CA2630883A1 - Improvements relating to ovens - Google Patents

Improvements relating to ovens Download PDF

Info

Publication number
CA2630883A1
CA2630883A1 CA002630883A CA2630883A CA2630883A1 CA 2630883 A1 CA2630883 A1 CA 2630883A1 CA 002630883 A CA002630883 A CA 002630883A CA 2630883 A CA2630883 A CA 2630883A CA 2630883 A1 CA2630883 A1 CA 2630883A1
Authority
CA
Canada
Prior art keywords
drawer
oven
cabinet
shelf
support means
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
CA002630883A
Other languages
French (fr)
Inventor
Guy Emerson Wilson
Robert Charles English
Matthew Craig Lazenby
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fisher and Paykel Appliances Ltd
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from NZ543764A external-priority patent/NZ543764A/en
Application filed by Individual filed Critical Individual
Publication of CA2630883A1 publication Critical patent/CA2630883A1/en
Abandoned legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details
    • F24C15/02Doors specially adapted for stoves or ranges
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24CDOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
    • F24C15/00Details
    • F24C15/16Shelves, racks or trays inside ovens; Supports therefor
    • F24C15/162Co-operating with a door, e.g. operated by the door

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Electric Stoves And Ranges (AREA)

Abstract

An oven for cooking food comprising a cabinet with a front side that includes an opening, a door moveable between a closed position closing the opening and a fully open position allowing access to the oven interior, the oven also having a drawer which forms at least part of a cooking chamber, the drawer configured to be fully located within the cabinet when the door is closed, the oven also including a drawer support means which supports the drawer, the drawer support means supporting the drawer as it moves into and out of the cabinet, the oven also including a controllable heating source which supplies sufficient heat to the inside of the drawer to cook food positioned therein when in the closed position, the oven also including a vertically movable shelf located within the drawer which is supported by a shelf support means.

Description

"IMPROVEMENTS RELATING TO OVENS"
BACKGROUND OF THE INVENTION

Field of Invention This invention relates to improvements to convection ovens and radiant heating ovens, or combination convection and radiant heating ovens, or microwave ovens, or combination microwave, convection and radiant heating ovens, or any combination of the above.

Description of the Prior Art A long-standing problem with ovens, especially those used domestically, is that the oven chamber is usually inconveniently located for either the addition or removal of foodstuffs. For example, in typical domestic cookers, the cooking chamber is usually located low down and close to floor level, with the top surface of the cooker forming a separate cooking area for boiling, frying and the like. To add or remove food to the oven chamber, a user is therefore required to bend down and manhandle heavy and awkward trays or pots in and out of a relatively small and inconveniently located chamber. This problem is exacerbated when the food, the container and the chamber are hot at the end of the cooking process, as the user has to bend down to grasp a hot tray or pot (at the same time as protecting their forearms and hands from contact with hot surfaces on either the container or the oven chamber).
Furthermore, the user also has to deal with very hot air striking their face and arms when the door is opened.

Most ovens have shelves or racks that can be pulled in and out of the oven to aid with the removal or insertion process. These push-pull devices vary in sophistication from simple supports built into the sides of the oven chamber, with the user having to overcome the friction between the shelf and the supports to push or pull the shelf in or out, through to complex designs for drawer rails that are heat-resistant and low-friction, and which allow the shelves to be moved easily to more convenient locations. An example of a shelf rail system of this type is disclosed in WO 2004/025186.

Several prior art specifications describe devices that are directed towards solving the problem of having the food located closer to floor level than is convenient for a user. Both US
1,777,529 and US 1,851,183 disclose shelving systems that have both horizontal and vertical shelf movement, so that the oven shelf can be moved out of the oven chamber, and then moved from close to ground level to a location where the user can access the foodstuff on the shelf more conveniently.
In the device disclosed in US 1,777,529, the user is required to bend down to move the adjustable rack out of the oven chamber. A user is required to adjust the shelving height by manually operating a handle, which is slow and inconvenient if the shelf needs to be moved over greater distances, such as from the bottom of the oven chamber to the top, where it would be more conveniently located for a user. The mechanism used to achieve the height adjustment converts horizontal motion to vertical motion using a gearing system. Whilst gearing ratios are not explicitly discussed in the disclosure of this specification, it is clear that the system disclosed requires a user to rotate the handle through multiple rotations in order to move the shelf through its full range of motion, adding to the inconvenience.
US 1,851,183 discloses a shelving system that can be adjusted both horizontally and vertically using two separate handles which in the embodiment described are manually operated but which it is noted can be power operated. The shelf is supported by a telescoping sliding rail arrangement.
US 6,114,665 discloses a system where a set of oven shelves are removeably attached to, and cantilevered backwards from, an oven door. The oven door is slid open on runners or similar, so that it remains in the vertical plane for the entire range of movement. Separate shelves can be added or removed from the stack as required.
Anotlier problem that can occur with ovens of this type is the problem of hot air escaping from the oven chamber when the door is opened. Typically, this hot air rushes out as a user is attempting to remove or place foodstuffs on the oven shelf. This hot air can cause a user difficulty in placing the food correctly, and also discomfort. Also, it is easy for a user to inadvertently contact the hot surfaces (e.g. the shelving etc), and injure themselves. This is especially easy to do if a user has become temporarily unsighted due to hot air striking their face.
US 2,133,639 describes an oven that attempts to solve this problems by having a horizontally opening door with a moving rear plate or wall attached at the rear of a shelf and door support mechanism. The rear plate substantially blocks the open front of the oven when the door is in the fully open position.
Yet another difficulty with ovens of this type is that of adequately protecting sensitive components that are located in a hot oven cavity. As ovens become more complex, and capable of a wider range of cooking functions, it is becoming increasingly common and necessary for the oven to include sophisticated control mechanisms and temperature measuring devices. Also, automated mechanical mechanisms to move the shelves or carry out other automated tasks within the oven cavity, either with the door open or closed, are increasingly being used. One problem with using mechanisms of this type is that of protecting them from heat, and changes in temperature within the oven cavity. Locating these mechanisms behind an inner, protective wall of an oven cavity can be impractical, and it would be useful for users to have the choice of an alternative mechanism.
Yet another known problem witll convection ovens is that of achieving an even heat throughout the cooking chamber. Although it is known to use an integral oven fan or fans to circulate the hot air within the cooking chamber, hot spots can still develop, leading to uneven or unsatisfactory cooking of foodstuffs.

SUMMARY OF THE INVENTION
It is an object of the present invention to provide an oven that goes some way towards overcoming the above disadvantages, or which will at least provide the public with a useful choice.
In a first aspect the invention consists in an oven for cooking food coinprising:
a cabinet having a front side with an opening foimed therein, a door moveable between a closed position closing the open front of the cabinet, and a fully open position allowing access to the interior of the cabinet via said opening, a drawer, located within said cabinet when said door is in said closed position, said drawer forming at least part of a cooking chamber when in said closed position, a drawer support means at least located within said cabinet when said door is in said closed position, supporting said drawer, and configured to allow said drawer to move from a position within said cabinet, to a position where said drawer is at least partially located outside said cabinet, a controllable heating source provided within said cabinet or drawer for supplying sufficient heat to the inside of the drawer to cook food positioned therein, and at least one vertically movable shelf located within said drawer, supported by a shelf support means.
In a second aspect the invention consists in a food cooking cabinet having a front side with an opening formed therein, a first drawer and a second drawer, each of said drawers having a closed position and an open position, said drawers fully located within said cabinet when in said closed position, said drawers at least partially located outside said cabinet in said open position, said open positions allowing a user access to the inside of said first drawer or said second drawer respectively, said opening closed when said drawers are in said closed positions, said first drawer forming at least part of a first cooking chamber when in said closed position, said second drawer fonning at least part of a separate second cooking chamber when in said closed position, a first drawer support means supporting said first drawer and at least located within said cabinet when said first drawer is in said closed position, and configured to allow said drawer to move from a position within said cabinet to said open position, a second drawer support means supporting said second drawer and at least located within said cabinet when said second drawer is in said closed position, and configured to allow said second drawer to move from a position within said cabinet to said open position, said first cooking chamber having a first controllable heating source for supplying sufficient heat to the inside of said first cooking chamber to cook food positioned therein and said second cooking chamber having a second controllable heating source for supplying sufficient heat to the inside of said second cooking chamber to cook food positioned therein, and a first vertically movable shelf located within said first drawer and a second vertically movable shelf located within said second drawer, each of said shelves supported by a shelf support means.
In a third aspect the invention consists in an oven for cooking food, comprising;
a cabinet having a front side with an opening formed therein, a door movable between a closed position closing the open front of the cabinet, and an at least partially open position allowing access to the interior of said cabinet via said opening in the front side, a heating means, located in said cabinet on or close to its interior upper surface, a shelf, said shelf supported by a shelf support means, said shelf having at least two positions, a first position located within said cabinet, and a second position located substantially external to said cabinet, a heat shield formed from a heat resistant or heat reflective material, said heat shield configurable into at least a first stored position and a second substantially horizontally planar deployed position, said heat shield having a rear edge connected to the inside rear wall of said cabinet, and a front edge connected to said shelf support means, said heat shield deploying from said stored position to said deployed position as said shelf support means is withdrawn from said cabinet, wherein said heat shield in said deployed position is aligned below said heating means such that heat is deflected away from the interior of said cabinet.
In a fourth aspect the invention consists in a home appliance comprising:
a cabinet having a front side with an opening formed therein which extends substantially over the entire front face, a door movable between a closed position closing the open front of said cabinet, and an open position, a drawer, located within said cabinet wlien said door is in said closed position, said drawer forming at least part of a cooking chamber when in said closed position, a drawer support means located within said cabinet, supporting said drawer, and configured to allow said drawer to move from a position within said cabinet, to a position where said drawer is at least partially outside said cabinet, a power link, adapted to act as a conduit between a power supply and an electrical load in said drawer, said power link comprising;
a first swivelling connector located on said cabinet, a second swivelling connector located on said drawer, a substantially rigid link arm, rigidly connected at or close to one end to one of said swivelling connector, said link aiin slidably connected to the other of said swivelling connector, a wiring harness connecting said cabinet power supply to said drawer, at least part of the length of said harness passing along the length of said link arm.
To those skilled in the art to which the invention relates, many changes in construction and widely differing embodiments and applications of the invention will suggest themselves without departing from the scope of the invention as defined in the appended claims. The disclosures and the descriptions herein are purely illustrative and are not intended to be in any sense limiting.
BRIEF DESCRIPTION OF THE DRAWINGS
A preferred form of the present invention will now be described with reference to the accompanying drawings in which Figure 1 is an isometric view of a preferred form of the oven of the current invention, showing the outer casing that forms the open-fronted cabinet of the oven, an oven door in an open position, and a bin or drawer that forms a cooking chamber withdrawn from the oven, the drawer including a vertically moving shelf, the drawer in use sliding horizontally with the oven door to locate within the oven.
Figure 2 is a cutaway side view of the oven of Figure 1, showing the drawer, with the shelf towards the top of the drawer, and the oven door in the open position, with the rear wall of the drawer also shown, the rear wall including a fan and shroud.
Figure 3a is an isometric view of the oven of figures 1 and 2, showing the drawer withdrawn from the oven, with the oven door removed, and the shelf approximately halfway between the bottom and top of the drawer.
Figure 3b is an isometric view of the drawer of Figure 3 a, with the shelf and oven not shown, showing hidden detail of the mechanism used to secure the oven door in place on the front of the drawer.
Figure 4 is an isometric view of the oven of the present invention with the door in the closed position, sllowing hidden detail of the drawer fully located within the oven, and a heat shield located behind the drawer in a stored configuration.
Figure 5 is a cutaway side view of the oven of Figure 4.
Figure 6 is an isometric view of the oven of Figure 4, showing hidden detail of the heat shield in a semi-deployed position, with the door and drawer partway between a fully closed position and a fully open position.
Figure 7 is a series of cut-away side views of the oven of Figure 5, showing (in sequence from the top) the door and drawer moving from a fully closed to a fully open position, with the heat shield moving from the stored position to the deployed position as the door opens and the drawer is withdrawn from the oven.
Figure 8 shows the oven with the drawer and door in a fully open position, with the oven viewed from the front looking towards the rear, and angled towards the side of the oven, the view showing detail of a sealing means used at the front of the oven located on a chassis upper structure or block, the block protruding downwards from the inner upper surface of the oven.
Figure 9 is an isometric view of the shelf support means of the present invention, shown without the drawer or oven in place, and showing detail of upper and lower brackets connected by supporting rods, with shelf supports running vertically on the supporting rods.
Figure 10 is a front view of the shelf support means of Figure 9.
Figure 11 is a side view of the shelf support means of Figure 9.
Figure 12 is a sectional close-up side view of a sealing means used with the oven of the present invention to seal the gap between the drawer and the door of the oven, showing detail of the seal, the door and a chassis upper structure located on the roof of the oven.
Figure 13 is a sectional close-up side view of a sealing means used to seal the gap between the rear of the drawer and the oven outer structure, showing detail of the sealing means, the rear wall of the drawer and the chassis upper structure.
Figure 14 is a close up view from the front of one embodiment of a sealing means used to seal the gap between the side walls of the drawer and the oven outer structure, showing detail of the sealing means, the left side wall of the drawer (looking into the oven), and the roof structure of the oven.
Figure 15 is a close up view from the front of an alternative embodiment of a sealing means used to seal the gap between the side walls of the drawer and the oven outer structure, showing detail of the sealing means, the left-hand side wall of the drawer (loolcing into the oven), and the roof structure of the oven.
Figure 16a is a close up view from the front of part of an alternative embodiment of a sealing means used to seal the gap between the walls of the drawer and the oven outer structure, showing detail of the sealing means, the left-hand side wall of the drawer (looking into the oven), and the roof structure of the oven.
Figure 16b is a cut away side view of the oven of the present invention, showing detail of the alternative sealing means of Figure 16a, with the door slightly open.
Figures 17a-d show isometric, side and cutaway side views of a control panel protector that can be used with the oven of Figure 1.
Figure 18 shows a cut-away side view of a roof liner that can be used with the oven of Figure 1.
Figure 19a is a cut away side view of the oven of Figure 1, with the drawer fully withdrawn, showing detail of a power linkage mechanism that is located between the static cabinet of the oven and the mobile drawer.
Figure 19b shows the oven of Figure 19a from a cut away top view, with the drawer withdrawn.
Figure 20 shows a prior art motorised system used for opening and closing drawer-style devices, which can be adapted for use with the oven 1 of the present invention.
Figure 21 is a front view of the lower part of the oven of the present invention, showing the base and side walls of the external shell or cabinet, the base and side walls of the drawer, and the drawer and door support means of the preferred form of the present invention.
Figures 22a and 22b show views of a shelf support and shelf which can be used with the oven of Figure 1 and the shelf support means of Figures 9, 10 and 11.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
While the invention is susceptible to embodiment in different forms, a specific embodiment is shown in the drawings, and described in detail. The present disclosure is to be considered an exemplification of the principles of the invention, and is not intended to limit the invention to that as illustrated and described herein.
The preferred embodiment of the present invention will now be described in detail with reference to the Figures. As shown in Figure 1, the present invention consists of a drawer-type oven 1. That is, an oven with a horizontally opening door 2 connected to the fiont of a drawer structure. The basic structure of the oven 1 is an outer casing, external shell or cabinet 40 with an open front face. The oven 1 can be of the type that is fitted independently, or used with a separate cooktop located above the oven 1, for frying, boiling etc. In the embodiment shown in the Figures, no cooktop is shown. The oven of the present invention is suitable for either of gas burner or electric element cooking, or both.
In the preferred embodiment, a control panel 12 is located on the upper front part of the front face of the oven 1, just above the open front. Alternatively the control panel could be mounted on the front face of the oven, vertically to the left or the right of the open front. The open front of the oven 1 is closed in use by the door 2. The door 2 can include a handle 11 that can be grasped by a user, and pulled to move the door 2 open. The door 2 opens and closes horizontally via a door support means located within the cabinet 40, with the door support means connected to the door 2. The door support means can be any one of a number of alternatives such as are known in the art for horizontally sliding door or drawer structures.
The preferred embodiment of the door support means is shown in Figure 21. A
pair of three-part, full-extension ball-bearing slide assemblies or support assemblies are used. Each of the assemblies is a combination of a static rail and extending slides or rails.
Extending rails 3, 4 support the door 2 and co-operatively slide with the pair of static supports 54 located within the oven 1. It should be noted that two-part slides or any other suitable mechanism could also be used to support the door 2. For example, sliding or extending rail and static supports similar to those described and shown could be located at the sides, rather than underneath.
The front ends of the rails 3, 4 are connected to the inner face or inner structure of the door 2, close to the lower corners of the door 2.
In the preferred embodiment of the oven 1, a bin, tub or drawer 5 is used to form an open-topped cooking chainber or cavity within the cabinet 40 of the oven 1.
The bin or drawer 5 can be withdrawn from a position located within the outer casing 40, to a position outside the outer casing 40. The drawer 5 of the preferred embodiment is connected to the inner surface or inner structure of the door 2, so that the door 2 also acts as the front wall or face of the drawer 5. The drawer 5 slides into and out of the cabinet 40 as the door 2 is opened and closed. The preferred embodiment of the drawer 5 is an open-topped receptacle, having four vertical or substantially vertical walls (two side walls 6, 7, a rear wall 8 and a front wall formed by the door 2), plus a base 9. In the preferred embodiment, the front wall of the drawer 5 is connected to, or is part of, the door 2. The drawer 5 is sized so that it will fit within the space formed by the cabinet 40 of the oven 1. The drawer 5 forms a cooleing chamber which can be slid into and out of the cabinet 40 of the oven 1. The door 2 in the closed position closes the open front of the cabinet 40.
In the preferred embodiment, the door support means also acts as a drawer support means, with the drawer 5 and the door 2 supported by the support rails 3, 4 and static supports 54. The rails 3, 4, and the supports 54 take the vertical load of the drawer 5 and door 2 (or alternatively, the rails and supports can be located at the sides of the drawer 5).
In order to help prevent racking of the door 2 and drawer 5 as they are moved into and out of the cabinet 40, or rocking of the drawer 5 and door 2 from side to side, a third full-extension rail and static support can be used. The third rail 55 is located on the underside of the drawer 5, between the base of the drawer 5 and the base of the oven 1. The corresponding static support 56 is connected to the base of the oven. The alignment of the rai155 and support 56 when viewed from the front as in Figure 21, is at an angle to the support rails 54 and the runners 3, 4. Preferably this angle is perpendicular, or 90 degrees, from the angle of the support rails 54 and the runners 3, 4. Due to this angle, the third rail 55 and support 56 give little or no vertical support to the drawer 5 and door 2, but act to maintain the horizontal alignment of the drawer, so that racking is prevented. Alternatively, racking could be prevented by a conventional anti-racking system such as a rack and pinion style system.
It is preferable that the door is removable from the support means, as shown in Figures 3a and 3b. This assists cleaning and maintenance. The door 2 is located in place on the drawer 5 by a pair of upright pins 51 at the front of the base 9 of the drawer 5, which fit into a pair of corresponding slots 52 on the base of the door 2. A pair of screws 53 pass through holes in the outer side walls 6, 7, of the drawer 5 and into holes close to the top of the door 2 to hold door 2 in place during everyday use.
The door 2 and the door support means can also be connected to a linear motor or similar (not shown), and opened and closed by activating the motor via the control panel 12.
A suitable prior art motorised system for opening and closing drawer-style devices is shown in Figure 20. This can be adapted for use in the oven 1 of the current invention.
In normal day-to-day use, the support rails 3, 4 allow the door 2 and the drawer 5 to be pulled a certain distance out of the oven 1, to a fully open position which in the preferred embodiment is a position where the rear wall 8 of the drawer 5 is located substantially at the front of the oven cabinet. A stop mechanism on the rails and supports prevents the rails 3, 4, and the drawer 5 and door 2 from being pulled completely free of the supports, and stops forward motion of the drawer 5 at this point.
In the preferred embodiment, the support rails 3, 4 and the static supports 54 can also be 'over-extended' by means of an over extension mechanism, in order to move the door 2 and the drawer 5 further forward. This allows access beliind the drawer in order to aid cleaning and maintenance. This over-extension would be activated by the release of a detent mechanism or similar on the rails 3, 4. The inventors envisage a combined stop and over-extension mechanism which comprises a sprung loaded pin on each of the slides or rails 3, 4.
The pins provide the stop mechanism during normal operation. By pressing each pin down a user can then pull or slide the drawer 5 and the door 2 further out, and remove the drawer 5 from the support rails 3, 4, completely if necessary.
An example of a suitable rail and runner system, or support assembly, for supporting the door 2 and the drawer 5 would be Quadro type runners, such as those manufactured by Hettich. These are 3-part runners and rails that use ball bearing supports.
These could be used for the rails 3, 4, and the supports 54, and the angled ru.tuier and rail assembly, rail 55 and support 56.
In the preferred embodiment, the door 2 includes a window (not sllown) allowing a user to view the inside of the oven.
The upper part of the oven 1 forms a'lid' for the cooking chamber, with the relative sizes of the drawer 5 and the oven 1 chosen to minimise any gap between the upper edges of the walls of the drawer 5, and the upper internal surface of the oven 1.
In the preferred embodiment, the drawer 5 is moved into and out of the oven 1 by sliding horizontally. The door 2 is connected to the front of the drawer 5, so when a user opens the door 2, the drawer 5 slides horizontally out of the cabinet 40, supported by the drawer (and door) support means.
It is preferred that the inner surface or inner window pane of the door 2 covers the entire drawer aperture or front face of the drawer. That is, the glass of the window overlaps the front edges of the side walls 6, 7. This ensures that any food spillages or soiling is contained on the inner surface of the door, making this surface easier to clean.
The two side walls 6, 7 of the drawer 5 of the preferred embodiment are insulated, so that the outer surfaces of the walls 6, 7 will be cooler than the inner surfaces of the drawer 5.
This insulation ensures that the outside surfaces of the drawer are cool enough for a user to touch, and the user will not burn themselves by inadvertent contact with the side walls 6, 7 when the drawer 5 and door 2 are in the open position. The door 2 can be configured with or without a window as described above, but in the preferred embodiment it is also at least partially insulated so that the outer surface remains cool and will not burn a user if they contact the outer surface of the door 2.
The oven 1 of the preferred embodiment is the type that has an upper heating means 39, such as a radiant element, grill element or gas flame array located on or in the internal upper surface of the oven 1. When the drawer 5 is located within the oven 1, any foodstuffs within the cooking chamber fonned by the drawer 5 will be exposed to heat from this upper heating means 39.
In the preferred embodiment, the base 9 of the drawer 5 also includes a lower heating element (not shown). This lower or base heating element fulfils a similar function to the baking elements or heaters of ovens known from the prior art, and can be a gas array, a heating element, or any other suitable heating means that are known in the art.
It should also be noted that other heating means can be used either separately or in combination with the oven of the present invention. For example, microwave heating could be used either as the main heating means or as a supplementary heating means, with gas or electric elements also providing heating.
The preferred embodiment of the drawer 5 also includes a vertically moving or substantially vertically moving shelf 10. Foodstuffs are placed on the shelf 10 by a user, so that they can be cooked. The shelf 10 is connected to, or rests on, a shelf support means. In the preferred embodiment, this shelf support means is located in the side walls 6, 7 of the drawer 5. Vertical slots 49 in the inner surfaces of the walls 6, 7 allow connection from the shelf support means to the shelf 10, and allow the shelf 10 a range of movement from the bottom of the drawer 5 to the top of the drawer 5. In the preferred embodiment, this shelf support means is a pulley and cable arrangement.
In the preferred einbodiment, the shelf 10 is fitted closely to the side and rear walls 6, 7, 8 of the drawer 5, and the drawer front wall formed by the door 2. The base 9 of the shelf 10 is also depressed below the level of the shelf edges, so that spillages are contained on the shelf, and kept within an easily accessible and cleanable area.
SHELF SUPPORT MEANS
The preferred form of the shelf support means will now be described with reference to Figures 9, 10, and 11.
The side and rear walls 6, 7, 8 of the drawer 5 are double-skinned, with a hollow space between the inner and outer skins. A frameworlc is located in this space which supports the shelf 10, and controls vertical movement of the shelf 10. The frameworlc is comprised as follows:
A pair of lower horizontal support arms or lower brackets 42 are located at the bottom of the spaces in the side walls 6, 7, running from the front to the rear of the drawer 5. A pair of upper horizontal support arms or upper brackets 47 are located at the top of the spaces, also running from the front to the rear of the drawer 5. The lower and upper brackets 42, 47 are separated by spacing rods 45, one pair of rods 45 on each side of the drawer 5. A pair of shelf supports or lifter carriages 46, one on each side, are also guided by the rods 45. The lifter carriages 46 move freely between the top and bottom of the drawer 5 along the rods 45. A
combination motor and gearbox 44 is located at the lower rear of the drawer 5, external to the rear wall of the drawer 5. A transmission means transfers power from the motor/gearbox 44 to the lifter carriages 46. In the preferred embodiment, the transmission means is a double-ended drive shaft 43, which runs horizontally across the lower rear of the rear wall 8 of the drawer 5.
Alternatively, two motor/gearboxes could be used, one at each end, removing the need for a driveshaft such as driveshaft 43 described above.
The motor/gearbox 44 drives the shaft 43 in a rotary motion. The rotary motion is transferred to the lifter carriages 46 via a system of pulleys (not shown), bowden cables 48, and drums (not shown) which in the preferred embodiment are mounted on the frame formed by the lower and upper brackets 42, 47, the rods 45 and the lifter carriages 46. The cables 48 pass through the rear wall of the drawer 5 to connect between the shaft 43 and the lifter carriages 46. The rotary motion is converted to vertical motion by this system. If the shelf 10 is manufactured as one solid unit, pins on the shelf 10 project horizontally inwards through the slots 49 to be supported by the lifter carriages 46 so that the shelf 10 is supported in the drawer 5. Alternatively, as shown in Figure 22, a support fiame 57 can be used to support the planar shelf 10, the support frame 57 running the width of the drawer 5, pins 58 on the sides of the support frame 57 passing through the slots 49 to support the frame 57, with the shelf 10 resting on top of, or fitted to, the frame 57. It should also be noted that beams or rods attached to the support frames and running the width of the drawer 5 could be used to support the shelf 10. It should also be noted that the pins could also be located on the lifter carriages 46 if required, passing tlirough the, slots 49, into the interior of the drawer 5 to support the shelf 10.
Other mechanisms could be used to support the shelf 10. Examples of these mechanisms include worm gears and threaded blocks (or recirculating ball bearing/ballscrew type blocks) located in the wall spaces, and supporting the shelf via pins through the slots 49.
The worm gears could also be located in the rear wall 8, with the shelf supported by cantilevered beams from the rear shelf. It would also be possible to have this mechanism in the front wall of the drawer 5, or the rear wall in some embodiments if preferred. However, this is not the preferred location. A scissor-type mechanism could also be used. Sprocket and mini-chain drives could also be used, or other mechanical raising and lowering mechanisms that are well-known in the art. These could also be located in the side, rear or front walls if required.
The shelf support means is preferably powered by the same linear motor used to operate the door 2, although a separate motor can be used if required. A user can control movement of the shelf 10 from the control panel 12. A user can raise or lower the shelf 10 with the drawer 5 located within the oven 1, changing the vertical location of the shelf 10, in order to ensure that foodstuffs located thereon are correctly cooked. For example, moving the shelf from a position in which the food has been baked, to a position close to the upper heating means 39, where the upper surface of the food can be grilled and crisped before serving.
The vertical location of the shelf 10 within the drawer 5 can also be controlled by a user when the drawer 5 is withdrawn from the oven 1. However, it is preferred that when the door 2 and drawer 5 are moved to the fully open position, the control system of the oven 1 will automatically move the shelf 10 to an upper position. In the preferred einbodiment, this upper position is just below the upper edges of the two side walls 6, 7, as shown in Figure 2.
This position is conveizient for loading and unloading. With the shelf 10 in this upper position, the surface of the shelf is close to or at the same level as a worksurface or work bench. This proximity to a worksurface ensures that a user will be able to load and unload foodstuffs with less effort than that wllich would be required if they need to bend or squat to lift or lower foodstuffs into or out of the oven 1, or onto a shelf located at a lower position.
Furthermore, with the shelf 10 in this position, the likelihood of a user contacting a hot surface on the inside of the oven 1 or the internal surfaces of the drawer 5 is minimised. As described above, the walls of the drawer 5 are cool to the touch. Therefore, when the door 2 is opened and the shelf 10 is raised, only the shelf 10 is accessible to a user as a hot surface. In this position, the shelf also acts to retain the heat inside the oven, as the open front of the oven will be blocked by the walls and base 9 of the drawer 5 and the shelf 10. As the shelf 10 and the worlc surface are as close to the same horizontal plane as possible, a user will also need to expend less effort to move foodstuffs from one location to another.
It is preferred that the controls of the oven 1 include a mechanism that controls movement of the shelf 10 and door 2 relative to one another, so that the shelf 10 cannot be raised vertically to the load/unload position until the drawer 5 has been fully withdrawn from the oven 1. As described above, a user can alter the ver-tical position of the shelf 10 while the drawer 5 is located inside the oven, in order to achieve the desired cooking effect.
It is also preferred that the initial vertical position of the shelf is dependent on the selected cooking function. For example, if the oven is set to carry out a'bake', 'convection bake" or 'roast' function, the initial vertical position of the shelf will default to a low position.
If the oven is set to carry out a'grilling' or 'broiling' function, the controls will allow the shelf 10 to enter the oven 1 at a higher position. In the preferred embodiment, the control panel 12 includes a display or indicator that shows the vertical position of the shelf 10. This allows a user to assess the shelf height without looking through the window, when the drawer 5 is located within the oven 1.
A microswitch, sensor, or other suitable device such as a light curtain can be added at or close to the top surface of the oven, so that the shelf cannot inadvertently be pressed onto the upper heating means 39. Activation of this mechanism or sensor will cut power to the shelf support, so that it will not move any further upwards.
As described above, the control panel 12 is located on the front face of the oven 1, and remains static. If required, additional controls can be added inside the drawer 5, for example, just inside the door 2 at the top. Alternatively these controls could also be added on the front outer surface of the door in an easily accessible location, such as on the door handle. This aids a user in adjusting the shelf position when adding or removing foodstuffs from the oven 1.
If required, the shelf 10 can be sized and shaped to allow improved circulation of hot air from the lower element located in or on the base 9, below the shelf 10, into the cooking chamber. For example, the shelf 10 can be sized so that there is a narrow gap between the front of the shelf 10 and the front wall of the drawer 5, to allow air to circulate. Also, holes can be included in the shelf 10, to improve the air circulation from the lower element or heater to the foodstuffs located on the shelf 10 above.
It is preferred that the oven 1 also includes at least one fan 13 to improve air convection around the cooking chamber. In the preferred embodiment, the fan or fans 13 is located behind the inner surface of the rear wall 8 of the drawer 5.
Preferably the wall 8 is hollow, to allow the fan 13 and other oven utilities to be located within it.
Air passes to and from the fan 13 via a shroud 14 located in front of the fan 13, the shroud 14 located in the rear wall 8 and flush with the rear wall 8. If required for improved air circulation, the shroud 14 can be a rotating shroud, as described in the applicants co-pending application PCT/NZ2005/000056.
CONTROL PANEL PROTECTOR
One problem that can occur when the drawer 5 is withdrawn from the oven, and the shelf 10 raised to the upper position, is that of foodstuffs or foodstuff by-products such as grease splashing the oven 1, and in particular, the control panel 12 at the top front of the oven.
The preferred embodiment of the oven 1 of the present invention includes a control panel protector 31 that will now be described with reference to Figures 17a-d.
The control panel protector 31 is located attached to the top rear of the drawer 5, and comprises a rigid panel or length of material, such as a tlzermoset plastic or similar, that runs the full width of the rear of the drawer. The rear edge of the protector 31 is pivotally connected to or close to the upper rear edge of the drawer 5. When the drawer is located inside the oven, as shown in Figure 17c, the protector 31 pivots about its rear edge to lie generally flat, roughly aligned with the top of the drawer 5. The protector 31 is shaped such that the front, upper edge is angled slightly upwards when the protector 31 is in this stored position. The protector 31 is sprung or otherwise spring-loaded, either by springs (not shown), or at least partially under its own elasticity, so that when the drawer 5 is fully withdrawn from the oven 1, as shown in Figures 17a, 17b and 17d , the control panel protector 31 deploys by rotating about the rear edge 32 in such a manner that the body of the protector 31 is aligned facing upwards and angled slightly forwards. The height of the protector 31 is sufficient to block any direct splash lines, or line of sight between the control panel 12 and the slielf 10.
When the drawer 5 is pushed back into the oven, the protector 31 rotates downwards about the rear edge, as shown in Figure 17b, to a storage position. The protector 31 can also be located on the oven chassis, with the protector 31 pulled forward into the deployed position as the drawer 5 is pulled into the fully open position.
DRAWER SEALING MEANS
It can be seen that when the drawer 5 is located within the oven 1, the majority of the heat from both the upper and lower elements or heaters will be directed into the drawer 5.
However, unless blocked in some manner, some heated air will pass over the top edges of the walls of the drawer 5, and into the space between the walls of the drawer 5 and the inner surfaces of the oven. This has the undesirable effect of heating up the external surfaces of the side walls 6, 7 of the drawer 5. It also causes the temperature in the oven cavity to rise, which can cause damage to oven components located in this space.
In order to protect heat-sensitive components that may be located in this space, the oven 1 and drawer 5 are fitted with a sealing means to close this gap. The sealing means can be any suitable arrangement that helps to prevent heat from exiting the drawer over the top edges. One problem with adding a sealing means of this type is that of drag and wear on the sealing means when the door 2 is opened and closed, and the drawer 5 is moved into and out of the oven.
Several different sealing means which form part of the present invention will now be described with reference to Figure 8 and Figures 12-16.
It can be seen that it is the gap between the walls of the drawer 5 and the internal walls of the oven 1 that require sealing. That is, a seal is required between each of the side walls 6, 7 of the drawer 5, and the internal surfaces of the side walls of the oven 1.
A seal is also required between the internal surface of the rear wall of the oven 1, and the rear wall 8 of the drawer 5. A seal is also be required at the front of the oven, between the door 2 and the internal surfaces of the oven 1. That is, front, rear and side sealing means are preferred in order to achieve full protection. In order to provide the best protection, the seals along the sides of the drawer 5 will need to run the fiill depth of the drawer 5. That is, from the front to the rear of the drawer 5.
A first embodiment of a sealing means suitable for use in the gap between the door 2 and the oven surfaces will now be described with reference to Figure 8 and Figure 12. That is, a front sealing means.
Figure 8 shows the oven 1 of the preferred embodiment, with the drawer 5 in the open position.
The oven includes a chassis upper structure or block 16, the front face of which is located at or towards the front of the oven cavity, protruding downwards from the inner top surface of the oven 1. There is a gap each side of the block 16 to allow the side walls 6, 7 of the drawer 5 to pass into the oven cavity. The rear wal18 of the drawer 5 is slightly lower than the side walls 6, 7, so it just fits underneath the block 16. A front sealing means or gasket 15 as shown in fig 8 is shown on the front face of the block 16, running horizontally the fitll width of the block 16. There is vertical overlap between the front face or front portion of bloclc 16 and the door 2. When the user closes the door 2, the inner surface of the door 2 is brought into contact with the front seal 15 to create an airtight seal along the front edge of the drawer 5. Further detail of this arrangement is shown in Figure 12, which shows a section or cut away side view of the front of the oven 1. The door 2 is shown in the closed position, with the inner surface of the door 2 butting against a seal 15a (a preferred fonn of the seal 15). An example of a suitable material for the front seal 15a is silicone. The seal 15a could also be made from woven fibreglass. Any other material with suitable heat resistant and flexibility properties could also be used.
The sealing means between the rear of the drawer 5 and the rear wall of the oven 1 (the rear sealing means) shall now be described with reference to Figure 13.
The block 16 is sized over the majority of its depth (front to rear size) so that its lowest portions lie just over the top of the upper surfaces of the walls of the drawer 5. The rear portion of the block 16 protrudes downwards slightly lower than the majority of the block 16 so that there is some vertical overlap between the rear portion of the block 16 and the rear wall 8 of the drawer 5. A rear sealing means 15b is located on this protrusion, facing towards the open front of the oven 1 and running the full width of the block 16. The rear face of the rear wall 8 of the drawer 5 abuts against the rear seal or gasket 15b wlien the drawer 5 is located fully inside the oven 1, to create an airtigllt seal along the rear edge of the drawer 5.
As with the front seal 15a, the rear seal 15b can be made from silicone, woven fibreglass, or any other suitable material.
Different embodiments of the side sealing means used to form a seal between the side walls 6,7, of the drawer 5 and the walls of the oven 1 shall now be described, with reference to Figures 14 and 15.
Figure 15 illustrates one form of side sealing means that forms part of the present invention. Figure 15 is a sectional view of the upper left hand portion of the oven 1, looking into the oven 1 from the front, with detail of a left hand side sealing means 15c, the left hand side wall 7 of the drawer 5, and the block or chassis upper structure 16 shown. The left hand side sealing means 15c comprises a gasket 29 mounted to a floating arm 23, which is attached to the chassis upper structure or block 16 The sealing means 15c further comprises at least two roller wheels 24, one each at the front and rear, and attached to the floating arm 23, which roll along the side wall 7 of the drawer 5 as the drawer 5 is moved into and out of the oven 1.
In this position, the floating arm 23 is under some compression. When the drawer 5 reaches the closed position each of the rollers 24 is pushed into a dimple 25 on the side wall 7. These dimples 25 are sized so that the side sealing gasket 15c is pushed by the floating arm 23 onto the surface of the wall 7 and hence creates a seal. A similar, symmetrical, arrangement is used on the other side of the oven 1.
An alternative side sealing means is sllown in Figure 14, which is a sectional view of the upper left hand portion of the oven 1, looking into the oven 1 from the front, with detail of a left hand side sealing means 15d, the left hand side wall 7 of the drawer 5, and the block or chassis upper structure 16 shown. The side sealing means 15d comprises a hard frictionless or low-frictiontip 27, mounted on a spring gasket 26. The low-friction tip 27 is pushed onto the left hand drawer sidewall 7 by the spring gasket 26, which is connected to the chassis upper structure 16. The spring gasket 26 maintains a constant sealing force between the drawer side wall 7 and the tip 27. This side sealing means 15d has the advantage that any misalignment between the drawer 5 and the oven 1 is easily compensated for. Also, the need for any moving parts is removed by having a sealing means that is always in contact with the drawer sidewall.
Again, a similar, symmetrical, arrangement is used on the other side of the oven 1. The side sealing means 15d is sized so that it runs substantially the full depth of the oven, to close the gap between the side walls 6, 7 of the drawer 5 and the walls of the oven 1.
The front and back sealing means used with this alternative side sealing means can be the same as has already been described above.
It should be noted that when using a combination of front, rear and side sealing means as described above for 15a, 15b, 15c and 15d, it is expected that there will be a small amount of heat leakage. The inventors expect that the overall sealing means will still provide adequate function even if the drawer 5 is not completely sealed.
Another alternative sealing means will now be described with reference to Figures 16a and 16b.
The sealing means of this alternative embodiment simplifies the sealing surface by sealing on the top of the drawer 5 all the way around the perimeter of the upper surface of the walls of the drawer 5. This sealing means also has the advantage that a continuous seal is created all around the perimeter of the drawer 5, reducing heat leakage.
Figure 16a shows a sectional view of the upper left hand portion of the oven 1, looking into the oven 1 from the front, with detail of the left hand part of the upper sealing means 15e, the left hand side wall 7 of the drawer 5, and a block or chassis upper structure 16 shown, which shall be referred to as the second chassis upper structure to differentiate it from that already described.

This sealing means 15e has the advantage that the faces of the sealing means 15e and the drawer sealing faces (that is, the upper surfaces of the walls of the drawer 5) have a similar profile all the way around the top perimeter of the drawer 5, and heat leakage is reduced. Also, wear on the contact surfaces of the sealing means 15e is reduced.
The sealing means 15e of this embodiment comprises a floating member 28, which is able to move vertically, and which forms a lid for the drawer 5, and a sealing gasket 30. When the user pushes the drawer 5 into the oven 1, the floating member 28 is lowered by an actuating system or actuating means to bring the gasket 30 into contact with the top faces of the walls of the drawer 5, running around the full perimeter of the top of the drawer 5. The actuating mechanism will instantaneously raise the floating member and thus the sealing gasket 30 from the upper rim or perimeter of the drawer 5 when the drawer 5 is opened or moved from the closed position. The preferred embodiment of the actuating mechanism will now be described in more detail with reference to Figure 16b.
Attached to the front and the back of the floating arm 28 are guide pins 59 which protrude vertically upwards through the upper heating element 39 and the second chassis upper structure 16. The guide pins 59 have a rolling wheel 60 attached to the upper end of each of the pins 59, each of the wheels 60 rolling in the horizontal plane.
Each of the wheels 60 rolls horizontally on top of the second chassis upper structure 16. In this embodiment, at least the top part and rear part of the second chassis upper structure 16 are capable of some limited movement in the horizontal plane, with part of the second chassis upper structure 16 protruding down behind the drawer 5, so that there is vertical overlap between the second chassis upper structure 16 and the drawer 5. As the drawer 5 is closed, the rear of the rear wall 8 comes into contact with the rear portion of the second chassis upper structure 16, which is pushed horizontally backwards towards the rear of the oven 1. As the second chassis upper structure moves to the rear of the oven, the rolling wheels guide pins 59 stay in place. The top of the second chassis upper structure includes grooves 61. As the second chassis upper structure 16 moves rearwards the grooves 61 pass under the wheels 60, so that the wheels 60 drop into the grooves 61. This in turn lowers the guide pins 59. This causes the floating arm 28 and the gasket 30 to drop from an initial position, spaced from the drawer 5, onto the top of the drawer 5, creating the seal. When the drawer 5 is opened, the rolling wheels 60 track up the angled rear side of the grooves 61, raising the sea130 off the drawer 5.
If required, springs (not shown) aligned vertically can be included between the second chassis upper structure 16 and the floating arm 28, to ensure that the wheels 60 track correctly, and to provide a positive sealing force between the gasket 30 and the drawer 5.
In alternative embodiments, shaped hooks or protrusions could be used instead of the wheels 60, the protrusions sliding along the top of the second chassis upper structure 16 to locate into the grooves 61.
It should also be noted that any suitable actuating means can be used in place of that described above. For example, the floating member 28 and gasket 30 could be moved vertically up and down by a motor connected to a suitable system such as a screw and worm gear combination.
By using the sealing means 15a, or 15b, or 15c, or 15d, or 15e, or any combination of these sealing means, or any other suitable sealing means to prevent hot air from escaping from the drawer 5 and into the space between the drawer 5 and the internal surfaces of the oven 1, sensitive components and oven parts that are located in this space are protected from excess heat. A fiuther advantage is in cooking efficiency, as less power is needed to keep the cooking chamber temperature at the correct level.
UMBILICAL POWER LINK
One difficulty that arises from having a moving drawer 5 with associated utilities or electrical loads such as a shelf 10, a fan built into the rear wall 8, and a lower heating means underneath the shelf 10 is that of providing power, or control signals, or both, to these utilities. The oven 1 of the present invention includes a power link to provide power from a static source to the utilities or electrical loads in the moving drawer 5.
The preferred embodiment of the power link will now be described witli reference to Figures 19a and 19b.
The function of the power link is to provide an electrical link between the static base of the oven 1 and the rear wall 8 of the moving drawer 5 so that power can be provided to the drawer 5, and if required, information can be sent to and from the drawer 5.
The power link is comprised as follows: A chassis board 33 is located at or towards the lower rear of the oven 1.
In the preferred embodiment, at least part of board 33 is a printed circuit board (PCB) assembly. The chassis board 33 provides a link or junction to an external mains power connection, and can include a transformer or power modulator if required. It is preferred that the link provides both low voltage power for shelf motion and signals, as well as mains voltage for elements. The mains power does not come from a power supply within the product - it is provided by a mains connection. However, a separate power supply could also be placed on the drawer for drawer power and control signals.
An inner swivelling connector or clip 35 is connected to a static pivot point 60 on the base 61 of the oven 1, at a point approximately midway between the front and the rear of the oven cavity, and offset slightly to one side. A wiring harness 34 provides power from a mains connection outside the oven 1, and ruils from the rear wall of the oven 1, along the base 61 of the oven 1, from the chassis board 33 to the static pivot point, and up into the main oven cavity through the inner swivelling clip 35. This inner swivelling connector 35 is rigidly connected to one end of a rigid or stiff swinging arm 36. The wiring harness 34 runs the length of the swinging arm 36 and is supported and protected by the swinging arm 36. The wiring harness carries both low voltage signals (e.g. control signals for the oven 1 and shelf motion power signals) and mains power supply. The other end of the ann 36 is connected via an outer swivelling clip or connector 37 to a drawer board 38, which provides a link to the electrical items on the drawer 5. In the preferred embodiment, at least part of drawer board 38 is a printed circuit board (PCB) assembly. The connection of the arm 36 to the outer connector 37 is not rigid, and the arm 36 can slide within the connector 37.
That is, a slidable coimection is made between the connector 37 and the ann 36. This could be reversed, so that a slidable connection is made between the connector 35 and the arm 36. In the preferred embodiment, the drawer board 38 is connected to the base 9 of the drawer 5, preferably at the lower rear corner, where the rear wall 8 meets the base 9 of the drawer 5.
However, it can be connected at any other suitable location, including a location off the drawer 5, for example on the base of the oven 1. As the drawer 5 is opened and closed, the arm 36 pivots about both the inner and outer swivelling connectors 35, 37, through an arc with an angle of approximately 35 degrees, with the drawer 5 passing over the top of the arm 36 and both connectors 35, 37.
The advantage of this mechanism is that the wires in the harness 34 have to flex through a relatively small angle when the drawer 5 is opened and closed. That is, the angle is minimised. This reduces the likelihood of fatigue failure. It is preferred that the arm 36 has the form of a hollow or U-shaped tube, allowing the hanless wires to run inside the tube.
'Hollow' as written in this specification should be taken to mean either hollow or U-shaped.
It is not strictly necessary for the angle to be as small as it possibly can be, and the overall configuration of the oven components will affect the overall angle. However, as described above, it is preferred that the angle is kept small so that fatigue is minimised.
It should be noted that in the preferred embodiment described above, the moving parts of the power link (the swivelling connectors 35, 37 and the arm 36) are located on the base of the oven 1. If required, alternative configurations could have the moving parts located between one of the side walls of the drawer 5, and one of the side walls of the outer shell.
It should further be noted that the power link ann arrangement described above would also be suitable for providing a power connection for any drawer style appliance. For example, a similar arrangement could be used in drawer style dishwashers such as the dishdrawerTM, manufactured by the applicant.
OVEN CAVITY ROOF SHIELD
One issue with drawer-style ovens is the difficulty of accessing the roof of the oven cavity. That is, the difficulty of access to the underside of the top surface of the oven 1. In the oven 1 of the present invention, this difficulty is compounded by the walls of the drawer 5, which fiuther hinder access. To help with cleaning and maintenance, an oven cavity roof shield is used. The preferred form of the oven cavity roof shield will now be described with reference to Figure 18.
As stated above, the oven 1 includes an upper heating means 39, which can act as a grill element. The oven cavity roof shield comprises a slide out roof liner 50, which is located above the upper heating means 39, between the upper heating means 39 and the underside of the oven roof, and covers substantially the entire surface area of the roof.
The roof liner 50 can be slid forward on rails, rollers or any other similar support mechanism in order to remove it from the oven 1 for cleaning or maintenance. Figure 18 shows the roof liner 50 in the 'use' position (shown by solid lines), with the liner 50 fully located inside the oven above the upper heating means 39, and also in the 'withdrawn' position (shown by dotted lines), where it has been at least partially withdrawn from the oven for cleaning or maintenance.
HEAT SHIELD
A further advantage of the oven of the present invention shall now be described with reference to Figures 2, 4, 5, 6 and 7.
It can be seen that when the drawer 5 is withdrawn or pulled out of the oven 1, the heat from the upper heating means 39, which in use is directed into the cooking chamber formed by the drawer 5, will radiate directly into the interior of the oven 1, unless directed elsewhere. Heat radiating into the oven 1 can damage sensitive components.
Mechanical components that are vulnerable to excess heat can warp, and components that should slide freely over one another can seize. Electronic cornponents subjected to heat can become inefficient, or otherwise lose effectiveness. It is therefore undesirable for this heat to be radiated directly into the interior space of the oven 1.
In order to prevent this, the oven 1 of the preferred embodiment is fitted with a heat shield 20. It is preferred that the heat shield 20 is used with the preferred embodiment of the drawer 5 described above.
The heat shield 20 is located behind the drawer 5, and deploys when the drawer 5 is withdrawn from the oven 1. In the preferred embodiment, the shield 20 is a generally flat and rectangular reflector, folding into a stored position when the drawer 5 is located inside the oven 1, and unfolding to a deployed position when the drawer 5 is withdrawn from the oven 1, as shown in Figures 5, 6, and 7.
In the preferred einbodiment, and as shown in Figures 2, 6 and 7, the shield 20 is sized so that in the deployed position it will unfold to form a generally horizontal plane, located just underneath the upper heating means 39 of the oven 1, with the drawer 5 fully withdrawn from the oven. In the preferred embodiment, the shield 20 runs across substantially the full internal width of the oven 1.
The front edge 21 of the shield 20 is connected to the rear wall 8 of the drawer 5. The rear edge 22 of the shield 20 is connected to the inner surface of the oven rear wall. That is, the inner surface of the outer casing. The preferred form of the shield 20 folds in half by means of a fold line or hinge 24 located between the two parts, folding into these two halves as the shield traverses from the deployed, planar position to the storage position. Each half of the shield 20 is approximately the same size as the other. Each part is stiff enough so that they will not bend or sag under normal operating conditions, or their own weight.
The hinge 24 and the shield 20 are biased so that when the drawer 5 is pushed into the oven 1 from the open position, the two parts of the shield 20 fold downwards, and will not fold upwards to interfere with the upper heating means 39.
It is preferred that at least the upper surface of the shield 20 is formed from a heat reflective material. For example, a metallic foil.
It would be preferable for the front of the heat shield to be located towards the top of the drawer. However, there will clearly be at least a partial shielding effect if the heat shield 20 is angled downwards from the rear edge at the rear of the oven. It can be seen that there will also be at least a partial shielding effect for the lower part of the oven 1 if the shield 20 cannot be located towards the top of the oven, and is located partway between the uppermost and lowest positions. This flexibility in the location the shield 20 allows for it to be used with ovens of different internal configurations.
As stated above, it is preferred that the heat shield is used with the preferred embodiment of the drawer 5 described above. However, the heat shield could also be used with non-drawer ovens that have a shelf support means similar to that described above, or prior art ovens where the shelf can be withdrawn from the oven. In ovens of this type, the front edge 21 of the heat shield would be attached to the rear edge of the shelf, or at a suitable location on the shelf support means. For example, the corners of the heat shield could be attached to the rear of the shelf supports or lifter carriages 46, so that as the shelf is brought forward, the shield deploys from a stored position to a deployed position.
When attachment of the heat sliield to a shelf support means is referred to, this should be taken as meaning either the back of the drawer 5 in the preferred embodiment, or the rear edge of the shelf, or the shelf support means, or any otlier appropriate location.
It should also be noted that a substantial advantage of using a heat shield as described above is that racking of the drawer 5 or door 2, or both, is substantially prevented (that is, twisting or angling of the drawer 5 or door 2 on the runners or other support means, which prevents smooth transit of the door or drawer from one position to another).
The heat shield 20 will prevent racking as it will act to keep the drawer aligned with the runners or other support means. It is preferred that the material of the shield is stiff enough to convey this advantage.
In the preferred embodiment, the oven 1 includes one shelf 10. A user may require extra shelf space, for example, to cook two items simultaneously. It is known in the art for ovens to have two or more shelves stacked vertically, so that different foodstuffs can be placed at different vertical heights in the oven, the heights corresponding roughly to different temperature zones within the oven. It is difficult to achieve anything more than a crude variation in the teinperature between the different oven heights. It can also be difficult for a user to access the lower shelf in these stacked configurations. If required, in order to achieve a similar result as a multi-shelf prior art oven, the oven 1 can be constructed with an oversize width, so that the shelf space of the one shelf 10 is similar to the shelf space of a prior art double shelf oven. Two or more separate upper heating means can be used, side by side, so that foodstuffs in the oven, on opposite sides, can be cooked separately, with only one side of the upper heating means activated, or separate parts of the upper heating means activated at different power levels. If required, a partition could be added between the sides of the shelf, in order to separate the foodstuffs, and create a teinperature differential.
Another possible solution is to use different cooking chambers, which can more easily be set to different temperature conditions as required. This is not generally possible for most users, as it currently requires two ovens. This is expensive, and uses space that is not available in most domestic kitchens.
The height of a standard prior art oven unit is usually approximately 600mm, with the oven sized to fit under a standard height benchtop, benchtops usually being between 900 and 960 mm (approximately).
If a single shelf oven 1 such as the one described above is used, the overall height of the unit can be reduced. For example, it is possible to reduce the height of the cavity from 900mm to approximately 280mm. If an intermediate oven cavity height is chosen -e.g.
480mm, it is possible to fit two ovens 1 of this height under one benchtop, stacked one on top of the other. This has the advantage that each of the ovens 1 is completely separate from the other. Full temperature control of each unit, independent of the temperature of the other, would therefore be possible, allowing foodstuffs that require very different cooking conditions to be cooked simultaneously. It should be noted that if two oven cavities are stacked on top of one another in this manner, the outer casing or chassis can if required be common to both (that is, enclosing both), with two drawers, a first drawer and a second drawer, plus the associated first and second sets of drawer supports, shelf supports and independent heating means all contained within a common outer casing. Also, the control panel for both oven cavities can be made common to botli, allowing the controls for the lower oven to be placed at an ergonomically accessible height.
If a two-drawer oven is required, the drawers and shelves can be supported by any of the means that have been described in this specification, in combination if required (for example, using one type of drawer support on a first drawer and another on the second drawer). The first and second drawers would ideally be independently powered or heated, so that different foodstuffs can be cooked in each drawer at different temperatures and timings.
Described above is the preferred embodiment of the oven 1, with preferred forms of the drawer and door support means, the drawer 5 and the heat shield 20 described. Alternative forms of the door and drawer support means will now be described.
An alternative arrangement of the door support means is an upper pair of rails and supports, which can be used in tandem with the lower supports and rails 3, 4.
Alternatively, the upper support rails could be used in place of the lower rails, with the drawer and door hanging from the supports.
As yet another alternative, a horizontally expanding and contracting multiple-linkage scissor type mechanism can be used as the door support means, drawer support means, or both.
If it is preferred as an alternative, the oven 1 can be constructed so that the drawer 5 does not have to be connected to the door 2, and can move into and out of the oven 1 independently of the door 2. The door 2 of this alternative will open and close independently of any movement of the drawer 5. If the movement of the door 2 and drawer 5 is independent, the oven 1 can be constructed so that the door 2 can open horizontally on a separate support system from the drawer. Alternatively, the door 2 can be of the type that that pivots or rotates open on a hinge. If the movement of the door 2 and the drawer 5 is independent, then a separate drawer support means can be used. This can be any of the alternatives outlined above for the door support means, or any other suitable mechanism. The drawer support means and the door support means could also be combined as one mechanism that allows the drawer 5 and the door 2 to move separately, if required.
As described above for the preferred einbodiment, the bin or drawer 5 has side walls 6, 7, a rear wall 8, and a front wall (formed as part of the door 2 in the preferred embodiment).
An alternative embodiment of the drawer 5 is a structure with a static rear wall. That is, a mobile side wall 6, 7 and a front wall only. The rear wall of the cooking chamber of this alternative embodiment is fornied by a static internal wall, at or towards the rear of the oven l.
Another alternative means of forming the cooking chamber inside the oven is for there to be a static base located within the oven 1. The vertical side, front and rear walls of the drawer structure move into and out of the oven 1, and align with the static base when inside the oven 1 to form a cooking chamber. Alternatively, both the base and the rear wall could remain static. The sealing means used with the alternative einbodiments described above would be generally similar to that described above for the rear and froilt sealing means of the preferred embodiment.
When 'drawer' is used in this specification, it will normally refer to the preferred embodiment. That is, an open-topped bin or drawer, with four walls and a base, and the walls and base of the drawer moving into and out of the oven 1. However, when reading this specification, 'drawer' should also be taken to mean a structure without a moving base or rear wall. The rear wall and base of the cooking chamber would be formed by a static rear wall and base located within the cabinet when the drawer is inside the cabinet.
These options are not excluded unless otherwise stated.
It should also be noted that if a drop-down or hinging door is used instead of the horizontally sliding door 2 described, the drawer 5 can be fitted with a separate insulated front face or wall to shield a user from any hot air or hot components when the door 2 is opened.
The drawer 5 of this alternative embodiment will slide into and out of the oven 1 via a connection to a drawer support means that can be part of the door support means, or which can be a separate drawer support means.
Alternative forms of the heat shield 20 will now be described.
Other embodiments of the heat shield 20 are possible. For example, the shield 20 can be fan or concertina-shaped, folding flat against the rear wall of the oven 1 when in the stored position, and unfolding to a substantially flat, planar shape when in the deployed position.
The shield 20 can also be a roll of reflective foil, winding onto a spool located either on the drawer 5 or the rear wall of the oven 1 when in the stored position, and unwinding into a substantially flat and horizontal deployed position when the drawer 5 is withdrawn from the oven 1. In this embodiment, although the rear edge may not be rigidly connected to the rear of the oven, the rear of the heat shield does not move horizontally with respect to the oven, and the rearmost part of the spool or reel should be talcen as the rear edge of the heat shield for the purposes of reading this specification.
The shield 20 can also be manufactured as a single rigid item. In this embodiment, either the front or rear edge of the shield pivots about a fixed horizontal axis, with the other of the front or rear edge moving vertically from a stored position by means of pins or similar located at each corner, the pins located in a pair of vertical slots. In this embodiment, the shield 20 in the stored position lies substantially vertically against the rear wall of the oven 1, and moves to a deployed position where the shield is substantially horizontal by pivoting about the fixed edge. The opposed edge moves vertically along the slots until the shield is in a substantially horizontal orientation.
It should also be noted that the heat shield 20 described above could be used with variations of ovens that do not include a drawer 5 with a rear wall 9. For example, the heat shield 20 could be used with any shelf support structure that has a moving rear portion. In these ovens, the front part of the heat shield 20 is connected to the mobile rear part of the support structure, or between two rear uprights of the shelf support structure. For example, the heat shield could be used with a structure the same as or similar to that described in the applicants co-pending application NZ 538105. As outlined above, in the preferred embodiment, the front edge of the heat shield is connected to the rear wall of the drawer. For the purposes of this specification, and as outlined in the alternative embodiments outlined above, the rear wall can be understood to be part of a shelf support means when the heat shield is used with the drawer of the preferred embodiment.

Claims (64)

1. An oven for cooking food comprising:
a cabinet having a front side with an opening formed therein, a door moveable between a closed position closing the open front of the cabinet, and a fully open position allowing access to the interior of the cabinet via said opening, a drawer, located within said cabinet when said door is in said closed position, said drawer forming at least part of a cooking chamber when in said closed position, a drawer support means at least located within said cabinet when said door is in said closed position, supporting said drawer, and configured to allow said drawer to move from a position within said cabinet, to a position where said drawer is at least partially located outside said cabinet, a controllable heating source provided within said cabinet or drawer for supplying sufficient heat to the inside of the drawer to cook food positioned therein, and at least one vertically movable shelf located within said drawer, supported by a shelf support means.
2. An oven as claimed in claim 1 wherein said drawer includes side walls and said shelf support means is located substantially within at least one of said side walls.
3. An oven as claimed in claim 1 or claim 2 wherein said door is connected to, and forms the front face of, said drawer.
4. An oven as claimed in claim 3 wherein said drawer includes pins that act co-operatively with recesses in said door to locate said door on said drawer.
5. An oven as claimed in claim 4 wherein said drawer support means is connected to and supports both of said drawer and said door.
6. An oven as claimed in any one of claims 1 to 5 wherein said drawer support means comprises a set of runners connected at least to said drawer, which slide co-operatively with a set of static rails located within said cabinet.
7. An oven as claimed in claim 6 wherein said drawer support means also includes at least one angled runner and rail assembly located under and connected to said base, aligned at an angle to said support assemblies.
8. An oven as claimed in claim 6 or claim 7 wherein said drawer support means is located on each side of said drawer.
9. An oven as claimed in any one of claims 1 to 7 wherein said drawer support means comprises at least one support assembly, said at least one support assembly comprising a 2-part or 3-part runner and static rail combination, located under, and connected to, the base of said drawer.
10. An oven as claimed in claim 9 wherein said runners and static rails include an over-extension mechanism, comprising a sprung loaded pin in or on at least one of said runners or rails, said pin providing a stop which prevents said drawer from travelling past a fully open position, said pin is manipulable to allow said drawer to be moved past said fully open position.
11. An oven as claimed in claim 9 or claim 10 wherein manipulation of said pin also allows said drawer to be removed from said drawer support mechanism.
12. An oven as claimed in any one of claims 9 to 11 wherein said drawer support means also includes at least one angled runner and rail assembly located under and connected to said base, aligned at an angle to said support assemblies.
13. An oven as claimed in any one of claims 9 to 11 wherein said drawer support means also includes an upper set of static rails and runners, located each side of said drawer.
14. An oven as claimed in any one of claims 1 to 5 wherein said drawer support means is a horizontally expanding and contracting multiple-linkage scissor mechanism, connected to and supporting both of said drawer and said door.
15. An oven as claimed in any one of claims 3 to 14 wherein said shelf support means comprises a framework located substantially within at least one side wall of said drawer, said framework including;
a lower bracket located at or towards the bottom of said at least one side wall, an upper bracket located at or towards the top of said at least one side wall, said upper and lower brackets connected by at least one substantially vertically aligned rod, a shelf support running along said rod or rods in said at least one side wall, at least one slot in said at least one side wall, said or each of said slots running substantially the height of said at least one side wall, substantially vertically, said shelf in use supported by pins passing through said slots, at least one power motor, a transmission means between said at least one motor and said shelf supports to cause movement of said shelf supports along said rods.
16. An oven as claimed in claim 15 wherein said transmission means comprises a double-ended drive shaft, driven in a rotary motion by said power motor, and said oven also includes at least one cable and associated pulleys, said rotary motion transferred to vertical motion of said shelf supports by means of said cables and pulleys.
17. An oven as claimed in claim 16 wherein said pulleys are mounted to said upper and lower brackets.
18. An oven as claimed in claim 16 wherein said pulleys are mounted to the wall of said oven cavity.
19. An oven as claimed in claim 15 wherein said framework also includes at least one cable and pulleys, and two or more power motors are used, said transmission means being a direct connection between said motors and said cables and pulleys.
20. An oven as claimed in any one of claims 15 to 19 wherein said power motor is an electric motor.
21. An oven as claimed in any one of claims 3 to 14 wherein said shelf support means comprises at least one worm gear and at least one co-operating threaded block or recirculating ball bearing/ballscrew type block, located within said cabinet and running substantially the height of said side wall, substantially vertically, said shelf in use supported by pins passing through said slots.
22. An oven as claimed in claim 21 wherein said worm gears and co-operating threaded blocks or recirculating ball bearing/ballscrew type blocks are located in at least one wall of said drawer, said wall including at least one slot running substantially the height of said side wall, substantially vertically.
23. An oven as claimed in any one of claims 3 to 14 wherein said shelf support means comprises a scissor mechanism located in at least one wall of said drawer, said wall including at least one slot, running substantially the height of said side wall, substantially vertically, said shelf in use supported by pins passing through said slots.
24. An oven as claimed in any one of claims 3 to 14 wherein said shelf support means comprises a sprocket and mini-chain drive mechanism located in at least one wall of said drawer, said wall including at least one slot, running substantially the height of said side wall, substantially vertically, said shelf in use supported by pins passing through said slots.
25. An oven as claimed in any one of claims 1 to 24 wherein said drawer also includes a rear wall connected to said side walls, and a base.
26. An oven as claimed in claim 25 wherein said drawer rear wall includes oven utilities.
27. An oven as claimed in claim 26 wherein said oven utilities include a fan.
28. An oven as claimed in claim 27 wherein said fan has a fan shroud.
29. An oven as claimed in claim 28 wherein said shroud can rotate.
30. An oven as claimed in any one of claims 1 to 29 wherein said cabinet includes a chassis upper structure, protruding downwards from the top of the front side of said cabinet such that there is vertical overlap between said door and said chassis upper structure, wherein a front sealing means comprising a front gasket is provided on either said door or the front face of said chassis upper structure, said front gasket running substantially horizontally, substantially the entire width of said chassis upper structure, said front gasket closing the gap between said door and said chassis upper structure wlien said drawer is located fully within said cabinet.
31. An oven as claimed in claim 30 wherein there is vertical overlap between the rear portion of said chassis upper structure and said rear wall of said drawer, said rear portion or said rear wall of said drawer including a rear sealing means comprising a rear gasket that runs substantially horizontally, substantially the entire width of said drawer and closes the gap between said drawer and said chassis upper structure when said drawer is located within said cabinet.
32. An oven as claimed in any one of claims 1 to 31 wherein said cabinet and said drawer also include a side sealing means comprising a pair of spring gaskets, each having a low friction tip, each spring gasket mounted on a respective side wall of said cabinet facing outwards towards said drawer, said spring gaskets running substantially the entire depth of said cabinet and located towards the top of said drawer, each of said tips biased against said side walls of said drawer by said spring gaskets.
33. An oven as claimed in any one of claims 1 to 31 wherein said cabinet and said drawer also include a side sealing means comprising a pair of spring gaskets, each having a low friction tip, the side portions of said chassis upper structure vertically overlapping said sidewalls of said drawer inside said sidewalls, each spring gasket mounted on a respective side wall of said chassis upper structure, facing outwards towards said drawer, said spring gaskets running substantially the entire depth of said cabinet and located towards the top of said drawer, each of said tips biased against said side walls of said drawer by said spring gaskets.
34. An oven as claimed in any one of claims 1 to 31 wherein said cabinet and said drawer also include a side sealing means comprising;
a pair of side gaskets, each of said side gaskets mounted on a floating arm, said floating arms mounted on said cabinet facing towards said drawer, said floating arms running substantially the entire depth of said drawer, said floating arms located towards the top of said drawer, and being generally horizontally elastically compressible, at least one roller wheel provided on each side of said drawer, said rollers connected to said floating arms and spacing said gaskets from said drawer side walls when said drawer is in any position except located fully within said cabinet, said drawer side walls including inwardly facing dimples, which said roller wheels locate into when said drawer is located fully within said cabinet, such that said gaskets are pressed into contact with said drawer side walls by said floating arms.
35. An oven as claimed in any one of claims 1 to 31 wherein said cabinet and said drawer also include a side sealing means comprising a gasket mounted on a floating member suspended from the upper portion of said cabinet, said gasket contacting around the perimeter of the opening of said drawer when said drawer is located fully within said cabinet, said gasket spaced from said drawer when said drawer is in any position except located fully within said cabinet, said floating member forming a lid for said drawer in said closed position, said gasket lowered into contact with said drawer when said drawer is located fully within said cabinet by an actuating mechanism connected to said floating member.
36. An oven as claimed in claim 35 wherein said actuating mechanism comprises;
a second chassis upper structure, connected to the upper inner surface of said cabinet such that there is vertical overlap between said second chassis upper structure and a portion of said drawer, said second chassis upper structure including at least one groove on its upper surface, said second chassis upper structure capable of limited horizontal movement, at least one pin connected to said floating member and protruding upwards through said second chassis upper structure, a wheel or slider connected to the upper end of each of said pin or pins, sized to fit at least a portion thereof within said groove, said second chassis upper structure having an initial position, said drawer contacting and moving said second chassis upper structure from said initial position towards the rear of said cabinet as said drawer moves from an open to said fully closed position, said movement aligning said grooves with said wheels or sliders when the drawer is in said fully closed position, such that said wheels or sliders locate at least partially within said grooves and as a result said floating member is lowered towards said drawer such that said gasket contacts said perimeter of said drawer, said second chassis upper structure returning to said initial position as said drawer opens from a fully closed position, said wheels or sliders rising out of said grooves to lift said floating member and raise said gasket out of contact with said perimeter of said drawer.
37. An oven as claimed in any one of claims 1 to 36 wherein said, or each of, said shelf or shelves is fitted closely to said walls of said drawer, and shaped such that its edges are raised above its central portion.
38. An oven as claimed in any one of claims 1 to 37 wherein said controllable heating source comprises at least one electric element.
39. An oven as claimed in claim 38 wherein said controllable heating source comprises two or more electric elements located side by side.
40. An oven as claimed in any one of claims 1 to 38 wherein said controllable heating source comprises at least one gas burner.
41. An oven as claimed in claim 40 wherein said controllable heating source comprises two or more gas burners located side by side.
42. An oven as claimed in any one of claims 2 to 41 wherein said oven includes a primary control panel located on said outer shell, said control panel including a display indicative of the vertical position of said shelf.
43. An oven as claimed in claim 42 wherein said oven also includes a secondary control panel located on said drawer.
44. An oven as claimed in claim 43 wherein said secondary control panel is located on the top edge of the front wall of said drawer.
45. An oven as claimed in any one of claims 42 to 44 wherein said oven also includes a primary control panel protector, said protector comprising a substantially rectangular flat panel, the rear edge of said protector pivotally connected at or close to the upper rear edge of said drawer, said protector biased such that when said drawer is in an open position, said protector rotates upwards about said rear edge to substantially block line of sight between said shelf and said primary control panel, said protector rotating downwards about said rear edge as said drawer moves from said open position to said fully closed position.
46. An oven as claimed in any one of claims 1 to 45 wherein said controllable heating source is positioned in an upper part of said cabinet and said oven also includes an oven cavity roof shield, said roof shield comprising a roof liner and liner support means, located between said controllable heating source and the inner surface of the top of said cabinet, said roof liner sized to substantially cover the inner surface area of the top of said cabinet, said liner at least partially removable from said cabinet by sliding substantially horizontally relative to said liner support means.
47. An oven as claimed in claim 46 wherein said liner support means comprises a pair of static support rails, said rails attached to said cabinet.
48. An oven as claimed in any one of claims 1 to 23 wherein said drawer has no rear wall and oven utilities are located in the rear wall of said cabinet, wherein the rear wall of said cooking chamber is formed by said cabinet rear wall when said drawer is in said closed position.
49. An oven as claimed in claim 48 wherein said oven includes a sealing means between the interior of said drawer and said cabinet, such that with said drawer in said closed position, said sealing means substantially fills any gap between said drawer and the inner side surfaces of said cabinet.
50. An oven as claimed in any one of claims 1 to 49 wherein the height of said cabinet is between 280 mm and 900 mm.
51. An oven as claimed in claim 50 wherein said oven is adapted so that two of said ovens can be stacked one on top of the other in use.
52. An oven as claimed in any one of claims 1 to 51 wherein said cabinet contains a second independent drawer and drawer support means, and a second independent controllable heating source which is associated with said second drawer, said second drawer containing a second independent vertically moving shelf, said door split to allow each part of said door to move independent of the other, each part of said door associated with the first independent drawer or said second independent drawer respectively.
53. A food cooking cabinet having a front side with an opening formed therein, a first drawer and a second drawer, each of said drawers having a closed position and an open position, said drawers fully located within said cabinet when in said closed position, said drawers at least partially located outside said cabinet in said open position, said open positions allowing a user access to the inside of said first drawer or said second drawer respectively, said opening closed when said drawers are in said closed positions, said first drawer forming at least part of a first cooking chamber when in said closed position, said second drawer forming at least part of a separate second cooking chamber when in said closed position, a first drawer support means supporting said first drawer and at least located within said cabinet when said first drawer is in said closed position, and configured to allow said drawer to move from a position within said cabinet to said open position, a second drawer support means supporting said second drawer and at least located within said cabinet when said second drawer is in said closed position, and configured to allow said second drawer to move from a position within said cabinet to said open position, said first cooking chamber having a first controllable heating source for supplying sufficient heat to the inside of said first cooking chamber to cook food positioned therein and said second cooking chamber having a second controllable heating source for supplying sufficient heat to the inside of said second cooking chamber to cook food positioned therein, and a first vertically movable shelf located within said first drawer and a second vertically movable shelf located within said second drawer, each of said shelves supported by a shelf support means.
54. An oven for cooking food, comprising;
a cabinet having a front side with an opening formed therein, a door movable between a closed position closing the open front of the cabinet, and an at least partially open position allowing access to the interior of said cabinet via said opening in the front side, a heating means, located in said cabinet on or close to its interior upper surface, a shelf, said shelf supported by a shelf support means, said shelf having at least two positions, a first position located within said cabinet, and a second position located substantially external to said cabinet, a heat shield formed from a heat resistant or heat reflective material, said heat shield configurable into at least a first stored position and a second substantially horizontally planar deployed position, said heat shield having a rear edge connected to the inside rear wall of said cabinet, and a front edge connected to said shelf support means, said heat shield deploying from said stored position to said deployed position as said shelf support means is withdrawn from said cabinet, wherein said heat shield in said deployed position is aligned below said heating means such that heat is deflected away from the interior of said cabinet.
55. An oven as claimed in claim 54 wherein said heat shield comprises at least two sections joined by at least one fold line, said heat shield folding from said substantially planar deployed position along said fold line or lines when traversing from said deployed position to said stored position.
56. An oven as claimed in claim 54 or claim 55 wherein said shelf support means is located within or forms part of a drawer.
57. An oven as claimed in claim 56 wherein said drawer is supported by a drawer support means located within said cabinet, said drawer support means supporting said drawer, and configured to allow said drawer to move from a position located fully within said cabinet, to a position where said drawer is located at least partially outside said cabinet.
58. An oven as claimed in claim 57 wherein said heat shield has sufficient stiffness in at least the horizontal plane such that racking of said drawer on said drawer support means is prevented.
59. An oven as claimed in claim 57 or claim 58 wherein said heat shield is sized such that when in said second deployed position, overextension of said drawer support means is prevented.
60. A home appliance comprising:

a cabinet having a front side with an opening formed therein which extends substantially over the entire front face, a door movable between a closed position closing the open front of said cabinet, and an open position, a drawer, located within said cabinet when said door is in said closed position, said drawer forming at least part of a cooking chamber when in said closed position, a drawer support means located within said cabinet, supporting said drawer, and configured to allow said drawer to move from a position within said cabinet, to a position where said drawer is at least partially outside said cabinet, a power link, adapted to act as a conduit between a power supply and an electrical load in said drawer, said power link comprising;
a first swivelling connector located on said cabinet, a second swivelling connector located on said drawer, a substantially rigid link arm, rigidly connected at or close to one end to one of said swivelling connector, said link arm slidably connected to the other of said swivelling connector, a wiring harness connecting said cabinet power supply to said drawer, at least part of the length of said harness passing along the length of said link arm.
61. A home appliance as claimed in claim 60 wherein said link arm is hollow, and said wires run the length of said link arm.
62. A home appliance as claimed in claim 60 or claim 61 wherein said swivelling connectors and said link arm are located underneath said drawer when said drawer is located fully within said cabinet.
63. A home appliance as claimed in any one of claims 60 to 62 wherein said swivelling connectors and said link arm are configured so that the size of the pivot arc is minimised when said drawer moves from said position located fully within said cabinet, to a position located fully outside said cabinet.
64. A home appliance as claimed in claim 63 wherein said swivelling connectors and said link arm are configured so that the size of the pivot arc is not more than 35 degrees.
CA002630883A 2005-11-24 2006-11-22 Improvements relating to ovens Abandoned CA2630883A1 (en)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
NZ543764A NZ543764A (en) 2005-11-24 2005-11-24 Oven with vertically moveable shelf in drawer
NZ543764 2005-11-24
US77565506P 2006-02-22 2006-02-22
US60/775,655 2006-02-22
PCT/NZ2006/000309 WO2007061323A1 (en) 2005-11-24 2006-11-22 Improvements relating to ovens

Publications (1)

Publication Number Publication Date
CA2630883A1 true CA2630883A1 (en) 2007-05-31

Family

ID=38067454

Family Applications (1)

Application Number Title Priority Date Filing Date
CA002630883A Abandoned CA2630883A1 (en) 2005-11-24 2006-11-22 Improvements relating to ovens

Country Status (5)

Country Link
US (1) US20080309211A1 (en)
EP (1) EP1957875A4 (en)
AU (1) AU2006317793B2 (en)
CA (1) CA2630883A1 (en)
WO (1) WO2007061323A1 (en)

Families Citing this family (18)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102008042672A1 (en) * 2008-10-08 2010-04-15 BSH Bosch und Siemens Hausgeräte GmbH Domestic appliance device
ES2413106B1 (en) * 2011-09-13 2014-05-13 Electrodomésticos Taurus S.L. OVEN WITH GRILL.
ES2413097B1 (en) * 2011-09-13 2014-05-13 Electrodomésticos Taurus, S.L. OVEN FOR FOOD COOKING.
CN102711401B (en) * 2012-02-24 2018-07-27 海尔集团公司 A kind of drawing-and-rotating drawer assembly for household electrical appliance
KR101617539B1 (en) * 2014-09-26 2016-05-02 엘지전자 주식회사 cooking appliance
BR102015006334B1 (en) * 2015-03-20 2022-09-13 Whirlpool S.A. ADJUSTABLE SHELF SYSTEM FOR HOUSEHOLD APPLIANCES
US9523530B2 (en) 2015-04-14 2016-12-20 Electrolux Home Products, Inc. Removable freezer door
US9955783B1 (en) * 2016-11-02 2018-05-01 Dong Guan Song Wei Electric Technology Co., Ltd. Door control device for electric appliance cabinet
CN107069496A (en) * 2017-05-17 2017-08-18 中科天工电气控股有限公司 A kind of draw-out type low voltage switch cabinet of easy access
CN107087910A (en) * 2017-07-03 2017-08-25 苏州市晨彩纺织研发有限公司 Spool storage rack is used in one kind weaving
DE202017006448U1 (en) * 2017-12-14 2019-03-15 Grass Gmbh Heating device, in particular oven
CN111811178B (en) * 2019-04-12 2024-04-12 博西华家用电器有限公司 Household appliance
US10888160B1 (en) * 2019-08-06 2021-01-12 Mark Hiromi Iwasaki Apparatus for continuously and adjustably subdividing a space
US11339971B2 (en) * 2019-09-13 2022-05-24 Guangdong Midea Kitchen Appliances Manufacturing Co., Ltd. Oven with automatic control of pan elevation
US11287141B2 (en) 2019-09-30 2022-03-29 Midea Group Co., Ltd. Articulating rack for a cooking appliance
CN114259169B (en) * 2021-12-28 2023-02-03 浙江杰森厨具股份有限公司 Hidden steam ager structure of integrated kitchen
DE102023104090A1 (en) 2023-02-20 2024-08-22 Miele & Cie. Kg System with a household appliance and method for operating the system
BE1031414B1 (en) * 2023-03-08 2024-10-07 Miele & Cie cooking appliance drawer, preferably steam cooking drawer

Family Cites Families (24)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1777529A (en) * 1930-10-07 Back support
US1851183A (en) * 1927-03-14 1932-03-29 Griffitha E Hill Oven
US1808768A (en) * 1927-05-02 1931-06-09 Moore Brothers Co Broiler
US1861689A (en) * 1930-11-03 1932-06-07 Moore Brothers Co Broiler
GB402608A (en) * 1932-01-13 1933-12-07 Emile Georges Besson Improvements in cooking stoves and like apparatus
US1960365A (en) * 1932-11-01 1934-05-29 Jesse W Barker Broiler oven
US2127146A (en) * 1935-05-25 1938-08-16 Louis J Smallen Adjustable broiler for ranges
US2182962A (en) * 1935-07-31 1939-12-12 William C Grunow Refrigerator
US2155654A (en) * 1936-01-28 1939-04-25 Welbilt Stove Company Inc Broiler oven and pull-out drawer thereof
US2133639A (en) * 1936-07-24 1938-10-18 Walker & Pratt Mfg Co Range
US2486564A (en) * 1945-10-03 1949-11-01 Cribben And Sexton Company Stove construction
US2861695A (en) * 1955-08-25 1958-11-25 Gen Electric Vertically adjustable and laterally slidable shelf structure
US3043290A (en) * 1961-03-01 1962-07-10 Moffats Ltd Oven rack elevating and lowering mechanism
US3207148A (en) * 1963-02-15 1965-09-21 Marinace Josephine Disposable oven liner
JPH0297771U (en) * 1989-01-17 1990-08-03
DE4122041C2 (en) * 1991-07-03 1994-03-03 Bosch Siemens Hausgeraete oven
US5429043A (en) * 1994-10-24 1995-07-04 Becker; Ruby Power operated adjustable oven rack
DE19609105C2 (en) * 1996-03-08 1998-05-28 Bosch Siemens Hausgeraete Swiveling baking cart
US5938959A (en) * 1998-04-07 1999-08-17 Testrite Baparoma International Llc Oven with automatically movable shelf
FR2779929B1 (en) * 1998-06-17 2000-08-04 Seb Sa ELECTRIC COOKING APPLIANCE WITH REMOVABLE TANK
DE19828640A1 (en) * 1998-06-26 1999-12-30 Bsh Bosch Siemens Hausgeraete Oven with self-heated food support
DE19926762A1 (en) * 1999-06-11 2000-12-14 Bsh Bosch Siemens Hausgeraete Cooking device with height-adjustable food support and method for operating a cooking device
DE10164239A1 (en) * 2001-12-27 2003-07-24 Bsh Bosch Siemens Hausgeraete Hocheinbaugagerät
DE10241683A1 (en) * 2002-09-09 2004-03-18 BSH Bosch und Siemens Hausgeräte GmbH Rail drawer for horizontal or vertical extension of pull-out element has additional outer rail connected to outer rail and reinforcing it, or additional rail connected to slide rail and reinforcing it

Also Published As

Publication number Publication date
AU2006317793A1 (en) 2007-05-31
WO2007061323A1 (en) 2007-05-31
US20080309211A1 (en) 2008-12-18
EP1957875A4 (en) 2015-12-02
EP1957875A1 (en) 2008-08-20
AU2006317793B2 (en) 2010-12-02

Similar Documents

Publication Publication Date Title
AU2006317793B2 (en) Improvements relating to ovens
NZ543764A (en) Oven with vertically moveable shelf in drawer
US11045047B2 (en) Variable capacity oven
US9513016B2 (en) Bottom-loading cooking appliance
CA2759917C (en) Home appliance with improved rack system
US8330080B2 (en) Electric oven with adjustable heating element
JP4027325B2 (en) Cooker
US8327837B2 (en) Cooking range with rotable rack
WO2017014353A1 (en) Sliding roaster
EP3680557B1 (en) Cooking appliance
US20040050841A1 (en) Microwave oven with toaster
US20040112226A1 (en) Charcoal tray and grate lift system for gas barbecue grills
US7994457B2 (en) Drawer-type cooking device
KR20190120881A (en) An Oven Equipped with Easy-Elevating Tray
KR102047305B1 (en) An Oven Equipped with Auto-ElevatingTray
US5938968A (en) Retractable shelf assembly for a microwave oven
KR102691060B1 (en) Cooking appliance
US4144869A (en) Domestic low temperature and warming unit
NZ555597A (en) Improvements relating to ovens
KR101898797B1 (en) Apparatus for supporting shelf and cooking appliance therewith
KR20150026378A (en) Cooking apparatus
GB2323439A (en) Cooking appliance
CN215838462U (en) Guide structure convenient to assembly operation and oven thereof
CN219629441U (en) Stainless steel folding barbecue oven
KR200166482Y1 (en) A cooking range having a slidable frame for sustaining food

Legal Events

Date Code Title Description
FZDE Discontinued