JP2014122741A - Humidifying/dehumidifying rotor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a humidifying/dehumidifying rotor that is excellent in moisture adsorption performance, can reliably release moisture without being heated to a high temperature of 100°C or more, and is easily manufactured.SOLUTION: Belt-like corrugated paper 2 impregnated with diatomaceous earth is wound in a cylindrical shape.

Description

  The present invention relates to a dehumidifying / humidifying rotor.

Conventionally, a desiccant air conditioner (system) for performing dehumidification and humidification in a room rotates a cylindrical dehumidification / humidification rotor, and air containing moisture from one side of the rotor shaft is supplied to a part of the dehumidification / humidification rotor. In addition to adsorbing moisture, hot air was applied to the remaining portion of the dehumidifying / humidifying rotor from the other side of the rotor shaft to release moisture.
Such a dehumidifying / humidifying rotor contains zeolite so that moisture is easily adsorbed and moisture is easily separated by hot air (see Patent Document 1).

JP 2000-346400 A

  However, the dehumidifying / humidifying rotor containing zeolite needs to be heated to 100 ° C. or higher with hot air in order to release the moisture once adsorbed, and a large amount of energy is required for the heat source (heater heater). was there. In addition, it is necessary to use ceramic paper that can withstand heating at 100 ° C. or higher, and a heat-resistant inorganic adhesive, and there is a problem that it takes time and labor to manufacture a dehumidifying / humidifying rotor.

  Therefore, an object of the present invention is to provide a dehumidifying / humidifying rotor that is excellent in moisture adsorbability and can reliably release moisture without being heated to a high temperature of 100 ° C. or higher, and can be easily manufactured.

In order to achieve the above object, the dehumidifying / humidifying rotor of the present invention is obtained by winding a belt-like corrugated paper impregnated with diatomaceous earth into a cylindrical shape.
Further, a dust preventive agent made of hot melt resin is adhered to both end faces of the rotor formed by both end edges of the corrugated paper wound around the cylindrical shape.
Further, the corrugated paper is laminated and integrated through a strip-like adhesive layer formed in the vicinity of both edge portions of the corrugated paper.

  According to the present invention, while having sufficient hygroscopicity, moisture can be released by low-temperature heating at, for example, about 40 ° C., and energy consumption can be reduced. At the time of production, the thermoplastic resin can be used as a molding adhesive or an end face protective agent, and the time for the adhesive application process and the drying process can be greatly reduced. There is no need to use a high-temperature heat source (a low-temperature heat source is sufficient), and an easy and inexpensive desiccant air conditioner can be obtained.

It is a perspective view which shows the use condition of one Embodiment of this invention. It is a principal part enlarged front view of one Embodiment. It is a simplified block diagram which shows an example of a base paper. It is a perspective view for demonstrating an contact bonding layer. It is a principal part sectional side view.

Hereinafter, the present invention will be described in detail based on illustrated embodiments.
The dehumidifying / humidifying rotor according to the present invention is used in a desiccant air conditioner and is also called a desiccant rotor.
As shown in FIG. 1, the desiccant air conditioner 10 sucks in processing air A containing moisture (moisture) from one side J of the rotor axis while rotating the dehumidifying / humidifying rotor 1 around the rotor axis La, A part of the dehumidifying / humidifying rotor 1 is allowed to pass through to adsorb moisture, and the dried processing air A with low humidity is sent to the other side K of the rotor shaft. The hot air F heated by the heat source H such as a heater is passed through the remaining part of the dehumidifying / humidifying rotor 1 from the other side K of the rotor axis to release the adsorbed moisture, and moisture is contained in the axial one direction side J. It is configured to send hot air F.

In addition, the processing air A and the hot air F are prevented from being mixed by the partition member 9 that is provided on each of the rotor both end faces 1a and 1b and has raised hairs that are in sliding contact with the dehumidifying / humidifying rotor 1 and a partition wall (not shown). It is divided into air flow paths and hot air flow paths.
That is, in the dehumidifying / humidifying rotor 1, the portion that has adsorbed moisture moves from the processing air channel to the hot air channel by rotation and releases the adsorbed moisture, and then rotates to the processing air channel. The cycle of returning and adsorbing moisture again is repeated.
The desiccant air conditioner 10 can perform dehumidification and humidification indoors by switching the upstream port and the downstream port of the processing air channel and the hot air channel to the indoor side or the outdoor side.

  As shown in FIGS. 2 and 3, the dehumidifying / humidifying rotor 1 has a cylindrical shape in which a belt-like corrugated paper 2 is wound around a cylindrical shaft core member 19 in a spiral shape. A large number (100 or more) of air passages 11 opening in the direction of the rotor axis La are formed by the corrugated paper 2 in the laminated state.

The corrugated paper 2 is formed by adhering (adhering) a core material 22 formed into a corrugated sheet shape to a planar liner material 21 by a corrugating machine, and is also called corrugated cardboard.
The corrugated paper 2 shown is a single-sided cardboard in which a core material 22 is bonded to a liner material (surface liner material) 21.

The core material 22 and the liner material 21 are formed of a base paper 20 impregnated with diatomaceous earth 7, as shown in FIG.
The base paper 20 is produced by mixing diatomaceous earth 7 in a paper making process for making paper fibers 8 such as pulp.

  The base paper 20 is impregnated with diatomaceous earth 7 at 40 wt% or more and 70 wt% or less. When it exceeds 70% by weight, it becomes difficult to form the base paper 20 (paper making). Further, if it is less than 40% by weight, sufficient hygroscopicity cannot be obtained.

  Diatomaceous earth 7 is composed of sedimentary rocks on which diatom remains, a type of plankton, are deposited. Since it is obtained from natural rocks, it does not require complicated component adjustment and preparation, and can be used for papermaking very easily and inexpensively. Moreover, it has excellent humidity control (function) that absorbs and releases moisture autonomously with respect to humidity.

In particular, the diatomaceous earth 7 is preferably Wakkanai diatomaceous earth obtained by powdering Wakkanai-layer siliceous shale originating in Hokkaido.
Wakkanai siliceous shale (Wakkanai diatomaceous earth) has a BET specific surface area (surface area measured by the BET method) of 135 to 165 m ² / g, a pore volume of 0.25 to 0.45 cm ³ / g, and 80% of the pores. The above is distributed in mesopores having a pore diameter of 4 to 20 nm, suitable for capillary condensation of water vapor (water), and has an excellent humidity control function.
Such characteristics have 5 to 8 times the BET specific surface area and pore volume compared to those of other production areas (production areas in Akita, Ishikawa and Okayama prefectures), and are hygroscopic. Excellent in moisture release and humidity control. In addition, a large amount of water can be adsorbed in a high humidity region where the relative humidity is 80% or more (as compared to zeolite).

  The corrugated paper 2 (base paper 20) preferably contains chemical fibers such as polyester resin fibers. By including the chemical fiber, even if moisture absorption, moisture release, and heating are repeated, dimensions such as diameter and thickness do not change greatly, the shape (dimension) is stabilized and rigidity is improved. The chemical fiber is mixed in the paper making process of the base paper 20.

  Further, as shown in FIG. 3, the outer surface of the liner material 21 of the corrugated paper 2 (the surface on which the core material 22 is not attached) 21a and in the vicinity of both end edges 2a and 2b are for winding made of hot melt resin. Adhesive 50 is applied in the form of a narrow strip around the rotor axis La, and the inner core material 22 wound around the outer diameter side is bonded, and as shown in FIG. 4, the outer surface 21a of the liner material 21 and the inner core material The two laminated adhesive layers 5 and 5 formed between 22 wave crests 22a are laminated and integrated.

  In FIG. 5, a dust preventive agent 30 made of hot melt resin is attached to both end faces 1a and 1b of the rotor formed by both end edges 2a and 2b of the corrugated paper 2 wound in a cylindrical shape. Yes. The dust preventing agent 30 is applied to the corrugated paper 2 without closing the air passage 11 like a lid.

  The hot melt resin is a thermoplastic resin, and is, for example, a urethane resin, an olefin resin, a polyamide resin, an EV resin (also referred to as an ethylene vinyl acetate copolymer resin or an EVA resin), and the like.

  In the present invention, the design can be changed, and the corrugated paper 2 may be a double-sided cardboard in which the core material 22 is sandwiched between the front liner material and the back liner material although not shown. The heat source H is not limited to a heater, and it is only necessary to apply heat to the air taken in, such as a hot water coil. The cross-sectional shape of the air passage 11 is free such as a wave shape, a circular mountain shape, a triangular mountain shape, and a rectangular shape. Further, in FIG. 3, one or two strip-like adhesive layers 5 may be added to the intermediate portion in the width direction of the corrugated paper 2 so that the total number of the strip-like adhesive layers 5 is three or four. .

Next, the effect | action of embodiment of the dehumidification / humidification rotor of this invention is demonstrated.
Since the dehumidifying / humidifying rotor 1 is impregnated with the diatomaceous earth 7, it exhibits excellent moisture releasing properties, can sufficiently release moisture by heating at about 40 ° C., and the temperature of the heat source H is sufficient at less than 80 ° C. When the diatomaceous earth 7 was not impregnated (conventional), it was necessary to perform heating at a high temperature exceeding 100 ° C. (the heat source H was also required to be 100 ° C. or more). That is, the energy consumption applied to the heat source is significantly reduced by the impregnation of the diatomaceous earth 7.

Further, since the dehumidifying / humidifying rotor 1 does not reach a high temperature exceeding 100 ° C., a hot melt resin made of a thermoplastic resin, which could not be used conventionally, can be used as the winding adhesive 50.
Conventionally, it has been necessary to use an inorganic heat-resistant adhesive, and it took time to dry (adhesion completion), and there was a problem that liquid dripping occurred and the inside of the air passage 11 was blocked. Is quick-drying and has good adhesion, greatly reducing labor and time for manufacturing.

  Also, as shown in FIG. 3, the inner side liner material in FIG. 2 can be obtained by applying the winding adhesive 50 in the form of a narrow strip and winding it as compared to the case where it is applied to the entire outer surface 21a. The airflow path 11 (11A) formed by the outer core 21 and the outer diameter side core 22 does not enter and block a large amount of the winding adhesive 50, and absorbs and absorbs moisture. Breathability can be reliably obtained.

  Also, a hot melt resin made of a thermoplastic resin can be used as the dust preventing agent 30. Conventionally, heat-resistant silicon has been used, but a primer agent has to be applied before applying silicon, and the process is complicated and takes time and labor to manufacture. The hot melt resin can be directly applied to the rotor both end faces 1a and 1b (the primer application step can be omitted), and the manufacturing time is greatly reduced.

  The dust prevention agent 30 prevents the sliding member 9 of the desiccant air conditioner 10 from being worn by sliding contact, prevents the generation of paper powder and diatomaceous earth powder, and the cylindrical shape of the corrugated paper 2 wound in a cylindrical shape. Hold. That is, the dust preventing agent 30 also functions as an end surface adhesive.

  As described above, in the dehumidifying / humidifying rotor of the present invention, the belt-like corrugated paper 2 impregnated with the diatomaceous earth 7 is wound in a cylindrical shape, so that it has a sufficient hygroscopicity but has a low temperature (for example, about 40 ° C.). Moisture can be released by heating, and energy consumption can be reduced. A thermoplastic resin can be used as a molding adhesive or an end face protective agent, and the time required for the adhesive application process and drying process can be greatly reduced. Since diatomaceous earth 7 is a natural material, it does not require complicated component adjustment or precipitation, and can be used for papermaking extremely easily and inexpensively. Moreover, it has excellent humidity control (function) that absorbs and releases moisture autonomously with respect to humidity. Adsorption of moisture occurs only by physical adsorption that can be regenerated (release of moisture) by low-temperature heating, and excellent durability is obtained without changing the characteristics even when heating is repeated. A low-temperature (less than 80 ° C.) heat source H may be used. For example, an air-conditioning system with low energy consumption and low operating cost can be provided by using hot water produced by air-conditioner exhaust heat, a solar water heater, or the like.

  Further, since dust preventing agent 30 made of hot melt resin is adhered to both end faces 1a and 1b of the rotor formed by both end edges 2a and 2b of corrugated paper 2 wound in a cylindrical shape, paper dust and diatomaceous earth Generation of powder can be prevented and durability can be improved (long life can be extended). The time for the coating process and the drying process can be greatly reduced. The shape of the corrugated paper 2 wound in a cylindrical shape can be maintained. The corrugated paper 2 can be easily attached without blocking the air passage 11 formed.

  Further, since the corrugated paper 2 is laminated and integrated through the strip-like adhesive layers 5 and 5 formed in the vicinity of both edge portions 2a and 2b of the corrugated paper 2, consumption of the winding adhesive 50 can be reduced and easy. And can be bonded quickly. The time for the coating process and the drying process can be greatly reduced. Desired hygroscopicity, moisture release and air permeability can be reliably obtained without the adhesive layer 5 blocking the air passage 11 (11A) formed by the corrugated paper 2.

DESCRIPTION OF SYMBOLS 1a, 1b Rotor both end surface 2 Corrugated paper 2a, 2b Both-ends edge 5 Narrow strip-like adhesive layer 7 Diatomaceous earth
30 Anti-dust agent

Claims (3)

  A dehumidifying / humidifying rotor comprising a belt-shaped corrugated paper (2) impregnated with diatomaceous earth (7) wound in a cylindrical shape.   Anti-dust agent (30) made of hot melt resin on both end faces (1a) and (1b) of the rotor formed by both end edges (2a) and (2b) of the corrugated paper (2) wound around the cylindrical shape The dehumidifying / humidifying rotor according to claim 1, wherein   The said corrugated paper (2) laminated | stacked and integrated through the strip | belt-shaped adhesive layer (5) (5) formed in the both-ends edge part (2a) (2b) vicinity of this corrugated paper (2). Dehumidification / humidification rotor as described.

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