KR100911023B1 - Apparatus for manufacturing the sheet of a honeycomb structure and method thereof - Google Patents

Abstract

The present invention relates to a honeycomb structure, and more particularly, to a manufacturing apparatus and a method for manufacturing the honeycomb structured thin plate that can be utilized for a variety of applications simply by use.

Thin plate manufacturing apparatus for honeycomb structure of the present invention, the unwinding roll for releasing the material wound in a roll form; A first multi-coating unit for discharging and coating an adsorbent on one surface of the material; A first drying unit for drying one surface of the material to fix the adsorbent; A second multi-coating unit for discharging and coating an adsorbent on the other surface of the material; A second drying unit fixing the adsorbent by drying the other surface of the material; A winding roll disposed downstream of the unwinding roll and winding a thin plate for honeycomb structure having adsorbents fixed to both surfaces thereof; And a transfer unit for transferring the material at a constant speed between the unwinding roll and the winding roll.

Honeycomb, Structure, Lamination, Winding, Coating, Multi

Description

Thin plate manufacturing apparatus for honeycomb structure and its manufacturing method {APPARATUS FOR MANUFACTURING THE SHEET OF A HONEYCOMB STRUCTURE AND METHOD THEREOF}

The present invention relates to a honeycomb structure, and more particularly, to a manufacturing apparatus and a method for manufacturing the honeycomb structured thin plate that can be utilized for a variety of applications simply by use.

As is well known, the honeycomb structure is applied to dehumidification rotor to remove moisture, to heat exchanger of total heat exchanger, to heat exchange by adsorption and desorption, and to remove VOC of various purification facilities. It is applied to a rotor and is used for various purposes such as VOC removal for removing VOC gas molecules.

The honeycomb structure is manufactured by attaching a flat plate sheet to a variety of curved polarized sheets such as curved wave, square wave, and sawtooth wave, and the polarized sheet and plate sheet are coated with an adsorbent on the surface of the raw material. After forming the honeycomb structural thin plate, the honeycomb structural thin plate is corrugated or flattened to form a polarized sheet or flat sheet, and then a bonding process for bonding the polarized sheet and flat sheet is performed. Is done.

On the other hand, the prior art of manufacturing such honeycomb structure has been manufacturing a honeycomb structured thin plate individually according to each use (dehumidification, electrothermal exchange, VOC removal, etc.), and according to each application, individual honeycomb structure There has been a disadvantage in that a separate device for producing thin plates is required.

That is, in the related art, as the thin plates for honeycomb structural bodies are individually manufactured under different manufacturing methods and manufacturing conditions for each use, the manufacturing equipment becomes inefficiently enlarged, and the equipment investment cost is excessively consumed.

The present invention has been made in view of the above, by simply manufacturing a honeycomb structured thin plate according to various uses by a single manufacturing device to simplify the manufacturing facilities and significantly reduce the equipment investment cost. It is an object of the present invention to provide an apparatus and a manufacturing method of a thin plate for honeycomb structure.

In addition, an object of the present invention is to provide an apparatus and method for manufacturing a honeycomb structured thin plate, which realizes a uniform thickness of the adsorption layer formed on the surface of the honeycomb structured thin plate and is very easy to control the thickness of the adsorption layer. There is this.

In addition, the present invention provides an apparatus and a method for manufacturing a honeycomb thin plate structure that can significantly improve the adsorption and desorption performance of the target material by coating or impregnating an adsorbent on the surface of the thin plate for honeycomb structure. There is a purpose.

The honeycomb structured sheet manufacturing apparatus of the present invention for achieving the above object,

An unwinding roll for releasing the material wound in a roll form;

A first multi-coating unit for discharging and coating an adsorbent on one surface of the material;

A first drying unit for drying one surface of the material to fix the adsorbent;

A second multi-coating unit for discharging and coating an adsorbent on the other surface of the material;

A second drying unit fixing the adsorbent by drying the other surface of the material;

A winding roll disposed downstream of the unwinding roll and winding a thin plate for honeycomb structure having adsorbents fixed to both surfaces thereof; And

It comprises a transfer unit for transferring the material at a constant speed between the unwinding roll and the winding roll.

The adsorbent is characterized in that the coating thickness is adjusted according to the distance between the multi-coating unit and the transfer unit, the release angle of the multi-coating unit, the feed rate of the material.

The conveying unit includes a first feed roll disposed downstream of the unwinding roll, a second feed roll disposed downstream of the first feed roll, a rotation shaft of the unwinding roll, and a rotation shaft of the first feed roll. A first transfer belt installed, a second transfer belt installed on the rotation axis of the first transfer roll and the rotation axis of the second transfer roll, a third transfer belt installed on the rotation axis of the second transfer roll and the rotation axis of the winding roll, And a driving motor connected to the rotation shaft of the unwinding roll via a driving belt.

The first and the second multi-coating unit is easy to attach and detach, it characterized in that the coating of different types of adsorbent according to the application of the honeycomb structure.

The first and second multi-coating units are individually disposed close to each of the first and second feed rolls.

The adsorbent is characterized in that any one of a mixture of inorganic material, polymer resin, inorganic material and polymer resin.

Upstream of the first multi-coating unit is provided with a first adhesive coating machine for applying an adhesive on one side of the material, upstream of the second multi-coating unit a second adhesive coating machine for applying an adhesive to the other surface of the material Is installed, the first and second multi-coating unit is characterized in that it has a powder spraying structure for spraying the adsorbent in the powder state.

In contrast, the first and second multi-coating unit is characterized in that it has an electrospinning structure for electrospinning the liquid adsorbent.

Method for producing a thin plate for honeycomb structured body of the present invention,

An adsorbent first coating step of discharging and coating the adsorbent on one surface of the material while transferring the material at a uniform speed;

A first drying step of drying one surface of the material while transferring at the same speed as the first coating step of the adsorbent;

An adsorbent second coating step of discharging and adsorbing the adsorbent on the other surface of the material while transferring the material at a uniform speed; And

And a second drying step of drying the other surface of the material while transferring at the same speed as the second coating step of the adsorbent.

The adsorbent is characterized in that the coating thickness is controlled by the distance between the discharge point of the adsorbent and the material, the release angle of the adsorbent, the feed rate of the material.

The first coating step of the adsorbent is made of a powder spraying method for injecting a powdered adsorbent, and further comprising an adhesive first coating step of applying an adhesive to one surface of the material before the first coating step of the adsorbent.

The adsorbent second coating step is made of a powder spray method for spraying the adsorbent in the powder state, characterized in that further adding an adhesive second coating step for applying an adhesive to the other surface of the material before the adsorbent second coating step.

The adsorbent first coating step and the adsorbent second coating step are characterized in that the electrospinning method.

The adsorbent is characterized in that any one of a mixture of inorganic material, polymer resin, inorganic material and polymer resin.

The present invention as described above, by simply manufacturing a honeycomb structured thin plate that can be used for different applications by a single manufacturing device to simplify the manufacturing facilities and significantly reduce the equipment investment effect There is.

In addition, the present invention has the advantage that not only to realize a uniform thickness of the adsorption layer formed on the surface of the honeycomb structured thin plate, but also to facilitate the thickness adjustment of the adsorption layer.

In addition, the present invention can significantly improve the adsorption and desorption performance of the target material by coating or impregnating the adsorbent on the surface of the thin plate for honeycomb structured body more efficiently.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 shows an apparatus for producing a thin plate for honeycomb structure according to the present invention.

As shown in the drawing, the apparatus for manufacturing a honeycomb structured thin plate according to the present invention includes an unwinding roll 51 for releasing the material 11 wound in a roll shape, and a first application of an adhesive to one surface of the material 11. The adhesive spreader 21, the first multi-coating unit 41 for coating an adsorbent on one surface of the material 11, the first drying unit 22 for drying one surface of the material 11, and the other surface of the material 11. A second adhesive agent for applying an adhesive to the aeration machine 23, a second multi-coating unit 42 for coating an adsorbent on the other surface of the material 11, and a second drying unit 24 for drying the other surface of the material 11. , A winding roll 54 which is disposed downstream of the unwinding roll 51 and winds up the thin plate 10 for honeycomb structured body to which the adsorbent is fixed, between the unwinding roll 51 and the winding roll 54. 11) a transfer unit 30 for transferring at a constant speed.

The unwinding roll 51 is wound around the outer circumferential surface of the material 11 of a metal or ceramic material in the form of a roll, and the material 11 is unwound from the unwinding roll 51 at a uniform speed by the transfer unit 30. Transferred.

The winding rolls 52 are arranged on the downstream side of the unwinding roll 51, and are configured to wind the thin plate 10 for honeycomb structured body, on which both sides of the adsorption layer are fixed.

The conveying unit 30 includes the first conveying roll 31 disposed on the downstream side of the unwinding roll 51, the second conveying roll 32 disposed on the downstream side of the first conveying roll 31, and the unwinding roll. The first feed belt 33 and the second feed roll 33 of the first feed belt 33 and the second feed roll 31 installed on the rotary shaft 51a of the 51 and the rotary shaft 31a of the first feed roll 31. The second transfer belt 34 installed on the rotation shaft 32a of the 32, the third transfer belt 35 installed on the rotation shaft 32a of the second transfer roll 32 and the rotation shaft 52a of the winding roll 52. ), The drive motor 36 is connected to the rotation shaft 51a of the unwinding roll 51 via a drive belt 37.

In addition, a driving belt 37 is installed on the rotating shaft 36a of the driving motor 36 and the rotating shaft 51a of the unwinding roll 51, and the driving of the driving motor 36 is driven by the first to third transfer belts. The unwinding roll 51, the first feed roll 31, the second feed roll 32, and the winding roll 52 rotate at the same speed by being uniformly transmitted through the 33, 34, and 35. The material 11 may be transported at a constant velocity. As the material 11 is transported at a constant velocity, adhesives and adsorbents applied to both surfaces of the material 11 may be uniform in thickness, thereby improving their manufacturing quality. can do.

The unwinding roll 51, the first conveying roll 31, the second conveying roll 32, and the winding roll 52 may be made of an insulating material for its insulation.

The first adhesive wrapping machine 21 is disposed between the unwinding roll 51 and the first transfer roll 31 to apply an adhesive to one surface of the material 11.

The first multi-coating unit 41 is configured to release and coat the adsorbent on one surface of the material 11, the first multi-coating unit 41 is made of a structure that is easy to attach and detach the honeycomb structure In addition, it is configured to selectively coat different types of adsorbents depending on the target material (moisture in case of dehumidification, moisture in case of total heat exchange, and VOC gas molecule in case of VOC removal). In particular, the first multi-coating unit 41 is disposed close to the opposite side of the first feed roll 31 and is installed to be curvature so as to correspond to the radius of the first feed roll 31 so that the first feed roll 31 is formed. The adsorbent may be coated on one surface of the material 11 to be conveyed more efficiently. On the other hand, the coating thickness of the adsorbent is easily depending on the interval between the first multi-coating unit 41 and the first feed roll 31, the release angle of the first multi-coating unit 41, the conveying speed of the material 11, etc. Can be adjusted.

The first drying unit 22 is composed of a dryer such as a hot air dryer or a catalytic burner, and is disposed between the first transfer roll 31 and the second transfer roll 32 to be transferred from the first transfer roll 31. By drying one surface of (11), the adsorbent is fixed to one surface of the raw material (11).

The second adhesive lapping machine 23 is disposed opposite the first drying unit 22 between the first conveying roll 31 and the second conveying roll 32 to be conveyed from the first conveying roll 31. It is configured to apply an adhesive to the other side of the material (11).

The second multi-coating unit 42 is configured to release and coat the adsorbent on the other surface of the material 11, the second multi-coating unit 42 is made of a structure that is easy to attach and detach the honeycomb structure, that is, It is configured to selectively coat different kinds of adsorbents according to the target material to be adsorbed (moisture in case of dehumidification, moisture in case of total heat exchange, and VOC gas molecule in case of VOC removal). In particular, the second multi-coating unit 42 is disposed close to the opposite side of the second feed roll 32 and is installed to be curvature so as to correspond to the radius of the second feed roll 32 so that the second feed roll 32 may be moved. The adsorbent may be coated on the other side of the material 11 to be conveyed more efficiently. On the other hand, the coating thickness of the adsorbent is easy depending on the distance between the second multi-coating unit 42 and the second transfer roll 32, the adsorbent release angle of the second multi-coating unit 42, the conveying speed of the material 11, etc. Can be adjusted.

The second drying unit 24 is composed of a dryer such as a hot air dryer or a catalytic burner, and is disposed between the second transfer roll 32 and the winding roll 52 and is transferred from the second transfer roll 32. By drying the other side of the), the adsorbent is fixed to the other side of the material (11).

The first and second multi-coating units (41, 42) may be made of a powder spray structure for injecting a powder adsorbent to the material (11) side, as shown in Figure 3 (a), such a powder The powdered adsorbent sprayed through the spray structure may be more easily attached by an adhesive applied in advance to the surface of the material 11.

In addition, the first and second multi-coating unit (41, 42) is the electric to emit the liquid adsorbent to the material 11 side in the state that the electric field is applied by the power source 45 as shown in Figure 3 (b) It may be made of an electro-spinning structure. The electrospinning can not only form the liquid adsorbent into the fibrous tissue more effectively by applying a high pressure electric field, but also can control the size of the fibrous tissue by controlling its viscosity and the like. In particular, the first and second multi-coating units 41 and 42 adopting the electrospinning structure do not need to apply an adhesive since the adsorbent is easily attached to the surface of the material 11 while the adsorbent is changed into a fibrous structure by an electric field. Thereby, the 1st and 2nd adhesive coaters 21 and 22 can be abbreviate | omitted.

As shown in FIG. 4, the powder spray structures of the first and second multi-coating units 41 and 42 include inorganic powder (silica powder, zeolite molecular sieve, etc.), polymer resin (ion exchange resin, polyvinyl alcohol, methyl Cellulose or the like) or a mixed powder thereof, by using compressed air.

As shown in Figure 4 (a), the powder injection structure of the first and second multi-coating unit (41, 42) is the adsorbent injection pipe (41a, 42a) for injecting the adsorbent in the powder state, for injecting compressed air The plurality of supply pipes 41d and 42d connected between the compressed air injection pipes 41b and 42b, the adsorbent injection pipes 41a and 42a and the compressed air injection pipes 41b and 42b, and each of the supply pipes 41d and 42d, respectively. It may be composed of a plurality of injection nozzle (41c, 42c) and the like.

On the contrary, as shown in FIG. 4B, the powder spray structures of the first and second multi-coating units 41 and 42 may include adsorbent injection pipes 41a and 42a and compressed air for injecting an adsorbent in a powder state. Compressed air injection pipes 41b and 42b to be injected, supply chambers 41e and 42e to which the adsorbent injection pipes 41a and 42a and compressed air injection pipes 41b and 42b are connected, and one surface of the supply chambers 41e and 42e, respectively. It may be composed of a plurality of injection nozzles (41f, 42f) and the like arranged in the.

The electrospinning structures of the first and second multi-coating units 41 and 42 may include a solution of a polymer resin (ion exchange resin, polyvinyl alcohol, methylcellulose, etc.), a solution of an inorganic substance (silica, zeolite, etc.), or a polymer resin and It is configured to spin the mixed solution of the inorganic substance by the electrospinning method.

Figure 2 shows a method of manufacturing a thin plate for honeycomb structure according to an embodiment of the present invention.

As shown, the manufacturing method of the honeycomb structured thin plate of the present invention is a first coating step (S2), the first drying step (S3) for drying one surface of the adsorbent to release and coat the adsorbent on one surface of the material, A second coating step (S5) of the adsorbent to release and coat the adsorbent on the other surface of the material, and a second drying step (S6) for drying the other surface of the material.

Referring to Figures 1 and 2 will be described in detail the manufacturing method of the honeycomb structured thin plate according to the present invention.

First, a material 11 made of a material such as aluminum or stainless steel or a ceramic is wound on the unwinding roll 51, and the material 11 is unwound from the unwinding roll 51 to convey the transfer unit 30. It is conveyed at a uniform speed through, so as to coat the adsorbent to a uniform thickness by the first multi-coating unit 41 on one surface of the material 11 is conveyed at a uniform speed (S2).

On the other hand, when the adsorbent first coating step (S2) of the present invention is a powder spray method for injecting the adsorbent in the powder state, as shown in Figure 2 before the adsorbent first coating step (S2) to the adhesive on one side of the material The first coating step S1 of applying adhesive may be performed. As the adhesive first coating step S1 and the adsorbent first coating step S2 are transferred at the same speed by the transfer unit 30, the adhesive is not only coated with a uniform thickness but also the adsorbent is coated with a uniform thickness. Can be. On the other hand, the coating thickness of the adsorbent may be variously adjusted according to the transport speed of the material 11, the release angle of the adsorbent, the distance between the discharge point of the adsorbent and the material 11 to be conveyed.

And, when the adsorbent first coating step (S2) of the present invention is an electrospinning method of spinning the liquid adsorbent under an electric field, the adhesive first application step (S1) for applying the adhesive to one surface of the material may be omitted. .

Thus, the adsorbent-coated material 11 is transported at the same speed as the steps (S1, S2), by drying one surface of the adsorbent-coated material 11 through the first drying unit 22 The adsorption layer is firmly fixed to one surface of the (S3).

Thereafter, the material 11 having the adsorption layer fixed to one surface is transferred to the other surface of the material 11 while continuously conveying the material 11 at the same uniform speed as the steps S1, S2, and S3 through the transfer unit 30. 2, the adsorbent is coated with a uniform thickness by the multi-coating unit 42 (S5).

On the other hand, when the adsorbent second coating step (S5) is a powder spray method for spraying the adsorbent in the powder state, as shown in Figure 2 to apply an adhesive to one surface of the material before the adsorbent second coating step (S5) Adhesive second coating step (S4) can be carried out. In the second adhesive coating step S4 and the second coating step S5 of the adsorbent, the material 11 is transferred at the same speed by the transfer unit 30 so that the adhesive is applied to the other surface of the material 11 in a uniform thickness. In addition, the adsorbent may be coated to a uniform thickness. On the other hand, the coating thickness of the adsorbent may be variously adjusted according to the transport speed of the material 11, the release angle of the adsorbent, the distance between the discharge point of the adsorbent and the material 11 to be conveyed.

In addition, when the adsorbent second coating step (S5) of the present invention is an electrospinning method of spinning a liquid adsorbent under an electric field, the adhesive second application step (S4) for applying an adhesive to one surface of a material may be omitted. .

The adsorbent-coated material 11 is transported at the same speed as the steps S4 and S5, and the other surface of the adsorbent-coated material 11 is dried through the second drying unit 24. By firmly fixing the adsorption layer to the other surface of the () (S6) it becomes a thin plate 10 for honeycomb structure.

Then, the thin plate 10 for honeycomb structure having the adsorption layer firmly fixed on both sides may be wound on the winding roll 52 and then be followed by a subsequent corrugation process or a planarization process.

In the adsorbent first coating step (S3) and the adsorbent second coating step (S5), the adsorbent coated on both sides of the material 11 by the first and second multi-coating units 41 and 42 is provided. It can be coated to a uniform thickness by the same speed feed of. The adsorbent may be an inorganic material (silica, zeolite), a polymer resin (polyvinyl alcohol, methyl cellulose, an ion exchange resin, etc.), a mixture of an inorganic material and a polymer resin, and the like. The adsorbent may be a thin plate 10 for a honeycomb structure. It may be variously selected depending on the application applied. That is, the adsorbent may be variously selected according to the target material (moisture in the case of dehumidification, moisture in the case of dehumidification, and VOC gas molecules in the case of VOC removal, etc.) according to the use. By selectively manufacturing various types of honeycomb structures within a single manufacturing method and manufacturing conditions, the productivity and manufacturing quality can be greatly improved.

Particularly, when the multi-coating units 41 and 42 have a powder spray structure for injecting a powdered adsorbent, the adsorbent is an inorganic powder (silica powder, zeolite molecular sieve, etc.), a polymer resin (ion exchange resin, poly Vinyl alcohol, methyl cellulose, and the like), a mixed powder of an inorganic material and a polymer resin, and the like, and the adsorbent when the multi-coating units 41 and 42 have an electrospinning structure in which the liquid adsorbent is electrospun. May be a solution of a polymer resin (ion exchange resin, polyvinyl alcohol, methyl cellulose, etc.), a solution of an inorganic substance (silica, zeolite, etc.), or a mixed solution of a polymer and an inorganic substance.

1 is a block diagram showing an apparatus for manufacturing a honeycomb structured thin plate according to an embodiment of the present invention.

Figure 2 is a process diagram showing a method for manufacturing a honeycomb structured thin plate according to an embodiment of the present invention.

3 is a block diagram showing the first and second multi-coating unit of the thin plate manufacturing apparatus for honeycomb structure according to the present invention.

Figure 4 is an exemplary view showing a powder spray structure of the first and second multi-coating unit of the present invention.

Brief description of symbols for the main parts of the drawings

10: sheet 11 for honeycomb structure

21: Abandon first adhesive 22: First dry unit

23: give up the second adhesive system 24: the second drying unit

30: transfer unit 41: first multi-coating unit

42: second multi-coating unit 51: unwinding roll

52: winding roll

Claims (14)

An unwinding roll for releasing the material wound in a roll form; A first multi-coating unit for discharging and coating an adsorbent on one surface of the material; A first drying unit for drying one surface of the material to fix the adsorbent; A second multi-coating unit for discharging and coating an adsorbent on the other surface of the material; A second drying unit fixing the adsorbent by drying the other surface of the material; A winding roll disposed downstream of the unwinding roll and winding a thin plate for honeycomb structure having adsorbents fixed to both surfaces thereof; And It includes a transfer unit for transferring the material at a constant speed between the unwinding roll and the winding roll, The first and second multi-coating unit is easy to attach and detach, honeycomb structured thin plate manufacturing apparatus, characterized in that the replaceable to selectively coat a different type of adsorbent according to the application of the honeycomb structure. The method of claim 1, The adsorbent thin film manufacturing apparatus for a honeycomb structure, characterized in that the coating thickness is adjusted according to the distance between the multi-coating unit and the transfer unit, the release angle of the multi-coating unit, the feed rate of the material. The method of claim 1, The conveying unit includes a first feed roll disposed downstream of the unwinding roll, a second feed roll disposed downstream of the first feed roll, a rotation shaft of the unwinding roll, and a rotation shaft of the first feed roll. A first transfer belt installed, a second transfer belt installed on the rotation axis of the first transfer roll and the rotation axis of the second transfer roll, a third transfer belt installed on the rotation axis of the second transfer roll and the rotation axis of the winding roll, And a drive motor connected to a rotation shaft of the unwinding roll via a drive belt. delete The method of claim 1, The first and second multi-coating unit is a thin plate manufacturing apparatus for a honeycomb structure, characterized in that individually arranged close to each of the first and second transfer roll. The method of claim 1, The adsorbent is an inorganic material, polymer resin, honeycomb structured thin plate manufacturing apparatus, characterized in that any one of a mixture of inorganic and polymer resin. The method of claim 1, Upstream of the first multi-coating unit is provided with a first adhesive coating machine for applying an adhesive to one surface of the material, upstream of the second multi-coating unit second adhesive coating machine for applying an adhesive to the other surface of the material Is installed, the first and second multi-coating unit is a honeycomb structured thin plate manufacturing apparatus, characterized in that it has a powder spray structure for spraying the adsorbent in the powder state. The method of claim 1, The first and second multi-coating unit is a thin plate manufacturing apparatus for honeycomb structure, characterized in that it has an electrospinning structure to electrospin the liquid adsorbent. A method for manufacturing a honeycomb thin plate using a manufacturing apparatus including a first and a second multi-coating unit that can be exchanged to selectively coat another type of adsorbent, Multi-coating unit installation step of selecting and installing the first and second multi-coating unit for ejecting the selected adsorbent according to the use of the honeycomb structure; An adsorbent first coating step of discharging and coating the adsorbent on one surface of the material while transferring the material at a uniform speed; A first drying step of drying one surface of the material while transferring at the same speed as the first coating step of the adsorbent; An adsorbent second coating step of discharging and adsorbing the adsorbent on the other surface of the material while transferring the material at a uniform speed; And And a second drying step of drying the other surface of the material while being transported at the same speed as the second coating step of the adsorbent. The method of claim 9, And the coating thickness of the adsorbent is controlled by the distance between the discharge point of the adsorbent and the material, the release angle of the adsorbent, and the feed rate of the material. The method of claim 9, The first coating step of the adsorbent is made of a powder spraying method for spraying the adsorbent in a powder state, and further comprising an adhesive first coating step of applying an adhesive to one surface of a material before the first coating step of the adsorbent. Thin plate manufacturing method for comb structure. The method of claim 9, The second coating step of the adsorbent is made of a powder spray method for spraying the adsorbent in the powder state, and a honeysuar second step of applying an adhesive to the other surface of the material prior to the second coating step of the adsorbent is honey. Thin plate manufacturing method for comb structure. The method of claim 9, The first coating step of the adsorbent and the second coating step of the adsorbent is a method for manufacturing a thin plate for honeycomb structure, characterized in that the electrospinning method. The method of claim 9, The adsorbent is a method for producing a thin plate for honeycomb structure, characterized in that any one of an inorganic material, a polymer resin, a mixture of an inorganic material and a polymer resin.

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