AU2008262356B2

AU2008262356B2 - Mount system for a food waste disposer

Info

Publication number: AU2008262356B2
Application number: AU2008262356A
Authority: AU
Inventors: Thomas R. Berger; Steven P. Hanson; Jerry G. Ryder
Original assignee: Emerson Electric Co
Current assignee: Emerson Electric Co
Priority date: 2007-06-06
Filing date: 2008-06-05
Publication date: 2011-12-01
Anticipated expiration: 2028-06-05
Also published as: CN101688388A; US20080301871A1; AU2008262356A1; US20120180210A1; WO2008153898A3; JP2010528845A; EP2167743A4; CN101688388B; WO2008153898A2; EP2167743A2

Abstract

A food waste disposer mounting assembly uses a stainless steel sink-flange with a screw-on collar system as a primary mounting system to a sink. By connecting the stainless steel sink-flange with a bayonet locking reed collar and screw-on nut collar, a vibration and sound transmission path to the sink is both reduced and rendered indirect. Incorporation of reed switches with a stopper and magnets can modify the unit for use as a batch-feed disposer.

Description

MOUNT SYSTEM FOR A FOOD WASTE DISPOSER CROSS-REFERENCE TO RELATED APPLICATIONS [0001] This application claims the benefit of U.S. Provisional 5 Application No. 60/942,275, filed on June 6, 2007. The disclosure of the above application is incorporated herein by reference. FIELD [0002] The present disclosure relates to food waste disposers and 10 mounting systems for food waste disposers. BACKGROUND [0003] The statements in this section merely provide background information related to the present disclosure and may not constitute prior art. 15 [0004] Commonly known food waste disposers use screws as a primary mounting means. A disadvantage of screws or fasteners is they can create a direct path for vibration from the disposer to the sink and therefore transfer operating noise or vibration. Other common mounting systems use an all-plastic sink-flange and connector collar mounting. A plastic sink-flange wall 20 has several disadvantages as it can be too thick for inclusion of magnetic switching devices, and plastic is not as impervious to household chemicals often brought into contact with the disposer as the wall of a stainless steel sink-flange. In addition, although plastic is not necessarily less expensive than stainless steel, to many consumers it can create a less desirable appearance and can 25 appear to be less robust. [0005] Any discussion of documents, acts, materials, devices, articles or the like which has been included in the present specification is not to be taken as an admission that any or all of these matters form part of the prior art base or were common general knowledge in the field relevant to the present invention as 30 it existed before the priority date of each claim of this application. 1 SUMMARY [0006] Throughout this specification the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element, integer or step, or group of elements, integers or steps, but not 5 the exclusion of any other element, integer or step, or group of elements, integers or steps. [0007] In a first aspect, there is provided a mount system for a food waste disposer, comprising: a sink flange having: 10 a tubular body portion; a mounting flange transversely extending from the tubular body portion, and an outer radial surface of the tubular body portion having at least one first dimple extending outwardly from the outer radial surface; and 15 a collar having: a dimple attachment recess adapted to slidably receive the at least one first dimple, and a dimple insertion track transversely oriented to the dimple attachment recess to releasably engage with the at least one dimple to 20 releasably engage the collar to the sink flange [0008] In a second aspect, there is provided a mount system for a food waste disposer, comprising: a polymeric material sink flange having: a tubular body portion having a thread on an outer wall of 25 the tubular body portion; an annular flange transversely extending from and homogenously connected to the tubular body portion; a flange mount slidably received over the tubular body portion; 30 an annular groove having an outward facing concavity; an elastically diametrically spreadable mount retaining ring received in the annular groove; a threaded collar nut threadably engaging the threaded outer wall of the tubular body portion, the threaded collar nut and the annular flange receiving a sink body therebetween when the threaded collar nut is threadably engaged with the tubular body portion and the tubular body portion of 5 the sink flange is positioned in a bottom opening of the sink body; and the flange mount retained on the tubular body portion by the mount retaining ring, the mount retaining ring providing shear load support of the flange mount to prevent removal of the flange mount by gravity/weight load induced by a disposer unit on the sink flange. 10 [0009] In a third aspect, there is provided a mount system for a food waste disposer, comprising: a sink flange having a mounting flange transversely extending from and homogenously connected to a tubular body portion, an outer wall of the tubular body portion having a plurality of first protrusions extending outwardly 15 from the outer wall, and at least one second protrusion extending inwardly from an inner wall of the tubular body portion; a reed switch collar including: a plurality of bayonet dimple attachment recesses on an inside tubular geometry, the bayonet dimple attachment recesses adapted to 20 slidably receive the outward protrusions of the sink-flange to attach the reed switch collar to the sink-flange; at least one reed switch attached to the reed switch collar; and a plurality of outwardly directed machine threads; and 25 a threaded collar nut having a flange that engages the sink between the flange and the mounting flange of the sink flange, and a plurality of threads that threadably engage with the machine threads of the reed switch collar. [0010] In a fourth aspect, there is provided a mount system for a food 30 waste disposer, comprising: a sink flange adapted to connect a food waste disposer to a sink, the sink flange having a mounting flange transversely extending from and homogenously connected to a tubular body portion, an outer wall of the tubular body portion having a plurality of first protrusions extending outwardly from the outer wall, and at least one second protrusion extending inwardly from an inner wall of the tubular body portion; and 5 a reed switch collar including: a plurality of bayonet dimple attachment recesses on an inside tubular geometry, the bayonet dimple attachment recesses adapted to slidably receive the outward protrusions of the sink-flange to attach the reed switch collar to the sink-flange; 10 a reed switch attached to the reed switch collar; and a snap ring engaged into a circular channel of the reed switch collar; the snap ring including an extension which engages with the reed switch to retain the reed switch to the reed switch collar. [0011] In one embodiment, a food waste disposer mounting assembly 15 uses a stainless steel sink-flange with a screw-on collar system as a primary mounting system to a sink. By connecting the stainless steel sink-flange with a bayonet locking collar and screw-on nut collar, a vibration and sound transmission path to the sink is both reduced and rendered indirect. Incorporation of reed switches with a stopper and magnets modify the unit for 20 use as a batch-feed disposer. [0012] Further areas of applicability will become apparent from the description provided herein. It should be understood that the description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure. 25 DRAWINGS [0013] The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way. [0014] Figure 1 is a top perspective view of a mounting assembly 30 and magnetic strainer top according to several embodiments of a mount system for a food waste disposer of the present disclosure; 4 [0015] Figure 2 is a cross sectional side elevational view of the mounting assembly of Figure 1; [0016] Figure 3 a cross sectional side elevational view similar to Figure 2, further showing reed switches and a magnetic strainer; 5 [0017] Figure 4 is a side perspective view of a dimpled sink-flange of the present disclosure; [0018] Figure 5 is a top plan view top view of the sink-flange of Figure 4; [0019] Figures 6a through 6c are perspective views showing a sink 10 flange assembly, an individual sink-flange, and an isolator-mounting gasket with gasket clamps of the present disclosure; [0020] Figures 7a through 7b are a side elevational cross sectional view, a top plan view, and a partial cross sectional side elevational view of an isolator mounting gasket of the present disclosure; 15 [0021] Figure 8 is a top perspective view of a threaded nut collar, with grip ribs of the present disclosure; [0022] Figures 9a through 9g further show the threaded nut collar of Figure 8; [0023] Figure 10 is a top perspective view of a threaded reed collar 20 with a reed switch, dimple lock bayonet, and wire of the present disclosure; [0024] Figures 11a through 11h, and 11j further show the threaded reed collar of Figure 10; [0025] Figure 12 is a bottom perspective view of a mounting assembly of the present disclosure; 25 [0026] Figures 13a through 13d show a reed switch connector assembly and switching diagram of the present disclosure; [0027] Figure 14 is a side perspective view of a magnetic strainer of the present disclosure; [0028] Figures 15a through 15e further shown the magnetic 30 strainer assembly of Figure 14; [0029] Figures 16a through 16h, and 16j further show the sink flange of Figure 4; 5 [0030] Figures 17a through 17h, 17j through 17k, and 17m through 17n further show the magnetic strainer of Figure 14; [0031] Figures 18a through 18h, and 18j further show the sink flange of Figure 4; 5 [0032] Figure 19 is a side elevational view of an assembly of the of threaded nut collar of Figure 8 and the sink flange assembly of Figure 6a; [0033] Figures 20a through 20d show a sink-flange gasket of the present disclosure; [0034] Figure 21 is a top perspective view of the threaded reed 10 collar of Figure 10; [0035] Figure 22 is a top perspective view of a snap-on wire and switch retention ring of the present disclosure; [0036] Figure 23 is a cross sectional front elevational view of an installed mounting assembly without the magnetic strainer according to several 15 embodiments of the present disclosure; [0037] Figure 24 is a cross sectional front elevational view of a sink flange of the mounting assembly of Figure 23; [0038] Figure 25 is a front perspective view of the installed mounting assembly of Figure 23; 20 [0039] Figure 26 is a cross sectional front elevational view of a subassembly of the sink flange of Figure 24 installed using a threaded collar nut to a sink base; [0040] Figure 27 is a cross sectional front elevational view of the subassembly of Figure 26 further showing installation of a food waste disposer 25 flange mount; [0041] Figure 28 is the cross sectional front elevational view of Figure 27 further showing installation of a mount retaining ring; and [0042] Figure 29 is a cross sectional front elevational view of the subassembly of Figure 28 further showing installation of a food waste disposer 30 attachment body flange. 6 DETAILED DESCRIPTION [0043] The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, corresponding reference numerals 5 indicate like or corresponding parts and features. [0044] Referring generally to Figures 1, 5, and 6a-6b, a mount system 2 includes a mount system sink-flange 4 with a plurality of small projection features or dimples 6. The dimples 6 are of two types, convex or outward protrusions 8 extending outwardly from an outer radial surface 10, and concave 10 or inward protrusions 12 formed in inner radial surface 11 of a tubular section 14 of the sink-flange 4. [0045] Referring generally to Figures 2, 3, 4, 6a-6c, 7a-7c, 18a-18h andl8j, and 19, the sink-flange 4 of mount system 2 has a radially recessed hook feature 16 for frictional attachment of an isolator mounting gasket 18. 15 Isolator mounting gasket 18 is attached with one or more clamps 20 such as band clamps. A peripheral slot 21 is created in mounting gasket 18 to align each clamp 20. [0046] Referring generally to Figures 8, 9a-9g, 10, 12, 19, and 21 mount system 2 also includes a threaded collar nut 22 that threads onto a 20 threaded reed switch collar 24 for tightening and securing the assembly of the mount system 2 onto a bottom opening of a sink 26. The sink 26 can be made from a material such as but not limited to steel, iron, ceramic, or the like. [0047] Referring generally again to Figures 8, 10, and 12, threaded collar nut 22 further includes a top flat surface or flange 28 and multiple grip ribs 25 30 on an opposed bottom surface 32 for strengthening and to help tighten the threaded collar nut 22 to reed switch collar 24 by hand or with a special wrench tool (not shown). Perpendicular to the top flat surface or flange 28 of threaded collar nut 22 is an internal tubular section 34 of the threaded collar nut 22 having a plurality of strong machine threads 36 for threaded attachment to the threaded 30 reed switch collar 24. [0048] Referring generally to Figures 2, 3, 4, 5, 8, 9g, 10, and 11 a-i 1 h, 1 1j, and 21, the threaded reed switch collar 24 has molded into an inside tubular 7 geometry a plurality of bayonet type dimple attachment recesses 38, 38' molded in and matching the geometry and the plurality of the outward protrusions 8 of the sink-flange 4 as a means of securely attaching the threaded reed switch collar 24 to the sink-flange 4. The threaded reed switch collar 24 includes at 5 least two bayonet dimple insertion tracks 40, 40' that are transversely oriented and lead into individual ones of the bayonet type dimple attachment recesses 38, 38'. The bayonet dimple insertion tracks 40, 40' are non-symmetrical (meaning they are not oriented at even angular intervals such as 180 degree intervals). [0049] Referring generally to Figures 10, 11 a-11 h, 13a-1 3d, and 14 the 10 threaded reed switch collar 24 also has molded into its external cylindrical geometry a plurality of strong machine style threads 44 for attachment of the machine style threads of threaded collar nut 22. The threaded reed switch collar 24 also includes a plurality of internally placed magnetic reed switches 46 and reed switch wires 48, which are assembled into the reed switch collar 24, and 15 correspond with and activate by "substantial" alignment with magnets 50 in the magnetic strainer 42. Substantial alignment occurs with approximately 50% or more overlap of the individual magnets 50 with individual ones of the magnetic reed switches 46. [0050] Referring generally to Figures 3, 10, 11a-11h, and 11j, 13a-13d, 20 14, and 15a-15e the quantity and geometry of the magnets 50 and reed switch positions 52 are such that by the rotation of the magnetic strainer 42 in its appropriate internal dimple channel 54, the reed switches 46 will be activated either to an "on" position 56 or an "off' position 58 as pairs, providing a redundant switch as a security device. This switching can be designed as a 25 single or as multiple modes of operation by utilizing multiple reed switches 46 and geometries. A resilient material bumper 60 is provided acting as a detent to releasably hold the "on" position 56 to prevent normal vibration of the waste disposer from inadvertently shutting off the unit. [0051] Referring generally to Figures 2, 3, 14, 15a-15e, 16a-16h, and 30 16j, and 17a-17h, 17j-17k, and 17m-17n the magnetic strainer 42 includes channels 54 about a strainer periphery 62, which correspond to the geometry of the inner dimples or inward protrusions 12 of sink-flange 4, allowing the sink

R

flange 4 to track in engineered locations or channels and stop in predetermined tracks. These locations are pre-designated magnet 50 and reed switch 46 "on" 56 or "off' 58 positions. [0052] Referring generally to Figures 2, 3, 14, 15a-15e, and 17a-17h, 5 17j-17k, and 17m-17n, the magnetic strainer 42 includes one or more parts including a top 64 and a bottom 66 that can snap together using one or more deflectable engagement tabs 68 and can snap apart to help make cleaning easier. The magnetic strainer 42 has at least two dimple insertion tracks 70 that are non-symmetrical which allow the magnetic strainer 42 to be inserted into the 10 sink-flange 4 into only one pre-designed location orientation. [0053] Referring generally to Figures 2, 19, and 20, a sink flange gasket 72 of a resilient material includes a plurality of waves or ridges 74 in opposed surfaces to create a fluid seal. The sink flange gasket 72 can be used to mount the sink-flange 4 to provide a fluid seal and to further isolate a noise 15 and vibration path from the food waste disposer 76 shown in Figure 19 to the sink 26. [0054] Referring generally to Figures 10, 11, 21, and 22, a snap ring 78 snap engages into a circular shaped channel 80 of the threaded reed switch collar 24. Snap ring 78 includes a plurality of extensions 82 which engage with 20 individual ones of the reed switches 46 to retain the reed switches 46. A reed switch mounting post 84 extending from an inner wall 85 of threaded reed switch collar 24 is also provided at each mounting location of the reed switches 46. Channel 80 also provides a routing path for the individual ones of the reed switch wires 48 of the reed switches 46, and a plurality of slots 86 are created in 25 threaded reed switch collar 24 to permit exit of the reed switch wires 48. As best seen in Figure 22, a plurality of notches 88 created in snap ring 78 are alignable with individual ones of the slots 86 to provide additional clearance for the reed switch wires 48. [0055] Referring to Figure 23, another embodiment of a food waste 30 disposer mounting system 90 reduces noise transmission of motor noise of the disposer via a path to the sink flange. A polymeric material sink flange 92 is positioned in a sink 94 (only partially shown). A washer 96 positioned above an 9 upper sink face 98 is compressed against the sink face 98 by threadably engaging a threaded collar nut 100 which engages a plurality of threads 102 created on an outer tubular body portion 104 of sink flange 92. A flange mount 106 is slidably received over outer tubular body portion 104 below the threads 5 102 and a mount retaining ring 108 is located below the flange mount 106. Mount retaining ring 108 can be diametrically spread to pass over an extending lip 110 formed at a free end 112 of the sink flange 92. Mount retaining ring 108 is frictionally received within an annular groove 114 formed above and proximate to extending lip 110. According to additional embodiments, a cladding ring 116 of a 10 metal material such as a stainless steel can be shape-formed corresponding to a shape of and frictionally coupled over an annular flange 118 of sink flange 92. [0056] Referring to Figure 24, sink flange 92 includes outer tubular body portion 104 which is homogenously connected to annular flange 118. The plurality of threads 102 are co-molded with and extend outwardly from outer 15 tubular body portion 104. According to several embodiments, threads 102 are left-handed threads. Annular groove 114 has an outward facing concave geometry and may include a convex-shaped portion 120 extending inwardly from an inner bore wall 122 of outer tubular body portion 104. [0057] Referring to Figure 25 and again to Figure 23, after flange 20 mount 106 is positioned and retained by installation of mount retaining ring 108, a disposer attachment body flange 124 connected to a disposer unit 126 (only partially shown) is rotated in a clockwise rotation "Z" to engage disposer unit 126 to disposer mounting system 90 and sink 94. The clockwise rotation of disposer attachment body flange 124 acts opposite to the rotation of threaded collar nut 25 100 so threaded collar nut 100 is not loosened by installation of disposer unit 126. A ring 128 extending radially from disposer attachment body flange 124 can contact an arm 130 radially extending from flange mount 106 to limit rotational travel of disposer attachment body flange 124 with respect to flange mount 106. 30 [0058] Referring to Figure 26, the installation sequence is as follows. Sink flange 92 is aligned within an opening 132 in sink 94 so that annular flange 118 contacts an upward facing surface 134 of washer 96. Washer 96 has an 10 annular bore that allows washer 96 to be slid outside of threads 102 until washer 96 abuts annular flange 118. Threaded collar nut 100 is threaded onto threads 102 and rotated until washer 96 is compressed against the sink face 98. [0059] Referring to Figures 27 and 28, the flange mount 106 is then 5 slidably pushed over extending ring 110 and over outer tubular body portion 104 up to the threads 102 until flange mount 106 abuts or is positioned proximate to the threaded collar 100. While temporarily holding flange mount 106 in position, mount retaining ring 108 is then elastically diametrically spread to slide past extending ring 110 at free end 112 of the sink flange 92 and seats within by 10 biasing into frictional contact within annular groove 114. A rolled portion 136 of mount flange 106 which defines an inner diameter smaller than a diameter of mount retaining ring 108 thereafter retains flange mount 106. Mount retaining ring 108 can be made from a metal material to provide shear load support to prevent removal of flange mount 106 by gravity/weight load induced by the 15 disposer unit on the sink flange 92. [0060] Referring to Figure 29 and again to Figure 25, a disposer (not shown) is positioned abutting flange mount 106. The disposer attachment body flange 124 is then rotatably engaged with flange mount 106. Disposer attachment body flange 124 is rotated in a clockwise direction to tighten disposer 20 attachment body flange 124. [0061] A food waste disposer mounting assembly of the present disclosure provides several advantages. The mounting assembly uses a stainless steel or plastic sink-flange with a screw-on collar system as its primary mounting system. By using a stainless steel or plastic sink-flange with a bayonet 25 locking reed collar and screw on nut collar, a path for vibration and sound transmission to the sink is both smaller and rendered indirect. Both vibration and motor grinding noise are reduced. The system can also accommodate reed switches so a stopper with magnets turns the unit into a batch-feed disposer. The use of a Stainless steel flange of the present disclosure eliminates a direct 30 connection from the disposer to the sink, and can accommodate various sink thicknesses. 11

Claims

1. A mount system for a food waste disposer, comprising: 5 a sink flange having: a tubular body portion; a mounting flange transversely extending from the tubular body portion, and an outer radial surface of the tubular body portion having at 10 least one first dimple extending outwardly from the outer radial surface; and a collar having: a dimple attachment recess adapted to slidably receive the at least one first dimple, and a dimple insertion track transversely oriented to the dimple 15 attachment recess to releasably engage with the at least one dimple to releasably engage the collar to the sink flange.

2. The mount system of Claim 1, wherein the sink flange further includes at least one second dimple extending inwardly from an inner radial 20 surface of the tubular body.

3. The mount system of Claim 2, further comprising a strainer releasably received within the tubular body portion of the sink flange, the strainer having at least one dimple receiving channel adapted to slidably receive the at 25 least one second dimple to releasably engage the strainer to the sink flange.

4. The mount system of Claim 3, wherein the strainer includes at least one magnet disposed in the strainer. 30

5. The mount system of Claim 4, further comprising at least one reed switch attached to the collar, wherein when the strainer is disposed within the sink flange the strainer is rotatable until the magnet is aligned with the reed 12 switch, alignment of the reed switch to the magnet being operable to close a contact of the reed switch to energize the food waste disposer.

6. The mount system of Claim 1, further comprising: 5 a plurality of threads on the collar; and a collar nut threadably engageble with the plurality of threads of the collar, the collar nut and the annular flange receiving a sink body therebetween when the collar nut is threadably engaged with the collar and the tubular body portion of the sink flange is positioned in a bottom opening of a sink. 10

7. The mount system of Claim 1, wherein the collar nut includes a collar flange connected to a body, the body of the collar further having: an inner surface having a plurality of threads on an inner surface; 15 and at least one rib adapted to promote axial rotation of the collar flange with respect to the sink flange.

8. The mount system of Claim 1, wherein the dimple insertion track is 20 located at and extends transversely away from an end of the dimple attachment recess and prevents axial removal of the collar from the sink flange without the collar first being rotated.

9. A mount system for a food waste disposer, comprising: 25 a polymeric material sink flange having: a tubular body portion having a thread on an outer wall of the tubular body portion; an annular flange transversely extending from and homogenously connected to the tubular body portion; 30 a flange mount slidably received over the tubular body portion; an annular groove having an outward facing concavity; 13 an elastically diametrically spreadable mount retaining ring received in the annular groove; a threaded collar nut threadably engaging the threaded outer wall of the tubular body portion, the threaded collar nut and the annular 5 flange receiving a sink body therebetween when the threaded collar nut is threadably engaged with the tubular body portion and the tubular body portion of the sink flange is positioned in a bottom opening of the sink body; and the flange mount retained on the tubular body portion by the mount retaining ring, the mount retaining ring providing shear load support of the 10 flange mount to prevent removal of the flange mount by gravity/weight load induced by a disposer unit on the sink flange.

10. The mount system of Claim 9, wherein the mount retaining ring releasably retains the flange mount. 15

11. The mount system of Claim 10, further including a rolled portion of the flange mount having an inner diameter smaller than a diameter of the mount retaining ring when the mount retaining ring is received in the annular groove, the rolled portion engaging the mount retaining ring and retaining the flange 20 mount.

12. The mount system of Claim 10, wherein the mount retaining ring is made from a metal material.

13. The mount system of Claim 10, further including a disposer 25 attachment body flange adapted to be connected to a disposer unit, the disposer attachment body flange rotatable in a clockwise rotation to engage the disposer attachment body flange to the flange mount, the clockwise rotation acting opposite to rotation of the threaded collar nut to prevent loosening the threaded collar nut. 30 14

14. The mount system of Claim 9, further including a cladding ring of a metal material shaped to correspond to a shape of the annular flange and frictionally coupled over the annular flange. 5

15. The mount system of Claim 9, further including a convex-shaped portion of the annular groove extending inwardly from an inner bore wall of the outer tubular body portion.

16. A mount system for a food waste disposer, comprising: 10 a sink flange having a mounting flange transversely extending from and homogenously connected to a tubular body portion, an outer wall of the tubular body portion having a plurality of first protrusions extending outwardly from the outer wall, and at least one second protrusion extending inwardly from an inner wall of the tubular body portion; 15 a reed switch collar including: a plurality of bayonet dimple attachment recesses on an inside tubular geometry, the bayonet dimple attachment recesses adapted to slidably receive the outward protrusions of the sink-flange to attach the reed switch collar to the sink-flange; 20 at least one reed switch attached to the reed switch collar; and a plurality of outwardly directed machine threads; and a threaded collar nut having a flange that engages the sink between the flange and the mounting flange of the sink flange, and a plurality of 25 threads that threadably engage with the machine threads of the reed switch collar.

17. The mount system of Claim 16, further comprising a strainer releasably received within the tubular body portion of the sink flange, the strainer 30 having at least one dimple receiving channel adapted to slidably receive the at least one second protrusion to releasably engage the strainer to the sink flange. 15

18. The mount system of Claim 17, wherein the strainer includes at least one magnet disposed in the strainer.

19. The mount system of Claim 18, wherein when the strainer is 5 disposed within the cavity the strainer is rotatable until the magnet is aligned with the reed switch, alignment of the reed switch to the magnet being operable to close a contact of the reed switch to energize the food waste disposer.

20. The mount system of Claim 17, further comprising a snap ring 10 engaged into a circular channel of the reed switch collar.

21. The mount system of Claim 20, wherein the reed switch collar includes a channel providing a routing path for individual ones of a plurality of reed switch wires connected to the at least one reed switch, and a plurality of 15 slots in the reed switch collar to permit exit of the reed switch wires.

22. The mount system of Claim 21, further including a plurality of notches in the snap ring alignable with individual ones of the slots in the reed switch collar to provide clearance for the reed switch wires. 20

23. The mount system of Claim 20, wherein the snap ring includes at least one extension which engages with the at least one reed switch to retain the at least one reed switch. 25

24. The mount system of Claim 17, further comprising a resilient bumper positioned within the at least one dimple receiving channel acting as a detent to releasably hold an "on" position to prevent vibration of the waste disposer from inadvertently shutting off the waste disposer. 30

25. The mount system of Claim 16, wherein the reed switch collar further includes at least two bayonet dimple insertion tracks and a corresponding number of bayonet dimple attachment recesses on an inside tubular geometry of 16 the collar, the bayonet dimple insertion tracks being transversely oriented with respect to and leading into individual ones of the bayonet dimple attachment recesses. 5

26. The mount system of Claim 16, wherein the reed switch collar includes a reed switch mounting post extending from an inner wall of the reed switch collar at a mounting location of each of the at least one reed switches.

27. A mount system for a food waste disposer, comprising: 10 a sink flange adapted to connect a food waste disposer to a sink, the sink flange having a mounting flange transversely extending from and homogenously connected to a tubular body portion, an outer wall of the tubular body portion having a plurality of first protrusions extending outwardly from the outer wall, and at least one second protrusion extending inwardly from an inner 15 wall of the tubular body portion; and a reed switch collar including: a plurality of bayonet dimple attachment recesses on an inside tubular geometry, the bayonet dimple attachment recesses adapted to slidably receive the outward protrusions of the sink-flange to attach the reed 20 switch collar to the sink-flange; a reed switch attached to the reed switch collar; and a snap ring engaged into a circular channel of the reed switch collar; the snap ring including an extension which engages with the reed switch to retain the reed switch to the reed switch collar. 25

28. The mount system of Claim 27, wherein the reed switch collar includes a plurality of outwardly directed machine threads.

29. The mount system of Claim 28, further comprising a threaded 30 collar nut having a flange that engages the sink between the flange and the mounting flange of the sink flange, and a plurality of threads that threadably engage with the machine threads of the reed switch collar. 17

30. The mount system of Claim 27, further comprising a strainer releasably received in the tubular body portion of the sink flange, the strainer having a magnet, proximity of the reed switch to the magnet being operable to 5 close a contact of the reed switch to energize the food waste disposer.

31. The mount system of claim 3, including a plurality of the second dimples and the strainer including a corresponding plurality of the dimple receiving channels with one of the dimple receiving channels for each second 10 dimple, the dimple receiving channels being non-symmetrical to allow the magnetic strainer to be inserted into the sink flange in only one location orientation.

32. A mount system for a food waste disposer, said mount system 15 substantially as hereinbefore described, with reference to any one embodiment and with reference to the accompanying drawings. 18