Patent Grant
11255535
Control knobs are mounted to various devices to control operation of the device. Illumination of the control knob can be used to indicate whether the device is in use.
In an example embodiment, a knob assembly is provided. The knob assembly may include, but is not limited to, a knob, a light assembly, a light socket, and a receptacle. The knob is configured to mount to a knob control rod configured to rotate with the knob when the knob is rotated to control operation of a device. The light assembly is mounted to the knob. The light assembly may include, but is not limited to, a light housing, a light diffuser, a light source, and a light connector prong. The light housing may include a first aperture wall defining a first aperture through which the knob control rod extends when the light assembly is mounted between the knob and the device. The light diffuser is mounted to the light housing. The light source is mounted to the light housing. Light from the light source is transmitted through the light diffuser when the knob is rotated to control operation of the device. The light connector prong is mounted to the light housing and electrically connected to the light source to provide power to the light source when the knob is rotated. The light socket may include, but is not limited to, a socket housing, a light connector aperture wall, an electrical connector aperture wall, and an internal conductor. The light connector aperture wall is formed in a first wall of the socket housing. The light connector prong is mounted within the light connector aperture wall when the light assembly is mounted to the light socket. The electrical connector aperture wall is formed in a second wall of the socket housing. A power connector prong connectable to a power source is mounted within the electrical connector aperture wall when the light socket is electrically connected to the device. The internal conductor is mounted within the socket housing and configured to electrically connect the light connector prong to the power connector prong. The receptacle is mounted between the light assembly and the device. The receptacle may include, but is not limited to, a receptacle base and a connector housing. The receptacle base may include a second aperture wall defining a second aperture through which the knob control rod extends when the receptacle is mounted to the device. The connector housing is mounted to the receptacle base and configured to house the light socket. The receptacle base is configured to mount adjacent a first face of a first wall of the device when the knob assembly is mounted to the device. The light diffuser is configured to mount adjacent a second face of the first wall of the device when the knob assembly is mounted to the device. The second face is on an opposite side of the first wall relative to the first face. The light connector prong is inserted into the light connector aperture wall through the first wall when the knob assembly is mounted to the device.
In another example embodiment, a device is provided. The device may include, but is not limited to, a housing, a switch, a knob control rod, and the knob assembly. The housing may include, but is not limited to, one or more walls. The switch is configured to control operation of a component of the device. The knob control rod is connected to the switch to control operation of the switch. The knob assembly is mounted to a first wall of the one or more walls.
In another example embodiment, a gas cooktop is provided. The gas cooktop may include, but is not limited to, a housing, a grate, a burner, a valve, a knob control rod, and the knob assembly. The housing may include, but is not limited to, one or more walls. The grate is mounted on the housing. The grate forms a horizontal support surface for a cooking receptacle. The burner is mounted below the grate. The valve is configured to control operation of the burner. The knob control rod is connected to the valve. The knob assembly is mounted to a first wall of the one or more walls.
Other principal features of the disclosed subject matter will become apparent to those skilled in the art upon review of the following drawings, the detailed description, and the appended claims.
Illustrative embodiments of the disclosed subject matter will hereafter be described referring to the accompanying drawings, wherein like numerals denote like elements.
Referring to
The plurality of burners 108 are mounted through apertures in front housing wall 112. The plurality of burners 108 provide a flame to heat the various cooking receptacles placed on the one or more grates 106. The burners may be single or multiple level burners, such as a dual stack burner. Merely for illustration, each burner may be implemented similar to the stacked dual gas burner described in U.S. Pat. No. 6,322,354. Other gas burner designs may be used in alternative embodiments. The plurality of burners 108 may be arranged in manners other than that shown in the illustrative embodiment of
A control knob of the plurality of control knobs 104 controls a respective burner of the plurality of burners 108. There may be a fewer or a greater number of the plurality of control knobs 104 and the plurality of burners 108. In the illustrative embodiment, the plurality of control knobs 104 are mounted vertically with respect to the plurality of burners 108 though other orientations may be used in alternative embodiments. Though described herein as controlling operation of a respective burner of cooktop 100, each control knob of the plurality of control knobs 104 may be mounted to control operation of other devices.
In the illustrative embodiment, each burner of the plurality of burners 108 is a dual stack burner. A gas line connects between each stack of each burner of the plurality of burners 108 and a control knob of the plurality of control knobs 104. For illustration, a lower burner gas line may provide a simmer flame, and an upper burner gas line may provide a main cooking flame. Each lower burner gas line and upper burner gas line may be small metallic tubes. For illustration, each lower burner gas line and upper burner gas line may be formed of stainless steel or aluminum tubing. Each pair of gas lines connects between an associated control knob and burner of the plurality of burners 108.
Cooktop 100 further may include a gas manifold 208. Gas manifold 208 extends in line with the plurality of control knobs 104 though behind front housing wall 112 so that it is not visible by the user. A main gas line (not shown) provides an entry port for gas that is provided to one or more of the plurality of burners 108 under control of a respective control knob of the plurality of control knobs 104. For example, the user adjusts a flame height from a burner of the plurality of burners 108 by rotating a respective control knob.
Referring to
Referring to
An illustrative fastener may be a screw, a rivet, a bolt, a nail, etc. In alternative embodiments, other methods of fastening further may be used such as an adhesive such as glue or tape, soldering, etc. A greater or a fewer number of fasteners may be used to mount various elements together in alternative embodiments instead of those shown for illustration. Additionally, different types of fasteners or combinations of fasteners may be used in alternative embodiments instead of those shown for illustration.
Referring to
Referring to
Referring to
Referring to
Referring to
Referring to
Referring to
Referring to
Valve electrical connectors 1000 extend from switch housing 1302, which houses a switch (not shown), and provide an electrical connection (not shown) to a power connector to provide power to valve 212. The switch within switch housing 1302 controls power to switch on an igniter of a burner of the plurality of burners associated with knob 302 and to switch on light assembly 306 when knob 302 is depressed and rotated to an ignite or “ON” position. The igniter may be switched off as knob 302 is rotated while light assembly 306 may remain lit. In a dual burner, the igniter may be switched on again as knob 302 is rotated to a second “ON” position.
Input gas line connector port 1310, first burner gas line connector port 1400, and second burner gas line connector port 1402 are formed in valve housing 1300. Valve first fastener wall 1306 and valve second fastener wall 1308 and valve control rod 708 are formed in valve detent housing 1304. Valve first fastener wall 1306 and valve second fastener wall 1308 are sized and shaped to accept the shafts of first receptacle fastener 1002 and second receptacle fastener 1004, respectively, to mount receptacle 400 to valve 212.
Knob control rod 708 may include a cylinder 1312 and tip mounting portion 1314. Cylinder 1312 is generally circular and extends from and through valve detent housing 1304 and into valve housing 1300. Tip mounting portion 1314 may include a control rod flat wall 1316, a control rod curved wall 1318, a first control rod flat wall edge 1320, a second control rod flat wall edge 1322, and a tip end 1324. Control rod flat wall 1316 is cut into a portion of cylinder 1312. Control rod flat wall 1316 is mounted upwards when first knob-valve assembly 206 is assembled and knob 302 is in an “OFF” position. Rotation of knob 302 rotates knob control rod 708 because knob mounting aperture wall 706 is sized and shaped to not allow rotation of tip mounting portion 1314 within knob mounting aperture wall 706. Control rod curved wall 1318 transitions to mounting control rod flat wall 1316 at first control rod flat wall edge 1320 and at second control rod flat wall edge 1322 to provide a rotated “C”-shaped tip end 1324. Tip mounting portion 1314 extends from valve 212 towards knob 302 when first knob-valve assembly 206 is assembled.
Knob control rod 708 may include a valve end 1500 that is an end of knob control rod 708 opposite tip end 1324. Valve end 1500 is mounted within an interior of valve housing 1300. A blocking protrusion 1502 extends from cylinder 1312 adjacent valve end 1500. Blocking protrusion 1502 extends approximately perpendicular to cylinder 1312. Blocking protrusion 1502 fits within detent walls 1504. When knob 302 is depressed, blocking protrusion 1502 is released from detent walls 1504 to allow rotation of knob 302 to select a burner and control the flame height of the selected burner. A cone piece (not shown) may mount to valve end 1500. One or more channels may be formed in the cone piece to control the flow of gas from input gas line connector port 1310 to at least one of first burner gas line connector port 1400 and/or second burner gas line connector port 1402.
Knob 302 directly controls operation of valve 212 to provide gas to a respective burner by mounting directly to knob control rod 708 of valve 212. Valve 212 regulates gas pressure to the respective burner based on a rotation angle of knob 302 by a user. Though not shown, a small wire may extend from valve 212 to the igniter at the respective burner. The igniter receives an electrical current and lights the selected burner flame when knob 302 is depressed and rotated to an ignite or “ON” position. Knob 302 may provide separate rotation angles to control the flow of gas to the upper and lower burners separately.
Each of input gas line connector port 1310, first burner gas line connector port 1400, and/or second burner gas line connector port 1402 may have threaded fittings where the gas line tubes attach. For example, first upper burner gas line 202 may be mounted to first burner gas line connector port 1400, and first lower burner gas line 204 may be mounted to second burner gas line connector port 1402 using threaded fittings. Input gas line connector port 1310 may be mounted to gas manifold 208 by a valve manifold connector using threaded fittings to receive gas from a main gas line of cooktop 100.
Referring to
Handle 1602 extends from a portion of lettering ring 1600 away from front housing wall 112 when knob 302 is mounted to front housing wall 112. Handle 1602 extends approximately perpendicularly from top surface portions of lettering ring 1600 and extends continuously from side surface portions of lettering ring 1600 in the illustrative embodiment. A size and a shape of handle 1602 is selected to provide a comfortable grasping location for the user to rotate knob 302 while providing a positive aesthetic appearance. Lettering 1604 is formed on a side surface of lettering ring 1600 to indicate a flame setting. In the illustrative embodiment, the lettering includes “OFF HI . . . LO SIMHI . . . LO” though symbols may be used in alternative embodiments. The lettering OFF is positioned upwards when the burner is off. Turning the knob counter clockwise controls a first burner HI . . . LO. Continued rotation controls a second burner SIM
HI . . . LO. Numerical setting values may be used in alternative embodiments. The lettering may be provided using various methods including etching, molding, painting, etc. In an illustrative embodiment, only one of first burner and second burner is lit at a time. Thus, continued rotation to turn the second burner on turns off the first burner. Knob 302 may have a different shape than that illustrated.
Referring to
Second receptacle aperture wall 1704 is formed through bezel 304 and defines an aperture sized and shaped to accept at least a portion of receptacle mounting protrusion 802 therein. For example, receptacle mounting protrusion 802 may have a conical shape that narrows further from receptacle base 2000 (shown referring to
First bezel fastener head aperture wall 1706 is formed through bezel 304 and defines an aperture sized and shaped to accept a head of first bezel fastener 402. An exterior of first bezel fastener head aperture wall 1706 further may be sized and shaped to fit at least partially within first bezel fastener aperture wall 604 when bezel 304 is mounted to front housing wall 112. For example, first bezel fastener head aperture wall 1706 may have a conical shape that narrows further from bezel mounting wall 1702 so that first bezel fastener head aperture wall 1706 slides into first bezel fastener aperture wall 604 a predetermined distance to provide a snug fit against first bezel fastener aperture wall 604.
Second bezel fastener head aperture wall 1708 is formed through bezel 304 and defines an aperture sized and shaped to accept a head of second bezel fastener 800. An exterior of second bezel fastener head aperture wall 1708 further may be sized and shaped to fit at least partially within second bezel fastener aperture wall 606 when bezel 304 is mounted to front housing wall 112. For example, second bezel fastener head aperture wall 1708 may have a conical shape that narrows further from bezel mounting wall 1702 so that second bezel fastener head aperture wall 1708 slides into second bezel fastener aperture wall 606 a predetermined distance to provide a snug fit against second bezel fastener aperture wall 606.
First bezel fastener shaft aperture wall 1710 is formed across a first end of first bezel fastener head aperture wall 1706 opposite a second end of first bezel fastener head aperture wall 1706 that is formed on bezel mounting wall 1702. First bezel fastener shaft aperture wall 1710 defines an aperture sized and shaped to accept a shaft of first bezel fastener 402.
Second bezel fastener shaft aperture wall 1712 is formed across a first end of second bezel fastener head aperture wall 1708 opposite a second end of second bezel fastener head aperture wall 1708 that is formed on bezel mounting wall 1702. Second bezel fastener shaft aperture wall 1712 defines an aperture sized and shaped to accept a shaft of second bezel fastener 800.
In the illustrative embodiment, first bezel fastener 402 and second bezel fastener 800 are screws that include a shaft and a head as understood by a person of skill in the art. A portion of the shafts may be threaded. Other types of fasteners and mounting methods than those shown for illustration may be used to mount the components of first knob-valve assembly 206 to each other.
Referring to
Light assembly 306 may include a light housing 1800, a light diffuser ring 1802, a mounting aperture wall 1804, first connector housing 1818, light connectors 1820, and a light source 1822. In an illustrative embodiment, light housing 1800 and light diffuser ring 1802 are formed of distinct parts that are mounted to each other using tabs and a friction fit though other mounting methods may be used.
Light housing 1800 may include a top wall 1832 and a sidewall 1834 that extends from an exterior circumferential edge of top wall 1832. Mounting aperture wall 1804 and first connector housing 1818 are mounted to extend from an interior surface of top wall 1832 from which sidewall 1834 extends. Top wall 1832, sidewall 1834, mounting aperture wall 1804, and first connector housing 1818 may be integrally formed together, for example, using a molding process. Light connectors 1820 and light source 1822 are mounted within the interior of light housing 1800 formed by top wall 1832 and sidewall 1834 between sidewall 1834 and mounting aperture wall 1804.
In the illustrative embodiment, light diffuser ring 1802 has a circular shape that extends from a circumferential edge 1830 of light housing 1800 though other shapes may be used. Light diffuser ring 1802 may be formed of a translucent or semi-transparent and reflective material to provide diffused light that indicates whether a respective control knob of the plurality of control knobs 104 is on in terms of controlling operation of the respective burner. In the illustrative embodiment, referring to
An exterior surface 1836 of second ring portion 1828 of light diffuser ring 1802 that is opposite circumferential edge 1830 of light housing 1800 mounts flush with the first side of front housing wall 112 on which knob 302 is located. Due to the flush fitting, there is no gap between exterior surface 1836 of light diffuser ring 1802 and the first side of front housing wall 112. When light received from light source 1822 is diffused through light diffuser ring 1802, the light may exhibit a halo effect that may partially reflect from a surface of the first side of front housing wall 112 to further enhance visibility of the light that indicates the respective control knob of the plurality of control knobs 104 is on.
Referring to
Light source 1822 is housed within light housing 1800 adjacent light diffuser ring 1802 to generate the light. For example, light source 1822 is mounted to shine the light towards light diffuser ring 1802. For illustration, light source 1822 may be a plurality of light emitting diodes (LEDs), and the light connectors 1820 may be a cathode prong and an anode prong of the plurality of LEDs though other light sources and light connectors may be used in alternative embodiments. The light may be any color including white, red, pink, etc. In the illustrative embodiment, the plurality of LEDs is arranged in a circular pattern proximate a circumferential edge of top wall 1832 of light housing 1800 adjacent side wall 1834 facing into light diffuser ring 1802 so that the illumination is evenly distributed along a length of light diffuser ring 1802 adjacent front housing wall 112. For example, referring to
In the illustrative embodiment, first connector housing 1818 has a similar shape to second connector housing 2010 though first connector housing 1818 is smaller than second connector housing 2010 so that first connector housing 1818 fits within second connector housing 2010 when light connectors 1820 are inserted into light connector aperture walls 2114 (shown referring to
In the illustrative embodiment, light connectors 1820 are prongs that extend from light housing 1800 towards light connector aperture walls 2114 of light socket 900 when light assembly 306 is mounted to receptacle 400. Light connectors 1820 are recessed from an outer edge of first connector housing 1818 so that light connectors 1820 do not extend beyond the outer edge. First connector housing 1818 surrounds the recessed light connectors 1820 to prevent damage to light connectors 1820, to provide ease in aligning light connectors 1820 with light socket 900, and to provide electrical isolation of light connectors 1820. Light connectors 1820 are formed at least partially of an electrically conductive material and are electrically connected to light source 1822 (not shown) to provide power to light source 1822 received through them.
Mounting aperture wall 1804 extends from an interior surface of top wall 1832 and forms an aperture in top wall 1832. Mounting aperture wall 1804 may include a first fastener support wall portion 1806, a second fastener support wall portion 1808, a first cupped support wall portion 1810, a second cupped support wall portion 1812, a first support wall portion 1814, a third cupped support wall portion 1815, a second support wall portion 1816, and a fourth cupped support wall portion 1817. For simplicity of description, first fastener support wall portion 1806, second fastener support wall portion 1808, first cupped support wall portion 1810, second cupped support wall portion 1812, first support wall portion 1814, third cupped support wall portion 1815, second support wall portion 1816, and fourth cupped support wall portion 1817 are used to describe a general shape of mounting aperture wall 1804 though they are not distinct elements, but form a single continuous aperture wall in the illustrative embodiment.
First fastener support wall portion 1806 has a “C-shape” and is formed between second cupped support wall portion 1812 and third cupped support wall portion 1815 in a lower right portion of light housing 1800. Second fastener support wall portion 1808 has a “C-shape” and is formed between first cupped support wall portion 1810 and fourth cupped support wall portion 1817 in an upper left portion of light housing 1800. First cupped support wall portion 1810 is arc shaped and formed between second fastener support wall portion 1808 and first support wall portion 1814 in an upper portion of light housing 1800. Second cupped support wall portion 1812 is arc shaped and formed between first fastener support wall portion 1806 and second support wall portion 1816 in a lower portion of light housing 1800. First support wall portion 1814 is linear shaped and formed between first cupped support wall portion 1810 and third cupped support wall portion 1815. Second support wall portion 1816 is linear shaped and formed between second cupped support wall portion 1812 and fourth cupped support wall portion 1817.
Referring to
Referring to
First receptacle fastener head aperture wall 2002 is formed through receptacle base 2000 and defines an aperture sized and shaped to accept a shaft and a head of first receptacle fastener 1002. First receptacle fastener shaft aperture wall 2004 is formed through receptacle base 2000 centered within first receptacle fastener head aperture wall 2002 and defines an aperture sized and shaped to accept the shaft but not the head of first receptacle fastener 1002. The shaft of first receptacle fastener 1002 is threaded into valve first fastener wall 1306 to mount receptacle 400 to the valve 212.
Second receptacle fastener head aperture wall 2006 is formed through receptacle base 2000 and defines an aperture sized and shaped to accept a shaft and a head of second receptacle fastener 1004. Second receptacle fastener shaft aperture wall 2008 is formed through receptacle base 2000 centered within second receptacle fastener head aperture wall 2006 and defines an aperture sized and shaped to accept the shaft but not the head of second receptacle fastener 1004. The shaft of second receptacle fastener 1004 is threaded into valve second fastener wall 1308 to mount receptacle 400 to the valve 212.
In the illustrative embodiment, first receptacle fastener 1002 and second receptacle fastener 1004 are screws that include a shaft and a head as understood by a person of skill in the art tough other fastening methods may be used in alternative embodiments. A portion of the shafts may be threaded.
Connector support walls 2012 are formed in second connector housing 2010. Connector support walls 2012 and second connector housing 2010 are sized and shaped to hold light socket 900 in place within second connector housing 2010 so that light connectors 1820 can be inserted into light socket 900.
First fastener shaft aperture wall 2014 extends outward from both sides of receptacle base 2000 and is sized and shaped to accept the shaft of first bezel fastener 402 to mount bezel 304 to receptacle 400. Second fastener shaft aperture wall 2016 extends outward from both sides of receptacle base 2000 and is sized and shaped to accept the shaft of second bezel fastener 800 to mount bezel 304 to receptacle 400.
Referring to
Referring to
First spring wall 2204 and second spring wall 2206 are formed in arced wall 2202 on either side of a center of arced wall 2202 relative to a circumferential edge of arced wall 2202. First spring aperture wall 2208 is formed in arced wall 2202 bordered on three sides by arced wall 2202 and on a fourth side by first spring wall 2204. Third spring aperture wall 2212 is formed in arced wall 2202 bordered on three sides by arced wall 2202 and on a fourth side by second spring wall 2206. Second spring aperture wall 2210 is formed in arced wall 2202 bordered on two sides by arced wall 2202, on a third side by first spring wall 2204, and on a fourth side by second spring wall 2206. First spring wall 2204 and second spring wall 2206 can bend near an axial center to provide a return force so that knob spring 804 returns knob 302 to a resting position after the user presses knob 302 into bezel 304 to light the igniter.
First knob-valve assembly 206 is assembled by inserting first receptacle fastener 1002 into first receptacle fastener head aperture wall 2002, first receptacle fastener shaft aperture wall 2004, and valve first fastener wall 1306 to mount receptacle 400 to valve 212. Second receptacle fastener 1004 is also inserted in second receptacle fastener head aperture wall 2006, second receptacle fastener shaft aperture wall 2008, and valve second fastener wall 1308. Light socket 900 is inserted in second connector housing 2010 and mounted to connector support walls 2012. Receptacle mounting protrusion 802 is inserted into receptacle aperture wall 602. Valve 212 is mounted to cooktop 100. The light power connector is inserted into electrical connector aperture walls 2116. Light assembly 306 is slid onto bezel 304, first connector housing 1818 is slid into light connector aperture wall 600 and second connector housing 2010, and light connectors 1820 are slid into light connector aperture walls 2114. Bezel 304 is mounted to light assembly 306 by sliding second receptacle aperture wall 1704 onto receptacle mounting protrusion 802, sliding first bezel fastener head aperture wall 1706 into first bezel fastener aperture wall 604, and sliding second bezel fastener head aperture wall 1708 into second bezel fastener aperture wall 606. First bezel fastener 402 is inserted into first bezel fastener head aperture wall 1706, first bezel fastener shaft aperture wall 1710, and first fastener shaft aperture wall 2014 to mount bezel 304 to receptacle 400. Second bezel fastener 800 is inserted into second bezel fastener head aperture wall 1708, second bezel fastener shaft aperture wall 1712, and second fastener shaft aperture wall 2016 to further mount bezel 304 to receptacle 400. Knob 302 is mounted to knob control rod 708 by sliding knob mounting aperture wall 706 over knob control rod 708. The assembly steps may be performed in orders other than that described.
As used herein, the term “mount” includes join, unite, connect, couple, associate, insert, hang, hold, affix, attach, fasten, bind, paste, secure, hinge, bolt, screw, rivet, solder, weld, glue, form over, form in, layer, mold, rest on, rest against, abut, and other like terms. The phrases “mounted on”, “mounted to”, and equivalent phrases indicate any interior or exterior portion of the element referenced. These phrases also encompass direct mounting (in which the referenced elements are in direct contact) and indirect mounting (in which the referenced elements are not in direct contact, but are connected through an intermediate element) unless specified otherwise. Elements referenced as mounted to each other herein may further be integrally formed together, for example, using a molding or thermoforming process as understood by a person of skill in the art. As a result, elements described herein as being mounted to each other need not be discrete structural elements unless specified otherwise. The elements may be mounted permanently, removably, or releasably unless specified otherwise.
Use of directional terms, such as top, bottom, right, left, front, back, upper, lower, horizontal, vertical, behind, etc. are merely intended to facilitate reference to the various surfaces of the described structures relative to the orientations introduced in the drawings and are not intended to be limiting in any manner unless otherwise indicated.
The word “illustrative” is used herein to mean serving as an example, instance, or illustration. Any aspect or design described herein as “illustrative” is not necessarily to be construed as preferred or advantageous over other aspects or designs. Further, for the purposes of this disclosure and unless otherwise specified, “a” or “an” means “one or more”. Still further, using “and” or “or” in the detailed description is intended to include “and/or” unless specifically indicated otherwise.
The foregoing description of illustrative embodiments of the disclosed subject matter has been presented for purposes of illustration and of description. It is not intended to be exhaustive or to limit the disclosed subject matter to the precise form disclosed, and modifications and variations are possible in light of the above teachings or may be acquired from practice of the disclosed subject matter. The embodiments were chosen and described in order to explain the principles of the disclosed subject matter and as practical applications of the disclosed subject matter to enable one skilled in the art to utilize the disclosed subject matter in various embodiments and with various modifications as suited to the particular use contemplated.
| Number | Name | Date | Kind |
|---|---|---|---|
| 2682859 | Jensen et al. | Jul 1954 | A |
| 2699141 | Gaguski | Jan 1955 | A |
| 2998733 | Thompson | Sep 1961 | A |
| D194137 | Jenn | Nov 1962 | S |
| D266348 | Piesco | Sep 1982 | S |
| D316293 | Ragonot | Apr 1991 | S |
| D324807 | Reid et al. | Mar 1992 | S |
| D369940 | Wilsdorf | May 1996 | S |
| D400778 | Holbrook | Nov 1998 | S |
| 5936613 | Jaeger et al. | Aug 1999 | A |
| D419218 | Mullenmeister | Jan 2000 | S |
| 6079401 | Alvord et al. | Jun 2000 | A |
| D493090 | Chen et al. | Jul 2004 | S |
| D498657 | Milrud et al. | Nov 2004 | S |
| D509095 | Grutzke et al. | Sep 2005 | S |
| D509987 | Vetter | Sep 2005 | S |
| D511290 | Coudurier | Nov 2005 | S |
| D525517 | Baldwin | Jul 2006 | S |
| D525518 | Baldwin | Jul 2006 | S |
| D534628 | Chisenhall | Jan 2007 | S |
| 7171727 | Wylie et al. | Feb 2007 | B2 |
| 7251861 | Suzuki | Aug 2007 | B2 |
| 7259908 | Wagener et al. | Aug 2007 | B2 |
| D568715 | Gustafson et al. | May 2008 | S |
| 7381128 | Ogawa et al. | Jun 2008 | B2 |
| D578890 | Swanson et al. | Oct 2008 | S |
| 7462795 | Montalvo | Dec 2008 | B2 |
| D597632 | Obara et al. | Aug 2009 | S |
| D631726 | Sanchez | Feb 2011 | S |
| D642042 | Kim | Jul 2011 | S |
| D644912 | Benold | Sep 2011 | S |
| D645702 | Baacke et al. | Sep 2011 | S |
| D649004 | Sanchez | Nov 2011 | S |
| 8430460 | Erro et al. | Apr 2013 | B2 |
| D696068 | Baacke | Dec 2013 | S |
| D697359 | Meda et al. | Jan 2014 | S |
| 8662102 | Shaffer et al. | Mar 2014 | B2 |
| D704028 | Meda et al. | May 2014 | S |
| D724381 | Pionek et al. | Mar 2015 | S |
| D724382 | Pionek et al. | Mar 2015 | S |
| D724888 | Lee et al. | Mar 2015 | S |
| 8979289 | Camli et al. | Mar 2015 | B2 |
| 9146033 | Cadima et al. | Sep 2015 | B2 |
| D741454 | Freier et al. | Oct 2015 | S |
| D752385 | Pionek et al. | Mar 2016 | S |
| D752386 | Pionek et al. | Mar 2016 | S |
| D764028 | Schoenherr et al. | Aug 2016 | S |
| D779262 | Kim et al. | Feb 2017 | S |
| D781126 | Pionek et al. | Mar 2017 | S |
| D806512 | Chow et al. | Jan 2018 | S |
| 20120012721 | Baier | Jan 2012 | A1 |
| 20140047943 | Camli et al. | Feb 2014 | A1 |
| 20170227231 | Pionek | Aug 2017 | A1 |
| 20180045419 | Kim | Feb 2018 | A1 |
| 20180232001 | Gur | Aug 2018 | A1 |
| 20180245795 | Serabatir | Aug 2018 | A1 |
| 20210111657 | Altonen | Apr 2021 | A1 |
| Number | Date | Country |
|---|---|---|
| 2659190 | Sep 2014 | EP |
| Entry |
|---|
| Design examination report No. 1 issued in Australian Design Application 202016095 dated Jun. 29, 2021. |
| SubZero Wolf Australia subzerowolfaust Instagram photos and videos' which was published on the website https://www.instagram.com/p/B-nuUODFF8X/ on Apr. 6, 2020. |
| How a Wolf 48 Duel Fuel Range is made BrandmadeTV YouTube' which was published on the website https://www.youtube.com/watch?v=X8GD0x_rObo on Dec. 9, 2015. |
| 4 Facebook' which was published on the website https://www.facebook.com/HandmadeKitchenCo/photos/p. 2107277619393842/2107277619393842/?opaqueCursor=AbrM3y4QSkE-InfP2C6ddnBXnEm-scTg1NgDB_ITSRMEU_x6ilYO08IQRJ5PR5JG96GYjT-5IJ4iGPWuOHsUFBZyi2PzYzpEG . . . on Feb. 26, 2019. |
| Wolf Range Review the Luxury Standard for Your Kitchen YouTube' which was published on the website https://www.youtube.com/watch?v=2EBoKqnjqKo on Sep. 22, 2018. |
| Wolfkitchen hashtag on Instagram Photos and Videos' which was published on the website https://www.instagram.com/p/B6uU2nVqyM2/on Dec. 31, 2019. |
| 4 Facebook' which was published on the website https://www.facebook.com/Viking/photos/10156231386187170 on May 5, 2018. |
