CN113819533A - Humidification structure and air conditioner with same - Google Patents

Abstract

The invention provides a humidifying structure and an air conditioner with the same, wherein the humidifying structure comprises an atomizing cavity, and the humidifying structure comprises: the first end of the mist outlet pipe is communicated with the atomizing cavity; the first end of the water discharge pipe is communicated with the atomization cavity; the circulation assembly comprises a circulation cavity, the second end of the mist outlet pipe and the second end of the drain pipe are both communicated with the circulation cavity, and the circulation assembly is provided with an outflow port communicated with the circulation cavity. The humidifying structure solves the problem that the humidifying structure in the prior art occupies a large space.

Description

Humidification structure and air conditioner with same

Technical Field

The invention relates to the field of air conditioners, in particular to a humidifying structure and an air conditioner with the same.

Background

Most of the existing air conditioners with the humidifying function are basically realized by arranging the humidifying module.

In current atomizing humidification module, need possess drainage and play fog function usually, and drainage and play fog function need separately set up corresponding structure among the general atomizing humidification module and realize, and then make not only structural assembly of atomizing humidification module complicated, and shared air conditioner inner space is big.

Disclosure of Invention

The invention mainly aims to provide a humidifying structure and an air conditioner with the same, and aims to solve the problem that the humidifying structure in the prior art occupies a large space.

In order to achieve the above object, according to one aspect of the present invention, there is provided a humidifying structure including an atomizing chamber, including: the first end of the mist outlet pipe is communicated with the atomizing cavity; the first end of the water discharge pipe is communicated with the atomization cavity; the circulation assembly comprises a circulation cavity, the second end of the mist outlet pipe and the second end of the drain pipe are both communicated with the circulation cavity, and the circulation assembly is provided with an outflow port communicated with the circulation cavity.

Further, the flow-through assembly comprises: the first end of the circulating pipe is used for being connected with the second end of the mist outlet pipe and the second end of the drain pipe, and the second end of the circulating pipe is used for forming an outflow port; the circulation cavity is a tube cavity of the circulation tube.

Further, the flow-through assembly further comprises: the first interface of the first three-way joint is connected with the first end of the circulating pipe, the second interface of the first three-way joint is connected with the second end of the mist outlet pipe, and the third interface of the first three-way joint is connected with the second end of the drain pipe.

Further, the humidifying structure includes: and the first tightening part is matched with the first tee joint to tighten the flow pipe, the fog outlet pipe and the drain pipe on the first tee joint.

Further, the length of the circulating pipe is greater than or equal to that of the mist outlet pipe; and/or the length of the circulation pipe is greater than or equal to the length of the drain pipe.

Further, the humidification structure further includes: the water outlet component is arranged at the flow outlet and comprises a drainage connector and a mist outlet connector which are arranged at intervals.

Further, an opening of the drainage interface is arranged downwards; and/or the opening of the fog outlet interface is arranged towards the horizontal direction; and/or the mist outlet interface is positioned above the water outlet.

Furthermore, the water outlet component is a second three-way joint, one interface of the second three-way joint is communicated with the circulating pipe, one interface of the second three-way joint is a water drainage interface, and the other interface of the second three-way joint is a fog outlet interface; and/or the humidifying structure further comprises a second clamping component which is matched with the water outlet component so as to clamp the water outlet component and the flow-through assembly.

Further, the humidifying structure includes: the atomization cavity is arranged in the atomization shell; the bottom of the atomization shell is provided with a water outlet, and the upper part of the atomization shell is provided with a mist outlet; and the drainage assembly is arranged on the atomization shell, and at least part of the drainage assembly is movably arranged to open or close the drainage port.

According to another aspect of the present invention, there is provided an air conditioner including a scroll assembly for forming an air duct and a humidifying structure provided on the scroll assembly.

Furthermore, the volute component comprises a first volute, a second volute and a wind shield which are sequentially arranged along a preset direction, the air channel comprises a first air channel section and a second air channel section which are communicated with each other, the first air channel section is arranged between the first volute and the second volute, and the second air channel section is arranged on the second volute and the wind shield; wherein, the humidification structure sets up the one side of keeping away from the second spiral case at the deep bead.

Furthermore, a fog outlet interface of the humidifying structure is communicated with the second air duct section; or the fog outlet interface of the humidifying structure is positioned at the outer side of the volute component.

According to the technical scheme, the humidifying structure comprises an atomizing cavity, the humidifying structure comprises a mist outlet pipe, a water discharge pipe and a circulation assembly, the first end of the mist outlet pipe is communicated with the atomizing cavity, the first end of the water discharge pipe is communicated with the atomizing cavity, the circulation assembly is provided with a circulation cavity, the second end of the mist outlet pipe and the second end of the water discharge pipe are both communicated with the circulation cavity, and the circulation assembly is provided with an outflow port communicated with the circulation cavity. Like this, go out fog pipe and drain pipe unite two into one, let a mouth of pipe possess simultaneously and go out fog and drainage function, can omit the equipment process of fog pipe and drain pipe for the play fog and the drainage simple structure of the humidification structure in the air conditioner, and the assembly is simple, and occupation space is little, and it is convenient to maintain.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows a schematic view of a piping structure of an embodiment of a humidifying structure according to the present invention;

fig. 2 is a schematic view showing an assembly of a humidifying structure according to an embodiment of the humidifying structure of the present invention on an air conditioner;

fig. 3 shows an assembly schematic of a humidifying structure according to an embodiment of the present invention;

fig. 4 shows an exploded schematic view of the humidifying structure according to fig. 3;

FIG. 5 illustrates a schematic structural view of a drain assembly according to an embodiment of the humidifying structure of the present invention; and

fig. 6 shows a schematic flow diagram of the airflow inside the atomizing assembly according to the embodiment of the humidifying structure of the present invention.

Wherein the figures include the following reference numerals:

1. an atomizing assembly; 10. an atomizing housing; 11. a water outlet; 12. a mist outlet; 13. a partition plate; 14. a baffle; 140. a wind guide opening; 15. a direct current fan; 100. an atomization chamber; 110. an atomizer; 20. a mist outlet pipe; 30. a drain pipe; 40. a flow-through assembly; 41. a first three-way joint; 42. a second three-way joint; 420. a water outlet component; 421. a water drainage interface; 422. a mist outlet interface; 411. a first interface; 412. a second interface; 413. a third interface; 400. a flow-through chamber; 401. a flow-through tube; 410. an outflow port; 51. a first tightening member; 52. a second tightening member; 501. an installation part; 502. a fastening section; 60. a drainage assembly; 600. a valve core; 61. a drainage ejector rod; 62. a drive motor; 63. a drainage sealing ring; 64. a spool bore; 65. a spring; 66. a valve body; 70. a wind deflector; 80. a rear cover; 90. a water storage tank; 91. a water inlet.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1 to 6, the present invention provides a humidifying structure, including an atomizing chamber 100, including: a first end of the mist outlet pipe 20 is communicated with the atomizing cavity 100; a drain pipe 30, a first end of the drain pipe 30 being communicated with the atomizing chamber 100; the circulation assembly 40, the circulation assembly 40 includes a circulation chamber 400, the second end of the mist outlet pipe 20 and the second end of the drain pipe 30 are both communicated with the circulation chamber 400, and the circulation assembly 40 has an outflow port 410 communicated with the circulation chamber 400.

In the present invention, the humidifying structure includes an atomizing cavity 100, the humidifying structure of the present invention includes a mist outlet pipe 20, a water discharge pipe 30 and a circulation component 40, a first end of the mist outlet pipe 20 is communicated with the atomizing cavity 100, and a first end of the water discharge pipe 30 is communicated with the atomizing cavity 100, the circulation component 40 has a circulation cavity 400, wherein a second end of the mist outlet pipe 20 and a second end of the water discharge pipe 30 are both communicated with the circulation cavity 400, and the circulation component 40 has an outflow port 410 communicated with the circulation cavity 400. Like this, go out fog pipe 20 and drain pipe 30 and unite two into one, let a mouth of pipe possess fog and drainage function simultaneously, can omit the equipment process of going out fog pipe 20 and drain pipe 30 for the play fog and the drainage simple structure of the humidification structure in the air conditioner, and the assembly is simple, and occupation space is little, and it is convenient to maintain.

As shown in fig. 2 to 4, the humidifying structure of the present invention includes: atomizing subassembly 1, back lid 80 and storage water tank 90, atomizing subassembly 1 is connected with storage water tank 90 to, atomizing subassembly 1 is located storage water tank 90's below, and back lid 80 is connected with atomizing subassembly 1, and back lid 80 is located atomizing subassembly 1's below. Wherein, the mist outlet pipe 20 and the water outlet pipe 30 are arranged on the rear cover 80 and are positioned below the rear cover 80.

As shown in fig. 6, the atomizing assembly 1 includes an atomizer 110, and the atomizer 110 has an atomizing chamber 100. Preferably, the atomizer 110 is an ultrasonic atomizer.

Specifically, the flow-through module 40 includes: and a flow pipe 401, a first end of the flow pipe 401 is used for connecting a second end of the mist outlet pipe 20 and a second end of the drain pipe 30, and a second end of the flow pipe 401 is used for forming an outflow port 410. Thus, the circulation pipe 401 integrates the mist outlet pipe 20 and the drain pipe 30 into a whole, so that the circulation pipe 401 has both the mist outlet function and the drainage function, the humidifying structure in the air conditioner is simplified, and the occupied space of the humidifying structure in the air conditioner is reduced.

Preferably, the flow-through tube 401 is a rubber tube.

In an embodiment of the present invention, as shown in fig. 1, the flow-through module 40 further comprises: in the first three-way joint 41, the first interface 411 of the first three-way joint 41 is connected with the first end of the circulating pipe 401, the second interface 412 of the first three-way joint 41 is connected with the second end of the mist outlet pipe 20, and the third interface 413 of the first three-way joint 41 is connected with the second end of the mist outlet pipe 20. The mist outlet pipe 20 and the water discharge pipe 30 are communicated with the circulation pipe 401 through the first three-way joint 41, so that the mist outlet pipe 20 and the water discharge pipe 30 are combined into one.

Preferably, in order to ensure the connection reliability of the circulation pipe 401, the mist outlet pipe 20 and the drain pipe 30, the humidifying structure includes: the first tightening part 51, the first tightening part 51 is matched with the first three-way joint 41 to tighten the flow pipe 401, and/or the mist outlet pipe 20, and/or the drain pipe 30 on the first three-way joint 41.

In a specific implementation of the embodiment of the present invention, the first tightening member 51 includes a mounting portion 501 and a fastening portion 502, and the mounting portion 501 is disposed around the outer circumference of the pipe body to which it is connected and then mounted to the fastening portion 502 by screws, thereby fixing the position of the first three-way joint 41. Next, since the mist outlet pipe 20 and the water outlet pipe 30 have expansion and contraction properties, both pipes can be securely connected and fastened to the first three-way joint 41 by interference fit. Alternatively, each interface of the first three-way joint 41 is at least partially provided with a fastening screw thread, so that the mist outlet pipe 20 and the water outlet pipe 30 are fixedly connected with the first three-way joint 41 through the fastening screw thread.

Specifically, the length of the circulation pipe 401 is greater than or equal to the length of the mist outlet pipe 20; and/or the length of the flow-through pipe 401 is greater than or equal to the length of the drain pipe 30.

In an embodiment of the present invention, the humidifying structure further includes: the water outlet part 420 is arranged at the flow outlet 410, and the water outlet part 420 comprises a drainage port 421 and a fog outlet port 422 which are arranged at intervals.

Specifically, as shown in fig. 1, the opening of the drain port 421 is disposed downward; and/or the opening of the mist outlet port 422 is arranged towards the horizontal direction; and/or the mist outlet port 422 is located above the drain port 421. When a drainage instruction is given, water flows to the drainage pipe 30 after passing through the humidifying structure and drains to the water receiving tray, and the opening of the drainage interface 421 is arranged downwards due to the heavy water quality and the slow flow rate; when the humidification instruction is given, the water mist flows to the mist outlet pipe 20 through the atomizing cavity 100, and does not flow through the drainage interface 421 because the water mist is light in weight and fast in flow speed, so that the mist outlet interface 422 is arranged along the horizontal direction and is arranged above the drainage interface 421.

In the specific implementation process of the embodiment of the present invention, the water outlet component 420 is a second three-way joint 42, one interface of the second three-way joint 42 is communicated with the flow pipe 401, one interface of the second three-way joint 42 is a water drainage interface 421, and the other interface of the second three-way joint 42 is a mist outlet interface 422; and/or the humidifying structure further comprises a second clamping member 52, wherein the second clamping member 52 is matched with the water outlet member 420 so as to clamp the water outlet member 420 and the flow-through assembly 40.

As shown in fig. 5 and 6, the humidifying structure includes: the atomization device comprises an atomization shell 10, wherein an atomization cavity 100 is arranged in the atomization shell 10; the bottom of the atomization shell 10 is provided with a water outlet 11, and the upper part of the atomization shell 10 is provided with a mist outlet 12; a drain assembly 60, the drain assembly 60 being disposed on the atomization housing 10, at least a portion of the drain assembly 60 being movably disposed to open or close the drain opening 11.

The humidifying structure of the present invention comprises a water storage tank 90, wherein the water storage tank 90 comprises a water inlet 91, the water inlet 91 is arranged at the uppermost part of the whole humidifying structure, and a drain pipe 30 of the humidifying structure of the present invention is arranged at the lowermost part of the whole humidifying structure, and can be communicated with the outside of the air conditioner after a mist outlet 12 is communicated with an air passage of a wind shield 70.

As shown in fig. 6, the atomizing assembly 1 includes a direct current fan 15, a baffle 14, and an air guide opening 140, the air guide opening 140 is communicated with a cavity where the direct current fan 15 is located, and an air flow blown out by the direct current fan 15 is blown out through the air guide opening 140; the air guiding opening 140 is disposed in a cavity surrounded by the air guiding plate 14, and the air guiding plate 14 which is close to one side of the atomizer 110 and extends in the vertical direction has a certain distance from the atomizer 110 to form an opening, so that the airflow blown out by the direct current fan 15 flows out of the opening along the flow guiding direction of the air guiding plate 14 and flows to the mist outlet 12 after being blown out from the air guiding opening 140.

Further, the partition 13 is disposed near the mist outlet 12 at a certain interval from the atomizer 110.

When the humidifying structure receives a humidifying instruction, the humidifying structure is started, the atomizer 110 and the direct current fan 15 start to work simultaneously, air flow blown out by the direct current fan 15 flows along the flow guide direction of the flow guide plate 14 after being blown out from the air guide opening 140, flows out to the upper side of the atomizer 110 from an opening between the flow guide plate 14 and the atomizer 110, passes through the atomizing cavity 100 and leads atomized water to the mist outlet 12, and water mist is discharged out of the humidifying structure.

Specifically, as shown in fig. 5, the drain assembly 60 includes a valve core 600, a drain seal 63, and a valve body 66, the valve core 600 is movably disposed in a valve core hole 64, specifically, the valve core holes 64 are plural, and the valve core holes 64 are disposed at intervals along the extending direction of the valve core 600; one end of the valve core 600 abuts against the drain sealing ring 63, and the other end of the valve core 600 is fixedly connected with the valve body 66, preferably, the valve body 66 has a valve core hole 64, and the valve core hole 64 of the valve body is in interference fit with the valve core 600 to open or close the drain port 11 through the valve body 66. Wherein the structural tightness of the entire drain assembly 60 is ensured by the drain packing 63.

The drain assembly 60 further includes: the valve comprises a drainage ejector rod 61, a driving motor 62 and a spring 65, wherein the drainage ejector rod 61 is provided with a boss abutted against one end of a drainage sealing ring 63, and the other end of the drainage sealing ring 63 is abutted against a valve core 600; the driving motor 62 is in driving connection with the drain ejector rod 61, and at least part of the outer periphery of the valve core 600 is provided with a spring 65.

When a drainage instruction of the humidifying structure is given, the driving motor 62 drives the drainage mandril 61 to rotate, the boss of the drainage mandril 61 pushes the drainage sealing ring 63 to deform along the extending direction of the valve core 600 and towards the cavity formed by the valve body 66, and the force applied to the valve core 600 by the drainage mandril 61 is greater than the elastic force of the spring 65, so that the valve core 600 moves along the extending direction, the valve body 66 opens the drainage outlet 11, and drainage is completed.

According to another aspect of the present invention, as shown in fig. 2, there is provided an air conditioner including a scroll assembly for forming an air duct and a humidifying structure provided on the scroll assembly.

Specifically, the volute assembly comprises a first volute, a second volute and a wind shield 70 which are sequentially arranged, the air duct comprises a first air duct section and a second air duct section which are communicated with each other, the first air duct section is arranged between the first volute and the second volute, and the second air duct section is arranged on the second volute and the wind shield 70; wherein, the humidifying structure is arranged on one side of the wind deflector 70 far away from the second volute and is fixed on the wind deflector 70 through screws.

Specifically, the humidifying structure is the above humidifying structure, and the mist outlet port 422 of the humidifying structure is communicated with the second air duct section; or the mist outlet port 422 of the humidifying structure is located outside the volute assembly.

From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:

in the present invention, the humidifying structure includes an atomizing cavity 100, the humidifying structure of the present invention includes a mist outlet pipe 20, a water discharge pipe 30 and a circulation component 40, a first end of the mist outlet pipe 20 is communicated with the atomizing cavity 100, and a first end of the water discharge pipe 30 is communicated with the atomizing cavity 100, the circulation component 40 has a circulation cavity 400, wherein a second end of the mist outlet pipe 20 and a second end of the water discharge pipe 30 are both communicated with the circulation cavity 400, and the circulation component 40 has an outflow port 410 communicated with the circulation cavity 400. Like this, go out fog pipe 20 and drain pipe 30 and unite two into one, let a mouth of pipe possess fog and drainage function simultaneously, can omit the equipment process of going out fog pipe 20 and drain pipe 30 for the play fog and the drainage simple structure of the humidification structure in the air conditioner, and the assembly is simple, and occupation space is little, and it is convenient to maintain.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. A humidifying structure comprising an atomizing chamber (100), characterized in that it comprises:

the first end of the mist outlet pipe (20) is communicated with the atomizing cavity (100);

a drain pipe (30), a first end of the drain pipe (30) being in communication with the atomization chamber (100);

a recirculation assembly (40), the recirculation assembly (40) comprising a recirculation chamber (400), the second end of the mist outlet pipe (20) and the second end of the drain pipe (30) both communicating with the recirculation chamber (400), the recirculation assembly (40) having an outflow opening (410) communicating with the recirculation chamber (400).

2. Humidifying structure according to claim 1, characterized in that the flow-through assembly (40) comprises:

a flow-through pipe (401), a first end of the flow-through pipe (401) being adapted to be connected to a second end of the mist outlet pipe (20) and a second end of the drain pipe (30), a second end of the flow-through pipe (401) being adapted to form the outflow opening (410); the flow-through lumen (400) is a lumen of the flow-through tube (401).

3. Humidifying structure according to claim 2, characterized in that the flow-through assembly (40) further comprises:

the first interface (411) of the first three-way joint (41) is connected with the first end of the circulating pipe (401), the second interface (412) of the first three-way joint (41) is connected with the second end of the mist outlet pipe (20), and the third interface (413) of the first three-way joint (41) is connected with the second end of the drain pipe (30).

4. The humidifying structure of claim 3, comprising:

a first tightening part (51), the first tightening part (51) cooperating with the first tee joint (41) to tighten the flow pipe (401), and/or the mist outlet pipe (20), and/or the drain pipe (30) on the first tee joint (41).

5. The humidifying structure of claim 2,

the length of the circulating pipe (401) is greater than or equal to that of the mist outlet pipe (20); and/or

The length of the circulation pipe (401) is greater than or equal to the length of the drain pipe (30).

6. The humidifying structure of any one of claims 1 to 5, further comprising:

the water outlet component (420), the water outlet component (420) is arranged at the outflow opening (410), and the water outlet component (420) comprises a drainage interface (421) and a fog outlet interface (422) which are arranged at intervals.

7. The humidifying structure of claim 6,

the opening of the drainage interface (421) is arranged downwards; and/or

The opening of the fog outlet interface (422) faces to the horizontal direction; and/or

The fog outlet interface (422) is positioned above the water drainage interface (421).

8. The humidifying structure of claim 6,

the water outlet component (420) is a second three-way joint (42), one interface of the second three-way joint (42) is communicated with a circulating pipe (401), one interface of the second three-way joint (42) is the water drainage interface (421), and the other interface of the second three-way joint (42) is the mist outlet interface (422); and/or

The humidifying structure also comprises a second clamping part (52), and the second clamping part (52) is matched with the water outlet part (420) so as to clamp the water outlet part (420) and the flow-through assembly (40).

9. The humidifying structure of any one of claims 1 to 5, comprising:

an atomizing housing (10), the atomizing chamber (100) being disposed within the atomizing housing (10); a water outlet (11) is formed in the bottom of the atomizing shell (10), and a mist outlet (12) is formed in the upper portion of the atomizing shell (10);

a drain assembly (60), the drain assembly (60) being disposed on the atomization housing (10), at least a portion of the drain assembly (60) being movably disposed to open or close the drain opening (11).

10. An air conditioner comprising a volute assembly for forming an air duct and a humidifying structure provided on the volute assembly, wherein the humidifying structure is as claimed in any one of claims 1 to 9.

11. The air conditioner according to claim 10, wherein the volute assembly comprises a first volute, a second volute and a wind deflector (70) arranged in sequence along a predetermined direction, the wind duct comprises a first wind duct section and a second wind duct section which are communicated with each other, the first wind duct section is arranged between the first volute and the second volute, and the second wind duct section is arranged on the second volute and the wind deflector (70); wherein the humidifying structure is arranged on the side of the wind deflector (70) far away from the second volute.

12. The air conditioner according to claim 11, wherein the humidifying structure is the humidifying structure of claim 6,

a mist outlet interface (422) of the humidifying structure is communicated with the second air duct section; or

The mist outlet interface (422) of the humidifying structure is located outside the volute assembly.

Images