Keyed system for connection of filter cartridge to filter holder
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-027/08
B01D-035/30
B01D-046/00
B01D-046/24
출원번호
US-0099312
(2013-12-06)
등록번호
US-9314722
(2016-04-19)
발명자
/ 주소
Reid, Roger P.
출원인 / 주소
OMNIPURE FILTER COMPANY, INC.
대리인 / 주소
Pedersen and Company, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
64
초록▼
A filter and its holder each have a keyed surface, one being a protruding “key” and one being a recessed “lock,” wherein cooperation of these keyed surfaces is required in order for the filter to be installed in the holder. Modification/adaptation of the keyed surfaces, by changing the location, num
A filter and its holder each have a keyed surface, one being a protruding “key” and one being a recessed “lock,” wherein cooperation of these keyed surfaces is required in order for the filter to be installed in the holder. Modification/adaptation of the keyed surfaces, by changing the location, number and length of the key protrusions and cooperating recesses during manufacture, allows various sets of mating filters and holders to be produced so that only mating/matching filters and holders may be connected together. The keyed protrusions are preferably located on an upper shoulder or on protruding flange(s) of the upper end of the filter. The cooperating recess structure inside the filter holder comprises axial recesses that allow axial insertion of the key protrusions, and hence the filter, into the holder and also a circumferential recesses portion that receives multiple key protrusions to retain the filter in the holder. This way, multiple key protrusions slide into and are retained in a single circumferential recess/slot, rather than each key protrusion being received in its own separate circumferential recess/slot.
대표청구항▼
1. A keyed system for filters and their holders, the keyed system comprising: a filter and a cooperating holder;wherein the filter has a top end comprising a filter surface with a perimeter and at least one protrusion structure on said perimeter;wherein the filter holder has a holder surface with a
1. A keyed system for filters and their holders, the keyed system comprising: a filter and a cooperating holder;wherein the filter has a top end comprising a filter surface with a perimeter and at least one protrusion structure on said perimeter;wherein the filter holder has a holder surface with a perimeter having at least one cooperating recess structure, wherein the locations of said at least one protrusion structure and said at least one recess structure are selectively locateable to different circumferential locations on said perimeters to prevent said filter from being installed in any but said cooperating holder;wherein said at least one cooperating recess structure includes a first recess structure comprising a plurality of axial recess portions separated by partition ridges that protrude radially between said axial recess portions, and a single circumferentially-extending recess portion having an open end near, and in mechanical communication with, said axial recess portions;wherein said top end of the filter comprises an axial side wall, an upper generally radial surface, a largest-diameter portion at or near a junction between said axial side wall and said upper radial surface, and a central neck upending from said upper radial surface at a longitudinal axis of the filter and having a central neck outer wall with an outer-neck-diameter;wherein said at least one protrusion structure is located between said largest-diameter portion and said central neck and comprises a first plurality of key protrusions that slide through a plurality of said axial recess portions of the first recess structure during axial insertion of the filter into the holder by sliding axially past said partition ridges, and, upon angular rotation of the filter in the holder, said first plurality of key protrusions all being received in said single circumferentially-extending recess portion of the first recess structure to lock the filter in said holder. 2. The keyed system of claim 1, wherein said at least one protrusion structure is located between said largest-diameter portion and said central neck by means of said perimeter of the filter surface having a perimeter-diameter, said largest-diameter portion having a portion-diameter, and said perimeter-diameter being intermediate in size between said portion-diameter and said outer-neck-diameter. 3. The keyed system of claim 1, wherein said largest-diameter portion is a radial distance from said central neck outer wall and said first plurality of key protrusions are located at a radial distance from the central neck outer wall that is greater than 50 percent of said radial distance between said central neck outer wall and said largest-diameter portion. 4. The keyed system of claim 1, wherein said first plurality of key protrusions are located within an arc of 90 degrees or less on said perimeter of the filter surface. 5. The keyed system of claim 1, wherein said first plurality of key protrusions of the first flange are located within an arc of 70 degrees or less on said perimeter of the filter surface. 6. The keyed system of claim 1, wherein said at least one protrusion structure further comprises a second plurality of key protrusions and the at least one recess structure further comprises a second recess structure, wherein the locations of said second plurality of key protrusions and the second recess structure are selectively locateable to different circumferential locations on said perimeters to prevent said filter from being installed in any but said cooperating holder; wherein the second recess structure comprises a plurality of axial recess portions separated by partition ridges that protrude radially between said axial recess portions of the second recess structure, and the second recess structure further comprises a single circumferentially-extending recess portion having an open end near, and in mechanical communication with, the axial portions of the second recess structure; wherein said second plurality of key protrusions-slide through a plurality of said axial recess portions of the second recess structure during axial insertion of the filter into the holder by sliding axially past said partition ridges of the second recess structure, and, upon angular rotation of the filter in the holder, said second plurality of key protrusions are received in the single circumferentially-extending recess portion of the second recess structure; wherein said largest-diameter portion of the top end is a radial distance from said central neck outer wall and said second plurality of key protrusions is located at a radial distance from the central neck that is greater than 50 percent of the radial distance between said largest-diameter portion and said central neck. 7. The keyed system as in claim 6, wherein said first plurality of protrusions and said second plurality of protrusions extend radially away from said longitudinal axis 180 degrees from each other. 8. The keyed system as in claim 7, wherein said first plurality of key protrusions are located within an arc of 90 degrees or less on said perimeter of the filter surface, and wherein said second plurality of key protrusions are within an arc of 90 degrees or less on said perimeter of the filter surface and generally diametrically opposite of said first plurality of protrusions. 9. The keyed system as in claim 7, wherein said first plurality of key protrusions are located within an arc of 70 degrees or less on said perimeter of the filter surface, and wherein said second plurality of key protrusions are within an arc of 70 degrees or less on said perimeter of the filter surface and generally diametrically opposite of said first plurality of protrusions. 10. The keyed system as in claim 1, wherein said first plurality of key protrusions has a circumferential length, and the single circumferentially-extending recess portion of the first recess structure has a circumferential length at least as long as the circumferential length of the first plurality of key protrusions. 11. The keyed system as in claim 6, wherein said first plurality of key protrusions has a circumferential length, and the single circumferentially-extending recess portion of the first recess structure has a circumferential length at least as long as the circumferential length of the first plurality of key protrusions; and wherein said second plurality of key protrusions has a circumferential length and the single circumferentially-extending recess portion of the second recess structure has a circumferential length at least as long as the circumferential length of the second plurality of key protrusions. 12. The keyed system as in claim 1, wherein said single circumferentially-extending recess portion of the first recess structure further has a rotational stop adapted to limit rotation of the filter at an end opposite of said open end. 13. The keyed system as in claim 6, wherein said single circumferentially-extending recess portion of the first recess structure has a first rotational stop adapted to limit rotation of the filter at an end opposite said open end; and wherein said single circumferentially-extending recess portion of the second recess structure further has a second rotational stop adapted to limit rotation of the filter. 14. The keyed system of claim 1, wherein said filter surface further comprises one or more additional key protrusions, and said holder surface further comprises one or more additional axial recess portions in mechanical communication with said single circumferentially-extending recess portion, wherein said one or more additional key protrusions slide through said additional axial recess portions during said axial insertion of the filter into the holder, and wherein said circumferential recess portion is of such a circumferential length that, upon angular rotation of the filter in the holder, at least some of said additional key protrusions are not received in said circumferential recess portion. 15. The keyed system of claim 10, wherein number and circumferential length of the first plurality of key protrusions are selected to mate with said plurality of axial recess portions of the first recess structure, so that the filter is prevented from being installed in any but said cooperating holder. 16. The keyed system of claim 11, wherein number and circumferential length of the second plurality of key protrusions are selected to mate with said plurality of axial recess portions of the second recess structure, so that the filter is prevented from being installed in any but said cooperating holder. 17. A keyed system for filters and their holders, the keyed system comprising: a filter and a cooperating holder;wherein the filter has a top end comprising an upper generally radial surface, an axial side wall, a shoulder at or near a junction of said upper generally radial surface and the axial sidewall, a central neck upending from the upper generally radial surface at a longitudinal axis of the filter and having a central neck outer wall with an outer-neck-diameter, and at least one protrusion structure extending from said top end between the shoulder and the central neck;wherein the filter holder has an internal surface comprising at least one cooperating recess structure, wherein the locations of said at least one protrusion structure and said at least one recess structure are selectively locateable to different circumferential locations on said top end of the filter and in said internal surface, respectively, to prevent said filter from being installed in any but said cooperating holder;wherein said at least one cooperating recess structure includes a first recess structure comprising a plurality of axial recess portions separated by partition ridges that protrude radially between said axial recess portions, and a single circumferentially-extending recess portion having an open end near, and in mechanical communication with, said axial recess portions;wherein said at least one protrusion structure comprises a first plurality of key protrusions that slide through a plurality of said axial recess portions of the first recess structure during axial insertion of the filter into the holder by sliding axially past said partition ridges, and, upon angular rotation of the filter in the holder, said first plurality of key protrusions all being received in said single circumferentially-extending recess portion of the first recess structure to lock the filter in said holder. 18. The keyed system of claim 17, wherein said at least one protrusion structure is located between said shoulder and said central neck by means of said at least one protrusion structure having an outer diameter, said shoulder having a shoulder-diameter, and said outer diameter being intermediate in size between said shoulder-diameter and said outer-neck-diameter. 19. The keyed system of claim 17, wherein said shoulder is a radial distance from said central neck outer wall and said first plurality of key protrusions are located at a radial distance from the central neck outer wall that is greater than 50 percent of said radial distance between said central neck outer wall and said shoulder. 20. The keyed system of claim 17, wherein said first plurality of key protrusions are all positioned on an arc of 90 degrees or less on said top end of the filter. 21. The keyed system of claim 17, wherein said first plurality of key protrusions are all positioned on an arc of 70 degrees or less on said top end of the filter.
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