CN210601970U - Air purification module, air conditioner indoor unit and air conditioner - Google Patents

Abstract

The utility model discloses an air purification module, an air-conditioning indoor unit and an air conditioner, wherein the air-conditioning indoor unit comprises a shell, a purification component, a water tank, a panel, a water pump, a first driving device and an electric control box; the shell is provided with an air inlet, an air outlet, a purification air channel and a containing cavity positioned below the purification air channel, and the side wall of the shell is provided with a mounting opening communicated with the containing cavity; the purification component is arranged in the purification air channel and is suitable for receiving a water source to purify the air; the water tank is arranged in the containing cavity; the panel covers the installation opening; the water pump is arranged in the water tank and is used for pumping water in the water tank to the purification component; the first driving device is arranged on the shell and is connected with the water pump; the electric control box is arranged on the shell and electrically connected with the first driving device and used for driving the water pump to ascend through the first driving device when the mounting opening is opened on the panel, so that the water supply tank is moved out of the mounting opening. The utility model discloses the machine can not damage the water pump at the water tank in-process of drawing out in the air conditioning for the use of water pump is more stable.

Description

Air purification module, air conditioner indoor unit and air conditioner

Technical Field

The utility model relates to an air conditioning technology field, in particular to machine and air conditioner in air purification module, air conditioning.

Background

With the gradual increase of the attention degree of users to the health of the air conditioner, the cleanness and health of the air conditioner become a key concern. At present, there is the technical scheme who provides hypergravity washing, drive the high-speed motion of rotator by the motor, water pump in the water tank sends water to the piece of executing water, the piece of executing water sprays water to the rotator on, the water grain is under high-speed motion, refine to littleer water grain, the air is through purifying the wind channel, wash and filter the granule in the air, water flows back to and carries out cyclic utilization in the water tank again after cleaing away the dust in the air, just remind the user to take out the water tank and change water when the dirty degree that the water sensor in the water tank detected water reaches the setting value.

After water is dirty, the user needs to pump out the water tank to replace water or wash the water tank, and if the water pump is arranged in the water tank, the pipeline and the circuit can be dragged in the process of pumping out the water tank, so that the water supply system is easy to break down.

The above is only for the purpose of assisting understanding of the technical solution of the present invention, and does not represent an admission that the above is the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing an air purification module, aim at solving when taking out the water tank water supply system or the fragile technical problem of water pump.

In order to achieve the purpose, the air purification module provided by the utility model comprises a shell, a purification component, a water tank, a panel, a water pump, a first driving device and an electric control box;

the shell is provided with an air inlet, an air outlet and a purification air channel for communicating the air inlet with the air outlet, a cavity positioned below the purification air channel is formed in the shell, and the side wall of the shell is provided with a mounting opening communicated with the cavity;

the purification component is arranged in the purification air channel and is suitable for receiving a water source to purify air;

the water tank is arranged in the containing cavity;

the panel is arranged to cover the mounting opening;

the water pump is arranged in the water tank and used for pumping water in the water tank to the purification assembly;

the first driving device is arranged on the shell and is connected with the water pump;

the electric control box is arranged on the shell and electrically connected with the first driving device, and is used for driving the water pump to ascend through the first driving device when the panel opens the mounting opening so as to enable the water tank to be moved out of the mounting opening.

In an embodiment, the air purification module further includes a first sensing device, the first sensing device is mounted on the housing and electrically connected to the electronic control box, and the electronic control box is configured to control the first driving device to drive the water pump to ascend when the first sensing device senses that the panel is opened.

In an embodiment, the air purification module further includes a locking device and a second sensing device, the second sensing device is electrically connected to the electronic control box, the locking device has a locking state for locking the water tank to the housing and an unlocking state for unlocking the water tank and the housing, and the second sensing device is disposed in the housing and located at a first predetermined height above the water tank;

the electric control box is used for controlling the locking device to be in an unlocking state when the second sensing device senses that the water pump rises to the first preset height.

In an embodiment, the air purification module further includes a third sensing device, the third sensing device is electrically connected to the electronic control box, the third sensing device is installed on an inner wall surface of the housing corresponding to the water tank, and the electronic control box is configured to control the first driving device to drive the water pump to descend into the water tank when the third sensing device senses that the water tank is reset and installed in the containing cavity.

In an embodiment, the air purification module further includes a fourth sensing device, the fourth sensing device is electrically connected to the electrical control box, and the fourth sensing device is disposed in the housing and located at a second preset height below the first preset height;

the electric control box is used for controlling the locking device to be in a locking state when the fourth sensing device senses that the water pump descends from the first preset height to the second preset height.

In one embodiment, the purification assembly comprises a rotating body adapted to spin water outwardly when sprayed thereon;

the air purification module further comprises a second driving device, and an output shaft of the second driving device is connected with the rotating body so as to drive the rotating body to rotate;

the electronic control box is further used for controlling the second driving device to stop running when the first sensing device senses that the panel is opened, and controlling the second driving device to be in standby when the first sensing device senses that the panel is closed.

In one embodiment, the air purification module further comprises a fan component, the fan component is provided with a fan air duct communicated with the purification air duct, and the fan component is used for enabling the air flow to flow in from the air inlet, flow through the purification air duct and flow out from the air outlet; the electric control box is also used for controlling the fan component to stop running when the first sensing device senses that the panel is opened; and when the first sensing device senses that the panel is closed, controlling the fan component to be in standby.

In an embodiment, the air purification module further comprises a housing, one side of the housing is open, the housing is installed in the housing, the installation opening is arranged corresponding to the opening, and the panel can detachably cover the opening;

the air purification module still includes the IFD module, the IFD module install in the shell, automatically controlled box still is used for when first induction system senses when the panel is opened, control the power failure of IFD module, and when first induction system senses when the panel is closed, control IFD module circuit switch-on.

In an embodiment, the first driving device includes a driving member and a transmission member, one end of the transmission member is connected to the driving member, and the other end of the transmission member is connected to the water pump, and the driving member drives the transmission member to drive the water pump to move up and down.

In one embodiment, the peripheral linear velocity of the rotating body is greater than or equal to 10m/s and less than or equal to 45 m/s.

The utility model also provides an air-conditioning indoor unit, which comprises a casing and an air purification module, wherein the casing is provided with a heat exchange air inlet, a heat exchange air outlet, a purification air inlet and a purification air outlet, the heat exchange air inlet is communicated with the heat exchange air outlet, and the purification air inlet is communicated with the purification air outlet;

the air purification module comprises a shell, a purification component, a water tank, a panel, a water pump, a first driving device and an electric control box;

the shell is provided with an air inlet, an air outlet and a purification air channel for communicating the air inlet with the air outlet, a cavity positioned below the purification air channel is formed in the shell, and the side wall of the shell is provided with a mounting opening communicated with the cavity;

the purification component is arranged in the purification air channel and is suitable for receiving a water source to purify air;

the water tank is arranged in the containing cavity;

the panel is arranged to cover the mounting opening;

the water pump is arranged in the water tank and used for pumping water in the water tank to the purification assembly;

the first driving device is arranged on the shell and is connected with the water pump;

the electric control box is arranged on the shell and electrically connected with the first driving device, and is used for driving the water pump to ascend through the first driving device when the panel opens the mounting opening so as to enable the water tank to be moved out of the mounting opening.

The utility model also provides an air conditioner, including air condensing units and the indoor set of air conditioner through the refrigerant pipe intercommunication, the indoor set of air conditioner includes casing and air purification module, wherein, the casing is equipped with heat transfer air intake, heat transfer air outlet, purification air intake and purification air outlet, the heat transfer air intake with the heat transfer air outlet intercommunication, the purification air intake with the purification air outlet intercommunication;

the air purification module comprises a shell, a purification component, a water tank, a panel, a water pump, a first driving device and an electric control box;

the shell is provided with an air inlet, an air outlet and a purification air channel for communicating the air inlet with the air outlet, a cavity positioned below the purification air channel is formed in the shell, and the side wall of the shell is provided with a mounting opening communicated with the cavity;

the purification component is arranged in the purification air channel and is suitable for receiving a water source to purify air;

the water tank is arranged in the containing cavity;

the panel is arranged to cover the mounting opening;

the water pump is arranged in the water tank and used for pumping water in the water tank to the purification assembly;

the first driving device is arranged on the shell and is connected with the water pump;

the electric control box is arranged on the shell and electrically connected with the first driving device, and is used for driving the water pump to ascend through the first driving device when the panel opens the mounting opening so as to enable the water tank to be moved out of the mounting opening.

The utility model discloses air purification module closes the installing port in appearance chamber with the water tank setting in the appearance intracavity of purifying air duct below through the panel lid, and in the water tank was located to the water pump, and automatically controlled box was used for opening the installing port when the panel, ascended through a drive arrangement drive water pump to the feed water tank shifts out by the installing port. So, dirty back of water in the water tank, the user need remove the water tank and when changing water or wasing the water tank, can rise the water pump earlier before removing the water tank. The water pump cannot be damaged in the process of pumping out the water tank, the pipeline and the circuit cannot be pulled, and the water tank is more smoothly moved out, so that the water supply system and the water pump are more stable to use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of an air purification module of the present invention;

FIG. 2 is a schematic cross-sectional view of the air purification module of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

FIG. 5 is an enlarged view of a portion of FIG. 2 at C;

FIG. 6 is an enlarged view of a portion of FIG. 2 at D;

FIG. 7 is a schematic view of the air purification module of FIG. 1 with the front panel open;

FIG. 8 is an enlarged view of a portion of FIG. 7 at E;

FIG. 9 is a schematic view of the air purification module of FIG. 1 with the face plate removed;

FIG. 10 is an enlarged view of a portion of FIG. 9 at F;

fig. 11 is a schematic structural view of an embodiment of an indoor unit of an air conditioner according to the present invention.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B" including either scheme A, or scheme B, or a scheme in which both A and B are satisfied.

The utility model provides an air purification module.

In the embodiment of the present invention, as shown in fig. 1 to 3 and fig. 7 to 9, the air purification module 100 includes a housing 101, a purification assembly 102, a water tank 103, a panel 104, a water pump 105, a first driving device 106, and an electronic control box 107. The casing 101 has an air inlet 120, an air outlet 130, and a purification air duct 140 communicating the air inlet 120 and the air outlet 130, a cavity 150 located below the purification air duct 140 is further formed in the casing 101, and a mounting opening 160 communicating with the cavity 150 is opened on a side wall of the casing 101. The cleaning assembly 102 is disposed within the cleaning air duct 140, and the cleaning assembly 102 is adapted to receive a source of water to clean the air. A water tank 103 is disposed within the cavity 150. The faceplate 104 is positioned to cover the mounting opening 160. A water pump 105 is provided in the water tank 103, and the water pump 105 is used to pump water in the water tank 103 to the purification assembly 102. The first driving device 106 is mounted to the housing 101 and connected to the water pump 105. The electronic control box 107 is mounted on the housing 101, the electronic control box 107 is electrically connected to the first driving device 106, and the electronic control box 107 is used for driving the water pump 105 to ascend through the first driving device 106 when the mounting opening 160 is opened by the panel 104, so that the water supply tank 103 is moved out of the mounting opening 160.

In this embodiment, the shape of the housing 101 may be various, for example, the cross section may be circular, oval, rectangular, etc., and in order to better fit with the air conditioner, the shape of the housing 101 may be set according to the model of the air conditioner used specifically, and is not limited specifically herein, and the following embodiments are described by taking the housing 101 as a cylinder. The casing 101 may have a structure with openings at both ends, the openings at both ends are used as the air inlet 120 and the air outlet 130, the casing 101 may also have a structure with openings at both ends, the air inlet 120 is disposed on one circumferential side of the casing 101, and the air outlet 130 is disposed on the other circumferential side of the casing 101. There are various shapes of the intake vent 120 and the outtake vent 130, such as a circle, an ellipse, a square, a polygon, a porous type, etc., and there is no particular limitation thereto. The air inlet 120 comprises a fresh air inlet which is communicated with the outdoor; and/or the indoor air inlet 120, and the indoor air inlet 120 is communicated with the indoor space. Since the purification assembly 102 is wrapped by the casing 101 and then installed in the cabinet 600, the casing 101 can block water in the purification assembly 102 from flowing to the inner wall of the cabinet 600, so that other parts on the inner wall of the cabinet 600 can be prevented from being wetted and damaged. In addition, the air inlets 120 are arranged in a plurality of numbers, and are distributed along the circumferential direction of the shell 101 at intervals, so that air is introduced from a plurality of circumferential positions, and the contact area with water is increased better.

The cavity 150 and the purge air duct 140 may be in communication with each other or may be isolated from each other, and are not limited herein. The shape of the cavity 150 is adapted to the shape of the water reservoir 103. The cross-section of the water tank 103 may be rectangular, circular, oval, etc. The mounting port 160 should be movable in and out of the water service box 103. The panel 104 may be disposed to cover only the mounting opening 160, or may be disposed to cover the entire housing 101, and is not particularly limited herein.

The purification assembly 102 can be one of a wet film structure, a wet curtain structure, an ultrasonic atomization structure, a water-throwing wheel structure, or a combination thereof. Purification subassembly 102 can receive the water in the water tank 103 to with water atomization, formation cascade, water film, water droplet etc. and then make the air through this purification subassembly 102 can with abundant contact such as water smoke, water droplet, water film, thereby harmful substances such as particulate matter and formaldehyde in the air can fully fuse with water, and then reach the mesh of washing filtered air. And the filtered air is washed by the purification assembly 102, so that the air can achieve a micro-humid feeling, thereby providing a better experience for users.

In one embodiment, referring to FIG. 2, the cleaning assembly 102 includes a rotating body adapted to spin water outwardly as it is sprayed onto the rotating body. It means that the rotating body is used for making water leave the rotating body after centrifugal motion when the rotating body rotates. This rotator can comprise one or more carousel, when water sprays the carousel, because the high rotation of rotator for water cutting on the carousel gets rid of the internal face to casing 101 for tiny water particle, thereby the air current in the process purification wind channel 140 can contact and fuse with tiny water particle, and then reaches the mesh of washing filtered air. The rotating body may be formed to have a ventilation structure, and a screen or a mesh (not shown) may be laid thereon to cut and purify the fine water particles.

Specifically, in practical applications, the peripheral linear velocity of the rotating body is greater than or equal to 10 m/sec and less than or equal to 45 m/sec, such as 10 m/sec, 15 m/sec, 18 m/sec, 23 m/sec, 28 m/sec, 35 m/sec, 38 m/sec, 45 m/sec, and the like. Preferably 20m/s to 30m/s, such as may be 20m/s, 22m/s, 25m/s, 27m/s, 29m/s, 30m/s, and the like. So, can make water by broken up fully, effectively increase the distribution volume of water droplet and water smoke, can reduce the noise of production again, improve the practicality.

In practical applications, the housing 101 is extended vertically, the air inlet 120 is located at the lower end of the housing 101, and the air outlet 130 is located at the upper end of the housing 101. The water thrown out by the rotating body drops downwards due to the action of gravity, so that the air inlet 120 is positioned below the shell 101, the air inlet direction is inconsistent with the dropping direction of the water drops, and the phenomenon of water blowing caused by the fact that a large amount of water drops are discharged from the air outlet 130 while being mixed by air flow is prevented.

The water tank 103 is movably connected with the housing 101, and specifically, the water tank 103 and the housing 101 are connected by a grooved rail, a plug connection, a hinge connection, or the like, so that the water tank 103 can be partially or completely moved out of the housing 101. In one embodiment, the first driving device 106 includes a driving member 171 and a transmission member 172, one end of the transmission member 172 is connected to the driving member 171, and the other end is connected to the water pump 105, and the driving member 171 drives the transmission member 172 to drive the water pump 105 to move up and down. The first driving device 106 is installed in the housing 101, and the driving member 171 is a motor or other driving members 171 capable of driving the transmission member 172 to move the water pump 105 up and down. The transmission member 172 may be a gear rack, a screw rod, or the like that can convert the motion of the driving member 171 into a linear reciprocating motion. The final elevation of the water pump 105 should be higher than the height of the water tank 103 to avoid touching the water pump 105 when the water tank 103 is being pulled.

It will be appreciated that when the panel 104 is opened, a sensing device or switch or the like can be triggered. The electronic control box 107 can be installed inside the housing 101, outside the housing 101, or on the housing 101, and the electronic control box 107 can receive the sensing signal and control the corresponding structure to move or stop. When the electronic control box 107 receives a signal that the panel 104 is opened, which indicates that the water tank 103 needs to be opened, the electronic control box 107 controls the first driving device 106 to drive the water pump 105 to ascend out of the water tank 103, so that the water tank 103 can move out of the receiving cavity 150 through the mounting port 160.

The utility model discloses air purification module 100 sets up water tank 103 in the appearance chamber 150 of purifying air duct 140 below, closes the installing port 160 that holds chamber 150 through panel 104 lid, and in water pump 105 located water tank 103, and automatically controlled box 107 was used for opening when installing port 160 when panel 104, ascended through first drive arrangement 106 drive water pump 105 to supply tank 103 shifts out by installing port 160. In this manner, when the user needs to move out of the water tank 103 to replace water or wash the water tank 103 after the water in the water tank 103 is dirty, the water pump 105 can be lifted up before moving out of the water tank 103. The water pump 105 cannot be damaged in the process of pumping out the water tank 103, the pipeline and the line cannot be pulled, and the water tank 103 is moved out more smoothly, so that the water supply system and the water pump 105 are more stably used.

Specifically, referring to fig. 2, 3, and 7 to 9, the air purification module 100 further includes a first sensing device 200, the first sensing device 200 is mounted on the housing 101 and electrically connected to the electric control box 107, and the electric control box 107 is configured to control the first driving device 106 to drive the water pump 105 to ascend when the first sensing device 200 senses that the panel 104 is opened.

In this embodiment, the first sensing device 200 may include a sensor, and the sensor may be a pressure sensor, an infrared sensor, a position sensor, a hall effect sensor, or the like. The first sensing device 200 can be disposed on the housing 101 at a position corresponding to the panel 104, or can be disposed on the panel 104 or on the water tank 103. The first sensing device 200 is electrically connected to the electrical control box 107. In order to simplify the wiring and avoid breaking the circuit, leaking electricity, etc., the first sensing device 200 is preferably disposed on the housing 101 at a position corresponding to the panel 104. And the first sensing device 200 is installed at a position of the housing 101 corresponding to the panel 104, the first sensing device 200 can be triggered during the opening and closing processes of the panel 104. When the panel 104 is opened, the first sensing device 200 is triggered, the first sensing device 200 sends a signal that the panel 104 is opened, the electronic control box 107 receives the signal, the signal indicates that the water tank 103 needs to be opened, and at the moment, the electronic control box 107 controls the first driving device 106 to drive the water pump 105 to ascend to the outside of the water tank 103. It is understood that the signals herein may be electrical signals such as specific currents, voltages, etc. Through the cooperation of the first sensing device 200 and the electric control box 107, the whole electric control structure is simpler, and the control mode is faster and smoother.

In an embodiment, referring to fig. 4, 9 and 10, the air purification module 100 further includes a locking device 108 and a second sensing device 300, the second sensing device 300 is electrically connected to the electrical control box 107, the locking device 108 has a locking state for locking the water tank 103 to the housing 101 and an unlocking state for unlocking the water tank 103 and the housing 101, and the second sensing device 300 is disposed in the housing 101 and located at a first predetermined height above the water tank 103. The electronic control box 107 is used for controlling the locking device 108 to be in the unlocked state when the second sensing device 300 senses that the water pump 105 is lifted to the first preset height.

In this embodiment, the locking device 108 may be an electromagnetic locking mechanism, such as a solenoid valve, an electromagnetic switch, etc. The locked state and the unlocked state of the locking device 108 can be switched by switching the locking device 108 on and off. For example, when the lock 108 is energized, the lock 108 is in a locked state, and the lock 108 locks the water tank 103, and the water tank 103 cannot be moved in a drawing manner. When the lock 108 is de-energized, the lock 108 is in an unlocked state and the lock 108 unlocks the water tank 103 so that the water tank 103 can be withdrawn. The second sensing device 300 may include a sensor, which may be a pressure sensor, an infrared sensor, a position sensor, a hall effect sensor, or the like.

The first preset height may be set according to a space above the water tank 103, and is not particularly limited herein. When the panel 104 opens the mounting opening 160, the electronic control box 107 controls the first driving device 106 to drive the water pump 105 to ascend, and when the water pump 105 ascends to a first preset height, the second sensor is triggered. At this time, the electronic control box 107 receives a signal sent by the second sensor that the water pump 105 rises to the first preset height, and controls the locking device 108 to be in the unlocked state, and at this time, the water tank 103 is in the unlocked state, and the user can pull and move out of the water tank 103. The signal here may be a specific current, voltage, or other electrical signal.

By arranging the locking device 108 and the second sensing device 300, the water tank 103 can be in a movable state when the water pump 105 rises to the first preset height, so that the water pump 105 can be prevented from being damaged by pumping out the water tank 103 by a user when the water pump 105 does not rise to the preset height. And meanwhile, the operation of the user is safer.

In an embodiment, as shown in fig. 2 and 5, the air purification module 100 further includes a third sensing device 400, the third sensing device 400 is electrically connected to the electronic control box 107, the third sensing device 400 is installed on an inner wall surface of the housing 101 corresponding to the water tank 103, and the electronic control box 107 is configured to control the first driving device 106 to drive the water pump 105 to descend into the water tank 103 when the third sensing device 400 senses that the water tank 103 is reset and installed in the accommodating cavity 150.

In this embodiment, the third sensing device 400 may include a sensor, which may be a pressure sensor, an infrared sensor, a position sensor, a hall effect sensor, or the like. The third sensing device 400 may be disposed on the inner wall surface of the housing 101 corresponding to both sides of the water tank 103, or may be disposed on the inner wall surface of the housing 101 corresponding to the rear side of the water tank 103. I.e., on the inner wall surface of the receptacle 150. In order to secure the safety of the operation, it is preferable that the second sensing means 300 is provided on the inner wall surface of the rear side of the water tank 103. When the water tank 103 is reset and installed in the cavity 150, the third sensing device 400 is touched. The electronic control box 107 receives a signal of resetting the water tank 103 from the third sensing device 400, and controls the first driving device 106 to drive the water pump 105 to descend into the water tank 103. The signal here may be a specific current, voltage, or other electrical signal. The water pump 105 may be suspended within the tank 103 or may be lowered into contact with the bottom surface of the tank 103. By arranging the third sensor, when the water tank 103 is reset, the water pump 105 is automatically lowered into the water tank 103, and the system is in a normal standby state.

In an embodiment, as shown in fig. 2 and fig. 6, the air purification module 100 further includes a fourth sensing device 500, the fourth sensing device 500 is electrically connected to the electrical control box 107, and the fourth sensing device 500 is disposed in the housing 101 and located at a second predetermined height below the first predetermined height. The electronic control box 107 is used for controlling the locking device 108 to be in the locking state when the fourth sensing device 500 senses that the water pump 105 is lowered from the first preset height to the second preset height.

In this embodiment, the fourth sensing device 500 may include a sensor, and the sensor may be a pressure sensor, an infrared sensor, a position sensor, a hall effect sensor, or the like. The electronic control box 107 controls the water pump 105 to descend when the water tank 103 has moved back into the housing 101 upon receiving a signal from the third sensing device 400 that the water tank 103 is reset. When the water pump 105 descends from the first preset height to the second preset height, the fourth sensing device 500 is triggered. The electronic control box 107 receives a signal from the fourth sensing device 500 that the water pump 105 descends from the first preset height to the second preset height, and controls the locking device 108 to be in the locking state. The signal here may be a specific current, voltage, or other electrical signal. Thus, the water tank 103 is locked during the lowering of the water pump 105. Therefore, when the water pump 105 descends, the user can be prevented from mistakenly drawing out the water tank 103, and the water pump 105 is not descended into the water tank 103.

In one embodiment, referring again to fig. 2, 3, 7-9, the purification assembly 102 includes a rotating body adapted to rotate to throw water outwardly when the water is sprayed onto the rotating body. The air purification module 100 further comprises a second driving device 109, and an output shaft of the second driving device 109 is connected to the rotating body to drive the rotating body to rotate. The electronic control box 107 is further used for controlling the second driving device 109 to stop running when the first sensing device 200 senses that the panel 104 is opened, and controlling the second driving device 109 to stand by when the first sensing device 200 senses that the panel 104 is closed.

In this embodiment, it should be noted that the standby state of the second driving device 109 means that the second driving device 109 is electrically connected to the electrical control box 107, but is not in operation. When the user instructs the system to operate next, the second driving device 109 operates to rotate the rotating body. A second drive means 109 is mounted within the housing 101, the second drive means 109 being connected to the rotary body for driving the rotary body in rotation along its axis of rotation. The second driving device 109 is embodied as a motor or other driving member capable of driving the rotation of the rotating body. When the panel 104 is opened, the first sensing device 200 is triggered, and the electronic control box 107 receives a signal that the first sensing device 200 senses that the panel 104 is opened. At this time, the electronic control box 107 controls the first driving device 106 to drive the water pump 105 to ascend out of the water tank 103, and the electronic control box 107 simultaneously controls the second driving device 109 to stop running, so that the rotating body stops rotating. In particular, the drive member controlling the second drive means 109 is de-energized. Then in the process that need change water tank 103 for the rotator is in outage stop state, so, can avoid live working and damage the machine, and prevent that the user from electrocuteeing, guarantees user's operation safety. When the panel 104 is closed, the first sensing device 200 is triggered again, the electronic control box 107 receives a signal that the first sensing device 200 senses that the panel 104 is closed, and at this time, the electronic control box 107 controls the second driving device 109 to be in a standby state, so that the rotating body is in a normal standby state.

In one embodiment, as shown in fig. 1, 2, 7 and 9, the air purification module 100 further includes a fan assembly 110, the fan assembly 110 has a 181 communicating with the purification air duct 140, and the fan assembly 110 is used for enabling the air flow to flow in from the air inlet 120, through the purification air duct 140 and out from the air outlet 130; the electronic control box 107 is further used for controlling the fan component 110 to stop running when the first sensing device 200 senses that the panel 104 is opened; and controlling the fan part 110 to stand by when the first sensing device 200 senses that the panel 104 is turned off.

In the present embodiment, the standby state of the fan component 110 means that the fan component 110 is electrically connected to the electronic control box 107, but is not in operation. The fan assembly 110 will only operate when the user proceeds to instruct the system to operate next. The fan component 110 is installed inside the housing 101 or outside the housing 101, and the fan component 110 can make the airflow flow from the air inlet 120 to the air outlet 130, and accelerate the speed of the airflow flowing through the air purifying duct 140, so as to accelerate the speed of the airflow circulation, and meet the user requirement. The fan of the fan unit 110 may be a centrifugal fan, an axial flow fan, a mixed flow fan, a cross flow fan, or the like. In one embodiment, the fan assembly 110 is mounted outside the housing 101 and is located at an upper end of the housing 101. Specifically, the fan assembly 110 may further include a wind wheel motor 182, a wind wheel and a wind duct housing 111, wherein a 181 is formed in the wind duct housing 111, the wind wheel is installed in the 181, and the 181 is communicated with the clean wind duct 140. Under the action of the fan, air flows through the air purifying duct 140 from the air inlet 120, flows out from the air outlet 130, and is blown out through the air outlet 181.

When the panel 104 is opened, the first sensing device 200 is triggered, and the electronic control box 107 receives a signal that the first sensing device 200 senses that the panel 104 is opened. At this time, the electronic control box 107 controls the first driving device 106 to drive the water pump 105 to ascend to the outside of the water tank 103, and the electronic control box 107 simultaneously controls the fan part 110 to stop running. Specifically, the wind turbine motor 182 may be controlled to be powered off, so as to control the wind turbine to stop rotating. In the process of replacing the water tank 103, the fan part 110 is in a power-off stop state, so that the machine can be prevented from being damaged by live operation, a user is prevented from getting an electric shock, and the operation safety of the user is ensured. When the panel 104 is closed, the first sensing device 200 is triggered again, the electronic control box 107 receives a signal that the first sensing device 200 senses that the panel 104 is closed, and at this time, the electronic control box 107 controls the wind turbine motor 182 of the fan component 110 to be in a standby state, so that the fan component 110 is in a normal standby state.

In an embodiment, referring to fig. 2, fig. 7 and fig. 9, the air purification module 100 further includes a housing 111, one side of the housing 111 is disposed in an opening 190, the housing 101 is installed in the housing 111, the installation opening 160 is disposed corresponding to the opening 190, and the panel 104 detachably covers the opening 190. The air purification module 100 further comprises an IFD module 112, the IFD module 112 being mounted in the housing 111, the electronic control box 107 being further adapted to control the IFD module 112 to be powered off when the first sensing means 200 senses that the panel 104 is open and to control the IFD module 112 to be electrically powered on when the first sensing means 200 senses that the panel 104 is closed.

In this embodiment, the housing 111 is disposed around the housing 101. The shape of the housing 111 may be adapted to the shape of the casing 101. The panel 104 and the housing 111 can be detachably connected by screws, clamping, and the like. Through installing water tank 103 in casing 101, and close installing port 160 by panel 104 lid, then hide water tank 103 in casing 101, avoid water tank 103 to expose, influence pleasing to the eye, and then guarantee the whole uniformity of outward appearance of whole air purification module 100. And make whole panel 104 cover the open 190 setting of one side of shell 111 for panel 104 and shell 111 form an organic whole, and its concatenation line is located the side of whole air purification module 100, rather than towards user's panel 104 department, further guarantees whole uniformity.

The IFD herein refers to a strong dielectric field, and the strong field refers to a high-strength dielectric field formed in the purge air duct 140, which can exert a great attraction force on the particles moving in the air. The dielectric is an effective carrier of the electrostatic field and is a unique copolymer surrounded by electrical components of the electric field within the clean air duct 140 that provides extremely high field strengths between the opposing surfaces to prevent electrical breakdown. The IFD module 112 is a high field dielectric module, and the air is ionized by high voltage when passing through the high dielectric field, so that the dust is charged, and the dust is ionized and adsorbed on the module when passing through the IFD module 112, and the IFD module 112 is ionized by high voltage and collected and adsorbed, thereby removing PM2.5 and smaller small particle pollutants, and simultaneously removing and killing bacteria and the like attached to PM2.5 particles in the air. The IFD module 112 can be cleaned by water and recycled, and the purification without consumables is really realized.

Because the IFD module 112 needs to be powered on in the working process, after the panel 104 is opened, the IFD module 112 is exposed, and thus an electric shock phenomenon is easy to occur in the process of replacing the water tank 103 by a user. The power of the IFD module 112 is simultaneously controlled by the electronic control box 107 to be powered off after receiving the signal that the first sensing device 200 senses that the panel 104 is opened. In the process of replacing the water tank 103, the IFD module 112 is in the power-off stop state, so that the most safe electric shock protection can be provided for the user, the phenomenon that the machine is damaged due to electric shock or live operation is avoided, and the operation safety of the user is ensured.

The utility model discloses still provide an indoor set of air conditioning, as shown in FIG. 11, this indoor set of air conditioning includes casing 600 and air purification module 100, and wherein, casing 600 is equipped with heat transfer air intake 610, heat transfer air outlet 620, purifies air intake 630 and purifies air outlet 640, and heat transfer air intake 610 and heat transfer air outlet 620 communicate, purify air intake 630 and purify air outlet 640 and communicate. The specific structure of the air purification module 100 refers to the above-mentioned embodiment, the air purification module 100 is installed in the casing 600, the air inlet 120 of the casing 101 of the indoor unit of the air conditioner is communicated with the purification air inlet 630, and the air outlet 130 of the casing 101 of the indoor unit of the air conditioner is communicated with the purification air outlet 640. Since the air-conditioning indoor unit adopts all the technical schemes of all the embodiments, at least all the beneficial effects brought by the technical schemes of the embodiments are achieved, and the details are not repeated. The indoor unit of the air conditioner can be a floor type indoor unit of the air conditioner, a wall-mounted indoor unit of the air conditioner, a mobile air conditioner and the like.

The air purification module 100 may be installed in the cabinet 600 or may be installed on the cabinet 600. When the air purification module 100 has the outer case 111, the air purification module 100 may be mounted on the cabinet 600, and the cabinet 600 may be integrally formed with the outer case 111J and the panel 104. The purge air inlet 630 and the purge air outlet 640 may be disposed on the housing 111 and/or the panel 104. Specifically, the air-conditioning indoor unit further comprises a heat exchanger and a heat exchange fan. Casing 600 extends along the upper and lower direction, and casing 600 connects the heat transfer wind channel of heat transfer air intake 610 and heat transfer air outlet 620, and heat exchanger and heat transfer fan locate in the heat transfer wind channel. Indoor air enters the heat exchange air duct from the heat exchange air inlet 610, exchanges heat through the heat exchanger, and then is blown out from the heat exchange air outlet 620.

There are various ways of fixing the air purification module 100 to the cabinet 600, for example, in some embodiments, the air purification module 100 is fixed to the cabinet 600 by a snap; in some embodiments, the air purification module 100 is fixed to the cabinet 600 by means of screws; in some embodiments, the air purification module 100 is fixed to the cabinet 600 by welding. The fixing manner of the air purification module 100 and the cabinet 600 is not limited as long as the connection therebetween can be achieved.

The following description will be given taking an example in which the air purification module 100 is mounted on the cabinet 600, and the cabinet 600 is integrally formed with the housing 111 of the air purification module 100. In one embodiment, the air purification module 100 is installed at the bottom of the chassis 600, and the air purification module 100 is installed at the bottom of the chassis 600 and arranged in the vertical direction, so that the horizontal space occupied by the air purification module can be avoided, and the occupied horizontal space in the room can be reduced. A purge air inlet 630 and a purge air outlet 640 are disposed on the peripheral side of the casing 600, the purge air inlet 630 is communicated with the air inlet 120, and the purge air outlet 640 is communicated with the air outlet 130 (the purge air outlet 640 is specifically communicated with the air duct formed by the air duct housing 111).

The following describes the air purification process by taking the purification assembly 102 comprising a rotating body as an example: indoor air or fresh air enters the casing 600 from the cleaning inlet 630 under the action of the cleaning blower, and flows into the cleaning air duct 140 from the inlet 120. The water pump 105 delivers water in the water tank 103 to a spray head through a hose, and the spray head sprays the water onto a rotary screen (not shown) on the rotary body; the rotating body is driven by the driving motor to rotate, the screen (not shown) on the rotating body rotating at a high speed cuts water, and at the same time, centrifugal force is generated to throw the water out towards the periphery, fine water flow or water particles are formed on the screen (not shown), air is in full contact with the water flow or water particles moving at a high speed on the screen (not shown), particulate matters in the air, such as organic matters such as tiny dust, formaldehyde and the like, are dissolved in the water or attached to the water to fall off, the purified air flows upwards, flows into an air duct of the purifying fan through the air outlet 130, and is finally blown out from the purified air outlet 640 on the casing 600.

The utility model also provides an air conditioner, this air conditioner includes machine in air condensing units and the air conditioning, and the machine passes through the refrigerant pipe in the air conditioning to be connected with air condensing units. The specific structure of the air purification module 100 refers to the above embodiments, and since the air conditioner indoor unit adopts all technical solutions of all the above embodiments, at least all the beneficial effects brought by the technical solutions of the above embodiments are achieved, and no further description is given here.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (12)

1. An air purification module, comprising:

the air purifier comprises a shell, a first air inlet, a second air inlet, a first air outlet, a second air outlet and a first air inlet, wherein the shell is provided with an air inlet, an air outlet and a purification air channel for communicating the air inlet with the air outlet;

the purification component is arranged in the purification air channel and is suitable for receiving a water source to purify air;

the water tank is arranged in the containing cavity;

the panel is arranged to cover the mounting opening;

the water pump is arranged in the water tank and used for pumping water in the water tank to the purification component;

the first driving device is arranged on the shell and is connected with the water pump; and

and the electric control box is arranged on the shell and electrically connected with the first driving device, and is used for driving the water pump to ascend through the first driving device when the panel opens the mounting opening so as to enable the water tank to be moved out of the mounting opening.

2. The air purification module according to claim 1, further comprising a first sensing device mounted on the housing and electrically connected to the electronic control box, wherein the electronic control box is configured to control the first driving device to drive the water pump to ascend when the first sensing device senses that the panel is opened.

3. The air purification module according to claim 2, further comprising a locking device and a second sensing device, the second sensing device being electrically connected to the electronic control box, the locking device having a locked state for locking the water tank to the housing and an unlocked state for unlocking the water tank from the housing, the second sensing device being disposed in the housing at a first predetermined height above the water tank;

the electric control box is used for controlling the locking device to be in an unlocking state when the second sensing device senses that the water pump rises to the first preset height.

4. The air purification module according to claim 3, further comprising a third sensing device electrically connected to the electronic control box, wherein the third sensing device is mounted on an inner wall surface of the housing corresponding to the water tank, and the electronic control box is configured to control the first driving device to drive the water pump to descend into the water tank when the third sensing device senses that the water tank is mounted in the accommodating cavity in a reset manner.

5. The air purification module of claim 4, further comprising a fourth sensing device electrically connected to the electrical control box, the fourth sensing device being disposed within the housing at a second predetermined height below the first predetermined height;

the electric control box is used for controlling the locking device to be in a locking state when the fourth sensing device senses that the water pump descends from the first preset height to the second preset height.

6. The air purification module according to any one of claims 2 to 5, wherein the purification assembly comprises a rotating body adapted to throw water outwardly by rotation when water is sprayed onto the rotating body;

the air purification module further comprises a second driving device, and an output shaft of the second driving device is connected with the rotating body so as to drive the rotating body to rotate;

the electronic control box is further used for controlling the second driving device to stop running when the first sensing device senses that the panel is opened, and controlling the second driving device to be in standby when the first sensing device senses that the panel is closed.

7. The air purification module of claim 6, further comprising a fan assembly having a fan duct in communication with the purification duct, the fan assembly configured to cause airflow to flow from the inlet, through the purification duct, and out the outlet; the electric control box is also used for controlling the fan component to stop running when the first sensing device senses that the panel is opened; and when the first sensing device senses that the panel is closed, controlling the fan component to be in standby.

8. The air purification module of claim 2, further comprising a housing, wherein one side of the housing is disposed in an opening, the housing is installed in the housing, the installation opening is disposed corresponding to the opening, and the panel detachably covers the opening;

the air purification module still includes the IFD module, the IFD module install in the shell, automatically controlled box still is used for when first induction system senses when the panel is opened, control the power failure of IFD module, and when first induction system senses when the panel is closed, control IFD module circuit switch-on.

9. The air purification module as claimed in claim 1, wherein the first driving device comprises a driving member and a transmission member, one end of the transmission member is connected to the driving member, and the other end of the transmission member is connected to the water pump, and the driving member drives the transmission member to move the water pump up and down.

10. The air purification module of claim 6, wherein the peripheral linear velocity of the rotating body is greater than or equal to 10m/s and less than or equal to 45 m/s.

11. An indoor unit of an air conditioner, comprising:

the air purifier comprises a shell, a heat exchange air inlet, a heat exchange air outlet, a purification air inlet and a purification air outlet, wherein the shell is provided with the heat exchange air inlet, the heat exchange air outlet, the purification air inlet and the purification air outlet; and

the air purification module as claimed in any one of claims 1 to 10, wherein the air purification module is mounted on the housing, the air inlet of the housing of the indoor air conditioner communicates with the purification air inlet, and the air outlet of the housing of the indoor air conditioner communicates with the purification air outlet.

12. An air conditioner, comprising:

an air conditioner outdoor unit; and the number of the first and second groups,

the indoor unit of claim 11, which is connected to the outdoor unit of an air conditioner through a refrigerant pipe.

Images