Title of Invention	VIBRATORY SCREEN
Abstract	The present invention provides a screen comprising a first woven screen cloth (10); a second woven screen cloth (12) comprising threads (22, 26, 28) woven therein having surfaces which are fusible below a temperature at which the first woven screen cloth (10) is heat affected, the first woven screen cloth (10) being of substantially finer mesh than the second woven screen cloth (12) and in juxtaposition therewith, the threads (22, 26, 28) with the fusible surfaces being fused into the first woven screen cloth (10) at least at the knuckle contacts of the threads with the fusible surfaces (22, 26, 28) with the first woven screen cloth (10), the second woven screen cloth (12) comprising threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected, the threads (22, 26, 28) with the fusible surfaces being spaced apart with a plurality of the threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected being therebetween.

Title of Invention

VIBRATORY SCREEN

Abstract

The present invention provides a screen comprising a first woven screen cloth (10); a second woven screen cloth (12) comprising threads (22, 26, 28) woven therein having surfaces which are fusible below a temperature at which the first woven screen cloth (10) is heat affected, the first woven screen cloth (10) being of substantially finer mesh than the second woven screen cloth (12) and in juxtaposition therewith, the threads (22, 26, 28) with the fusible surfaces being fused into the first woven screen cloth (10) at least at the knuckle contacts of the threads with the fusible surfaces (22, 26, 28) with the first woven screen cloth (10), the second woven screen cloth (12) comprising threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected, the threads (22, 26, 28) with the fusible surfaces being spaced apart with a plurality of the threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected being therebetween.

Full Text	1 Description Vibratory Screen The field of the present invention is screens employed for separation of product using vibrational energy. Background Of The Invention Vibratory screen systems have Jong been employed in both circular and rectangular form. The devices typically include a resiliently mounted housing having a screen extended across the housing. A vibration generating drive is coupled with the housing to vibrate the screen in an advantageous manner to increase screening efficiency. The screens are either self contained by including screen cloth tensioned and bonded to a frame or rely on mechanisms on the resiliently mounted housing for placement and tensioning. In the latter circumstance, the screen typically includes screen cloth to which may be mounted hooks or eyes for attachment of tensioning mechanisms associated with the housing. Alternatively, screens can include a perforated plate with screen cloth bonded thereto. When a plate is used, the screen may be tensioned before bonding to the plate. The screen cloth may be bonded to the plate by a layer of epoxy or thermoplastic material. The bonding material is positioned on the plate and the screen tensioned thereover. The material Is then treated, commonly by heating to either initiate curing of the epoxy or fusing of the thermoplastic materiai. Nonstick layers of PTFE sheet may be employed where the assembly is compressed during the curing or fusing step. Multiple layers of screen cloth are known to be used in such assemblies. The plates include interstices for the passage of the screened material therethrough. Screens which employ hooks or eyes for tensioning by a separate mechanism having laminated layers have also been known. Bonding to frames by spot welding, epoxy or fusible material are known. Further, fusing muitiple layers of screen cloth into the top of a frame structure made of fusible material having a peripheral frame and a pattern of open cells defined by cell walls has been 2 previously known. The multiple screen cloths are bonded to the frame and the ceil walls by fusing the frame structure and resolidifying it after impregnation through the screen cloth or cloths. Such a structure is disclosed in U.S. Patent No. 5,851,393, the disclosure of which is incorporated herein by reference. Backup layers have been coated with epoxy and bonded to filter cloth such as disclosed in U.S. Patent No. 5,814,218. Diffusion bonding is practiced between metal screens. The layers of screen cloth are pressed together and subjected to substantial heat for an extended time. No bonding material is used in the diffusion bonding process. Summary Of The.Invention The present invention is directed to a laminated screen having two or more woven screen cloths. One of these woven screen cloths includes threads having surfaces which are fusible below a temperature at which the other woven screen cloth is heat affected. Heat effects to be avoided are changes in the physical and chemical properties of the screen cloth. These threads with surfaces fusible below a temperature at which the other woven screen cloth is heat affected are woven into the cloth. The screen cloths are of different mesh size with the courser mesh including the threads wrth fusible surface material. The fusible surface material is fused into the other screen cloth at the knuckle contacts of these threads with the finer screen cloth. A number of embodiments are described which practice the foregoing inventive concept Threads with fusible surfaces may be dispersed within the screen cloth to best advantage. Such threads may be arranged in only one direction of the screen cloth. Such threads may be spaced apart with conventional threads therebetween. Alternatively, all of the threads woven into the screen cloth may have fusible surfaces. The threads with fusible surfaces may additionally be fusible fully therethrough. The screen cloth threads may be metal wire such as stainless steel. Accordingly, it is an object of the present invention to provide an improved laminated screen. Other and further objects and advantages will appear hereinafter. 3 Brief Description Of The ACCOMPANYING Drawings Figure 1 is an assembled perspective view of a first laminated screen. Figure 2 is an exploded perspective view of the screen of Figure 1. Figure 3 is an assembled perspective view of a second laminated screen. Figure 4 is an exploded perspective view of the screen of Figure 3. Figure 5 is an assembled perspective view of a third laminated screen. Figure 6 is an exploded perspective view of the screen of Figure 5. Detailed Description Of The Preferred Embodiments Turning in detail to the drawings, Figures 1 and 2 illustrate a first screen. The screen is shown to include a first woven screen cloth 10. This screen cloth 10 may have a mesh size from 24 mesh (0.0075" wire diameter) to 635 mesh (0.0008" wire diameter). A coarser woven screen cloth 12 is illustrated in juxtaposition with the first woven screen cloth 10. This second screen cloth 12 forms a support layer. The mesh size for the screen cloth 12 may be, for example, as open as 1 mesh (.135" wire diameter) and as tight as 40 mesh (0.012" wire diameter) but is more commonly from 4 mesh (0.0475" wire diameter) to 20 mesh (.016" wire diameter). A third woven screen cloth 14 of equal to or finer mesh than the first woven screen cloth 10 may be positioned on the other side of the first screen cloth 10 from the coarse screen cioth 12. For most applications, the coarse screen cloth 12 is substantially coarser than the first woven screen cloth 10 which is, in turn, typically coarser than the third woven screen cloth 14, when a third such layer is employed. In one example, the screen layers have mesh sizes of 20 wires/inch, 84 wires/inch and 100 wires/inch, respectively. Such screen cloth is conventionally of stainless steel but can be of heat resistant polymer. The coarse woven screen cloth 12 is shown in the embodiment of Figures 1 and 2 to be made of stainless steel wires 16 which are all coated with a fusible surface 18 before being woven into cloth. The fusible surface may be polypropylene or polyethylene. These materials are fusible below a temperature at which the screen cloth 10 and the screen cloth 14 are heat affected. For example, polypropylene is fused sufficiently to exhibit the required flow properties at between 400°F and 450° F .As the wire of the screens is typically stainless, 4 polypropylene and polyethylene are fusible well below a temperature at which the screen cloth is heat affected. Because the coarse screen cloth 12 is woven, it provides knuckles which become the high points of contact between the coarse screen cloth 12 and the juxtaposed screen cloth 10. As the screen cloth 12 is much coarser than the screen cloth 10, the knuckles of the coarse screen cloth 12 are spaced substantially compared with the interstices through the screen cloth 10. This is even truer for the screen cloth 14 With even finer rnesh. The coating forming the fusible surface may increase the stainless steel wire diameter of .018" to a total of .030" with the fusible layer before the threads are fused, for example. The layers of screen cloth, a coarse rnesh 12 with a fine mesh 10 or two fine meshes 10 and 14, are compressed together and heated. The compression may be accomplished by two platens. Depending on the system, either the platen on the side of the fine mesh screen or both platens may be heated to a sufficient degree that the fusibie surface on the knuckles contacting the finer mesh screen cloth will melt and flow into the interstices in the screen cloth 10 or screen cloths 10 and 14. This fusible material is then allowed to cool and solidify to create a laminated structure with attachment points 20. Where appropriate, thin layers of PTFE may be employed to avoid sticking with the platens. The second and third embodiments of Figures 3 through 6 illustrate different arrangements for the fusible material. In the embodiment of Figures 3 and 4, periodic threads 22 extending in only one direction and spaced apart with uncoated threads 24 therebetween are shown to have fusibie surfaces 28. These threads 22 are also woven into the fabric with the coating 26 thereon. An example of the coating in this instance on metal wire having a diameter of .013" will increase the thread diameter to .030". In the embodiment of Figures 5 and 6, the fusible coated threads 28 are additionally fusibie fully therethrough. Again they are shown to be spaced apart and extend in only one direction. The threads therebetween are not fusible below the temperature at which the screen 10 is heat affected. An example in this instance for screen cloth having meta! wire with a diameter of .018" would be to use a fusible thread diameter of .039". Accordingly, new laminated screen structures are disclosed. While embodiments and applications of this invention have been shown and described, It would be apparent to those skilled in the art that many more modifications are We Claim : 1. A screen comprising : a first woven screen cloth (10); a second woven screen cloth (12) comprising threads (22, 26, 28) woven therein having surfaces which are fusible below a temperature at which the first woven screen cloth (10) is heat affected, the first woven screen cloth (10) being of substantially finer mesh than the second woven screen cloth (12) and in juxtaposition therewith, the threads (22, 26, 28) with the fusible surfaces being fused into the first woven screen cloth (10) at least at the knuckle contacts of the threads with the fusible surfaces (22, 26, 28) with the first woven screen cloth (10), the second woven screen cloth (12) comprising threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected, the threads (22, 26, 28) with the fusible surfaces being spaced apart with a plurality of the threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected being therebetween. 2. The screen as claimed in claim 1, comprising the threads (22, 26, 28) with fusible surfaces extending in only one direction of the second woven screen cloth (12). 3. The screen as claimed in claim 1 or 2, comprising : a third woven screen cloth (14) in juxtaposition with the second woven screen cloth (12) and having a substantially finer mesh than the second woven screen cloth (12), the threads (22, 26,28) with the fusible surfaces being fused into the third woven screen cloth (14) at the knuckle contacts of the threads (22, 26, 28) with the fusible surfaces with the first woven screen cloth (10). 4. The screen as claimed in claim 1, 2, or 3, comprising the threads (28) with the fusible surfaces being fusible fully therethrough below a temperature at which the first woven screen cloth (10) is heat affected. 5. The screen as claimed in claim 1,2 or 3, comprising the threads (22, 26) with the fusible surfaces having metal wire centers (22) with a coating (26) which is fusible below the temperature at which the first woven screen cloth (10) is heat affected. 6 6. The screen as claimed in claim 1, 4 or 5, comprising the first woven screen cloth (10) and the second woven screen cloth (12) being of metal. 7. The screen as claimed in claim 6 comprising : a third woven metal screen cloth (14) in juxtaposition with the first woven metal screen cloth (10) and having a substantially finer mesh than the second woven metal screen cloth (12), the threads (22, 26, 28) with the fusible surfaces being fused into the third woven metal screen cloth (14) at the knuckle contacts of the second woven metal screen cloth (12) with the first woven metal screen cloth (10). 7 The present invention provides a screen comprising a first woven screen cloth (10); a second woven screen cloth (12) comprising threads (22, 26, 28) woven therein having surfaces which are fusible below a temperature at which the first woven screen cloth (10) is heat affected, the first woven screen cloth (10) being of substantially finer mesh than the second woven screen cloth (12) and in juxtaposition therewith, the threads (22, 26, 28) with the fusible surfaces being fused into the first woven screen cloth (10) at least at the knuckle contacts of the threads with the fusible surfaces (22, 26, 28) with the first woven screen cloth (10), the second woven screen cloth (12) comprising threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected, the threads (22, 26, 28) with the fusible surfaces being spaced apart with a plurality of the threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected being therebetween.

Full Text

1
Description Vibratory Screen
The field of the present invention is screens employed for separation of product using vibrational energy.
Background Of The Invention
Vibratory screen systems have Jong been employed in both circular and rectangular form. The devices typically include a resiliently mounted housing having a screen extended across the housing. A vibration generating drive is coupled with the housing to vibrate the screen in an advantageous manner to increase screening efficiency. The screens are either self contained by including screen cloth tensioned and bonded to a frame or rely on mechanisms on the resiliently mounted housing for placement and tensioning. In the latter circumstance, the screen typically includes screen cloth to which may be mounted hooks or eyes for attachment of tensioning mechanisms associated with the housing.
Alternatively, screens can include a perforated plate with screen cloth bonded thereto. When a plate is used, the screen may be tensioned before bonding to the plate. The screen cloth may be bonded to the plate by a layer of epoxy or thermoplastic material. The bonding material is positioned on the plate and the screen tensioned thereover. The material Is then treated, commonly by heating to either initiate curing of the epoxy or fusing of the thermoplastic materiai. Nonstick layers of PTFE sheet may be employed where the assembly is compressed during the curing or fusing step. Multiple layers of screen cloth are known to be used in such assemblies. The plates include interstices for the passage of the screened material therethrough.
Screens which employ hooks or eyes for tensioning by a separate mechanism having laminated layers have also been known. Bonding to frames by spot welding, epoxy or fusible material are known. Further, fusing muitiple layers of screen cloth into the top of a frame structure made of fusible material having a peripheral frame and a pattern of open cells defined by cell walls has been

2
previously known. The multiple screen cloths are bonded to the frame and the ceil walls by fusing the frame structure and resolidifying it after impregnation through the screen cloth or cloths. Such a structure is disclosed in U.S. Patent No. 5,851,393, the disclosure of which is incorporated herein by reference. Backup layers have been coated with epoxy and bonded to filter cloth such as disclosed in U.S. Patent No. 5,814,218. Diffusion bonding is practiced between metal screens. The layers of screen cloth are pressed together and subjected to substantial heat for an extended time. No bonding material is used in the diffusion bonding process.
Summary Of The.Invention
The present invention is directed to a laminated screen having two or more woven screen cloths. One of these woven screen cloths includes threads having surfaces which are fusible below a temperature at which the other woven screen cloth is heat affected. Heat effects to be avoided are changes in the physical and chemical properties of the screen cloth. These threads with surfaces fusible below a temperature at which the other woven screen cloth is heat affected are woven into the cloth. The screen cloths are of different mesh size with the courser mesh including the threads wrth fusible surface material. The fusible surface material is fused into the other screen cloth at the knuckle contacts of these threads with the finer screen cloth.
A number of embodiments are described which practice the foregoing inventive concept Threads with fusible surfaces may be dispersed within the screen cloth to best advantage. Such threads may be arranged in only one direction of the screen cloth. Such threads may be spaced apart with conventional threads therebetween. Alternatively, all of the threads woven into the screen cloth may have fusible surfaces. The threads with fusible surfaces may additionally be fusible fully therethrough. The screen cloth threads may be metal wire such as stainless steel.
Accordingly, it is an object of the present invention to provide an improved laminated screen. Other and further objects and advantages will appear hereinafter.

3
Brief Description Of The ACCOMPANYING Drawings
Figure 1 is an assembled perspective view of a first laminated screen.
Figure 2 is an exploded perspective view of the screen of Figure 1. Figure 3 is an assembled perspective view of a second laminated screen. Figure 4 is an exploded perspective view of the screen of Figure 3. Figure 5 is an assembled perspective view of a third laminated screen. Figure 6 is an exploded perspective view of the screen of Figure 5.
Detailed Description Of The Preferred Embodiments
Turning in detail to the drawings, Figures 1 and 2 illustrate a first screen. The screen is shown to include a first woven screen cloth 10. This screen cloth 10 may have a mesh size from 24 mesh (0.0075" wire diameter) to 635 mesh (0.0008" wire diameter). A coarser woven screen cloth 12 is illustrated in juxtaposition with the first woven screen cloth 10. This second screen cloth 12 forms a support layer. The mesh size for the screen cloth 12 may be, for example, as open as 1 mesh (.135" wire diameter) and as tight as 40 mesh (0.012" wire diameter) but is more commonly from 4 mesh (0.0475" wire diameter) to 20 mesh (.016" wire diameter). A third woven screen cloth 14 of equal to or finer mesh than the first woven screen cloth 10 may be positioned on the other side of the first screen cloth 10 from the coarse screen cioth 12. For most applications, the coarse screen cloth 12 is substantially coarser than the first woven screen cloth 10 which is, in turn, typically coarser than the third woven screen cloth 14, when a third such layer is employed. In one example, the screen layers have mesh sizes of 20 wires/inch, 84 wires/inch and 100 wires/inch, respectively. Such screen cloth is conventionally of stainless steel but can be of heat resistant polymer.
The coarse woven screen cloth 12 is shown in the embodiment of Figures 1 and 2 to be made of stainless steel wires 16 which are all coated with a fusible surface 18 before being woven into cloth. The fusible surface may be polypropylene or polyethylene. These materials are fusible below a temperature at which the screen cloth 10 and the screen cloth 14 are heat affected. For example, polypropylene is fused sufficiently to exhibit the required flow properties at between 400°F and 450° F .As the wire of the screens is typically stainless,

4
polypropylene and polyethylene are fusible well below a temperature at which the screen cloth is heat affected. Because the coarse screen cloth 12 is woven, it provides knuckles which become the high points of contact between the coarse screen cloth 12 and the juxtaposed screen cloth 10. As the screen cloth 12 is much coarser than the screen cloth 10, the knuckles of the coarse screen cloth 12 are spaced substantially compared with the interstices through the screen cloth 10. This is even truer for the screen cloth 14 With even finer rnesh. The coating forming the fusible surface may increase the stainless steel wire diameter of .018" to a total of .030" with the fusible layer before the threads are fused, for example.
The layers of screen cloth, a coarse rnesh 12 with a fine mesh 10 or two fine meshes 10 and 14, are compressed together and heated. The compression may be accomplished by two platens. Depending on the system, either the platen on the side of the fine mesh screen or both platens may be heated to a sufficient degree that the fusibie surface on the knuckles contacting the finer mesh screen cloth will melt and flow into the interstices in the screen cloth 10 or screen cloths 10 and 14. This fusible material is then allowed to cool and solidify to create a laminated structure with attachment points 20. Where appropriate, thin layers of PTFE may be employed to avoid sticking with the platens.
The second and third embodiments of Figures 3 through 6 illustrate different arrangements for the fusible material. In the embodiment of Figures 3 and 4, periodic threads 22 extending in only one direction and spaced apart with uncoated threads 24 therebetween are shown to have fusibie surfaces 28. These threads 22 are also woven into the fabric with the coating 26 thereon. An example of the coating in this instance on metal wire having a diameter of .013" will increase the thread diameter to .030". In the embodiment of Figures 5 and 6, the fusible coated threads 28 are additionally fusibie fully therethrough. Again they are shown to be spaced apart and extend in only one direction. The threads therebetween are not fusible below the temperature at which the screen 10 is heat affected. An example in this instance for screen cloth having meta! wire with a diameter of .018" would be to use a fusible thread diameter of .039".
Accordingly, new laminated screen structures are disclosed. While embodiments and applications of this invention have been shown and described, It would be apparent to those skilled in the art that many more modifications are

We Claim :
1. A screen comprising :
a first woven screen cloth (10);
a second woven screen cloth (12) comprising threads (22, 26, 28) woven therein having surfaces which are fusible below a temperature at which the first woven screen cloth (10) is heat affected, the first woven screen cloth (10) being of substantially finer mesh than the second woven screen cloth (12) and in juxtaposition therewith, the threads (22, 26, 28) with the fusible surfaces being fused into the first woven screen cloth (10) at least at the knuckle contacts of the threads with the fusible surfaces (22, 26, 28) with the first woven screen cloth (10), the second woven screen cloth (12) comprising threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected, the threads (22, 26, 28) with the fusible surfaces being spaced apart with a plurality of the threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected being therebetween.
2. The screen as claimed in claim 1, comprising the threads (22, 26, 28) with fusible
surfaces extending in only one direction of the second woven screen cloth (12).
3. The screen as claimed in claim 1 or 2, comprising :
a third woven screen cloth (14) in juxtaposition with the second woven screen cloth (12) and having a substantially finer mesh than the second woven screen cloth (12), the threads (22, 26,28) with the fusible surfaces being fused into the third woven screen cloth (14) at the knuckle contacts of the threads (22, 26, 28) with the fusible surfaces with the first woven screen cloth (10).
4. The screen as claimed in claim 1, 2, or 3, comprising the threads (28) with the fusible
surfaces being fusible fully therethrough below a temperature at which the first woven screen cloth (10)
is heat affected.
5. The screen as claimed in claim 1,2 or 3, comprising the threads (22, 26) with the fusible
surfaces having metal wire centers (22) with a coating (26) which is fusible below the temperature at
which the first woven screen cloth (10) is heat affected.
6

6. The screen as claimed in claim 1, 4 or 5, comprising the first woven screen cloth (10)
and the second woven screen cloth (12) being of metal.
7. The screen as claimed in claim 6 comprising :
a third woven metal screen cloth (14) in juxtaposition with the first woven metal screen cloth (10) and having a substantially finer mesh than the second woven metal screen cloth (12), the threads (22, 26, 28) with the fusible surfaces being fused into the third woven metal screen cloth (14) at the knuckle contacts of the second woven metal screen cloth (12) with the first woven metal screen cloth (10).
7
The present invention provides a screen comprising a first woven screen cloth (10); a second woven screen cloth (12) comprising threads (22, 26, 28) woven therein having surfaces which are fusible below a temperature at which the first woven screen cloth (10) is heat affected, the first woven screen cloth (10) being of substantially finer mesh than the second woven screen cloth (12) and in juxtaposition therewith, the threads (22, 26, 28) with the fusible surfaces being fused into the first woven screen cloth (10) at least at the knuckle contacts of the threads with the fusible surfaces (22, 26, 28) with the first woven screen cloth (10), the second woven screen cloth (12) comprising threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected, the threads (22, 26, 28) with the fusible surfaces being spaced apart with a plurality of the threads (24) without surfaces fusible below the temperature at which the first woven screen cloth (10) is heat affected being therebetween.

Documents:

00038-kolnp-2003-abstract.pdf

00038-kolnp-2003-assignment.pdf

00038-kolnp-2003-claims.pdf

00038-kolnp-2003-correspondence.pdf

00038-kolnp-2003-description(complete).pdf

00038-kolnp-2003-drawings.pdf

00038-kolnp-2003-form-1.pdf

00038-kolnp-2003-form-18.pdf

00038-kolnp-2003-form-2.pdf

00038-kolnp-2003-form-3.pdf

00038-kolnp-2003-form-5.pdf

00038-kolnp-2003-g.p.a.pdf

00038-kolnp-2003-letters patnet.pdf

00038-kolnp-2003-reply f.e.r.pdf

38-KOLNP-2003-FORM 27.pdf

38-KOLNP-2003-FORM-27.pdf

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Patent Number

212974

Indian Patent Application Number

38/KOLNP/2003

PG Journal Number

51/2007

Publication Date

21-Dec-2007

Grant Date

19-Dec-2007

Date of Filing

13-Jan-2003

Name of Patentee

M-INNL.L.C.,

Applicant Address

5950, NORTH COURSE DR., HOUSTON, TX 77072

Inventors:

#	Inventor's Name	Inventor's Address
1	CARR BRIAN S	10786 AUTUMN RIDGE DR., INDEPENDENCE, KY 41051

PCT International Classification Number

B07B 1/46

PCT International Application Number

PCT/US01/21332

PCT International Filing date

2001-07-05

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	09/610, 633	2000-07-05	U.S.A.