JP2001038119A - Filter medium and filter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain filter media and filter which have filtration performance in comparison with that of filter paper by ordinary sheet making and are easily and inexpensively producible to arbitrary shapes by thermally molding material for the filter media containing adhesive fiber processing materials having adhesives on the surfaces of fibers or threads. SOLUTION: A filter body 2 having cylindrical filter media 2b on a peripheral side of a central cylindrical body 2a having water permeability is arranged into a case member 1 of a blind cylindrical shape via a leaf spring 3 at its bottom. Also, a recessed groove of a tubular body 4 for a valve having a tray- like valve disk 4a consisting of a flexible material is brought into abutment on the top end of the central cylindrical body 2a. Further, a ceiling plate member 5 having a threaded hole 5a communicating with the central cylindrical body 2a and a circumferential through-hole 6b is brought into abutment on the inside surface at the upper end of the tubular body 4 for the valve. As a result, a cartridge oil filter 7 inserted with the filter body 2 in a metallic case 6 is constituted. At this time, the cylindrical filter media 2a are formed by thermal molding of the material containing the adhesive fiber processing materials having the adhesives on the surfaces of fibers, etc.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter medium and a filter capable of removing impurities such as pollutants in a fluid.

[0002]

2. Description of the Related Art In various fields, air filters for removing impurities such as pollutants in gas are used for ventilation, exhaust gas, and other dusts flowing gas. In addition, automotive field, machine manufacturing field, machining field,
In the machine tool and marine fields, lubricating oil is used, and the oil is circulated and used.In that case, an oil treatment filter is provided in the middle of the circulation circuit to remove the oil. Filtration has also been performed. Filters for removing impurities from other gas and liquid fluids are used in various fields. Specifically, for example, for internal combustion engines such as automobiles, oil is circulated and used as a lubricant to reduce friction between the cylinder of the engine and the piston head, but with the operation of the engine, The oil is heated by the heat generated, and if this is continued for a long time, the oil deteriorates, and significant oil is carbonized to produce carbon fine particles, which are reduced in lubricating action, so that they are filtered. Oil treatment filters are essential. The causes of oil deterioration include the incorporation of solid fine particles, the incorporation and generation of acidic substances in the oil circulation path, and the incorporation of metals and metal salts.
In order to circulate the oil and maintain its lubricating action normally, it is necessary to remove these contaminants and products. In practice, a cartridge type oil treatment filter having a structure that is integral and cannot be disassembled, in which a filter medium consisting of a filter medium and its support member is incorporated in a steel case, is often used, and the spent oil discharged from the internal combustion engine is used. And filtered back to the internal combustion engine, which is incorporated as an integral part of the oil circulation circuit.

[0003] Broadly speaking, automobile filters can be broadly divided into the above-described oil filters, air filters, and air filters.
Three types with the addition of fuel filters have been used.
The filter material of these filters is mainly filter paper or nonwoven fabric, and improvements have been made to improve the performance as filters based on these materials. For example, in the case of an air filter, linter pulp is frequently used as a pulp material to increase the porosity of the filter paper, a density gradient type filter material in which the filter papers are successively denser in the direction in which air passes, and furthermore, an electrostatic charge. There is known an electret material or the like in which dust is adsorbed by electrostatic attraction. In the case of an oil filter, a filter medium similar to the above-mentioned density gradient type filter medium, a bypass filter paper mixed with an inorganic additive such as potassium titanate, and the like have been studied.

[0004]

However, among these filter media, the filter media in which the porosity is changed or the density gradient is provided are limited because the raw materials of the filter media are limited. It cannot be expected to be large, and it is impossible to greatly improve the performance of the filter. If the permeation amount of the fluid is increased, the trapping efficiency of the dust decreases.On the contrary, if the efficiency of trapping the dust is increased, the permeation amount of the fluid must be reduced. This is because a filter material that can increase the amount of permeation and that does not lower the efficiency of capturing dust is not obtained. In addition, the electret material has a problem that its use is limited to gas filtration, and the amount of electrostatic charge is reduced when the material is heated during processing or use. Also,
Since the main purpose of the filter paper for pipass mixed with potassium titanate is to capture fine particles, there is a problem that the pore size of the filter material is small and the amount of permeation of the fluid becomes extremely small. . A first object of the present invention is to perform heat molding, for example, a filter material of any shape can be obtained by changing a mold, and a manufacturing process can be reduced by a simple processing step. It is an object of the present invention to provide a filter material and a filter which are not inferior in performance. A second object of the present invention is to provide a filter material and a filter which are difficult to fall off even when a non-adhesive material component is used. A third object of the present invention is to improve both the amount of permeated fluid and the efficiency of capturing impurity components in the fluid, or to improve the performance of one without lowering the level of performance of the other. It is an object of the present invention to provide a filter material and a filter that can be used. A fourth object of the present invention is to provide a filter and a filter which can be effectively used in various fields. A fifth object of the present invention is to provide a filtering material and a filter which are excellent in trapping efficiency even for oily impurities. A sixth object of the present invention is to provide a filter material and a filter which are excellent particularly for lubricating an automobile engine.

[0005]

In order to solve the above-mentioned problems, the present invention provides (1) a method of using a filter material containing an adhesive fiber material having an adhesive on the surface of a fiber or a yarn. It is intended to provide a heat-formed filter material. In addition, the present invention provides (2) a filter formed by heating and forming using an adhesive fiber material having an adhesive on the surface of a fiber or a yarn, and a filter material having sepiolite having a hydrous magnesium silicate composition as an active ingredient. (3), at most 50 parts by weight of synthetic fiber, 50 to 100 parts by weight of an adhesive fiber material having an adhesive on the surface of fiber or yarn, and 5 to 1000 parts by weight of sepiolite having a hydrous magnesium silicate composition Filter material, heat-formed using the material for the filter material contained in the proportion of parts,
(4) the filtering material according to any one of the above (1) to (3), wherein the sepiolite is a mountain leather type;
(5) The filtering material according to any one of (1) to (3), wherein the adhesive fiber material is a sheathed yarn having a sheath of an adhesive layer on the peripheral side of the yarn, (6), the sheathed yarn is (7) a filter comprising the polyester yarn and the sheath of the adhesive layer, (7), a filter comprising the filter material of (1) or (6),
(8) An object of the present invention is to provide the filter according to the above (7), which is an oil filter for lubricating oil of an automobile. In addition,
(9) the filter of (7) above for purifying automotive air, (10), the filter of (7) above for exhaust gas from automobiles, (11), the filter of above (8) for bypassing, (12) An object of the present invention is to provide the filter according to any one of the above (8) to (12), which is used in combination with an ordinary filter. At this time, the “air permeability measured according to JIS P8131” is particularly 30 to 50 in the case of the above (11) and the invention cited therein, and particularly in the above (1) to
(6) and in the case of the invention citing these, at most 1
In the case of 0 (10 or less, the same applies hereinafter), particularly in the case of the above (8) and the invention cited therefor, it may be 5 at most.

In the present invention, the term "adhesive fiber processed material having an adhesive on the surface of a fiber or a yarn" refers to a fiber or a processed product thereof having an adhesive on the surface of a spun yarn thereof, As the fiber or yarn, at least one of natural and synthetic is mentioned, and those having oil resistance and heat resistance are preferable, and as the adhesive, the fiber or yarn, if necessary, can be heat-fused with other additional components. It may be a thermoplastic, but may be a curable type that cures after fusion. In the case of having an adhesive on the surface of the yarn, for example, polyester,
A coaxial structure which is a sheathed yarn (core-sheath structure) having a sheath of an adhesive layer on the peripheral side of a yarn of a synthetic fiber of preferably polyester such as nylon is used, and the adhesive layer has a low melting point resin. Can be used. These can be easily produced by so-called melt spinning, and some are commercially available. In the case of having an adhesive on the surface of the fiber before spinning, spraying an adhesive on the surface of the fiber, or immersing the fiber in an adhesive solution to form a film thereof, It is not limited to this. The above-mentioned adhesive fiber processed material may be used alone as a material for a filtering material, but other natural, synthetic or both fibers and / or fibers that may be both, one or both of which and a sepiolite having a hydrous magnesium silicate composition, Further, any of a plurality of materials including other materials may be added to these materials for use.

Sepio having a hydrous magnesium silicate composition
Light is (OH_Two )_Four (OH) _Four Mg₈ Si₁₂O₃₀
6-8H_Two It has a chemical composition of O, and talc (talc) brick
Has a three-dimensional crystal structure in which
Unlike ordinary layered clay (montmorillonite), it swells
The pores formed in the chain-like gaps do not cause a large surface area
It is a substance that has a sticking action and a decolorizing action. Lumpy viscous
Soil, relatively fibrous leather, cork
Shaped, woody, so-called mountain leather type
There is something. About 10 Å and 200 Å
The pores are distributed in the tromes, and their specific surface area is 300m
^Two / G, indicating solid acidity and utilizing these to decolorize
Can be used as a water-absorbing agent, water-absorbing agent, deodorant, oil-absorbing agent.
It shows excellent oil absorption. As a binder for other powders and fibers
Can be used. Specifically, marketed under the product name of Aid Plus
Uses short fiber products and long fiber products (ML-type)
it can. (The above is quoted from the catalog of Mizusawa Chemical). Up
In addition to the above sepiolite, other ingredients, activated carbon,
A fibrous substance or other substances may be mixed and used.

In the present invention, the "filtering material" is obtained by heat molding. When the adhesive fiber material is used alone, for example, it can be obtained by heat forming an aggregate of the press sheets. When short fibers or long fibers of the above-mentioned filter material (sometimes referred to as yarn), sepiolite, and other components are used alone or in combination,
Each component can be obtained by mixing using a mechanical means and subjecting the mixture to heat molding. Alternatively, layers of different components may be laminated, for example, a layer of sepiolite may be formed between a sheet-like adhesive fiber processing material and a fiber material or between a mixture of both, and then heat-formed. . When using an adhesive fiber processing material and sepiolite, and using fibers as necessary, the mixing ratio thereof is 50 to 100 parts by weight of the adhesive fiber processing material, 0 to 50 parts by weight of fibers, and 5 to 1000 parts by weight of sepiolite. Is preferred. The fibers may be natural, synthetic or both, but it is also preferable to use synthetic fibers. To perform heat molding, the material to be processed can be sandwiched between flat plates, and then heat-formed into a sheet shape. , And may be formed into an arbitrary shape. It may be a ceramic lattice, a honeycomb structure, or a corrugated plate.

[0009] The molded article obtained by heat molding includes:
The air permeability measured according to JIS P8131 is 30 to 5
0, preferably, for example, around 35 to 40, for example, a filter for automotive lubricating oil bypass, if the air permeability is 10 or less, a filter medium and a filter using the same, the air permeability is 5 or less When it is preferably 0.5 to 3, it is preferably used, for example, as a filter for a lubricating oil of an automobile and a filter material used for the filter. A conventional bypass filter containing potassium titanate contains the same potassium titanate except that it is heated and molded using an adhesive fiber processing material instead of papermaking, and furthermore, a partial replacement product thereof. May be a filter using sepiolite. In the present invention, the “filtering material” may be referred to as a “filtering material that is located in a flowing fluid and removes an impurity component in the fluid by adsorption”. The “impure component” is an undesirably small or trace component contained in a fluid, and its name is not limited, such as contaminants, mist, dust, dust, pollutants, and contaminants. The “fluid flowing” does not include a fluid in natural air or a confined space, and includes, for example, a fluid that is intentionally circulated, discharged, introduced, and the like. It may be.

In the present invention, "filtering material" and "filter" include a filter for an automobile (air filter, fuel filter, oil filter, filter for muffler, filter for indoor ventilation), the above-mentioned oil filters in other industrial fields, and the like. Oil filter, general ventilation filter, filter for exhaust gas from chimneys and the like. It is particularly effective in filtering oily impurity components in gas and contaminants in lubricating oil.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail with reference to the following examples, but it is preferable to use a sheathed yarn as an adhesive fiber material. Is 10 of the same or different type from the yarn made of synthetic fiber.
It is also preferable to use a sheath made of an adhesive layer of a synthetic resin that melts at 0 to 200 ° C., and it may be used alone to form a filter material by heat molding. In the ratio, the sheathed yarn: sepiolite = 20: 1 to 1:20, and the mixture may be used as a filter material by heat molding using a mixed material, which is preferable as a filter for oil treatment of automobiles. In particular, when sepiolite is used in combination, It is preferable as a filter material for a bypass of a combination type filter for oil treatment. Adhesive fiber processing materials are bonded to each other by the adhesive and can be integrated, for example, a heat forming method sandwiched between flat plates, a simple heat forming method of heat forming into an arbitrary shape using a mold. And the air permeability and water permeability of the fibers can be maintained even after the integration. At that time, the other additive components are also adhered by the adhesive, so that their detachment can be prevented. Also, when sepiolite is used in combination with the adhesive fiber processing material, sepiolite has a good pore absorption structure having a large surface area for pores, and has a good adsorption performance of impurity components in a fluid, particularly, oily contaminants, mist, dust, and other impurity components. The filter medium mixed with the filter medium can improve the trapping efficiency of impurity components while maintaining the amount of permeation of the fluid, and the filter using the filter medium can increase the filtration efficiency while maintaining the so-called filtration life. Can be.

[0012]

Next, embodiments of the present invention will be described. Example 1 50 parts by weight of an adhesive long fiber (a coaxial sheathed yarn having a polyester adhesive layer sheath having a melting point of 160 ° C. on a polyester core) 50 parts of a sepiolite (ML-type) as an adhesive fiber processing material Parts by weight with a stirrer, the mixture is sandwiched between flat plates, and the thickness is 2 mm and the basis weight is 150 g /
A filter material composed of m ² mixture material sheet (effective filtration area 2 cm ² ) was prepared and used as a test piece. JIS P8131
It is a measurement value performed according to the "air permeability test method of paper and paperboard", and is indicated by the time when 300 cc of air passes through a circular test piece having a diameter of 10 mm, and the air permeability was 0.8. . The following "test of filtration efficiency" was performed on this test piece using the "test oil and test dust" described below. Test oil and test dust Test oil: Same as the product described in JIS D1611. SAE # 30 (trade name) which is a lubricating oil of Class 1 and No. 3 of JIS K2216. Test dust: Contaminant is SOFT C-2A
(Used by PTI, USA, importer Riko Trading Co., Ltd.). The contents are well mixed with the following composition. Carbon black (average particle size: 80 μm) 16% by weight Ferric oxide (containing 95% of particles having a particle size of 5 μm or less) 2% by weight Petroleum-based asphalt resin powder 4% by weight Oil used 78% by weight Petroleum-based asphalt resin powder Is JIS Z88
0% on a 590 μm sieve, 177 μm
It shows a particle size distribution of 10% on m sieve and 0% on 74 μm sieve. Test of Filtration Efficiency After 50 g of test oil containing 0.9 wt% of the test dust described above was passed once through the test piece of the filter material of the above sheet (effective filtration area 2 cm ² ), the filtrate was diluted with kerosene. And
After filtration through a 0.45 μm membrane, the amount of contaminants is determined from the residual weight. The filtration efficiency is determined by the following equation. Filtration efficiency (%) = (initial amount of contaminants in oil−contaminant amount in filtrate) / initial amount of contaminants in oil As a result, the filtration efficiency was 78%. In addition, JIS P813 is used as a filter material for a filter for Bypass.
The air permeability of the test piece prepared according to
Then, good results were obtained.

Example 2 The procedure of Example 1 was repeated, except that sepiolite was not used, and only adhesive long fibers were used.
A laminated sheet comprising two adhesive long fiber sheets having a basis weight of 150 g / m ² and a layer of sepiolite used in Example 1 having a thickness of 1 mm therebetween (the above JIS P8
A test piece of a filter medium having an air permeability of 1.0) was prepared from the test piece 131. When a test similar to that of Example 1 was performed using this test piece, the filtration efficiency was 94%.

Example 3 65 parts by weight of the adhesive long fiber used in Example 1 and 35 parts by weight of sepiolite used in Example 1 were mixed with a stirrer, and the inner diameter was 26 mm, the outer diameter was 60 mm, the height was 60 mm, and the weight was 14 g.
(A sheet having the same composition, the same shape, only the height of 2 mm, and the weight of 0.5 g, having an air permeability of 0.7 according to the above JIS P8131) was prepared. This is assembled into a cartridge oil filter as shown in FIG. That is,
As shown in FIG. 1, a filter body 2 provided with a cylindrical filter medium 2b on a peripheral side of a central cylindrical body 2a having water permeability is provided in a bottomed cylindrical case member 1, and a leaf spring 3 is provided at a lower end thereof. To place through. At this time, the upper and lower sides of the filter 2 are closed by a donut-shaped sheet (not shown). The case member 1 made of a flexible material such as rubber is provided on the end surface of the protruding portion provided by extending the upper end of the center cylindrical body 2a of the filter body 2 (or the end surface similarly formed at the center portion of the upper end plate). Abuts the concave groove on the end face of the valve tube 4 having the dish-shaped valve body 4a covering the opening at the upper end of the valve. A ceiling plate member 5 having a screw hole 5a in the center thereof communicating with the central cylinder 2a of the filter body 2 and a through hole 5b formed in the periphery thereof is brought into contact with the inner surface of the expanded portion at the upper end surface of the valve tube 4, The plate member 5 is replaced with the case member 1
The filter body 2 is pressed and supported on the ceiling plate member 5 via the valve tube 4 by the elastic force of the leaf spring 3 so as to be fixed. Thus, the cartridge oil filter 7 in which the filter body 2 is provided inside the metal case 6 is obtained. The usage method is as follows. When the outlet pipe is screwed into the screw hole 5a and the oil flows, the oil enters through the through hole 5b, deforms the valve element 4a by the flow pressure, and moves between the end and the case member 1. A gap is formed, from which oil flows in, passes through the filter medium 2b and rises in the central cylindrical body 2a,
It is discharged to the outlet pipe via the valve pipe 4. At this time, the valve body 4
a is a check valve. Here, the height of case 1 is 75 mm,
The outer diameter is 65 mm, and the same as in the first embodiment,
, A filtration efficiency test was performed.
8%. In addition, "Filter life test" (JIS D
Test method based on 1611 "Test method for automobile filter")
, The filtration life was 81 hours.

Example 4 The thickness of the adhesive fiber used in Example 1 was 2 mm.
A test piece of a filtering material (a JIS P8) consisting of a laminated sheet in which three adhesive fiber sheets having a basis weight of 150 g / m ² are laminated.
131, an air permeability of 0.9) was prepared, and the same test as in Example 1 was performed. As a result, the filtration efficiency was 15%.

Example 5 In Example 3, a cylindrical filter medium (same composition, same shape, only height 2 mm, weight 0.2 mm) was prepared in the same manner as in Example 3, except that only the adhesive long fiber was used and no sepiolite was used. 45g
The air permeability of the sheet according to JIS P8131 is 0.1.
7) was prepared and tested in the same manner as in Example 3. The filtration life was 85 hours and the filtration efficiency was 69%.
Met.

Comparative Example 1 A paper made of only wood pulp and having a basis weight of 200 g / m ² (air permeability according to JIS P 8131 is 1.0)
Was used as a test piece, and the same test as in Example 1 was performed. As a result, the filtration efficiency was 9%.

Comparative Example 2 A cartridge oil filter was prepared in the same manner as in Example 3 except that the filter paper used in Comparative Example 1 was used, and a “filtration efficiency test” and a “filtration life test” were performed in the same manner as in Example 3. The filtration efficiency was 84% and the filtration life was 47 hours.

Example 6 A basis weight 1 consisting of 50 parts by weight of the adhesive long fiber used in Example 1 and 50 parts by weight of sepiolite (ML-type described above)
80 g / m ² mixed material sheet (JIS P8131)
Of 0.9). Next, using this mixed material sheet, a grid-like molded body (50 mm × 50 mm in outer dimensions)
mm, a length of 100 mm, and a cross section of 5 mm × 5 mm square hole). The weight of the filter was 14.5 g. Separately, 200mm x 20
Make a box of 0mm x 500mm (height), side opening of 200 x 30mm from the bottom on the side, 50m on the top
An upper opening having a size of mx 50 mm was formed, and the filter formed of the lattice-shaped molded body was fitted into the upper opening so that the upper surface of each filter was located on one plane. An alcohol lamp is placed on the bottom of the box to burn light oil as fuel (the amount of generated dust is about 0.04 g / min), and the flow rate of the combustion gas is 0.1 m ³ from the outlet side, that is, from the top side of the filter.
Per minute. After the suction was continued for 30 minutes, the filter was removed and its weight was weighed to find 14.97 g. From this value, the value obtained by subtracting the weight of the filter of 14.5 g was the dust adsorption amount, which was 3 times the dust capture efficiency.
This corresponds to 9.2%. This embodiment may be considered as a simplified model of an exhaust gas filter for a muffler of an automobile or a filter for ventilation of an interior of an automobile.

Comparative Example 3 A filter paper consisting of only wood pulp (basis weight: 185 g) (J
Except for using air permeability of 1.2) according to ISP 8131, a filter body made of a lattice-shaped molded body similar to that in Example 6 was prepared, and a test was performed in the same manner as in Example 6. The weight of the filter before the test was 22.40 g, and the weight of the filter after the test was 22.51 g. The difference between these values is the dust adsorption amount, which corresponds to a dust capture efficiency of 9.2%.

Example 7 The mixed material sheet composed of adhesive long fibers and sepiolite used in Example 1 was used as a filter material for a bypass element.
Assemble into the oil treatment compilation type filter as shown in (1). That is, as shown in FIG. 2, there is provided a cylindrical case 1 'on which a mounting plate 1'b having an opening 1'a is mounted, and inside the mounting plate 1'b, a filtered oil delivery pipe 1 is provided. 'c, the closing plate 1'e provided with the oil introduction holes 1'd. A double pipe projecting from a flat plate-like bracket (not shown) attached to the internal combustion engine of the automobile via an oil reservoir and communicating with the internal combustion engine via an oil reservoir,
By inserting a filtered oil introduction pipe 1'g having a 1'g-1 and a bypass outer pipe 1'g-2 into the filtered oil delivery pipe 1'c, the gasket 1'f allows the gasket 1'f to connect to the closing plate. A flat plate-shaped bracket is sealed. Reference numeral 2 'denotes a filter element of a bypass element. The mixture material sheet 2'f is provided between the donut-shaped end plates 2'a and 2'b around a resin pipe 2'c and fastened. Fix with the tool 2'g and the outer tube 1'g-
2 is inserted into the insertion hole of the end plate 2'a, and the resin pipe 2'c is connected to and communicated with the outside of the inner pipe 1'g-1 via a rubber packing. 3 'is a filter body of a full flow element, which is a cylindrical body 3'b and a donut-shaped end plate 3'c, 3'
d 'supporting member 3'a, and pleated filter paper as a filtering material
Consists of 3'f. Reference numeral 5 'denotes a leaf spring, and a central bottom plate 5'a is provided with a through tube portion 5'b. The bulge of the end plate 2'b is fitted in the through hole of the end plate 3'c. Reference numeral 6 'denotes a relief valve which moves the valve body by an oil pressure equal to or higher than a predetermined pressure to flow oil into the cylindrical body 3'b. Reference numeral 7 'denotes a valve body made of rubber or the like, which has a peripheral wall 7'a and a valve body 7'b. In such a configuration, the oil introduced from the introduction hole 1'd deforms the valve body 7'b by the pressure, flows in through the gap, and is processed by the filter 2 '. 'g-2, while the oil treated by the filter 3' passes through the cylindrical body 3'b and the resin pipe 2'c,
It is sent to the inner tube 1'g-1. At this time, the filter 2 'captures fine particles, and the filter 3' performs main oil processing. The surface of the filter body 3 'is covered with an oil-impermeable film so that no oil flows.The filter body 2' is a cylindrical body of 35 mm in height, 85 mmφ in outer diameter, and 41 mmφ in inner diameter made of a mixed material. The filter was tested using an automobile oil tester in accordance with JIS D1611. The life was 13 hours and the filtration efficiency was 92%. A water-permeable tubular body extending between both end plates is provided around the resin pipe 2'c, and a pleated filter material of the mixture material sheet is wound therearound (Japanese Patent Application No. 10-375820). In the same test, almost the same results were obtained.

Comparative Example 4 In Example 7, a pleated filter having a folding width of 17 mm, a height of 35 mm, and 100 peaks made of ordinary filter paper (air permeability of 32 according to JIS P8131) instead of the cylindrical filter was used. When the same test was conducted except that the material was used, the life was 1 hour and the filtration efficiency was 96%.

From the results of Example 4 and Comparative Example 1, Example 5 and Comparative Example 2, and Example 6 and Comparative Example 3, it is clear that both the case where the adhesive fiber processing material is used and the case where ordinary filter paper is used are used. It can be seen that the filtration performance is almost the same, but the former can be obtained by heat molding, while the latter can be obtained by a time-consuming method called paper making, so there is a large difference in the difficulty of the manufacturing process. It can be said that. In addition, comparison of Examples 1 and 2 and Example 4, Example 3 and Example 5, and Example 7 and Comparative Example 4 reveals that the use of sepiolite further improves the filtration performance.

[0024]

According to the present invention, since an adhesive fiber material is used, heat molding can be performed. For example, a filter material having an arbitrary shape can be obtained by heat molding between flat plates or changing a mold. ,
Provided are a filter material and a filter that can reduce the production cost by a simple processing step, have a performance not inferior to that of a filter paper made by ordinary papermaking, and hardly fall off even when a non-adhesive additive component is used. I can do it. In addition, if sepiolite is used in combination, it is possible to improve both the amount of permeated fluid and the efficiency of trapping impurity components in the fluid, or to improve the performance of one without lowering the level of performance of the other. It is possible to provide a filter material and a filter that can be used. Further, it is possible to provide a filter material and a filter which can be effectively used in various fields widely, have excellent trapping efficiency even for oily impurities, and are particularly excellent for lubricating automobile engines.

[Brief description of the drawings]

FIG. 1 is a sectional view of an oil treatment filter according to one embodiment of the present invention.

FIG. 2 is a cross-sectional view of a combination type oil treatment filter according to another embodiment of the present invention.

[Brief description of reference numerals]

 2b, 2'f, 3'd Filter media 6, 1 'Case 7 Cartridge oil filter

Claims (8)

[Claims] 1. A filter material formed by heating using a material for a filter material containing an adhesive fiber material having an adhesive on the surface of a fiber or a yarn. 2. A filter material formed by heating using an adhesive fiber material having an adhesive on the surface of a fiber or a yarn and a filter material having sepiolite having a hydrous magnesium silicate composition as an active ingredient. 3. At least 50 parts by weight of synthetic fiber and 50 to 50 parts of an adhesive fiber processed material having an adhesive on the surface of fiber or yarn.
A filter medium formed by heating using a material for a filter medium containing 100 parts by weight and sepiolite having a hydrous magnesium silicate composition in a ratio of 5 to 1000 parts by weight. 4. The filtering material according to claim 1, wherein the sepiolite is a mountain leather type. 5. The filter material according to claim 1, wherein the adhesive fiber material is a sheathed yarn having a sheath of an adhesive layer on a peripheral side of the yarn. 6. The filter material according to claim 5, wherein the sheathed yarn comprises a polyester yarn and an adhesive layer sheath. 7. A filter comprising the filtration material according to claim 1. 8. The filter according to claim 7, which is an oil filter for a lubricating oil of an automobile.