CN208025802U - Drip tray and air-conditioning - Google Patents

Abstract

The utility model proposes a kind of drip tray and air-conditionings, wherein drip tray includes：Multiple mutually disconnected water receiving tanks, are set on the bottom plate of drip tray, water receiving tank has side wall；Water fender；Air duct, air duct is equipped at position between adjacent water receiving tank, water fender is equipped at position above air duct, air duct has air outlet, wherein, the edge position of water fender to the middle vertical plane of water fender minimum range, be more than the water receiving tank adjacent with air outlet side wall upper surface on point to water fender middle vertical plane maximum distance.By the technical solution of the utility model, drip tray can divulge information noise reduction, so that air-conditioning is improved intake under the same rotating speed of wind wheel, improve the heat exchange efficiency of heat exchanger, also reduce noise, improve complete machine efficiency.

Description

Drip tray and air-conditioning

Technical field

The utility model is related to air-conditioning technical fields, in particular to a kind of drip tray and a kind of air-conditioning.

Background technology

Heat exchanger is widely used in air-conditioning, there are a large amount of condensed waters on heat exchanger, to avoid condensing drip from falling to the ground, generally Drip tray is equipped with all below heat exchanger, but since drip tray itself is unable to leak, wind is also difficult to penetrate, and works as air inlet When being arranged below drip tray, wind can only blow to heat exchanger around drip tray, reduce air quantity, reduce heat exchange efficiency.

Utility model content

The utility model aims to solve at least one of technical problems existing in the prior art or related technologies.

In view of this, one of the utility model is designed to provide a kind of drip tray.

Another of the utility model is designed to provide a kind of air-conditioning.

To achieve the goals above, the technical solution of the utility model first aspect provides a kind of drip tray, including：It is more A mutually disconnected water receiving tank, is set on the bottom plate of drip tray, water receiving tank has side wall；Water fender；Air duct, adjacent water receiving tank it Between position at be equipped with air duct, water fender is equipped at the position above air duct, air duct has air outlet, wherein the side of water fender Along the minimum range of the middle vertical plane at position to water fender, the point being more than on the upper surface of the side wall of the water receiving tank adjacent with air outlet To the maximum distance of the middle vertical plane of water fender.

In the technical scheme, by the setting in air duct, the purpose of drip tray ventilation may be implemented, to improve air-conditioning Intake improves the heat exchange efficiency of heat exchanger；Air duct is arranged between adjacent water receiving tank, and convenient for saving space, and wind can be from Drip tray centre position passes through；It is equipped with water fender above air duct, air duct has an air outlet, the edge position of water fender to water fender Middle vertical plane minimum range, be more than the water receiving tank adjacent with air outlet side wall upper surface on point to water fender in hang down The maximum distance in face enables the edge of water fender to be located at the top of water receiving tank notch, reduces and is dripped on water fender edge The upper surface or the possibility in air outlet that water is just dropped in the side wall of water receiving tank, the condensed water to which heat exchanger drip are whole It is blocked in outside air duct, reduces possibility of the drip tray from air outlet leak.In addition, by the setting of multiple water receiving tanks, make water receiving Disk is separated into multiple relatively independent parts, reduces condensed water and is dropped in caused vibration on drip tray, makes an uproar to reduce Sound, meanwhile, wind is passed through from drip tray centre position, and the condensed water that can also be caused to fall and break is slowed down by windage, to drop Its low impact force to drip tray, further decreases noise.

In the above-mentioned technical solutions, further, the opposing sidewalls of adjacent water receiving tank limit exhaust passage jointly.

In the technical scheme, exhaust passage is limited jointly by the opposing sidewalls of adjacent water receiving tank, convenient for saving space, letter Change structure, and wind can pass through from the position between adjacent sink, improve the heat exchange efficiency of the heat exchanger above drip tray.

In the above-mentioned technical solutions, further, there is gap, to form the outlet air in air duct between air duct and water fender Mouthful；Position on the bottom plate of drip tray corresponding to air duct offers air inlet.

In the technical scheme, pass through the setting of air outlet between air duct and water fender and drip tray bottom plate upper air inlet Mouthful, so that wind energy is entered from the air inlet of water receiving pan bottom, blown out again from air outlet behind air duct, realizes the mesh of drip tray ventilation 's.

In the above-mentioned technical solutions, further, water fender edge position is located at the top of water receiving tank notch, makes water fender The condensed water that edges of boards drip can be fallen into water receiving tank.

In the technical scheme, by the way that water fender edge position to be arranged in the top of water receiving tank notch, make water blocking The condensed water that plate edges of boards drip can be fallen into water receiving tank, to reduce the possibility of leak.

In the above-mentioned technical solutions, optionally, the width at the notch position of water receiving tank is more than the width at its slot bottom position Degree.

In the technical scheme, the width at its slot bottom position is more than by the width at the notch position by water receiving tank, Making at least one in the side wall of water receiving tank to be inclined-plane, water receiving tank is in a shape of big-top and small-bottom, reduces the area of drip tray bottom plate, Space is provided for the setting of air inlet, and has raised upstream face, water droplet drop is made to reduce, to reduce water drippage Speed when to upstream face thereby reduces its impact force, meanwhile, upstream face is changed to inclined-plane by plane, can also reduce water droplet Impact to upstream face, to reduce noise.In addition, when inclined side wall is extended to outward above adjacent water receiving tank, It can also play the role of water fender, simplify structure.

In the above-mentioned technical solutions, optionally, support plate is equipped in air duct, water fender is connected with support plate；Or water fender It is connected with the side wall of water receiving tank；Or water fender is connected with the both ends of drip tray.

In the technical scheme, by the way that support plate is arranged in air duct, and water fender is connect with support plate, improves water fender Stability simultaneously, also improve the rigidity of water fender, reduce water fender and generate vibration because of the condensation water slug of drippage, lead Cause the possibility of unstability.

Water fender is connected with the side wall of water receiving tank, can equally improve the stability of water fender, can also simplify structure, increases Wind trunk improves air quantity；Water fender is connected with drip tray both ends, can also expand the air duct below water fender, improves air quantity, letter Change the structure of water receiving tank.

In the above-mentioned technical solutions, optionally, further include：Water receiving muscle is set on the inner surface of the side wall of water receiving tank, and connects The inner surface of the side wall of sink sets out the pilot trench for being filled with water with water receiving muscle enclose.

In the technical scheme, by the way that water receiving muscle is arranged on the inner surface of the side wall of water receiving tank, to be formed for being filled with water Pilot trench increase the water of receiving so as to improve the volume of water receiving tank, reduce the possibility of leak, water receiving can also be reduced The volume or area of disk save space.

In the above-mentioned technical solutions, further, the top of supply line of water receiving muscle is less than the side wall of the water receiving tank where it Top of supply line.

In the technical scheme, pass through the top of the side wall of water receiving tank where the top of supply line of water receiving muscle is set below it End position, when the water in pilot trench being made to fill and overflow, can only be spilled over to from water receiving muscle side in water receiving tank, to reduce leak It may.

In the above-mentioned technical solutions, optionally, the side wall of same water receiving tank is equipped with one or more water receiving muscle, makes water receiving One or more pilot trench are correspondingly formed on slot.

In the technical scheme, by being equipped with one or more water receiving muscle on same water receiving tank, make corresponding on water receiving tank One or more pilot trench are formed, convenient for providing more water receiving spaces, carrying capacity of the water receiving tank to condensed water is improved, reduces leakage The possibility of water.

In the above-mentioned technical solutions, optionally, water receiving tank is V-shaped or spill.

In the technical scheme, by setting water receiving tank to V-arrangement or spill, convenient for accommodating condensed water, and water droplet is reduced Impact.

In the above-mentioned technical solutions, further, the height of the top of supply line of the lateral wall of drip tray is more than water receiving tank The height of the top of supply line of side wall.

In the technical scheme, by by the height of the top of supply line of the lateral wall of drip tray, being set greater than water receiving tank Side wall top of supply line height, it is possible to reduce the possibility of the outside spilling water of drip tray, can also be to the air-flow around drip tray Certain guide functions are played, heat exchange efficiency is improved.

In the above-mentioned technical solutions, optionally, the lateral wall arranged for interval of the side wall of at least one water receiving tank and drip tray, Make to be formed with gap between the side wall of water receiving tank and the lateral wall of drip tray, to limit the second air duct.

In the technical scheme, the second wind is limited by the lateral wall arranged for interval of the side wall of water receiving tank and drip tray Road provides more more options for the shape design of drip tray, the case where particularly with only needing a small amount of position to divulge information, can simplify The aeration structure of drip tray.

The technical solution of the utility model second aspect provides a kind of any one of air-conditioning, including above-mentioned first aspect skill The drip tray of art scheme.

In the technical scheme, by using the drip tray of any of the above-described technical solution, to be provided with above-mentioned technology Whole technique effects of scheme, details are not described herein.

In the above-mentioned technical solutions, optionally, further include：More folding heat exchangers, are set to the top of drip tray.

In the technical scheme, by the way that more folding heat exchangers are arranged in the top of drip tray complete machine is reduced convenient for saving space Size, and drip tray can divulge information, and can improve the heat exchange efficiency of heat exchanger.

In the above-mentioned technical solutions, further, correspond on drip tray at the bending parts of more folding heat exchangers, equipped with connecing The water fender of water pond.

In the technical scheme, the bending place for rolling over heat exchanger is equipped with water fender, reduces unnecessary ventilation, improves energy Effect, and wind can improve changing for heat exchanger from the blowout outward simultaneously of water fender both sides, convenient for exchanging heat with the other positions of heat exchanger The thermal efficiency；Meanwhile the bending place of more folding heat exchangers is often the place of condensed water convergence, water droplet may be also bigger, water fender Set on herein, the possibility of leak on the one hand can be reduced with water blocking, on the other hand can also break up larger water droplet, reduce docking The impact of water pond, and water fender also improves upstream face at a distance from water droplet here, that is, reduces water droplet drippage distance, to Speed when it reaches upstream face is reduced, and then reduces the impact to drip tray, to reduce noise.

The additional aspect and advantage of the utility model will become apparent in following description section, or new by this practicality The practice of type is recognized.

Description of the drawings

Fig. 1 shows the stereoscopic schematic diagram of the drip tray of one embodiment according to the present utility model；

Fig. 2 shows the stereoscopic schematic diagrams of the drip tray of another embodiment according to the present utility model；

Fig. 3 shows the structural schematic diagram of the drip tray of Fig. 1 or Fig. 2；

Fig. 4 shows the structural schematic diagram of the drip tray of another embodiment according to the present utility model；

Fig. 5 shows the structural schematic diagram of the drip tray of another embodiment according to the present utility model；

Fig. 6 shows the structural schematic diagram of the air-conditioning of one embodiment according to the present utility model；

Fig. 7 shows that the wind-force of Fig. 6 moves towards schematic diagram；

Fig. 8 shows the structural schematic diagram of the air-conditioning of another embodiment according to the present utility model；

Fig. 9 shows that the wind-force of Fig. 8 moves towards schematic diagram.

Wherein, the correspondence in Fig. 1 to Fig. 9 between reference numeral and component names is：

10 drip trays, 100 first water receiving tanks, 102 second water receiving tanks, 104 air ducts, 106 water fenders, 108 air outlets, 110 Air inlet, 112 lateral walls, 114 madial walls, 116 support plates, 118 first water receiving muscle, 120 third water receiving tanks, 20 heat exchangers.

Specific implementation mode

In order to be more clearly understood that the above objects, features, and advantages of the utility model, below in conjunction with the accompanying drawings and have The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this Shen The feature in embodiment and embodiment please can be combined with each other.

Many details are elaborated in the following description in order to fully understand the utility model, still, this practicality Novel to be implemented different from other modes described here using other, therefore, the scope of protection of the utility model is simultaneously It is not limited by following public specific embodiment.

Some embodiments according to the present utility model are described referring to Fig. 1 to Fig. 9.

Embodiment 1

As shown in Figure 1 to Figure 3, according to the utility model proposes one embodiment drip tray 10, including two V-shaped The first water receiving tank 100 being oppositely arranged and the second water receiving tank 102, the first water receiving tank 100 is not connected to mutually with the second water receiving tank 102 And be set on the bottom plate of drip tray, and the air duct 104 between two water receiving tanks, 104 top of air duct are equipped with water fender 106, air duct 104 has air outlet 108, wherein as shown in figure 3, hanging down in the edge position to water fender 106 of water fender 106 The minimum range L1 in face is more than in the point to water fender 106 on the upper surface of the side wall of the water receiving tank adjacent with air outlet and hangs down The maximum distance L2 in face.It is equipped with air inlet 110 corresponding to the position in the air duct 104 on the bottom plate of drip tray 10, to work as wind From 10 bottom of drip tray after air inlet 110 enters air duct 104, it can be pierced by, blow on drip tray 10 from air outlet 108 again Side realizes the ventilative function of drip tray 10；Water fender 106 shelters from the air outlet 108 of lower section in the vertical direction, reduces and connects The possibility of 10 leak of water pond.

Specifically, as shown in Figures 1 and 2, drip tray 10 in the horizontal plane be projected as rectangle, the first water receiving tank 100 and second water receiving tank 102 be respectively arranged on the both sides of drip tray 10, the parallel longitudinal setting of the two, the both ends of water receiving tank connect respectively It is connected on two end faces of drip tray 10, and the lateral wall 112 of the lateral wall 112 of the first water receiving tank 100 and the second water receiving tank 102 It is two lateral walls 112 of drip tray 10, the madial wall of the madial wall 114 of the first water receiving tank 100 and the second water receiving tank 102 114 are oppositely arranged, to make to limit exhaust passage 104 between two opposite madial walls 114, wherein two madial walls 114 it Between 10 bottom plate of drip tray, i.e. the bottom plate of corresponding with air duct 104 drip tray 10 is equipped with air inlet 110.

Further, the both ends of the water fender 106 of 104 top of air duct are connected with two end faces of drip tray 10 respectively, keep off Water plate 106 is higher than the height of the madial wall 114 of two water receiving tanks, as shown in Figures 1 and 3, the both sides of water fender 106, and in other words Two edges position of water fender 106 extends respectively to the notch top of two water receiving tanks, i.e. the edge position of water fender 106 To the minimum range L1 of its middle vertical plane, it is more than the inside of first water receiving tank 100 adjacent with air outlet 108 or the second water receiving tank 102 The upper surface of wall 114 makes the condensed water on water fender 106 not fall on out to the maximum distance L2 of the middle vertical plane of water fender 106 In air port, or fall on water receiving tank side wall upper surface on and tumbled again into air outlet 108, but drop to the first water receiving In the groove body of slot 100 or the second water receiving tank 102, reduce the possibility of leak.It is to be appreciated that being held using 10 two with drip tray The connected mode in face, 106 lower section of water fender are hanging, and the 104 corresponding air inlet 110 of air duct of 106 lower section of water fender can be with Be along one end of drip tray 10 to the other end completely through opening so as to greatly improve air quantity can also be interval cloth The multiple openings set.

Optionally, as shown in Figure 1, Figure 3, in order to enhance the fixing intensity and rigidity of water fender 106, and water fender is reduced 106 are vibrated by what the impact of the condensed water dripped generated, the whole stability of drip tray 10 are improved, under water fender 106 Side is equipped with support plate 116, to be supported to water fender 106, meanwhile, the both ends of support plate 116 respectively with drip tray 10 two End connection, the lower end of support plate 116 is connected with the bottom plate of drip tray 10, and air duct 104 is divided into two sub-air channels；Two sons The bottom plate of drip tray 10 corresponding to air duct is equipped with multiple smaller air inlets 110 that spaced multiple openings are formed, Rather than completely through opening, as a result, the upper and lower ends of support plate 116 be separately connected water fender 106 and with drip tray 10 Bottom plate improves 10 entirety of drip tray to make water fender 106, support plate 116,10 bottom plate of drip tray be connected as an entirety Stability provides stable support for water fender 106, improves the rigidity of water fender 106, reduces water fender 106 because of drippage Condensation water slug and generate vibration, lead to the possibility of unstability.

Further, as shown in figure 3, the upper end of the madial wall 114 of the first water receiving tank 100 is towards in the second water receiving tank 102 Side wall 114 tilts, and the upper end of the lateral wall 112 of the first water receiving tank 100 is tilted towards the outside of drip tray 10, makes the first water receiving tank The width of 100 notch is more than the width of its slot bottom.By this up big and down small design, the first water receiving tank 100 is improved Water volume, reduces the possibility of leak, and reduces the area of 10 bottom plate of drip tray, and the setting for air inlet 110 provides Space；Simultaneously as the upper end of the madial wall 114 of the first water receiving tank 100 is tilted to the second water receiving tank 102, to make first to connect The inner surface of the madial wall 114 of sink 100 becomes an inclined upstream face, has raised upstream face, has reduced the whereabouts of water droplet Distance thereby reduces its impact force to reduce speed when water droplet drops down onto upstream face, meanwhile, upstream face is changed by plane For inclined-plane, impact of the water droplet to upstream face can also be reduced, to reduce noise.

As shown in figure 3, the first water receiving muscle 118 is additionally provided on the inner surface of the lateral wall 112 of the first water receiving tank 100, first The parallel longitudinal setting of the lateral wall 112 of water receiving muscle 118 and the first water receiving tank 100, the i.e. boundary line with lateral wall 112 and bottom plate It is arranged in parallel, is enclosed with the inner surface of lateral wall 112 and set out first pilot trench that can be filled with water, so as to improve the first water receiving The water retention of slot 100, wherein the height of the top of supply line of the first water receiving muscle 118 is less than the lateral wall of the first water receiving tank 100 112 height can make to overflow into the first water receiving tank 100 when the first pilot trench water is full, rather than excessive to the first water receiving tank 100 Go out, reduces the possibility of leak.

Optionally, it is equipped with and 118 structure phase of the first water receiving muscle on the inner surface of the madial wall 114 of the first water receiving tank 100 As the second water receiving muscle, the inner surface of the second water receiving muscle and the madial wall 114 of the first water receiving tank 100, which encloses, to be set out one and can be filled with water The second pilot trench, meanwhile, the lower surface of the lower surface of the first water receiving muscle 118 and the second water receiving muscle and the first water receiving tank 100 Third pilot trench is formd between madial wall 114, lateral wall 112, it is empty to form multiple water receivings in the first water receiving tank 100 Between, the water retention of the first water receiving tank 100 greatly improved, reduce the possibility of leak.

Optionally, in the inner surface of the second water receiving tank 102, one or more water receiving muscle can also be set, deposited with improving it Outlet capacity reduces the possibility of leak.

It is to be appreciated that the lateral wall 112 of the first water receiving tank 100 is higher than the madial wall 114 of its own, the second water receiving tank 102 lateral wall 112 is also above the madial wall 114 of its own, to reduce the possibility of 10 leak of drip tray.

The structure of the drip tray 10 of the present embodiment is simple, and the air duct 104 between two water receiving tanks is arranged in water fender 106 Top is located at the position among drip tray 10 in other words, and for rolling over heat exchanger 20, water fender 106 is placed exactly in convert more more The bending place of hot device 20 is arranged water fender 106, reduces unnecessary ventilation, carry herein since bending place heat exchange efficiency is extremely low High efficiency, and wind can be convenient for from the blowout outward simultaneously of 106 both sides of water fender and 20 other positions of heat exchanger exchange heat, raising The heat exchange efficiency of heat exchanger 20；Meanwhile the bending place of more folding heat exchangers 20 is often the place of condensed water convergence, water droplet may Also bigger, water fender 106 is set to herein, and the possibility of leak on the one hand can be reduced with water blocking, on the other hand can also be broken up Larger water droplet reduces the impact to drip tray 10, and water fender 106 also improves upstream face at a distance from water droplet here, Water droplet drippage distance is reduced, to reduce speed when it reaches upstream face, and then reduces the impact to drip tray 10, To reduce noise, meanwhile, drip tray 10 can divulge information, and uplink can be also faced when the condensed water of 10 top of drip tray being made to fall Wind-force reduces the impact to drip tray 10, further reduced noise to reduce the falling speed of condensed water.

By 10 structure of above-mentioned drip tray, the opposing sidewalls between two water receiving tanks are made to limit exhaust passage 104, to save Space, and can divulge information in drip tray 10, heat exchange efficiency is improved while improving air quantity, meanwhile, in the upper of air duct 104 Side's setting water fender 106, and water fender 106 extends to above the notch of water receiving tank, and the condensed water on water fender 106 is enable to drip Enter in water receiving tank, reduces the possibility of leak.

Embodiment 2

According to the utility model proposes another embodiment drip tray 10, on the basis of embodiment 1, to support plate The sub-air channel of 116 both sides is provided with interconnected structure.

As shown in Fig. 2, specifically, by the corresponding open communication in two sub-air channel bottoms, i.e. support plate is emptied in compartment of terrain 116 and the bottom plate that is connected with support plate 116, two openings for keeping two sub-air channels adjacent are interconnected, to expand air inlet Mouth 110 improves intake；Or only support plate 116 is emptied in compartment of terrain, and two sub-air channels is made to be interconnected, and improves airflow Efficiency, and then improve intake.

Embodiment 3

According to the utility model proposes another embodiment drip tray 10, difference from Example 1 is, first Third water receiving tank 120, rather than water fender 106 and support plate 116 are equipped between water receiving tank 100 and the second water receiving tank 102.

As shown in figure 4, the two side walls of third water receiving tank 120 madial wall 114 and second with the first water receiving tank 100 respectively The madial wall 114 of water receiving tank 102 limits two air ducts 104, and the bottom plate of drip tray 10 is located at 104 corresponding position of air duct and goes out to set There is opening, forms the air inlet 110 being connected to air duct 104；Meanwhile the top of supply line of the two side walls of third water receiving tank 120 Highly, it is more than the height of the top of supply line of the madial wall 114 of the first water receiving tank 100, the also greater than madial wall of the second water receiving tank 102 The height of 114 top of supply line, and the outward bending in the horizontal direction of the top of the two side walls of third water receiving tank 120, and extend Above to the notch of the first water receiving tank 100 and above the notch of the second water receiving tank 102, to form the water fender in two air ducts 104 106, and the height of the lower surface of water fender 106 is more than the height and second of 114 top of supply line of madial wall of the first water receiving tank 100 The height of 114 top of supply line of madial wall of water receiving tank 102, make water fender 106 in 120 two side walls of third water receiving tank respectively with Form gap between 114 top of madial wall of first water receiving tank 100 and 114 top of madial wall of the second water receiving tank 102, constitute with The air outlet 108 that air duct 104 is connected to, to allow air inlet 110 of the wind through 10 bottom of drip tray to enter, behind air duct 104, It is blown out again from air outlet 108, and is blocked the condensed water of top by water fender 106, realized the function of 10 ventilative water blocking of drip tray, carry High air quantity, and then heat exchange efficiency is improved, reduce the possibility of leak.

Embodiment 4

According to the utility model proposes another embodiment drip tray 10, difference from Example 1 is, water blocking Plate 106 is not connect with support plate 116, but is connected with the first water receiving tank 100.

As shown in figure 5, specifically, the height of the top of supply line of the madial wall 114 of the first water receiving tank 100 connects higher than second The height of the top of supply line of the madial wall 114 of sink 102, and the top of the madial wall 114 of the first drip tray 10 is to the second water receiving 102 direction horizontal buckling of slot, and extend to above the notch of the second water receiving tank 102, to form water fender 106；Meanwhile water fender 106 are extended from the first water receiving tank 100 to the second water receiving tank 102, make the wind between the first water receiving tank 100 and the second water receiving tank 102 Road 104 is placed exactly in the lower section of water fender 106, and the edge position of water fender 106 is located on the notch of the second water receiving tank 102 Side, enables the condensed water on water fender 106 to drop in the groove body of the second water receiving tank 102, reduces the possibility of leak.

Optionally, when the upper end of the madial wall 114 of the first water receiving tank 100 tilts outward, the first water receiving tank 100 it is interior 114 top of supply line of side wall can not also carry out horizontal buckling, but directly extend outwardly up to it along its original inclined direction Edge position extends to above the notch of the second water receiving tank 102, water fender 106 is formed, to simplify structure.

Embodiment 5

According to the utility model proposes another embodiment drip tray 10, difference from Example 1 is, water receiving Disk 10 only includes the first water receiving tank 100, and the first water receiving tank 100 shares a lateral wall 112, the first water receiving tank with drip tray 10 100 madial wall 114 and another 112 arranged for interval of lateral wall of drip tray 10, intermediate gap form air duct 104, water blocking The top in air duct 104 is arranged in plate 106.

Optionally, water fender 106 can be as in Example 1, is only connected with the both ends of drip tray 10, can also with connect Another lateral wall 112 of water pond 10 is connected, i.e., by another 112 inside horizontal extension of lateral wall of drip tray 10, until gear The edge position of water plate 106 is located above the notch of the first water receiving tank 100, to shelter from air duct 104 completely, reduces leak It may, wherein the height of water fender 106 is more than the height of the madial wall 114 of the first water receiving tank 100, to form ventilative water blocking knot The air outlet 108 of structure is equipped with opening to form the air inlet in air duct on the bottom plate of drip tray 10 at position corresponding with air duct 104 110。

Embodiment 6

According to the utility model proposes the drip tray 10 of another embodiment connect in third on the basis of embodiment 3 It is additionally provided with multiple spaced apart 4th pilot trench in sink 120, limits sub-air channel between the 4th adjacent pilot trench, in sub-air channel Side is equipped with sub- water fender, sub-air channel has sub- air outlet, and sub- air outlet is towards sub- water fender plate face, and sub- air outlet is upward Projection is in the outer outline area of sub- water fender；Offered on position corresponding with sub-air channel on the bottom plate of drip tray 10 son into Air port.

Embodiment 7

According to the utility model proposes another embodiment drip tray 10, difference from Example 1 is, water receiving Disk 10 is including the first water receiving tank 100, the second water receiving tank 102 and between the first water receiving tank 100 and the second water receiving tank 102 Three or more spaced 4th water receiving tanks, the two side walls height of each 4th water receiving tank differs, wherein higher side wall It is equipped with the water fender 106 of outward bending in the horizontal direction.

Specifically, the madial wall 114 of the first water receiving tank 100 is equipped with water fender 106 and extends to the 4th water receiving tank Above notch；The relatively low sidewall of 4th water receiving tank the first water receiving tank 100 of direction, and the equal direction of upper side wall of the 4th water receiving tank Second water receiving tank 102, in adjacent two the 4th water receiving tanks, the water fender 106 on upper side wall is respectively positioned on another and the 4th connects Above the notch of sink, the water fender 106 on the upper side wall of the 4th water receiving tank adjacent with the second water receiving tank 102 is then located at the Above the notch of two water receiving tanks 102, between the first water receiving tank 100 and the 4th water receiving tank adjacent thereto, the second water receiving Between slot 102 and the 4th water receiving tank adjacent thereto, between two the 4th water receiving tanks of arbitrary neighborhood, there are air duct 104, and wind The top in road 104 has water fender 106 to block, and then realizes the ventilation of drip tray 10, function of collecting water.

Embodiment 8

According to the utility model proposes another embodiment drip tray 10, difference from Example 1 is, air duct Support plate 116 in 104 is multiple, and the both sides of support plate 116 are connect with the madial wall of two water receiving tanks 114 respectively, rather than It is connect with the both ends of drip tray 10；It all empties and is set as thus, it is possible to 10 bottom plate of drip tray be corresponded at the position in air duct 104 Air inlet 110 expands intake, while can also improve the rigidity and the whole rigidity of drip tray 10 and steady of water fender 106 It is qualitative.

Embodiment 9

According to the utility model proposes another embodiment drip tray 10, it is similar to Example 6, include multiple Every the 5th water receiving tank of setting, the 5th water receiving tank tool is there are four side wall, and there are one the 5th adjacent water receiving tanks for each side wall, i.e., There is another adjacent the 5th water receiving tank at the four sides of 5th water receiving tank, and between having between the 5th water receiving tank of arbitrary neighborhood Gap to form air duct 104, and corresponds at the position in air duct 104 on 10 bottom plate of drip tray, is designed with opening to form air inlet 110, it can connect with the side wall of the 5th water receiving tank that, which there are water fender 106, water fender 106 in 108 top of air outlet in air duct 104, It connects, the support plate 116 being connected between two side walls can also be equipped in air duct 104, water fender 106 connects with support plate 116 It connects.

Embodiment 10

As shown in Fig. 6, Fig. 8, according to the utility model proposes one embodiment air-conditioning, including heat exchanger 20, heat exchange 20 lower section of device is equipped with the drip tray 10 of any of the above-described embodiment.

As shown in Fig. 7, Fig. 9, wind enters from air-conditioning bottom, when encountering drip tray 10, since 10 bottom of drip tray is equipped with wind Road 104, therefore can enter from the air inlet 110 in air duct 104, it is blown out again from its air outlet 108 through air duct 104, so as to Heat exchange ventilation is also carried out to the heat exchanger 20 of 10 top of drip tray, the heat exchanger 20 of 10 both sides of drip tray can then have drip tray 10 The wind of both sides exchanges heat, and to improve the intake of air-conditioning, and plays the role of reduction of speed to the condensed water of whereabouts, reduces To the impact dynamics of drip tray 10, to reduce the noise of air-conditioning.

Through actual test, using the complete machine structure that can not be entered the wind relative to bottom, the air-conditioning of the present embodiment is under same rotating speed Air quantity promotes 4%~7%, with 0.8~1.5 decibel of air quantity lower noise, and since the heat exchanger 20 of 10 top of drip tray has wind By making the complete machine efficiency of air-conditioning be improved.

Embodiment 11

According to the utility model proposes one embodiment air-conditioning, including roll over heat exchanger 20 more, it is roll under heat exchangers 20 more Side is equipped with the drip tray 10 of any of the above-described embodiment, and corresponds to the bending place of more folding heat exchangers 20 on drip tray 10, is equipped with gear Water plate 106.

The technical solution of the utility model is described in detail above in association with attached drawing, by the technical solution of the utility model, Intake is improved under the same rotating speed of wind wheel, the heat exchange efficiency of heat exchanger is improved, also reduces noise, improves complete machine energy Effect.

In the present invention, term " first ", " second ", " third " are only used for the purpose of description, and should not be understood as Instruction implies relative importance；Term " multiple " then refers to two or more, unless otherwise restricted clearly.Term " peace The terms such as dress ", " connected ", " connection ", " fixation " shall be understood in a broad sense, for example, " connection " may be a fixed connection, it can also It is to be detachably connected, or be integrally connected；" connected " can be directly connected, can also be indirectly connected through an intermediary.It is right For those skilled in the art, it can understand that above-mentioned term in the present invention specific contains as the case may be Justice.

In the description of the utility model, it is to be understood that the fingers such as term "upper", "lower", "left", "right", "front", "rear" The orientation or positional relationship shown be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the utility model and Simplify description, specific direction must be had, with specific azimuth configuration by not indicating or implying the indicated device or unit And operation, it is thus impossible to be construed as a limitation of the present invention.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least the one of the utility model In a embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiments or example In can be combined in any suitable manner.

The preferred embodiment that these are only the utility model, is not intended to limit the utility model, for this field Technical staff for, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model, Any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (14)

1. a kind of drip tray (10), which is characterized in that including：

Multiple mutually disconnected water receiving tanks, are set on the bottom plate of the drip tray (10), the water receiving tank has side wall；

Water fender (106)；

Air duct (104) is equipped with the air duct (104) at the position between the adjacent water receiving tank, above the air duct (104) The water fender (106) is equipped at position, the air duct (104) has air outlet (108),

Wherein, the minimum range of middle vertical plane of the edge position of the water fender (106) to the water fender (106), be more than with The middle vertical plane of point on the upper surface of the side wall of the adjacent water receiving tank of air outlet (108) to the water fender (106) Maximum distance.

2. drip tray (10) according to claim 1, which is characterized in that

The opposing sidewalls of the adjacent water receiving tank limit the air duct (104) jointly.

3. drip tray (10) according to claim 2, which is characterized in that

There is gap, to form the air outlet of the air duct (104) between the air duct (104) and the water fender (106) (108)；Position on the bottom plate of the drip tray (10) corresponding to the air duct (104) offers air inlet (110).

4. drip tray (10) according to any one of claim 1 to 3, which is characterized in that

Width at the notch position of the water receiving tank is more than the width at its slot bottom position.

5. drip tray (10) according to any one of claim 1 to 3, which is characterized in that

Support plate (116) is equipped in the air duct (104), the water fender (106) is connected with the support plate (116)；Or

The water fender (106) is connected with the side wall of the water receiving tank；Or

The water fender (106) is connected with the both ends of the drip tray (10).

6. drip tray (10) according to any one of claim 1 to 3, which is characterized in that further include：

Water receiving muscle is set on the inner surface of the side wall of the water receiving tank, and the inner surface of the side wall of the water receiving tank connects with described Water muscle enclose sets out the pilot trench for being filled with water.

7. drip tray (10) according to claim 6, which is characterized in that

The top of supply line of the water receiving muscle is less than the top of supply line of the side wall of the water receiving tank where it.

8. drip tray (10) according to claim 7, which is characterized in that

The side wall of the same water receiving tank is equipped with one or more water receiving muscle, makes to be correspondingly formed one on the water receiving tank Or multiple pilot trench.

9. drip tray (10) according to any one of claim 1 to 3, which is characterized in that

The water receiving tank is V-shaped or spill.

10. drip tray (10) according to any one of claim 1 to 3, which is characterized in that

The height of the top of supply line of the lateral wall (112) of the drip tray (10) is more than the top end part of the side wall of the water receiving tank The height of position.

11. drip tray (10) according to any one of claim 1 to 3, which is characterized in that at least one water receiving tank Side wall and the drip tray (10) lateral wall (112) arranged for interval, make the side wall of the water receiving tank and the drip tray (10) it is formed with gap between lateral wall (112), to limit the second air duct (104).

12. a kind of air-conditioning, which is characterized in that including the drip tray (10) described in any one of claim 1-11.

13. air-conditioning according to claim 12, which is characterized in that further include：

More folding heat exchangers (20), are set to the top of the drip tray (10).

14. air-conditioning according to claim 13, which is characterized in that

Correspond on the drip tray (10) at the bending part of more folding heat exchangers (20), is equipped with the drip tray (10) Water fender (106).