RU2531734C1 - Humidifier - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: this invention relates to a humidifier, and namely to a humidifier in which water for humidification is supplied using a water tray. A humidifier containing a discharge assembly for generation of active substances by a plasma discharge; a humidifying assembly having a water tray; with that, the humidifying assembly humidifies the air by using water from the same tray; a fan for blowing of the air humidified in the humidifying assembly to the room space; a flow passage for direction of active substances from the discharge device to space above water in the water tray using a ventilation flow created with a fan, and a filter assembly for removal of dust from the air supplied to the humidifying assembly; with that, the flow passage has an area of supply of active substances, which passes at least through some part of the space enveloping the filter assembly on the downstream side of the discharge device; with that, the supply area of active substances has at least one hole for supply to the filter assembly of active substances.

EFFECT: invention allows reducing growth of bacteria in a tray when a humidifier is used rarely, as well as preventing mud accumulation in the above tray.

6 cl, 13 dwg

Description

Field of Invention

The present invention relates to a humidifier, and in particular to a humidifier in which humidification water is supplied using a water tray.

State of the art

There are air purifiers that remove or break down odorous components, dust, bacteria, viruses, etc. that fly in indoor air and thus clean the air. Such air purifiers include devices that not only perform the function of air purification, but also humidify the air to increase the relative humidity of the air in the room. Such a humidification function is performed, for example, by a circular disk-shaped moisturizing rotor, for example as described in Patent Document 1 (JP-A-2009-148305). The air purifier according to patent document 1, which performs such a function, is a type of humidifier and has a tray for storing water and a round disk-shaped humidifying rotor for discharging water from the tray into the air. The humidifying rotor is rotated and water is supplied from a tray to a portion thereof. The air in the room, sucked into the inside of the air purifier is humidified, passing through the humidifying rotor. Known air cleaners essentially require cleaning the water tray and other types of maintenance and, therefore, have a design that allows you to remove the water tray from the air cleaner and install it in place.

During operation of the air purifiers, there are periods when humidification is carried out regularly, and periods when the humidification function is rarely used. During periods when humidification is carried out regularly, the water tray has to be often removed / replaced and cleaned, and the likelihood that the tray remains relatively clean increases.

However, during periods when the humidification function is rarely used, the water tray is less frequently cleaned and unused water may remain in the tray for a relatively long time. In this case, situations that are problematic from the point of view of hygiene may arise, for example, an increase in the number of bacteria may occur or the water in the tray may become silted.

SUMMARY OF THE INVENTION

Technical challenge

Therefore, as indicated in patent document 1, air containing the active substances generated in the output processing device, using a ventilation pump into the water in the tray. The use of active substances inhibits the siltiness and / or growth of bacteria.

However, this requires the use of a large ventilation pump or similar means, which entails an increase in the dimensions of the entire device and / or an increase in production costs.

The present invention is directed to solving the problem of creating a humidifier in which the water tray can be kept clean using a simple mechanism.

The solution of the problem

The humidifier according to the first aspect of the present invention comprises a discharge unit, a humidifying unit, a fan and a flow channel. The discharge unit generates active substances by a plasma discharge. The humidifier assembly has a water tray and humidifies the air using water from the tray. The fan pumps the air humidified in the humidifying unit into the room. The flow channel directs the active substances from the discharge unit into the space above the water in the tray, using the ventilation flow generated by the fan.

In the humidifier according to the first aspect of the present invention, the active substances can be directed into the space above the water in the tray using a simple flow channel mechanism that utilizes the ventilation flow generated by the fan.

The humidifier according to the second aspect of the present invention is the humidifier according to the first aspect, in which the fan is located after the humidifying unit. The discharge unit is located in the flow channel after the fan. The moisturizing unit is located in the flow channel after the discharge unit.

In the humidifier according to the second aspect of the present invention, installing the discharge unit and the humidifying unit in the flow channel sequentially after the fan allows creating an air flow to the humidifying unit using only air pumped by the fan.

The humidifier according to the third aspect of the present invention is a humidifier according to the first or second aspects, further provided with a filtering unit for removing the bullet from the air supplied to the humidifying unit. The flow channel has an active substance supply region that extends through at least a portion of the space surrounding the filter unit after the discharge device, wherein the active substance supply region has an opening for supplying active substances to the filter.

In the humidifier according to the third aspect of the present invention, it is also possible to supply the active substances to the filter unit using the flow channel also to supply the active substances to the water tray.

The humidifier according to the fourth aspect of the present invention is a humidifier according to the first or second aspect, further provided with a filtering unit for removing dust from the air supplied to the humidifying unit. The discharge unit and the flow channel are located on the side surface of the filter unit.

In the humidifier according to the fourth aspect of the present invention, the location of the discharge unit and the flow channel on the side surface of the filter unit allows more efficient use of the space of the humidifier.

The humidifier according to the fifth aspect of the present invention is a humidifier according to any one of the first four aspects, further provided with a tank for supplying water to the tray of the humidifying unit. The water tray has a partition for separating the humidification space in which the air is humidified and the external space from each other, while the partition has an opening formed therein for directing water from the tank located in the outer space to the humidification space.

In the humidifier of the fifth aspect, the water tray has a baffle. Therefore, it is possible to separate the space in which the tank is located and the space surrounding the humidifying unit from each other using a partition, and such a design can be used in a humidifier that is equipped with a tank.

The humidifier according to the sixth aspect of the present invention is the humidifier according to the fifth aspect, in which the flow channel has an outlet located next to the water tray in the outer space, while the active substances are supplied through the outlet.

In the humidifier of the sixth aspect of the present invention, the outlet is located on the side of the outer space, therefore, the influence of the humidifying space on the air flow can be reduced.

Advantageous Aspects of the Invention

In the humidifier of the first aspect of the invention, the water tray can be cleaned using a simple mechanism.

In the humidifier of the second aspect of the invention, an air stream for directing the active substances into the water tray can be obtained using a simple configuration.

In the humidifier of the third aspect of the invention, the size of the humidifier with the function of generating active substances can be reduced.

In the humidifier of the fourth aspect of the invention, space can be used efficiently and the size of the humidifier can be easily reduced.

In the humidifier of the fifth aspect of the invention, the design can be applied to the humidifier having a tank and obtain operational flexibility.

In the humidifier of the sixth aspect of the invention, the effect of creating a flow channel on the air flow in the humidification space can be reduced and the degradation of moisture can be prevented.

Brief Description of the Drawings

Figure 1 is an external perspective view of a humidifier.

Figure 2 is an external perspective view of a humidifier.

Figure 3 is a conceptual diagram illustrating the appearance of a humidifier with an open left side panel.

4 is a perspective view of a humidifier with an open left side panel.

5 is a perspective view of the humidifier with the removed water tank, water tray and fan casing.

6 is a perspective view of the inner space of the casing of the main body.

7 is a perspective view of the inner space of the casing of the main body.

Fig. 8 (a) is a top view of the component forming the water tray, (b) is a front view of the component forming the water tray, and (c) is a partition of the water tray.

9 is a perspective view illustrating a state when a water tray is mounted on a fan casing.

Figure 10 - external view of the humidifier, from which the front cover is removed, in perspective.

11 is an external view of the humidifier, from which the front cover is removed.

Fig.12 is a section along the line I-I in Fig.11.

13 (a) is a front view of a filter support member, (b) is a rear view of a filter support member, and (c) is a side view of a filter support member.

Description of options

The following is a description of an air purifier having a humidification function, which is an example of a humidifier to which the present invention is applied. However, the air purification function is not necessary for the present invention, and the present invention can be applied to a humidifier having air purification functions.

(1) Air Purifier Configuration and Operation Overview

1 and 2 show the general configuration of an air purifier according to an embodiment of the present invention. Figure 1 shows a perspective view from the top right of the front of the air purifier, and figure 2 shows a perspective view of the left top of the rear of the air purifier.

The air purifier 10 has inlets 11 for sucking in indoor air, and an outlet 12 for discharging humidified air. The inlets 11 comprise a front lower inlet 11a and side inlets 11b.

3 is a conceptual diagram illustrating the concept of removing and / or destroying dust and humidification in an air cleaner. The centrifugal fan 16 creates a stream of air 13 passing from the inlet 11 to the outlet 12. The air drawn in from the room through the inlet 11 is filtered in the filter unit 14 to remove dust and / or odorous components, and moistened in the humidifying unit 15. After humidification and purification air is discharged through a centrifugal fan 16.

The filter assembly 14 includes a pre-filter 17A, a high-performance dry air filter (HEPA) 17B and a deodorizing element 17C. First, a pre-filter 17A provided in the humidifier 10 removes dust particles. Then, the high-performance dry air filter 17B removes smaller dust particles. In the air passing through the high-performance dry air filter 17B, formaldehyde, odorous components and / or other substances are broken down or adsorbed by the deodorizing element 17C containing activated carbon and other substances.

The moisturizing assembly 15 comprises a moisturizing rotor 50, a water tray 40, and other components. Air passing through the deodorizing element 17C passes through the moistening rotor 50 of the moistening unit 15. When air passes through the moistening rotor 50, water from the moistening rotor 50 is released into the air. To compensate for the released water, water from the tray 40 is supplied to the humidifying rotor 50.

The stream 13a, leaving the ventilation stream created by the centrifugal fan 16, is directed to the site 18 streamer discharge. When the stream 13a leaving the ventilation stream passes through the streamer discharge unit 18, the streamer discharge delivers active substances thereto. Part 13b of the effluent stream into which the active substances have been supplied is separated and forms a plurality of effluent streams 13c, which are blown through small openings into the region in front of the pre-filter 17A. The effluents 13c are connected to the air from the room, sucked in through the pre-filter 17A, and enter the deodorizing element 17C. Active substances that enter the deodorizing element 17C enhance the deodorizing effect.

The effluent 13d that occurs when the effluent 13c is separated from the effluent 13b is directed to the space Sp1 above the water in the tray 40. The active substances in the effluent 13d prevent the growth of bacteria and / or siltation in the tray 40, and support the inside of the tray 40 clean.

The above-described air purifier 10 with humidification function is activated using the control panel 19 located at the top of the air purifier 10. The control panel 19 has a switch for controlling the on / off function of the air purification function and, in addition, a switch for controlling the on / off function of the humidifier in the air purifier 10. Thus, there is an air purification mode without humidification and an air purification mode with its humidification.

In the mode of air purification only, the rotation of the humidifying rotor 50 is stopped and water is not supplied to the humidifying rotor 50.

As a result, the release of water into the air stops after the wetting rotor 50 has dried.

(2) Configuration Details

(2-1) Water tank

As shown in figure 4, the water tank 30 is located in the left side section of the air cleaner 10. Outside, the air cleaner 10 is closed by a casing 20 of the main body. The casing 20 of the main body is configured so that the left side panel 21 can be removed and the water tank 30 is attached to the left side panel 21. Although not shown in the drawings, a water port is provided at the bottom of the water tank 30.

As for the casing 220 of the main body, the lower left panel 22, which is curved to reduce the width of the lower part of the air cleaner 10, is located under the side panel 21. The lower left side panel 22 is attached to the tray 40. When the water tank 30 is full, the water from the tank 30 spills out into tray 30 through the port at the bottom of the tank 30.

The casing 70 of the centrifugal fan 16 shown in FIG. 3 is located to the right of the water tank 30 in the casing 20 of the main body. The casing 70 of the fan extends upward to the outlet 12, and the output of the casing 70 of the fan coincides with the outlet 12 of the casing 20 of the main body.

(2-2) Water Tray

The state shown in FIG. 5 is a state in which the left side panel 21, the water tank 30 and the water tray 40 are removed; in addition, the centrifugal fan is also removed along with the fan casing 70 relative to the state shown in FIG. A water tray 40 is inserted from the outer space Sp1 shown in FIG. 5, a front member having honeycomb-shaped openings is a filter supporting member 80. The pre-filter 17A, the high-performance dry air filter 17B, and the deodorizing element 17C shown in FIG. 3 are attached to the filter supporting member 80.

On the filter support member 80, there is a supply port 81 facing the space above the water tray 40 into the space Sp1. Air containing active substances is blown through the supply port 81.

6 and 7 show the state in which the water tank 30, the filter support member 80, and the casing 20 of the main body, except for the lower left side panel 22, are removed. Figure 6 presents a perspective view diagonally from above to the left of the front side of the air cleaner 10, and Figure 7 presents a perspective view diagonally from above to the left of the rear side of the air cleaner 10.

The water tray 40 primarily comprises a water receiving part 41 located under the water tank 30, a rotor immersion part 42, in which the lower part of the moistening rotor 50 is immersed in water, a partition 43, a support 44, and a partition 45. Support 44 for receiving the shaft of the moistening rotor 50 is attached to the top of the side wall of the tray 40, forming part 42 for immersion of the rotor.

Part 41 for receiving water and part 42 for immersing the rotor are separated from each other by a partition 43 for separating water stored in the tray 40. A hole through which part 41 for receiving water communicates with part 42 for immersing the rotor is made in the lower part of the partition 43, and FIG. 7 is closed by the lower left side panel 22 and other components. In a state where there is water in the tray 40, the hole is blocked by water and the water receiving part 41 and the rotor immersion part 41 are separated.

The partition 45 extends upward from the top of the partition 43 without any gap between them. In the state that the water tray 40 is full, the partition 45 is connected to the fan casing 70 without any gap between them. In the state shown in FIG. 6, the water tray 40 is fixed to the fan casing 70 by a locking mechanism.

The space Sp2 in which the humidifying rotor 50 is located is the space inside the housing formed by the fan casing 70 and the filter support member 80. The space Sp2 is surrounded by a side wall 71 and an upper wall 72, a lower wall 7, a rear wall 74, a partition 45, and a filter support member 80. Thus, the space Sp2 is separated from the external space Sp1, and the paths connecting the external space Sp1 and the space Sp2 to each other are limited by specific paths, such as the inlets 11 and / or the outlet 12. The housing has no openings other than a honeycomb-shaped opening formed in the filter support member 80 and an opening formed in the rear wall 74. Therefore, from the space Sp2 through the rear wall 74, the same amount of air is supplied to the centrifugal fan 16 as from the fi support element 80 tra in the space Sp2.

Part of the air leaving the centrifugal fan 16 forms an exhaust stream 13a. This exhaust stream 13a is directed from the opening 79 in the fan casing 70 to the streamer discharge unit 18. The flow channel through which the exhaust stream 13a passes is surrounded by a casing 20 of the main body and a casing 70 of the fan, and only communicates with the hole 79 and the streamer discharge assembly 18. Thus, air does not enter from the external space and the exhaust stream 13a does not flow into the external space. The effluent 13b into which the active substances were added at the streamer discharge unit 18 is blown out from the streamer discharge unit 18 in the direction of the water tray 40 below.

On Fig shows the configuration of the component obtained by the integral formation of the part 42 for immersing the rotor, the baffle 43 and part 41 for receiving the water of the water tray. Fig. 8 (a) shows a top view of this component, Fig. 8 (b) shows a front view of this component, and Fig. 8 (c) shows a side view of the partition.

The screws for securing the partition 45 are screwed into two threaded holes 40a next to the water receiving portion 41 and the partition 43. The screws for securing the support 444 are screwed into two threaded holes 40b and two threaded holes 40c located respectively on the front side wall 42a and on the rear side wall 42b of the immersion part of the rotor 42.

As shown in FIG. 8 (b), the baffle 40d extends longitudinally under the water tray 40. The partition 40d contacts the bottom wall 73 under the water tray 40 and separates the space Sp2 and the space outside the housing from each other.

As shown in FIG. 8 (c), a hole 43a is formed in the partition 43. The hole 43a connects part 41 for receiving water and part 42 for immersing the rotor. Therefore, the water supplied from the water tank 30 to the water receiving part 41 passes through the opening 43a and flows into the part 42 for immersing the rotor. The water level, when water remains in the tank 30, is indicated by a dash-dot line 43b. When the water level rises for this height, the hole 43a is blocked by water and therefore does not work as a bypass for air.

(2-3) Humidifier rotor

The humidifying rotor 50 shown in FIG. 6 has a structure in which a porous evaporating filter 51 is attached to the annular frame 53. The moistening rotor 50 causes water to evaporate from the evaporating filter 51 and moisturizes. Therefore, the moistening rotor 50 is designed so that the dry lower part of the evaporation filter 51 when the rotor 50 rotates enters the water in part 42 for immersing the rotor. To facilitate the supply of water to the evaporative filter 51, the structure is designed so that water can be scooped up by the water storage part 52 and water can be supplied to the evaporative filter 51 in the inner periphery of the annular frame 53 from the water storage part 52 through an opening (not shown) in the annular frame 53. Although not shown in the drawings, the wetting rotor may be driven by an electric motor.

(2-4) Centrifugal fan and fan shroud

In FIG. 9 shows a state in which the wetting rotor 50 and the support 44 are removed relative to the state shown in FIG. 6. With the humidifying rotor 50 removed, the centrifugal fan 16 is located located after the humidifying rotor 50. Humidified air is supplied from the hole 76 in the rear wall 74 of the housing to the centrifugal fan 16.

(3) Flow channel for supplying active substances

The following is a description of the flow channel for the exhaust streams 13a, 13b, 13c and 13d shown in Fig.3, with reference to the drawings. FIGS. 10 and 11 show a perspective view and a front view of the air cleaner 10 in a state in which the front cover 23 of the casing 20 of the main body shown in FIG. 1 is removed. On Fig shows a section along the line I-I in Fig.11. The mesh portion of the pre-filter 17A is shown in FIG. 12 by a dashed line. 13 and 14 show configurations of a filter support element. FIG. 13 (a) shows a front view of a filter support member, FIG. 13 (b) shows a rear view of a filter support member, and FIG. 13 (c) shows a side view of a filter support member.

A flow channel conducting the effluent 13a has already been shown in FIG. The flow channel conducting the exhaust stream 13a extends from the opening 79 of the fan casing 70 to the streamer discharge unit 18 and is formed so that it is surrounded by the casing 20 of the main body and the casing 70 of the fan.

The effluent 13b into which active substances are introduced in the streamer discharge unit 18 is directed downward from the streamer discharge unit 18, as shown in FIG. 7. As shown in FIGS. 13 (a) and 13 (b), a housing portion 82 is formed in the upper left section of the filter support member 80, in which the streamer discharge assembly 18 is located, and which extends from the rear side to the front side. A hollow portion forming the flow channel 83 extends downward from the housing portion 82. As shown in FIG. 12, this hollow portion forming the flow channel 83 is formed by meshing the front component 80a and the rear component 80b forming the filter support member 80.

A plurality of holes 84 are formed on the flow channel 83 vertically in a row. Holes 84 are formed along the side inlet 11b. As a result, the effluent streams 13c exiting the openings 84 become a flow directed to the pre-filter 17A.

An outlet port 81 is formed under the flow channel 83. The outlet port 81 is located even higher above the upper end of the water receiving portion 41 of the tray 40. Active substances can be supplied from the outlet port 81 to the water receiving part 41 and to prevent the growth of bacteria and siltation of the part 41 for water intake. When the water level in the water receiving portion 41 is low, the active substances are supplied through an opening 43a in the rotor immersion portion 42 shown in FIG.

(4) Characteristics

(4-1) As shown in FIG. 3, the part of the air that is blown by the centrifugal fan 16 from the opening 79 in the fan casing 70 forms an exhaust stream 13a and, as a result, is blown through the outlet port 81 located in the space above the tray 40 for water. There are no fans or similar elements in his way. Air is blown out only due to the wind pressure generated by the centrifugal fan 16. As a result, the active substances generated by the streamer discharge (plasma discharge) in the streamer discharge unit 18 (outlet unit) can be fed into the space above the water in the tray 40 using a simple configuration containing only a path (flow channel) for directing air, for example, a flow channel (83). Thus, it is possible to keep the portion 41 for receiving the water of the tray 40 clean. In addition, in a situation where the water level has fallen and the active substances can be supplied to part 42 for immersing the rotor through the hole 43a in the baffle 43, part 42 for immersing the rotor can also be kept clean by the active substances.

(4-2) As shown in FIG. 9, the centrifugal fan 16 is located after the humidifying assembly 15, comprising a water tray 40, a humidifying rotor 50, and other elements. The streamer discharge unit 18 (discharge unit) is located between the opening 79 of the fan casing 70 and the flow channel 83 of the filter support element 80 and after the centrifugal fan 16. A water tray 40 next to the outlet port 81 of the flow channel 83 is located on this flow channel after the streamer unit 18 discharge. Thus, using a simple configuration, a flow channel is formed that creates a stream of air containing active substances over the water tray 40, in which only the stream created by the centrifugal fan 16 is used.

(4-3) As shown in FIG. 12, the flow channel 83 is located on the side surface of the filter assembly 14, i.e. on the left side surface of the filter support member 80. Exhaust stream 13b containing active substances flows through the flow channel 83. A plurality of holes 84 are formed in the Ar region (active substance supply area) of the flow channel 83. The active substances can be supplied together with external air sucked from the side inlet 11b to the pre-filter 17A , high-performance dry filter 17B and deodorizing element 17C. Thus, the active substances can also be supplied to the deodorizing element 17C and similar elements of the filter assembly 14 by sharing the channel 83 for supplying the active substances to the water tray 40 and the size of the air cleaner 10 (humidifier) in which the active substances are used can be reduced.

(4-4) As shown in FIGS. 11 and 12, the streamer discharge assembly 18 (discharge assembly) and the flow channel 83 are located on the left side surface of the filter support member 80 using the thickness of the filter assembly 14. Thus, the creation of the flow channel 83 and housing 82 for the streamer discharge assembly 18, using the thickness of the filter assembly of the filter support member 80, which supports a high-performance dry filter and other elements, allows the dimensions of the air cleaner 10 (humidifier) to be reduced.

(4-5) As shown in FIG. 8 (a), the water tray 40 has a baffle 43 for separating a part 41 for receiving water and a part 42 for immersing the rotor from each other. The partition 43 plays a partial role in separating the space Sp2 (humidification space) and the outer space Sp1 from each other, as shown in FIGS. 6 and 7. The presence of the partition 43 allows the water tank 30 to be placed relative to the water tray 40 from the side of the outer space Sp1. Due to this, it is possible to minimize the flow between the space Sp2 and the outer space Sp1 even when the air cleaner 10 (humidifier), having a tank 30 for water.

(4-6) As shown in FIG. 7, the outlet port 81 shown in FIG. 5 is located in the outer space Sp1 next to the water tray 40. The outer space Sp1 is separated from the space Sp2 (humidification space) shown in FIG. 7 as described above, therefore, the influence of the Sp2 space on the air flow can be reduced and deterioration of the humidification characteristics can be prevented.

(5) Modification Example

(5-1) Modification Example 1A

In the embodiment described above, a portion of the air leaving the centrifugal fan 16 is taken out as an exhaust stream 13a, and the active substances generated by the streamer discharge unit 18 are directed to the area adjacent to the water tray 40 without an additional fan and / or pump. However, the method of creating such an air stream is not limited to the ventilation stream created by the centrifugal fan 16. The air stream drawn into the centrifugal fan 16 can be used to supply active substances to the area located next to the part 42 for immersing the rotor of the water tray 40 on the side of the Sp2 space .

(5-2) Modification Example 2A

In the above embodiment, the streamer discharge unit 18 has been described as an example of a discharge unit. However, the discharge unit for creating a plasma discharge is not limited to the streamer discharge unit, and may be another type of plasma discharge unit.

(5-3) Modification Example 3A

In the aforementioned embodiment, an evaporation humidification method in which a humidifying rotor 50 is used in the humidifying unit 15 is used, however, another moisturizing method in which the humidifying rotor 50 is not used, for example, heat moisturizing or ultrasonic humidification, can be used in the moisturizing unit 15.

(5-4) Modification Example 4A

In the above embodiment, a centrifugal fan 16 was indicated as an example. However, a turbofan, a cross-flow fan, or another type of fan can be used as a fan.

(5-5) Modification Example 5A

In the above embodiment, a case has been described where the filter assembly 14 comprises a pre-filter 17A, a high-performance dry filter 17B and a deodorizing element 17C. However, it is also possible to use an additional electrostatic filter, or another type of filter, or use an additional element supporting photocatalytic titanium, apatite or another element.

(5-6) Modification Example 6A

In the above embodiment, as shown in FIG. 12, an example has been described in which the left side surface of the filter support member 80 is the side surface of the filter assembly 14 on which the discharge assembly 18 and the flow channel 83 are located. However, the side surface of the filter assembly 14, on of which the streamer discharge unit 18 and the flow channel 83 are installed is not limited to the left side surface, and the discharge unit and the flow channel can be on the upper side surface, the lower side surface, or the right side surface STI. A configuration is possible in which the discharge unit 18 and the flow channel are located on two or more side surfaces, from the upper, lower, left, and right side surfaces, and not on the same surface. The lateral surfaces on which the discharge assembly 18 and the flow channel 83 are located may be different. For example, a configuration is possible in which the discharge unit 18 is formed on the upper side surface and / or on the lower side surface, and the flow channel 83 is located on the left side surface and / or on the right side surface. Alternatively, for example, a configuration is possible in which the flow channel 83 is located on the upper side surface and / or on the lower side surface of the filter unit 14, and the discharge unit 18 is located on the left side surface and / or on the right side surface.

List of items

10 - air cleaner

20 - casing of the main body

30 - water tank

40 - water tray

50 - moisturizing rotor

70 - fan cover

80 - filter support element.

Bibliography

Patent Literature:

Patent Document 1 - JP-A-2009-143305

Claims (6)

1. Humidifier containing:
a discharge unit (18) for generating active substances by a plasma discharge;
a humidifying unit (15) having a tray (40) for water, while the humidifying unit humidifies the air using water from this tray;
a fan (16) for blowing air moistened in a humidifying unit into the space of the room;
a flow channel (20, 70, 83) for directing active substances from the discharge device into the space above the water in the water tray using the ventilation stream created by the fan, and
a filter unit (14) for removing dust from the air supplied to the humidifying unit (15),
wherein the flow channel has an active substance supply region (Ar) that extends through at least a portion of the space surrounding the filter assembly on the downstream side of the discharge device, wherein the active substance supply region has at least one opening (84) for supplying the filter assembly with active substances. 2. The humidifier according to claim 1, in which the fan is located on the downstream side of the humidifying unit; the discharge unit is located on the downstream side after the fan in the flow channel and the humidification unit is located on the downstream side after the discharge unit in the flow channel. 3. The humidifier according to claim 1 or 2, in which the active substance supply region has a plurality of holes (84) made vertically in a row on it. 4. A humidifier according to claim 1 or 2, further having a filter unit (14) for removing dust from the air supplied to the humidifying unit; wherein the discharge unit and the flow channel are located on the side surface of the filter unit. 5. A humidifier according to claim 1 or 2, further having a tank (30) for supplying water to the tray of the humidifying unit; wherein the water tray contains a partition (43) for separating from each other the humidification space in which the air is humidified, and the outer space, while an opening (43a) is made in the partition to direct water from the tank located in the outer space to the humidification space . 6. The humidifier according to claim 5, in which the flow channel has a feed port (81) located in the outer space next to the water tray, while active substances are supplied through the feed port.

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