JP3926600B2 - Humidifier - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a humidifier such as a humidifier that vaporizes water to perform air conditioning.
[0002]
[Prior art]
Conventionally, as described in Japanese Utility Model Publication No. 58-148520, for example, a humidifier as a humidifier is attached to a motor and its rotating shaft with blades and tapered water-absorbing tubes, and the water in the water tank portion is absorbed into the water-absorbing tubes. It is made to fly toward the filter through a large number of holes, and the humidification effect is obtained by passing dry air through the filter wet with water.
[0003]
Further, in the cold air fan, as described in Japanese Utility Model Publication No. 63-134326, the water stored in the water storage tank is absorbed by the humidifying filter and blown through the humidifying filter to Water is vaporized, the temperature of the blown air is lowered by the heat of vaporization at that time, and the air is blown as cold air. Further, in this cold air fan, in order to prevent the generation of bacteria, mold, algae, etc. due to the decay of the water in the water storage tank and the generation of a strange odor, the humidifying filter contains a deodorant and the water in the water storage tank is And deodorizing the blown air.
[0004]
Also, in a sealed room with little ventilation, such as an office or conference room, if there are many people in the room, carbon dioxide, cigarette smoke, dust and other air pollutants emitted by breathing increase. Negative ions, which have the effect of relaxing humans, decrease from the air. In particular, a large amount of negative ions may be lost due to cigarette smoke and may be reduced to about 1/2 to 1/5 of the normal amount. In order to replenish negative ions in the air, various ion generators have been proposed and installed in air purifiers and the like.
[0005]
On the other hand, the need for sterilization and sterilization has been increasing in recent years, but the ion generator that generates only negative ions cannot positively remove airborne bacteria. An air cleaner equipped with an ion generator that generates ions has been put into practical use.
[0006]
[Problems to be solved by the invention]
By the way, when a deodorizing agent is included in the humidifying filter, the durability of the deodorizing performance due to secular change is inferior, and there is a problem in maintenance such as necessity of replacement of the humidifying filter. In addition, when a medicine having a deodorizing and sterilizing effect is put in the water storage tank, it is necessary to purchase a special medicine, which has a problem that it is difficult to handle.
[0007]
On the other hand, the humidifying filter is in a state where moisture is contained, and a state in which bacteria are likely to propagate always occurs, and the humidifying filter should be prevented from containing moisture as much as possible.
[0018]
  Therefore, the watering device includes a humidifying filter that vaporizes water, a blowing unit that sends air passing through the humidifying filter, a water feeding unit that sends water to the humidifying filter, and a watering unit that sprays water from the watering unit, A means is provided above the humidifying filter and disposed upstream of the humidifying filter in the direction of flow of the passing air, and a humidifying device that can improve the amount of water evaporation using the entire humidifying filter is proposed. Has beenThe humidifying filter, the sprinkling means for supplying water thereto, the water feeding means, and the water receiving tray are in an environment where water is easily accumulated and bacteria are likely to propagate because water is used. Therefore, cleaning maintenance is required to remove this.
[0019]
[Means for Solving the Problems]
    Then, this invention aims at provision of the humidification apparatus which can perform the cleaning operation | work of the member which comprises a humidification apparatus easily. To achieve this object, the present inventionA humidifying filter body in which a humidifying filter for vaporizing water is detachably accommodated in the frame, a blowing means for sending air passing through the humidifying filter, a water feeding means for sending water to the humidifying filter, and the water feeding means Watering means for spraying water from the water, and the humidifying filter body is detachable from the apparatus main body.Install the humidifierIt is to provide. According to this configuration, since the humidifying filter body is detachable from the apparatus main body, the humidifying filter body can be easily removed and cleaned, and the operation of replacing the humidifying filter can be easily performed.
[0020]
If the structure attached to the humidification filter body so that both the water supply pipe which sends water to a sprinkling means from this water supply pump other than this humidification filter body is employ | adopted, the attachment or detachment work of a humidification filter body becomes easy. However, in this case, a configuration in which the water pipe and the water pump are detachable must be adopted.
[0021]
Therefore, in the present invention, in addition to the above configuration, a water receiving tray that temporarily stores water is provided below the humidifying filter body, and the water supply means includes a water supply pump provided in the water receiving tray, A water supply pipe for supplying water sent from the pump to the sprinkling means, the water supply pipe having a pump side connection joint that can be connected in a watertight manner to the discharge port of the pump, and is attached to the humidifying filter body Another object of the present invention is to provide a humidifying device that is detachably attached to the device main body together with the humidifying filter body. According to this structure, a water pipe and a humidification filter body can be removed integrally, and cleaning maintenance can also be performed easily.
[0022]
Moreover, if the structure which can also remove a watering means from a humidification filter body is employ | adopted, cleaning of the watering means itself can also be performed easily. In this case, the connection between the water pipe and the watering means must be able to be released.
[0023]
Therefore, in the present invention, in addition to the above-described configuration, the watering means is configured by a humidifying box in which a plurality of watering holes are formed in the bottom surface portion, and the humidifying filter body includes a box housing portion above the humidifying filter. The humidifying device is characterized in that the humidifying box is detachably accommodated in the box accommodating portion, and the water supply means is provided with a box side connection joint that can be connected to the humidifying box in a watertight state. It is to provide. According to this configuration, since the humidifying box can be removed, cleaning such as water accumulated in the humidifying box can be easily performed.
[0024]
Furthermore, it is preferable to adopt a configuration in which the water receiving tray can also be removed. That is, in the present invention, the water receiving tray is composed of a tray main body and a filter body mounting portion that is integrated with the tray main body and is detachably mounted on the humidifying filter body, and is detachably mounted on the apparatus main body. A humidifier characterized by the above can also be provided. According to this configuration, since the water receiving tray can also be removed and cleaned from the apparatus main body, the water supply system can be easily cleaned.
[0025]
In this case, it is advantageous to use a magnet-separated pump as the water pump because a seal around the electrical wiring is not necessary. However, it is necessary to improve the connection state between the motor unit and the water supply function unit.
[0026]
Therefore, in the present invention, the water pump is a magnet-separated pump, and includes a motor unit disposed in the apparatus main body and a water feeding function unit disposed in the water receiving tray. There is also provided a humidifier characterized in that the tray is provided with means for pressing the water supply function part of the water supply pump toward the motor part side. According to this configuration, the rotation unevenness of the pump is eliminated and the discharge force is stabilized by pressing the water supply function unit side to the motor unit side.
[0027]
Such an aspect that facilitates cleaning maintenance and prevents the growth of bacteria can be provided in combination with the humidifying device that increases the vaporization efficiency. That is, in the present invention, the humidifier according to any one of claims 7 to 11 can be provided, comprising the humidifier according to any one of claims 1 to 6.
[0028]
Further, in such a configuration, the mounting portion of the humidifying filter body can be used as an air blowing passage wall, and can also be used as a member that forms the space portion. In other words, in the present invention, the filter body mounting portion is formed in a box shape in which the flow direction of the air passing through the humidifying filter is opened and is a part of the ventilation path, and is retracted by a predetermined width from the upstream open surface thereof. The humidifying filter body is disposed at the position where the humidifying filter body is disposed, and the entire upstream side of the humidifying filter faces between the upstream open surface and the humidifying filter body, and a space portion having a predetermined width along the flow direction of the passing air is provided. A humidifier characterized by being formed can also be provided.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a humidifier according to the present invention will be described with reference to the drawings. 1 to 3 are perspective views of a humidifying device body showing an embodiment of a humidifying device according to the present invention. In FIG. 1, 1 is a humidifier main body, 2 is a water tank, 3 is a tank cover with the tank attached inside, 4 is a water receiving tray for temporarily storing water in the water supply tank, 5 is a main body handle for carrying the main body, 6 is a blower outlet, 7 is an ion blower outlet, 8 is an operation part.
[0030]
The apparatus main body 1 is formed in a box shape, and can accommodate an accommodating portion 1a capable of accommodating the water tank 2 and the tray 4 on one side thereof, and a humidifying filter body mounting portion 25 integrated on the back side of the tray 4. A housing recess 1b is formed. On one side wall of the main body 1 forming the housing portion 1a, a visual recognition window 1c through which the amount of water in the tank 2 to be mounted can be seen is formed.
[0031]
As shown in FIG. 3, the water tank 2, which is a water supply system, the water receiving tray 4, and the humidifying filter body 11 mounted on the mounting portion 25 of the water receiving tray 4 are detachably mounted on the main body 1. Thus, cleaning maintenance of the water supply system can be easily performed.
[0032]
Further, when the tank housing part side is the front side, a suction port 17 for sucking room air is formed by a blower 15 on the back side of the apparatus main body 1, and an air filter 9 is formed in the suction port 17. Is attached. Further, air outlets 6 and 7 for blowing out air sucked from the air inlet 17 are formed on the upper surface of the apparatus main body 1. These air outlets 6 and 7 are an air outlet 6 for humidified air that blows out air containing moisture through the humidifying filter 20, and an ion air outlet 7 that blows out air containing negative ions and positive ions. These are arranged side by side on the upper surface of the main body. And in the apparatus main body 1, the path | route of the air from the suction inlet 17 to the blower outlets 6 and 7 is formed.
[0033]
FIG. 4 is a schematic configuration diagram of the humidifier, showing an air blowing path and a water supply path in the apparatus main body. In the air blowing path, there are a heating body 16 for heating the air sucked from the suction port 17, a blower 15 as a blowing means, and a humidifying filter body 11 arranged in a path leading to the downstream outlet 6. In addition, an ion generator 14 that generates positive ions and negative ions is provided in a path where a part of the air from the blower 15 reaches the ion outlet 7.
[0034]
In the ventilation path, the air sucked from the suction port 17 of the apparatus main body 1 by the blower 15 is heated by the heating body 16 and sent from the blower 15 to the humidification filter 20 (see FIG. 14). The water sucked into the air is released with dry air or heated air, and is discharged from the air outlet 6 as moisture-containing air. Part of the air that has exited the blower 15 is sent to the ion generator 14, becomes air containing positive ions and negative ions generated by the ion generator 14, and is blown out from the ion outlet 7.
[0035]
Further, in the water supply path for supplying water to the humidifying filter 20, the water in the water tank 2 detachable from the apparatus main body 1 is temporarily supplied to the water receiving tray 4 via the valve portion 18 (see FIG. 9) of the tank 2. The water stored in the tray 4 is sent to the humidification box 13 by the pump 12 provided on the bottom surface of the tray 4, and the humidification filter is provided from a plurality of water spray holes 19 (see FIG. 17) provided in the humidification box 13. Water which is sprayed on the upper part of the humidifying filter 20 of the body 11 and absorbed by the material of the humidifying filter 20 and remaining without being contained in the air is returned to the tray 4 below the humidifying filter 20. Yes.
[0036]
FIG. 5 is a cross-sectional view showing the internal structure of the apparatus main body 1. Inside the apparatus main body 1, a substantially cylindrical air blowing guide wall 1 d surrounding the fan of the blower 15 is formed as an air blowing path, and a part of the downstream side thereof is opened 1 e to constitute a part of the blowing path. The air path which leads to the blower outlet 6 through the humidification filter body mounting | wearing part 25 which forms is formed. In addition, an ion generation path 43 leading to the air outlet 7 is formed in the apparatus body 1, and this ion generation path 43 is opened in the upstream space portion 42 in the humidifying filter body mounting portion 25, and the air from the blower 15 A part of the air path is formed from the opening 1e through the space 42 and from the ion generation path 43 to the outlet 7.
[0037]
The space portion 42 formed on the upstream side of the humidifying filter body mounting portion 25 is formed between the upstream open surface of the mounting portion 25 and the humidifying filter body 11, and the entire upstream surface of the humidifying filter 20 faces. The air has a predetermined width along the flow direction of the passing air, and thereby has a function of allowing the air from the blower 15 to pass through the humidifying filter 20 substantially evenly. The space portion 42 includes a rising wall 1f that rises vertically from the blower side opening 1e, a side wall before and after the humidifying filter body mounting portion 25 that is open in the air flow direction, and the humidifying filter 20. It is formed surrounded by.
[0038]
The blower 15 includes a cylindrical fan that is disposed inside the cylindrical blow guide wall 1d and is rotatably supported by the apparatus body 1, and a fan motor (not shown) that rotates the fan. And by rotation of a fan, indoor air is sucked in from the suction port 17 located in the axial direction, and the sucked air is guided to the opening 1e side along the air guide wall 1d around the humidifying filter 20 and ion generation It blows out indoors from the blower outlets 6 and 7 through the apparatus 14. FIG. The rotational speed of the blower 15 is controlled so that the air volume is increased when a large amount of humidification is generated and the air volume is decreased when the humidity is reduced.
[0039]
The heating body 16 is composed of a positive characteristic ceramic heater or the like, and is disposed on the upstream side of the blower 15. The heating body 16 is controlled so as to be driven when it is desired to speed up the start of humidification without generating as much as possible or when a large amount of humidification is generated. Further, the heating body 16 is energized before starting the driving of the water pump 12 at the start of the humidification operation, and is controlled so as to dry the humidification filter 20 as much as possible to prevent bacterial growth.
[0040]
As shown in FIG. 3, the water tank 2 is disposed inside the tank cover 3 that covers the upper surface and the front surface of the water tank 2 so that the tank 2 can be carried by inserting a hand into the concave handle portion 3 a of the tank cover 3. It has become. The tank 2 includes a rectangular parallelepiped box-shaped tank body 2a and a tank cap 23 screwed to the water supply port 2b.
[0041]
To attach the water tank 2 to the apparatus main body 1, the tank cap 23 is inserted into the receiving portion 4 a of the tray 4, and the locking claw (not shown) of the tank cover 3 is inserted into the locking hole (not shown) of the main body 1. 1), the tank 2 inside the tank cover 3 is mounted on the main body 1.
[0042]
FIG. 9A is an enlarged cross-sectional view schematically showing the relationship between the tank cap 23 and the receiving portion 4 a of the tray 4. As shown in the figure, the water tank 2 can store water stored in the tray 4 by removing the tank cap 23 of the water supply port 2b and supplying water from the water supply port 2b into the water tank body 2a. .
[0043]
The tank cap 23 is provided with a valve mechanism 18 as shown in FIG. The valve mechanism 18 includes a valve shaft 28, a rubber-like valve seat 30 and a valve spring 29.
[0044]
As shown in FIGS. 9A and 9B, the valve shaft 28 is integrally formed with a disc-shaped receiving portion 28a at one end thereof, and at the other end (that is, the water tank 2 side). Is attached so that the valve seat 30 is slightly convex downward. Further, the opening 23c of the tank cap 23 has a ring-shaped seat receiving portion 23a and a rib 23b that support the valve shaft 28 with a predetermined gap from four sides so that the valve shaft 28 can reciprocate in the longitudinal direction. Is provided.
[0045]
The valve spring 29 is interposed between the ring-shaped seat receiving portion 23a and the receiving portion 28a of the valve shaft 28, and urges the opening 23c of the tank cap 23 in a direction to be closed by the valve seat 30. .
[0046]
For this reason, unless the valve mechanism 18 of the water tank 2 is pushed by the receiving portion 4 a of the tray 4, the water tank 2 is kept sealed by the valve mechanism 18, and water does not leak from the water tank 2. When the water tank 2 is attached to the tray 4, the valve shaft 28 is pushed by the receiving portion 4 a of the tray 4 and moves upward, the valve spring 29 of the valve mechanism 18 is contracted, and the valve mechanism 18 is opened. Water in the water tank 2 is supplied into the tray 4 by a drop. Thereby, the water level in the tray 4 is kept constant at the tip end position of the tank cap 23.
[0047]
6 to 8, the water receiving tray 4 includes a box-shaped tray body 44 having an open upper surface, and a filter body mounting portion 25 that is integrated with the tray body 44 and that is detachably mounted on the humidifying filter body 11. It is detachably attached to the apparatus main body 1 so that cleaning maintenance in the water supply system can be easily performed.
[0048]
The tray main body 44 is arranged below the water tank 2 in the front housing part 1a of the apparatus main body 1, and is set to a size that allows the lower part of the water tank 2 to be inserted inside. A receiving portion 4a is formed on the bottom surface of the tray body so as to face the valve mechanism 18 of the water tank 2, so that the water replenished by a drop from the transportable water tank 2 can be temporarily stored. ing. Further, inside the tray main body 44, a water level detecting means 21 (see FIG. 4) for detecting that the amount of water is reduced and the water level has reached a predetermined level or less is provided. Is detected, the operation unit 8 is notified.
[0049]
The humidifying filter body mounting portion 25 integrated with the rear wall 44b of the tray main body 44 has a box shape, constitutes a part of the blowing path passing through the humidifying filter body 11, and is downstream of the blowing path. The upper surface is opened, and the left side (blower side) on the upstream side is also opened leaving a slight rising wall 25g (see FIG. 10) in the lower part. The front surface 25 h of the mounting portion 25 and the rear wall 44 b of the tray body 44 are integrated, and an opening 4 c that communicates with the bottom portion of the mounting portion 25 is formed in the rear wall 4 b of the tray 4.
[0050]
As shown in FIGS. 6 and 7, a pair of guide ribs 41 spaced from each other in the air flow direction at a predetermined distance L from the blower side opening are formed on the front wall and the rear wall of the mounting portion 25. The humidifying filter body 11 is formed between the guide ribs 41 so as to be detachable from above. As described above, the predetermined distance L is secured on the blower side from the guide rib 41 so that a predetermined width is provided between the humidification filter body 11 of the humidification filter body mounting portion 25 and the opening 1e of the blower wall on the blower side. This is because the space 42 is formed and the air from the blower is uniformly supplied to the entire area of the humidifying filter 20.
[0051]
The left and right edges of the front wall and the rear wall of the humidifying filter body mounting portion 25 can be accommodated along the vertical rising wall 1f of the opening 1e of the apparatus body, and the left edge faces the rising wall 1f. The space 42 is formed in an almost airtight state.
[0052]
FIG. 10 is a schematic view showing a pump mounting state of the humidifying filter body mounting portion, FIG. 11 is a cross-sectional view thereof taken along BB, FIG. 12 is a view showing a pump positioning state, and FIG. It is sectional drawing which shows these arrangement | positioning relationships.
[0053]
A lower box-shaped recess 25a communicating with the receiving portion 4a of the tray 4 in the vicinity of the rear wall opening 4c of the tray body 44 is formed on the bottom surface of the mounting portion 25, and the water of the tray 4 is humidified in the recess 25a. The water supply function part 26 of the water supply pump 12 sent to the box 13 is mounted, and the water supply function part 26 is always located below the water surface. The water feed pump 12 constitutes a main part as a water feed means for sending water to the humidifying filter 20, and as shown in FIGS. 11 to 13, a magnet type motor is adopted, and a water feed function unit 26 for sending water, The motor part 27 is separated.
[0054]
In FIG. 13, the drive-side motor unit 27 is configured such that a drive magnet receiver 50 having a fixed hole formed in the center is press-fitted into the shaft 27 b of the motor 27 a, and the drive magnet 51 is bonded to the surface of the drive magnet receiver 50. Yes. A motor housing 52 is fixed between the drive magnet receiver 50 and the motor 27a. The motor housing 52 is fixed to the wall surface 25d of the recess 25. The wall surface 25d and the motor 27a are fixed by screws through the motor housing 52.
[0055]
On the other hand, the water supply function unit 26 includes a blade housing 53, an impeller 55 with a driven magnet 54, and a suction housing 56. The blade housing 53 is formed in a cylindrical shape with one side closed, and a discharge port 57 is formed on the outer periphery thereof. An impeller 55 is rotatably built in the axial center of the blade housing 53.
[0056]
The impeller 55 has four blades 58 arranged at equal intervals, and a driven magnet 54 is accommodated and fixed on the concave portion formed on the wall surface of the concave portion. Is formed.
[0057]
The suction housing 56 has a cylindrical shape that is locked to the open end side of the blade housing 53, and the blade housing 53 side has a mortar shape that follows the shape of the blade, and suction to the blade side is formed at the center. A mouth 61 is formed. In addition, a suction port 62 having a fine mesh shape is formed on the open side of the suction housing 56.
[0058]
In the above configuration, when the motor 27a is energized, the drive magnet 51 rotates with the rotation of the drive magnet receiver 3 fixed to the shaft. The impeller 55 rotates in synchronization with the rotation of the drive magnet 51 because the driven magnet 54 fixed thereto is in an attracted state with the drive magnet 51. As the impeller 55 rotates, water is sucked from the suction port 62 of the suction housing, is pressurized by the centrifugal force generated by the rotation of the impeller 55, and is discharged from the discharge port 57.
[0059]
It is preferable that the water supply function unit 26 has no gap with the motor unit 27 side as much as possible. Therefore, the structure which provides the means to press the water supply function part 26 to the motor part 27 side is preferable. As this pressing means, as shown in FIG. 11 and FIG. 12, the bottom surface of the recess 25a is fitted into a mounting hole 26a formed in the blade housing 53 of the water supply function part 26 to semi-fix the water supply function part 26. A boss 25b for positioning and an L-shaped standing wall 25c for pressing the outer periphery of the blade housing are formed, and a plurality of ribs 25d for pressing the suction housing 56 side to the motor part 27 side are formed. In order to make it easy to fit the water supply function part 26, its tip is formed in a taper shape.
[0060]
In the above configuration, when the mounting hole 26a of the water supply function part 26 is inserted into the boss 25b and attached to the bottom part of the recess at the bottom, the rib 25d is fixed in a form pushed out to the motor part 27 side. For this reason, since the distance between the water supply function unit 26 and the motor unit 27 can be kept constant at all times, the rotation of the motor unit 27 can be reliably transmitted to the water supply function unit 26, and water can be stably supplied. Can send. In addition, the said press means is not limited to the said structure, For example, you may use the spring member which urges | biases the water supply function part 26 to the motor part side.
[0061]
14 and 15, the humidifying filter body 11 includes a humidifying filter 20 and a frame body 24. As shown in FIG. 14, the frame body 24 has a rectangular parallelepiped box shape and can be inserted into a pair of guide ribs 41 formed inside the mounting portion 25 from above. The frame body 24 has left and right side surfaces that serve as air passages, and aggregates are formed vertically and horizontally on the downstream opening surface of the air flow to form a lattice 46, and the humidifying filter 20 is inserted from the upstream opening surface. It can be done. As shown in FIG. 15B, a hole 47 is formed in the bottom surface of the frame body 24 to return water that could not be sucked by the humidifying filter 20 to the recess 25 a of the mounting portion 25.
[0062]
In the upper part of the frame body 24, a box housing portion 48 having an open left side which is the upstream side of the air is formed above the mounting position of the humidifying filter 20. A humidification box 13 as watering means for watering is detachably mounted.
[0063]
Further, as shown in FIGS. 18 and 19, on the side wall before and after forming the box accommodating portion 48 of the frame body 24, as a locking means for locking the humidifying box 13, the rear side wall in the vicinity of the upstream opening. An elongated hole 24a is formed in the air flow direction, and a square hole 24b is formed in the front side wall. As will be described later, the square hole 24b is formed for locking the humidifying box side rib 33d as the locking means and for penetrating the box side connection joint 34.
[0064]
At the front and rear edges of the upstream opening of the frame body 24, flanges 49 are formed in the vertical direction, and on the front and rear walls of the frame body 24 at three locations on the top and bottom thereof from the flange side toward the downstream side in the air flow direction. A plate member 24c (see FIG. 14) is integrally formed horizontally. The width from the flange 49 to the right end of the plate member 24c is set to the distance between the guide ribs 41 of the mounting portion 25, and plays a role of positioning when the humidifying filter body 11 is inserted into the mounting portion 25.
[0065]
Further, a hole for locking a water supply pipe 31 (see FIG. 14) constituting a part of the water supply means is formed in the plate member 24c on the front side of the frame body 24, and the water supply pipe 31 is fixed to this hole, The humidifying filter body 11 can be detached from the mounting portion 25 and the apparatus main body 1 together with the humidifying filter body 11. As shown in FIG. 16, the water supply pipe 31 includes a box side connection joint 34, a straight pipe portion 35, and a pump side connection joint 36.
[0066]
The box-side connection joint 34 is formed in an L-shaped tube, and one of the box-side connection joints 34 is disposed so as to face the inside of the frame body from a square hole 24b (see FIGS. 14 and 18) formed in the frame body 24 of the humidifying filter body 11. Then, it can be connected in a watertight manner to the supply hole 33 b on the humidifying box 13 side, and the other is connected and fixed to the outside of the straight pipe portion 35.
[0067]
The pump side connection joint 36 has a straight tubular shape, one of which is connected and fixed to the outside of the straight pipe portion 35, and the other is water-tight at a discharge port 57 (see FIGS. 10 and 16) whose section of the pump 12 is frustoconical. It is possible to connect in the shape. The contact surface of the pump 12 with the discharge port 57 has a conical concave shape on the inside, improving the sealing performance with the discharge port 57 of the pump 12. Both connection joints 34 and 36 are preferably made of a rubber-like elastic body in order to improve the sealing performance, but are not limited thereto.
[0068]
In FIG. 17, the humidification box 13 is for uniformly spraying the water sent from the pump 12 from above the humidification filter 20, and the lid 32 and the box body 33 are divided vertically. It has become. The upper lid 32 serves to close the upper surface opening of the box-shaped box body 33, and the lower box body 33 serves to drop water substantially uniformly onto the humidifying filter 20.
[0069]
That is, the box main body 33 is formed in a box-shaped rectangular parallelepiped shape having an open upper surface, and a plurality of (two) water spray holes 19 are arranged on the bottom surface in the air flow direction (left and right direction). A plurality of water spray holes 19 are formed in the width direction (front-rear direction) of 20 and the water sprinkling holes 19 in the width direction are separated from each other by a partition wall 33a, so that the supplied water is distributed substantially uniformly.
[0070]
Further, a supply hole 33b is formed in the front side wall of the box body 33 at the upstream position in the air flow direction so as to be connectable to the connection joint 34 of the water pipe 31 in a watertight state. The supply hole 33 b is formed at an upstream position shifted from the water spray hole 19 in the air flow direction, and fulfills a part of a distribution function for uniformly distributing water to the water spray hole 19.
[0071]
As shown in FIG. 18, a small locking rib 33 c having a substantially triangular shape and a large locking rib 33 d are formed on the outside of the box body 33 as a locking means with the frame body 24. The holes 24a and 24b are detachably locked. When the humidification box 13 is housed in the frame body 24, the ribs 33c and 33d are locked in the holes 24a and 24b of the frame body 24, and the upstream side surface thereof is substantially flush with the upstream open surface of the frame body 24. It is set to be. By adopting the locking means, the humidification box 13 can be accommodated in the frame body 24 with the outside as the same surface without using screws.
[0072]
Further, the box body 33 is formed with a recessed portion 33e which is lowered by one step outside the bottom surface portion, and a water filter 33f composed of a nonwoven fabric or the like for removing dust is thermocompression bonded to the recessed portion.
[0073]
As shown in FIG. 15, the humidifying filter 20 accommodated in the frame 24 is made of a non-woven fabric having water absorption, and the cross-sectional shape is continuously folded in a W shape to form a rectangular parallelepiped. In the middle of the longitudinal direction, the bent portions are welded at a plurality of locations with a width of around 2 mm to strengthen the waist so that the distance between the bent portions is as uniform as possible. The humidifying filters 20 are arranged in two rows in the air flow direction and are detachably accommodated in the frame body 24. Further, the positions of the bent portions of the two rows of the humidifying filters 20 are accommodated in the frame body 24 in a positional relationship shifted from each other by a half pitch so as to increase the resistance of air passing therethrough so as to improve the evaporation amount. I have to.
[0074]
As shown in FIG. 15, the positional relationship between the humidifying filter 20 and the watering holes 19 of the humidifying box 13 is such that the watering holes 19 formed at intervals of two in the air flow direction have two rows of the humidifying filters 20. The water sprinkling holes 19 are formed on the air blowing side of the humidifying filter 20 as a whole so as to be positioned substantially in the middle. Accordingly, the water spray can be sprinkled substantially uniformly on the upper part of the humidifying filter 20, and in the humidifying filter 20 located at least downstream due to the air from the blower 15, the water flows obliquely through the inside. Thus, the entire humidification filter 20 is used, and the evaporation amount of water can be improved.
[0075]
As shown in FIG. 5, the ion generator 14 is disposed in the ion generation path 43 formed in the apparatus main body 1. This ion generator 14 has a known structure in which positive ions and negative ions are generated by applying an alternating high voltage between a surface electrode and an internal electrode, and is disposed in an ion generation path. Yes. The ion generator may be an apparatus that generates only one of positive ions and negative ions.
[0076]
In the above configuration, when the humidifying filter body 11 is mounted on the humidifying filter body mounting portion 25 and mounted on the main body 1, a constant space portion 42 is formed at the humidifying filter body 11 and the outlet of the blower 15. Therefore, the air from the blower 15 is the passage resistance of the humidifying filter 20, and the air spreads over the entire space and passes through the humidifying filter 20. At this time, part of the air in the space portion 42 flows into the ion generation path 43 through the opening above the space portion, and includes positive ions and negative ions generated from the ion generation element of the ion generation device 13, and the ion outlet. 7 will be released. Therefore, comfortable air can be obtained by removing floating bacteria in the air.
[0077]
Next, the operation of the humidifier will be described. First, the water tank 2 is set on the tray 4. Then, when the operation switch 81 of the operation unit 8 shown in FIG. 20 is set to “ON” and the humidification switch 82 is pressed to select the automatic operation mode, the humidification automatic operation starts. When the humidifying switch 82 is pushed forward, “60” → “50” → “40” → “Nodorioi” → “Good night” → “Continuous” → “60” humidifying operation mode is selected and the selected humidifying operation is selected. Humidified operation in mode.
[0078]
When the humidification switch 82 is turned on, the humidification operation is performed, and the ion generator 14 is automatically operated together. Further, when the heating body 16 is energized at the start of the humidification operation and before the pump 12 starts to be driven, the air sucked by the blower 15 is heated, and the air whose temperature has been increased is sent to the humidification filter 20 to stop the operation. The moisture in the humidifying filter 20 having a slight moisture content is evaporated to a dry state. Therefore, bacteria that have propagated on the humidifying filter 20 during operation stop can be removed, and the generation of odor in the initial operation can be prevented.
[0079]
In this way, when the ion generator 14 is operated in combination with the humidification operation, the humidity in the air increases, the viability of the virus virus in the cold decreases, and the ion generator 14 alternates between positive ions and negative ions. It is possible to remove airborne bacteria in the air and to generate comfortable air.
[0080]
【The invention's effect】
    As is clear from the above description, according to the present invention,Since the humidifying filter body and the water supply pipe can be integrally removed from the humidifying filter body, the air blowing means, the water supply means, and the watering means constituting the humidifying device, cleaning maintenance can be easily performed.
[Brief description of the drawings]
FIG. 1 is a perspective view of a main body tank side showing an embodiment of a humidifier according to the present invention.
FIG. 2 is a perspective view of the opposite side of the main body tank of FIG.
FIG. 3 is an exploded perspective view of the main body of FIG.
4 is a schematic configuration diagram of FIG. 1; FIG.
FIG. 5 is a cross-sectional view taken along the line AA of FIG.
FIG. 6 is a perspective view of the water receiving tray as seen from the tank side.
FIG. 7 is a perspective view of the water receiving tray as seen from the back side.
FIG. 8 is a perspective view of an essential part of a valve receiving part of a water receiving tray.
9A is a structural diagram showing a valve mechanism of a water tank, and FIG. 9B is a plan view of an opening thereof.
FIG. 10 is a schematic view showing a pump mounting state of the humidifying filter body mounting portion.
11 is a sectional view taken along line BB in FIG.
12 is a cross-sectional view showing a pump positioning state of FIG.
FIG. 13 is a cross-sectional view showing the positional relationship between the pump portion and the motor portion of the water pump.
FIG. 14 is a schematic perspective view of the humidifying filter body as viewed from the air blowing downstream side.
15A is a plan view showing the positional relationship between the watering holes and the humidifying filter, and FIG. 15B is a longitudinal sectional view of the humidifying filter body.
FIG. 16 is a schematic cross-sectional view showing a connection portion of a water pipe.
FIG. 17 is an exploded perspective view of a humidification box.
FIG. 18 is an exploded perspective view showing a state in which the frame of the humidifying filter body and the humidifying box are locked.
FIG. 19 is a detailed view of the mounting state of the humidification box of FIG.
20 is a schematic diagram of the operation unit in FIG. 1;
[Explanation of symbols]
1 Airframe
2 Water tank
3 Tank cover
4 trays
5 Main unit handle
6 outlets
7 Ion outlet
8 Operation part
9 Air filter
11 Humidification filter body
12 Pump (water supply means)
13 Humidification box (watering means)
14 Ion generator
15 Blower
16 Heating body (ceramic heater)
17 Suction port

Claims (2)

In a humidifying device comprising a humidifying filter for vaporizing water, and a blowing means for sending air passing through the humidifying filter,
A humidifying filter body formed by the humidifying filter is accommodated removably to the frame, a water supply means for sending the water to the humidifying filter, a watering means for sprinkling the humidifying filter water from said transmission water unit, detachable from the apparatus main body And a water receiving tray for temporarily storing water below the humidifying filter body,
The water receiving tray is composed of a tray body and a filter mounting portion that is integrated with the tray body and detachably mounts the humidifying filter body.
The water supply means includes a water supply pump provided in the water receiving tray, and a water supply pipe attached to the humidifying filter body so as to send water sent from the water supply pump to the watering means. A pump-side connection joint made of a rubber-like elastic body that can be connected in a watertight state to the discharge port of the water pump, and when the humidifying filter body is mounted on the filter body mounting portion, the water supply pump is discharged to the discharge port of the water pump. A humidifier characterized in that a pump side connection joint of a water pipe is detachably connected . The watering means is composed of a humidifying box having a plurality of watering holes formed in the air flow direction on the bottom surface, and the humidifying box drops the water sent from the water supply pipe onto the humidifying filter substantially uniformly. An open box body and a lid that closes the upper surface opening of the box body are divided into upper and lower parts, and the humidifying box is removed from a box housing part formed on the humidifying filter body above the humidifying filter. The humidifying device according to claim 1, wherein a box-side connection joint made of a rubber-like elastic body that is freely accommodated and can be connected to the humidifying box in a watertight state is provided in the water supply pipe .

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