CN207610354U - Drip tray and air-conditioning - Google Patents
Drip tray and air-conditioning Download PDFInfo
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- CN207610354U CN207610354U CN201721780251.1U CN201721780251U CN207610354U CN 207610354 U CN207610354 U CN 207610354U CN 201721780251 U CN201721780251 U CN 201721780251U CN 207610354 U CN207610354 U CN 207610354U
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Abstract
The utility model proposes a kind of drip tray and air-conditionings, wherein and drip tray is used for air-conditioning, including:Disk body is equipped with osculum;Damping structure is set in disk body, and damping structure is adjacent to osculum, wherein osculum is located at the windward side or leeward side of damping structure.By the technical solution of the utility model, negative-pressure air-suction blind area is formed in osculum side, reduces influence of the air-conditioning return air to water drainage, and the utility model has the advantages of simple structure, easy to produce and Fast Installation also advantageously improves the intensity of drip tray.
Description
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
Surface easily condenses out condensed water when air-conditioning heat exchanger carries out heat exchange, must at any time pass through condensed water on drip tray
Osculum is discharged, and does not make to generate ponding in evaporator shell and drip tray.However, air-conditioning draught fan work when in air-conditioning cavity shape
At negative pressure, hinders condensed water and be smoothly discharged from osculum.
Utility model content
The utility model aims to solve at least one of technical problems existing in the prior art or related technologies.
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 with above-mentioned drip tray.
To achieve the goals above, the technical solution of the utility model first aspect provides a kind of drip tray, for sky
It adjusts, including:Disk body is equipped with osculum;Damping structure is set in disk body, and damping structure is adjacent to osculum, wherein osculum position
In the windward side or leeward side of damping structure.
Drip tray in above-described embodiment provided by the utility model is equipped with osculum in disk body, convenient for by drip tray institute
The heat exchanger condensed water for the air-conditioning being collected into quickly is discharged outside air-conditioning;Damping structure, and osculum position are set near osculum
It is windproof convenient for being carried out using damping structure in the windward side or leeward side of damping structure, it is inhaled to form negative pressure in osculum side
Influence of the air-conditioning return air to water drainage process is reduced in wind blind area, ensures that draining is smooth.
Drip tray in above-described embodiment provided by the utility model can also have following additional technical feature:
In a technical solution of the utility model, damping structure includes:At least one piece of wind shield, osculum be located at
At the opposite position of the plate face windward of wind shield, or at the position opposite with the leeward plate face of wind shield.
In the above-mentioned technical solutions, by the way that at least one piece of wind shield is arranged in damping structure, and osculum is located at and gear
At the opposite position of the plate face windward of aerofoil, when wind-force being made to blow to wind shield, is blocked and flowed back or slow down by wind shield, make draining
Pressure above hole increases, to ensure that water drainage is smooth;Or osculum is positioned at opposite with the leeward plate face of wind shield
Position at, reduce wind-force blow to draining hole site possibility, to make the pressure above osculum remain unchanged, reduce return air
Influence to water drainage ensures that water drainage is smooth.
In another technical solution of the utility model, damping structure includes labyrinth structure.
By the way that labyrinth structure is arranged in damping structure, using the circuit that labyrinth structure is winding, changes wind direction, reduce
Wind speed forms negative-pressure air-suction blind area in osculum side, reduces influence of the air-conditioning return air to water drainage process, ensure osculum
What is drained is smooth.
Further, multiple baffle plates are equipped in disk body, multiple baffle plates, which are intervally arranged, constructs labyrinth structure or disk body
It inside sets there are one baffle plate, baffle plate constructs labyrinth structure in bending-like.
By the way that multiple baffle plates are arranged in disk body, multiple baffle plates, which are intervally arranged, constructs labyrinth structure, can pass through
The zigzag path of labyrinth structure changes wind direction, reduces wind speed, to form negative-pressure air-suction blind area in osculum side, reduces air-conditioning and returns
Influence of the wind to water drainage, meanwhile, multiple baffle plates are intervally arranged, and form multiple water stream channels, improve flow to row
The speed of water hole convergence, and then improve drainage speed.
By the way that a baffle plate is arranged in disk body, which constructs labyrinth structure in bending-like, can simplify knot
Structure, and the globality of labyrinth structure is improved, and then the globality of drip tray is improved, to improve the facility of intensity and installation.
In a technical solution of the utility model, when the quantity of wind shield is polylith, the top of at least one piece wind shield
The height relative to disk body bottom wall is held, height of the top of other wind shields relative to disk body bottom wall is less than.
By setting the quantity of wind shield to polylith, it can be arranged by the dislocation of polylith wind shield, polylith is kept out the wind
Plate structure is labyrinth structure, improves the ability of keeping out the wind of polylith wind shield, can also suitably change wind direction, reduces air-conditioning return air pair
The influence of water drainage;By height of at least one piece of the top relative to disk body bottom wall in polylith wind shield, it is set as small
In height of the top of other wind shields relative to disk body bottom wall, cause wind shield that flow is hindered to be converged to osculum water is larger
When poly-, the lower wind shield of tip height can be such that flow is covered from the top of the wind shield, to reduce the barrier of flow convergence
Hinder, improve coalescence rate, reduces the possibility that flow is accumulated or overflowed.
Further, wind shield quantity is polylith, including:First wind shield;Second wind shield is set to the first wind shield
Between osculum;Third wind shield is set between the second wind shield and osculum, wherein the length of third wind shield, with the
The length of one wind shield or the second wind shield differs.
When wind shield quantity is polylith, three pieces of wind shields are set, and before three pieces of wind shields are sequentially arranged in osculum, are risen
To wind action is kept off step by step, influence of the air-conditioning return air to water drainage is significantly reduced, and this is simple in structure, peace easy to produce
Dress;The length of third wind shield differs with the length of the first wind shield or the second wind shield, the arrangement of three pieces of wind shields is made to be formed
One labyrinth structure enhances the effect of keeping out the wind of three pieces of wind shields, further ensures the smooth of draining, meanwhile, three pieces keep out the wind
Plate also acts as the effect of drip tray reinforcing rib, improves the intensity of drip tray.
Further, drip tray further includes:Supporting rib, the length direction along disk body are arranged, and are used to support changing for air-conditioning
Hot device;Height of the top of at least one of first wind shield, the second wind shield, third wind shield relative to disk body bottom wall,
It is equal relative to the height of disk body bottom wall with the top of supporting rib.
Supporting rib is set in drip tray, and the heat exchanger of air-conditioning easy to support avoids heat exchanger and is directly sitting in drip tray
In, so that the condensed water on heat exchanger is quickly and smoothly flowed into drip tray and is converged to osculum and be discharged, reduces condensed water
The possibility between drip tray and heat exchanger is accumulated in, meanwhile, in the first wind shield, the second wind shield, third wind shield at least
Height of one top relative to disk body bottom wall, it is equal relative to the height of disk body bottom wall with the top of supporting rib, make at least
One wind shield heat exchanging device can be supported together with supporting rib, improved the stability of heat exchanger, shared supporting rib
Pressure, reduce supporting rib pressure it is excessive and fail possibility, extend the service life of drip tray.
Optionally, the first wind shield and the second wind shield, third wind shield and osculum are set to supporting rib length direction
Either end,
First wind shield and the second wind shield, third wind shield and osculum are set to any of supporting rib length direction
End, wherein the first wind shield is set between supporting rib and the second wind shield, to make osculum be located at the length direction of drip tray
On one end, the length direction convenient for flow along drip tray converges to osculum, and discharged from one end of drip tray, also
Convenient for the avoiding space of water draining beak is arranged below drip tray, the interference with other components is reduced;Meanwhile first wind shield be set to
Between supporting rib and the second wind shield, also make osculum between wind shield and the side wall of drip tray, to make drip tray
Side wall also functions to certain effect of keeping out the wind, and reduces the possibility that air flows at osculum, to ensure that water drainage
It is smooth.
Further, the top of third wind shield, including:First terrace;And second step face, second step face phase
For the height of disk body bottom wall, it is less than height of the First terrace relative to disk body bottom wall.
As previously described, because the first wind shield is set between supporting rib and the second wind shield, therefore third wind shield is from branch
It supports muscle farther out, heat exchanger is not supported together with supporting rib, when installing heat exchanger, the heat exchanger tube on heat exchanger is possible to encounter third
Wind shield, therefore set the top of third wind shield to First terrace and second step face, and the height in second step face
Less than the height of First terrace, to when install heat exchanger, at a distance from heat exchanger tube and second step face keep larger, reduction
The possibility that heat exchanger tube is when mounted collided with.
Optionally, damping structure is an integral structure with drip tray.
Damping structure is an integral structure with drip tray, easy to produce, reduces installation procedure, while also improving water receiving
The intensity and globality of disk are convenient for Fast Installation.
Optionally, the inner surface of disk body bottom wall is inclined surface, and osculum is located at the minimum point of inclined surface.
By setting the inner surface of disk body bottom wall to inclined surface, flowed downwards along inclined surface convenient for the water of disk body,
Improve water velocity;Osculum is arranged at the minimum point of inclined surface, utilizes its own gravity convenient for flow, most to inclined surface
It flows at low spot, and is smoothly discharged from the osculum being arranged at minimum point, reduce influence of the air-conditioning return air to water drainage.
The technical solution of the utility model second aspect provides in a kind of air-conditioning, including any of the above-described technical solution
Drip tray.
Air-conditioning in above-described embodiment provided by the utility model, by using the water receiving of any of the above-described technical solution
Disk is provided with whole advantageous effects of any of the above-described technical solution, and details are not described herein.
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 main structure diagram of the drip tray of embodiment 1 according to the present utility model;
Fig. 2 shows the overlooking structure diagrams of the drip tray of embodiment 1 according to the present utility model;
Fig. 3 shows the A of Fig. 2 to cross-sectional view;
Fig. 4 shows the overlooking structure diagram of the drip tray of embodiment 3 according to the present utility model;
Fig. 5 shows the overlooking structure diagram of the drip tray of embodiment 4 according to the present utility model;
Fig. 6 shows that the heat exchanger of embodiment 7 according to the present utility model is illustrated with the front view structure after drip tray assembling
Figure;
Fig. 7 shows that the heat exchanger of embodiment 7 according to the present utility model is illustrated with the plan structure after drip tray assembling
Figure;
Fig. 8 shows the B of Fig. 6 to cross-sectional view.
Wherein, the correspondence in Fig. 1 to Fig. 8 between reference numeral and component names is:
10 drip trays, 100 disk bodies, 102 osculums, 104 first wind shields, 106 second wind shields, 108 thirds are kept out the wind
Plate, 110 supporting ribs, 112 baffle plates, 20 heat exchangers, 202 heat exchanger tubes.
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. 8.
Embodiment 1
As shown in Figure 1 to Figure 3, according to the utility model proposes one embodiment drip tray 10, be used for air-conditioning, packet
It includes:Strip disk body 100, the inner surface of 100 bottom wall of disk body are inclined surface along its length, and minimum point is located at the length of disk body 100
The one end for spending direction is equipped with osculum 102 in the minimum point of disk body 100;102 adjacent place of osculum, according to osculum 102
Distance is by as far as closely successively equipped with the first wind shield 104, the second wind shield 106, third wind shield 108, wherein osculum 102
At the position opposite set on the plate face windward of third wind shield 108.
As shown in Figure 1, setting disk body 100 to strip, to adapt to heat exchanger 202 of the cross section as strip, simplify
Structure saves space, and ensures that the condensed water on heat exchanger 202 can all drop onto in drip tray 10;Inclined surface is along length
Direction is arranged, convenient for being arranged the minimum point of drip tray 10 in one end of strip drip tray 10, to which condensed water can be along length
Direction is spent to converge to the osculum 102 positioned at minimum point, convenient for quickly successfully condensed water is discharged, and simple in structure, production
It is easy for installation, and convenient for the setting of avoiding space, reduce the possibility of discharge structure and other component interference.If by osculum
102 settings in 100 medium position of disk body or width direction, then 100 bottom wall of disk body need that at least two inclined surface are arranged, and make knot
Structure is increasingly complex, and osculum 102 is located at 100 middle part of disk body, may cause to interfere with other component, even if setting is kept away
It allows space, can also be not easy to further guide the water of osculum 102 outside discharge air-conditioning.
As shown in Figure 2 and Figure 3, osculum 102 is arranged at the opposite position of the plate face windward of third wind shield 108,
When stopping that the air at osculum 102 flows or wind is to third wind shield 108, by the resistance of third wind shield 108
It keeps off and flows back or slow down, to form negative-pressure air-suction blind area in 102 side of osculum, reduction air-conditioning return air drains osculum 102
The influence of process ensures the smooth of draining.
Further, the first wind shield 104, the second wind shield 106 and third are set gradually in the leeward side of osculum 102
Wind shield 108, plays and keeps off wind action step by step, significantly reduces the influence that air-conditioning return air drains osculum 102, and the structure
Simply, installation easy to produce.
Further, as shown in Figure 2 and Figure 3, the length of third wind shield 108, be set as with the first wind shield 104 or
The length of second wind shield 106 differs.
By by the length of third wind shield 108, being set as the length with the first wind shield 104 or the second wind shield 106
It differs, so that the arrangement of three pieces of wind shields is formed a labyrinth structure, enhance the effect of keeping out the wind of three pieces of wind shields, be further ensured that
Draining it is smooth, meanwhile, third wind shield 108 is the wind shield closest to osculum 102, by the length of third wind shield 108
Degree is arranged longer, can improve the windproof effect of third wind shield 108, is further ensured that osculum 102 drains smooth.
Optionally, the first wind shield 104, the second wind shield 106, third wind shield 108 and drip tray 10 are integral type knot
Structure.
By the way that the first wind shield 104, the second wind shield 106, third wind shield 108 and the setting of drip tray 10 are integrated
Formula structure, it is easy to produce, reduce installation procedure, while also improving the intensity and globality of drip tray 10, convenient for quickly peace
Dress, meanwhile, three pieces of wind shields also act as the effect of 10 reinforcing rib of drip tray, further improve the intensity of drip tray 10.
Further, at least one piece of wind shield in the first wind shield 104, the second wind shield 106, third wind shield 108
Height of the top relative to 100 bottom wall of disk body, be less than height of the top of other wind shields relative to 100 bottom wall of disk body.
By by height of at least one piece of the top relative to 100 bottom wall of disk body in three pieces of wind shields, being set smaller than
Height of the top of other wind shields relative to 100 bottom wall of disk body causes wind shield to hinder flow to osculum water is larger
When 102 convergence, the lower wind shield of tip height can be such that flow is covered from the top of the wind shield, to reduce flow convergence
Obstacle, improve coalescence rate, reduce flow accumulate or overflow possibility.
Embodiment 2
As shown in Fig. 2, according to the utility model proposes one embodiment drip tray 10, on the basis of embodiment 1,
Length direction along drip tray 10 is equipped with supporting rib 110, is used to support the heat exchanger 202 of air-conditioning.
Supporting rib 110 is set by the length direction in drip tray 10, avoids heat exchanger 202 and is directly sitting in drip tray 10
In, so that the condensed water on heat exchanger 202 is quickly and smoothly flowed into drip tray 10 and is converged to osculum 102 and be discharged, reduces
Condensed water accumulates in the possibility between drip tray 10 and heat exchanger 202.
Further, supporting rib 110 extends along 100 length direction of disk body, until close to the first wind shield 104, first gear
Aerofoil 104 is arranged between supporting rib 110 and the second wind shield 106, wherein the top of the first wind shield 104 is relative to disk body
The height of 100 bottom walls, the top of second wind shield 106 equal relative to the height of 100 bottom wall of disk body with the top of supporting rib 110
The height relative to 100 bottom wall of disk body is held to be less than height of the top of the first wind shield 104 relative to 100 bottom wall of disk body.
By being arranged the first wind shield 104 between supporting rib 110 and the second wind shield 106, and the first wind shield 104
Height be set as equal with the height of supporting rib 110, enable the first wind shield 104 and supporting rib 110 together heat exchanging device
202 are supported, and improve the stability of heat exchanger 202, have shared the pressure of supporting rib 110, reduce 110 pressure of supporting rib
Excessive and failure possibility, extends the service life of drip tray 10, meanwhile, the height of the second wind shield 106 is less than first gear
The height of aerofoil 104, water is larger cause wind shield that flow is hindered to be converged to osculum 102 when, tip height lower the
Two wind shields 106 can be such that flow is covered from the top of the wind shield, to reduce the obstacle of flow convergence, improve convergence speed
Degree reduces the possibility that flow is accumulated or overflowed.
Further, the top of third wind shield 108, including:First terrace;And second step face, second
Height of the terrace relative to 100 bottom wall of disk body is less than height of the First terrace relative to 100 bottom wall of disk body.
As shown in Fig. 2 and Fig. 7, third wind shield 108 farther out from supporting rib 110, is not supported with supporting rib 110 and is changed together
Hot device 202, when installing heat exchanger 202, the heat exchanger tube on heat exchanger 202 is possible to encounter third wind shield 108, therefore by third
The top of wind shield 108 is set as First terrace and second step face, and the height in second step face is less than First terrace
Height, to when installing heat exchanger 202, heat exchanger tube and second step face reduce heat exchanger tube and exist at a distance from keeping larger
The possibility collided with when installation.
Embodiment 3
As shown in figure 4, according to the utility model proposes one embodiment drip tray 10, on the basis of embodiment 1,
Three pieces of wind shields of embodiment 1 are changed to three pieces of baffle plates 112.
That is the first wind shield 104 is changed to the first baffle plate 112, and the second wind shield 106 is changed to the second baffle plate 112, third
Wind shield 108 is changed to third baffle plate 112.
By the way that wind shield is changed to baffle plate 112, and the angle of three pieces of baffle plates 112 is respectively different, makes three pieces of baffle plates
112 form labyrinth structure, and when wind being made to pass through baffle plate 112, wind direction changes with the angle difference of each baffle plate 112,
Wind direction path is winding with the path change of labyrinth structure, to which wind speed is affected, is formed in 102 side of osculum negative
Air draught blind area is pressed, the influence that air-conditioning return air drains osculum 102 is reduced, meanwhile, multiple baffle plates 112 are intervally arranged, shape
At multiple water stream channels, the speed that flow is converged to osculum 102 is improved, and then improve drainage speed.
Embodiment 4
As shown in figure 5, according to the utility model proposes one embodiment drip tray 10, difference from Example 1
It is, the shape of drip tray 10 is not strip, and the position of osculum 102 is arranged in the position at 10 middle part of drip tray, for this purpose, this
Embodiment is surrounded by multiple baffle plates 112 osculum 102, dislocation arrangement is spaced between multiple baffle plates 112, construction is in
Labyrinth structure reduces the influence that air-conditioning return air drains osculum 102 to form negative-pressure air-suction blind area at osculum 102,
Meanwhile multiple baffle plates 112 are intervally arranged, and form multiple water stream channels, improve the speed that flow is converged to osculum 102,
And then improve drainage speed.
Embodiment 5
According to the utility model proposes one embodiment drip tray 10, based on embodiment 4, but with embodiment 4
It is not exactly the same, the difference is that, the labyrinth structure of the present embodiment is constructed by one piece of bending of baffle plate 112.
By the way that a baffle plate 112 is arranged in disk body 100, which constructs labyrinth structure in bending-like, can
To simplify structure, and the globality of labyrinth structure is improved, and then improve the globality of drip tray 10, to improve intensity and peace
The facility of dress.
It is important to note that the labyrinth structure of one piece of bending construction of baffle plate 112, may influence flow convergence
Mistake is arranged it can be considered to which the height of different bending parts is set as different, or in different bending parts in speed
The hole through baffle plate 112 of position arrangement, to improve the coalescence rate of flow, what flow was unsmooth when reduction water is excessive can
Energy.
Embodiment 6
According to the utility model proposes one embodiment drip tray 10, difference from Example 1 is, osculum
102 leeward side is only provided with the first wind shield 104, is both provided in the plate face windward and leeward plate face of the first wind shield 104
One layer of damping material.
By being both provided with damping material in the plate face windward of the first wind shield 104 and leeward plate face, can be greatly reduced
Wind speed near osculum 102 forms negative-pressure air-suction blind area in 102 side of osculum, reduces air-conditioning return air and drained to osculum 102
Influence, meanwhile, damping material is set on the first wind shield 104, reduces the quantity of wind shield, is expanded in drip tray 10
Space, be convenient for flow convergence, also allow for Fast Installation.
Embodiment 7
As shown in Figure 6 to 8, according to the utility model proposes one embodiment air-conditioning, using any of the above-described real
Apply the drip tray 10 of example.
As shown in Fig. 6 and Fig. 8, drip tray 10 is arranged below the heat exchanger 202 of air-conditioning, and heat exchanger 202 is placed on water receiving
On the supporting rib 110 of disk 10, the condensing drip on heat exchanger 202, which falls behind, to be entered in drip tray 10, is inclined by 10 bottom wall of drip tray
Osculum 102 of the oblique inner surface flow direction positioned at lowest point discharges.
By using the drip tray 10 of any of the above-described a embodiment, to have whole advantageous effects of above example,
Details are not described herein.
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,
Negative-pressure air-suction blind area is formed in osculum side, reduces influence of the air-conditioning return air to water drainage, and the knot of the utility model
Structure is simple, and easy to produce and Fast Installation also advantageously improves the intensity of drip tray.
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 (12)
1. a kind of drip tray is used for air-conditioning, which is characterized in that including:
Disk body is equipped with osculum;
Damping structure is set in the disk body, and the damping structure is adjacent to the osculum, wherein the osculum is located at institute
State the windward side or leeward side of damping structure.
2. drip tray according to claim 1, which is characterized in that the damping structure includes:
At least one piece of wind shield, the osculum are located at the position opposite with the plate face windward of the wind shield, or positioned at
At the opposite position of the leeward plate face of the wind shield.
3. drip tray according to claim 1, which is characterized in that the damping structure includes labyrinth structure.
4. drip tray according to claim 3, which is characterized in that multiple baffle plates are equipped in the disk body, it is multiple described
Baffle plate, which is intervally arranged, constructs the labyrinth structure, or
It is set in the disk body there are one baffle plate, the baffle plate constructs the labyrinth structure in bending-like.
5. drip tray according to claim 2, which is characterized in that when the quantity of the wind shield is polylith, at least one piece
Height of the top of the wind shield relative to the disk body bottom wall is less than the top of other wind shields relative to the disk
The height of body bottom wall.
6. drip tray according to claim 2, which is characterized in that the wind shield quantity is polylith, including:
First wind shield;
Second wind shield is set between first wind shield and the osculum;
Third wind shield is set between second wind shield and the osculum,
Wherein, the length of the third wind shield is differed with the length of first wind shield or second wind shield.
7. drip tray according to claim 6, which is characterized in that further include:
Supporting rib, the length direction along the disk body are arranged, and are used to support the heat exchanger of the air-conditioning;
The top of at least one of first wind shield, second wind shield, the third wind shield is relative to described
The height of disk body bottom wall is equal relative to the height of disk body bottom wall with the top of the supporting rib.
8. drip tray according to claim 7, which is characterized in that first wind shield and second wind shield, institute
It states third wind shield and the osculum is set to the either end of the supporting rib length direction,
Wherein, first wind shield is set between the supporting rib and second wind shield.
9. drip tray according to claim 8, which is characterized in that the top of the third wind shield, including:
First terrace;And
It is opposite to be less than the First terrace for second step face, height of the second step face relative to the disk body bottom wall
In the height of the disk body bottom wall.
10. drip tray according to any one of claim 1 to 9, which is characterized in that the damping structure and the water receiving
Disk is an integral structure.
11. drip tray according to any one of claim 1 to 9, which is characterized in that the inner surface of the disk body bottom wall is
Inclined surface, the osculum are located at the minimum point of the inclined surface.
12. a kind of air-conditioning, which is characterized in that including the drip tray described in any one of claim 1 to 11.
Priority Applications (1)
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CN201721780251.1U CN207610354U (en) | 2017-12-15 | 2017-12-15 | Drip tray and air-conditioning |
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CN201721780251.1U CN207610354U (en) | 2017-12-15 | 2017-12-15 | Drip tray and air-conditioning |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113623852A (en) * | 2020-05-09 | 2021-11-09 | 宁波奥克斯电气股份有限公司 | Water pan and ducted air conditioner |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN113623852A (en) * | 2020-05-09 | 2021-11-09 | 宁波奥克斯电气股份有限公司 | Water pan and ducted air conditioner |
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