DESC:Applicant: PARASON MACHINERY (INDIA) PRIVATE LIMITED
Application NO.: 202221072900
Page 18 of 19
28.
The shoepress module (10) as claimed in claim 1; wherein an emergency control module (311) detects no power condition to actuate said hydraulic system ( 310) to release pressure and loading in case of power failure or accident conditions.
29.
The shoepress module (10) as claimed in claim 1; wherein in case of fluctuation or path change said hydraulic control ( 310) acts instantly to release pressure from nip loading 5 (302) and alert the user or operator to correct positioning or reconfigure said web (103, 304) on said web line ( 308).
Dated this 16th day of December 2022
10
Shailendra Khojare,
IN/PA-4041
Applicants Patent Agent
15
20
25 ,CLAIMS:CLAIMS
We claim;
1. A shoepress module (10) comprising;
a shoepress (100) configured with said shoepress module (10),
a shoepress unit (101) configured with said shoepress (100),
a beam (109, 200) configured with said shoepress unit (101),
a hydraulic system (106) configured with said shoepress unit (101) and said beam (109, 200),
a piping module (115) configured with said hydraulic system (106),
a shoe (101a, 306) configured with said shoepress unit (101) and said piping module (115) hydraulically,
a belt (102) configured with said shoepress unit (101) and said shoe (101a, 306),
at least two felts (108) configured with said belt (102) and said counter press roll (107),
a web (103, 304) configures within at least two felts (108),
a counter press roll (107, 307) configured with said felt (108) and said shoepress (100),
an interlocking configuration (105) and a housing (112, 114) configures said counter press roll (107) and said shoepress unit (101) in order to form said shoepress (100);
wherein said shoepress (100) can configured with a web detection module (300) in order to monitor the emergency condition to safeguard said shoepress (100) from accident in order to operate said shoepress module (10) safely.
2. The shoepress module (10) as claimed in claim 1; wherein said shoepress (100) imposes a higher nip pressure on said web (103, 304) to increase dryness up to 52% to 56%.
3. The shoepress module (10) as claimed in claim 1; wherein said shoepress (100) can be configured with at least two numbers of said interlocking configuration (105).
4. The shoepress module (10) as claimed in claim 1; wherein said shoe press (100) commences functioning by filling said belt (102) within by means of air in order to inflate said belt (102).
5. The shoepress module (10) as claimed in claim 1; wherein a hydraulic cylinder (106) configured with said shoe unit (101) to pressurize said web (103, 304) against said counter press roll (107, 307).
6. The shoepress module (10) as claimed in claim 1; wherein the edge section of said web (103, 304) can be pressed by means of at least two edge cylinders (106a) located at cross machining direction end of said web (103, 304).
7. The shoepress module (10) as claimed in claim 1; wherein said bearing (110) can be housed within a housing (112) of a triangular in shape.
8. The shoepress module (10) as claimed in claim 1; wherein said bearing (110) can be of bush type of bearing.
9. The shoepress module (10) as claimed in claim 1; wherein said bearing (110a) can be of ball type of bearing.
10. The shoepress module (10) as claimed in claim 1; wherein said bearing (110) can be of spherical roller type of bearing.
11. The shoepress module (10) as claimed in claim 1; wherein said shoe press can be configured with at least three different types of bearings (110, 110a, 116).
12. The shoepress module (10) as claimed in claim 1; wherein said housing (112) configure with a housing (114) by means of a link type of locking provision (111).
13. The shoepress module (10) as claimed in claim 1; wherein, said counter press roll (107) can be supported by means of said bearing (116).
14. The shoepress module (10) as claimed in claim 1; wherein said bearing (116) can be of type spherical roller bearing, configured in a manner that the only roller will rotate in accordance with the configured counter press roller (107, 307) driven by means of a drive, whereas external supporting configuration which includes said housing (114) and said linkage (111) configuration can be configured as stationary part.
15. The shoepress module (10) as claimed in claim 1; wherein a beam (109, 200) comprising a central part (204) configured with the ends (202) on both sides of said central part (204) and provide the provision for configuration for said beam (200).
16. The shoepress module (10) as claimed in claim 1; wherein said central part (204) can be manufactured or designed in I shaped form in a manner a surface (204a) of said central part (204a) can be located at a central axis (203) of said beam (200) vertically to form a coaxial configuration of said surface (204a) with said ends (202), whereas surface (204b) of said central part (204) can be protruded on both sides of said surface (204a) at equal distance in order to form ‘I’ shaped cross-section for said central part (204) and said beam (200).
17. The shoepress module (10) as claimed in claim 1; wherein said beam (109, 200) includes at least two axis (210a, 203).
18. The shoepress module (10) as claimed in claim 1; wherein, said surface (204a) of said central part (204) can be formulated with a plurality of non-coaxial holes (201).
19. The shoepress module (10) as claimed in claim 1; wherein, said non-axial holes (201) can be located along the axis (201a) of said beam (200).
20. The shoepress module (10) as claimed in claim 1; wherein said beam (200) with said intermittent nonaxial holes (201) configures with said bearing configuration (110) by means of ends (202).
21. The shoepress module (10) as claimed in claim 1; wherein said beam (200) includes at least four numbers of said nonaxial holes (204).
22. The shoepress module (10) as claimed in claim 1; wherein at least two pockets (205) can be formed on both sides of said central part (204) on said surface (204a) adjacent to said ends (202).
23. The shoepress module (10) as claimed in claim 1; wherein said ends (202) can be hollow and circular in shape.
24. The shoepress module (10) as claimed in claim 1; wherein said beam (200) can be formulated by means of a homogeneous journal type of manufacturing method which includes but not limits to weldless or jointless integrated single-piece casting.
25. The shoepress module (10) as claimed in claim 1; wherein said beam (200) can be of cross-section which includes but not limits to ‘I’ type, ‘H’ type, ‘C’ type, channel shape, hollow or solid in form.
26. The shoepress module (10) as claimed in claim 1; wherein said web detection module (300) includes the controls which include but not limits to a pressure detector- temperature detector (301), a web path detector (303), an oil flow detector, etc.,
27. The shoepress module (10) as claimed in claim 1; wherein any fluctuation apart from the range set as an input parameter or threshold and/or path of said web (103, 303) detected by said web path detector (303) then said web detection module (300) immediately actuates the hydraulic emergency control module (305) to release pressure from a shoepress unit (101, 309) and a counter press roll configuration (307) in order to de-pressurized the shoe (101a, 306) from said web line (108, 308).
28. The shoepress module (10) as claimed in claim 1; wherein an emergency control module (311) detects no power condition to actuate said hydraulic system ( 310) to release pressure and loading in case of power failure or accident conditions.
29. The shoepress module (10) as claimed in claim 1; wherein in case of fluctuation or path change said hydraulic control ( 310) acts instantly to release pressure from nip loading (302) and alert the user or operator to correct positioning or reconfigure said web (103, 304) on said web line ( 308).

Dated this 16th day of December 2022

Shailendra Khojare,
IN/PA-4041
Applicants Patent Agent