CN212108735U - Spraying component and air conditioner comprising same - Google Patents

Abstract

The utility model provides a spray component and contain this air conditioner that sprays component, the component that sprays includes the base member, the base member has into water end and at least a pair of water end of going out, it is provided with the nozzle to go out the water end, wherein, two nozzles of a pair of water end of going out can be to the orientation water spray each other that faces, thereby form the water film between two nozzles of a pair of water end of going out, wherein, the end of intaking with form the runner between a pair of water end of going out respectively, so that follow the end of intaking gets into a pair of water end of going out the hydroenergy can through with a pair of two runners that go out the water end corresponding reach with a pair of water end is corresponding the nozzle, wherein, spray the component and connect the formation by a plurality of parts, just the material between a plurality of parts is the same or. With such an arrangement, when the shower member is applied to an air conditioner, the humidifying function of the air conditioner can be achieved by means of the shower member.

Description

Spraying component and air conditioner comprising same

Technical Field

The utility model relates to a humidification technical field especially relates to a spray component and contain this air conditioner that sprays the component.

Background

An air conditioner generally has a cooling mode and a heating mode, and air of a suitable temperature can be supplied to a room by circulating a refrigerant through a circuit formed by a compressor, a condenser, a throttle valve, an evaporator and a compressor. However, there are cases where, in addition to the requirement for air temperature, there are also requirements for other aspects of air quality, such as improvement in cleanliness, increase in humidity, and the like. The improvement of cleanliness factor usually adopts structures such as bactericidal lamp, filter screen to realize, and the increase of humidity often needs to add the structure of humidification function in the air conditioner.

Still taking the increase of humidity as an example, as shown in fig. 01, there are currently air conditioning indoor units: the shell is provided with an air return opening 01 and an air supply opening 03, a volute 03 is arranged in the shell, a fan 04 is arranged in the volute, an evaporator 05 is arranged at the downstream, a wet film support 06 is arranged at the downstream of the evaporator, a wet film is arranged on the wet film support, the wet film is placed in water and supplies water to the wet film in a siphon mode or the like, and air is sucked into the shell through the air return opening under the action of the fan 04, is humidified by the evaporator and the wet film in sequence and then is sent into an indoor space through the air supply opening. However, the humidifying membrane is often calcified after being used for a long time, and the humidifying effect is reduced if the humidifying membrane is not replaced. In addition, after the microorganisms in the air stay in the humidifying membrane, the humidified air causes pollution which affects the health of the body.

Accordingly, there is a need in the art for a new solution to the above problems.

SUMMERY OF THE UTILITY MODEL

Technical problem

In view of this, the technical problem to be solved in the present invention is to provide a new component to realize the humidification function of the air conditioner in different ways.

Solution scheme

An aspect of the utility model provides a spray component, spray component includes the base member, the base member has into water end and at least a pair of water end of going out, it is provided with the nozzle to go out the water end, wherein, two nozzles of a pair of water end of going out can be to the orientation water spray each other that faces, thereby form the water film between two nozzles of a pair of water end of going out, wherein, the end of intaking with form the runner between a pair of water end of going out respectively, so that follow the end of intaking gets into the hydroenergy of a pair of water end can reach through with two runners that a pair of water end of going out is corresponding the nozzle, wherein, spray component is connected by a plurality of parts and is formed, just the material between a plurality of parts is the same.

With such an arrangement, when the shower member is applied to an air conditioner or the like requiring humidification, a water film can be obtained by directly supplying water to the shower member, and moisture can be taken away by collision with the water film when air flows through the water film, so that a humidification scheme can be achieved in which no contamination is caused and no replacement of parts is required. The spraying component is of a split structure, so that the spraying component is convenient to process, transport and assemble. In addition, the material of the parts can be selectively distinguished according to whether the parts of the spraying component are in the same use environment for a long time.

It can be understood that the structure, the number and the arrangement position of the spraying components can be flexibly selected according to the actual situation. Taking an air conditioner as an example, one spray member may be provided on each side (side portion perpendicular to the air blowing direction) of the indoor unit of the air conditioner, and each spray member may have only one pair of nozzles or the like.

With regard to the above spraying member, in a possible embodiment, the base body comprises a first pipe body, two second pipe bodies extend outwards from the first pipe body, wherein the nozzle is arranged at one end of the second pipe body far away from the first pipe body.

With this arrangement, the pair of nozzles of the shower member can be associated with different flow paths.

With regard to the above spraying member, in a possible embodiment, the second pipe body includes a first branch pipe extending outward in a radial direction of the first pipe body, the first branch pipe extends out of a second branch pipe in an axial direction of the first pipe body at an end away from the first pipe body, wherein the nozzle is disposed at an end of the second branch pipe away from the first branch pipe.

With this arrangement, the flow passage of the nozzle can have a more optimized structure.

With the above spray member, in one possible embodiment, the first branch pipe and the second branch pipe each have a smaller inner diameter than the first pipe body.

With this arrangement, the flow of water in the flow passage can be branched. And the velocity of the water flow in the flow passage increases as it approaches the nozzle.

In a possible embodiment of the spray member described above, the second branch pipe has a collar extending radially outwardly at an end remote from the first branch pipe, and the spray nozzles are located in the middle of the collar.

With regard to the above spray member, in one possible embodiment, the first pipe body extends outwardly in a direction opposite to the extension direction of the first branch pipe with at least one mounting end for fixing the spray member.

With this arrangement, the shower member can be attached to the humidifying box.

With regard to the above spraying member, in a possible embodiment, the number of the mounting ends includes two, and the two mounting ends are located on two sides of the water inlet end along the axial direction of the first pipe body.

With this arrangement, the shower member can be more stably attached to the humidifying box.

With the above spraying member, in one possible embodiment, the first pipe body is extended outwardly at a position corresponding to the water inlet end with a third pipe body, and the spraying member can be connected to a water source through the third pipe body.

With this arrangement, the shower member can be connected to the water source.

With regard to the above spray member, in one possible embodiment, the spray member comprises a first portion and a second portion, the first portion and the second portion being symmetrically arranged.

By such arrangement, the assembly of the shower member is simplified, and the occurrence of erroneous mounting or the like can be prevented. For example, the two parts can be fixed by gluing or the like.

In a word, the utility model discloses a spray the component when being applied to the humidification module of air conditioner, through a pair of nozzle to spouting the mode that produces the water film, provide the moisture that wet film can provide among the equivalent of prior art. Because the water film begins to produce and finishes disappearing along with the water spray to spraying water, consequently quality of water is comparatively fresh, can not breed the bacterium. The quality of the water film can be adjusted by adjusting the water flow speed of the nozzle, and the indoor air is more flexibly humidified. In addition, the split design can make it possible to achieve the possibility of assembly and the possibility of material classification.

The utility model discloses another aspect still provides an air conditioner, the air conditioner includes the air conditioning indoor set, the air conditioning indoor set includes the casing, the casing has the supply-air outlet just be provided with humidification module in the casing, humidification module includes the humidification box, the humidification box disposes aforementioned arbitrary the component that sprays, so that get into air current in the humidification box flows through the water film that sprays the component and form is passed through after being humidified the supply-air outlet reaches the interior space.

The air conditioner has all the technical effects of the spraying component, and the details are not repeated.

Drawings

The present invention is described below with reference to the accompanying drawings. In the drawings:

fig. 01 is a schematic view showing a configuration of an air conditioner having a humidifying function according to a conventional example;

fig. 1A is a schematic structural diagram of an air conditioner according to an embodiment of the present invention;

fig. 1B shows a schematic structural diagram of an air conditioner according to an embodiment of the present invention;

fig. 2A is a schematic structural diagram of a humidification module of an air conditioner according to an embodiment of the present invention;

fig. 2B is a schematic structural diagram of a humidifying module of an air conditioner according to an embodiment of the present invention;

fig. 3 is an exploded view of a humidifying module of an air conditioner according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a humidifying box of a humidifying module of an air conditioner according to an embodiment of the present invention;

fig. 5 is a schematic structural view illustrating a humidifying cover of a humidifying module of an air conditioner according to an embodiment of the present invention;

fig. 6A is a schematic structural view illustrating a spray member of a humidification module of an air conditioner according to an embodiment of the present invention;

fig. 6B is a schematic structural view illustrating a first part of a spray member of a humidification module of an air conditioner according to an embodiment of the present invention;

fig. 6C is a schematic cross-sectional view illustrating a spray member of a humidification module of an air conditioner according to an embodiment of the present invention; and

fig. 7 is a schematic sectional view illustrating an assembly of a humidification module of an air conditioner according to an embodiment of the present invention.

List of reference numerals:

01. an air return opening; 01. an air supply outlet; 03. a volute; 04. a fan; 05. an evaporator; 06. a wet film support; 1. a housing; 2. a humidifying module; 3. a water pan; 11. an air supply outlet 12 and an air return outlet; 13. a water pan drain joint; 14. a refrigerant pipeline joint; 15. a water source connector 16 and a lifting lug; 17a, a first fan; 17b, a second fan; 21. a humidifying box; 211. a first drain hole; 212; a second drain hole; 22. a humidifying cover; 221. a first region; 222. a second region; 2221. air holes are formed; 2231. a vertical strip plate; 2232. a triangular hole; 2233. a triangular bulge; 225. a stop groove; 2251. an edge; 2252. a baffle plate; 31. a first opening; 32. a second opening; 33. a third opening; 41. a first water retaining net; 42. a second water retaining net; 43. a third water retaining net; 5. a spray member; 501. a first portion; 502. a second portion; 51. a first pipe body; 52. a second tube body; 521. a first branch pipe; 522. a second branch pipe; 5221. a ring platform; 53. a third tube; 531. an aperture; 54. an installation end; 541. an aperture; 55. and (4) a nozzle.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate directions or positional relationships based on those shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1A-1B, fig. 2A-2B, fig. 3-fig. 5, fig. 1A shows the utility model relates to a structural schematic diagram of the air conditioner of embodiment is one, fig. 1B shows the utility model relates to a structural schematic diagram of the air conditioner of embodiment is two, fig. 2A shows the utility model relates to a structural schematic diagram of the humidification module of the air conditioner of embodiment is one, fig. 2B shows the utility model relates to a structural schematic diagram of the humidification module of the air conditioner of embodiment is two, fig. 3 shows the utility model relates to an explosion schematic diagram of the humidification module of the air conditioner of embodiment, fig. 4 shows the utility model relates to a structural schematic diagram of the humidification box of the humidification module of the air conditioner of embodiment, fig. 5 shows the utility model relates to a structural schematic diagram of the humidification lid of the humidification module of the air conditioner of embodiment. The air conditioner generally includes an outdoor unit and an indoor unit, the outdoor unit is mainly provided with a compressor, an outdoor fan and an outdoor heat exchanger (generally called condenser), the indoor unit is mainly provided with an indoor heat exchanger (generally called evaporator), and the compressor, the condenser, the evaporator and the compressor form a refrigerant circulation loop. The air conditioner is in a refrigeration cycle when the refrigerant circulates along the compressor → the condenser → the evaporator → the compressor. When the refrigerant circulates along the compressor → the evaporator → the condenser → the compressor, the air conditioner is in a heating cycle. The air-conditioning indoor unit comprises a shell 1 which is installed (such as suspended on a wall or a ceiling) or placed in an indoor space, wherein a fan, an evaporator, a water receiving disc 3, an electric cabinet and the like are arranged in the shell 1, an air supply opening 11 and an air return opening 12 are arranged on the shell 1, and when the air-conditioning is used for refrigerating/heating, air in the indoor space is pumped into the shell through the air return opening under the action of the fan, exchanges heat with the surface of the evaporator and then is sent into the indoor space through the air supply opening. The shell is provided with a water receiving tray drainage joint 13 for discharging water of the water receiving tray outwards, a refrigerant pipeline joint 14 for filling refrigerant, a water source joint 15 (supplying water to a spray component in the following) and a lifting lug 16, and the indoor unit of the air conditioner is fixed in an indoor space through the lifting lug.

The utility model discloses in, still be provided with new functional module in the casing, particularly, still be provided with in the casing and be used for carrying out the humidification module 2 that humidity increased the processing to the air that gets into indoor space. The humidifying module is positioned between the evaporator and the air supply outlet. When the humidification module works, under the action of the fan, air in the indoor space enters the shell through the air return opening, exchanges heat with the surface of the evaporator and then is sent into the indoor space through the air supply opening.

It will be appreciated that cooling and/or heating may be stopped or performed simultaneously during the humidification of the air. If the utility model discloses a function that humidification module realized humidity and increased is can accomplish in short time, consequently suspend the conventional refrigeration and/or the heating of air conditioner during humidification. In addition, because the fan only serves the humidification function, the running condition of the fan can be adjusted more flexibly according to the humidification requirement, and the realization degree of the humidification function is ensured.

It should be noted that, a person skilled in the art can flexibly set the number and the positions of the fans according to actual situations, for example, two fans (17a, 17b) can be set, and one or both of the fans can be operated according to different air supply requirements. Under the condition of general humidification requirements, one of the fans can be operated, so that the problems of noise, power use and the like possibly caused by the simultaneous operation of the two fans are avoided on the premise that the humidification target can be realized. And under the condition that the humidification demand is urgent, two fans can be enabled to operate simultaneously, and the humidification demand can be met in a short time by the arrangement.

The humidifying module comprises a humidifying box 21, two side parts of the humidifying box are respectively provided with a spraying component 5, the spraying component is provided with a pair of nozzles 55, after the pair of nozzles spray water towards the directions facing each other (for example, the speed of the sprayed water flow is 5-10m/s), a water film is formed inside a cavity of the humidifying box, when the air flows through the water film at the position of the heat exchanger, the air collides with the water film and takes away part of water in the water film, so that the humidity is increased, and then the air is delivered to the indoor space through an air supply outlet, so that the humidifying function is realized.

The utility model discloses an among the air conditioner, the humidification box is as a monolithic installation in the casing to in the increase of humidification module in the air conditioner with shift out. As shown in fig. 7, fig. 7 is a schematic assembled sectional view of a humidification module of an air conditioner according to an embodiment of the present invention. In one possible embodiment, the humidifying box is provided with brackets 213 at left and right sides thereof, respectively, the brackets 213 include a lateral portion 2131 extending outward and a vertical portion 2132 extending from the lateral portion, the vertical portion is provided with a coupling assembly, and the humidifying box is fixed to the housing through the coupling assembly. The connecting assembly includes two connecting members, specifically, a connecting hole 214 located at the upper side and a hook 215 located at the lower side. Thus, when the humidification cartridge is mounted to the housing, the hook 215 is first inserted into the groove 2151 of the housing corresponding to the hook, and the weight of the humidification cartridge is supported by the housing, so that the installer can release both hands. The humidifying box is then fixed to the housing by means of the engagement of fasteners such as screws, bolts, etc. with the connection holes 214 and the corresponding holes 2141 on the housing. Through such setting, the installation of humidification box can be accomplished to one-man operation, has improved the simple operation nature.

The humidification cartridge is mounted as a unit within the housing to facilitate the addition and removal of the humidification module within the air conditioner.

As further referring to fig. 6A-6C, fig. 6A shows a structural schematic diagram of a spraying member of a humidification module of an air conditioner of an embodiment of the present invention, fig. 6B shows a structural schematic diagram of a first portion of a spraying member of a humidification module of an air conditioner of an embodiment of the present invention, and fig. 6C shows a cross-sectional schematic diagram of a spraying member of a humidification module of an air conditioner of an embodiment of the present invention. In a possible embodiment, the spray member 5 comprises a base body having a water inlet end and at least one pair of water outlet ends, each of the water outlet ends being provided with a spray head, i.e. with a pair of nozzles 55 with their spray directions facing each other, between which a flow passage is respectively formed, so that water entering from the water inlet end can reach the nozzle corresponding to the water outlet end via the flow passage corresponding to each water outlet end. Specifically, the spray member 5 includes a first portion 501 and a second portion 502, the first portion and the second portion are symmetrical open petal-shaped structures, materials of the first portion and the second portion may be the same or different, and after the two portions are processed, the first portion and the second portion are fixed by means of gluing. The base member includes as the first body 51 of being responsible for, and first body outwards extends has two pipe diameters to be less than the second body 52 of first body, and the nozzle sets up in the one end that first body was kept away from to the second body. Specifically, the second pipe body includes a first branch pipe 521 extending radially outward along the first pipe body and perpendicular to the first pipe body, the first branch pipe extends at one end far away from the first pipe body along the axial direction of the first pipe body and to another nozzle to form a second branch pipe 522 having a pipe diameter smaller than that of the first branch pipe, and the nozzle 55 is disposed at one end far away from the first branch pipe of the second branch pipe. In addition, the second branch pipe extends outwardly with a ring stand 5221 at a position close to the nozzle, so that the nozzle is located just in the middle of the ring stand.

It can be seen that the flow path corresponding to the two nozzles consists of the first tube → the first branch → the second branch. In order to ensure the quality of the water film, the two pipelines corresponding to the nozzles are of a symmetrical structure. It can be understood that the structural flow channel of each pipe can also be in other composition forms, such as a flow channel which divides the interior of the first pipe body into two cavities, each cavity corresponds to one nozzle, the first branch pipe and the second branch pipe are arc-shaped pipes, the second branch pipe is a reducing structure along the water flow direction, and the like.

The first body has the third body 53 in the position that outwards extends corresponding to the end of intaking, corresponding position at the humidification box sets up porose 531, the part that stretches out the hole outside the third body has the external screw thread that can with the tube coupling, through dispose the connecting tube way (like the silicone tube) that matches with the external screw thread on the third body, can be connected to the outside water source with the component that sprays, so, after the water source lets in first body through the silicone tube, send a pair of nozzle of relative setting through (first, second) branch pipe respectively, water collides the production splash after nozzle department accelerates, form the water film of certain radius in the humidification box. And a special pump and a water inlet valve are arranged on the pipeline, so that the quality of the water film can be adjusted by adjusting the parameters of the pump and the opening degree of the water inlet valve. If a pump and a water inlet valve are respectively arranged for each spraying component, the pump and the water inlet valve can be respectively arranged in other modes. Preferably, the humidifying module is integrally placed at the position close to the right side of the whole machine, and the water source is arranged on the right side of the humidifying module, so that the humidifying module is convenient to overhaul.

The first pipe body is extended outwardly in a direction opposite to the extending direction of the second branch pipe with two mounting ends 54, for example, the mounting ends are cylindrical structures having internal threads, holes 541 are provided at corresponding positions of the humidification case, and the shower member is connected to the humidification module by means of fasteners. Preferably, the two mounting ends are located on both sides of the third pipe body in the axial direction of the first pipe body. It can be understood that the number, specific form and arrangement position of the installation ends can be flexibly selected according to actual conditions, for example, two installation ends are respectively arranged on two sides of the third pipe body.

In this embodiment, the axes of the (first, second and third) tubular bodies are coplanar, and the axes of the (first and second) branch pipes are respectively collinear with the axes of the (first and second) mounting ends.

It is understood that the holes (531, 541) are only an exemplary illustration of mounting locations for mounting the spray member, and that other mounting locations may be used by those skilled in the art to secure the spray member to the humidification cartridge. If the structure of the spraying component is the same, other installation modes are adopted, or when the structure of the spraying component is changed, the specific form of the installation position is adjusted correspondingly, and the like.

As an improvement, more mounting positions may be reserved for the spray member to adjust the humidification level by addition, subtraction, or change of the mounting position of the spray member. Also taking the mounting positions as the holes (531, 541) described above as an example, two mounting positions may be arranged in the height direction of the humidifying box, or three or more mounting positions may be arranged in the air blowing direction of the humidifying box. For example, the holes (531, 541) are provided at intervals in the air blowing direction. However, in order to prevent the liquid in the humidification chamber from splashing through the installation site, a corresponding blocking structure, such as a slidable plate, should be provided on the inner side of the installation site.

The humidifying box is positioned above the water receiving tray 3. The humidifying box is provided with a drainage structure at a position close to the water receiving tray, namely, an area close to the bottom, and the drainage structure comprises a plurality of drainage holes so as to discharge water sprayed by the nozzles out of the humidifying box after the water participates in humidifying treatment. For example, the bottom of the humidifying box and the side walls of the two sides of the humidifying box are respectively provided with a first drain hole 211 and a second drain hole 212, the number of the second drain holes is small, the first drain holes are uniformly distributed at the bottom of the humidifying box, and the bottom of the humidifying box is approximately a plane. Preferably, the diameter of the second drain hole is smaller than or equal to that of the first drain hole, so as to avoid the phenomenon that water splashes out of the humidifying box from the second drain hole in the process of colliding air with a water film as much as possible. The water in the (first and second) drain holes is guided into the water receiving tray and then drained out of the air conditioner, and naturally, a drain pipe can be connected to any hole (such as the second drain hole) to directly drain the water out of the air conditioner. Obviously, it is also possible to provide the drain hole only at the bottom of the humidification case, or to replace the drain hole with a strip structure or the like.

The humidifying box has a first open structure and a second open structure along an upstream side and a downstream side of an air flow, respectively, and at least a part of the first open structure and/or the second open structure is provided with a water blocking member which allows air to flow into the humidifying box therethrough on the one hand and enables at least a part of the water to splash out of the humidifying box on the other hand. That is, the water blocking member mainly functions to prevent water droplets splashed from the nozzle or water droplets on a water film after being collided with air from splashing outside the humidifying box within a range where good air exchange is ensured.

If the water retaining member is of a net structure, such as a porous non-metal filter screen, the thickness of the water retaining screen is less than or equal to 20mm, preferably 10 mm; the mesh density of the water retaining net is 20-100 meshes, and preferably 20-40 meshes. As an example, the water blocking member is a polyurethane water blocking net (hereinafter simply referred to as a water blocking net) having a mesh density of 40 mesh. It is obvious that a person skilled in the art may also use water deflector elements with other mesh density, thickness, material, structure, etc., provided that the function is satisfactory.

In a possible embodiment, the first open structure comprises a first opening 31 and a second opening 32 arranged at the rear side and/or the top of the humidification box, the second open structure comprises a third opening 33 arranged at the front side of the humidification box, the first opening is provided with a first water blocking net 41, the humidification cover 22 is arranged at the second opening 32, a second water blocking net 42 is arranged below the humidification cover, and a third water blocking net 43 is arranged at the third opening 33. Preferably, water blocking nets (41, 42, 43) are detachably provided at the first opening, the second opening and the third opening, respectively. Illustratively, the top second water blocking net 42 is fixed on the humidifying cover by a snap, and the front third water blocking net 43 and the rear first water blocking net 41 are fixed in the following manner: the front side and the rear side of the humidifying box are reserved with inward edges 2251, the inner walls of the two side parts of the humidifying box are respectively provided with a vertical baffle 2252, the inner baffle, the side wall of the humidifying box and the edges of the two side parts form two stop grooves 225, and the water blocking nets (41, 43) are respectively and directly inserted into the corresponding stop grooves, for example, a rigid polyurethane water blocking net with the thickness of 8-10mm and the mesh density of 40 meshes is installed in the stop grooves. Obviously, the baffle plate can be a whole piece or composed of several spaced pieces, and in addition, the baffle plate can also be added on the inner side of the bottom of the humidifying box. It is clear that this is only an exemplary illustration of a retaining groove, which can be designed in any reasonable manner, as long as it fulfils the function of fixing the water retaining net.

The top peripheral edges of the humidifying cover and the humidifying box are preferably hermetically assembled so as not to allow water in the humidifying box to spill through a gap therebetween. The sealing connection may be by any means available to achieve a sealing connection. On the basis of realizing the sealing connection, the left side and the right side of the humidifying cover 22 are additionally connected with the humidifying box in a buckling manner, so that the second water retaining net 42 below the humidifying cover is convenient to replace. The specific form of the snap connection is as follows: two vertical bar plates 2231 extending downwards are respectively arranged at the left side and the right side, two triangular holes 2232 are arranged at the positions below the vertical bar plates, and triangular protrusions 2233 corresponding to the triangular holes are arranged at the corresponding positions of the humidifying box. In order to increase the air inlet area, the humidifying cover is of a structure which is inclined downwards from left to right, and in order to ensure the area of a water film simultaneously, the included angle between the humidifying cover and the horizontal plane is preferably not more than 30 degrees. In order to ensure the ventilation performance at the second opening, a plurality of communicating structures are designed on the humidifying cover, and meanwhile, in order to ensure the humidifying function, the humidifying cover is arranged to be a closed structure at a position corresponding to the water film so as to prevent water drops in the water film from leaking. If the humidifying cover includes a first region 221 having a long shape corresponding to a water film, and two second regions 222 are disposed on both sides of the first region, respectively, and the position of the water film is different according to the installation position of the nozzle, so that the two second regions may be the same or different, illustratively, a plurality of air holes 2221 are disposed on each of the second regions, the diameter of each air hole is about 3mm, and the distance between the air holes is about 5 mm. Obviously, the aperture and the density of the air holes can be flexibly set according to actual conditions, such as uniformity or non-uniformity, the aperture of each air hole can be the same or different, and the like. In addition, the communicating structure can also be any other structure except the air holes, such as a strip-shaped hole, a star-shaped hole and the like.

The air conditioner may have different humidification mechanisms according to a specific form of the first open structure. Specifically, the method comprises the following steps:

in the case where the first open structure includes only the first opening, the air conditioner humidifies air of the indoor space by a front air humidifying process of: under the effect of fan, the indoor air is taken into the casing inside, and the inside air of casing passes the first water blocking net 41 of humidification module, slows down and gets into the humidification box, then through the water film and with the water film bump and take away partial liquid in the water film in-process that passes the water film thereby realized the increase of air humidity, later reaches the outside of humidification box through third water blocking net 43, finally gets into indoor space through the supply-air outlet. The air in the indoor space can be humidified by circulating the air humidifying device.

In the case where the first open structure includes only the second opening, the air conditioner humidifies the air of the indoor space by a top air humidifying process of: under the action of the fan, indoor air is pumped into the shell, the air in the shell passes through the humidifying box-the second water blocking net 42 of the humidifying module, is decelerated and enters the humidifying box, then passes through the water film, collides with the water film and passes through the water film, and takes away part of liquid in the water film so as to increase the air humidity, then reaches the outside of the humidifying box through the third water blocking net 43, and finally enters the indoor space through the air supply outlet. The air in the indoor space can be humidified by circulating the air humidifying device.

In the case where the first open structure includes the first opening and the second opening, the air conditioner humidifies air of the indoor space by a mixed air humidifying process of:

under the action of the fan, indoor air is pumped into the shell, the air in the shell is divided into two paths, the two paths of air respectively pass through the first water retaining net 41 and the humidifying cover-second water retaining net 42 of the humidifying module to be decelerated and enter the humidifying box, then pass through the water film, collide with the water film and pass through the water film to take away part of liquid in the water film so as to increase air humidity, then pass through the third water retaining net 43 to reach the outside of the humidifying box, and finally enter the indoor space through the air supply outlet. The air in the indoor space can be humidified by circulating the air humidifying device.

It should be noted that although the air conditioner configured as described above is described as an example, those skilled in the art will understand that the present invention should not be limited thereto. In fact, the user can flexibly set the structure, the number, the installation position and the like of the spraying component according to the situation of practical application scene and the like, and increase the position of the sealing connection according to the practical requirement, such as the sealing connection is limited at the connection position of the spraying component and the humidifying box.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (10)

1. A spray member, characterized in that it comprises a base body having a water inlet end and at least one pair of water outlet ends, said water outlet ends being provided with nozzles,

wherein the two nozzles of the pair of outlet ends are capable of spraying water in a direction facing each other, thereby forming a water film between the two nozzles of the pair of outlet ends,

wherein, a flow passage is respectively formed between the water inlet end and the pair of water outlet ends, so that the water entering the pair of water outlet ends from the water inlet end can reach the nozzles corresponding to the pair of water outlet ends through two flow passages corresponding to the pair of water outlet ends,

wherein, the spraying component is formed by connecting a plurality of parts, and the materials among the plurality of parts are the same or different.

2. The spray member of claim 1 wherein said base includes a first tubular body with two second tubular bodies extending outwardly therefrom,

the nozzle is arranged at one end, far away from the first pipe body, of the second pipe body.

3. The spray member according to claim 2, wherein the second pipe body includes a first branch pipe extending radially outward of the first pipe body, the first branch pipe extending in an axial direction of the first pipe body to a second branch pipe at an end remote from the first pipe body,

wherein, the nozzle is arranged at one end of the second branch pipe far away from the first branch pipe.

4. The spray member of claim 3 wherein said first and second legs each have a smaller inner diameter than said first tubular body.

5. The spray member of claim 3 wherein said second leg has a land extending radially outwardly at an end remote from said first leg, said spray nozzle being located in the middle of said land.

6. The spray member of claim 3 wherein said first tubular body extends outwardly in a direction opposite to the direction of extension of said first branch tube with at least one mounting end for securing said spray member.

7. The spray member according to claim 6 wherein said number of mounting ends includes two, and two mounting ends are located on both sides of said water inlet end in the axial direction of said first pipe body.

8. The spray member according to claim 7, wherein said first tubular body has a third tubular body extending outwardly therefrom at a location corresponding to said water inlet end, said spray member being connectable to a source of water through said third tubular body.

9. The spray member according to any one of claims 1 to 8, wherein said spray member comprises a first portion and a second portion, said first portion and said second portion being symmetrically arranged.

10. An air conditioner, characterized in that, the air conditioner includes the indoor set of air conditioner, the indoor set of air conditioner includes the casing, the casing has the supply-air outlet and be provided with the humidification module in the casing, the humidification module includes the humidification box, the humidification box disposes the spray component of any one of claims 1 to 9, so that the air that gets into in the humidification box is sent to the interior space through the supply-air outlet after the water film that the spray component formed is humidified through the flow.

Images