The present invention relates to a method for making stand alone cooking appliances and a cooking appliance obtainable with the method.
The known stand alone cooking appliances comprise a self-supporting structure, generally paneled, obtained with elements of sheared and folded sheet metal, suitably welded or otherwise constrained to each other to form a box-like structure, to which an oven muffle is then applied to the front and above is inserted a hob of various types. The assembly is then completed with the application of a front panel, in which the controls and signalling accessories of the oven and hob are collected.
Alternatively, if an oven is not provided, the boxed structure, also made of sheet metal, has no oven, which is replaced by a compartment equipped with a front door or a set of drawers, and bears the top applied with a cooking hob with knobs and any accessories to signal its operation.
The sheets of the box-shaped supporting structure of the known stand-alone cooking appliances are generally made up of panels finished with a surface treatment or with a painting, which, in addition to performing an aesthetic function, also perform a structural function, in that, a once welded or joined together, they form the rigid box structure, suitable for supporting the weight of the oven, hob and related accessories.
Depending on the market demands or the manufacturer's proposals, the boxed structure of the well-known stand alone cooking appliances is made of chromed or satin-finished or painted sheet metal and generally protected by a coating film, which is then removed when the cooking appliance reaches its final destination.
However, these known solutions are not fully satisfactory for various reasons.
Depending on the model of cooking appliance, in fact, it requires a different box-shaped structure and this implies for the manufacturer the need to produce a large number of different structures, able to satisfy the different market demands, with consequent problems and costs of management.
Furthermore, this drawback does not only concern manufacturers of cooking appliances, but also distributors, who, in order to be able to satisfy customer requests without excessive delays, must have a large number of different models available at all times, with consequent problems and logistics costs.
Another drawback concerns the technical assistance for the cooking appliance, due to the difficulties in accessing the internal part of the appliance and more particularly the cavity that exists between the oven muffle and the sheet of the box structure and which in general houses the components of the oven and in particular electric motors, fans, probes, programming units, signal bulbs, etc.
Furthermore, the differences between the various models make the technician's work more complicated, who in the face of each fault can potentially be faced with a different situation, with different methods and disassembly sequences.
The above drawbacks are even more accentuated in more recent cooking appliances, given the large number of components, which in the past did not exist or were little used. In particular, today's hobs include electrical and/or electronic components, such as display control units, induction hob coils, and other various components and devices.
Similar drawbacks also concern the hob, which in case of maintenance to its internal components must be able to be completely removed from the box structure, on which it is mounted, to allow access to the burners, gas taps, spark plugs and to safety thermocouples.
Furthermore, in the event of surface damage to the coating sheets, for example due to scratches caused during transport or during storage or during use by the end user, or even simply due to changed aesthetic needs of the end user himself, it is necessary to repaint the entire cooking appliance, with the consequent drawbacks in terms of costs and usability of the appliance.
This drawback is particularly frequent in the case of traditional cooking appliances, since the known production processes firstly involve completing the box-shaped structure and then inserting the hob into it, forcing the manufacturer to carry out work on an already finished piece, which more easily it can be damaged during assembly operations.
WO2004/070278 describes an assembly for a cooking hob which includes a structure formed by a lower frame and an upper frame made of profiled elements, secured to four vertical columns. The same columns are also associated in a removable manner with the panels that define a compartment, inside which at least one muffle can be inserted, and above which a cooking top can be applied with a front panel equipped with the relative control instruments. There are also side panels that completely cover the assembly.
This solution is not fully satisfactory since if the panels are damaged it is necessary to replace them.
U.S. Pat. No. 2,798,785 describes a method of construction of kitchen cabinets which comprises a frame to which a plurality of cover panels are applied. In particular, moreover, the described solution provides for the use of side panels which completely cover the assembly. This is not fully satisfactory since in case of damage it is necessary to replace the entire panel.
The object of the invention is to provide a stand alone cooking appliances which are, at least in part, free from the drawbacks mentioned above and present in traditional solutions.
In particular, the object of the invention is to propose a method for making cooking appliances, which allows to standardize production.
Another object of the invention is to propose a method for making cooking appliances, which uses panels without any structural function.
Another object of the invention is to propose a method for making cooking appliances which allows to modify the external appearance of the appliance itself according to the customer's requests.
Another object of the invention is to propose a method for making cooking appliances which, compared to traditional stand alone cooking appliances, makes maintenance and repair operations somewhat easier.
Another object of the invention is to propose a method for making cooking appliances which are alternative and improved over the traditional methods.
Another object of the invention is to propose a method for making cooking appliances which can be easily and quickly implemented and with low costs.
Another object of the invention is to propose a stand alone cooking appliance which can be obtained easily, quickly and with low costs.
Another object of the invention is to propose a stand alone cooking appliance that can be customized easily, quickly and with low costs.
All these purposes, considered individually or in any combination thereof, and others which will result from the following description are achieved, according to the invention with a method for making stand alone cooking appliances and with an appliance of cooking as defined in the appended claims.
The present invention is further clarified below in some of its preferred forms of practical embodiment, given purely by way of non-limiting example with reference to the attached drawings, in which:
In the following, the front side of the kitchen appliance means the side exposed to view where the oven doors are positioned, and in any case the side where a user is usually located.
Hereinafter, the rear side refers to the side which is usually closest to the wall, or the side opposite to said front side.
With reference to the figures, it can be recognized that the method according to the invention provides for making the cooking appliance with a series of operating steps to be performed in a certain sequence.
The cooking appliance obtainable with the method is exemplified in an oven made with a single muffle, even if it is foreseen that it can be made with two muffles 10, 10′ side by side, mounted inside a single supporting structure.
The first phase of the method according to the invention provides for making a front frame 2 (
The constraint of the frame 8 and of the crosspiece 6 to the two uprights 4 is preferably obtained with rivets or with screws or also by spot/welding, while the various components are provisionally stabilized in the correct mutual position with the use of a special template (not represented) on which they are individually mounted.
The connection of the muffle 10 to the frame 8, on the other hand, is obtained with screws, to allow for its possible disassembly in case of need, for example for its replacement.
After the muffle 10 has been applied to the front frame 2 (
This rear frame 12 it comprises two uprights 14 joined by two second crosspieces 16 and by a central band comprising for example a third crosspiece 18, which constitutes the rear support of the muffle 10 (
The two front 2 and rear 12 frames are further stabilized with each other with upper 20 and lower 22 beams, which overall create a rigid parallelepipedic structure of the entire cooking appliance (
Two brackets 26 are applied to the structure thus inferior, which will subsequently be used for fixing the legs (not shown) of the cooking appliance (
Subsequently, on the two front uprights 4 of the structure thus made, two covering profiles 28 are fitted from above (
Advantageously, the covering profiles 28 can have a substantially tubular structure, and preferably cover substantially only the front uprights 4.
For example, the covering profiles 28 can be made with different materials or finishes with respect to the other components of the cooking appliance (and in particular compared to the side cladding panels, as will be clear later). This is because the covering profiles, being positioned at the front corners of the cooking appliance, are the elements that are more exposed than others, and therefore they are the first to be damaged in the event of a collision with foreign bodies and can advantageously be made with more resistant materials or at least they can be treated with more resistant enamels or paints.
Advantageously, if the cooking appliance provides more than one muffle 10, for example two muffles 10, 10′, it can also comprise a pair of front frames 8, 8′ capable of supporting the two muffles separately.
Advantageously, as shown in
Both ends of the two intermediate uprights 50, 50′ are then connected to each other by two intermediate currents, one upper 52 and one lower 52′ (see
The opposite ends of these two intermediate currents 52, 52′, and more specifically the front end of the lower intermediate current 52′ and the rear end of the upper intermediate current 52 are advantageously connected together by a tie rod 54, at the upper end of which an adjustment screw 56 is suitably associated. In this way it is possible to slightly deform the frame formed by the two intermediate uprights 50, 50′ and the two intermediate currents 52, 52′, in order to adjust the perfect alignment of the two doors of the two muffles 10, 10′.
An upper front panel 30 is then applied to the front of the structure, intended to receive the control elements of both the oven and the hob, and a lower front panel 32 (
After assembling the upper front panel 30, all the controls for operating the oven and hob are applied to it, i.e. switches, thermostats, oven timers and taps for the hob 34 (
After the cooking hob 34 is assembled, the front door 36 of the muffle 10 is applied, and subsequently to the structure of the appliance they are applied two side cladding panels 38, made of painted or chromed sheet metal or in any case surface treated.
This operation requires that each panel 38 be inserted from the rear to the front of the cooking appliance, sliding it with its horizontal edges between the hob 34 and the corresponding bracket 26, until it engages with its front edge in the covering profile 28 of the front upright 4 (
Finally, a rear closure panel 44 of the cooking appliance is provided (see
A cooking appliance is thus constructed comprising:
Conveniently, the cooking appliance described here is modular, and the individual components can be easily replaced with others, according to the needs of the user, and can also be removed if necessary, for example for maintenance. The standardization of the pieces also makes it possible to keep the production process lean, reducing storage necessities.
Advantageously, moreover, the method according to the invention allows a rapid construction of the cooking appliance itself, both for a series production in a production line, and for a production customized according to the needs of the user.
Moreover, thanks to the assembly of the side panels 38 in the final phase of construction of the cooking appliance, the risks of damaging these panels during the assembly operations of the muffle 10 and of the cooking hob 34 are practically eliminated.
The embodiment illustrated in the
In this case, the assembly of each side panel 38′ occurs by hooking with a sliding movement of the panel 38′ backwards and with a subsequent constraint of the rear vertical flap folded of this with the corresponding upright 14 of the rear frame 12.
Number | Date | Country | Kind |
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102019000011274 | Jul 2019 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2020/056460 | 7/9/2020 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2021/005548 | 1/14/2021 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2161537 | Sockstrom et al. | Jun 1939 | A |
2512118 | Snow | Jun 1950 | A |
2675797 | Reeves | Apr 1954 | A |
2798785 | Chesser | Jul 1957 | A |
3402281 | Vonderhaar | Sep 1968 | A |
5928540 | Dominique et al. | Jul 1999 | A |
20190184506 | Conde Zelocuatecatl | Jun 2019 | A1 |
Number | Date | Country |
---|---|---|
2004070278 | Aug 2004 | WO |
WO-2010034833 | Apr 2010 | WO |
Number | Date | Country | |
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20220364735 A1 | Nov 2022 | US |