JPH02230024A - Deodorizer for microwave heating device and microwave heating device - Google Patents

Abstract

PURPOSE:To efficiently deodorize the gas in the oven space in a device for heating by a microwave, such as a microwave oven, by using a substance which evolves heat with absorption of a microwave as a base material and in the form of a carrier of an oxidation catalyst. CONSTITUTION:For the base material of a deodorizer 10, for example, silicon carbide, which evolves heat with absorption of a microwave, is formed into a porous gas-permeable mold; this mold is provided with a coating of gamma-Al2O3 by way of surface treatment; with this coating of gamma-Al2O3 as a catalyst carrier, platinum in a proportion of approximately 0.05-2% is employed as an oxidation catalyst. A deodorizer 10 provided inside a gas inlet 25a in a circulating duct 25 at a side of an oven space 21 is irradiated with part of a microwave emitted into the oven space 21 and the base material of SiC in the deodorizer 10 evolves heat with absorption of the microwaves, thus heating the deodorization catalyst in the deodorizer 10 to temperatures in the range of 200-500 deg.C. The gas flowing into the gas inlet 25a undergoes active deodorization under heat and is deodor ized and purified by decomposition by virtue of the oxidation catalyst.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention relates to a deodorizing body used in a microwave heating device, such as a microwave oven, that heats food to be cooked using microwaves, and a microwave oven having the deodorizing body. It relates to a heating device.

(Prior art) Microwave heating devices such as microwave ovens heat the food from the inside using microwaves generated from a magnetron. In addition to the magnetron, microwave ovens equipped with a heater, a heating element, etc., for heating the surface of the food to be cooked have also been developed for the purpose of attaching food. As described above, in a microwave oven that can heat the surface of an object to be cooked, there is a problem that when the surface of the object stored in the oven is heated and browned, odor and smoke are generated from the object. occurs. For this reason, a microwave oven has been developed in which the gas inside the oven is exhausted to the outside after removing odors and the like generated from the food to be cooked. In such a microwave oven, a deodorizing body is usually disposed near an outlet in a circulation duct that circulates gas inside the oven.

Conventionally, the deodorizing body disposed in the circulation duct is formed by forming a base made of metal or the like into a honeycomb shape, which is heated by a heater to raise the temperature, and then applying an oxidation catalyst such as platinum, palladium, berovskite, etc. to the base. The deodorizing body is heated with a preheater in the circulation duct to absorb 30% of the oxidation catalyst.
The temperature is raised to around 0"C to decompose and purify odor components. The purified gas is returned to the oven chamber. The exhaust heat generated at this time flows into the circulation duct. The gas is transported by a fan to warm it and exchange heat.

(Problems to be Solved by the Invention) Such conventional deodorizing bodies use a metal or the like that rises in temperature when heated by a heater, so the oxidation catalyst is
In order to quickly raise the temperature to a high temperature of .degree. C., the volume of the catalyst layer must be increased.

If the catalyst layer becomes large, the pressure drop of the gas circulating in the circulation duct becomes large, and the deodorizing efficiency decreases.

In addition, in microwave ovens using such deodorizing bodies, the deodorizing body is heated by a preliminary heater to raise the humidity, so a preliminary heater is required, making the microwave oven larger and more complex. .

The present invention solves the above-mentioned conventional problems, and its purpose is to provide a deodorizing body for a microwave heating device that can efficiently deodorize the gas inside the oven chamber of a microwave heating device such as a microwave oven. It is in. Another object of the present invention is to provide a microwave heating device that has a simple structure and is excellent in deodorizing gas inside an oven.

(Means for Solving the Problems) The deodorizing body for a microwave heating device of the present invention has an oxidation catalyst supported on an air-permeable base having a microwave-absorbing exothermic material that generates heat by absorbing microwaves. mixed, thereby achieving the above objective.

Further, in the microwave heating device of the present invention, the deodorizing body is disposed at a position where it is irradiated with microwaves, thereby achieving the above object.

(Example) The present invention will be described below with reference to Examples.

FIG. 1 is a schematic diagram of a microwave oven which is an example of the microwave heating device of the present invention. The microwave oven has an oven chamber 21 in which the food to be cooked is stored, and the oven chamber z
A turntable 26 on which the food to be cooked is placed and rotates is disposed on the bottom surface of the cooker 1 .

A waveguide 22 is disposed on one side of the oven 2l, and a microwave irradiation port 22a of the waveguide 22 opens on the side of the oven 21. A mica plate 22b is disposed within the microwave irradiation port 22a. A magnetron 23 is provided at the other end of the waveguide 22.
is provided, and microwaves generated from the magnetron 23 are irradiated into the oven chamber 2l from the microwave irradiation port 22a of the waveguide 22 via the mica plate 22b.

A heater 24 for heating the surface of the food placed on the turntable 26 in the oven 2l is disposed above the oven 2l.

A gas inlet 25a at one end of the circulation duct 25 is opened on the opposite side of the open warehouse 2 from the side where the microwave irradiation port 22a is provided. The circulation duct 25
is covered with a heat insulating material 27, and one end of an exhaust duct 28 is connected to the circulation duct 25,
The other end of the exhaust duct 28 is open to the outside. Gas outlet 25b at the other end of the circulation duct 25
is connected to a warm and calm circulation blower device 29. The hot air circulation blower 29 includes a sheathed heater, a convection fan,
It consists of a motor etc. that drives the fan,
The warm air circulation blower 29 communicates with the inside of the oven 21 via a blower duct. The end face of the ventilation duct that opens into the oven chamber zl is covered with a perforated plate.

The deodorizing body 10 of the present invention is installed inside the gas inlet 25a of the circulation duct 25. The deodorizing body 10 is made of, for example, silicon carbide (S tC), which is a microwave absorbing exothermic material that generates heat by absorbing microwaves, formed into a porous body with air permeability, and then coated with γ- as a base treatment. A1
20, and the γ-Al203 coating layer supports platinum as an oxidation catalyst at a ratio of about 0.05 to 2%. Such a deodorizing body IO is
In order to improve the deodorizing performance, a porous body of cordierite ceramic made of StC with a porosity of 20 to 60% is formed into a honeycomb shape or a mesh shape. In order to equalize the expansion coefficients of the porous SIC substrate and the γ-AI,O coated on the substrate, silicon oxide (SIO2) and silicon nitride (Si3N) are added to the γ-Al203 powder to be coated. What is necessary is to add powder such as.

The deodorizing body IO is connected to a circulation duct 25 as shown in FIG.
It is installed in the gas inlet 25a at.

The back part of the deodorizing body IO inside the circulation duct 25 is covered with a mounting plate 31 with punched holes. Supported within the inlet 2Sa, the mounting plate 3l and fixture 32 are integrally fixed to the peripheral edge of the gas inlet 25a with screws 33.

In a microwave oven with such a configuration, when heating the food with microwaves emitted from the magnetron, the food is placed on the turntable 26 in the oven chamber zl, and the magnetron 23 is operated. be done. Microwaves emitted from the magnetron 23 are guided through the waveguide 22 and irradiated into the open storage 21 from the mica plate 22b within the microwave irradiation port 22a. By irradiating the microwave to the object to be cooked in the oven chamber 2l, the object to be cooked is heated from inside.

At this time, a part of the microwave irradiated into the oven chamber 2l is irradiated onto the deodorizing body 10 disposed within the gas inlet 25a of the circulation duct 25 on the side surface of the oven chamber 21. As a result, the S
The iC substrate generates heat, and the deodorizing catalyst in the deodorizing body 10 is heated to 200 to 500°C.

When the food to be cooked in the oven compartment 21 is heated in such a state, gas mixed with odor etc. generated from the food to be cooked flows into the circulation duct 25 from the base body inlet 25a of the circulation duct 25. . At this time, the oxidation catalyst of the deodorizing body 10 disposed in the inlet 2Sa is in a heated state, and the gas flowing into the substrate inlet 2Sa is humidified and has a deodorizing effect. Decomposition by the activated oxidation catalyst,
Deodorized and purified.

The mounting plate 31 with punched holes covering the inner back side of the circulation duct 25 of the deodorizing body 1O also serves as a shield against microwaves.

The purified gas flows through the circulation duct 25, and part of it is exhausted from the exhaust duct 28 to the outside of the machine by an exhaust fan, while the rest is circulated into the oven chamber 21.

In the microwave oven of this embodiment, when heating the food with the open #R function, the hot air circulation blower 29 disposed between the circulation duct 25 and the oven compartment 2l is operated, and the magnetron 23 is operated. The food to be cooked in the oven zl is heated by the microwaves oscillated from the microwave oven and the warm air blown into the oven 21 from the hot air circulation blower 29. In this case as well, since the gas in the oven chamber 21 flows into the circulation duct 25 from the gas inlet 25a, the odor etc. of the gas is removed by the deodorizing body 10 disposed in the gas inlet 2Sa. and be purified.

A part of the gas flowing through the circulation duct 25 passes through the exhaust duct 2.
8 is discharged to the outside of the machine by an exhaust fan, and the remainder is circulated into the oven chamber 21 via a hot air circulation blower 29.

Similarly, when heating food using the grill function in the microwave oven, the heater 24 disposed at the top of the oven compartment 2l is operated, and the heater 24 is heated together with the microwave oscillated from the magnetron z3. The food to be cooked is also heated.

In this case as well, the gas in the oven compartment 2l is transferred to the circulation duct 2.
When flowing into the circulation duct 5 , it is purified by the deodorizing body 10 and flows through the circulation duct 25 . In this case as well, part of the gas flowing through the circulation duct 25 is forcibly discharged outside the machine by an exhaust fan installed in the exhaust duct 28 communicating with the circulation duct 25, and the rest is The deodorizing body 10 of the present invention, which is circulated into the interior of the deodorizing body 10, is not limited to the configuration of the above-mentioned embodiments. Additionally, platinum may be supported as an oxidation catalyst. Also,
Ceramics that do not generate heat even when irradiated with microwaves (e.g., heat-resistant cordierite, mullite, lithium ceramic, silicon nitride, etc.) or metals (e.g.,
Ferrite, SIC. Barium titanate? The microwave absorbing heat generating material powder is coated with a binder such as ceramic, water glass, or resin, and the coating layer is coated with γ-A1203.
A configuration may also be adopted in which platinum as an oxidation catalyst is supported on the γ-AI203 layer. In this case, the coating layer containing the microwave absorbing heat generating material may be coated with an oxidation catalyst paint containing a binder that forms a porous layer, and then baked and sintered.

The oxidation catalyst in the deodorizer is not limited to platinum (pt), but may also be palladium (Pd), gold (Au), manganese oxide (MnO), titania silicate, belobus hydrite, or the like.

FIG. 3 is a schematic diagram of a microwave oven according to another embodiment of the present invention. In this embodiment, a waveguide branch pipe 22 is branched from the waveguide 22 through which microwaves flow, on the upstream side in the gas flow direction of the circulation duct 25 from the exhaust duct 28 communication position.
a is communicating. A deodorizing body 10 is disposed in a portion of the circulation duct 25 that is opposed to the waveguide branch pipe 22a. A lid 35 with punched holes for preventing microwaves from flowing into the circulation duct 25 is disposed at the gas inlet 2Sa of the circulation duct 25. The other configurations are similar to the embodiment shown in FIG. In this embodiment, the microwave oscillated from the magnetron 23 and guided in the waveguide 22 is transmitted to the waveguide branch 22a.
The deodorizing body 10 is directly irradiated by the
The microwave absorbing exothermic material at 0 generates heat and the oxidation catalyst is quickly heated to the optimum temperature. The microwave inside the waveguide 22 is irradiated into the oven chamber 21 .

Similar to the embodiment described above, the gas in the oven chamber 21 is purified by removing impurities such as odors by the deodorizing body 1O while flowing through the circulation duct 25.

In each of the above embodiments, after the food to be cooked in the oven compartment 21 is heated, there is a function for forcibly circulating the gas in the oven compartment 21 into the circulation duct 25, and a cleaning switch that operates this function. By turning on the cleaning switch,
The function may operate for about 5 to 10 minutes to forcibly remove the odor of the gas inside the oven chamber 21 and clean the gas. Further, a shutter member capable of preventing gas from flowing into the exhaust duct 28 is provided in a communicating area between the circulation duct 25 and the exhaust duct 28 so as to be openable and closable, and an odor and smoke sensor is installed in the circulation duct 25. It may be arranged such that when the odor and smoke sensor detects no odor or smoke, the shutter member is opened to allow gas to flow into the exhaust duct 28.

(Effects of the Invention) As described above, in the deodorizing body of the present invention, since the oxidation catalyst is supported on the base having the microwave absorbing heat generating material, when it is used in a microwave heating device, the temperature of the oxidation catalyst is rapidly raised. It is possible to remove gaseous odors etc. with high efficiency. Further, in the microwave heating device of the present invention, since the deodorizing body is disposed at a position where microwaves are irradiated, the microwave irradiated when heating the food to be cooked causes the microwave of the deodorizing body to The heat absorption material is heated up, and the oxidation catalyst can efficiently purify the gas inside the oven. As a result, the microwave heating device of the present invention does not require a special device for heating the deodorizing body, and can have a simple configuration.

Figure 1 is a schematic configuration diagram of a microwave oven which is an example of the microwave heating device of the present invention, Figure 2 is an enlarged view of the mounting part of the deodorizing body of the present invention in the microwave oven, and Figure 3 FIG. 2 is a schematic configuration diagram of a microwave oven according to another embodiment of the present invention.

lO...Deodorizing body, 2! ...Oven storage, 22...
Waveguide, 23... Magnetron, 24... Heater, 25... Circulation duct, 28... Exhaust duct.

that's all

Claims (1)

[Scope of Claims] 1. A deodorizing body for a microwave heating device, in which an oxidation catalyst is supported or mixed on an air-permeable base having a microwave-absorbing heat-generating material that generates heat by absorbing microwaves. 2. A microwave heating device in which the deodorizing body according to claim 1 is disposed at a position to be irradiated with microwaves.