JP7100787B2 - Humidifying element and humidifier device using the humidifying element - Google Patents

Description

The present invention relates to a humidifying element and a humidifier device using the humidifying element, and more specifically, it has an excellent humidifying ability by increasing the effective area of the water absorbing film, is easy to maintain, and is easy to maintain for a long period of time. The present invention relates to a humidifying element that can be used stably, can reduce the number of parts, and can reduce the manufacturing cost, and a humidifier device using the humidifying element.

Conventionally, a vaporization type humidifier device has been used. The vaporization type humidifier device humidifies the humidifying water by vaporizing it into steam. A humidifying mechanism such as a drip osmotic vaporization type or a moisture permeable membrane type is used in the vaporization type humidifier device.

A humidifying element provided with a moisture permeable membrane using a porous sheet made of a hydrophobic polymer material is used in the moisture permeable membrane type humidifier device (see, for example, Patent Document 1 and Patent Document 2). .. This humidifying element is configured to form a tubular membrane with a sheet of hydrophobic polymeric porous membrane that blocks the passage of water but allows the passage of water vapor. Humidifying water is supplied to the inside of the tubular membrane from the water injection port provided in the humidifying element, air is sent to the opening of the mounting frame, and the humidifying water inside the tubular membrane is passed through the hydrophobic polymer porous membrane. Humidification is performed by being released to the outside as water vapor.

In Patent Document 1, a waterproof / breathable sheet is fixed to the front surface (front surface, more accurately, the back surface, that is, the back surface) of a frame having a hollowed-out thin plate so as to cover the hollowed-out portion. At the same time, a gas-liquid separation element material in which a plurality of ribs are arranged so as to mount a pair of opposite sides of the frame on the surface of the waterproof / breathable sheet on the side where the frame is provided is provided. The two sheets are integrated by superimposing the back surfaces together and adhering or fusing except for the hollowed out part, and the liquid flow path (enclosed by the frame) surrounded by the frame and the waterproof / breathable sheet. It means that the space surrounded by the waterproof / breathable sheet is a liquid flow path. That is, the liquid flow path is surrounded by the waterproof / breathable sheet). Is formed, and a part of the frame body communicates with the liquid flow path and has one or more supply / drainage ports for feeding or draining the liquid. Liquid separation elements (ie, humidifying elements) are disclosed.

In Patent Document 2, a waterproof / moisture-permeable film is fixed to both main surfaces of a frame having a hollowed-out thin plate, and the humidifying plate supplies water from one end thereof to a humidifying portion between the waterproof / moisture-permeable films in the frame. The thickness of the frame is thicker than the part that defines the humidifying part in the part that defines the water supply part, and the humidifying plates are laminated so that the water supply parts overlap each other to form a common water supply part for each humidifying part. A humidifying plate (that is, a humidifying element) configured so that a space is formed between the humidifying plates based on the difference in thickness between the water supply portion and the frame of the humidifying portion is disclosed.

However, since the humidifying element of Patent Document 1 is provided with ribs on the outside of the waterproof / moisture permeable membrane (that is, the outside of the liquid flow path), the swelling of the waterproof / moisture permeable membrane causes strong contact with the ribs, and the waterproof / moisture permeable film is swelled. There is a problem that the membrane may be damaged and it is difficult to use the humidifying element for a long period of time.
Further, since the humidifying element of Patent Document 1 is formed by stacking two frames, the number of parts of the humidifying element is increased, the manufacturing of the humidifying element is complicated, and the manufacturing is costly. There was also a problem.
In addition, since the humidifying element of Patent Document 1 is formed by stacking two frames, the thickness of the humidifying element is increased, the number of humidifying elements that can be provided per unit volume is reduced, and the transparency is increased. Since it becomes difficult to increase the surface area of the wet film, there is also a problem that the humidifying capacity of the humidifier as a whole is lowered.

Since the humidifying element of Patent Document 2 has an opening structure in the water supply part of the humidifying plate, it is not possible to perform a pressurized leak inspection with the humidifying plate alone, and it is decided to perform a pressurized leak inspection at the stage of assembling the humidifier. Therefore, there is a problem that the entire humidifier becomes unusable if even one humidifying plate causes water leakage.
Further, in the humidifying element of Patent Document 2, since the water supply unit is provided only on the upper part of the humidifying element, it is difficult to completely drain the humidifying water supplied to the humidifying plate, and the humidifying remaining on the humidifying plate is difficult to completely drain. There was also a problem that mold and the like were likely to occur in the water supply.
In addition, there is also a problem that it is difficult to use the humidifying plate stably for a long period of time, for example, components contained in the humidifying water are deposited on the lower portion of the humidifying plate, causing clogging.

Patent No. 4077187 Patent No. 3675529

The present invention has been made to solve the problems of the prior art as described above, has an excellent humidifying ability by increasing the effective area of the water absorbing film, is easy to maintain, and has a long period of time. Provided are a humidifying element that can be stably used over a period of time, can reduce the number of parts, and can reduce the manufacturing cost, a humidifying unit using the humidifying element, and a humidifying machine device using the humidifying unit. The purpose is.
In the present invention, there is a requirement that the two frames described in Patent Document 1 are overlapped to form a liquid flow path, and the thickness of the frame described in Patent Document 2 is humidified in a portion defining a water supply portion. One of the features is to eliminate the requirement that the part be thicker than the part that defines the part.

The invention according to claim 1 is a humidifying element including a frame body, two water absorbing membranes, and a water passage port.
The frame has a shape in which a thin plate is hollowed out.
The frame comprises a plurality of comb blades extending from one side of a pair of opposite sides of the frame toward the other and from the other side toward one side.
The two water-absorbing films are fixed to both sides of the frame so as to cover the hollow portion of the frame.
A liquid flow path is formed in the hollow portion of the frame body covered with the two water-absorbing films.
The present invention relates to a humidifying element, wherein the water passage port is provided on the upper side and the lower side of the frame body and communicates with the liquid flow path.

The invention according to claim 2 relates to the humidifying element according to claim 1, wherein the plurality of comb blades extend alternately from both sides of the pair of opposite sides.

According to the third aspect of the present invention, the protruding lengths of the plurality of comb blades extending alternately from both sides of the pair of opposite sides are 50% or more of the length in the width direction of the frame. The humidifying element according to claim 2, which is characteristic.

The invention according to claim 4 relates to the humidifying element according to any one of claims 1 to 3, wherein the water absorbing film is paper, non-woven fabric, or cloth.

The invention according to claim 5 is characterized in that head portions are provided on an upper portion of one surface of the frame body and a lower portion of the other surface of the frame body, respectively. The humidifying element according to any one item.

The invention according to claim 6 comprises the humidifying element according to any one of claims 1 to 5.
A humidifying unit including a housing in which a plurality of the humidifying elements are stored.
In the housing, the plurality of humidifying elements are connected in series and / or in parallel at intervals so as to form a ventilation path.
A lower water passage is provided below the plurality of humidifying elements.
An upper water passage is provided above the plurality of humidifying elements.
The housing is provided with a water supply / drainage port for communicating the outside of the housing with the lower water passage.
The present invention relates to a humidifying unit, characterized in that the housing is provided with an intake / exhaust port for communicating the outside of the housing with an upper water passage.

The invention according to claim 7 is a humidifier device including the humidifying unit according to claim 6, a water supply tank, a drainage tank, and an intake / exhaust pipe.
The humidifying unit, the water supply tank, and the drainage tank are communicated with each other at the lower part of the humidification unit via a water supply / drainage pipe provided with a means for enabling water supply operation and drainage operation.
The intake / exhaust pipe is connected to the upper part of the humidification unit.
The present invention relates to a humidifier device, characterized in that a fan for ventilating the ventilation passage of the humidifying unit is provided.

The invention according to claim 8 is a circulation type humidifier device including the humidifying unit according to claim 6, a water supply tank, a water supply pump, and an intake pipe.
The water supply tank is provided below the humidification unit.
The humidification unit and the water supply tank are communicated with each other at the lower part of the humidification unit via a water supply pipe provided with the water supply pump and a drain valve that enable water supply operation.
The humidifying unit and the water supply tank are communicated with each other at the upper part of the humidifying unit via a drain pipe provided with the intake valve.
The present invention relates to a humidifier device, characterized in that a fan for ventilating the ventilation passage of the humidifying unit is provided.

The invention according to claim 9 relates to the humidifier device according to claim 7, wherein a washing or sterilizing tank containing a washing liquid or a sterilizing liquid is provided in an upper portion of the water supply / drainage pipe.

The humidifier device according to claim 7, wherein the intake / exhaust pipe is provided with a cleaning and / or sterilization tank containing a cleaning liquid and / or a sterilizing liquid. Regarding.

According to the invention according to claim 1, it is a humidifying element including a frame body, two water absorbing films, and a water passage port, and the frame body has a shape in which a thin plate is hollowed out, and the frame body is a shape. The two water absorbing films are provided with a plurality of comb blades extending from one side of the pair of opposite sides of the frame toward the other side and from the other side toward one side. It is fixed to both sides of the frame body so as to cover the hollow portion of the frame body, and a liquid flow path is formed in the hollow portion of the frame body covered with the two water absorbing films, and the water passage port is formed. Since it is provided on the upper side and the lower side of the frame and communicates with the liquid flow path, the humidifying element can be formed by one frame and the thickness of the humidifying element can be reduced. .. Therefore, the effective film area per unit volume can be increased, and the humidifying capacity can be enhanced.
In addition, since the number of parts of the humidifying element can be reduced, the manufacturing cost can be reduced and the manufacturing time is not required.
Furthermore, since the water absorption films are fixed on both sides of the frame, the head pressure due to the humidifying water in the humidifying element works in the direction of peeling off the water absorption films on both sides of the frame and balances, and the humidifying element swells due to the deformation of the frame. Can be prevented.

According to the second aspect of the present invention, since the plurality of comb blades extend alternately from both sides of the pair of opposite sides, the distance (area of the flow path) of the liquid flow path of the humidifying element is increased. It is possible to improve the water absorption efficiency of the water flowing through the liquid flow path.
Further, by providing the comb blades so as to extend alternately from both sides of the pair of opposite sides, it is possible to more easily supply the water supplied from the water passage provided at the lower part of the humidifying element to the upper part of the humidifying element. can.
In addition, by providing the comb blades so as to extend alternately from both sides of the pair of opposite sides, the water absorption film can be more easily fixed to the frame while ensuring the liquid flow path, and the shape of the water absorption film. Can be held more easily.
Further, by flowing the humidifying water into the liquid flow path while meandering, the humidifying water can flow uniformly in the liquid flow path, and it is possible to prevent bubbles from accumulating in the liquid flow path.

According to the third aspect of the present invention, the protruding lengths of the plurality of comb blades extending alternately from both sides of the pair of opposite sides are 50% or more of the length in the width direction of the frame body. Therefore, the water absorbing film can be more easily fixed to the frame while securing the zigzag-shaped liquid flow path, and the effect according to claim 2 can be more easily obtained.

According to the invention of claim 4, since the water-absorbing membrane is paper, non-woven fabric, or cloth, the humidifying capacity can be improved by increasing the water-containing capacity per unit volume due to the capillary phenomenon.

According to the invention of claim 5, since the head portion is provided on the upper portion of one surface of the frame body and the lower portion of the other surface of the frame body, the water absorption film is further formed by the head portion. It can be easily fixed.
In addition, when the head portion protrudes from the frame body in the direction of the water absorption film, when a plurality of humidifying elements are connected to each other, the head portion contacts the frame body of the adjacent humidifying element and between the water absorbing films of the humidifying element. It is possible to form a space for air to pass through.

According to the invention of claim 6, it is a humidifying unit including the humidifying element according to any one of claims 1 to 5 and a housing in which a plurality of the humidifying elements are stored, and the housing. In the body, the plurality of humidifying elements are connected in series and / or in parallel at intervals so as to form a ventilation path, and a lower water passage is provided below the plurality of humidifying elements. An upper water passage is provided above the plurality of humidifying elements, the housing is provided with a water supply / drainage port for communicating the outside of the housing with the lower water passage, and the housing is provided with the housing. Since there is an intake / exhaust port that connects the outside of the body and the upper water passage, the humidifying water flows to the lower water passage by flowing the humidifying water from the water supply / drain port to the lower part of the humidifying unit, and the humidifying water is the humidifying element. It rises up the liquid flow path inside the unit and flows into the upper water passage, and the inside of the humidifying unit can be easily filled with humidifying water.
In addition, since the humidifying element according to any one of claims 1 to 5 is used, it is possible to provide a humidifying unit having an excellent humidifying ability.
Further, since the humidifying element is composed of one frame, the size of the humidifier device can be made smaller than the conventional one when the humidifier device has a desired humidifying capacity.

According to the invention of claim 7, the humidifier device including the humidifying unit, the water supply tank, the drainage tank, and the intake / exhaust pipe according to claim 6, wherein the humidifying unit, the water supply tank, and the like. The drain tank and the drain tank are communicated with each other at the lower part of the humidification unit via a water supply / drain pipe provided with a means for enabling the water supply operation and the drainage operation, and the intake / exhaust pipe is connected to the upper part of the humidification unit. Since a fan for ventilating the ventilation passage of the humidifying unit is provided, the effective film area per unit volume can be increased, and the humidifying capacity of the humidifier device can be enhanced.
Further, since the water supply tank communicates with the lower part of the humidifying unit via a water supply / drainage pipe provided with a means for enabling water supply operation and drainage operation and an intake / discharge unit, water supply / drainage to the humidification element can be easily and smoothly performed. be able to.
In addition, since the intake / exhaust pipe is connected to the upper part of the humidification unit, air can be removed from the intake / exhaust pipe when the humidifying water is supplied, and air can be taken in from the intake / exhaust pipe when the humidifying water is drained. Humidifying water can be easily and quickly supplied to the humidifying unit and drained from the humidifying unit.

According to the invention of claim 8, the humidifying unit according to claim 6, a water supply tank, a water supply pump, and a circulation type humidifier device including an intake pipe, wherein the water supply tank is the humidification unit. The humidification unit and the water supply tank, which are provided below the unit, are communicated with each other at the lower part of the humidification unit via a water supply pipe provided with the water supply pump and a drain valve to enable water supply operation, and the humidification is performed. The unit and the water supply tank are communicated with each other at the upper part of the humidifying unit via a drain pipe provided with the intake valve, and a fan for ventilating the ventilation passage of the humidifying unit is provided, so that the unit volume is increased. The effective film area around the area can be increased, and the humidifying capacity of the circulation type humidifier device can be increased.
Since the water supply tank is communicated with the lower part of the humidifying unit via a water supply pipe provided with a means for enabling the water supply operation, water can be easily and smoothly supplied to the humidifying element.
Further, since the water supply pipe is provided with a drain valve, the humidifying element can be drained easily and smoothly.
In addition, a drainage pipe is connected to the upper part of the humidification unit, and since this drainage pipe is also connected to the water supply tank, the humidification water drained from the humidification unit can be repeatedly used as the humidification water.
Further, since the intake valve is connected to the drain pipe, air can be introduced from the intake valve when the humidifying water is drained, and the humidifying water can be easily and quickly drained from the humidifying unit.

According to the invention of claim 9, since the cleaning or sterilizing tank containing the cleaning liquid or the sterilizing liquid is provided in the upper part of the water supply / drainage pipe, the cleaning liquid or the sterilizing liquid can be easily supplied through the water supply / drainage pipe. It can be delivered to the humidifying unit, and the humidifier device can be easily cleaned or sterilized without the need for complicated work such as attaching a tank to the humidifier device separately.

According to the invention of claim 10, since the intake / exhaust pipe is provided with a cleaning and / or sterilization tank containing a cleaning liquid and / or a sterilizing liquid, the cleaning liquid and / or sterilizing liquid is removed via the intake / exhaust pipe. The bacterial solution can be easily delivered to the humidifying unit, and the humidifier device can be easily cleaned and / or sterilized without the need for complicated work such as separately attaching a tank to the humidifier device.

It is a schematic perspective view which shows the frame body of the humidifying element of this invention. It is a schematic perspective view which shows the structure of the humidifying element of this invention. It is a figure which shows the humidifying element of this invention, (a) is a schematic perspective view of a humidifying element, (b) is a schematic side view of a humidifying element. It is a figure which shows the humidification unit using the humidification element of this invention, (a) is the schematic perspective view of the humidification unit, (b) is the schematic perspective view which shows the structure of the humidification unit. It is explanatory drawing of the humidification unit of this invention. It is explanatory drawing of the humidifier apparatus using the humidifying unit of this invention, (a) is the explanatory diagram which shows the structure of a humidifier apparatus, (b) is the explanatory diagram which shows the ventilation system of a humidifier apparatus. It is explanatory drawing which shows the flow of the humidifying water in the humidifying element in the humidifying unit of this invention, (a) is the schematic perspective view which shows the flow of the humidifying water in the liquid flow path of a humidifying element, (b) is the lower part of a humidifying element. FIG. 3C is a schematic perspective view showing the flow of humidifying water in the above, and (c) is a schematic perspective view showing the flow of humidifying water in the upper part of the humidifying element. It is explanatory drawing which shows the flow of water in the humidification unit upper water passage of this invention. It is explanatory drawing which shows an example of water supply and drainage to a humidification unit in a humidifier apparatus of this invention. It is explanatory drawing which shows the operation of cleaning or sterilizing a humidifier device by flowing a cleaning solution or a sterilizing solution from a water supply / drainage pipe of the humidifier device of the present invention. It is explanatory drawing which shows the operation of cleaning and / or sterilizing the humidifier device by flowing the cleaning liquid and / or the sterilizing liquid from the intake / exhaust pipe of the humidifier device of this invention. It is explanatory drawing which shows the circulation type humidifier apparatus of this invention.

Hereinafter, preferred embodiments of the humidifying element according to the present invention will be described with reference to the accompanying drawings.
1 is a schematic perspective view showing a frame of the humidifying element of the present invention, FIG. 2 is a schematic perspective view showing the configuration of the humidifying element of the present invention, and FIG. 3 is a diagram showing the humidifying element of the present invention. ) Is a schematic perspective view of the humidifying element, and (b) is a schematic flat side view of the humidifying element.

As shown in FIG. 2, the humidifying element (1) according to the present embodiment includes a frame body (2), two water absorbing membranes (3), and a water passage port (4).
As shown in FIG. 1, the frame body (2) has a shape in which a thin plate is hollowed out, and faces from one side (21) of a pair of opposite sides of the frame body (2) to the other side (22). And a plurality of comb blades (2B) extending from the other side (22) toward one side (21), respectively.
The shape of the frame body (2) has a hollow portion (25) and a comb blade (2B), and a liquid flow path (F) (see (a) in FIG. 3) is formed in the hollow portion (25). Any shape may be used as long as it can be formed, for example, a substantially square shape or an elliptical shape in front view, but a large moisture-permeable membrane area per volume of the humidifier device (6) can be obtained. It is desirable that the front view is substantially rectangular.

The dimensions of the frame (2) can be appropriately set according to the size of the humidifier device (6) using the humidifying element (1) according to the present invention.
For example, the thickness of the frame (2) is about 0.5 to 10 mm, the length (L) in the longitudinal direction is about 20 to 500 mm, and the length (W) in the width direction is about 20 to 500 mm. The thinner the frame (2), the larger the water absorption sheet area per volume of the humidifier device and the higher the humidification efficiency. However, if it is thinner than 0.5 mm, the pressure loss becomes too high and the humidifying element There is a risk that the element will be deformed due to insufficient strength and water pressure.
The shape of the frame (2) (that is, the humidifying element (1)) is not particularly limited, and any shape such as a circle, an oval, an ellipse, a triangle, a square, a rectangular shape, or a combination of one or more of these is used. It may be.

The material of the frame (2) is not particularly limited, but for example, aliphatic polyolefins such as ABS, polyethylene, polypropylene, polymethylpentene, and crystalline polystyrene, polyethylene terephthalate, polyethylene naphthalate, polybutylene terephthalate, and polytrimethylene terephthalate. Plastics such as polycarbonate, nylon 66, nylon 6, POM, PPS, polyvinyl chloride, acrylic and polycarbonate, and metal alloy materials such as aluminum, stainless steel and titanium can be used, and are usually used as a humidifying element. Anything that is self-explanatory to the vendor can be used.

The comb blade (2B) is from one side (21) of the pair of opposite sides of the frame body (2) toward the other side (22), and from the other side (22) to one side (21). It is provided so as to extend toward each other.
The comb blade (2B) may be provided integrally with the frame body (2), or may be provided as a separate body. When provided as a separate body, methods such as adhesion, heat fusion, and welding can be used.

As shown in FIG. 1, the comb blades (2B) are provided so as to extend alternately from both sides of the pair of opposite sides. By providing the frame body (2) with comb blades (2B) so as to extend alternately from both sides of the pair of opposite sides, the adhesive area of the water absorbing film (3) to the frame body (2) and the comb blade (2B). By this, the water absorbing film (3) can be easily and firmly adhered (or welded) to the frame body (2), and the water absorbing film (3) can be attached to the outside of the frame body (2). Since the stress in the peeling direction can be dispersed, the humidifying element (1) can be used stably for a long period of time.
Further, the distance of the liquid flow path (F) (see (a) of FIG. 3) of the humidifying element (1) can be increased, and the water absorption efficiency of the water flowing through the liquid flow path (F) can be improved.
Further, the comb blades (2B) are provided so as to extend alternately from both sides (21, 22) of the pair of opposite sides, so that the comb blades (2B) are supplied from the water passage port (4) provided at the lower part of the humidifying element (1). The humidifying water can be more easily supplied (sucked up) to the upper part of the humidifying element (1).
The comb blade (2B) and the water absorbing film (3) may be adhered directly or via another member by adhesion or heat fusion. By adhering or heat-sealing the comb blade (2B) and the water-absorbing film (3), it is possible to prevent the water-absorbing film (3) from swelling too much due to the humidifying water flowing through the liquid flow path (F) of the humidifying element (1). be able to. This eliminates the need for a stopper or the like to prevent the humidifying element from swelling, and since a large air flow path can be secured, a decrease in the amount of air passing through can be minimized, and the cost of the stopper or the like can be suppressed. can.

The protruding length of the plurality of comb blades (2B) extending alternately from both sides (21, 22) of the pair of opposite sides is 50% or more of the length (W) in the width direction of the frame body (2). Is desirable. Adhesion of the water absorbing film (3) to the frame (2) and the comb blade (2B) by setting the length of the comb blade (2B) to 50% or more of the length (W) in the width direction of the frame (2). Since the area can be increased and the stress in the direction of peeling the water absorbing film (3) out of the frame (2) can be dispersed, the humidifying element (1) can be used stably for a long period of time. can do.
Further, it is most desirable that the protruding length of the comb blade (2B) is such that the width of the liquid flow path (F) formed by the comb blade (2B) becomes constant. By making the width of the liquid flow path (F) constant, the humidifying water can be more easily and stably supplied to the humidifying unit (5).
The protrusion length of the plurality of comb blades (2B) extending alternately from both sides of the pair of opposite sides is less than 50% of the length (W) in the width direction of the frame body (2) (that is, the plurality of extending lengths alternately). If the length is such that the tips of the comb blades (2B) do not overlap each other), the above effect cannot be obtained, which is not preferable.
It is possible to more easily increase the water absorption efficiency of the humidifying water flowing through the liquid flow path (F), and it is easier to humidify the water supplied from the water passage port (4) provided at the bottom of the humidifying element (1). It can be supplied up to the upper part of (1).

It is desirable that the comb blade (2B) has a shape that tapers from both sides (21, 22) of the pair of opposite sides of the frame body (2) to the protruding end of the comb blade (2B). Due to this shape, the humidifying water existing above the comb blade (2B) tends to flow to the protruding end side of the comb blade (2B) due to the inclination of the surface of the comb blade (2B), so that water is less likely to remain during drainage.

It is desirable that the number of comb blades (2B) is 10 to 20 on one side (21) and the other side (22), respectively. By setting the number of comb blades (2B) to 10 to 20, the distance of the liquid flow path (F) of the humidifying element (1) is lengthened without significantly reducing the effective area of the film of the humidifying element (1). It is possible to increase the water absorption efficiency of the water flowing through the liquid flow path (F), and the water supplied from the water passage port (4) provided at the lower part of the humidifying element (1) can be more easily humidified by the humidifying element (1). It can be supplied up to the upper part of 1).
In addition, the adhesive area of the water-absorbent film (3) to the frame body (2) and the comb blade (2B) can be increased, and the stress in the direction of peeling the water-absorbent film (3) out of the frame body (2). Can be dispersed, so that the humidifying element (1) can be used stably for a long period of time.
However, the number of comb blades (2B) is not limited to this, and the number of comb blades (2B) is appropriately selected according to the dimensions of the humidifying element, and any number can be used as long as it can produce the above effect. It may be provided.

The material of the comb blade (2B) is not particularly limited, but for example, aliphatic polyolefins such as ABS, polyethylene, polypropylene, polymethylpentene, and crystalline polystyrene, polyethylene terephthalate, polyethylene naphthalate, polybutylene terephthalate, polytrimethylene terephthalate, and the like. Plastics such as polycarbonate, nylon 66, nylon 6, POM, PPS, polyvinyl chloride, acrylic and polycarbonate, and metal alloy materials such as aluminum, stainless steel and titanium can be used, and are usually used as a humidifying element. Anything that is self-explanatory to the vendor can be used. The same material as the frame (2) may be used, or another material may be used.

The two water absorbing films (3) are fixed to both sides of the frame body (2) so as to cover the hollow portion (25) of the frame body (2).
The hollow portion (25) of the frame body (2) covered with the two water absorbing films (3) serves as the liquid flow path (F).
The method of fixing the water-absorbent film (3) to the frame body (2) is not particularly limited, and the method of fixing the water-absorbent film (3) by integral molding with the water-absorbent film (3) at the time of molding the frame body (2), a hot melt adhesive, or urethane. , Polypropylene, polyethylene, epoxy, silicone, solvent, acrylic and other adhesives to bond and fix to the frame, ultrasonic fusion, high frequency fusion, heat fusion, etc. Any method that is self-explanatory to the vendor can be used.

The water absorbing film (3) is preferably paper, non-woven fabric, cloth, or a combination thereof. By using paper, non-woven fabric, cloth, or a combination thereof for the water-absorbing membrane (3), the humidifying capacity can be improved by increasing the water-containing capacity per unit volume due to the capillary phenomenon.
The paper, non-woven fabric, or cloth used for the water-absorbent membrane (3) is not particularly limited, and can evaporate water from the surface of the water-absorbent membrane (3) while sucking and holding the humidifying water (that is, water-absorbent). Or any one having water retention) can be used.
Examples of the paper used for the water-absorbent film (3) include paper having water absorption or hydrophilicity, and more specifically, paper made of pulp and the like, but the present invention is not limited to this and is self-evident to those skilled in the art. Anything that can be used as a water-absorbing film can be used.
Examples of the non-woven fabric used for the water-absorbent film (3) include a non-woven fabric made of natural spun yarn such as cotton and linen, a non-woven fabric made of chemical fiber, and more specifically, acrylic fiber, polylactic acid, polyurethane, polyimide, fluororesin, and aramid fiber. , Glass fiber, cellulose fiber, nylon fiber, vinylon fiber, polyester fiber, polyethylene fiber, polypropylene fiber, polyolefin fiber, rayon fiber and the like, but the non-woven fabric is not limited to this and is obvious to those skilled in the art. , Anything that can be used as a water absorbing film can be used.
Examples of the cloth used for the water-absorbent membrane (3) include a cloth having water absorption or hydrophilicity, and more specifically, a cloth in which filament yarns containing a polyester monofilament or the like are knitted (preferably a three-dimensional structure). However, the present invention is not limited to this, and any material that is obvious to those skilled in the art and can be used as a water-absorbing membrane can be used.

As mentioned above, the water-absorbing membrane (3) is preferably paper, non-woven fabric, cloth, or a combination thereof, but has a waterproof / moisture-permeable function that does not allow liquids such as water to pass through and allows water vapor to permeate, for example. A moisture-permeable membrane such as a porous polymer material may be used. The moisture-permeable membrane is not limited to a specific one, and is hydrophobic, for example, polyethylene, polypropylene, polycarbonate, polytetrafluoroethylene, polytetrafluoroethylene / hexafluoropropylene copolymer, polyvinyl fluoride, polyvinylidene fluoride, etc. It is usually used as a waterproof / breathable membrane such as a porous porous membrane, and any membrane that is obvious to those skilled in the art can be used. Further, by combining a plurality of raw materials or adjusting the shape such as fiber length and thickness, it is possible to provide a function according to the purpose and application.

Further, the water absorbing film (3) may have a laminated structure. For example, a laminated one of a water absorbing film and a protective sheet can be used. The protective sheet can be in the form of a woven fabric, knitted fabric, non-woven fabric, net, foam sheet, porous film, etc., but woven fabric, knitted fabric, and non-woven fabric are preferably used because they have an excellent reinforcing effect, are flexible, and are inexpensive. Be done. Further, as the material, a resin material such as polyethylene, polypropylene, polyester, nylon, polyurethane, polyvinyl chloride, metal, glass or the like can be used.
When a protective sheet is used, its thickness is preferably about 5 μm to 5 mm, preferably about 10 μm to 1 mm. If the thickness is less than 5 μm, the protective function of the protective sheet becomes insufficient, and if it exceeds 5 mm, the thickness of the water absorbing film becomes thick and the humidifier becomes large.
The protective sheet may be laminated on one side or both sides of the water-absorbent film, but it is more efficient to humidify by laminating the protective sheet on one side and using the water-absorbent film toward the air side. preferable. This is because when the air side is a water absorbing membrane, the diffusion resistance on the air side is low, so that the water vapor that has passed through the moisture permeable membrane diffuses rapidly into the air.

As a method of laminating the protective sheet and the water-absorbing film, apply the adhesive with a roll having a gravure pattern on the water-absorbing film, put the protective sheet on it and press it with the roll, or spray the adhesive on the water-absorbing film. , A method in which a protective sheet is placed on top of it and crimped with a roll, a method in which a water-absorbing film and a protective sheet are overlapped and heat-sealed by a heat roll, etc. Anything can be used.
When an adhesive is used, an adhesive such as urethane, polypropylene, polyethylene, epoxy, or silicone can be used, but the adhesive is not limited to this, and for example, an instant system, a hot melt system, a two-component room temperature curing resin system, or a heat curing system can be used. Adhesives such as sex resin-based, elastomer-based, thermoplastic resin-based, elastic-based, and emulsion-based adhesives can also be used.
The adhesive area between the water absorbing film and the protective sheet is 3 to 95%, preferably 10 to 50%. If the adhesive area is less than 3%, the adhesive strength between the water absorbing film and the protective sheet becomes insufficient, and if it exceeds 95%, sufficient humidifying performance cannot be obtained.

When a moisture-permeable membrane is used as the water-absorbing membrane (3), the higher the moisture permeability, the more preferable, but usually 5000 to 150,000 g / m ² · day, preferably 10,000 to 100,000 g / m ² · day, and more preferably 20000. It is ~ 70,000 g / m ² · day. The method for measuring the moisture permeability is based on the JIS 1099-B1 method.

As shown in FIG. 1, the water passage port (4) is provided on the upper side (23) and the lower side (24) of the frame body (2), and the liquid flow path (F) (see (a) in FIG. 3). ).
As shown in FIG. 2, the head portion (4H) is fixed to the upper portion of one surface of the frame body (2) and the lower portion of the other surface of the frame body (2), respectively ((a) of FIG. 3). reference). Further, it is desirable that the head portion (4H) is thicker than the frame body (2).
In this way, by providing the head portion (4H) on the upper portion of one surface of the frame body (2) and the lower portion of the other surface of the frame body (2), the head portion (4H) becomes a spacer. When a plurality of humidifying elements (1) are arranged in a series direction, the distance between adjacent humidifying elements (1) can be determined, and a ventilation path (P) can be formed between the humidifying elements (1) (P). See FIG. 5).
Further, it is desirable that the head portion (4H) is provided as a separate body from the frame body (2). By making it a separate body, the distance between the elements (that is, the width of the ventilation path (P)) can be set to a desired distance by changing the thickness of the head portion (4H).
Further, by providing the head portion (4H), the frame body (2) (particularly, near the water passage port (4)) can be reinforced.

By providing the water passage port (4) at the lower part of the frame (2) and arranging the water supply tank (7) described later at a position higher than the humidifying element (1), the humidifying water can be supplied to the lower part of the humidifying element (1). When supplied, the humidifying water flows into the liquid flow path (F) from the water passage port (4) provided at the lower part of the humidification element (1) by the head pressure, and rises in the liquid flow path (F). (Ie, the supplied humidifying water reaches the top of the humidifying element (1)).
When the humidifying water is drained, the water passage port (4) is provided at the lower part of the frame body (2), so that the humidifying water can be easily provided at the lower part of the frame body (2) due to the weight of the humidifying water. It can be discharged from (4).

As described above, since the humidifying element (1) according to the present invention is composed of one frame (2), the thickness should be thinner than that of the conventional humidifying element composed of two frames. Can be done. Therefore, when the humidifying element (1) according to the present invention is used for the humidifying unit, when the humidifying unit has the same external dimensions or when the same number of elements is installed in the humidifying unit, the humidifying elements are used between the humidifying elements. The ventilation path can be formed wider than the conventional humidifying element composed of two frames.
Further, the humidifying element (1) according to the present invention does not have an outer rib structure (that is, a rib structure provided on the outside of the frame for fixing the water absorbing membrane from the outside of the frame), and humidifies. Since there are few protrusions in the thickness direction of the element (1), it is possible to form a wider ventilation path than the conventional humidifying element having an outer rib structure.

Hereinafter, a preferred embodiment of the humidification unit (5) using the humidification element (1) according to the present invention will be described with reference to the accompanying drawings.
4A and 4B are views showing a humidifying unit using the humidifying element of the present invention, FIG. 4A is a schematic perspective view of the humidifying unit, and FIG. 4B is a schematic perspective view showing the configuration of the humidifying unit. FIG. 5 is an explanatory diagram of the humidifying unit of the present invention.

As shown in FIGS. 4A and 4B, the humidifying unit (5) according to the present invention includes a humidifying element (1) according to the present invention, a tray portion (5T), and a side portion (5S). Includes body (5C).
More specifically, in the housing (5C), a plurality of humidifying elements (1) are connected in series (that is, in the thickness direction of the humidifying element (1)) while being spaced apart so as to form a ventilation path (P). ) And / or in parallel (that is, in the width direction of the humidifying element (1)), and a lower water passage (CL) is provided below the plurality of humidifying elements (1). An upper water passage (CU) is provided above the humidifying element (1) (see FIG. 5).
The side portion (5S) of the housing (5C) has a water supply / drainage port (51) that communicates the outside of the housing (5C) with the lower water passage (CL), or the outside of the housing (5C) and the upper water passage (5C). An intake / exhaust port (52) that communicates with the CU) is provided (see FIG. 5).
The lower water passage (CL) and the upper water passage (CU) are formed by connecting the water passages (4) of the connected humidifying elements (1) to each other.
The tray portion (5T) is provided above and below the humidifying element, respectively, in order to fix the plurality of humidifying elements (1). The side portion (5S) is connected to the inside of the housing (5C) in order to fix a plurality of humidifying elements (1) and to provide an upper water supply / drainage port (51) and an intake / exhaust port (52). It is attached to the humidifying elements (1) at both ends of the humidifying element (1).
The dimensions of the humidifying unit (5) are not particularly limited, and a plurality of humidifying elements (1) are connected (that is, in the humidifying elements adjacent to each other in the thickness direction, the head portion of one humidifying element and the frame of the other humidifying element. Any size can be stored (for example, a size that can connect and store 120 humidifying elements (1)) and can be stored (in a state where they are fixed / bonded so as to be in contact with each other). Is also good.

As shown in FIG. 4A, the humidifying unit (5) has a substantially rectangular cuboid shape, but is not limited to this, and for example, a humidifying element (5) provided in the humidifying unit (5) such as a substantially cubic shape. The desired shape and dimensions can be obtained according to the shape of 1) and the installation location of the humidifying unit (5). As described above, the shape of the humidifying element (1) is not limited to a substantially rectangular shape in front view, and it goes without saying that the shape may be other than this.
For example, the size of the humidifying unit (5) shall be such that two humidifying elements (1) can be installed in the width direction and five humidifying elements (1) can be installed in the thickness direction. Therefore, two humidifying elements (1) can be provided in parallel and five in series, respectively, while maintaining a ventilation interval.

Hereinafter, a preferred embodiment of the humidifier device (6) using the humidifying unit according to the present invention will be described with reference to the accompanying drawings.
6A and 6B are explanatory views of a humidifier device using the humidifying unit of the present invention, where FIG. 6A is an explanatory diagram showing the configuration of the humidifier device, and FIG. 6B is an explanatory view showing a ventilation system of the humidifier device. Is.

As shown in FIGS. 6A and 6B, the humidifier device (6) according to the present embodiment includes a humidifying unit (5), a water supply tank (7), a drainage tank (8), and an intake / exhaust pipe. (9) and is included.
More specifically, the humidification unit (5), the water supply tank (7), and the drainage tank (8) are provided with means (10) for enabling water supply operation and means (11) for enabling drainage operation. They communicate with each other at the lower part of the humidifying unit (5) (that is, the water supply / drainage port (51)) via the water supply / drainage pipe (12), and intake / exhaust to the upper part of the humidification unit (5) (that is, the intake / exhaust port (52)). A pipe (9) is connected, and a fan (13) for ventilating the ventilation passage (P) of the humidifying unit (5) is provided.
In addition to the above-described configuration, the humidifier device (6) according to the present embodiment can be used as long as it is normally used for a humidifier device (particularly, a vaporization type humidifier device) and is obvious to those skilled in the art. Anything can be included in the composition.

As shown in FIG. 6A, the humidification unit (5) and the humidification unit (5) are provided through a water supply / drainage pipe (12) provided with a means (10) for enabling a water supply operation and a means (11) for enabling a drainage operation. , The water supply tank (7) and the drainage tank (8) are communicated with each other at the lower part of the humidification unit (5) (that is, the water supply / drainage port (51)).
Since the water supply / drainage pipe (12) is provided with a means (10) for enabling the water supply operation and a means (11) for enabling the drainage operation, the water supply operation and drainage from the water supply tank (7) are manually or automatically performed. The drainage operation to the tank (8) can be easily switched.
The means (10) for enabling the water supply operation and the means (11) for enabling the drainage operation are, for example, those that automatically open and close an electromagnetic valve, an electric valve, or the like, or those that manually open and close. Anything that is normally used for water supply / drainage pipes and the like and is obvious to those skilled in the art can be used.

As shown in FIG. 6A, an intake / exhaust pipe (9) is connected to the upper part of the humidification unit (5).
The intake / exhaust pipe (9) is connected to the intake / exhaust port (52) of the humidifying unit (5).
By connecting the intake / exhaust pipe (9) to the intake / exhaust port (52) of the humidifying unit (5), the humidifying unit (5) is supplied with humidifying water from the water supply tank (7) to the humidifying unit (5). The air inside can be discharged from the intake / exhaust pipe (9), and the humidifying water can be easily and quickly supplied into the humidifying unit (5).
In addition, when the intake / exhaust pipe (9) is connected to the intake / exhaust port (52) of the humidifying unit (5), the humidifying water supplied to the humidifying unit (5) is discharged to the drain tank (8). In addition, air can be supplied (intake) into the humidifying unit (5) from the intake / exhaust pipe (9), and humidifying water can be easily and quickly discharged from the humidifying unit (5).

The water supply tank (7) is connected to the water supply / drainage pipe (12) and is provided above the humidification unit (5). By providing the water supply tank (7) above the humidifying unit (5), it is possible to supply humidifying water from the water supply / drainage port (51) into the humidifying unit (5) without using a motor or the like due to the weight of the water itself. can.
In addition, by providing the water supply tank (7) above the humidifying unit (5), the humidifying water is supplied from the water supply / drainage port (51) into the humidifying unit (5) to the lower water passage (CL). The inflowing humidifying water rises (that is, is supplied) in the humidifying element (1) from the water passage port (4) provided at the lower part of the humidifying element (1) through the liquid flow path (F) by the head pressure. The humidifying water reaches the upper part of the humidifying element (1)), passes through the water passage port (4) provided on the upper part of the humidifying element (1), reaches the upper water passage (CU), and enters the humidifying unit (5). Can be met.
That is, by providing the water supply tank (7) above the humidification unit (5), the humidifying water can be raised to the same height as the water level in the water supply tank (7) by the head pressure. As a result, the inside of the humidifying unit (5) can be easily filled with humidifying water at all times without using a motor, an electric pump, or the like. In addition, since the humidifying water is constantly supplied to the same water level as the water level in the water supply tank (7) due to the head pressure, the humidifying water can be continuously supplied by the amount of the humidifying water reduced by the humidifying operation. can.

The material and dimensions of the water supply tank (7) are not particularly limited, and can be appropriately selected according to the size and installation location of the humidifier device (6), and are usually used as a water supply tank. Anything can be used as long as it is.
The water used for humidification may be tap water, but any water such as distilled water or natural water such as well water can be used as long as it does not cause a problem in the humidifier device (6) even if it is supplied to the humidification unit. You may use it.
Further, by using a motor, an electric pump, or the like, the water supply tank (7) can be installed below the humidification unit (5) (see FIG. 12).

The drainage tank (8) is connected to the water supply / drainage pipe (12) and is provided below the humidification unit (5). By providing the drainage tank (8) below the humidification unit (5), the humidifying water in the humidification unit (5) is discharged to the drainage tank (8) by its own weight without using a motor or an electric pump. be able to.
The material and dimensions of the drainage tank (8) are not particularly limited, and can be appropriately selected according to the size and installation location of the humidifier device (6), and are usually used as drainage tanks. Anything can be used as long as it is.

The water supply / drainage pipe (12) may be provided as separate members such as the water supply pipe (not shown) and the drainage pipe (not shown).
That is, the humidification unit (5) and the water supply tank (7) are connected via a water supply pipe and a water supply port (not shown) provided with means for enabling water supply operation (for example, a drainage pipe provided with a valve). It is communicated at the bottom of the humidification unit (5), and the humidification unit (5) and the drainage tank (8) have a drainage pipe and a drainage pipe provided with a means for enabling drainage operation (for example, a drainage pipe having a valve). Each may be communicated at the lower part of the humidification unit (5) via an outlet (not shown).
In this case, it is desirable that the water supply pipe is provided above the humidification unit (5) rather than the drainage pipe, but the arrangement is not limited to this, and any arrangement can be used as long as the water supply / drainage can be supplied to the humidification unit (5). You may.

As shown in FIG. 6B, the fan (13) is provided, for example, in the lower part of the front surface of the humidifying unit (5). The air supplied from the front surface of the humidifying unit (5) contains the water vapor of the humidifying water absorbed by the water absorbing membrane (3) when passing through the ventilation path (P) between the humidifying elements (1) and is humidified. The humidified air passes through the ventilation passage (P) as it is, and escapes to the back surface of the humidifying unit (5). The arrow in FIG. 6B indicates the flow of air supplied by the fan (13).
Further, a duct for ventilation may be provided on the front surface and / or the back surface of the humidification unit (5). The shape of the duct is not particularly limited, and any duct may be used as long as it can supply humidified air to the outside of the humidifying unit (5).
The location of the fan (13) is not particularly limited, and air can be blown to the ventilation passage (P) of the humidifying unit (5), and the humidifying water absorbed by the water absorbing film (3) into the blown air. Any position may be used as long as the air can be humidified with water vapor and the humidified air can be supplied to the outside of the humidifier device (6).
The type of the fan (13) used in the humidifier device (6) according to the present embodiment is not particularly limited, and for example, a humidifier device such as a sirocco fan, a centrifugal blower, an axial blower, a mixed flow blower, and a transverse blower. Anything that is normally used for and is obvious to those skilled in the art may be used.
Further, the air supply method by the fan (13) is not particularly limited, and air can be supplied to the humidifying unit (5) such as a blowing method and a suction method, and the humidified air can be supplied to the outside of the humidifying unit (5). Anything may be used as long as it is a thing.

Hereinafter, the flow of humidifying water and air in the humidifying unit (5) and the humidifying element (1) connected in the humidifying unit (5) will be described.
7A and 7B are explanatory views showing the flow of humidifying water in the humidifying element in the humidifying unit of the present invention, in which FIG. 7A is a schematic perspective view showing the flow of humidifying water in the liquid flow path of the humidifying element, FIG. 7B. Is a schematic perspective view showing the flow of humidifying water in the lower part of the humidifying element, and (c) is a schematic perspective view showing the flow of humidifying water in the upper part of the humidifying element. FIG. 8 is an explanatory diagram showing the flow of humidifying water in the upper part of the humidifying unit of the present invention.

The flow of the humidifying water when supplying the humidifying water to the humidifying unit (5) will be described.
The humidifying water supplied from the water supply tank (7) is supplied into the humidifying unit (5) from the water supply / drain port (51) of the humidifying unit (5), flows into the lower water passage (CL), and is a humidifying element by the head pressure. It is supplied into the liquid flow path (F) from the water passage port (4) provided at the lower part of (1) and rises in the liquid flow path (F) ((a) in FIG. 6, (a) in FIG. 7 and (B)). When the humidifying water reaches the upper end of the liquid flow path (F), the humidifying water is supplied from the water passage port (4) provided at the upper part of the humidifying element (1) to the upper water passage (CU), and the humidifying water is supplied to the upper water passage (CU). ), Humidifying water is supplied to the intake / exhaust pipe (9) from the intake / exhaust port (52) (see (a) of FIG. 6, (c) of FIG. 7 and FIG. 8). The arrows in FIGS. 7 and 8 indicate the flow of humidifying water.

The flow of the humidifying water when the humidifying water is discharged from the humidifying unit (5) will be described.
The humidifying water is discharged to the drainage tank (8) by operating the means (11) that enables the drainage operation. The humidifying water supplied to the intake / exhaust pipe (9) is discharged from the intake / exhaust port (52) to the upper water passage (CU), and is provided from the upper water passage (CU) to the upper part of the humidifying element (1). It passes through (4) and is discharged to the liquid flow path (F) (see (c) in FIG. 7). Further, the humidifying water descends from the liquid flow path (F), is discharged from the water passage (4) provided at the lower part of the humidifying element (1) to the lower water passage (CL), and is humidified from the lower water passage (CL). It is discharged from the water supply / drainage pipe (12) to the drainage tank (8) through the water supply / drainage port (51) of the unit (5) (see (a) and (b) of FIGS. 7).

Next, the operation related to the water supply / drainage of the humidifying unit (5) according to the present invention will be described.
FIG. 9 is an explanatory diagram showing an example of water supply and drainage to the humidifying unit in the humidifier device of the present invention.

FIG. 9A is a diagram showing a state in which no humidifying water is supplied to the humidifying unit (5) according to the present invention (that is, unit dry). This state in which the humidifying water is not supplied to the humidifying unit (5) at all is, for example, a state at the start of operation of the humidifier or when the air cleaning operation is performed.
In the state of FIG. 9A, the means (10) for enabling the water supply operation is operated to allow the water supply tank (7) and the humidifying unit (5) to communicate with each other, as shown in FIG. 9B. As described above, the humidifying water is supplied from the water supply / drain port (51) of the humidifying unit (5) to the lower water passage (CL) of the humidifying unit (5) through the water supply / drain pipe (12). In FIG. 9B, the humidifying water supplied to the lower water passage (CL) enters the liquid flow path (F) from the water passage port (4) provided in the lower part of the humidifying element (1) by the head pressure. It shows how the liquid flow path (F) is rising. At this time, the air in the humidifying unit (5) is pushed out to the humidifying water supplied in the humidifying unit (5), but the pushed out air is discharged from the intake / exhaust pipe (9) to the outside of the humidifier device. , Water supply is done smoothly.
When the humidifying water is further supplied to the humidifying unit (5) from the state of FIG. 9 (b), the inside of the humidifying unit (5) is filled with the humidifying water (that is, as shown in FIG. 9 (c)). Unit wet). Finally, the humidifying water reaches the intake / exhaust pipe (9) and becomes the same water level as the humidifying water in the water supply tank (7).
During the humidification operation, the state shown in FIG. 9 (c) was maintained, and air was supplied to the ventilation passage (P) formed between the humidification elements (1), so that water was absorbed by the water absorption membrane (3). The air is humidified by the humidifying water.

Next, the operation of draining the humidifying water in the humidifying unit (5) from the state of FIG. 9 (c) will be described.
First, the means (10) that enables the water supply operation is operated to shut off the water supply tank (7) and the humidification unit (5). Subsequently, the means (11) that enables the drainage operation is operated to communicate the drainage tank (8) and the humidifying unit (5). As a result, as shown in FIG. 9D, the humidifying water supplied to the humidifying unit (5) is discharged to the drainage tank (8) through the water supply / drainage pipe (12) by its own weight.
FIG. 9D shows a state in which the humidifying water is discharged to the drainage tank (8), and the humidifying water supplied to the humidifying unit (5) is used in the liquid flow path (1) of the humidifying element (1). It shows that F) is descending. At this time, the air outside the humidifier device (6) flows into the humidifying unit (5) via the intake / exhaust pipe (9), so that the humidifying water is smoothly discharged. ..
When the humidifying water in the humidifying unit (5) is completely discharged, the state of FIG. 9 (a) is restored. The arrow in FIG. 9 indicates the flow of humidifying water.

Next, an example of the cleaning (sterilization) function of the humidifier device (6) according to the present invention will be described.
FIG. 10 is an explanatory diagram showing an operation of cleaning or sterilizing the humidifier device by flowing a cleaning solution or a sterilizing solution from the water supply / drainage pipe of the humidifier device of the present invention.

In an example of the cleaning (sterilizing) operation of the humidifier device (6) shown in FIG. 10, a cleaning or sterilizing tank (14) containing a cleaning liquid or a sterilizing liquid is provided above the humidifying unit (5).
Further, the cleaning or sterilizing tank (14) is provided above the water supply / drainage pipe (12) and communicates with the water supply / drainage pipe (12), so that the cleaning liquid or the sterilizing liquid can be supplied (15) ( For example, a drain pipe provided with a valve) controls the supply to the humidifying unit (5).
FIG. 10A shows a state in which the humidifying unit (5) is not supplied with the humidifying water and the cleaning liquid or the sterilizing liquid (that is, unit dry). In one example of this cleaning (sterilizing) function, the cleaning liquid or the sterilizing liquid is supplied to the humidifying unit (5) in a unit dry state.
From the state of (a) in FIG. 10, the cleaning liquid is operated by operating the means (15) that enables the supply of the cleaning liquid or the sterilizing liquid, and the cleaning or sterilizing tank (14) and the humidifying unit (5) are communicated with each other. Alternatively, the sterilizing liquid is supplied from the water supply / drainage port (51) to the lower water passage (CL) of the humidification unit (5) through the water supply / drainage pipe (12). The cleaning liquid or sterilizing liquid supplied to the lower water passage (CL) enters the liquid flow path (F) from the water passage port (4) of the humidifying element (1) by the head pressure, rises in the liquid flow path (F), and rises. The inside of the humidifying unit (5) is filled with a cleaning liquid or a sterilizing liquid. Finally, as shown in FIG. 10 (b), the cleaning liquid or the sterilizing liquid reaches the intake / exhaust pipe (9) and has the same water level as the water level of the cleaning liquid or the sterilizing liquid in the cleaning or sterilizing tank (14). Will be.

After holding the humidifying unit (5) filled with the cleaning solution or the sterilizing solution for a certain period of time (for example, 10 minutes, 30 minutes, 1 hour, or 1 hour or more), the cleaning solution or the sterilizing solution is applied to the humidifying unit (for example, 10 minutes, 30 minutes, 1 hour, 1 hour or more, etc.). Discharge from 5). Discharge the cleaning solution or sterilizing solution according to the following procedure.
First, the cleaning or sterilizing tank (14) and the humidifying unit (5) are shut off by operating the means (15) that enables the supply of the cleaning liquid or the sterilizing liquid. Subsequently, the means (11) that enables the drainage operation is operated to communicate the drainage tank (8) and the humidifying unit (5). As a result, the cleaning liquid or the sterilizing liquid supplied to the humidifying unit (5) is discharged to the drainage tank (8) through the water supply / drainage pipe (12) by its own weight.
If necessary, such as when it is desired to completely remove the cleaning liquid or the sterilizing liquid remaining in the humidifying unit (5), rinsing may be performed by supplying and draining the humidifying water.
By providing the humidifier device (6) with a cleaning or sterilization tank (14) in this way, maintenance of the humidifier device (6) can be easily and quickly performed. According to this cleaning (sterilizing) operation, the inside of the humidifying unit (5) can be soaked with a cleaning liquid or a sterilizing liquid. Therefore, it is possible to remove the adhesion (deposition) of calcium and the like derived from the humidifying water, which is difficult to remove by flowing water.
Further, by providing the humidifier device (6) with a timer or the like, the humidifying unit (5) can be easily washed or sterilized at an arbitrary timing.
A cleaning or sterilizing tank (14) is provided outside the humidifier device (6), and a cleaning liquid or a sterilizing liquid is supplied to the humidifying unit (5) using an electric pump or the like to perform cleaning or sterilization. May be.

Next, another example of the cleaning (sterilization) function of the humidifier device (6) according to the present invention will be described.
FIG. 11 is an explanatory diagram showing an operation of cleaning and / or sterilizing the humidifier device by flowing a cleaning liquid and / or a sterilizing liquid from the intake / exhaust pipe of the humidifier device of the present invention.

In another example of the cleaning (sterilization) operation of the humidifier device (6) shown in FIG. 11, the cleaning and / or sterilization tank (16) containing the cleaning liquid and / or the sterilizing liquid is the humidifying unit (5). It is provided above. Further, the cleaning and / or sterilizing tank (16) is communicated with the intake / exhaust pipe (9), and means (17) (for example, water supply provided with a valve) that enables supply of the cleaning liquid and / or the sterilizing liquid. The supply to the humidification unit (5) is controlled by a pipe or the like).
FIG. 11A shows a state in which the humidifying unit (5) is being humidified in a state of being filled with humidifying water (that is, unit wet). In another example of this cleaning (sterilizing) operation, the cleaning liquid and / or the sterilizing liquid is supplied to the humidifying unit (5) in a unit wet state.
From the state (a) of FIG. 11, the means (17) that enables the supply of the cleaning liquid and / or the sterilizing liquid by operating the means (10) that enables the water supply operation to stop the supply of the humidifying water is provided. By operating the cleaning and / or sterilizing tank (16) and communicating the humidifying unit (5), the cleaning liquid and / or the sterilizing liquid is applied to the intake / exhaust pipe (9) as shown in FIG. 11 (b). Be supplied.

Since the humidifier device (6) is in the humidifying operation, the humidifying water in the humidifying unit (5) evaporates from the ventilation passage (P), and the amount of the humidifying water in the humidifying unit (5) decreases. Therefore, the cleaning liquid and / or the disinfectant liquid supplied to the intake / exhaust pipe (9) flows from the intake / exhaust port (52) to the upper part of the humidifying unit (5) as the amount of humidifying water in the humidifying unit (5) decreases. The cleaning liquid and / or the disinfectant liquid supplied to the water channel (CU) and supplied to the upper water channel (CU) enters the liquid flow path (F) from the water passage port (4) of the humidifying element (1) and flows. Go down the road (F) (see (c) in FIG. 11).
By continuing the humidifying operation in the state of (c) of FIG. 11, the amount of humidifying water in the humidifying unit (5) is further reduced, and the humidifying water in the humidifying unit (5) is used as a cleaning liquid and / or sterilized. It is completely replaced by the liquid (see (d) in FIG. 11). In this way, by gradually substituting the humidifying water with the cleaning liquid and / or the sterilizing liquid while performing the humidifying operation, the cleaning liquid and / or the sterilizing liquid can be uniformly filled in the humidifying unit (5). According to this cleaning (sterilization) operation, the cleaning liquid and / or the sterilizing liquid can be supplied to the humidifying unit (5) by a flowing method. Therefore, this washing (sterilizing) operation can be suitably used for a washing liquid and / or a sterilizing liquid, such as hypochlorite water, which is more effective to be used by a flowing method than by soaking.

After the inside of the humidifying unit (5) is completely replaced with the cleaning liquid and / or the sterilizing liquid, the cleaning liquid and / or the sterilizing liquid is discharged from the humidifying unit (5). Discharge the cleaning solution and / or the disinfectant solution according to the following procedure.
First, the means (11) that enables the drainage operation is operated to communicate the drainage tank (8) and the humidifying unit (5). As a result, the cleaning liquid and / or the sterilizing liquid supplied to the humidifying unit (5) is discharged to the drainage tank (8) through the water supply / drainage pipe (12) by its own weight.
If necessary, such as when it is desired to completely remove the cleaning liquid and / or the sterilizing liquid remaining in the humidifying unit (5), rinsing may be performed by supplying and draining the humidifying water.
By providing the humidifier device (6) with a cleaning and / or sterilization tank (16) in this way, maintenance of the humidifier device (6) can be easily and quickly performed.
Further, by providing the humidifier device (6) with a timer or the like, the humidifying unit (5) can be easily washed and / or sterilized at an arbitrary timing.

As the washing water for washing the humidifying unit (5) according to the present invention, any water such as citric acid that is usually used for washing a vaporization type humidifier device can be used.
The sterilizing water for sterilizing the humidifying unit (5) according to the present invention is usually used for sterilizing a vaporization type humidifier device such as electrolytic hypochlorite water, hypochlorite water, and peracetic acid water. Anything can be used as long as it is.

Next, a modified example of the humidifier device according to the present invention will be described. More specifically, this variant relates to a humidifier device that circulates humidifying water between a water supply tank and a humidifying unit.
FIG. 12 is an explanatory diagram showing a circulation type humidifier device of the present invention.

As shown in FIG. 12, the circulation type humidifier device (6) according to the present invention includes a humidifying unit (5), a water supply tank (7), a water supply pump (18), and an intake valve (21). ..
More specifically, the water supply tank (7) is provided below the humidification unit (5), and the humidification unit (5) and the water supply tank (7) are provided with a water supply pump (18) and a drain valve that enable water supply operation. It is communicated at the lower part of the humidifying unit (5) (that is, the water supply / drainage port (51)) via the water supply pipe (20) provided with (19), and the humidifying unit (5) and the water supply tank (7) are connected to the intake valve. To communicate with the upper part of the humidifying unit (5) (that is, the intake / exhaust port (52)) via the drain pipe (22) provided with (21), and to ventilate the ventilation passage (P) of the humidifying unit (5). Fan (13) is provided.
In addition to the above-described configuration, the humidifier device (6) according to the present embodiment can be used as long as it is normally used for a humidifier device (particularly, a vaporization type humidifier device) and is obvious to those skilled in the art. Anything can be included in the composition.

As shown in FIG. 12, the water supply tank (7) and the humidifying unit (5) are communicated with each other at the lower part of the humidifying unit (that is, the water supply / drainage port (51)) via the water supply pipe (20).
A water supply pump (18) is provided in the water supply pipe (20), and the water supply pump (18) pumps up the humidifying water in the water supply tank (7) and supplies the humidifying water in the humidifying unit (5). Will be done. As described above, in the humidifier device (6) according to the present embodiment, since the water supply pump (18) is used to supply the humidifying water into the humidifying unit (5), it is necessary to use the head pressure to supply the humidifying water. It is possible to eliminate the positional restriction that the water supply tank (7) is provided above the humidifying unit (5).
It is desirable that the water supply tank (7) be provided with a replenishment port (not shown) for replenishing the humidifying water so that the humidifying water reduced by the humidifying operation can be easily replenished.
The material and dimensions of the water supply tank (7) are not particularly limited, and can be appropriately selected according to the size and installation location of the humidifier device (6), and are usually used as a water supply tank. Anything can be used as long as it is.

The amount of humidifying water supplied by the water supply pump (18) may be larger than the amount of evaporation of the humidifying water in the humidifying unit (5) during the humidifying operation.
The water supply pump (18) is usually used for water supply of a humidifier device, for example, a small pressure tank control method, a large pressure tank control method, a pressure boosting direct connection method, a rotation speed control method, a constant pressure method, etc. Anything that is self-evident can be used.

The water supply pipe (20) is provided with a drain valve (19), and the humidifying water discharged from the drain valve (19) is discharged to the water supply tank (7). By providing the drain valve (19) in the water supply pipe (20), the humidifying water in the humidifying unit (5) can be easily and quickly discharged.
The drain valve (19) is usually used for drainage, for example, a solenoid valve, an electric valve, or the like that automatically opens and closes, or a manual valve that opens and closes manually, and is obvious to those skilled in the art. Anything can be used, if any.

As shown in FIG. 12, the humidifying unit (5) and the water supply tank (7) are connected to the upper part (that is, the intake / exhaust port (that is, the intake / exhaust port) of the humidifying unit (5) via the drain pipe (22) provided with the intake valve (21). It is communicated in 52)).
As a result, the humidifying water supplied from the lower part of the humidifying unit is discharged to the water supply tank (7) via the drain pipe (22) connected to the upper part of the humidifying unit (5). Therefore, the humidifying water in the water supply tank (7) can be repeatedly used for humidification.
The intake valve (21) is provided in the drain pipe (22).
As a result, when the humidifying water supplied into the humidifying unit (5) is discharged to the water supply tank (7) via the drain valve (19), air is introduced into the humidifying unit (5) from the intake valve (21). Can be supplied, and humidifying water can be easily and quickly discharged from the humidifying unit (5).
The intake valve (21) is usually used for intake air, for example, a solenoid valve, an electric valve, or the like that automatically opens and closes, or a manual valve that opens and closes manually, and is obvious to those skilled in the art. Anything can be used, if any.

The fan (13) is provided, for example, in the lower part of the front surface of the humidifying unit (5). The air supplied from the front surface of the humidifying unit (5) contains the water vapor of the humidifying water absorbed by the water absorbing membrane (3) when passing through the ventilation path (P) between the humidifying elements (1) and is humidified. The humidified air passes through the ventilation passage (P) as it is, and escapes to the back surface of the humidifying unit (5).
Further, a duct for ventilation may be provided on the front surface and / or the back surface of the humidification unit (5). The shape of the duct is not particularly limited, and any duct may be used as long as it can supply humidified air to the outside of the humidifying unit (5).
The location of the fan (13) is not particularly limited, and air can be blown to the ventilation passage (P) of the humidifying unit (5), and the humidifying water absorbed by the water absorbing film (3) into the blown air. Any position may be used as long as the air can be humidified with water vapor and the humidified air can be supplied to the outside of the humidifier device (6).
The type of the fan (13) used in the humidifier device (6) according to the present embodiment is not particularly limited, and for example, a humidifier device such as a sirocco fan, a centrifugal blower, an axial blower, a mixed flow blower, and a transverse blower. Anything that is normally used for and is obvious to those skilled in the art may be used.
Further, the air supply method by the fan (13) is not particularly limited, and air can be supplied to the humidifying unit (5) such as a blowing method and a suction method, and the humidified air can be supplied to the outside of the humidifying unit (5). Anything may be used as long as it is a thing.

By providing the above configuration, the humidifier device () according to the present embodiment can circulate humidifying water between the water supply tank (7) and the humidifying unit (5).
The amount of evaporation of the humidifying water in the humidifying unit (5) varies depending on the conditions of the outside air. Therefore, the supply amount (that is, circulation amount) of the humidifying water by the water supply pump (18) may be appropriately changed manually or automatically according to the fluctuation of the evaporation amount of the humidifying water in the humidifying unit (5). When changing the supply amount of humidifying water, for example, it is conceivable to measure the condition of the outside air using a humidity sensor or the like and change the supply amount based on the measurement.

The humidifying element according to the present invention is a humidifying element including a frame body, two water absorbing films, and a water passage port. The frame body has a shape in which a thin plate is hollowed out, and the frame body is the frame body. The two water-absorbing films are provided with a plurality of comb blades extending from one side of a pair of opposite sides of the frame toward the other side and from the other side toward one side, respectively. It is fixed to both sides of the frame body so as to cover the hollow portion of the body, and a liquid flow path is formed in the hollow portion of the frame body covered with the two water absorbing films. Since it is provided on the upper side and the lower side of the frame and communicates with the liquid flow path, the humidifying element can be formed by one frame, and the thickness of the humidifying element can be reduced. Therefore, the effective film area per unit volume can be increased, and the humidifying capacity can be enhanced.
In addition, since the number of parts of the humidifying element can be reduced, the manufacturing cost can be reduced and the manufacturing time is not required.
Furthermore, since the water absorption films are fixed on both sides of the frame, the head pressure due to the humidifying water in the humidifying element works in the direction of peeling off the water absorption films on both sides of the frame and balances, and the humidifying element swells due to the deformation of the frame. Can be prevented.
Therefore, the humidifying element according to the present invention can be used, for example, as a component of a humidifying machine device.
In addition, the humidifier device using the humidifying element according to the present invention can be used as a humidifier device used in a space having any volume, from a relatively narrow space such as a home to a wide space such as a tenant building. can.

1 Humidification element 2 Frame 21 One side 22 The other side 23 Upper side 24 Lower side 25 Hollowing part 2B Comb blade 3 Water absorption film 4 Water flow port 4H Head part 5 Humidity unit 51 Water supply / drainage port 52 Intake / exhaust port 5C Body 6 Humidifier device 7 Water supply tank 8 Drainage tank 9 Intake / exhaust pipe 10 Means that enable water supply operation 11 Means that enable drainage operation 12 Water supply / drainage pipe 13 Fan 14 Cleaning or disinfection tank 16 cleaning liquid containing cleaning liquid or disinfecting liquid And / or cleaning and / or sterilization tank containing sterilization liquid 18 Water supply pump 19 Drainage valve 20 Water supply pipe 21 Intake valve 22 Drainage pipe CL Lower water supply channel CU Upper water supply channel F Liquid flow path L Longitudinal length P Ventilation channel W Length in the width direction

Claims (9)

A humidifying element that includes a frame, two water-absorbing membranes, and a water inlet.
The frame has a shape in which a thin plate is hollowed out.
The frame comprises a plurality of comb blades extending from one side of a pair of opposite sides of the frame toward the other and from the other side toward one side.
The two water-absorbing films function as spacers provided on the upper portion of one surface of the frame body and the lower portion of the other surface of the frame body, respectively, and are provided by a head portion thicker than the thickness of the frame body. , Fixed to both sides of the frame so as to cover the hollow portion of the frame.
A liquid flow path is formed in the hollow portion of the frame body covered with the two water-absorbing films.
A humidifying element characterized in that the water passage port is provided on the upper side and the lower side of the frame body and communicates with the liquid flow path. The humidifying element according to claim 1, wherein the plurality of comb blades extend alternately from both sides of the pair of opposite sides. 2. Humidification element described. The humidifying element according to any one of claims 1 to 3, wherein the water absorbing film is paper, non-woven fabric, or cloth. The humidifying element according to any one of claims 1 to 4, and the humidifying element.
A humidifying unit including a housing in which a plurality of the humidifying elements are stored.
In the housing, the plurality of humidifying elements are connected in series and / or in parallel at intervals so as to form a ventilation path.
A lower water passage is provided below the plurality of humidifying elements.
An upper water passage is provided above the plurality of humidifying elements.
The housing is provided with a water supply / drainage port for communicating the outside of the housing with the lower water passage.
A humidification unit characterized in that the housing is provided with an intake / exhaust port for communicating the outside of the housing with the upper water passage. A humidifier device including the humidifying unit, the water supply tank, the drainage tank, and the intake / exhaust pipe according to claim 5.
The humidifying unit, the water supply tank, and the drainage tank are communicated with each other at the lower part of the humidification unit via a water supply / drainage pipe provided with a means for enabling water supply operation and drainage operation.
The intake / exhaust pipe is connected to the upper part of the humidifying unit.
A humidifier device, characterized in that a fan for ventilating the ventilation passage of the humidifying unit is provided. The humidifying unit according to claim 5, a water supply tank, a water supply pump, and a circulation type humidifier device including an intake valve.
The water supply tank is provided below the humidification unit.
The humidification unit and the water supply tank are communicated with each other at the lower part of the humidification unit via a water supply pipe provided with the water supply pump and a drain valve that enable water supply operation.
The humidifying unit and the water supply tank are communicated with each other at the upper part of the humidifying unit via a drain pipe provided with the intake valve.
A humidifier device, characterized in that a fan for ventilating the ventilation passage of the humidifying unit is provided. The humidifier device according to claim 6, wherein a cleaning or sterilizing tank containing a cleaning liquid or a sterilizing liquid is provided in the upper part of the water supply / drainage pipe. The humidifier device according to claim 6, wherein the intake / exhaust pipe is provided with a cleaning and / or sterilization tank containing a cleaning liquid and / or a sterilizing liquid.

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