CN108709275A - Humidification module - Google Patents

Abstract

The present invention relates to air-conditioning technique fields, and in particular to a kind of humidification module.Present invention seek to address that the high problem of air-conditioning replacement cost that existing humidifier humidifies effect is poor, with humidification function.For this purpose, the humidification module of the present invention includes shell, the collecting system to communicate with each other and drainage system, semiconductor collection water assembly is provided in shell, semiconductor collection water assembly includes refrigeration end and radiating end；Collecting system includes catchment air inlet, gas outlet of catchmenting, collection Water fan and refrigeration end, and drainage system includes draining air inlet, draining gas outlet, draining wind turbine and radiating end.By above-mentioned set-up mode, humidifier of the invention can significantly improve humidifying effect, reduce replacement cost.

Description

humidification module

technical field

The invention relates to the technical field of air conditioning, in particular to a humidification module.

Background technique

Ambient temperature is the index that can most directly affect people's living environment. Compared with ambient temperature, ambient humidity is also closely related to human health and daily life. Medical research shows that when the ambient temperature is 20-25°C and the relative humidity reaches 45-65%, people's body and mind are in the best state, and ideal results can be achieved regardless of work or rest. However, with the improvement of people's living standards, especially the widespread use of air conditioners, the problems caused by the decline in indoor humidity have become more prominent. Take air conditioner heating as an example. When the air conditioner operates in heating mode to make the indoor temperature reach a better temperature range, the indoor humidity will drop to a value lower than the appropriate humidity. At this time, due to the excessive indoor humidity Low, often lead to the breeding of air-conditioning diseases such as skin tightness, dry mouth and tongue, cough and cold.

In order to solve the above-mentioned problem of low indoor humidity, there are usually two solutions in the prior art. One is to purchase a humidifier to humidify the indoor air, and the other is to replace an air conditioner with a humidification function to adjust the indoor humidity. However, although the above two solutions have solved the problem of low indoor humidity to a certain extent, there are inevitably many defects: first, the humidification range of small humidifiers is limited, and often causes moisture to adhere to the desktop or the ground; Large humidifiers not only take up indoor space, but also have obvious noise, which affects people's normal life. Secondly, the replacement cost of air conditioners with humidification function is too high, so it is not the best choice for ordinary families. That is to say, in the existing technical solutions for solving low indoor humidity, there are problems of poor humidification effect of the humidifier and high replacement cost of an air conditioner with a humidification function.

Correspondingly, the field needs a new humidification module to solve the above problems.

Contents of the invention

In order to solve the above-mentioned problems in the prior art, that is, in order to solve the problems of poor humidification effect of existing humidifiers and high replacement cost of air conditioners with humidification function, the present invention provides a humidification module, which includes a shell, A water collection system and a drainage system communicated with each other, the casing is provided with a semiconductor water collection assembly, the semiconductor water collection assembly includes a cooling end and a heat dissipation end, and the water collection system includes a water collection inlet and a water collection outlet And the water collecting fan and the cooling end arranged between the water collecting air inlet and the water collecting air outlet, the water collecting system is set to drive the outdoor air through the The water-collecting air inlet is introduced into the casing and passes through the cooling end, and then discharged from the casing through the water-collecting air outlet; the drainage system includes a drainage air inlet, a drainage air outlet, and a The drainage fan between the air inlet and the drainage air outlet and the heat dissipation end, the drainage system is set so that, driven by the drainage fan, the outdoor air is introduced into the casing through the drainage air inlet and After passing through the heat dissipation end, it is introduced into the room through the drain air outlet.

In the preferred technical solution of the above humidification module, the semiconductor water collection assembly includes a semiconductor cooling fin, a first cooling fin disposed on the cooling side of the semiconductor cooling fin, and a first cooling fin disposed on the cooling side of the semiconductor cooling fin. Two cooling fins, the first cooling fin and the cooling side of the semiconductor cooling fin form the cooling end, and the second cooling fin and the cooling side of the semiconductor cooling fin form the cooling end.

In a preferred technical solution of the above humidification module, the first heat dissipation fins are zigzag heat dissipation fins; and/or the second heat dissipation fins are zigzag heat dissipation fins.

In the preferred technical solution of the above-mentioned humidification module, a partition is arranged inside the casing, and the partition is arranged obliquely inside the casing and divides the casing into a water collection area and a drainage area; There are installation holes, and the semiconductor cooling fins are installed in the installation holes, so that the first heat dissipation fin is located in the water collection area, and the second heat dissipation fin is located in the drainage area.

In a preferred technical solution of the above humidification module, the inclined surface of the partition plate gradually rises along the direction from the water-collecting air inlet to the water-collecting air outlet.

In the preferred technical solution of the above humidification module, the housing is further provided with a guide assembly corresponding to the lower end of the partition, and the guide assembly is used to guide the condensed water generated at the cooling end to the drainage area.

In a preferred technical solution of the above humidification module, the flow guide assembly includes a plurality of flow guide plates arranged alternately in sequence.

In a preferred technical solution of the above humidification module, an air deflector is further provided in the housing, and the air deflector is used to guide the air introduced by the water collecting fan to the first heat sink.

In the preferred technical solution of the above humidification module, the water collection system further includes an ultrasonic atomization component, which is used to ultrasonically atomize the condensed water generated at the cooling end.

In a preferred technical solution of the above humidification module, the humidification module can be installed on the outdoor unit of the air conditioner or on the outdoor wall.

Those skilled in the art can understand that, in the preferred technical solution of the present invention, the humidification module includes a shell, a water collection system and a drainage system that communicate with each other, and a semiconductor water collection assembly is arranged in the casing, and the semiconductor water collection assembly includes a cooling end and a water drainage system. At the heat dissipation end, the water collection system includes a water collection inlet, a water collection air outlet, a water collection fan and a cooling end arranged between the water collection inlet and the water collection air outlet, and the water collection system is set at the water collection fan. Under the drive, the outdoor air is introduced into the casing through the water inlet and passes through the cooling end, and then discharged out of the casing through the water outlet; the drainage system includes the drainage inlet, the drainage outlet and the drainage inlet and the drainage outlet. Between the drainage fan and the heat dissipation end, the drainage system is set so that, driven by the drainage fan, the outdoor air is introduced into the shell through the drainage air inlet, and after passing through the heat dissipation end, it is introduced into the room through the drainage air outlet.

Through the above arrangement, the humidification module of the present invention can improve the humidification effect and realize anhydrous humidification. Specifically, by arranging semiconductor water collecting components in the casing, when the humidification module of the present invention is in operation, the water collecting fan, the drainage fan and the semiconductor water collecting components are powered on respectively, and the outdoor air passes through the cooling end driven by the water collecting fan. The condensed water is condensed due to temperature drop. Since the water collection system is connected to the drainage system, the condensed water flows to the drainage system and is heated by the cooling end, then evaporates. At this time, the outdoor air is driven by the drainage fan through the cooling end and evaporated After the condensed water is mixed, it is introduced into the room through the drain outlet to humidify the room. The advantages of this humidification method are: firstly, since the indoor air outlet can be set at a higher place such as the indoor wall, the moist air can be sprayed from a high place to the bottom surface to significantly increase the humidification range; secondly, the semiconductor water collection component is installed , so that humidification can be realized at any time without the need for users to add water regularly, which not only reduces the growth of bacteria, but also realizes anhydrous humidification and improves user experience; again, the present invention uses the cooling end to condense the air while using the heat dissipation end to condense The setting method of heating and evaporating water also makes full use of both ends of the semiconductor water-collecting component, improves the service life of the semiconductor water-collecting component, saves energy consumption, and simplifies the structure of the humidification module; finally, due to the humidification The module is set outdoors, which also reduces the noise during the humidification process and realizes the quietness of the humidification module. In addition, since the humidification module can be installed on the outdoor unit of the air conditioner or on the outdoor wall, this also enables the humidification module of the present invention to be sold separately, and the user does not need to spend a higher cost to purchase an air conditioner with a humidification function, but The humidification module can be used to humidify the room with only a small purchase cost and modification cost, which greatly expands the application scenarios of the present invention. That is to say, the present invention solves the problems of poor humidification effect and high replacement cost of air conditioners with humidification function in the prior art, and is suitable for large-scale popularization and use.

Description of drawings

The humidification module of the present invention will be described below with reference to the accompanying drawings and in combination with a wall-mounted air conditioner. In the attached picture:

Fig. 1 is a schematic diagram of the installation position of the humidifying device of the present invention;

Fig. 2 is a schematic diagram of the installation position of the humidification module of the humidification device of the present invention;

Fig. 3 is a schematic diagram of the installation position of the air supply module of the humidifying device of the present invention;

Fig. 4 is a structural schematic diagram of the humidification module of the present invention;

Fig. 5 is a structural schematic view (1) of the air supply module of the humidifying device of the present invention;

Fig. 6 is a structural schematic view (2) of the air supply device of the humidifying device of the present invention;

Fig. 7 is a structural schematic view (3) of the air supply module of the humidifying device of the present invention;

Fig. 8 is a working principle diagram of the humidifying module of the humidifying device of the present invention.

List of reference signs

1. Humidification module; 11. Shell; 121. Water collection inlet; 122. Water collection outlet; 123. Water collection fan; 124. Semiconductor water collection component; 124a, refrigeration end; 124b, heat dissipation end; Refrigeration sheet; 125a, refrigeration side; 125b, heat dissipation side; 126a, first heat sink; 126b, second heat sink; 127, guide assembly; 128, ultrasonic atomization assembly; Air port; 132, drainage air outlet; 134, drainage fan; 15, clapboard; 2, air supply module; 21, tubular shell; 211, upper end cover; 212, lower end cover; 213, air outlet hole; 22, support 221, air inlet; 23, air supply mechanism; 231, cross-flow fan; 232, fan bracket; 233, fan motor; 24, filter assembly; 3, indoor unit; 4, outdoor unit; 5, connecting pipe; 6. Outdoor walls; 7. Indoor walls.

Detailed ways

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. Those skilled in the art should understand that these embodiments are only used to explain the technical principles of the present invention, and are not intended to limit the protection scope of the present invention. For example, although two sets of air supply mechanisms are provided in the air supply module in the accompanying drawings, this arrangement is not static, and those skilled in the art can make adjustments to suit specific applications. For example, one or more sets of air supply mechanisms may also be provided in the air supply module, as long as the air supply mechanisms can pressurize and guide the air flow entering the air supply module.

It should be noted that, in the description of the present invention, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer" etc. The terms of the indicated direction or positional relationship are based on the direction or positional relationship shown in the drawings, which are only for the convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation , and therefore cannot be construed as a limitation of the present invention. In addition, the terms "first", "second", and "third" are used for descriptive purposes only, and should not be construed as indicating or implying relative importance.

In addition, it should be noted that, in the description of the present invention, unless otherwise clearly stipulated and limited, the terms "installation", "connection" and "connection" should be understood in a broad sense, for example, it can be a fixed connection or a It is a detachable connection or an integral connection; it may be a mechanical connection or an electrical connection; it may be a direct connection or an indirect connection through an intermediary, and it may be the internal communication of two components. Those skilled in the art can understand the specific meanings of the above terms in the present invention according to specific situations.

First, referring to Fig. 1 to Fig. 8, the humidifying device of the present invention will be introduced. Among them, Fig. 1 is a schematic diagram of the installation position of the humidifying device of the present invention; Fig. 2 is a schematic diagram of the installation position of the humidifying module of the humidifying device of the present invention; Fig. 3 is a schematic diagram of the installation position of the air supply module of the humidifying device of the present invention; Fig. 4 is A schematic structural view of the humidification module of the present invention; FIG. 5 is a schematic structural view (1) of the air supply module of the humidification device of the present invention; FIG. 6 is a structural schematic view (two) of the air supply device of the humidification device of the present invention; FIG. 7 is Schematic diagram (3) of the structure of the air supply module of the humidifying device of the present invention; FIG. 8 is a working principle diagram of the humidifying module of the humidifying device of the present invention.

As shown in Figures 1 to 3, in order to solve the problem of poor humidification effect of humidifiers in the prior art and high replacement cost of air conditioners with humidification function, the humidification device of the present invention mainly includes a humidification module 1 and an air supply module 2, The humidification module 1 is installed on the side of the outdoor unit 4 of the wall-mounted air conditioner, the air supply module 2 is installed on the bottom surface of the indoor unit 3 of the wall-mounted air conditioner, and the humidification module 1 and the air supply module 2 are connected by a connecting pipe 5 .

Referring to FIG. 4 , the humidification module 1 includes a casing 11 , a water collection system and a drainage system communicated with each other, and a semiconductor water collection assembly 124 is arranged in the casing, and the semiconductor water collection assembly 124 includes a cooling end 124a and a cooling end 124b. The water collection system includes a water collection inlet 121, a water collection fan 123, a cooling end 124a and a water collection air outlet 122 in sequence according to the air flow direction. The water inlet 121 is introduced into the casing 11 and passes through the cooling end 124a, and then is discharged out of the casing 11 through the water collecting outlet 122. The drainage system includes a drainage inlet 131, an ultrasonic atomization assembly 128, a cooling end 124b, a drainage fan 134 and a drainage outlet 132 in sequence according to the direction of air flow. The drainage system is set to drive the outdoor air through the drainage The air inlet 131 is introduced into the casing 11 and passes through the ultrasonic atomization component 128 and the heat dissipation end 124b in sequence, and then is discharged to the air supply module 2 through the water discharge outlet 132 and the connecting pipe 5 .

Referring to Fig. 5 to Fig. 7, the air supply module 2 includes a tubular housing 21, the tubular housing 21 is provided with a support pipe 22 communicating with it, the air supply module 2 is installed to the position to be installed through the support pipe 22, and the support pipe 22 is Air inlet holes 221 are provided, and air outlet holes 213 are arranged on the tubular housing 21 , and the air outlet holes 213 are arranged in the tubular housing 21 along the length direction of the tubular housing 21 . After the airflow discharged from the humidification module 1 through the drain air outlet 132 and the connecting pipe 5 enters the support pipe 22 through the air inlet hole 221 , the airflow is dispersed to the tubular casing 21 and discharged into the room through the air outlet hole 213 .

Referring to Fig. 8 in combination with Fig. 1 to Fig. 7, during the working process of the humidifying device, the water collecting fan 123, the drainage fan 134 and the semiconductor water collecting assembly 124 are respectively energized, and the outdoor air passes through the cooling end 124a driven by the water collecting fan 123 The condensed water is condensed due to a temperature drop. Since the water collection system is connected to the drainage system, after flowing to the drainage system, part of the condensed water is atomized by the ultrasonic atomization component 128 to form water mist, and the other part is heated by the heat dissipation end 124b and then evaporated. At this time, the outdoor air passes through the cooling end 124b driven by the drainage fan 134 and mixes with the atomized condensed water and evaporated condensed water, and then is introduced into the support pipe of the air supply module 2 through the drainage air outlet 132 and the connecting pipe 5 22, and further discharged into the room through the air outlet hole 213 on the tubular casing 21 to humidify the room.

It can be seen from the above description that the humidifying device of the present invention can realize humidification without setting a water storage box, greatly improving the humidifying effect, and because the humidifying module 1 and the air supply module 2 of the humidifying device can be installed separately on the outdoor unit 4 and indoor Machine 3, so the user does not need to spend a higher cost to purchase an air conditioner with humidification function, but only spends a small purchase cost and renovation cost to use the humidifier to humidify the room. On the basis of ensuring the humidification effect, The transformation cost of the humidification function is greatly reduced. That is to say, the present invention solves the problems of poor humidification effect and high replacement cost of air conditioners with humidification function in the prior art, and is suitable for large-scale popularization and use.

Further referring to Fig. 2 and Fig. 4, and according to the orientation shown in Fig. 4, in a possible implementation, the housing 11 is provided with a first installation structure (not shown in the figure), such as a hook or a hanging groove, and the outdoor unit 4 is correspondingly provided with a hanging groove or a hook, and the installation of the humidifying module 1 on the outdoor unit 4 is realized through the cooperation and insertion of the hook and the hanging groove. A baffle 15 is arranged obliquely in the casing 11, and the inclined surface of the baffle 15 gradually rises along the direction from the water-collecting air inlet 121 to the water-collecting air outlet 122 (that is, gradually rises from left to right in FIG. 4 ), thereby The housing 11 is divided into a water collection area (corresponding to the water collection system) located above the housing 11 and a drainage area (corresponding to the drainage system) located below the housing 11. The water-collecting air inlet 121 is arranged above the left side of the housing 11, the water-collecting air outlet 122 is correspondingly arranged above the right side of the housing 11, and the water-collecting fan 123 is an axial flow fan, which is arranged on the water-collecting air inlet. 121 and the cooling end 124a. An installation hole (not shown in the figure) is provided on the partition plate 15, and the semiconductor water collection assembly 124 is installed in the installation hole, so that the cooling end 124a is located in the water collection area, and the heat dissipation end 124b is located in the drainage area.

In a possible implementation, the semiconductor water collection assembly 124 further includes a semiconductor cooling sheet 125, a plurality of first heat dissipation fins 126a arranged on the cooling side 125a of the semiconductor cooling sheet 125, and a plurality of first cooling fins 126a arranged on the heat dissipation side of the semiconductor cooling sheet 125. A plurality of second cooling fins 126b of 125b, a plurality of first cooling fins 126a and the cooling side 125a of the semiconductor cooling fin 125 form the above-mentioned cooling end 124a, and a plurality of second cooling fins 126b and the cooling side 125b of the semiconductor cooling fin 125 form the above-mentioned cooling end 124a. The heat dissipation end 124b. Preferably, each first heat sink 126a and each second heat sink 126b are arranged in a zigzag shape, such as in a continuous S-shape, N-shape or Z-shape. In addition, the shell 11 is also provided with a lower end corresponding to the partition 15 (that is, the left end of the partition 15 in FIG. 4 ), which can smoothly guide the condensed water generated in the water collection area to the drainage area. The guide assembly 127, the guide assembly 127 includes a plurality of baffles arranged alternately in sequence, some of the baffles are arranged on the lower side of the partition, and the other part of the baffles are arranged on the inner wall of the casing. The lower part of the water collecting fan 123 is also provided with an air deflector 129 for guiding the air introduced by the water collecting fan 123 to the first cooling fin 126a.

Continuing to refer to FIG. 4 , the drainage air inlet 131 is disposed below the left side of the housing 11, the drainage air outlet 132 is correspondingly disposed below the right side of the housing 11, and the drainage fan 134 is a centrifugal fan, which is disposed on the cooling end 124b. Between the drainage fan 134. The ultrasonic atomization component 128 is arranged between the drainage air inlet 131 and the heat dissipation end 124b, which can atomize the water droplets flowing into the drainage area through the flow guide component 127, so that the atomized water vapor passes through the drainage area with the airflow. The air port 132 flows to the connecting pipe.

Further referring to Fig. 3, Fig. 5 to Fig. 7, the cross-section of tubular housing 21 is ellipse, and it further comprises upper end cap 211 and lower end cap 212, and upper end cap 211 and lower end cap 212 cooperate and cover tightly at the major axis of ellipse . Support pipe 22 is arranged on the middle part of upper end cover 211 or lower end cover 212 along the length direction of tubular shell 11, and its end away from tubular housing 21 is provided with second installation structure (not shown in the figure, as with hook or screw hole installation plate), the air supply module 2 can be installed on the indoor unit 3 through the second installation structure (in this case, the indoor unit can be provided with hanging holes or installation holes correspondingly). Referring to Fig. 5, the inside of the support pipe 22 is provided with a filter assembly 24, the filter assembly 24 is preferably a HEPA filter, and the HEPA filter usually includes three filter layers, and the removal efficiency of particles with a diameter of 0.3 microns or less can reach more than 99.97%. .

Referring to Fig. 6, twelve circular air outlet holes 213 are symmetrically arranged on the tubular housing 21, and each air outlet hole 213 is arranged at one end of the long axis of the ellipse away from the support tube 22, that is, the upper end cover 211 and the lower end The covers 212 are each provided with a half circular hole. Preferably, the air outlet direction of the air outlet hole 213 is horizontal or obliquely downward and has a small angle with the horizontal direction (eg, the angle is 0-30 degrees). In order to quickly discharge the airflow introduced into the air supply module 2 into the room through the air outlet 213, increase the humidification area of the airflow, and enhance the spraying effect of the air outlet 213, two sets of relative The air supply mechanism 23 that is arranged symmetrically on the central section of the tubular casing 21, each set of air supply mechanism 23 includes a cross-flow fan 231, a fan bracket 232 and a fan motor 233, the fan bracket 232 is arranged in the middle of the tubular casing 21, and the fan The motor 233 is disposed at the end of the tubular housing 21 . One end of the cross-flow fan 231 is connected to the output shaft of the fan motor 233 , and the other end is erected on the fan bracket 232 . In this way, the fan motor 233 can pressurize the airflow by driving the cross-flow fan 231 to rotate, so that the airflow is sprayed into the room from the air outlet hole 213 .

It can be seen from the above description that the setting of the semiconductor water collecting assembly 124 in the humidifying module 1 enables the humidifying device of the present invention to collect and utilize the moisture in the outdoor air, thereby humidifying the room and moistening the dry air in the room. It realizes anhydrous humidification and avoids the problem of bacteria breeding in the water storage box. While utilizing the cooling end 124a of the semiconductor water collecting assembly 124 to condense the air, the cooling end 124b is used to heat and evaporate the condensed water. The service life is longer, energy consumption is saved, and the structure of the humidification module is simplified. The first cooling fins 126a are arranged in a zigzag shape, which increases the contact area with the air flow, improves the generation rate of condensed water and the humidification efficiency of the humidifier. Likewise, the second cooling fins 126b are arranged in a zigzag shape, which improves the cooling effect and evaporation efficiency. The humidification module is set outdoors, which can greatly reduce the noise during the humidification process and realize the quietness of the humidification process. The arrangement of the partition 15 gradually rising from left to right makes the flow of condensed water to the heat dissipation area more smooth, and also avoids the problem that the condensed water is blown out of the shell by the wind when it is gradually lowered from left to right. The arrangement of the flow guide assembly 127 makes the condensed water flow to the heat dissipation area more stable and avoids splashing. The arrangement of the air deflector 129 reduces the resistance of the condensed water flowing to the heat dissipation area and improves the smoothness of the flow. The arrangement of the ultrasonic atomization assembly 128 can assist the cooling end 124b of the semiconductor water collection assembly 124 to atomize and improve the humidification effect; in addition, the ultrasonic atomization assembly 128 can release a large amount of negative oxygen ions during the atomization process. When entering the room, it combines with the smoke and dust floating in the air to make it precipitate; it can effectively remove the smell of paint, musty, smoke and odor, making the air more fresh and natural.

The setting of the filter assembly 24 in the air supply module 2 can purify the humid air entering the room on the basis of humidification, improve air cleanliness and prevent secondary pollution. The air outlet 213 of the air supply module is arranged in the tubular casing 21 along the length direction, which can greatly improve the air supply effect, realize large-area air supply and uniform air supply, and avoid uneven air supply and serious moisture adhesion. occur. The setting of the air supply mechanism 23 can effectively increase the air supply pressure and air supply volume, so that the air flow can be sprayed into the room from the air outlet hole 213, and the humidification area and humidification effect can be improved. The cross-section of the tubular casing 21 is arranged in an elliptical shape, which can effectively guide the airflow entering the tubular casing 21 and reduce the loss along the flow of the airflow. The air outlet direction of the air outlet 213 is set in the horizontal direction or has a small angle with the horizontal direction, which also improves the injection area of the airflow, avoids the direct blowing of the airflow to the human body, and effectively prevents dust from falling into the tubular housing 21 Etc.

In addition, since the humidifying module 1 and the air supply module 2 can be respectively installed on the outdoor unit 4 and the indoor unit 3 of the wall-mounted air conditioner, compared with the humidifier, the occupation of indoor space is reduced, and the humidifying device of the present invention It can be sold separately, and the user does not need to spend a higher cost to purchase an air conditioner with a humidification function, but can use the humidifier to humidify the room with only a small purchase cost and renovation cost. Further, if the humidifying device is installed near the wall-mounted air conditioner, the connecting pipe 5 can be arranged through the refrigerant pipe hole on the wall, which reduces the number of times of passing through the wall, further reduces the transformation cost, and greatly expands the application scenarios of the present invention.

Of course, the above embodiments are only used to illustrate the principles of the present invention, and are not intended to limit the protection scope of the present invention. Those skilled in the art can adjust the above embodiments without departing from the principles of the present invention, so that the present invention can Applied to more specific application scenarios. For example, the partition 15 may not be provided in the casing 11, but the semiconductor water collection assembly 124 may be arranged horizontally or inclined, so that the condensed water generated at the cooling end 124a flows directly to the drain area. For another example, the deflector assembly 127 can also be configured as an arc-shaped deflector, and the number of the deflector can be arbitrary. For another example, the deflector may not be provided at all, or in the case of setting, the shape and position of the deflector 129 are not limited, as long as it can lead the air flow to the first heat sink 126a of the cooling end 124a and reduce the The influence of air flow on the flow of condensed water is enough. For another example, the water collection fan 123 can also be a mixed flow fan or a centrifugal fan, and the drainage fan 134 can also be a mixed flow fan or an axial flow fan, and the water collection fan 123, the drainage fan 134 and the ultrasonic atomization assembly 128 are located in the housing 11. It is not unique, and their setting positions only need to enable the normal operation of the humidifying module 1 . For another example, the humidifying module 1 can also be installed on the outdoor wall 6 by bonding or screwing, and the air supply module 2 can also be installed on the indoor wall 7 by bonding or screwing. For another example, the connecting pipe 5 can also be wrapped with an insulating layer to prevent the pipe body from freezing or cracking in winter. For another example, the tubular housing 21 can also be formed by inserting two sections of tubular bodies, and the air blowing mechanism 23 can be respectively loaded into the tubular housing 21 from both ends of the two sections of tubular bodies. For another example, the length of the support tube 22, the length and cross-sectional shape of the tubular housing 21, and the number and shape of the air outlet holes 213 are not limited, and their specific arrangement forms can be adjusted according to specific application scenarios. For another example, one or more sets of air supply mechanisms 23 may also be provided in the air supply module 2 , as long as the air supply mechanisms 23 can pressurize and divert the air flow entering the air supply module 2 .

Further, in order to realize automatic control of the humidifying device, a detection component (not shown in the figure) may also be provided on the humidifying device. For example, a humidity sensor is provided at the tubular housing 21 to detect the indoor humidity. When the indoor humidity is lower than a certain threshold, the humidifying module 1 can be automatically turned on to purify and humidify the indoor air, or when the humidity is different from the appropriate humidity When the difference is not large, only the semiconductor water collecting component 124 is controlled to work, and the ultrasonic atomization component 128 is not to work, so as to reduce energy consumption. For another example, a bacteria content detector is provided inside the tubular housing 21 or in the drainage area of the humidification module 1 to detect the bacteria content in indoor or outdoor air. When the content exceeds a certain threshold, the ultrasonic atomization assembly 128 is automatically turned on to Deep sterilization of indoor or outdoor fresh air.

Referring back to FIG. 1 , the present invention also provides a wall-mounted air conditioner, which includes an indoor unit 3 , an outdoor unit 4 and the aforementioned humidifying device. Wherein, the humidifying device includes a humidifying module 1 and an air supply module 2, the humidifying module 1 is installed on the outdoor unit 4 through a first installation structure, and the air supply module 2 is installed on the indoor unit 3 through a second installation structure.

In terms of control methods, the humidifier can be controlled independently. For example, the humidifier is equipped with a separate electronic control component, and at the same time, the humidifier is equipped with a remote control or the electronic control component of the humidifier is controlled by a mobile phone APP. Of course, it is also possible to jointly control the humidifier and the wall-mounted air conditioner. For example, the keys used to control the humidifier are reserved on the remote control of the air conditioner in advance, and the remote control of the air conditioner is used directly, or the main control component is connected to the wall-mounted air conditioner. Interface and other ways to realize the integrated control of the air-to-humidifier.

To sum up, the remarkable effects brought by the humidifying device of the present invention are: (1) The humidifying device can realize the humidification effect without artificially adding water, realize the effect of ventilation without opening windows, and easily purify the outdoor fresh Because the air enters the room, it meets the needs of most customer groups and has strong practicability; (2) The connecting pipe of the humidifying device and the refrigerant pipe of the air conditioner pass through the wall together, so there is no need to open additional wall holes, which reduces the number of times of passing through walls or windows and increases Indoor aesthetics; (3) The humidification module and the air supply module are simple in structure and low in cost, covering multiple currently advanced functional modules, perfectly combined with the air conditioner, intelligently realizing one machine with multiple functions, and small in size, reducing indoor (4) Solve many problems caused by air-conditioning diseases, and no longer have to worry about indoor air drying caused by long-term use of air-conditioning; (5) While the humidifier is running, it takes into account the introduction of fresh air and purification and filtration to increase indoor oxygen. (6) During the ultrasonic atomization process, the humidifier releases a large amount of negative oxygen ions, which can effectively increase the indoor humidity, moisten the dry air, and eliminate the smog and dust floating in the air. Combined to make it precipitate, it can effectively remove paint smell, musty smell, smoke smell and odor, and make the air more fresh.

Finally, it should be noted that although the humidifying device of the present invention is described in conjunction with a wall-mounted air conditioner, it is obvious that the humidifying device of the present invention can also be used alone or in conjunction with other types of air conditioners, such as in combination with cabinet air conditioners use etc.

So far, the technical solutions of the present invention have been described in conjunction with the preferred embodiments shown in the accompanying drawings, but those skilled in the art will easily understand that the protection scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principles of the present invention, those skilled in the art can make equivalent changes or substitutions to relevant technical features, and the technical solutions after these changes or substitutions will all fall within the protection scope of the present invention.

Claims (10)

1. a kind of humidification module, which is characterized in that the humidification module includes shell, the collecting system to communicate with each other and draining system System, is provided with semiconductor collection water assembly in the shell, and the semiconductor collection water assembly includes refrigeration end and radiating end,

The collecting system include catchment air inlet, catchmenting gas outlet and is set to air inlet and the outlet that catchments of catchmenting Collection Water fan between mouthful and the refrigeration end, the collecting system are arranged under the drive of the collection Water fan, will be outdoor Air introduces the shell by the air inlet that catchments and after the refrigeration end, institute is discharged by the gas outlet of catchmenting State shell；

The drainage system includes draining air inlet, draining gas outlet and is set to the draining air inlet and the draining outlet Draining wind turbine between mouthful and the radiating end, the drainage system are arranged under the drive of the draining wind turbine, will be outdoor Air introduces the shell by the draining air inlet and after the radiating end, room is introduced by the draining gas outlet It is interior.

2. humidification module according to claim 1, which is characterized in that the semiconductor collection water assembly includes semiconductor refrigerating Piece, be set to the semiconductor chilling plate refrigeration side the first cooling fin, and be set to the semiconductor chilling plate dissipate The refrigeration side of second cooling fin of hot side, first cooling fin and the semiconductor chilling plate forms the refrigeration end, described The heat radiation side of second cooling fin and the semiconductor chilling plate forms the radiating end.

3. humidification module according to claim 2, which is characterized in that first cooling fin is indentation cooling fin；And And/or the second cooling fin described in person is indentation cooling fin.

4. humidification module according to claim 2, which is characterized in that be provided with partition board in the shell, the partition board inclines It is tiltedly set in the shell and the shell is divided into gathering ground and catchment；Mounting hole is offered on the partition board, The semiconductor chilling plate is installed on the mounting hole, and to which first cooling fin is located at the gathering ground, described second dissipates Backing is located at the catchment.

5. humidification module according to claim 4, which is characterized in that the inclined surface of the partition board is along the air inlet that catchments It is gradually risen to the direction of the gas outlet of catchmenting.

6. humidification module according to claim 4, which is characterized in that the shell corresponds to the lower one end of the partition board also It is provided with guiding subassembly, the condensate water guide that the guiding subassembly is used to generate the refrigeration end to the catchment.

7. humidification module according to claim 6, which is characterized in that the guiding subassembly includes multiple being staggered successively Deflector.

8. humidification module according to claim 6, which is characterized in that wind deflector is additionally provided in the shell, it is described to lead Aerofoil is used for the air conducting of the collection Water fan introducing to first cooling fin.

9. humidification module according to any one of claim 1 to 8, which is characterized in that the collecting system further includes surpassing Sound wave atomizing component, the ultrasonic atomization component are used to carry out ultrasonic atomization to the condensed water that the refrigeration end generates.

10. humidification module according to claim 1, which is characterized in that the humidification module can be installed on air conditioner On outdoor unit or on outdoor wall.