that main gathering ground 100 flows into storage area 200 Air from 10 direction of heat exchanger.In the case where being not provided with wind shielding structure 210, the air in heat exchanger 10 is unimpeded From cross water notch 221 enter storage area 200, cause 10 region of heat exchanger to be leaked out, influence heat exchanger 10 heat exchange effect Rate.And wind shielding structure 210 is set in storage area 200 in the present embodiment, so that the air from 10 direction of heat exchanger, i.e., by leading Gathering ground 100 flowed to the air of water notch 221 under the obstruction of wind shielding structure 210, cannot smoothly flow into storage area 200, greatly Part can flow back in main gathering ground 100.

In this way, on the one hand the setting of wind shielding structure 210 strengthens the structural strength of storage area 200, it can be in assembled state Under give heat exchanger 10 provide support force；On the other hand, the air in heat exchanger 10 can also be hindered to enter from water notch 221 excessively Storage area 200 improves the working efficiency of heat exchanger 10 to play leakproof wind action.

Optionally, referring to figs. 1 and 2, wind shielding structure 210 includes that first gusset 211 and second that keeps out the wind keeps out the wind gusset 212, first keep out the wind gusset 211 and second keep out the wind gusset 212 cross water notch 221 projection in the plane covered water notch 221。

Wind shielding structure 210 includes two wind deflectors, is respectively that first gusset 211 and second that keeps out the wind keeps out the wind gusset 212, and the One keep out the wind gusset 211 and second keep out the wind gusset 212 height be higher than the height of water notch 221.First keeps out the wind gusset 211 and Two gussets 212 that keep out the wind can be connected with each other in end, i.e., the first rear end of gusset 211 and second of keeping out the wind is kept out the wind before gusset 212 End is connected；Can also be interlaced in end, i.e., when first keep out the wind gusset 211 and second keep out the wind gusset 212 be connected with each other when, the One keep out the wind gusset 211 rear end with second keep out the wind gusset 212 front end there are Chong Die, keep out the wind gusset 211 and second gear when first When wind gusset 212 is not attached to, first keep out the wind gusset 211 rear end and front end phase in the longitudinal direction that second keeps out the wind gusset 212 Mutually dislocation.It crosses water notch 221 to have in the longitudinal direction there are two side, in order to make it easy to understand, being referred to as front side edge and rear side Side, and cross the front side edge of water notch 221 and back side edge and can constitute a plane, the plane were flat where water notch 221 Face.That is, first keep out the wind gusset 211 cross water notch 221 in the plane be projected as the first projection, the second wind screen rib Plate 212 cross the institute of water notch 221 in the plane be projected as the second projection, the first projection and second projects and can intersect, can also To be connected in the edge of projection.First keeps out the wind gusset 211 and second gusset 212 that keeps out the wind is crossing the institute of water notch 221 in the plane Projection be the first projection with the second projection the sum of area, and the sum of the area of the first projection and the second projection was greater than water The area of notch 221 can will cross water notch 221 and be completely covered.Wherein, it should be noted that in the first projection and the second projection When intersection, after the first projected area adds the second projected area, then the area of the first projection and the second projection intersection is subtracted, Last obtained projected area is the sum of the area of the first projection with the second projection.

In this way, can all blow to the knot that keeps out the wind when the air in heat exchanger 10 is blown into storage area 200 by crossing water notch 221 On structure 210, and first keep out the wind gusset 211 and second keep out the wind gusset 212 blocking under largely flow back to main gathering ground 100 It is interior, to reduce leaking out for heat exchanger 10.

Optionally, as shown in connection with fig. 7, wind shielding structure 210 further includes that third is kept out the wind gusset 213, and first keeps out the wind 211 He of gusset Second gusset 213 that keeps out the wind with third of gusset 212 that keeps out the wind is connect, and is located at third and is kept out the wind the two sides of gusset 213；Third gear One end of wind gusset 213 extended at water notch 221, and was divided into two parts for water notch 221 is crossed.

The third gusset 213 that keeps out the wind is arranged in left-right direction in storage area 200, and third is kept out the wind the right end position of gusset 213 In crossing at water notch 221, water notch 221 will be crossed and be divided into two notches, i.e. the first notch 2211 and the second notch 2212.First Keep out the wind gusset 211 and second keep out the wind gusset 212 be located at third keep out the wind gusset 213 front side and rear side.First keeps out the wind gusset 211 front end be free end, not with other components formed connection relationship, first keep out the wind gusset 211 rear end and third wind screen rib Plate 213 is connected；Second keeps out the wind the front end of gusset 212 and the third gusset 213 that keeps out the wind is connected, second keep out the wind gusset 212 rear end be Free end does not form connection relationship with other components.

In this way, third is kept out the wind, gusset 213 is divided into two water notch 221 is crossed, so that flowing into storage area by crossing water notch 221 200 air-flow is crossing realization shunting at water notch 221, reduces the flow velocity of air-flow, and according to bernoulli principle, the flow velocity of air-flow Pressure just will increase when reduction, and resistance is bigger when air-flow is flowed to storage area 200, further reduce the leakage of heat exchanger 10 Wind.

Optionally, first keep out the wind gusset 211, second keep out the wind gusset 212 and the third gusset 213 that keeps out the wind is distributed in plshy bone open.

That is wind shielding structure 210 is in plshy bone open structure, wherein the third gusset 213 that keeps out the wind is constituted and the trunk of fish-bone Structure, first keep out the wind gusset 211, second keep out the wind gusset 212 constitute fish-bone trunk structure two sides collateral branch's structure.

The plshy bone open structure of wind shielding structure 210, it is ensured that chassis is not easy to produce in injection molding at storage area 200 It is raw to shrink, improve the manufacturing quality on chassis.

Optionally, the area equation of the first notch 2211 and the second notch 2212.

That is, third is kept out the wind, the end of gusset 213 was located at the middle position of water notch 221, by water notch 221 It is divided into two.

In this way, the air-flow of storage area 200 is flowed into after crossing the punishment stream of water notch 221 by crossing water notch 221, the first notch 2211 is identical with the pressure at the second notch 2212, also suitable to the obstruction effect of air-flow, and avoiding the occurrence of in two notches has one A obstruction to air-flow, to the obstruction of air-flow, causes the air-flow for blowing to water notch 221 most of much smaller than another indentation, there From hindering that small indentation, there to flow into storage area 200, to be further reduced leaking out for heat exchanger 10.

Optionally, as shown in connection with fig. 5, storage area 200 has the first side wall 220, the first side wall 220 in its longitudinal direction V-shaped structure, side of the opening of v-shaped structure towards storage area 200 far from heat exchanger 10 cross water notch 221 and are set to the V-arrangement The top of structure flowed to water notch 221 along the first side wall 220 suitable for guidance condensed water.

The size of storage area 200 in the longitudinal direction is greater than its size in the other direction, therefore the length of storage area 200 Direction is front-rear direction, and the first side wall 220 is arranged along the longitudinal direction on storage area 200, and crosses water notch 221 and be provided with the In one side wall 220.The V-shaped structure of the first side wall 220, and the top that water notch 221 is then provided with v-shaped structure is crossed, due to heat exchange Device 10 and main gathering ground 100 are located at the right side of storage area 200, and the first side wall 220 is proximate to the setting of heat exchanger 10, so the One side wall 220 is located at the left side of heat exchanger 10, that is to say, that and v-shaped structure is located at the left side of heat exchanger 10 and close heat exchanger 10, And dropping onto the condensed water in storage area 200 is that main gathering ground 100 is flowed to by storage area 200, therefore the V-arrangement knot of the first side wall 220 The opening of structure is towards left, top towards the right side.

In this way, drop onto storage area 200 condensed water can along the first side wall 220 to cross water notch 221 at flow so that The first side wall 220 has guide functions, prevents condensed water to be detained in storage area 200, to improve the drainage effect on chassis.

Optionally, as shown in connection with fig. 5, storage area 200 has second sidewall 230, second sidewall 230 in its longitudinal direction It is equipped with reinforcement structure 231.

That is, second sidewall 230 is arranged along the longitudinal direction on storage area 200.Whole storage area 200 is in be similar to The groove structure of rectangle all has side wall on the four direction of front, rear, left and right, and the first side wall 220 and second sidewall 230 are divided Not Gou Cheng storage area 200 be located at the two side walls on left and right directions, i.e., the first side wall 220 and second sidewall 230 are also storage respectively The left side wall and right side wall in pool 200.Reinforcement structure 231 is arranged in the second sidewall 230 of storage area 200, in the present embodiment, The left end on chassis is arranged in storage area 200, and the left side wall of storage area 200 is a part of the left side wall on chassis, so, reinforce knot Structure 231 also corresponds to be arranged on the left side wall on chassis.

In this way, the structural strength on storage area 200 at second sidewall 230 can be enhanced, so that the intensity on chassis is improved, So that the storage area 200 on chassis is vibrated impact or does not also allow when hitting during transportation or in air conditioner work Easily deformation occurs, and then improves the use quality on chassis.

Optionally, reinforcement structure 231 can be plate structure, be also possible to block structure, can also be strip structure etc. Other structures are not limited in detail in the present embodiment.

Optionally, reinforcement structure 231 is provided with multiple, and the equidistantly distributed in second sidewall 230.

Multiple reinforcement structures 231 are distributed in second sidewall 230 along the length direction of second sidewall 230, and two neighboring The distance between reinforcement structure 231 is equal.

In this way, by the structural strength for further enhancing second sidewall 230, the intensity and matter of the chassis Lai Tigao left side wall Amount, extends the service life on chassis.

Optionally, as shown in connection with fig. 6, the v-shaped structure of the first side wall 220 is distinguished in the front-end and back-end for crossing water notch 221 With first side 222 and second side 223, first side 222 relative to the inclination angle alpha 1 on front-rear direction between 5 °- Between 10 °, and/or, second side 223 is relative to the inclination angle alpha 2 on front-rear direction between 5 ° -10 °.

The first side wall 220 is crossed water notch 221 and is divided into two sections, and the first side wall 220 is perpendicular to left and right directions setting , therefore it is two lines section in Fig. 5 that the first side wall 220, which is embodied in, this two lines section respectively constitutes two sides of V-arrangement, wherein The line segment for being located at 221 front end of water notch constitutes the first side 222 of V-arrangement, and the line segment for being located at 221 rear end of water notch constitutes V The second side 223 of shape.First side 222 is first side 222 and front and back relative to the inclination angle alpha 1 on front-rear direction Angle between direction, second side 223 are second side 223 and front and back relative to the inclination angle alpha 2 on front-rear direction Angle between.When first side 222 and/or second side 223 too big relative to the tilt angle on front-rear direction, say The bright tilt angle for being crossed the first side wall 220 that water notch 221 is divided into two sections is also larger, since the structure on chassis itself limits System, when the tilt angle of the first side wall 220 is excessive, can impact other structures on chassis, or reduce storage area 200 Area, reduce the moisture storage capacity of storage area 200, cause the condensed water generated to occur condensed water when increasing and overflow chassis, cause sky The phenomenon that adjusting device leak.

α 1 and/or α 2 is arranged between 5 ° -10 ° the present embodiment, in this angular range, the water storage of storage area 200 The comprehensive performance of ability, diversion effect etc. is preferable, can guarantee storage area 200 the case where not influencing chassis other structures Under, not only there is enough water storage areas, the phenomenon that preventing air conditioner leak, it is ensured that the first side wall 220, which has, leads Stream effect, drainage effect are good.

Optionally, in conjunction with shown in Fig. 6 and Fig. 7, first keeps out the wind gusset 211 and second gusset 212 that keeps out the wind is obliquely installed, and One keep out the wind gusset 211 and second keep out the wind gusset 212 free end close to the first side wall 220, be suitable for guidance condensation flow to first Side wall 220.

That is, first keep out the wind gusset 211 and second keep out the wind gusset 212 free end be respectively facing positioned at water notch The first side wall 220 of 221 front-end and back-end tilts, that is, will be prolonged by the first side wall 220 that water notch 221 is divided into two sections excessively It extends to and intersects with the third gusset 213 that keeps out the wind, then direction from front to back, first, which keeps out the wind, gusset 211 and after extending and is located at third gear Minimum range between the first side wall 220 of 213 front end of wind gusset is gradually increased；Second keep out the wind gusset 212 and extend after and position In third keep out the wind 213 rear end of gusset the first side wall 220 between minimum range be gradually reduced.For coordinate system in figure, First keeps out the wind, and back sweep is arranged gusset 211 to the right, and second gusset 212 that keeps out the wind is obliquely installed to right front.

This way it is possible to avoid condensed water by first keep out the wind gusset 211 and second keep out the wind gusset 212 be blocked in far from cross water lack Mouthful 221 sides, so that dropping onto, condensed water in storage area 200 keeps out the wind gusset 211 along first and second gusset 212 that keeps out the wind flows It to the first side wall 220, was then flowed at water notch 221 along the first side wall 220, diversion effect is more preferable, improves storage area 200 drainage effect.

Optionally, as shown in connection with fig. 7, first keep out the wind gusset 211 relative to the inclination angle alpha 3 on front-rear direction between Between 15 ° -30 °, and/or, second keep out the wind gusset 212 relative to the inclination angle alpha 4 on front-rear direction between 15 ° -30 °.

Gusset 211 is kept out the wind and/or second gusset 212 that keeps out the wind is the uniform plate structure of thickness, therefore first gear due to first Wind gusset 211 is first to keep out the wind the side that gusset 211 is located on left and right directions relative to the inclination angle alpha 3 on front-rear direction Angle between front-rear direction；Second gusset 212 that keeps out the wind relative to the inclination angle alpha 4 on front-rear direction is second to keep out the wind Gusset 212 is located at the side on left and right directions and the angle between front-rear direction.And first keeps out the wind gusset 211 and/or second gear Wind gusset 212 is perpendicular to horizontal plane setting, wherein horizontal plane is also referred to as the plane perpendicular to up and down direction.Such as Fig. 7 institute Show, in the present embodiment with first keep out the wind gusset 211 and/or second keep out the wind gusset 212 left side and front-rear direction between folder Angle illustrates.First keep out the wind gusset 211 and/or second keep out the wind gusset 212 left side be embodied in figure be a line segment. First keep out the wind gusset 211 and second keep out the wind gusset 212 free end and the first side wall 220 between be respectively formed one cross water area.With First keeps out the wind gusset 211 relative to being illustrated for the tilt angle on front-rear direction.When first keep out the wind gusset 211 relative to On front-rear direction tilt angle setting it is too much when, first keep out the wind gusset 211 free end and the first side wall 220 between most Small distance with regard to smaller so that first keep out the wind gusset 211 free end and the first side wall 220 between the mistake water area that is formed get over It is small, the water discharge time of storage area 200 is extended, the drainage effect of storage area 200 is reduced；When first gusset 211 that keeps out the wind is opposite When the tilt angle on front-rear direction is arranged too small, first gusset 211 that keeps out the wind almost loses water guiding action, diversion effect It is poor.

α 3 and/or α 4 is arranged between 15 ° -30 ° the present embodiment.In this angular range, first gear both ensure that Wind gusset 211 and/or second gusset 212 is kept out the wind with certain guide functions, in turn ensure that condensed water can be swimmingly from the One keep out the wind gusset 211 and/or second keep out the wind gusset 212 free end and the first side wall 220 between flow at the mistake water area that is formed Move to water notch 221, drainage effect is more preferable.

Optionally, in conjunction with shown in Fig. 5 and Fig. 8, keep out the wind one end of gusset 213 of third was extended at water notch 221, third The other end of gusset 213 of keeping out the wind extends to side of the storage area 200 far from heat exchanger 10, and storage area 200 is divided into first Far from third gear on the bottom surface of water storage tank 240 and the second water storage tank 250, the bottom surface of the first water storage tank 240 and the second water storage tank 250 The side of wind gusset 213 is higher than keeps out the wind the side that gusset 213 connect with third, suitable for guiding condensation flow to keep out the wind gusset to third 213。

The third gusset 213 that keeps out the wind is arranged in left-right direction in storage area 200, since second sidewall 230 is storage area 200 Side far from heat exchanger 10, therefore third is kept out the wind, gusset 213 is extended in second sidewall 230 by crossing water notch 221, by water storage Area 200 is separated into two water storage tanks, respectively the first water storage tank 240 and the second water storage tank 250, and the first water storage tank 240 is located at the Three front ends for keeping out the wind gusset 213, the second water storage tank 250 are located at third and keep out the wind the rear end of gusset 213.And first water storage tank 240 It is higher than and keeps out the wind the side that gusset 213 connect with third far from the keep out the wind side of gusset 213 of third on bottom surface, the second water storage tank 250 Bottom surface on be higher than and keep out the wind the side that gusset 213 connect with third far from the keep out the wind side of gusset 213 of third, that is to say, that store up The entire bottom surface in pool 200 keeps out the wind to sink at gusset 213 in third, so that the cross section of the bottom surface of storage area 200 is V-shaped, V-type Top be water flowing when minimum point.By taking the bottom surface of the first water storage tank 240 as an example, for coordinate system in figure, the first storage The front end of the bottom surface of sink 240 is higher than rear end.Drop onto the condensed water difference on the first water storage tank 240 and the second water storage tank 250 Under the guide functions of the bottom surface of the bottom surface and the second water storage tank 250 of the first water storage tank 240 to third keep out the wind gusset 213 flow, Water notch 221 was flow to then along the third gusset 213 that keeps out the wind, and storage area 200 is discharged.

In this way, increase condensed water in the first water storage tank 240 and the second water storage tank 250 to third keep out the wind gusset 213 flow Dynamic speed enables condensed water that storage area 200 is quickly discharged, and condensed water is also discharged cleaner, prevents cold Condensate is detained in the first water storage tank 240 and the second water storage tank 250, is formed ponding, is further improved the draining of storage area 200 Efficiency and drainage effect.

Optionally, as shown in connection with fig. 8, the angle α 5 between the bottom surface and horizontal plane of the first water storage tank 240 between 2 ° -5 ° it Between, and/or, the angle α 6 between the bottom surface and horizontal plane of the second water storage tank 250 is between 2 ° -5 °.

Bottom surface and the horizontal plane of angle α 5 and the second water storage tank 250 between the bottom surface and horizontal plane of first water storage tank 240 Between angle α 6 embodies respectively is that the bottom surface of the first water storage tank 240 and the bottom surface of the second water storage tank 250 are kept out the wind towards third The inclined degree of gusset 213.By taking the angle α 5 between the bottom surface and horizontal plane of the first water storage tank 240 as an example, when α 5 is arranged too When big, the bottom surface of storage area 200 is kept out the wind in third just to sink deeper at gusset 213, so that being located at storage area 200 on chassis Bottom surface apart from the distance between ground just it is smaller, in mobile air-conditioner, chassis be easy is scraped with the barrier on bottom surface It rubs or interferes, influence the movement and carrying of air conditioner；When α 5 is arranged too small, the bottom surface of the first water storage tank 240 and the second storage The bottom surface of sink 250 is almost parallel to the ground, and condensed water flows slowly in storage area 200, and diversion effect is poor.

α 5 and/or α 6 are arranged between 2 ° -5 ° for this implementation, in this way, in this angular range, can not only guarantee the The bottom surface of one water storage tank 240 and the bottom surface of the second water storage tank 250 have preferable diversion effect, can also ensure storage area 200 Bottom surface and ground between there is enough height, enable the smooth movement of air conditioner and carrying.

Optionally, remote on the bottom surface of the bottom surface of the first water storage tank 240 and the second water storage tank 250 in conjunction with shown in Fig. 9 to Figure 11 It was higher than the side where water notch 221 from the side for crossing water notch 221, and was suitable for guidance condensation flow to crossing water notch 221.

That is, water notch 221 after third keeps out the wind and sinks at gusset 213, is also being crossed in the entire bottom surface of storage area 200 The side at place sinks again or the entire bottom surface of storage area 200 is in the case where third is kept out the wind and do not formed at gusset 213 It is heavy, and only the side where crossing water notch 221 forms.By taking the bottom surface of the first water storage tank 240 as an example, in conjunction with coordinate in figure For system, on the basis of the front end of the bottom surface of the first water storage tank 240 is higher than rear end and is arranged, by the bottom surface of the first water storage tank 240 Left side be arranged higher than right side, alternatively, the front-end and back-end of the bottom surface of the first water storage tank 240 are located at sustained height, and first stores up The left side of the bottom surface of sink 240 is higher than right side.Drop onto the condensed water difference on the first water storage tank 240 and the second water storage tank 250 Under the guide functions of the bottom surface of the bottom surface and the second water storage tank 250 of the first water storage tank 240 to third keep out the wind gusset 213 flow, Water notch 221 was flow to then along the third gusset 213 that keeps out the wind, and storage area 200 is discharged.

In this way, flowing velocity of the condensed water in the first water storage tank 240 and the second water storage tank 250 is increased, so that condensation Water energy is enough to be quickly discharged storage area 200, and condensed water is also discharged cleaner, prevents condensed water in the first water storage tank 240 and second are detained in water storage tank 250, form ponding, corrode chassis, not only further improve the draining effect of storage area 200 Rate and drainage effect also improve the quality on chassis, extend the service life on chassis.

Optionally, in conjunction with shown in Fig. 9 to Figure 11, the bottom surface of the first water storage tank 240 with perpendicular to plane phase in the front-back direction Friendship is formed by intersection, relative to the tilt angle on left and right directions between 2 ° -5 °, and/or, the second water storage tank 250 Bottom surface is formed by intersection with intersecting perpendicular to plane in the front-back direction, relative to the tilt angle on left and right directions between 2 °- Between 5 °.

By taking the bottom surface of the first water storage tank 240 as an example, the bottom surface of the first water storage tank 240 with perpendicular to plane phase in the front-back direction It is an oblique line section in Figure 11 that friendship, which is formed by intersection and is embodied in, and what the dotted line in Figure 11 referred to is left and right directions, and horizontal Perpendicular to the projection on front-rear direction, institute's shape is intersected with perpendicular to plane in the front-back direction in the bottom surface of the first water storage tank 240 in face At intersection, be to be formed by angle α 7 between the oblique line section and dotted line relative to the tilt angle on left and right directions.As α 7 When being arranged too much, side of the bottom surface of storage area 200 where crossing water notch 221 just sinks deeper, so that chassis is upper Bottom surface at storage area 200 is just smaller apart from the distance between ground, in mobile air-conditioner, chassis be easy on bottom surface Barrier occurs to scratch or interfere, and influences the movement and carrying of air conditioner；When α 7 is arranged too small, the first water storage tank 240 Bottom surface and the bottom surface of the second water storage tank 250 are almost parallel to the ground, and condensed water flows slowly in storage area 200, diversion effect Difference.

The bottom surface of first water storage tank 240 is formed by intersection with intersecting perpendicular to plane in the front-back direction by this implementation, phase For the tilt angle on left and right directions, and/or, the bottom surface of the second water storage tank 250 is intersected with perpendicular to plane in the front-back direction It is formed by intersection, is arranged between 2 ° -5 ° relative to the tilt angle on left and right directions, in this way, in this angular range, The bottom surface of the bottom surface and the second water storage tank 250 that can not only guarantee the first water storage tank 240 has preferable diversion effect, can be with Ensureing has enough height between the bottom surface and ground of storage area 200, enable the smooth movement of air conditioner and carrying.

The present embodiment also provides a kind of air conditioner, and to solve in existing air conditioner, the air in heat exchanger is easy the bottom of from It's the problem of being lost at the mouth of a river, influence the heat exchange efficiency of heat exchanger pasts the side catch basin of disk, which includes any of the above-described institute The air conditioner chassis stated.

Air conditioner in the present embodiment on the storage area 200 on chassis by being arranged water notch 221 and wind shielding structure 210, and allow wind shielding structure 210 in the assembled condition positioned at the left side of heat exchanger 10.In this way, on the one hand strengthening storage area 200 Structural strength, can in the assembled condition to heat exchanger 10 provide support force；On the other hand, it can also hinder in heat exchanger 10 Air from cross water notch 221 from enter storage area 200, to play leakproof wind action, improve the work of heat exchanger 10 Efficiency.

Although present disclosure is as above, present invention is not limited to this.Anyone skilled in the art are not departing from this It in the spirit and scope of invention, can make various changes or modifications, therefore protection scope of the present invention should be with claim institute Subject to the range of restriction.

Claims (15)

1. a kind of air conditioner chassis, for installing heat exchanger (10), which is characterized in that the chassis is equipped with storage area (200), The storage area (200) is located at the side of the heat exchanger (10) in the assembled condition, and the storage area (200) are close described The side of heat exchanger (10) was equipped with water notch (221) and wind shielding structure (210), and the wind shielding structure (210) is suitable for assembling The air from the heat exchanger (10) direction is hindered to enter the storage area at water notch (221) from described cross under state (200)。

2. chassis according to claim 1, which is characterized in that the wind shielding structure (210) includes first keeping out the wind gusset (211) it keeps out the wind gusset (212) with second, described first gusset (211) and described second that keeps out the wind keeps out the wind gusset (212) in the mistake Water notch (221) in the plane projection covering it is described cross water notch (221).

3. chassis according to claim 2, which is characterized in that the wind shielding structure (210) further includes that third is kept out the wind gusset (213), described first keep out the wind gusset (211) and described second keep out the wind gusset (212) keep out the wind with the third gusset (213) even It connects, and is located at the third and keeps out the wind the two sides of gusset (213)；Keep out the wind one end of gusset (213) of the third extends to institute It stated at water notch (221), and cross water notch (221) is divided into two parts.

4. chassis according to claim 3, which is characterized in that described first keeps out the wind gusset (211), second wind screen rib Plate (212) and the third keep out the wind gusset (213) in plshy bone open distribution.

5. chassis according to claim 3, which is characterized in that the storage area (200) has the in its longitudinal direction The opening of one side wall (220), the V-shaped structure of the first side wall (220), the v-shaped structure is remote towards the storage area (200) Side from the heat exchanger (10), the top crossed water notch (221) and be set to the v-shaped structure, is suitable for guidance condensed water Mistake water notch (221) is flowed to along the first side wall (220).

6. chassis according to claim 5, which is characterized in that the v-shaped structure of the first side wall (220) crosses water described The front-end and back-end of notch (221) are respectively provided with first side (222) and second side (223), first side (222) phase For the inclination angle alpha 1 on front-rear direction between 5 ° -10 °, and/or, the second side (223) is relative to front and back Upward inclination angle alpha 2 is between 5 ° -10 °.

7. according to the chassis any in claim 4-6, which is characterized in that described first keeps out the wind gusset (211) and described Second gusset (212) that keeps out the wind is obliquely installed, and described first keep out the wind gusset (211) and described second keep out the wind gusset (212) from By holding close to the first side wall (220), it is suitable for guidance condensation flow to the first side wall (220).

8. chassis according to claim 7, which is characterized in that described first keeps out the wind gusset (211) relative to front-rear direction On inclination angle alpha 3 between 15 ° -30 °, and/or, described second keeps out the wind gusset (212) relative to inclining on front-rear direction Rake angle α 4 is between 15 ° -30 °.

9. according to the chassis any in claim 3-6, which is characterized in that the third keeps out the wind gusset (213) will be described Storage area (200) is divided into the first water storage tank (240) and the second water storage tank (250), the bottom surface of first water storage tank (240) and On the bottom surface of second water storage tank (250) far from the third keep out the wind gusset (213) side be higher than keep out the wind with the third Gusset (213) are kept out the wind to the third suitable for guidance condensation flow in the side of gusset (213) connection.

10. chassis according to claim 9, which is characterized in that the bottom surface of first water storage tank (240) and horizontal plane it Between angle α 5 between 2 ° -5 °, and/or, angle α 6 between the bottom surface and horizontal plane of second water storage tank (250) is situated between Between 2 ° -5 °.

11. chassis according to claim 9, which is characterized in that the bottom surface and described second of first water storage tank (240) The separate side for crossing water notch (221) is higher than one crossed where water notch (221) on the bottom surface of water storage tank (250) Side is suitable for guidance condensation flow to described and crosses water notch (221).

12. chassis according to claim 11, which is characterized in that the bottom surface of first water storage tank (240) with perpendicular to Plane intersection in the front-back direction is formed by intersection, relative to the tilt angle on left and right directions between 2 ° -5 °, and/or, The bottom surface of second water storage tank (250) is formed by intersection with intersecting perpendicular to plane in the front-back direction, relative to right and left Upward tilt angle is between 2 ° -5 °.

13. according to the chassis any in claim 4-6, which is characterized in that the storage area (200) is in its length direction Upper to have second sidewall (230), the second sidewall (230) is equipped with reinforcement structure (231).

14. chassis according to claim 13, which is characterized in that the reinforcement structure (231) be provided with it is multiple, and in institute State equidistantly distributed on second sidewall (230).

15. a kind of air conditioner, which is characterized in that including any air conditioner chassis of claim 1-14.