CN106705402B

CN106705402B - Condensed water drainage structure of split wall-mounted inner machine

Info

Publication number: CN106705402B
Application number: CN201611034991.0A
Authority: CN
Inventors: 杨为标; 周梦然
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2016-11-09
Filing date: 2016-11-09
Publication date: 2022-09-13
Anticipated expiration: 2036-11-09
Also published as: CN106705402A

Abstract

The invention relates to the field of air conditioners, in particular to a condensed water drainage structure of a split wall-mounted indoor unit, which is provided with a drainage outlet for draining condensed water, wherein a blocking component which is suitable for water flow to pass through and blocks dirt is arranged on the drainage outlet in the direction facing to the water flow. The invention aims to solve the technical problem that a water outlet of a water receiving disc of a bottom shell of a split wall-mounted indoor unit in the prior art is easy to block, and further provides a condensed water discharging structure of the split wall-mounted indoor unit with a long cleaning period.

Description

Condensed water drainage structure of split wall-mounted internal unit

Technical Field

The invention relates to the field of air conditioners. In particular to a condensed water drainage structure of a split wall-mounted indoor unit.

Background

When the air conditioner is in refrigerating operation, when indoor air flows through the evaporator of the indoor unit of the air conditioner to exchange heat, water vapor in the air is condensed to form condensed water, and the condensed water falls into the integrated water pan of the bottom pan of the split wall-mounted indoor unit and flows out through the drain pipe along the drain port of the water pan of the bottom pan of the split wall-mounted indoor unit.

In the prior art, a water outlet of a water pan of a bottom shell of a split wall-mounted indoor unit does not have any anti-dirt blocking structure, dirt such as dust, fibers, fungi, insect corpses and the like is collected at a water outlet at the bottom of the water pan along condensed water, flows into a built-in heat preservation water drain pipe and an external blow molding water drain pipe from the water outlet and is discharged outdoors. In this condensate flow in-process, the less outlet of diameter is flowed into from the water collector bottom in great space to the comdenstion water, carry during foreign matter such as dust flows into inlet and outlet pipe fast, because the wall hanging drain pipe of branch is longer, the pipeline appears the condition of height fluctuation along with the position of installation easily during the installation, foreign matter such as dust easily flows into the drain pipe and is detained in relative low-lying department from water collector bottom outlet, thereby appear blockking up, the comdenstion water is concentrated and can't be got rid of in the water collector, the time overflows the water collector for a long time, lead to leaking in the air conditioner short time, consequently, need often clear up.

The utility model provides a common mode that prevents that water pipeline from blockking up is at the water inlet setting grate, but the bore itself of the outlet of components of a whole that can function independently hanging inner unit drain pan water collector is very little, sets up the grate again and can make outlet flow area reduce more, and the velocity of condensed water sharply increases, carries debris such as dust and can block up in the grate gap in the twinkling of an eye, makes the clearance cycle shorten after on the contrary.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is that a water outlet of a water receiving tray of a bottom shell of the split wall-mounted indoor unit in the prior art is easy to block, and a condensed water discharging structure of the split wall-mounted indoor unit with a long cleaning period is further provided.

In order to solve the technical problem, the condensed water drainage structure of the split wall-mounted indoor unit comprises a drainage port for draining condensed water, and a blocking component which is suitable for water flow to pass through and blocks dirt is arranged on the drainage port in the direction facing the water flow.

The blocking parts are a plurality of columns which are distributed at intervals along the periphery of the water outlet and provided with two surfaces, and the two surfaces are connected on an intersection line at an included angle; the intersection line is back to the water outlet and is parallel to the axis of the water outlet, so that the gap formed between the two columns is gradually reduced along the water flow direction.

The included angle is e, and e is more than or equal to 5 degrees and less than or equal to 80 degrees.

25°≤e≤35°。

The column body is a triangular column.

The triangular column cross-section is isosceles triangle, and the apex angle bisector of isosceles triangle crosses the center setting of outlet.

The vertex angle of the triangular column is c, and c is more than or equal to 1mm and less than or equal to 30 mm.

4mm≤c≤15mm。

The triangular columns are uniformly distributed around the water outlet in a circle.

The height of the column body is a, and a is more than 0 and less than or equal to 12 mm.

The height a of the triangular column is more than or equal to 4 and less than or equal to 6 mm.

The distance between the columns is d, and d is more than or equal to 1mm and less than or equal to 5 mm.

2.5mm≤d≤4mm。

The distance between the cylinder and the nearest side of the edge of the water outlet in the radial direction is b, and b is more than or equal to 0mm and less than or equal to 30 mm.

0mm≤b≤10mm。

The blocking component is an annular convex edge arranged around the periphery of the water outlet.

The outer side surface of the annular convex edge is an inclined surface.

The difference between the outer diameter and the inner diameter of the upper surface of the annular convex edge is D, and D is more than or equal to 0mm and less than or equal to 5 mm.

The difference between the outer diameter and the inner diameter of the lower surface of the annular convex edge is E, and E is more than or equal to 3mm and less than or equal to 5 mm.

The height of the annular convex edge is H, and H is more than or equal to 4mm and less than or equal to 6 mm.

Compared with the prior art, the technical scheme of the invention has the following advantages,

1. in the condensed water drainage structure of the split wall-mounted indoor unit, the drainage port is used for draining condensed water, the blocking part which is suitable for water flow to pass through and blocks dirt is arranged on the drainage port in the direction facing the water flow direction, namely, the drainage port of the water pan is provided with the blocking part which can not only allow the condensed water to pass through but also block the dirt, so that the dirt is not easy to block the drainage pipe, and the cleaning period can be greatly prolonged.

2. In the condensed water drainage structure of the split wall-mounted indoor unit, the blocking part is a plurality of columns which are distributed at intervals along the periphery of the drainage outlet and provided with two surfaces, and the two surfaces are connected with each other at an intersection line at an included angle; the intersection line is back to the water outlet and is parallel to the axis of the water outlet, so that a gap formed between the two cylinders is gradually reduced along the water flow direction, the gap between the two cylinders is gradually reduced in the flowing direction of condensed water, the flowing space of the condensed water is gradually reduced, the flowing speed is slowly increased, and wrapped dirt such as dust is more easily deposited in the larger space of the gap. And the cylinder has the guide effect to rivers, and the guide comdenstion water flows into the outlet from the gap between the cylinder, and then discharges from the drain pipe, and flowing water is more smooth and easy, and in this process, the foreign matter such as dust, fibre, fungi of wrapping up in by the band is blockked in the cylinder outside, is detained in the great drain pan in space. Even when the gaps are blocked by more impurities such as dust on the outer side of the column body, condensed water can flow into the water inlet and outlet through the column body, and a drainage system is difficult to block in a short time, so that the cleaning period is prolonged, and the impurities are accumulated in the water receiving disc in a concentrated mode and are easier to clean than the impurities blocked in the drainage pipe.

3. In the condensed water drainage structure of the split wall-mounted indoor unit, the included angle is e, and e is more than or equal to 5 degrees and less than or equal to 80 degrees, so that dirt is easier to guide, preferably, e is more than or equal to 25 degrees and less than or equal to 35 degrees, and the guide effect is better.

4. In the condensed water drainage structure of the split wall-mounted indoor unit, the column is a triangular column, so that the structure is simple and the water flow can be guided easily.

5. In the condensed water drainage structure of the split wall-mounted indoor unit, the section of the triangular column is an isosceles triangle, and the bisector of the vertex angle of the isosceles triangle passes through the center of the drainage outlet, so that water flows on two sides of the triangular column are the same, and the water flows can flow out more uniformly.

6. In the condensed water drainage structure of the split wall-mounted indoor unit, the triangular columns are uniformly distributed around the drainage port for one circle, water flows into the drainage port from any direction, and dirt can be blocked by the triangular columns.

7. In the condensed water drainage structure of the split wall-mounted indoor unit, the height of the cylinder is a, and a is more than 0 and less than or equal to 12mm, namely the height of the cylinder is very small relative to the whole water pan, so that the drainage of condensed water cannot be influenced even if dirt is accumulated around the cylinder, and meanwhile, the dirt can be blocked.

8. In the condensed water drainage structure of the split wall-mounted indoor unit, the distance between the cylinders is d, d is more than or equal to 1mm and less than or equal to 5mm, and is far less than the diameter of the drainage port, so that easily blocked dirt is not easy to flow into the drainage pipe.

9. In the condensed water drainage structure of the split wall-mounted indoor unit, the blocking component is an annular convex edge arranged around the periphery of the drainage outlet, namely, condensed water firstly flows through the bottom of the anti-dirty blocking rib, the flowing speed is reduced under the blockage of the anti-dirty blocking rib, foreign matters such as wrapped dust and the like are slowly deposited on the outer side of the rib, the condensed water overflows into the drainage outlet from the upper part of the rib and is drained from the drainage pipe, the blockage of a drainage system is difficult to cause in a short time, the cleaning period is prolonged, and sundries are concentrated and accumulated in the water receiving disc and are easier to clean in the drainage pipe than the blockage.

Drawings

In order that the present disclosure may be more readily and clearly understood, reference is now made to the following detailed description of the embodiments of the present disclosure taken in conjunction with the accompanying drawings, in which

Fig. 1 is a top view of a condensed water drainage structure of a split wall-mounted indoor unit according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

fig. 3 is a top view of the condensation water drainage structure of the split wall-mounted indoor unit with the triangular cross section of the blocking component according to the embodiment of the invention;

fig. 4 is a top view of the split wall-mounted indoor unit condensed water drainage structure with the blocking component uniformly distributed at the drain outlet according to an embodiment of the invention;

fig. 5 is a top view of the split wall-mounted indoor unit condensed water drainage structure in which the blocking component is an annular convex edge according to an embodiment of the present invention;

FIG. 6 is an axial cross-sectional view of FIG. 5;

fig. 7 is an axial sectional view of a condensed water drainage structure of the split wall-mounted indoor unit, wherein the blocking component is an annular convex edge and the outer side surface of the blocking component is an inclined surface in one embodiment of the invention;

fig. 8 is an axial sectional view of another wall-mounted indoor unit condensate water drainage structure with a blocking component being an annular convex edge and an outer side surface being an inclined surface according to an embodiment of the invention.

The reference numbers in the figures denote: 1-drainage structure, 2-blocking part, 3-drainage port, 4-water pan, and 5-bottom shell bottom.

Detailed Description

Example 1

This embodiment components of a whole that can function independently hanging indoor unit condensate water drainage structure 1, as shown in fig. 1, 2, outlet 3 sets up on water collector 4 outlet 3 is provided with towards the rivers direction and is suitable for rivers to pass through and carry out the part 2 that blocks to the foul, is provided with promptly in outlet 3 department of water collector 4 and can make the comdenstion water pass through, can block the foul again, therefore the foul is difficult to lead to the fact the jam to the drain pipe, and consequently the clearance cycle can be prolonged greatly. In this embodiment, the blocking component 2 is a plurality of cylinders which are distributed along the periphery of the drain outlet 3 at intervals and have two faces, the two faces are connected with an included angle at an intersection line, the included angle e is 25 degrees, the intersection line is back to the drain outlet 3 and is parallel to the axis of the drain outlet 3, so that a gap formed between the two cylinders is gradually reduced along the water flow direction, because the gap between the two cylinders is gradually reduced in the flowing direction of the condensed water, the flowing space of the condensed water is gradually reduced, the flowing speed is slowly increased, and the wrapped impurities such as dust are more easily deposited in the larger space of the gap. And the cylinder has the guide effect to rivers, and the guide comdenstion water flows into outlet 3 from the gap between the cylinder, and then discharges from the drain pipe, and the flowing water is more smooth and easy, and in this process, dirt such as the dust, fibre, fungi of wrapping up in by the cylinder outside is stopped, is detained in the big drain pan in space. Even if the gaps are blocked by more impurities such as dust on the outer side of the column, condensed water can flow through the water inlet and outlet 3 of the column, and a drainage system is difficult to block in a short time, so that the cleaning period is prolonged, and the impurities are accumulated in the water receiving disc 4 in a concentrated manner and are easier to clean than the impurities blocked in the drainage pipe. In this embodiment, the height a of the column is 4mm, and the radial distance b from the nearest side of the edge of the drain opening 3 to the column is 5 mm. The closest distance d between the cylinders is 2.5 mm.

Example 2

This embodiment machine condensed water drainage structures 1 is hung to components of a whole that can function independently hanging, as shown in fig. 3, sets up machine drain pan bottom 5 is hung to components of a whole that can function independently hanging, drain pan bottom 5 and water collector 4 coincidence, and the drain pan uses as water collector 4 promptly, be provided with its outlet 3 that is used for discharging the comdenstion water on the drain pan it is provided with to rivers direction outlet 3 is met and is suitable for rivers to pass through and carry out the part 2 that blocks that stops in this embodiment 3 peripheral interval distribution's of outlet a plurality of have two faces just two faces link to each other at the cylinder of a traffic line with an contained angle, the cylinder is the triangular prism, the angle e of contained angle is 30. The apex angle height c of the triangular prism is 4mm, the height a of the triangular prism is 5mm, and the radial distance of the cylinder from the nearest side b of the edge of the water outlet 3 is 5 mm. The closest distance d between the cylinders is 3 mm.

Example 3

This embodiment machine condensed water drainage structures 1 is hung to components of a whole that can function independently hanging, as shown in fig. 3, sets up machine drain pan bottom 5 is hung to components of a whole that can function independently hanging, drain pan bottom 5 and water collector 4 coincidence, and the drain pan uses as water collector 4 promptly, be provided with its outlet 3 that is used for discharging the comdenstion water on the drain pan it is provided with to rivers direction 3 shang is suitable for rivers to pass through and stops part 2 that blocks that the foul blocks in this embodiment block part 2 for following a plurality of 3 peripheral interval distributions in outlet have two faces just two faces link to each other the cylinder at an intersection line with an contained angle, the cylinder is the triangular prism, the cross section of cylinder is isosceles triangle, the angle e of contained angle is 35. The apex angle height c of the triangular prism is 15mm, the height a of the triangular prism is 6mm, and the radial distance of the cylinder from the nearest side b of the edge of the water outlet 3 is 10 mm. The closest distance d between the cylinders is 4 mm.

Example 4

This embodiment machine condensed water drainage structures 1 is hung to components of a whole that can function independently hanging, as shown in fig. 3, sets up machine drain pan bottom 5 is hung to components of a whole that can function independently hanging, drain pan bottom 5 and water collector 4 coincidence, and the drain pan uses as water collector 4 promptly, be provided with its outlet 3 that is used for discharging the comdenstion water on the drain pan it is provided with to rivers direction 3 that the outlet is met and is suitable for rivers to pass through and carry out the part 2 that blocks that stops that the foul blocks in this embodiment 3 peripheral interval distribution's a plurality of have two faces just two faces link to each other at the cylinder of a cross line with an contained angle, the cross section of cylinder is isosceles triangle, the angle e of contained angle is 5. The apex angle height c of triangular prism is 1mm, triangular prism height a is 1mm, the cylinder radial distance 3 edge nearest side's distance b is 30mm in outlet. The closest distance d between the columns is 1 mm. The triangular columns are uniformly distributed around the water outlet 3 for a circle, water flows into the water outlet 3 from any direction, and dirt can be blocked by the triangular columns.

Example 5

Fig. 4 is this embodiment machine comdenstion water drainage structures 1 in components of a whole that can function independently hanging sets up machine drain pan bottom 5 in components of a whole that can function independently hanging, drain pan bottom 5 and water collector 4 coincidence, and the drain pan uses as water collector 4 promptly, be provided with its outlet 3 that is used for discharging the comdenstion water on the drain pan outlet 3 meet to rivers direction and be provided with and be suitable for rivers to pass through and carry out the part 2 that blocks that stops to the foul, in this embodiment block that part 2 is for following a plurality of the peripheral interval distribution of outlet 3 have two faces just two faces link to each other the cylinder at an intersection line with an contained angle, the cross section of cylinder is isosceles triangle, the angle e of contained angle is 80. The apex angle height c of the triangular prism is 30mm, the height a of the triangular prism is 12mm, and the radial distance of the cylinder from the nearest side of the edge of the water outlet 3 is 0 mm. The closest distance d between the cylinders is 5 mm. The triangular columns are uniformly distributed around the water outlet 3 for a circle, water flows into the water outlet 3 from any direction, and dirt can be blocked by the triangular columns.

Example 6

Fig. 5 and 6 show that this embodiment is the condensed water drainage structure 1 of the indoor unit of the split wall-hanging machine, which has a water outlet 3 for discharging condensed water, the water outlet 3 is provided with a blocking component 2 which is suitable for water to pass through and blocks dirt in the direction of water flow, that is, the water outlet 3 of the water pan 4 is provided with a blocking component which can make the condensed water pass through and block the dirt, so that the dirt is not easy to block the water discharge pipe, and therefore the cleaning period can be greatly prolonged. In this embodiment the barrier member 2 is for encircleing the annular protruding stupefied that 3 peripheries of outlet set up, the stifled muscle bottom of dirty stifled muscle bottom of preventing is at first flowed through to the comdenstion water, under the stifled muscle of preventing hinders, flow speed reduces, and the foreign matter such as the dust of wrapping up in the palm slowly deposits the muscle outside, and the comdenstion water then overflows into outlet 3 from muscle upper portion, discharges from the drain pipe again, hardly causes drainage system to block up in the short time to prolong clearance cycle, debris concentrate pile up in water collector 4 than blockking up in the drain pipe clearance more easily moreover. The height of the annular convex edge is H, and H in the embodiment is 4 mm. The difference of annular stupefied upper surface external diameter and internal diameter is D, and D is 3mm in this embodiment.

Example 7

Fig. 7 shows that the indoor unit comdenstion water drainage structures 1 of components of a whole that can function independently hanging of this embodiment, it has the outlet 3 that is used for discharging the comdenstion water the outlet 3 is provided with towards rivers direction and is suitable for rivers to pass through and carry out the barrier unit 2 that blocks to the foul, is provided with in outlet 3 department of defrosting pan 4 promptly and can make the comdenstion water pass through, can block the foul again, therefore the foul is difficult to cause the jam to the drain pipe, therefore the clearance cycle can be prolonged greatly. In this embodiment the barrier member 2 is for encircleing the annular protruding stupefied that 3 peripheries of outlet set up, the stifled muscle bottom of dirty stifled muscle bottom of preventing is at first flowed through to the comdenstion water, under the stifled muscle of preventing hinders, flow speed reduces, and the foreign matter such as the dust of wrapping up in the palm slowly deposits the muscle outside, and the comdenstion water then overflows into outlet 3 from muscle upper portion, discharges from the drain pipe again, hardly causes drainage system to block up in the short time to prolong clearance cycle, debris concentrate pile up in water collector 4 than blockking up in the drain pipe clearance more easily moreover. The height of the annular convex edge is H, and H is 6mm in the embodiment. The outer side surface of the annular convex edge is an inclined surface. The difference between the outer diameter and the inner diameter of the upper surface of the annular convex edge is D, and D is 0mm in the embodiment. The difference E between the outer diameter and the inner diameter of the lower surface of the annular convex edge is 3 mm.

Example 8

Fig. 8 shows that the indoor unit comdenstion water drainage structures 1 of components of a whole that can function independently hanging of this embodiment, it has the outlet 3 that is used for discharging the comdenstion water the outlet 3 is provided with towards rivers direction and is suitable for rivers to pass through and carry out the barrier unit 2 that blocks to the foul, is provided with in outlet 3 department of defrosting pan 4 promptly and can make the comdenstion water pass through, can block the foul again, therefore the foul is difficult to cause the jam to the drain pipe, therefore the clearance cycle can be prolonged greatly. In this embodiment the barrier member 2 is for encircleing the annular protruding stupefied that 3 peripheries of outlet set up, the stifled muscle bottom of dirty stifled muscle bottom of preventing is at first flowed through to the comdenstion water, under the stifled muscle of preventing hinders, flow speed reduces, and the foreign matter such as the dust of wrapping up in the palm slowly deposits the muscle outside, and the comdenstion water then overflows into outlet 3 from muscle upper portion, discharges from the drain pipe again, hardly causes drainage system to block up in the short time to prolong clearance cycle, debris concentrate pile up in water collector 4 than blockking up in the drain pipe clearance more easily moreover. The height of the annular convex edge is H, and H is 6mm in the embodiment. The outer side surface of the annular convex edge is an inclined surface. The difference of annular protruding stupefied upper surface external diameter and internal diameter is D, and D is 2mm in this embodiment. The difference E between the outer diameter and the inner diameter of the lower surface of the annular convex edge is 5 mm.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims

1. A condensed water drainage structure of a split wall-mounted indoor unit is provided with a water outlet (3) for discharging condensed water, and is characterized in that a blocking component (2) which is suitable for water flow to pass through and blocks dirt is arranged on the water outlet (3) in the direction facing the water flow;

the blocking parts (2) are a plurality of columns which are distributed at intervals along the periphery of the water outlet (3) and provided with two faces, and the two faces are connected on an intersection line at an included angle; the intersecting line is back to the water outlet (3) and is parallel to the axis of the water outlet (3), so that the gap formed between the two columns is gradually reduced along the water flow direction.

2. The water drainage structure of the split wall-mounted indoor unit condensed water as claimed in claim 1, wherein the included angle is e, and e is greater than or equal to 5 degrees and less than or equal to 80 degrees.

3. The water drainage structure of the split wall-mounted indoor unit for condensed water as claimed in claim 2, wherein e is more than or equal to 25 degrees and less than or equal to 35 degrees.

4. The split wall-mounted indoor unit condensed water drainage structure according to claim 1, wherein the cylinder is a triangular prism.

5. The drainage structure of condensed water in a split wall-mounted indoor unit as claimed in claim 4, wherein the cross section of the triangular column is an isosceles triangle, and the bisector of the vertex angle of the isosceles triangle passes through the center of the drainage outlet (3).

6. The water drainage structure of the split wall-mounted indoor unit condensed water as claimed in claim 5, wherein the vertex angle of the triangular prism is c, and c is greater than or equal to 1mm and less than or equal to 30 mm.

7. The condensed water drainage structure of the split wall-mounted indoor unit according to claim 6, wherein c is more than or equal to 4mm and less than or equal to 15 mm.

8. The split wall-mounted indoor unit condensed water drainage structure according to any one of claims 4 to 7, wherein the triangular columns are uniformly distributed around the water outlet (3) for one circle.

9. The condensed water drainage structure of the split wall-mounted indoor unit as claimed in any one of claims 4 to 7, wherein the height of the cylinder is a, and 0< a is less than or equal to 12 mm.

10. The indoor unit condensed water drainage structure of the split wall hanging device according to claim 9, wherein a is not less than 4mm and not more than 6 mm.

11. The indoor unit condensed water drainage structure of the split wall hanging machine as claimed in any one of claims 1 to 7, wherein the closest distance between the cylinders is d, and d is more than or equal to 1mm and less than or equal to 5 mm.

12. The water drainage structure of the split wall-mounted indoor unit condensed water as claimed in claim 11, wherein d is more than or equal to 2.5mm and less than or equal to 4 mm.

13. The indoor unit condensed water drainage structure of the split wall-mounted unit as claimed in any one of claims 1 to 7, wherein the distance between the radial direction of the cylinder and the nearest side of the edge of the water outlet (3) is b, and b is more than or equal to 0mm and less than or equal to 30 mm.

14. The indoor unit condensed water drainage structure of the split wall hanging machine according to claim 13, wherein b is more than or equal to 0mm and less than or equal to 10 mm.