KR19990039008A - Reflective Structure of Halogen Lamp for Microwave Oven - Google Patents

Abstract

The present invention relates to a reflective structure of a halogen lamp installed in a microwave oven in order to use light waves as another heating source.

According to the present invention, a microwave lamp is provided with a halogen lamp that emits light waves as a separate heating source, and two kinds of reflecting plates are attached to reflect light from the halogen lamp into the cavity. The reflecting plate according to the present invention comprises a first reflecting plate which is reflected in a state in which reflected light is concentrated on an object, and a second reflecting plate which is reflected so that the reflected light is uniformly supplied to the object. By appropriately selecting such a first reflecting plate and a second reflecting plate, the object can be heated more efficiently.

Description

Reflective Structure of Halogen Lamp for Microwave Oven

The present invention relates to a structure of a reflector of a halogen lamp used in a microwave oven, and more particularly, to a reflector structure of a halogen lamp for a microwave oven configured to transmit light energy most efficiently according to the type of object. .

Various kinds of apparatuses have been proposed to date as heating apparatuses for heating foods. The most primitive heating mechanism is a container of a predetermined shape in direct contact with a heat source, and the contents to be cooked are placed in such a container, and the desired cooking is performed by applying heat.

In addition, many types of cooking apparatuses have been developed that use electric energy directly or indirectly. As an example, a microwave oven using microwaves as a heating source may be cited. A microwave oven is a cooking apparatus in which microwaves are generated using electricity, and the microwaves penetrate the object to be cooked, causing molecular motion inside the object, and thereby heating. Such a microwave oven is widely spread due to its simple configuration and ease of use, such as a thawing process for melting frozen food, or a device for heating food such as milk to a predetermined temperature. It is used.

However, the microwave oven cannot be said to be suitable for heating various objects due to the disadvantages in use due to the heating method and the limitation of its output. That is, the conventional microwave oven using only microwaves as a heating source is pointed out that there is a problem in that it is not possible to provide fast and high-quality cooking because of the unity of the heating method by the microwave and its output. . For example, when heated by microwave, the object is heated both inside and outside together, but this advantage is a significant disadvantage depending on the cooking object. When cooking pizza as described later, it is judged that heating by microwaves is not suitable due to the properties of the object. In addition, it is also pointed out that in the case of heating by a microwave oven, too much moisture is removed from the object.

For these current microwave ovens, various types of microwave ovens using different heat sources have been developed and commercialized. For example, a microwave oven capable of performing suitable heating on various cooking objects by attaching a heat generator, which can be said to be another heat source, separate from the microwaves. In this way, however, even in a microwave oven in which the heater is built, it is true that such a heater does not have various functions as a whole because it only serves as another heat source. For example, in order to cook pizza and silver food properly, the surface must be properly heated to have a crunchy cooking state, and the inside of it should be able to obtain a heating degree that is sufficiently ripe but does not drain much moisture. . However, it is true that the present microwave oven does not satisfy such cooking characteristics.

In conclusion, when heating by the conventional microwave only, the limitation of the heating method of the single method of heating by the microwave, the disadvantages of the output, and various disadvantages due to the evaporation of water have been pointed out. Even in the case of installation, the above-mentioned disadvantages cannot be sufficiently solved.

Unlike the conventional microwave oven described above, as another heating device, a heating device using only light waves as a single heating source has been proposed. That is, according to US Pat. No. 5,036,179, a mass cooking apparatus is disclosed that is suitably used for a specific desired dish using a lamp that emits visible light and infrared light. According to the above-mentioned US patent, by appropriately using visible and infrared rays of different wavelengths emitted from the lamp, it is possible to perform a specific cooking such as pizza in large quantities. And when using such a light wave as a heating source, compared with the microwave, the relatively high power can be applied to the heating object, there is also an advantage that the heating can be performed more quickly.

Looking at the heating properties of different wavelengths, the difference between the wavelengths of the infrared and visible light is represented by the difference of the heating method by the different wavelengths applied to the object, and the outside and the inside of the object are heated in different forms due to these differences. . According to such a light-wave heating apparatus, for example, in the case of a pizza, it is possible to obtain a cooking state in which the outside has a crunchy heating degree and the inside is sufficiently heated and softly heated with a predetermined moisture. . However, such a heating device according to the United States patent, can be used only for commercial or industrial use to produce large quantities of pizza quickly, especially after the limitation of use that can not take advantage of the existing microwave oven using microwave. Following.

As described above, a heating apparatus capable of fully utilizing the advantages of heating by microwaves while having characteristics of heating by light waves, that is, radiation heating of visible light and infrared rays, may be considered. In addition, such a heating device, that is, a cooking appliance should be capable of being fully utilized in a general home, and it may be preferable to be configured to enable a wider range of cooking by a user's selection.

However, in order to actually use visible light and infrared rays as a heating source, visible light and infrared rays having a sufficiently high density must be supplied into the cavity. Therefore, when using a lamp that emits light of a predetermined wavelength, for example, a halogen lamp, it is necessary to ensure that the light emitted from the halogen lamp can be efficiently transmitted to the cooking object inside the cavity if possible. There is a need for a reflector that reflects light from the halogen lamp into the cavity.

For example, a microwave oven to which a halogen lamp is attached will be briefly described with reference to FIG. 1, which shows an OTR microwave oven installed on an upper portion of a general gas oven range. In FIG. 1, reference numeral 10 denotes a cavity in which an object to be heated is located. Here, the halogen lamp to be applied in the present invention is installed on the upper surface 12 and / or lower surface 14 of the cavity 10, it is configured so that the light generated thereby is supplied to the interior of the cavity.

FIG. 2 shows a configuration of a halogen lamp 20 mounted on the upper and lower surfaces 12 and 14 of the cavity and a general reflector 22 for reflecting light from the halogen lamp 20 into the cavity 10. It is showing. Here, reference numeral 24 denotes a chamber for installing the halogen lamp 20.

However, according to the structure of the reflecting plate 22 as shown, the light emitted substantially upward from the halogen lamp 20, and reflected downward by the reflecting plate 22 is randomly reflected as shown by the arrow, , Inefficient. In other words, it is true that it does not have any target direction with respect to the reflection path of the reflected light.

That is, depending on the kind of heating object to be heated, for example, a flat object (for example, a pizza) may be preferably irradiated with light uniformly as a whole, and an object having a constant volume (for example, Barbecues, for example, require intensive irradiation of light.

According to the structure of the conventional reflector, it can be seen that there is a disadvantage that the reflected light cannot be used efficiently. This drawback is a waste of energy to be practically used, resulting in a drawback in that power consumption is increased.

It is an object of the present invention to provide a reflective structure that can more efficiently concentrate light from a halogen lamp on a heating target object when the halogen lamp is used as another heating source.

1 is a perspective view showing the configuration of a cavity assembly of a typical microwave oven.

2 is a view illustrating a reflector of a general halogen lamp.

Figure 3 is an exemplary view of a reflector plate of a halogen lamp according to the present invention.

Explanation of symbols on the main parts of the drawings

10 ..... Cavity 20 ..... Halogen Lamp

32 ..... 1st reflecting plate 34 ..... 2nd reflecting plate

42 ..... Cavity Top Fo ..... Focus

According to the present invention for achieving the above object, a cavity for placing a heating object therein, and light wave generating means installed on one side of the cavity to generate light for heating, the light from the light wave generating means is heated Disclosed is a reflecting structure of a microwave oven comprising a first reflecting means for reflecting to be concentrated on an object and a second reflecting means for reflecting light from the light wave generating means to be uniformly incident on the heating object.

According to the structure according to the present invention, it is possible to choose to focus the reflected light on the object or to irradiate the object uniformly according to the type of the heating object. Therefore, it becomes possible to provide a cooking function more suitable according to the state of each heating object.

The first reflecting means and the second reflecting means are provided on the opposite side of the cavity of the light wave generating means and constitute a reflecting plate that reflects the light toward the cavity side, thereby enabling efficient light reflection by a simpler configuration.

According to a specific embodiment of the first reflecting plate, it is provided with a concave reflecting surface capable of concentrating the reflected light on the heating object. According to another embodiment, the lower reflector is formed in a partially oval shape with respect to the heating object It has an embodiment that can form a focus to focus the reflected light.

And a control means for controlling which light wave generating means is applied to the first reflecting plate or the second reflecting plate to further improve usability by selecting an appropriate halogen lamp and emitting light according to a user's input signal. have.

Next, the present invention will be described in more detail with reference to the embodiments shown in the drawings.

3 exemplarily shows a relationship between a reflecting plate and a heating object according to the present invention. As shown, the reflector 30 according to the present invention, when reflecting the light emitted upward from the halogen lamp 20 downward, the first reflector 32 reflects so that the reflected wave can be concentrated in the vicinity of the heating object ) And a second reflecting plate 32 for providing a reflected wave irradiated uniformly to the heating object.

As described above, the halogen lamp 20 which emits light of a predetermined wavelength as a heating source separate from the microwave is located on the upper or lower surface of the cavity of the microwave oven (hereinafter simply referred to as the upper surface 42 for example). It is mounted to supply the emitted light into the cavity 10. At this time, the light irradiated from the lower portion of the halogen lamp 20 is directly incident to the cavity 10, but the light emitted from the upper middle portion is reflected by the reflector 30 installed on the upper portion of the cavity 10 Incident inside.

The first reflecting plate 32 according to the present invention has a structure in which a focus Fo can be formed at a predetermined portion inside the cavity 10 when reflecting light from the halogen lamp 20 into the cavity 10. Have In other words, the first reflecting plate 32 according to the present invention has a technical subject matter so that the reflected light can be concentrated on the heating object located in the cavity 10.

At this time, it is preferable that the focal fo formed by the light reflected by the first reflecting plate 32 becomes the closest part to the cooking object. For example, in the case of heating an object having a predetermined volume, such as a barbecue of chicken, the focal point Fo formed by the light reflected by the first reflector 32 should be within the range actually occupied by the object. Would be desirable.

As such, the most basic shape of the first reflecting plate 32 that enables the light reflected from the first reflecting plate 32 to be concentrated on the object has a concave reflective surface so that the light can be focused like a concave lens. It can be configured to be. In the illustrated embodiment, it can be easily confirmed that the first reflecting plate 32 has the most basically concave reflective surface. In order to focus the light reflected in this way, the first reflector 32 has a substantially concave reflective surface so that it is possible to concentrate the light reflected and incident into the cavity 10 with respect to the object. Will be.

And according to a more specific embodiment of the first reflecting plate 32, it is possible to consider the elliptical shape to focus the light generated from one focus to another focus. That is, the first reflecting plate 32 is composed of an elliptical portion capable of focusing the light generated at the focus of the light source (halogen lamp) to form the focus on the opposite side by reflection. In addition, the first reflecting plate 32 according to the illustrated embodiment is illustrated as having a semi-ellipse with an open lower portion.

When the first reflecting plate 32 reflecting light is thus made elliptical, the light reflected from the first reflecting plate 32 and incident on the lower cavity 10 as shown in the drawing indicates a focal point Fo. It can be formed. And if the focus Fo can be matched to the heating object located in the cavity 10, the reflected light energy can be used most efficiently.

Next, the second reflecting plate 34 according to the present invention will be described. The second reflecting plate 34 is capable of reflecting the inside of the cavity 10 with a uniform distribution as a whole, as shown by the arrow in the light reflection path. Although the second reflecting plate 34 in the illustrated embodiment is described as a conventional one (for example, a reflecting plate such as a fluorescent lamp), the second reflecting plate 34 is not limited to such a structure, and is uniformly uniform with respect to the heating object inside the cavity 10. Any shape can be used as long as it is configured to reflect light. For example, of course, it is also possible to comprise a 2nd reflecting plate in the thing of a simple planar state.

According to the present invention, the reflector 30 for reflecting light from the halogen lamp 20 provided on the upper surface 42 of the cavity 10 into the cavity can concentrate the reflected light with respect to the object, that is, focusing. It can be seen that the first reflecting plate 32 capable of forming the second reflector 32 and the second reflecting plate 32 for irradiating uniform reflected light to the object. And in order to substantially secure sufficient light energy for heating the object, the halogen lamp used in accordance with the present invention is composed of a plurality of, the first reflecting plate 32 and the second reflecting plate 34 as described above also It consists of a plurality. By configuring such a reflecting plate 30, it becomes possible to select suitably and to use it according to the form or property of an object. Of course, it is also possible to use the two kinds of reflecting plate 30 at the same time.

Substantially, which of the above two kinds of reflecting plates 30 is selected and heated is determined according to the state of the food. For example, it is preferable to turn on the halogen heater built in the second reflecting plate 34 for the heating object in a flat state such as pizza, and the halogen heater built in the first reflecting plate 32 for the heating object such as chicken barbecue. It would be desirable to. Of course, in this case, it is also possible to use both reflectors 32 and 34.

Naturally, the selection of the reflector 30 is determined by a signal from a microprocessor built in a microwave oven. However, the application of a command to the microprocessor may be performed by a user input signal (for example, by setting a cooking type). It may be configured to be applied to the microprocessor by a separate sensing device installed in the user's key input signal) or the microwave oven to determine the type of the heating object.

The microprocessor designed inside the microwave oven can supply power to a halogen lamp having a reflector 30 capable of reflecting light most appropriately to a user's input signal or an input signal of a sensing device. Therefore, the application of the halogen lamp current is controlled.

As described above, according to the present invention, a halogen lamp 20 for emitting light of a predetermined wavelength is provided on the lower surface or the upper surface 42 of the cavity 10 to heat the object. At this time, the first reflector 32 and the second reflector 34 for reflecting the light emitted into the cavity 10 is installed on the upper portion of the halogen lamp 20, the first reflector 32 The light is reflected to concentrate the light toward the object placed on the tray 34 in the cavity, and the second reflector 34 reflects the light so that the light is uniformly irradiated to the heating object. do.

It can be seen that the gist of the reflector 30 according to the present invention has a configuration capable of reflecting light to concentrate the heating object and a configuration capable of dispersing light as a whole. Thus, the shape of the reflecting plate may be changed within a range configured to concentrate the reflected light with respect to the heating object or to disperse the light to have a uniform amount of light as a whole.

According to the present invention configured as described above, the halogen lamp as described above, that is, a lamp capable of emitting visible and infrared rays having a predetermined wavelength at an appropriate ratio, and a microwave can be selectively used as a heating source. It is possible to provide a cooking appliance. Therefore, it is possible to provide a microwave oven having various uses, in particular, it is possible to improve the usability of the home microwave oven.

In particular, according to the present invention, when the light from the halogen lamp is reflected by the first reflecting plate 32 to be incident into the cavity 10, the reflected light can always be concentrated on the heating object, the second reflecting plate When reflected by the 34 and incident into the cavity 10, the reflected light may be uniformly incident on the heating object. By intensively irradiating light to the heating object or irradiating it uniformly, the output of the halogen lamp can be fully utilized to increase the efficiency of the cooking appliance, thereby enabling more efficient and rapid cooking. In addition, the improvement of the efficiency, there is an effect that can provide a more various heating functions, depending on the type of the object.

Claims (5)

A cavity for positioning a heating object therein; Light wave generating means installed on one side of the cavity to generate light for heating; First reflecting means for reflecting light from the light wave generating means so as to be concentrated on a heating object; And And a second reflecting means for reflecting the light from the light wave generating means to be uniformly incident on the heating object. The reflecting structure of a microwave oven according to claim 1, wherein the first reflecting means and the second reflecting means are provided on a side opposite to the cavity of the light wave generating means, and are composed of a reflecting plate reflecting light toward the cavity side. The microwave reflecting structure of claim 2, wherein the first reflecting plate has a concave reflecting surface through which the reflected light can be focused on a heating object. The reflection structure of a microwave oven according to claim 3, wherein the first reflecting plate is formed in a partially elliptical shape with a lower portion thereof open. The reflection structure according to any one of claims 1 to 4, further comprising control means for controlling which light wave generating means of the first reflecting plate or the second reflecting plate is applied.