The present invention relates to electric stoves, and in particular to a plug-in electric ceramic heating plate and an electric stove provided with the heating plate.
In all residential fires in North America, the number of fires caused by cooking ranks first. In a cooking process, if unattended, the temperature of cooking oil in a cooking utensil may exceed the spontaneous combustion point due to continuous heating, and thus the cooking oil generates spontaneous combustion, resulting in fire and/or personnel injuries and property losses.
At present, electric stoves using plug-in coil heating elements in the electric stoves on the market are widely used because users can easily install the heating element by themselves. Thus, the plug-in heating element stoves are convenient to be used. This type of heating plate is generally in a form of “coils” heated by electric heating tubes. These heating plates have a common problem in that they heat up slowly and have poor heat transfer and low heating efficiency. Thus, they hardly meet the requirement of “fast, time saving and energy saving” for consumers. Moreover, those heating plates build up rust on the surfaces if kept in warm and wet environment, and cannot be cleaned easily.
For resistance wire heating electric ceramic heaters, the heating speed and the heating efficiency are significantly higher than those coil heating plates, and the glass-ceramic surface of the ceramic heaters is convenient to clean and never rust. However, the spontaneous combustion problem of the cooking oil is not solved on the ceramic heater, and moreover, the heating plates are installed in the electric stoves by manufacturers, and users cannot remove and install the heating plates by themselves.
For electric stoves provided with plug-in heating plates, the heating plates are installed and removed very conveniently, and the consumers can replace as many as four heating plates within 10 minutes without using a tool. Therefore, it is desirable to have a heating plate that has the heating effect and easy cleaning of the electric ceramic stove, can be interchangeable with the existing plug-in coil heating plate and has a plate surface temperature control function to prevent cooking oil fire. Therefore, it would be very convenient for consumers to upgrade the existing coil element electric stoves to meet the cooking performance demand and meanwhile increase the safety level of kitchens
In view of the above problems, it is the objective of the present invention to use such a plug-in electric ceramic heating plate that is interchangeable with a heating plate on an existing plug-in coil heating plate electric stove, thus greatly improving the heating speed and efficiency, and making the surface easier to clean. Meanwhile, the plug-in electric ceramic heating plate has the function to help prevent the cooking oil spontaneous combustion. The technical solutions of the present invention are described as follows.
A plug-in electric ceramic heating plate is provided, comprising a plate body and components. components comprise a plate, resistance wires and connecting leads. Specifically:
the plate has notches formed on its circumference, and a temperature controller mounting groove and a connecting lead wiring groove are formed in the peripheral flange of the plate;
the plate body at least comprises a plate shell, a temperature controller, a glass-ceramic disc, an electric plug, an electric plug pressing board, a plug adapter and a bottom cover, and the electric plug connect the plate component through the plug adapter;
the plate shell has a flange on its top with a glass-ceramic disc installed on the top face of the flange; the interior of the plate shell has a convex edge corresponding to the shape of the notch in the circumference of the plate, such that the interior of the plate shell is divided into a temperature controller mounting area and a plate mounting area by the convex edge, the temperature controller mounting groove and the connecting lead wiring groove corresponding to the plate being formed in the convex edge, and a temperature controller mounting boss with a threaded hole being arranged at the bottom of the temperature controller mounting area; the exterior of the plate shell has an electric plug mounting boss arranged at the bottom, an electric plug positioning groove and a plug adapter mounting hole being formed in the mounting boss, the electric plug positioning groove being communicated with the plug adapter mounting hole, the plug adapter mounting hole being communicated with the temperature controller mounting area, the shape of the plug adapter mounting hole being adapted to that of the plug adapter, threaded holes for mounting the electric plug press plate and the bottom cover plate being further formed in the mounting boss, and a plurality of ventilating and cooling holes being formed in the periphery of the mounting boss.
Preferably, a temperature control range of the temperature controller is 245° C.-395° C.
Preferably, the temperature controller mounting boss of the plate shell is columnar, and the temperature controller mounting boss is placed in the plug adapter mounting hole, and the bottom of the temperature controller mounting boss limits the plug adapter, and the plug adapter mounting hole in the bottom of the plate shell is a rectangular hole, and the electric plug positioning groove is an arc-shaped groove, and the size of the connecting lead wiring groove in the convex edge in the plate shell is larger than that of the connecting lead wiring groove in the plate flange; and the notches in the plate are arc-shaped, and the shape of the convex edge in the plate shell is the same as that of the notch in the plate.
In order to ensure the mounting and positioning of the plug-in electric ceramic heating plate on the electric stove, a mounting and positioning groove is formed in the circumference of the outer surface of the plate shell, and the groove goes through to the bottom surface of the top flange; or a plurality of mounting and positioning ribs are arranged on the circumference of the outer surface of the plate shell.
In order to ensure the adhesion quality and the appearance of the glass-ceramic disc at the top of the plate shell, an annular groove is arranged in the glass-ceramic disc mounting surface at the top flange of the plate shell; or an annular convex edge is arranged on the outer ring of the glass-ceramic disc mounting surface.
More specifically, the plate shell is made of an aluminum alloy by die-casting molding, and the plate is made of a refractory, thermal-insulation and insulating composite material by compression molding.
The connecting lead on the plate component includes a lead for connecting the temperature controller and a lead for connecting the plug adapter. The diameter of the lead for connecting the plug adapter should be kept within 1.0-2.0 mm. The connection with the resistance wire and the connection with the temperature controller are achieved by welding structures. The connecting lead introduced to the end of the plug adapter is positioned to be corresponding to a plug adapter hole, and perpendicular to the end face of the plug adapter into which the connecting lead is inserted.
The temperature controller is fixed on the temperature controller mounting boss of the plate shell through a screw. The electric plug is communicated with the connecting lead of the plate component through the plug adapter, and the electric plug is fixed to the plug adapter by screws via the plug press plate and the bottom cover plate. The glass-ceramic disc is fixed on the top face of the plate shell by adhesive bonding.
Depending on whether the electric stove is provided with a positioning and mounting ring, different plate shell structures are selected. If the electric stove is provided with the positioning and mounting ring, the plate shell provided with the mounting and positioning groove on the circumference is selected, otherwise, the plate shell provided with the mounting and positioning ribs on the outer surface is selected.
The present invention further provides an electric stove, comprising the above mentioned plug-in electric ceramic heating plate and an electric stove body. At least an electric socket matched with the electric plug on the plug-in electric ceramic heating plate is provided on the electric stove body.
The present invention has the following beneficial effects:
1. better universality and the interchangeability. The plug-in electric ceramic heating plate can replace a plug-in coil heating element directly and can be removed and installed by consumers conveniently, thereby being beneficial for the consumers to upgrade the electric stove.
2. The heating speed is faster and the efficiency is better. As shown in a heating contrast test of the plug-in electric ceramic heating plate and the plug-in coil electric heating plate, the heating time of the plug-in electric ceramic heating plate is shortened for nearly 40-50%, so that the heating speed is much faster, hence, the plug-in electric ceramic heating plate is more energy-saving, time-saving and faster cooking.
3. A surface temperature limitation control function is provided. The temperature control range of the temperature controller is 245° C.-395° C., and the temperature of the plate surface of the electric ceramic heating plate can be controlled to be lower than 380° C. Therefore, the cooking oil in the cooking utensil will not exceed the spontaneous combustion temperature while at the same time guaranteeing a high enough cooking temperature to satisfactorily cook.
4. The plate of the present invention is made of special refractory, thermal-insulation and insulating composite material by compression molding, so that the thermal efficiency is high, the thermal insulation effect is excellent, and the temperature on the bottom and the periphery of the plug-in electric ceramic heating plate can be lower than 180° C.
5. The plug-in electric ceramic heating plate is innovative, good-looking and easy to clean. The shell of the plug-in electric ceramic heating plate is made of aluminum alloy by die-casting molding, so that the appearance is beautiful, and a plurality of surface coating colors can be selected. The top face of the plate is made of the glass-ceramic disc, thereby being more convenient to clean, and never get rust.
6. The corrosion resistance is much better than that of the existing heating coil plates or hot plates.
7. The power range of the heating plate of the present invention is 800-3500W, so that different consumption demands can be satisfied.
8. Serial products with multiple structures can be formed, so that the market prospect is good.
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description explaining the principles of the invention.
Reference will now be made in detail to the preferred applications of the present invention, examples of which are illustrated in the accompanying drawings.
Application 1
As shown in
The plate has notches 2.1-1 formed on its circumference. A temperature controller mounting groove 2.1-2 and a connecting lead wiring groove 2.1-3 are formed in the peripheral flange of the plate.
The plate body at least comprises a plate shell 1.1, a temperature controller 1.2, a glass-ceramic disc 1.3, an electric plug 1.4, an electric plug press plate 1.5, a plug adapter 1.6 and a bottom cover plate 1.7. The electric plug 1.4 is connected with the plate component 2 through the plug adapter 1.6.
The plate shell 1.1 has a flange 1.1-1 arranged on its top periphery. A glass-ceramic disc mounting surface 1.1-1.1 is arranged on the top face of the flange 1.1-1. The interior of the plate shell has an arc-shaped convex edge 1.1-2, such that the interior of the plate shell is divided into a temperature controller mounting area A and a plate mounting area B by the convex edge 1.1-2. A temperature controller mounting groove 1.1-2.1 and a connecting lead wiring groove 1.1-2.2 corresponding to the plate is formed in the convex edge 1.1-2. The size of the connecting lead wiring groove in the convex edge is larger than that of the connecting lead wiring groove in the plate flange. A temperature controller mounting boss 1.1-3 with a columnar threaded hole is arranged at the bottom of the temperature controller mounting area. The exterior of the plate shell 1.1 has an electric plug mounting boss 1.1-4 is arranged at the bottom, and an arc-shaped electric plug positioning groove 1.1-4.1 and a rectangular plug adapter mounting hole 1.1-4.2 are formed in the mounting boss 1.1-4. The electric plug positioning groove 1.1-4.1 is communicated with the plug adapter mounting hole 1.1-4.2, and the plug adapter mounting hole 1.1-4.2 is communicated with the temperature controller mounting area A. The temperature controller mounting boss is placed in the plug adapter mounting hole, and the bottom 1.1-3.1 of the temperature controller mounting boss restricts the plug adapter. Threaded holes 1.1-4.3, 1.1-4.4 for mounting the electric plug press plate and the bottom cover plate are further formed in the plug mounting boss 1.1-4, and a plurality of ventilating and cooling holes 1.1-5 are formed in the periphery of the plug mounting boss 1.1-4.
A temperature control range of the temperature controller 1.2 is 245° C.-395° C.
In order to guarantee the mounting and positioning of the plug-in electric ceramic heating plate on the electric stove, if the electric stove is provided with a mounting and positioning ring, a mounting and positioning groove 1.1-6 is formed in the circumference of the outer surface of the plate shell, and the groove goes through to the bottom surface 1.1-1.3 of the top flange; and if the electric stove is not provided with the mounting and positioning ring, a plurality of mounting and positioning ribs 1.1-7 are arranged on the circumference of the outer surface of the plate shell.
In order to guarantee the adhesion quality and the appearance effect of the glass-ceramic disc at the top of the plate shell 1.1, an annular groove 1.1-1.2 is arranged in the glass-ceramic disc mounting surface 1.1-1.1 at the top flange of the plate shell; or an annular convex edge 1.1-1.4 is arranged on the outer ring of the glass-ceramic disc mounting surface.
The aforementioned plate shell is made of an aluminum alloy by die-casting molding, and the plate is made of a refractory, thermal-insulation and insulating composite material by compression molding.
The connecting lead on the plate component includes a lead for connecting the temperature controller and a lead for connecting the plug adapter. The diameter of the lead for connecting the plug adapter should be kept to 1.0-2.0 mm. The connection with the resistance wire and the connection with the temperature controller are achieved by welding structures. The connecting lead introduced to the end of the plug adapter is positioned to be corresponding to a plug adapter hole, and perpendicular to the end face of the plug adapter into which the connecting lead is inserted.
The temperature controller component is fixed on the temperature controller mounting boss of the plate shell through a screw. The electric plug is communicated with the connecting lead of the plate component through the plug adapter, and the electric plug is fixed to the plug adapter by screws via the plug press plate and the bottom cover plate. The glass-ceramic disc is fixed on the top face of the plate shell by means of bonding.
The electric stove of the present invention is composed of a plug-in electric ceramic heating plate and an electric stove body, and an electric socket adapted to the electric plug of the plug-in infrared heating plate should be arranged on the electric stove body.
The aforementioned application only exemplifies a typical structure of the present invention. Although other applications of the present invention involving all modifications and changes that fall within the spirit of the invention are not provided, they are intended to be covered by the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
2016 1 0864261 | Sep 2016 | CN | national |
Number | Name | Date | Kind |
---|---|---|---|
3612829 | Evans | Oct 1971 | A |
4410793 | Fischer | Oct 1983 | A |
4778978 | Schreder | Oct 1988 | A |
4859833 | Petersen | Aug 1989 | A |
6350968 | Connolly | Feb 2002 | B1 |
6469282 | Roberts | Oct 2002 | B1 |
6492627 | Ensinger | Dec 2002 | B1 |
6580058 | Gratz | Jun 2003 | B2 |
6949720 | Munoz | Sep 2005 | B1 |
8492684 | Gutierrez | Jul 2013 | B2 |
20020117497 | Bassill | Aug 2002 | A1 |
20020185489 | Bates | Dec 2002 | A1 |
20020190055 | Perschl | Dec 2002 | A1 |
20020190057 | Staebler | Dec 2002 | A1 |
20030029858 | Gratz | Feb 2003 | A1 |
20030042246 | Gratz | Mar 2003 | A1 |
20030164366 | Baum | Sep 2003 | A1 |
20030192873 | Lerner | Oct 2003 | A1 |
20030192874 | Lerner | Oct 2003 | A1 |
20030222076 | Potthof | Dec 2003 | A1 |
20040072461 | Matsuda | Apr 2004 | A1 |
20040074893 | Wermbter | Apr 2004 | A1 |
20040094533 | Gerhardinger | May 2004 | A1 |
20040099652 | Berkcan | May 2004 | A1 |
20050184044 | Reiter | Aug 2005 | A1 |
20060231546 | Reithofer | Oct 2006 | A1 |
20070045278 | Dittrich | Mar 2007 | A1 |
20070084853 | Shingler | Apr 2007 | A1 |
20080082217 | Sung | Apr 2008 | A1 |
20080185376 | Gagas | Aug 2008 | A1 |
20090095169 | York | Apr 2009 | A1 |
20090212038 | Ahlander | Aug 2009 | A1 |
20100108053 | Lee | May 2010 | A1 |
20110150439 | Fritschie | Jun 2011 | A1 |
20120125912 | Callahan | May 2012 | A1 |
20120132647 | Beverly | May 2012 | A1 |
20140121787 | Yamazaki | May 2014 | A1 |
20150321946 | Sun | Nov 2015 | A1 |
20160014844 | Schlipf | Jan 2016 | A1 |
20160174299 | De Los Toyos Lopez | Jun 2016 | A1 |
20160227609 | Taplan | Aug 2016 | A1 |
Number | Date | Country | |
---|---|---|---|
20180087780 A1 | Mar 2018 | US |