CN108981048B

CN108981048B - Air conditioner with humidifier

Info

Publication number: CN108981048B
Application number: CN201811147660.7A
Authority: CN
Inventors: 王松; 古汤汤; 陈伟; 李松; 许壮; 孙品品; 竺熔; 秦立振; 黄涛; 吴庆壮; 邹波; 罗会斌; 杜建; 刘卫平
Original assignee: Aux Air Conditioning Co Ltd
Current assignee: Aux Air Conditioning Co Ltd
Priority date: 2018-09-29
Filing date: 2018-09-29
Publication date: 2024-02-09
Anticipated expiration: 2038-09-29
Also published as: CN108981048A

Abstract

The invention relates to an air conditioner with a humidifier, which comprises a top cover, a humidifier body, an air conditioner body, a water inlet and outlet mechanism, a mist outlet mechanism and a drainage mechanism, wherein the water inlet and outlet mechanism comprises a water tank, a working water tank communicated with the water tank through a water outlet and a driving piece movably connected with the water tank, when the top cover is covered on the water tank, the driving piece moves towards the direction far away from the water outlet to open the water outlet, when the top cover is taken down from the water tank, the driving piece moves towards the direction of the water outlet to close the water outlet, the mist outlet mechanism is positioned between a working water tank and a water receiving disc, the air conditioner body comprises an evaporator, the drainage mechanism comprises the water receiving disc communicated with the working water tank and a drainage tube positioned between the water receiving disc and the evaporator, the water inlet and outlet mechanism is simple in water adding and water outlet mode, the air conditioner is flexible in operation, the humidifying efficiency can be improved, the cost is reduced, the condition that the water overflows to be prevented from being sprayed down to an electric control part in the air conditioner body is effectively treated, and the service life of the air conditioner is prolonged.

Description

Air conditioner with humidifier

Technical Field

The invention relates to the technical field of air conditioner humidification, in particular to an air conditioner with a humidifier.

Background

With the improvement of the living standard of people, the air conditioner becomes a necessary electrical appliance for the home and office of modern people, especially in summer and winter, the long-time running of the air conditioner can lead the humidity of indoor air to be reduced, quicken the water loss on the skin surface of a human body, and the nasal cavity is dry and itchy, and hidden danger exists for the health of the human body, so the air humidifier with a plurality of styles is withdrawn from the market, but most of the air humidifier is placed in a room as a single electrical appliance, and the following defects exist: 1. uneven air humidification; 2. occupies a certain space and is inconvenient. In order to make up for the defects, air-conditioning humidifiers are introduced in the market at present, namely, based on the original air conditioner, the structure of the humidifier and the air-conditioning structure are integrated into a whole air-conditioning humidifier, so that the indoor temperature can be regulated, and the indoor humidity can be regulated. At present, an air conditioner humidifier on the market generally adopts the cooperation of a water inlet electromagnetic valve and a buzzer to control water injection into a water tank, a water outlet electromagnetic valve controls water outlet of the water tank, a sensor is arranged in the water tank to detect the liquid level in the water tank, when the liquid level reaches a certain level, the sensor gives a signal to a controller, the controller opens the buzzer to alarm and closes the water inlet electromagnetic valve, opens the water outlet electromagnetic valve and then humidifies, an electric control part can control the water inlet and the water outlet of the humidifier in the air conditioner, but the mode is quite high in cost, the electric control part has sensitivity, but has no flexibility, the humidifying efficiency is low, the electric control part is easy to be damaged due to water inlet, and the service life of the air conditioner humidifier is reduced.

Disclosure of Invention

The invention aims to solve the technical problems of flexible humidification, high humidification efficiency, cost reduction and difficult damage of the air conditioner with the humidifier.

The technical scheme includes that the air conditioner with the humidifier comprises a top cover, a humidifier body and an air conditioner body, wherein the humidifier body is movably connected with the top cover, a water inlet and outlet mechanism, a mist outlet mechanism and a drainage mechanism are connected with the water inlet and outlet mechanism, the water inlet and outlet mechanism comprises a water tank, a working water tank and a driving piece, the working water tank is communicated with the water tank through a water outlet, the driving piece is movably connected with the water tank, when the top cover is covered on the water tank, the driving piece moves towards the direction far away from the water outlet to enable the water outlet to be opened, when the top cover is taken down from the water tank, the driving piece moves towards the direction of the water outlet to seal the water outlet, the mist outlet mechanism is located between the working water tank and the water tank, the air conditioner body comprises an evaporator, and the drainage mechanism comprises a water receiving tray communicated with the working water tank and a drainage tube located between the water receiving tray and the evaporator.

The beneficial effects of the invention are as follows: when the air conditioner with the humidifier with the structure needs to be opened, and water is added into the water tank of the humidifier, the driving piece moves towards the water outlet by utilizing the cooperation of the top cover and the driving piece and closes the water outlet, and at the moment, water flow does not flow down to the water outlet, and proper amount of water can be filled into the water inlet of the water tank; after the water is filled, the top cover is covered on the water tank, the driving piece moves towards the direction away from the water outlet to open the water outlet by utilizing the cooperation of the top cover and the driving piece, water flows downwards into the working water tank through the water outlet, the mist outlet mechanism atomizes the water in the working water tank to achieve the effect of mist outlet humidification, the water receiving tray communicated with the working water tank receives the water which is higher than the standard liquid level and is drained from the working water tank, and finally the water is drained to the evaporator of the air conditioner through the drainage tube. The mode of above-mentioned water adding and water discharging is simple, and the work is nimble, can improve humidification efficiency to avoid using automatically controlled part, reduce cost, be higher than the water of standard liquid level in the working water tank and hold through the water collector and connect, finally with this part water through drainage tube drainage to the evaporimeter of air conditioner on, avoid falling to the condition emergence of automatically controlled part in the air conditioner body because water overflows down through handling effectively, improved the life-span of air conditioner.

Preferably, the driving piece comprises a lever and a linkage rod linked with the lever, the top cover comprises a top cover inner wall and a guide post arranged on the top cover inner wall, the lever comprises a pressing surface for the guide post to press, and when the top cover is covered on the water tank, the guide post presses on the pressing surface to enable the linkage rod to move towards the direction far away from the water outlet; when the top cap is taken down from the water tank, the guide post is separated from the pressing surface and enables the linkage rod to move towards the water outlet direction and to seal the water outlet, and by adopting the structure, when the top cap is taken down from the water tank, the guide post is separated from the lever to enable the linkage rod to move towards the water outlet direction, at the moment, the water outlet is sealed by the linkage rod, water flow can not flow down towards the water outlet, so that moderate water can be filled in the water tank, when the top cap is covered on the water tank, the guide post is pressed against the lever to enable the linkage rod to move towards the direction away from the water outlet, at the moment, the water outlet is opened, and water flow can flow down through the water outlet to be atomized, so that the effect of mist discharge and humidification is achieved.

Preferably, the lever further comprises a lever foot, a lever head and a connecting rib connected between the lever foot and the lever head, the lever foot, the lever head and the connecting rib are of an integrated structure, the pressing surface is specifically arranged on the connecting rib, the humidifier body further comprises a movable cavity for placing the lever foot, the movable cavity comprises an upper limiting plate and a lower limiting plate, when the guide post is pressed on the pressing surface, the lever foot moves towards the direction of the lower limiting plate and is attached to the lower limiting plate, the lever head moves towards the direction of the inner wall of the top cover, the linkage rod moves towards the direction away from the water outlet, and when the guide post is separated from the pressing surface, the lever foot moves towards the upper limiting plate and is attached to the upper limiting plate, the lever head moves towards the direction away from the inner wall of the top cover, the linkage rod moves towards the water outlet and seals the water outlet, the top cover is covered on the water tank, the guide column is pressed against the pressing surface, the lever foot at the moment moves towards the lower limiting plate and is attached to the lower limiting plate, and meanwhile, the lower limiting plate is used for limiting the movement stroke of the lever foot and limiting the movement stroke of the linkage rod, so that the linkage rod moves to a proper position; when the top cap is taken down from the water tank, the guide post is separated with the face of supporting the pressure, and the lever foot that this moment moves towards the direction of last limiting plate and is laminated with last limiting plate, simultaneously accompanies the lever head to move towards the direction of keeping away from the top cap inner wall, goes up limiting plate in order to restrict the motion stroke of lever foot, has also restricted the travel of gangbar simultaneously, makes the gangbar remove suitable position.

The water tank is characterized in that the linkage rod comprises a rod body, a positioning column arranged on the rod body and a mask arranged on the rod body, the water outlet comprises a covering surface which can be completely attached to the mask, the lever comprises a groove, the positioning column is buckled into the groove and is rotationally connected with the groove, the structure is adopted, the mask covers the water outlet to form a covering surface which is attached to the mask, when the top cover is taken down from the water tank, the rod body moves towards the water outlet direction, the mask covers the water outlet, the water outlet forms a covering surface which is attached to the mask, water flow can not flow down to the water outlet, and moderate water can be filled into the water tank; when the top cover is covered on the water tank, when the lever head moves towards the direction of the inner wall of the top cover, the lever head drives the lever body to move towards the direction away from the water outlet through the positioning column buckled in the groove, once the lever body moves towards the direction away from the water outlet, the mask is away from the water outlet at the moment to open the water outlet, and water flow can flow down through the water outlet to be atomized, so that the effect of mist humidification is achieved.

Preferably, the water tank comprises a water tank frame, the humidifier body further comprises a sealing mechanism connected with the water inlet and outlet mechanism, the sealing mechanism comprises a water tank cover covered on the water tank frame and a sealing piece located between the linkage rod and the water tank cover, the water tank cover comprises a sealing channel for the linkage rod to pass through, the sealing channel comprises a channel wall, the sealing piece is located in the sealing channel, one end of the sealing piece is fixedly connected with the linkage rod, and the other end of the sealing piece is fixedly connected with the channel wall. By adopting the structure, the sealing mechanism is arranged in the humidifier body, the sealing mechanism can prevent external air from entering the water tank from the position where the water tank cover is provided with the water inlet and outlet mechanism, the sealing element is quite a junction, once the external air cannot enter the water tank, water in the water tank cannot be influenced by external air pressure, when the water in the water tank falls to a certain liquid level, the hydraulic pressure in the water tank is smaller than that in the working water tank, water in the water tank cannot flow into the working water tank in a large amount through the water outlet, the water in the working water tank can be maintained in a horizontal range, the phenomenon that the water in the working water tank overflows is avoided, and the potential safety hazard of an air conditioner is also reduced.

As the priority, be provided with the recess on the gangbar, the sealing member includes a end of being connected with the gangbar, the end is embedded into in the recess, and the other end and the passageway wall fixed connection of sealing member, the recess includes the zigzag cell wall, the end is including the zigzag terminal surface that can embed into the zigzag cell wall, adopts this structure, embeds the one end of sealing member in the recess on the gangbar for do not produce the gap between sealing member and the gangbar, reach totally enclosed's purpose, improve the leakproofness, set up the cell wall of recess into the zigzag, can increase the area of contact of recess and end, promote frictional force between the two, make both connect more firm, and can also further promote sealing performance.

The sealing element also comprises an end tail fixedly connected with the channel wall and a flexible connecting piece connected with the end tail, the end tail comprises a joint surface jointed with the channel wall, the end head, the end tail and the flexible connecting piece are of an integrated structure, by adopting the structure, the end tail of the sealing element is fixedly connected with the channel wall and jointed with the channel wall, the outside air is prevented from entering the water tank from the sealing channel, the sealing purpose is achieved, when the linkage rod moves towards the water outlet direction of the bottom of the water tank to seal the water outlet, the flexible connecting piece connected with the end tail can facilitate the end head to follow the movement of the linkage rod, when the linkage rod moves towards the direction away from the water outlet to open the water outlet, the flexible connecting piece connected with the end tail can also facilitate the end head to follow the movement of the linkage rod, and the flexible connecting piece has a certain deformation force, so that the sealing element is installed between the channel wall and the linkage rod to achieve the purpose of flexible sealing.

When the top cover is covered on the water tank, the guide column is propped against the propping surface, the lever head moves towards the direction of the inner wall of the top cover, the linkage rod moves towards the direction away from the water outlet, and the elastic piece is in a compressed state; when the top cover is taken down from the water tank, the guide post is far away from the pressing surface, the elastic piece compressed before starts to recover, the linkage rod moves towards the water outlet under the action of the elastic piece recovery elasticity, the lever head moves towards the direction far away from the inner wall of the top cover, and the elastic piece is in a compressed state. The elastic piece also plays a role in buffering the movement of the linkage rod.

As the priority, the gangbar still includes the extension that is located the body of rod terminal, the gangbar passes the delivery port through the extension and enters into in the working water tank, adopt this structure, extension on the drainage pole passes the delivery port and enters into in the working water tank, when the hydraulic pressure in the water tank appears and is less than the hydraulic pressure in the working water tank, water in the water tank can't flow into in the working water tank in a large number through the delivery port, but can slowly flow into the working water tank along the extension of gangbar, make rivers can continuously enter into in the working water tank, the phenomenon of water starvation in the working water tank can not appear, the fog efficiency of humidifier has been improved, thereby the humidification efficiency of humidifier is improved.

As the priority, the working water tank is communicated with the water receiving disc through a water draining mechanism, the water draining mechanism comprises a water draining port arranged at the bottom of the working water tank and a water draining pipe communicated with the water draining port and oriented to the water tank, the length of the water draining pipe is smaller than the height of the working water tank, the length of the water draining pipe is equal to the height of the standard liquid level in the working water tank, and when the water in the working water tank is higher than the standard liquid level, the water can drain into the water receiving disc through the water draining pipe, so that the liquid level in the working water tank can be maintained in a standard.

As preferentially, the drainage tube is including setting up at the first through-hole of water collector bottom, the first drainage tube of communicating with first through-hole, set up at the second through-hole of evaporimeter top and the second drainage tube of communicating with first through-hole and second through-hole, the bore of first drainage tube is less than the bore of second drainage tube, in first drainage tube can stretch into the second drainage tube, adopts this structure, and liquid in the water collector enters into the drainage tube through first through-hole, then flows to the evaporimeter through the second through-hole, and this kind of simple structure can discharge the liquid in the water collector effectively.

Preferably, the mist outlet means comprises a mist outlet channel comprising a mist sprayer located on the water receiving tray, a water deflector located in the mist outlet channel. By adopting the structure, the fog produced by the atomizer passes through the fog outlet channel, and the water baffle is arranged above the atomizer, so that the water column generated in the process of producing the water fog by the atomizer is blocked and falls back, the water column is prevented from rushing out of the fog outlet channel to splash, the fine and smooth fog produced by the humidifier is ensured, the humidifying efficiency is improved, and the occurrence of the condition that water drops fall on certain parts of the air conditioner humidifier is avoided.

As preferentially, the fog outlet mechanism further comprises a drainage rib connected with the water baffle, the drainage rib comprises a first drainage rib positioned at the bottom of the water baffle and a second drainage rib positioned at two sides of the water baffle, by adopting the structure, after the water column generated by the atomizer is blocked, the blocked water can slowly flow down along the drainage rib connected with the water baffle, and the situation that water drops splash is caused by the fact that the water column instantaneously falls back to the component below is avoided, so that the working noise of the humidifier is reduced.

As the priority, go out fog mechanism and still include the air-out mechanism that is located atomizer one side, it includes the fan to go out the fan to construct, the fan includes the fan mouth, it still includes the air-out passageway that one end and fan mouth intercommunication other end and play fog passageway intercommunication and be located the deep bead of fog passageway and air-out passageway junction, adopt this structure, blow out the air current through the fan and pass through the air-out passageway, blow the water smoke in the fog passageway again, can make the quick follow humidifier of water smoke discharge to the outdoor, the humidification efficiency is improved, the effect of deep bead can avoid the air current direct blow water smoke that the fan blown out, the humidification efficiency is improved.

As the priority, the water collector still includes the atomizer cavity that supplies the atomizer to place, be provided with round manger plate rib all around of atomizer cavity, adopt this structure, the manger plate rib can prevent that the dust sand grain of deposit from entering into in the atomizer cavity in the water collector to avoided damaging the condition emergence of atomizer.

Drawings

Fig. 1 is a rear view of an air conditioner with a humidifier according to the present invention;

fig. 2 is a schematic structural view of the humidifier body when the top cover is covered on the water tank according to the present invention;

FIG. 3 is an enlarged view at B in FIG. 2;

fig. 4 is a schematic structural view of the humidifier body of the present invention with the top cover not covered on the water tank;

fig. 5 is an enlarged view at C in fig. 4;

FIG. 6 is an enlarged view of FIG. 1 at A;

FIG. 7 is an enlarged view of FIG. 6 at D;

fig. 8 is an exploded view of a humidifier body according to the present invention;

FIG. 9 is a schematic view of the construction of the working water tank of the present invention;

FIG. 10 is a schematic view of a water pan according to the present invention;

as shown in the figure: 1. a top cover; 2. a water tank; 3. a water outlet; 4. a driving member; 5. an evaporator; 6. a water receiving tray; 7. a drainage tube; 8. a working water tank; 9. a lever; 10. a linkage rod; 11. the inner wall of the top cover; 12. a guide post; 13. a pressing surface; 14. lever feet; 15. a lever head; 16. a connecting rib; 17. a movable cavity; 18. an upper limit plate; 19. a lower limit plate; 20. a rod body; 21. positioning columns; 22. a mask; 23. covering the surface; 24. a groove; 25. a water tank frame; 26. a water tank cover; 27. sealing the channel; 28. a channel wall; 30. an end head; 31. zigzag groove walls; 32. end tail; 33. a flexible connection member; 34. an extension; 35. a water discharge port; 36. a drain pipe; 37. a first through hole; 38. a first drainage tube; 39. a second through hole; 40. a second drainage tube; 41. an atomizer; 42. a mist outlet passage; 43. a water baffle; 44. the first drainage ribs; 45. the second drainage ribs; 46. a fan; 47. a fan port; 48. an air outlet channel; 49. a wind deflector; 50. a cavity of the atomizer; 51. water retaining ribs; 52. a humidifier body; 53. an air conditioner body; 54. an elastic member.

Detailed Description

The invention is further described below with reference to the accompanying drawings in combination with specific embodiments to enable one skilled in the art to practice the invention by reference to the specification, the scope of the invention being limited to the specific embodiments.

The invention relates to an air conditioner with a humidifier, as shown in figure 1, comprising a top cover 1, a humidifier body 52 and an air conditioner body 53, wherein the humidifier body 52 is movably connected with the top cover 1, a water inlet and outlet mechanism, a mist outlet mechanism and a drainage mechanism, the mist outlet mechanism is connected with the water inlet and outlet mechanism, the water inlet and outlet mechanism is connected with the water inlet and outlet mechanism, as shown in figure 2, the water inlet and outlet mechanism comprises a water tank 2, a working water tank 8 communicated with the water tank 2 through a water outlet 3 and a driving piece 4 which is movably connected with the water tank 2, when the top cover 1 is covered on the water tank 2, the driving piece 4 moves towards the direction far away from the water outlet 3 to open the water outlet 3, when the top cover 1 is taken down from the water tank 2, the driving piece 4 moves towards the water outlet 3 and seals the water outlet 3, as shown in figure 6, the drainage mechanism comprises a water receiving tray 6 communicated with the working water tank 8 and a drainage tube 7 arranged between the water receiving tray 6 and the evaporator 5, and the mist outlet mechanism is arranged between the working water tank 8 and the water receiving tray 6, and in figure 2, when water is required to be added into the humidifier, the top cover 1 is only opened, and when the driving piece 4 is covered on the water tank 2, the driving piece 4 moves towards the direction far away from the water outlet 3, and the water outlet 3 is not suitable for water outlet 3, and water can flow down by using the driving piece 4, and the driving piece 3, and can flow into the water outlet 3; after water is filled, the top cover 1 is covered, the driving piece 4 moves towards the direction away from the water outlet 3 to open the water outlet 3 by utilizing the cooperation of the top cover 1 and the driving piece 4, water flows downwards into the working water tank 8 through the water outlet 3, the mist outlet mechanism atomizes water in the working water tank 8 to achieve the effect of mist outlet humidification, the water which is higher than the standard liquid level and is leaked from the working water tank 8 is contained in the water receiving tray 6 communicated with the working water tank 8, the water in the working water tank 8 is prevented from being higher than the standard liquid level due to the leakage, the phenomenon of water overflow is avoided, and finally, the water in the water receiving tray 6 is drained onto the evaporator 5 of the air conditioner through the drainage tube 7 between the water receiving tray 6 and the evaporator 5, so that the purpose of treating redundant water in the working water tank 8 and the water receiving tray 6 is achieved. In the above-mentioned air conditioner structure, its humidifier adds water mode of water play water is simple, and the work is nimble, can improve humidification efficiency to avoid using automatically controlled part, reduce cost, hold the water that is higher than standard liquid level in the working water tank 8 through water collector 6, finally with this part water through drainage tube 7 drainage to the evaporimeter 5 of air conditioner, avoid falling to the automatically controlled part's in the air conditioner body condition emergence because of the water overflows down through handling effectively, improved the life-span of air conditioner.

As shown in fig. 3, the driving member 4 comprises a lever 9 and a linkage rod 10 linked with the lever 9, the top cover 1 comprises a top cover inner wall 11 and a guide post 12 arranged on the top cover inner wall 11, the lever 9 comprises a pressing surface 13 for pressing the guide post 12, and when the top cover 1 is covered on the water tank 2, the guide post 12 presses the pressing surface 13 to enable the linkage rod 10 to move towards a direction far away from the water outlet 3; when the top cover 1 is taken down from the water tank 2, the guide post 12 is separated from the pressing surface 13, the linkage rod 10 moves towards the water outlet 3 to close the water outlet 3, in fig. 3, when the top cover 1 is taken down from the water tank 2, the guide post 12 is separated from the lever 9, the linkage rod 10 moves towards the water outlet 3, at the moment, the water outlet 3 is closed by the linkage rod 10, water flow does not flow down towards the water outlet 3, so that moderate water can be filled in the water tank 2, when the top cover 1 is covered on the water tank 2, the guide post 12 presses against the lever 9, the linkage rod 10 moves a certain distance towards the direction away from the water outlet 3, at the moment, the water outlet 3 is opened, and water flow can flow down through the water outlet 3 to be atomized, thereby achieving the effect of mist humidification.

As shown in fig. 3, the lever 9 further comprises a lever foot 14, a lever head 15, and a connecting rib 16 connected between the lever foot 14 and the lever head 15, the lever foot 14, the lever head 15, and the connecting rib 16 are in an integrated structure, the pressing surface 13 is specifically disposed on the connecting rib 16, the humidifier body further comprises a movable cavity 17 for placing the lever 9 foot, the movable cavity 17 comprises an upper limiting plate 18 and a lower limiting plate 19, when the guide post 12 is pressed against the pressing surface 13, the lever foot 14 moves toward the direction of the lower limiting plate 19 and is attached to the lower limiting plate 19, the lever head 15 moves toward the direction of the inner wall 11 of the top cover for a certain distance, the linkage rod 10 moves toward the direction away from the water outlet 3, and when the guide post 12 is separated from the pressing surface 13, the lever leg 14 moves towards the upper limit plate 18 and is attached to the upper limit plate 18, the lever head 15 moves towards the direction away from the inner wall 11 of the top cover, the linkage rod 10 moves towards the water outlet 3 and closes the water outlet 3, in fig. 3, the top cover 1 covers the water tank 2, the guide post 12 is pressed against the pressing surface 13, the lever leg 14 moves towards the lower limit plate 19 and is attached to the lower limit plate 19, and simultaneously, the lever head 15 moves towards the inner wall 11 of the top cover, the lower limit plate 19 is used for limiting the movement stroke of the lever leg 14, and simultaneously, the movement stroke of the linkage rod 10 is also limited, so that the linkage rod 10 moves to a proper position, and water in the water tank flows into the working water tank from the water outlet; when the top cover 1 is removed from the water tank 2, the guide post 12 is separated from the pressing surface 13, and the lever leg 14 moves towards the upper limit plate 18 and is attached to the upper limit plate 18, and simultaneously, the lever head 15 moves towards the direction away from the inner wall 11 of the top cover, so that the upper limit plate 18 is used for limiting the movement stroke of the lever leg 14, and simultaneously, the movement stroke of the linkage rod 10 is also limited, so that the linkage rod 10 moves to a proper position.

As shown in fig. 3, the linkage rod 10 comprises a rod body 20, a positioning column 21 arranged on the rod body 20 and a mask 22 arranged on the rod body 20, the water outlet 3 comprises a mask joint surface 23 which can be completely jointed with the mask 22, the lever 9 comprises a groove 24, the positioning column 21 is buckled in the groove 24 and is rotationally connected with the groove 24, the mask 22 is covered on the water outlet 3 to enable the water outlet 3 to form a mask joint surface 23 jointed with the mask 22, in fig. 3, when the top cover 1 is removed from the water tank, the rod body 20 moves towards the water outlet 3 and enables the mask 22 to be covered on the water outlet 3, and the water outlet 3 forms a mask joint surface 23 jointed with the mask 22, so that water flow can not flow down towards the water outlet 3, and moderate water can be filled in the water tank 2; when the top cover 1 is covered on the water tank 2, when the lever head 15 moves towards the direction of the inner wall 11 of the top cover, the lever head 15 drives the lever body 20 to move towards the direction away from the water outlet 3 through the positioning column 21 which is buckled into the groove 24, once the lever body 20 moves towards the direction away from the water outlet 3, the mask 22 is far away from the water outlet 3 at the moment to open the water outlet 3, and water flows downwards through the water outlet 3 to be atomized, so that the effect of mist humidification is achieved.

As shown in fig. 3, the water tank 2 includes a water tank frame 25, the humidifier body further includes a sealing mechanism connected to the water inlet and outlet mechanism, the sealing mechanism includes a water tank cover 26 covering the water tank frame 25 and a sealing member located between the linkage rod 10 and the water tank cover 26, the water tank cover 26 includes a sealing channel 27 through which the linkage rod 10 passes, the sealing channel 27 includes a channel wall 28, the sealing member is located in the sealing channel 27, one end of the sealing member is fixedly connected to the linkage rod 10, and the other end is fixedly connected to the channel wall 28. In fig. 3, a sealing mechanism is arranged on a water tank in a humidifier body, the sealing mechanism can prevent external air from entering the water tank 2 from a position of a water tank cover 26 where a water inlet and outlet mechanism is arranged, the sealing member is equivalent to a junction, once the external air cannot enter the water tank 2, water in the water tank 2 cannot be influenced by external air pressure, when the water in the water tank 2 falls to a certain liquid level, the hydraulic pressure in the water tank 2 is smaller than that in a working water tank 8, and water in the water tank 2 cannot continuously flow into the working water tank 8 in a large amount through a water outlet 3, so that the water in the working water tank 8 is maintained in a horizontal range, the phenomenon of water overflow in the working water tank 8 is avoided, and the potential safety hazard of an air conditioner is reduced.

As shown in fig. 3, the linkage rod 10 is provided with a groove ring, the sealing element comprises an end 30 connected with the linkage rod 10, the end 30 is embedded into the groove ring, the other end of the sealing element is fixedly connected with the channel wall 28, the groove ring comprises a zigzag groove wall 31, the end 30 comprises a zigzag end face capable of being embedded into the zigzag groove wall 31, in fig. 3, one end of the sealing element is embedded into the groove ring on the linkage rod 10, no gap is generated between the sealing element and the linkage rod 10, the purpose of complete sealing is achieved, the sealing performance is improved, the groove wall of the groove ring is set into a zigzag shape, the contact area between the groove ring and the end 30 can be increased, the friction force between the groove ring and the end 30 is improved, the connection between the groove ring and the end is firmer, and the sealing performance can be further improved.

As shown in fig. 3, the sealing member further includes an end tail 32 fixedly connected with the channel wall 28, and a flexible connecting member 33 connecting the end head 30 and the end tail 32, the end tail 32 includes a joint surface jointed with the channel wall 28, the end head 30, the end tail 32 and the flexible connecting member 33 are integrally formed, in fig. 3, the end tail 32 of the sealing member is fixedly connected with the channel wall 28 and jointed with the channel wall 28, so that external air can not enter the water tank 2 from the sealing channel 27, the sealing purpose is achieved, when the linkage rod 10 moves towards the water outlet 3 at the bottom of the water tank 2 to close the water outlet 3, the flexible connecting member 33 connecting the end head 30 and the end tail 32 can facilitate the end head 30 to move along with the linkage rod 10, when the linkage rod 10 moves towards the direction away from the water outlet 3 to open the water outlet 3, the flexible connecting member 33 connecting the end head 30 and the end tail 32 can also facilitate the end head 30 to move along with the linkage rod, and the flexible connecting member 33 has a certain deformation force, so that the sealing member is mounted between the channel wall 28 and the linkage rod 10 to achieve the flexible sealing purpose.

The water inlet and outlet mechanism further comprises an elastic piece 54, one end of which is connected with the water tank cover 26, and the other end of which is connected with the linkage rod 10, in fig. 2 and 3, when the top cover is covered on the water tank, the guide post is propped against the propping surface, the lever head moves towards the direction of the inner wall of the top cover, the linkage rod moves towards the direction away from the water outlet, and the elastic piece is in a compressed state; in fig. 4 and 5, when the top cover is removed from the water tank, the guide post is far away from the pressing surface, the elastic piece compressed before starts to recover, the linkage rod moves towards the water outlet under the action of the elastic piece recovery elasticity, the lever head moves towards the direction far away from the inner wall of the top cover, and the elastic piece is in a compressed state. The elastic piece also plays a role in buffering the movement of the linkage rod.

As shown in fig. 3, the linkage rod 10 further includes an extension portion 34 located at the end of the rod body 20, the linkage rod 10 passes through the water outlet 3 and enters the working water tank 8 through the extension portion 34, in fig. 3, the extension portion on the rod body 20 passes through the water outlet 3 and enters the working water tank 8, when the hydraulic pressure in the water tank 2 is smaller than that in the working water tank 8, although the water in the water tank 2 cannot flow into the working water tank 8 in a large amount through the water outlet 3, the water can slowly flow into the working water tank 8 along the extension portion 34 of the linkage rod 10, so that the water flow can continuously enter the working water tank 8, the phenomenon of water shortage in the working water tank 8 is avoided, the water source with mist is ensured to be always provided, the mist outlet efficiency of the humidifier is improved, and the humidifying efficiency of the humidifier is improved.

The working water tank 8 is communicated with the water receiving disc 6 through a water draining mechanism, as shown in fig. 9, the water draining mechanism comprises a water draining port 35 arranged at the bottom of the working water tank 8 and a water draining pipe 36 communicated with the water draining port 35 and facing the direction of the water tank 2, the length of the water draining pipe 36 is smaller than the height of the working water tank 8, the length of the water draining pipe 36 is equal to the standard liquid level set in the working water tank 8, and in fig. 9, when the water in the working water tank 8 is higher than the standard liquid level, the water is drained into the water receiving disc 6 through the water draining pipe 36, so that the liquid level in the working water tank 8 can be maintained within a standard.

As shown in fig. 6, the drainage tube 7 includes a first through hole 37 disposed at the bottom of the water receiving tray 6, a first drainage tube 38 communicated with the first through hole 37, a second through hole 39 disposed above the evaporator 5, and a second drainage tube 40 communicated with the second through hole 39, the caliber of the first drainage tube 38 is smaller than that of the second drainage tube 40, the first drainage tube 38 can extend into the second drainage tube 40, in fig. 6, liquid in the water receiving tray 6 enters the first drainage tube 38 and the second drainage tube 40 through the first through hole 37, and then flows onto the evaporator 5 through the second through hole 39.

As shown in fig. 6 and 7, the mist outlet mechanism includes a nebulizer 41 provided on the water receiving tray 6, a mist outlet passage 42 provided above the nebulizer 41, and a water blocking plate 43 provided in the mist outlet passage 42. In fig. 6 and 7, the mist generated by the atomizer 41 passes through the mist outlet channel 42, and the water column generated in the process of generating the water mist by the atomizer 41 is blocked and falls back due to the water baffle 43 arranged above the atomizer 41, so that the water column is prevented from splashing after rushing out of the mist outlet channel, the fine and smooth mist generated by the humidifier is ensured, the humidifying efficiency is improved, and the condition that water drops fall on certain parts of the air conditioner humidifier is avoided.

As shown in fig. 7, the mist outlet mechanism further comprises a drainage rib connected with the water baffle 43, the drainage rib comprises a first drainage rib 44 positioned at the bottom of the water baffle 43 and a second drainage rib 45 positioned at two sides of the water baffle 43, in fig. 7, after the water column generated by the atomizer 41 is blocked, the blocked water can slowly flow down along the drainage rib connected with the water baffle 43, so that the situation that water drops splash due to the fact that the water column instantaneously falls back to the component below is avoided, and the working noise of the humidifier is also reduced.

As shown in fig. 7, the mist outlet mechanism further comprises an air outlet mechanism positioned at one side of the atomizer 41, the air outlet mechanism comprises a fan 46, the fan 46 comprises a fan opening 47, the air outlet mechanism further comprises an air outlet channel 48 with one end communicated with the fan opening 47 and the other end communicated with the mist outlet channel 42, and a wind shield 49 positioned at the joint of the mist outlet channel 42 and the air outlet channel 48, in fig. 7, air flow is blown out through the fan 46 and passes through the air outlet channel 48, and then water mist in the mist outlet channel 42 is blown out, so that the water mist can be quickly discharged out of a room from the humidifier, the humidifying efficiency is improved, and the wind shield 49 has the effect of preventing the air flow blown out by the fan from directly blowing the water mist, and the humidifying efficiency is improved.

As shown in fig. 10, the water pan 6 further includes an atomizer cavity 50 in which the atomizer 41 is placed, and a circle of water blocking ribs 51 are disposed around the atomizer cavity 50, and in fig. 10, the water blocking ribs 51 can prevent dust and sand particles deposited in the water pan 6 from entering the atomizer cavity 50, so that dust and sand particles are prevented from being discharged together with water mist, and damage to the atomizer 41 is avoided.

Claims

1. Air conditioner with humidifier, including top cap (1), humidifier body (52) and air conditioner body (53), its characterized in that: the humidifier body (52) is positioned below the top cover (1), the air conditioner body (53) is positioned below the humidifier body (52), and the air conditioner body (53) comprises an evaporator (5); the humidifier body (52) comprises a water inlet and outlet mechanism movably connected with the top cover (1), a mist outlet mechanism positioned below the water inlet and outlet mechanism and connected with the water inlet and outlet mechanism, and a drainage mechanism connected with the water inlet and outlet mechanism, wherein the water inlet and outlet mechanism comprises a water tank (2), a working water tank (8) positioned below the water tank and communicated with the water tank (2) through a water outlet (3), and a driving piece (4) movably connected with the water tank (2); the drainage mechanism comprises a water receiving disc (6) which is positioned below the working water tank (8) and is communicated with the working water tank (8) and a drainage tube (7) which is positioned between the water receiving disc (6) and the evaporator (5); the working water tank (8) is communicated with the water receiving disc (6) through a water draining mechanism, the water draining mechanism comprises a water draining port (35) arranged at the bottom of the working water tank (8) and a water draining pipe (36) communicated with the water draining port (35) and facing the water tank (2), the length of the water draining pipe (36) is smaller than the height of the working water tank (8), and the length of the water draining pipe (36) is equal to the standard liquid level height set in the working water tank (8); the mist outlet mechanism is positioned between the working water tank (8) and the water receiving disc (6), and comprises an atomizer (41) on the water receiving disc (6), a mist outlet channel (42) positioned above the atomizer (41) and a water baffle (43) positioned in the mist outlet channel (42); when the top cover (1) is covered on the water tank (2), the driving piece (4) moves towards the direction far away from the water outlet (3) to open the water outlet (3), and water flow in the water tank (2) flows into the working water tank (8) through the water outlet (3); the atomizer (41) is used for atomizing water in the working water tank (8); when the top cover (1) is taken down from the water tank (2), the driving piece (4) moves towards the water outlet (3) and closes the water outlet (3);

the driving piece (4) comprises a lever (9) and a linkage rod (10) linked with the lever (9), the top cover (1) comprises a top cover inner wall (11) and a guide post (12) arranged on the top cover inner wall (11), the lever (9) comprises a pressing surface (13) for pressing the guide post (12), and when the top cover (1) is covered on the water tank (2), the guide post (12) presses the pressing surface (13) to enable the linkage rod (10) to move towards a direction far away from the water outlet (3); when the top cover (1) is taken down from the water tank (2), the guide post (12) is separated from the pressing surface (13) and the linkage rod (10) moves towards the water outlet (3) to close the water outlet (3);

the lever (9) further comprises a lever foot (14), a lever head (15) and a connecting rib (16) connected between the lever foot (14) and the lever head (15), the lever foot (14), the lever head (15) and the connecting rib (16) are of an integrated structure, the pressing surface (13) is specifically arranged on the connecting rib (16), the humidifier body further comprises a movable cavity (17) for placing the foot of the lever (9), the movable cavity (17) comprises an upper limit plate (18) and a lower limit plate (19), when the guide post (12) is pressed against the pressing surface (13), the lever foot (14) moves towards the lower limit plate (19) and is attached to the lower limit plate (19), the lever head (15) moves towards the direction of the inner wall (11) of the top cover, the linkage rod (10) moves towards the direction away from the water outlet (3), and when the guide post (12) is separated from the pressing surface (13), the lever foot (14) moves towards the direction of the upper limit plate (18) and is attached to the upper limit plate (18) and moves towards the direction of the inner wall (11) of the top cover (3) away from the water outlet (3);

the linkage rod (10) comprises a rod body (20), a positioning column (21) arranged on the rod body (20) and a mask (22) arranged on the rod body (20), the water outlet (3) comprises a mask closing surface (23) which can be completely attached to the mask (22), the lever (9) comprises a groove (24), the positioning column (21) is buckled into the groove (24) and is rotationally connected with the groove (24), and the mask (22) is covered on the water outlet (3) to enable the water outlet (3) to form the mask closing surface (23) attached to the mask (22);

the drainage tube (7) is including setting up first through-hole (37) in water collector (6) bottom, with first drainage tube (38) of first through-hole (37) intercommunication, set up second through-hole (39) and second drainage tube (40) of communicating with second through-hole (39) above evaporimeter (5), the bore of first drainage tube (38) is less than the bore of second drainage tube (40), first drainage tube (38) can stretch into in second drainage tube (40).

2. An air conditioner with humidifier according to claim 1, wherein: the water tank (2) comprises a water tank frame body (25), the humidifier body further comprises a sealing mechanism connected with the water inlet and outlet mechanism, the sealing mechanism comprises a water tank cover (26) covered on the water tank frame body (25) and a sealing piece located between the linkage rod (10) and the water tank cover (26), the water tank cover (26) comprises a sealing channel (27) for the linkage rod (10) to pass through, the sealing channel (27) comprises a channel wall (28), the sealing piece is located in the sealing channel (27), one end of the sealing piece is fixedly connected with the linkage rod (10), and the other end of the sealing piece is fixedly connected with the channel wall (28).

3. An air conditioner with humidifier according to claim 2, wherein: the connecting rod (10) is provided with a groove ring, the sealing element comprises an end head (30) connected with the connecting rod (10), the end head (30) is embedded into the groove ring (29), the other end of the sealing element is fixedly connected with the channel wall (28), the groove ring comprises a zigzag groove wall (31), and the end head (30) comprises a zigzag end face capable of being embedded into the zigzag groove wall (31).

4. An air conditioner with humidifier according to claim 2, wherein: the sealing element further comprises an end tail (32) fixedly connected with the channel wall (28) and a flexible connecting element (33) for connecting the end head (30) and the end tail (32), the end tail (32) comprises a joint surface jointed with the channel wall (28), and the end head (30), the end tail (32) and the flexible connecting element (33) are of an integrated structure.

5. An air conditioner with humidifier according to claim 3, wherein: the linkage rod (10) further comprises an extension part (34) positioned at the tail end of the rod body (20), and the linkage rod (10) passes through the water outlet (3) and enters the working water tank (8) through the extension part (34).

6. An air conditioner with humidifier according to claim 1, wherein: the mist outlet mechanism further comprises an air outlet mechanism positioned at one side of the atomizer (41), the air outlet mechanism comprises a fan (46), the fan (46) comprises a fan opening (47), the air outlet mechanism further comprises an air outlet channel (48) with one end communicated with the fan opening (47) and the other end communicated with the mist outlet channel (42), and a wind shield (49) positioned at the joint of the mist outlet channel (42) and the air outlet channel (48).

7. An air conditioner with humidifier according to claim 1, wherein: the water pan (6) further comprises an atomizer cavity (50) for placing the atomizer (41), and a circle of water retaining ribs (51) are arranged around the atomizer cavity (50).