JPH09155128A - Sheet for ventilation fan filter - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To provide a ventilating fan filter sheet which can obtain good flame retardancy, oil and dust collecting ability and air permeability, and can improve the oil collecting rate and strength. SOLUTION: A flame-retardant spunbond layer 10 and a flame-retardant water jet nonwoven fabric layer 20 are laminated to form both layers 10, 2
The flame-retardant fibers 10a and 20a constituting 0 were entangled by a water jet process.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation fan filter sheet, and more specifically, it provides good flame retardancy, oil and dust collecting ability and air permeability, and improves oil collecting rate and strength. The present invention also relates to a ventilation fan filter sheet.

[0002]

[Prior Art] A ventilation fan installed in a kitchen
Since oil and dust are attached when fried or fried, the surface is covered with a filter during normal use. Although wire mesh and punched metal have been used as the filter material up to now, they have excellent heat resistance, but their ability to collect oil and dust is not sufficient. Therefore, for example, as described in Japanese Unexamined Patent Publication No. 4-247208, a filter for a range hood, a heat-resistant resin is used between the constituent fibers of a fiber web in which heat-resistant fibers are integrated so as to be oriented in one direction. A combination is being developed. This is a filter that is strong against heat, has a large gap between fibers, has good air permeability, and has an oil-collecting force as compared with a conventional wire net.

[0003]

However, in the conventional ventilation fan filter sheet, the constituent fibers of the fibrous web in which the heat-resistant fibers are oriented in one direction are bonded with a heat-resistant resin. Therefore, although the filter has a coarse mesh and good air permeability, it has an oil collecting power as compared with a wire mesh, but it has a problem that the ventilation fan is somewhat dirty.

The present invention has been made against the background of the above problems of the prior art. In addition to obtaining good flame retardancy, oil and dust collecting ability and air permeability, the oil collecting rate and strength can be improved. An object is to provide a ventilation fan filter sheet that can be improved.

[0005]

A sheet for a ventilation fan filter according to claim 1, wherein a flame-retardant spunbond layer and a flame-retardant water jet non-woven fabric layer are laminated to form flame-retardant fibers constituting the both layers. Entangled by water jet processing. Further, in the ventilation fan filter sheet according to the second aspect, the flame-retardant spunbond layer serves as a surface layer and the flame-retardant water jet nonwoven fabric layer serves as a back surface layer.

[0006]

In the ventilating fan filter sheet according to claims 1 and 2, when the ventilating fan is covered with the ventilating fan filter sheet, when indoor air passes through the ventilating fan filter and is discarded to the outside, Oil and dust contained in the air are trapped in the flame-retardant spunbond layer and the flame-retardant water jet non-woven fabric layer which are entangled with each other. Of these, the oil is firmly retained in the relatively thick flame-retardant water jet nonwoven fabric layer. Although the filter strength is weak only with a soft flame-retardant water jet non-woven fabric layer, a relatively strong flame-retardant spunbond layer is laminated on one side, so it will not easily break when attached to a ventilation fan, etc. . In addition, since both layers are entangled and integrated by a water jet, an adhesive or the like that joins both layers is not required, which can reduce costs and block flame-retardant fibers with an adhesive or the like. It is possible to eliminate the decrease in ventilation of the ventilation fan filter.

Particularly, in the ventilation fan filter sheet according to the second aspect, since the flame-retardant spunbond layer is used as the surface layer and the flame-retardant water jet nonwoven fabric layer is used as the back surface layer, the comparison is made in the air when the ventilation fan is used. Large dust is collected by the flame-retardant spunbond layer with relatively coarse eyes, and oil and fine dust are relatively fine-grained even if they are not caught by the flame-retardant spunbond layer. Collected in layers. In addition, since the flame-retardant spunbond layer, which is smooth and glossy, is used as the surface layer, it has a good appearance when mounted on a ventilation fan.

[0008]

Embodiments of the present invention will be described below with reference to the drawings. The ventilation fan filter sheet of one embodiment of the present invention is
Flame-retardant spunbond layer 1 made of long-fiber flame-retardant fiber 10a
0 and a flame-retardant water jet non-woven fabric layer 20 composed of short-flame flame-retardant fibers 20a are laminated to form both flame-retardant fibers 10
It is a sheet made of a non-woven fabric in which a and 20a are entangled by a water jet process.

Examples of the material of both flame-retardant fibers 10a and 20a are polyester fiber, polyamide fiber, polyethylene fiber, polypropylene fiber, polyacrylonitrile fiber, rayon fiber, acetate fiber, aromatic polyamide fiber, phenolic fiber, polybenzisumi. Examples thereof include dazole fiber, polyimide fiber, urea resin fiber, melamine resin fiber, polytetrafluoroethylene fiber and polyclar fiber. Of these, polyacrylonitrile fiber, polyester fiber, and polyclar fiber are particularly preferable.

Specific flame retardants contained therein are poly-n-propoxyphosphazene, polyphosphonate, phosphaphenanthrene ring-containing polyester, hexabromocyclododecane, tetrabromobisphenol A.EO adduct and tetrabromo. Examples include a mixture of bisphenol A diglycidyl ether derivative, a mixture of diphenyl and phenylphosphorus III chloride, a resorcin condensate and aluminum metaphosphate, phosporane, a phosphine oxide derivative, and oxaiphospholane.
You can select one or more of them.

Flame Retardant Fiber 10 for Flame Retardant Spunbond Layer 10
The single yarn fineness of a is 0.5 to 40 de, especially 1.5 to 30.
De is preferable, and if it is less than 0.5 de, it is unsuitable because the eyes become too fine and the ventilation resistance becomes large.
When it exceeds 40 de, the basis weight becomes too heavy to obtain strength, resulting in high cost.

The flame-retardant water jet non-woven fabric layer 2
The single yarn fineness of the flame-retardant fiber 20a for 0 is 0.5 to 30d.
e, particularly preferably 1.5 to 20 de. Single yarn fineness
If it is less than 0.5 de, the ventilation property of the ventilation fan filter is lowered and the filter is apt to be clogged, so that the service life of the filter is short, while if it exceeds 30 de, the degree of entanglement with the spunbond layer is weak. The possibility of peeling into layers increases, and the oil collection ability decreases.

The flame-retardant spunbond layer 10 is formed by spraying melt-spun long-flame flame-retardant fibers 10a on a screen and accumulating them into a thin sheet through a heating roller. The basis weight is 6 to 40 g / m ² , especially 10
-30 g / m ² is preferable. If it is less than 6 g / m ² , the strength of the ventilation fan filter is small and it is easy to tear, and the dust collection property is poor, while if it exceeds 40 g / m ² , the ventilation property of the ventilation fan filter is poor. With, it is not economical.

Further, the flame-retardant water jet non-woven fabric layer 2
0 forms a web with flame-retardant fibers 20a of short fibers,
High-pressure water was sprayed onto it, and the fibers were entangled and dried. A specific manufacturing facility for the flame-retardant water jet non-woven fabric layer 20 is a web forming device that web-processes the flame-retardant fiber 20a, which is then sent to an entanglement device to cause fiber entanglement by jetting high-pressure water, followed by heating. It is manufactured by winding what is heated by the device.

The entanglement device comprises a high-pressure water jet source for entanglement of fibers and a conveyor net.
A nycomb entanglement dryer is used. As the conveyor net, a perforated drum provided with 70-100 mesh / cm ² metal web support ropes on the entire outer peripheral surface is used, and as the high-pressure water jet source, a plurality of water jet manifolds are arranged. What is provided is used. As the drying device, for example, one having a rotatable drum-shaped honeycomb dryer inside a hood having an opening at the bottom can be adopted. The winding device winds the manufactured flame-retardant water jet nonwoven fabric layer 20 by a winding roller rotated by a motor.

The flame retardant fiber 20a has a basis weight of 10 to 60 g / m.
^2, particularly preferably ^{15~50g / m 2, 10g / m} 2
If it is less than 6, the strength of the ventilation fan filter is small and it is easy to tear, and the ability to collect oil and dust and the amount of oil retained are reduced.
When it exceeds 0 g / m ² , the ventilation of the ventilation fan filter deteriorates and it is not economical.

As described above, the breathability and oil retention of the entire ventilation fan filter sheet are as described above.
0 and the basis weight of the flame-retardant water jet non-woven fabric layer 20, the single yarn fineness of the flame-retardant fibers 10a, 20a, and the like, but vary inversely proportionally. Therefore, the values of these areal weights and thicknesses should be selected as optimal as possible.

Further, a glossy flame-retardant spunbond layer 10
Is a surface layer and the fluffy flame-retardant water jet non-woven fabric layer 20 is a back surface layer, the appearance is better when a ventilation fan is attached, and large dust floating in the air causes flame retardance on the surface side, which is relatively rough. Since the spun bond layer 10 collects oil and fine dust by the flame-retardant water jet non-woven fabric layer 20 on the back side, which has relatively small eyes, it looks like a ventilation fan filter even after long-term use. The dirt is not noticeable.

After laminating the layers 10 and 20, the fibers between the layers are entangled and laminated by a water jet process. The water jet treatment at this time is the same as the water jet treatment of the flame-retardant water jet nonwoven fabric layer 20. Here, the injection pressure of high-pressure water is 30 to
180 kg / cm ^2, particularly preferably 40~150kg / cm ^2, is less than 30kg / cm ^2, interlacing is insufficient, fiber or disengaged during use, there is a risk of peeling the spunbond layer, whereas, 180 kg If it exceeds / cm ² , the manufacturing cost becomes high and it is not economical. After that, 1
It is passed through a drying device at a temperature of 20 to 180 ° C. to be dried, and wound by a winding roller.

In the sheet for a ventilation fan filter of the present invention, when the flame-retardant water jet nonwoven fabric layer 20 is produced, the produced flame-retardant spunbond layer 10 is separately laminated, and both are subjected to water jet treatment in-line. It is also possible to manufacture it.

Next, a description will be given of an execution test comparing the ventilation fan filter sheet of the embodiment with the conventional ventilation fan filter sheet. In the examples, flame retardancy, air permeability, average oil collection rate, oil retention, and dry tensile strength were measured as follows.

Flame retardant fire protection method 45 ° method 60 seconds flame contact test. It was performed by air permeability Frazier type aeration amount measuring method (JIS L-
1096 compliant).

Average Oil Collection Rate The oil content is collected by the ventilation fan filter, and the flow-out part is received by the oil receiver. From the weight changes of these ventilation fan filters, oil pans, and backup filters, the collection rate of the ventilation fan filters was calculated according to the following formula. Average collection rate = [oil attached to filter (g) + oil attached to oil receiver (g)] / amount of oil generated (g) The amount of oil generated is the weight of oil attached to the ventilation fan filter + oil received on the oil filter + oil attached to the backup filter. Calculated by total.

A test piece having an oil holding amount of 10 cm × 10 cm was dipped in salad oil,
The oil was drained on a wire mesh for 1 hour, and the weight difference before and after was measured. This was repeated 5 times and the average value was calculated. Tensile strength when dry Tensile strength was measured for tensile strength of a test piece having a width of 25 mm and a distance between chucks of 100 mm (based on JIS L-1085).

Example 1 A sheet-shaped spunbond having a basis weight of 15 g / m ² was prepared using flame-retardant polyester fiber and wound into a roll. On the other hand, a polyester fiber (a cut length of 51 mm, a single yarn fineness of 3.0 de, and a cut length of 68 mm and a single yarn fineness of 60 de, each mixed by 50% by weight) was used to form a web using a card. While being placed on the above-mentioned sheet-shaped spunbond so as to have a uniform thickness, high-pressure water was jetted to entangle the polyester staple to form a single sheet. Then, the sheet was dried and wound to obtain a sheet for a ventilation fan filter of the present invention. The various tests described above were performed on the obtained ventilation fan filter sheet. Table 1 shows the results.

Comparative Example 1 70% by weight of flame-retardant polyclar fiber (cut length 51 mm, single yarn fineness 7.0 de) and 30% by weight of flame-retardant polyester fiber (cut length 51 mm, single yarn fineness 4.0 de) were mixed. After stuffing it into a card to make a uniform web, dip it in a 17 wt% emulsion liquid of flame-retardant chemical bond, squeeze it with a pressure roller, dry it in a drying oven at a heating temperature of 150 ° C, cure it, and weigh 40 g. A sheet having a thickness of / m ² and a thickness of 0.53 mm was prepared. Using this sheet, the same test as in Example 1 was performed. Table 1 shows the results.

[0027]

[Table 1]

As is clear from Example 1, the flame-retardant spunbond layer 10 and the flame-retardant water jet non-woven fabric layer 20.
Flame-retardant fiber 10 constituting both layers 10 and 20 by laminating and
By entangling a and 20a with each other by the water jet treatment, good flame retardancy, oil content and dust collection property and air permeability were obtained, and at the same time, the oil collection rate and strength could be improved.

Although the embodiment of the present invention has been described above, the present invention is not necessarily limited to this embodiment, and even if the design is changed without departing from the scope of the invention, the present invention is included. For example, the method for producing the flame-retardant spunbond layer and the flame-retardant water-jet nonwoven fabric layer, the water-jet treatment of the flame-retardant fibers constituting both layers, and the like need not be limited to those in the examples.

[0030]

As described above, in the ventilating fan filter sheet according to claims 1 and 2, the flame retardant spunbond layer and the flame retardant water jet nonwoven fabric layer are laminated to form both layers. Since the flame-retardant fibers are entangled with each other by the water jet treatment, good flame retardancy, oil content and dust collection property, and air permeability can be obtained, and the oil collection rate and strength can be improved.

Further, in the ventilation fan filter sheet according to claim 2, since the glossy flame-retardant spunbond layer is used as the surface layer and the fluffy flame-retardant water jet nonwoven fabric layer is used as the back surface layer, the appearance when the ventilation fan is mounted In addition, the dust in the air is collected by the flame-retardant spunbond layer on the surface side, which has relatively coarse eyes, and the oil and fine dust are collected by the flame-retardant water jet nonwoven fabric layer on the back side, which has relatively small eyes. It can be collected, so that dirt will not be noticeable from the outside even after long-term use.

[Brief description of the drawings]

FIG. 1 is an enlarged cross-sectional view of a ventilation fan filter sheet according to an embodiment of the present invention.

[Explanation of symbols]

 10 Flame Retardant Spunbond Layer 10a Flame Retardant Fiber 20 Flame Retardant Water Jet Nonwoven Fabric Layer 20a Flame Retardant Fiber

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Noriyasu Ike Nogawa, Ino-cho, Kochi Prefecture, 287 4 Kochi Prefectural Paper Industry Technology Center (72) Inventor Kazuhide Hamada 287, Nogawa, Ino-cho, Inagawa-gun, Kochi Prefecture Kochi Prefectural Paper Industry Technology Center (72) Inventor Hiroto Takiguchi 287 Hagawa, Ino Town, Inagawa-gun, Kochi Prefecture 4 Kochi Prefectural Paper Industry Technology Center (72) Inventor Kazo Terao 63 Iguchi Town, Kochi City Kochi Prefecture Stock Company

Claims (2)

[Claims] 1. A ventilation fan filter, characterized in that a flame-retardant spunbond layer and a flame-retardant water jet non-woven fabric layer are laminated and the flame-retardant fibers constituting the both layers are entangled by a water jet treatment. Sheet. 2. The flame-retardant spunbond layer as a surface layer,
The ventilation fan filter sheet according to claim 1, wherein the flame-retardant water jet non-woven fabric layer is a back layer.