RU2003109759A

RU2003109759A - FILTER ELEMENT (OPTIONS), FILTER SYSTEM (OPTIONS) AND FILTRATION METHOD (OPTIONS)

Info

Publication number: RU2003109759A
Application number: RU2003109759/15A
Authority: RU
Inventors: Марти А. БЭРРИС; Марк А. ГОГИНС; Томас М. УИК
Original assignee: Дональдсон Компани, Инк.
Priority date: 2000-09-05
Filing date: 2001-08-10
Publication date: 2004-08-27

Claims

1. A filter element comprising: (a) a filter medium package comprising: (i) a composite medium design; the specified design includes a sheet substrate containing many corrugations having a length from the first end of the package to the second end of the package; (ii) said structure is tubular and defines an open interior having first and second ends opposite each other; and (iii) said sheet substrate is at least partially coated with a layer; said layer contains a thin polymer fiber in which the polymer fiber comprises a condensation polymer different from a copolymer formed from cyclic lactam and C _6-10 diamine monomer or C _6-10 di-acid monomer, and a resinous additive comprising an aromatic oligomer having a molecular weight of about from about 500 to 3000, in which the additive is mixed in a condensation polymer, said fiber having a diameter of from about 0.01 to 0.5 μm, whereby after a test exposure of 16 hours at with an air temperature of 140 ° F (60 ° C) and a relative humidity of 100%, more than 30% of the fiber retains its filtering ability; (b) a first end cap and a second end cap; (i) said medium packet attached to said first end cap at said first end of said medium packet; (ii) said medium packet attached to said second end cap at said second end face of said medium packet; (iii) at least one of said first and second end caps, including a radially directed sealing portion; said radially directed sealing portion comprises polyurethane compressible towards said medium package.

2. The element according to claim 1, characterized in that the polymer comprises a condensation polymer, different from the copolymer formed from cyclic lactam and C _6-10 diamine monomer or C _6-10 bicarbon monomer, and a resinous additive comprising an aromatic oligomer having a molecular weight of the order of from about 500 to 3000, in which the additive is mixed in a condensation polymer

3. The element according to claim 1, characterized in that the nylon polymer is mixed with a second nylon polymer, characterized by a molecular weight or composition of the monomer.

4. The element according to claim 1, characterized in that the polymers are processed to form a single-component polymer composition, which when measured by a differential scanning calorimeter is displayed as a single-phase material.

5. The element according to claim 1, characterized in that the additive contains an oligomer containing tertiary butylphenol.

6. The element according to claim 1, characterized in that (a) said sealing part contains foam.

7. The filter element according to claim 6, characterized in that (a) said first end cap is made in the form of a ring defining an open center and includes an inner surface facing the open center; (i) said sealing portion comprises said inner surface.

8. The filter element according to claim 7, further comprising: (a) an internal support sleeve between said first and second end caps; (i) said inner support sleeve is located between said sealing portion and said medium bag.

9. The filter element of claim 8, characterized in that (a) at least one of said first and second end caps has an outer surface; (i) said sealing portion has an outer radial surface.

10. The filter element according to claim 9, further comprising: (a) an internal support sleeve passing between said first and second end caps, (b) an external support sleeve passing between said first and second end caps, characterized in that (i ) Each of said plurality of corrugations has a length of at least 6 inches and a depth of at least 1 inch.

11. A system, including an engine, designed for a nominal air flow rate through the air intake manifold of at least 3 ft ³ / min (0.085 m ³ / min) and equipped with an air purifier designed to filter the intake air; the air cleaner has a housing and a primary filter element, operatively placed in the specified housing; the specified primary filter element contains: (a) a packet of a filter medium comprising a sheet substrate, said packet has a first end and an opposite second end; (i) said substrate includes a plurality of corrugations extending in length from said first end to said second end; and (ii) said substrate is at least partially coated with a layer; (A) said layer contains a thin fiber having a diameter of from about 0.01 to 0.5 μm, so that after a test exposure of 16 hours, at an air temperature of 140 ° F (60 ° C) and a relative humidity of 100%, more than 30% fiber retaining filtering ability; said fiber contains a polymer composition in which the polymer fiber contains a condensation polymer different from a copolymer formed from cyclic lactam and C _6-10 diamine monomer or C _6-10 di-acid monomer, and a resinous additive comprising an aromatic oligomer having a molecular weight of the order of approximately from 500 to 3000, in which the additive is mixed in a condensation polymer.

12. The system according to claim 11, characterized in that (a) the system includes an engine with a nominal flow rate of air sucked into the engine of at least 100 ft ³ / min (2.8 m ³ / min); and (b) the primary element is sized and designed to provide an initial restriction of not more than 3 inches of H ₂ O at an air flow rate of up to 600 ft ³ / min (17 m ³ / min).

13. The system of claim 12, wherein (a) said corrugated structure has a tubular shape and defines an open interior; (b) said air cleaner housing comprises an air flow pipe; said primary filter element is operatively mounted on said pipe for air flow; (c) said primary filter element further comprises: (i) a first open end cap and a second opposite end cap; (A) said filter medium package is bonded to said first end cap at said first end face of said filter medium package; (B) said medium packet is bonded to said second end cap at said second end of said medium packet; (ii) an internal support sleeve located between said first end cap and said second end cap; (iii) said first end cap includes a sealing portion; (A) said sealing part is directed inward toward said open inner part; (B) said sealing portion includes a material sandwiched between said inner support sleeve and said air flow pipe to form a first radial seal between said primary filter element and said air cleaner body.

14. The system of claim 12, wherein (a) said primary filter element further comprises an external support sleeve located between said first and second end caps; (b) said second end cap defines a center hole; and (c) said second end cap comprises a radially outwardly extending sealing portion; (i) said radially outwardly directed sealing portion includes a polyurethane foam compressed between said outer support sleeve and said air cleaner to form a second radial seal between said primary filter element and said air cleaner housing.

15. A system comprising an air compressor and an air purifier designed to filter the air entering the compressor inlet; said air cleaner includes a housing and a primary filter element operatively disposed in said housing, wherein the primary filter element comprises: (a) a filter medium package having a first end and an opposite second end; (i) said filter medium package has a corrugated filter medium structure; said corrugated structure has a plurality of corrugations extending in length from said first end to said second end; and (ii) said medium composition contains a substrate that is at least partially coated with a layer; (A) said layer contains a thin fiber having a diameter of from about 0.01 to 0.5 μm, so that after exposure for 16 hours at an air temperature of 140 ° F (60 ° C) and a relative humidity of 100%, more than 30 % filter-retained fiber, wherein said fiber comprises a condensation polymer different from a copolymer formed from cyclic lactam and C _6-10 diamine monomer or C _6-10 bicarbon monomer, and a resinous additive comprising an aromatic oligomer having a molecular weight approx. from 500 to 3000, in which the additive is mixed in a polymer of condensation.

16. The system of claim 15, wherein (a) the system comprises an engine rated for a nominal air flow rate of at least 500 ft ³ / min (14 m ³ / min); and (b) the primary element is sized and designed to provide an initial limitation of not more than 3 inches of H ₂ O, at an air flow rate of up to 600 ft ³ / min (16 m ³ / min).

17. A system comprising a vehicle driven by a gas turbine engine and having an air purifier designed to filter air at the inlet of a gas turbine; the air purifier comprises: (a) a filter medium package having a first filter panel and a second filter panel; (i) each of said first filter panel and second filter panel includes a corrugated structure of a composite medium; said corrugated structure has a plurality of corrugations; (ii) said medium composition comprises a substrate at least partially coated with a layer; (A) said layer contains a thin fiber having a diameter of from about 0.1 to 0.5 microns, so that after exposure for 16 hours at 140 ° F (60 ° C) and 100% relative humidity, more than 30% fiber retaining filtering ability; said fiber contains a polymer composition in which the polymer fiber contains a condensation polymer different from a copolymer formed from cyclic lactam and C _6-10 diamine monomer or C _6-10 bicarbon monomer, and a resinous additive comprising an aromatic oligomer having a molecular weight of the order of approximately from 500 to 3000, in which the additive is mixed in a condensation polymer.

18. A method for filtering air having a temperature of at least 140 ° F (60 ° C), comprising the following steps: (a) supplying air through a filter medium; (i) the use of a composite containing a sheet substrate of a corrugated structure; and (ii) said substrate is at least partially coated with a layer that contains a thin fiber having a diameter of about 0.1 to 0.5 μm, so that after exposure for 16 hours at an air temperature of 140 ° F (60 ° C) and a relative humidity of 100%, more than 30% of the filter-retaining fiber remains, said fiber containing a polymer composition in which the polymer fiber contains a condensation polymer different from the copolymer formed from cyclic lactam and C _6-10 diamine monomer or two-acid C _6-10 monomer, and a resinous additive comprising an aromatic oligomer having a molecular weight of about 500 to about 3000, wherein the additive miscible in the condensation polymer.

19. The method according to p. 18, characterized in that (a) the stage of supplying air through a filter medium package includes the operation of supplying air to the engine intake with a nominal flow rate of at least 3 ft ³ / min (0,085 m ³ / min), the corrugated structure has a tubular shape with many corrugations between the first second opposite end caps.

20. The method according to p. 18, characterized in that the stage of supplying air through a packet of filter medium includes air supply to the inlet pipe of the compressor; the corrugated structure is a panel filter consisting of at least 40 corrugations, with each corrugation having a depth of at least 2 inches.

21. A filter element comprising: (a) a filter medium package comprising: (i) a composite medium design; said construction includes a sheet substrate having a plurality of corrugations, the length of which is equal to the distance from said first end to said second end; (ii) said design is tubular and defines an open interior having first and second opposite ends; and (iii) said sheet substrate is at least partially coated with a layer; (A) the specified layer contains a thin polymer fiber having a diameter of from about 0.01 to 0.5 μm, so that after exposure for 16 hours at an air temperature of 140 ° F (60 ° C) and a relative humidity of 100% remains more than 30% fiber retaining filtering ability; said fiber contains a condensation polymer in an amount of from about 2 to 25% by weight of the additive, said additive comprising aromatic resinous material having a molecular weight of from about 500 to 3000, the additive being mixed in the condensation polymer; said condensation polymer comprises a copolymer different from a copolymer formed from cyclic lactam and a C _6-10 diamine monomer or a two-acid monomer; (b) a first end cover and a second end cover; (i) said filter medium package is attached to said first end cap at said first end face of said filter medium package; (ii) said filter medium package is attached to said second end cap at said second end face of said filter medium package; (iii) at least one of said first second end caps includes a sealing portion; said sealing part comprises a polyurethane foam compressible towards said filter medium package.

22. A method for filtering air and ventilating a vehicle cabin when the vehicle temperature is at least 140 ° F (60 ° C) during any period of operation, the method comprising: (a) supplying air through a filter bag environment; (i) the use of a composite comprising a sheet substrate in a corrugated structure; and (ii) said substrate is at least partially coated with a layer of thin fiber having a diameter of about 0.1 to 0.5 μm, so that after exposure to testing for 16 hours at an air temperature of 140 ° F (60 ° C) and a relative humidity of 100%, more than 30% of the fiber remains, retaining its filtering ability; said fiber comprising a polymeric composition comprising a condensation polymer characterized by a copolymer formed from a cyclic lactam and a C _6-10 diamine monomer or a _C6-10 diacid monomer; and a resinous additive comprising an aromatic oligomer having a molecular weight of about 500 to 3000, in which the additive is mixed in a condensation polymer.