Patent Grant
7323662
This application claims the benefit of Korean Patent Application No. 2004-55530, filed Jul. 16, 2004, in the Korean Intellectual Property Office, the disclosure of which is incorporated herein by reference.
1. Field of the Invention
The present invention relates to a heating apparatus for cooking, and more particularly to a heating apparatus having a steam-generating device for supplying steam to the inside of a cooking chamber.
2. Description of Related Art
Generally, heating apparatuses for cooking include an electronic oven range, an electric oven range, and a gas oven range, for example. The electronic oven range, i.e., a microwave oven, supplies high-frequency waves generated from a magnetron to the inside of a cooking chamber, thereby cooking foods placed in the cooking chamber using heat generated from the foods themselves. The electric oven range or the gas oven range transmits heat, generated from the operation of an electric heater or the combustion of a gas, to the inside of a cooking chamber, thereby cooking foods in the cooking chamber. Since moisture of the foods is evaporated during cooking, the above heating apparatuses for cooking are disadvantageous in that the foods are easily dried. Thus, a steam-generating device for preventing foods from being dried and improving cooking effects is installed in the heating apparatuses for cooking.
EP Patent No. 0277337 discloses a heating apparatus for cooking comprising a steam-generating device having a container shape installed on the bottom of a cooking chamber, and a water tank in a drawer-type installed above the cooking chamber for supplying water to the steam-generating device. Japanese Patent Laid-open No. 2004-20005 discloses a heating apparatus using high-frequency waves comprising an evaporation tray installed on the bottom of a cooking chamber, a heater for heating water in the evaporation tray, and a water tank installed at a side of the cooking chamber for supplying water to the evaporation tray. The above heating apparatuses supply water from the water tank to the steam-generating device or the evaporation tray, heat the water, supplied to the steam-generating device or the evaporation tray, using the heater to generate steam, and then supply the steam to the cooking chamber.
Since the steam-generating devices of the above heating apparatuses for cooking are installed below the cooking chambers, remnants or oil falling from foods placed in the cooking chambers are introduced into the steam-generating devices, thereby contaminating water in the steam-generating devices and causing hygienic problems. Further, it is difficult to separate the steam-generating devices, for repairing, from the main bodies of the heating apparatuses.
Moreover, since the steam-generating devices of the heating apparatuses for cooking are respectively separated from other heat sources, steam is generated only from the steam-generating devices, thereby reducing efficiency in generating steam.
Thus, there is a need for a heating apparatus for cooking, the steam-generating device of which is easily and hygienically cleanable. And, there is need for a heating apparatus for cooking, in which water in a steam-generating device is heated by its peripheral heat as well as its heater, thereby increasing steam-generating effects.
According to an aspect of the present invention, there is provided heating apparatus for cooking including: a main body having a cooking chamber; a hot air chamber for supplying hot air to the cooking chamber; and a steam-generating device in the hot air chamber to supply steam to the cooking chamber.
The hot air chamber may include a heater and an air fan, and the steam-generating device may be heated indirectly by the heater and hot air in the hot air chamber.
The heating apparatus may also include a water supply device for supplying water to the steam-generating device.
The water supply device may include a water tank above the cooking chamber; a water supply pump supplying water from the water tank to the steam-generating device; a plurality of water supply pipes connecting the water tank and the water supply pump and connecting the water supply pump and the steam-generating device.
The steam-generating device may include a water supply pipe receiving water from the water supply device; a heating tank containing the water; a steam-generating heater heating the water contained in the heating tank; and exhaust pipes exhausting generated steam to the inside of the cooking chamber.
The hot air chamber may include a first heater and a second heater, which are separated from each other, and the steam-generating device may be interposed between the first heater and the second heater.
The hot air chamber may further include a first air fan for the first heater and a second air fan for the second heater.
The heating apparatus may also include a hot air chamber cover, provided with a plurality of air vents formed therethrough, detachably attached to the inside of the cooking chamber such that the hot air chamber cover covers the front surface of the hot air chamber.
According to another aspect of the present invention, there is provided a heating apparatus for cooking including: a main body having a cooking chamber; a hot air chamber formed in at least one surface of both side and rear surfaces of the cooking chamber for supplying hot air to the cooking chamber; and a steam-generating device detachably installed in the hot air chamber for supplying steam to the cooking chamber.
The steam-generating device may include a heating tank having a heating container having an opened upper end surface, and a cover member closing the opened upper end surface of the heating container, and the cover member of the heating tank may be fixed to the inside of the hot air chamber, and the heating container of the heating tank may be detachably attached to the cover member.
The cover member may be provided with a steam-generating heater heating water contained in the heating tank, a water supply pipe supplying water to the inside of the heating tank, and exhaust guide pipes for guiding exhaust of steam.
A packing may be placed at an interface between the heating container and the cover member.
A water level sensor sensing a level of the water contained in the heating container may be installed in the cover member.
According to another aspect of the present invention, there is provided a steam supply device for a heating apparatus having a cooking chamber and a hot air chamber supplying hot air to the cooking chamber, including: water tank installed above the cooking chamber; heating tank in the hot air chamber; a water supply pump supplying water in the water tank to the heating tank; and a steam-generating heater in the heating tank converting water contained in the heating tank into steam.
Additional and/or other aspects and advantages of the present invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.
These and/or other aspects and advantages of the present invention will become apparent and more readily appreciated from the following detailed description, taken in conjunction with the accompanying drawings of which:
Reference will now be made in detail to embodiments of the present invention, an example of which is illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout. The embodiments are described below to explain the present invention by referring to the figures.
As shown in
The main body 10 includes an outer case 13 which may be made of an iron plate, and an inner case 14 installed in the outer case 13 such that the outer surface of the inner case 14 is separated from the inner surface of the outer case 13 for forming the cooking chamber 11. The inner case 14 has a first case 14a forming the inner surface of the inner case 14 and a second case 14b forming the outer surface of the inner case 14, which are separated from each other. A space is formed between the first case 14a and the second case 14b, thereby thermally insulating the cooking chamber 11 from the outside. As shown in
Shelves 17a and 17b for placing foods thereon are respectively installed at upper and lower portions of the inside of the cooking chamber 11. An upper heater 16a and a lower heater 16b for heating the foods placed on the shelves 17a and 17b are respectively installed at the upper and lower portions of the inside of the cooking chamber 11. Here, the upper heater 16a is installed at the upper portion of the inside of the cooking chamber 11, and the lower heater 16b is installed on the outer lower surface of the cooking chamber 11. That is, the lower heater 16b contacts the outer surface of the bottom of the first case 14a. The above structure protects the lower heater 16b from foreign substances falling from the foods placed in the cooking chamber 11, and transmits heat of the lower heater 16b to the inside of the cooking chamber 11 through the bottom of the first case 14a.
As shown in
The blowing device 21, for circulating air to the hot air chamber 18, includes a centrifugal air blast fan 21a installed in the hot air chamber 18, and a driving motor 21b installed at the outer surface of the rear portion of the hot air chamber 18 for driving the air blast fan 21a. The heater 20 is installed adjacent to the outer periphery of the air blast fan 21a in the hot air chamber 18. When the air blast fan 21a is operated when the heater 20 is operated, the air in the cooking chamber 11 is inhaled to the air blast fan 21a, and is exhausted to the outside of the air blast fan 21a in the radial direction of the air blast fan 21a. Then, the exhausted air is heated by the heater 20, and is supplied to the inside of the cooking chamber 11. The above circulation of the hot air improves the cooking effects of the foods placed in the cooking chamber 11.
As shown in
The heating tank 31 includes a heating container 31a having a rectangular hexahedral structure provided with an opened upper surface for containing water, and a cover member 31b provided with steam exhaust holes 34a and 34b respectively formed at both sides thereof for closing the opened upper surface of the heating container 31a. Here, the cover member 31b is fixed to the inner rear surface of the hot air chamber 18 through fixing members 36 installed at upper portions of the rear surfaces of both sides thereof, and the heating container 31a is detachably attached to the lower portion of the cover member 31b. For this reason, a plurality of fixing bolts 37, which are extended upwardly, are fixed to the inside of the heating container 31a. After upper ends of the fixing bolts 37 pass through the cover member 31b, fixing nuts 38 are respectively coupled with the corresponding upper ends of the fixing bolts 37, thereby fixing the fixing bolts 37. A packing 39 for maintaining an airtight state is interposed between the upper end of the heating container 31a and the cover member 31b.
Both ends of the steam-generating heater 32 are fixed to the cover member 31b such that the main portion of the steam-generating heater 32 can be soaked in the water in the heating container 31a, and an end of the water level sensor 33 is fixed to the cover member 31b such that the main portion of the water level sensor 33 can be soaked in the water in the heating container 31a. A water supply hole 40 for supplying water to the heating container 31a therethrough is formed through the cover member 31b, and a water supply pipe 55 of the water supply device 50, which will be described later, is connected to the water supply hole 40. Exhaust guide pipes 35a and 35b having a designated length for guiding the exhaust of steam are respectively connected to steam exhaust holes 34a and 34b formed at both sides of the cover member 31b.
The steam-generating device 30 generates steam by heating water supplied to the heating tank 31a using the steam-generating heater 32, and supplies the steam to the cooking chamber 11 through the exhaust guide pipes 35a and 35b. Since the steam-generating device 30 is installed in the hot air chamber 18 at the rear of the cooking chamber 11, it is possible to prevent the steam-generating device 30 from being contaminated by remnants or oil falling from the foods. When a user wants to clean the steam-generating device 30, the heating container 31a is separated from the cover member 31b simply by loosening the fixing nuts 38 installed at the upper portion of the cover member 31b, and then the inside of the heating container 31a and the outer surface of the steam-generating heater 32 are cleaned.
The above steam-generating device 30 heats the outer surface of the heating tank 31 using the heater 20 in the hot air chamber 18, thereby increasing efficiency in generating the steam, and uniformly supplies the steam exhausted through the exhaust guide pipes 35a and 35b to the cooking chamber 11 using the air circulating into the hot air chamber 18, thereby improving cooking effects.
As shown in
In the above configuration of the water supply device 50, a user can draw the water tank 51 forward from the front surface of the main body 10 and fill the water tank 51 with water, and the water contained in the water tank 51 can be supplied to the heating tank 31 by the operation of the water supply pump 52. Here, the operation of the water supply pump 52 is controlled by the water level sensor 33 installed in the heating tank 31 of the steam-generating device 30 for adjusting the level of the water in the heating tank 31.
Hereinafter, the overall operation of the heating apparatus for cooking and the cleaning method of the steam-generating device of the heating apparatus for cooking will be described in detail.
When foods are placed on either of the shelves 17a and 17b in the cooking chamber 11 and the heating apparatus for cooking is operated, the upper and lower heaters 16a and 16b placed at the upper and lower portions of the cooking chamber 11 and the heater 20 placed in the hot air chamber 18 are operated and the air blast fan 21a in the hot air chamber 18 is operated. The foods placed in the cooking chamber 11 are heated by heat generated from the upper and lower heaters 16a and 16b and hot air circulated through the hot air chamber 18 by the operation of the air blast fan 21a.
In case that a user wants to cook foods in the cooking chamber 11 using steam supplied to the cooking chamber 11, the user first fills the water tank 51 installed above the cooking chamber 11 with water and then operates the steam-generating device 30. Then, water is supplied from the water tank 51 to the heating tank 31 in the hot air chamber 18 by the operation of the water supply pump 52. Here, a controller (not shown) controls the operation of the water supply pump 52 based on the sensing operation of the water level sensor 33 installed in the heating tank 31, thereby achieving the above water supply. When the level of the water in the heating tank 31 reaches a proper level, the controller supplies power to the steam-generating heater 32 so that the water in the heating tank 31 is heated by the steam-generating heater 32 and is changed to steam. The steam is supplied to the cooking chamber 11 through the exhaust guide pipes 35a and 35b. The steam exhausted through the exhaust guide pipes 35a and 35b is uniformly supplied to the inside of the cooking chamber 11 by the air circulating into the hot air chamber 18, thereby preventing the foods from being dried and improving cooking effects.
Here, water in the heating tank 31 of the steam-generating device 30 of the present embodiment is heated by the heater 20 in the hot air chamber 18 as well as the steam-generating heater 32. Accordingly, since the water in the heating tank 31 is rapidly heated and efficiency in generating steam is improved, the steam-generating device 30 employs the steam-generating heater 32 having a low capacity and generates a sufficient quantity of steam. The steam-generating device 30, which employs the steam-generating heater 32 having a low capacity, has low production costs.
On the other hand, when a user wants to clean the inside of the heating tank 31 and the steam-generating heater 32, the user first separates the hot air chamber cover 19 from the rear portion of the cooking chamber 11 and then separates the fixing nuts 38 from the upper surface of the heating tank 31. Thereby, the heating container 31a of the heating tank 31 is easily separated from the cover member 31b, thus allowing the user to easily clean the inside of the heating tank 31. Further, the separation of the heating container 31a from the cover member 31b exposes the steam-generating heater 32 fixed to the cover member 31b to the outside, thus allowing the user to easily remove foreign substances from the surface of the steam-generating heater 32.
The above-described embodiments of the present invention provide a heating apparatus for cooking having a steam-generating device, which is installed in a hot air chamber in the rear of a cooking chamber, so as to prevent the steam-generating device from being contaminated by remnants or oil falling from foods placed in the cooking chamber, thereby being hygienically used.
Since a heating tank installed in the hot air chamber of the heating apparatus for cooking of the present invention is easily disassembled, the heating tank and the steam-generating heater are easily cleaned.
Since the steam-generating devices of the heating apparatus for cooking of the above-described embodiments of the present invention are installed in the hot air chamber, water contained in the heating tanks is heated by heater(s) in the hot air chamber as well as the steam-generating heater and efficiency in generating steam is improved. Accordingly, the heating apparatuses for cooking employ the steam-generating heater having a low capacity, and generates a sufficient quantity of the steam.
Since the steam, which is exhausted through exhaust guide pipes of the steam-generating device, is uniformly supplied to the cooking chamber by air circulated into the hot air chamber, the heating apparatuses for cooking of the above-described embodiments of the present invention have improved cooking effects.
Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
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