KR20020089968A - A microwave oven with a toaster - Google Patents

Abstract

PURPOSE: A more convenient cooking device is provided by installing a toaster in an electronic range. CONSTITUTION: A magnetron(9a) generates a microwave for cooking. A power relay(35) connects the magnetron to a power supply. A toaster heater(25) supplies heat to bake bread. A toaster heater relay(34) connects the toaster heater to a power supply. A cooling fan motor cools the heat of the magnetron and the toaster heater. A fan motor relay(33) connects the fan motor to a power supply.

Description

A microwave oven with a toaster

The present invention relates to a microwave oven, and more particularly to a toaster combined microwave oven having a toaster in the microwave oven.

In general, a microwave oven is a device for cooking food by intermolecular frictional heat generated by disturbing the molecular arrangement of food by using a high frequency as a heating source.

With reference to the accompanying drawings, a conventional microwave oven using the principle described above will be described in detail.

1 shows the structure of a conventional microwave oven.

First, referring to the external configuration of the microwave oven, the microwave oven includes a main body 1, a base plate 2 on which the main body rests, and a U-bending outcase 3 covering the upper and side surfaces of the main body 1. do. In addition, the front surface of the main body 1 is composed of a door (4) for putting food in and out and a control panel (5) having various switches for controlling the heating time of food. Therefore, the user can select a button of the control panel 5 provided in the microwave oven main body to prepare desired food.

When looking at the inside of the microwave oven configured as described above, one side of the main body 1 is provided with a cooking chamber 6 which is a cooking space for food, and on the other side, various components necessary for driving the microwave are collected. The electrical equipment room 7 is provided.

Looking at the electrical chamber (7) where the various components are gathered, first, such as the magnetron (9), which is a high frequency oscillation device, and the transformer (10) for transforming the home power to the high voltage required when the magnetron (9) oscillates Parts are installed.

In addition, a heater 8 that generates heat when the microwave oven is operated is installed at an outer upper portion of the cooking chamber 6 so that the heater heat is introduced into the inside through a porous part (not shown) formed on the upper surface of the cooking chamber 6.

In addition, the cooling fan 11 for cooling the high heat generated when the magnetron 9 is oscillated, and the waveguide 12 for guiding the microwaves generated in the magnetron 9 to the cooking chamber 6. And an air duct (not shown) for guiding the flow air generated by the rotational force of the cooling fan 11 to the cooking chamber 6.

Therefore, the microwave oven cooks food by heating food in the cooking chamber using the high frequency generated by the magnetron 9 as a heat source.

In the conventional microwave oven configured as described above, the food can be cooked by having various functions, but there is no function to easily use the toaster in the microwave.

That is, toast cooking is not possible at all in the single function microwave oven without the heater 8, and in the microwave oven with the heater 8 at the upper side as described above, the inconvenience of having to turn over for toast was accompanied.

In addition, many users are prepared to use a toaster in spite of many functions of the microwave oven, when the toast is cooked, it is not only added to the cost but also inconvenient to use.

Accordingly, an object of the present invention is to provide a cooking apparatus more convenient to a user by providing a toaster in one microwave oven.

1 is a block diagram showing the structure of a conventional microwave oven.

Figure 2 is a front view of the toaster combined microwave oven according to the present invention.

Figure 3 is a circuit diagram of a toaster combined microwave oven according to the present invention.

Figure 4 is a control flowchart of the cooling fan according to the microwave and toaster operation of the present invention.

<Description of Symbols for Major Parts of Drawings>

1,1a: main body 2: base plate

3: U bending out case 4,4a: door

5,5a: control panel 6: cooking chamber

7: Battlefield 8: Heater

9,9a: magnetron 10,10: transformer

11: cooling fan 12: waveguide

13, 14: Toaster Operation Key 15: Toaster

16: inlet 20: power supply

21: noise filter 22: oven lamp

23: turntable motor 24: fan motor

25: toaster heater 26: monitor switch

27: high voltage capacitor 28: high voltage diode

29: microcomputer controller 30: secondary safety switch

31: power transformer 32: main relay

33: fan motor relay 34: toaster heater relay

35: power relay 36: primary switch

Microwave oven toaster according to the present invention to achieve the above object, the magnetron for generating microwave waves for microwave cooking; A power relay connecting the magnetron and a power source; A toaster heater that supplies heat for baking bread; A toaster heater relay connecting power to the toaster heater; A cooling fan motor for cooling the heat of the magnetron and the toaster heater; It comprises a fan motor relay for connecting the power and the fan motor for the cooling fan motor operation.

With reference to the accompanying drawings looks at in detail with the toaster combined microwave oven according to the present invention.

Figure 2 is a front view of the microwave oven toaster according to the present invention.

Microwave oven of the present invention is configured by integrating the main body (1a), the door 4a for the user to put food in and out of the microwave, and the toaster 15 installed in one side of the free space.

At the top of one side of the microwave oven 1a, a control panel 5a capable of operating the microwave oven and the toaster 15 together or independently is provided, and the control panel 5a independently controls the toaster 15. It includes a toaster operating key 13, 14 which can be activated.

A toaster 15 is installed below the control panel 5a, and the toaster 15 includes a bread inlet 16 through which one or more breads can be put.

Next, Figure 3 is a circuit diagram for the operation control of the microwave oven toaster of the present invention.

Looking at the configuration of the circuit according to the invention, the power supply unit 20 receives a voltage from the outside, the noise filter 21 to remove the noise of the applied power supply, and the toaster heater 25 for generating heat to bake bread ) Is connected to the power supply unit 20.

A toaster heater relay 34 is connected between the power supply unit 20 and the toaster heater 25. The toaster heater relay 34 is located in the microcontroller 29 and the power of the power supply unit 20 is input or cut off to the toaster heater 25 according to the operation of the toaster heater relay 34.

The output terminal of the noise filter 21 is connected to the high voltage transformer 10a, and the noise filter 21 and the high voltage transformer 10a are the power relay 35 and the primary switch 38 in the microcontroller 29. Is connected by.

One side of the high voltage transformer 10a is connected to the magnetron 9a, which is a high frequency transmission device, and the high voltage capacitor 27 and the high voltage diode 28 are connected to the other side.

The high voltage transformer 10a is a device for transforming a home power source applied at a low voltage into a high voltage required when oscillating the magnetron 9a.

In addition, one side of the toaster heater relay 34 is connected to the fan motor 24 that cools the toaster 15 when the toaster heater 25 generates heat. The fan motor 24 is connected to the fan motor relay 33 in the microcontroller 29 through port 7 of the microcontroller 29. The fan motor relay 33 is connected to the power transformer 31 and the main relay 32 together in the microcontroller 29.

The fan motor relay 33, the power transformer 31, and the main relay 32 are connected to the monitor switch 26 attached to the high voltage transformer 10 through port 3 of the microcontroller 29.

That is, as mentioned above, the microcontroller 29 includes four relays of the main relay 32, the fan motor relay 33, the toaster heater relay 34, and the power relay 35 and one power transformer. (31) is provided.

In addition, the secondary safety switch 30 is provided on one side of the microcontroller 29. The secondary safety switch 30 is a switch for detecting the opening and closing of the door 4a of the microwave oven.

The secondary safety switch 30 is connected to ports 1 and 3 of the microcontroller 29 so as not to apply a voltage from the power transformer 31 to the main relay 32 when the door 4 of the microwave oven is opened. It is a switch to prevent the control. That is, when the door 4 of the microwave oven is opened, the microwave oven is not operated by the secondary switch 30.

The power transformer 31 is connected to the oven lamp 22 through port 1 of the microcontroller 29, and applies a voltage so that the oven lamp 22 is turned on when the door of the microwave oven is opened. . One side of the oven lamp 22 is connected to the turntable motor 23, and again the turntable motor 23 is connected to one side of the primary switch 38. The primary switch 33 connects the noise filter 21 and the high voltage transformer 10a and also applies a voltage from the power supply unit 20 to the oven lamp 22 and the turntable motor 23.

The other side of the oven lamp 22 meets the main relay 32 through port 5 of the microcontroller 29.

The fan motor relay 33 is connected to a fan motor 24 for cooling heat generated in a microwave oven and a toaster through port 7 of the microcontroller 29.

Therefore, the operation of the microwave oven and all the operations of the toaster are controlled by the four relays 32, 33, 34, 35 and one power transformer 31 in the microcontroller 29.

Next, the operation of the circuit having the above configuration will be described in detail with respect to the opening and closing of the door of the microwave oven.

First, the operation in the state in which the door 4a of the microwave oven is closed, the first four relays in the microcontroller 29, that is, the main relay 32, fan motor relay 33, toaster heater relay 34, power Both relays 35 remain open.

In this state, the user puts food in order to operate the microwave oven and closes the door 4a of the microwave oven. Then, the secondary safety switch 30 of the microcontroller 29 is closed at the same time as the door 4a is closed.

When the user presses the microwave operation key while the secondary safety switch 30 is closed and all the relays are open, the main relay 32, the fan motor relay 33, and the power relay 35 required for the microwave operation are turned on ( ON). Therefore, the high voltage transformer 10a is operated by the main relay 32 and the power relay 35, and the magnetron 9a is operated accordingly. The fan motor relay 33 is turned on to operate the fan motor 24 together.

That is, the fan motor relay 33 operates the fan motor 24 to cool the high heat generated by the magnetron 9a.

If the user operates only the toaster 15, only the fan motor relay 33 and the toaster heater relay 34 are turned on. Therefore, the toaster heater 25 that applies the heat required to operate the toaster and the cooling fan motor 24 that cools the heated heater are operated.

On the other hand, the present invention is designed to be able to use a microwave oven and a toaster at the same time, when the user operates both the microwave oven and the toaster all the relay is turned on to perform each function.

Therefore, in the closed state of the door 4a of the microwave oven, not only a microwave oven but also a toaster can be used together or independently.

Secondly, when the door 4a of the microwave oven is opened, the secondary safety switch 30 is opened at the same time as the door 4a of the microwave oven is opened. As the secondary safety switch 30 is opened, the main relay 32 is turned on.

When the main relay 32 is turned on, the voltage of the power transformer 31 is input to the oven lamp 22 through the main relay 32.

Therefore, the oven lamp 22 indicating the open state of the door 4a of the microwave oven is turned on.

In the above state, even if the user selects the microwave operation key for the operation of the microwave oven, the main relay 32 for controlling the high voltage transformer 10a and the fan motor relay 33 for controlling the fan motor 24 are provided. Keep open. Therefore, in the open state of the door 4a of the microwave oven, the microwave oven is not operated by the secondary safety switch 30 even if the user selects the microwave operation key.

However, if the user selects the toaster 15 operation keys 13 and 14 while the microwave oven door 4a is open, the toaster heater relay 34 and the fan motor relay (regardless of the oven door 4a) are opened. 33) is closed. When the toaster heater relay 34 and the fan motor relay 33 are closed, the toaster heater 25 and the fan motor 24 required for toaster operation are operated.

Therefore, the present invention is configured such that the microwave oven and the toaster can be used independently in one microwave oven, and each can be used simultaneously.

4 is a control flowchart of a cooling fan according to the microwave and toaster operation of the present invention.

The flowchart is divided into a microwave mode and a toaster mode.

First, in the microwave mode, the user puts a load on the microwave oven, closes the door 4a, and selects a key of the microwave oven (step 100).

When the microwave oven key is turned on, the main relay 32, the power relay 35, and the fan motor relay 33 required to drive the microwave oven are turned on (step 110).

In step 110, while the main relay 32 and the power relay 35 are turned on, the power input from the power supply unit 20 is applied to the high voltage transformer 10a. The magnetron 9a is driven by the generated voltage of the high voltage transformer 10a.

In addition, the fan motor is driven by the on-operation of the fan motor relay 33 in step 110 to cool the electric chamber heated by the driving of the magnetron 9a.

In the state where the operation is in progress, the microcomputer (not shown) determines whether the set time for cooking the microwave has elapsed (step 120). That is, the cooking time for all loads is programmatically input into the microcomputer. Therefore, the time set in the microcomputer and the time set by the user are compared. If the set time has not elapsed, the main relay 32, the power relay 35 and the fan motor relay 33 continue to operate until the set time has elapsed.

However, if the set time has elapsed, the main relay 32 and the power relay 35 are turned off (step 130).

On the other hand, the fan motor 33 for cooling the heat generated in the magnetron 9 continues to operate even after the set time has elapsed in step 120.

After the main relay 32 and the power relay 35 are turned off according to the 130th step, the microcomputer operates the toaster heater relay 34 of the toaster mode to be described below to stop the fan motor 33. It is checked whether or not (step 140).

If the heater relay 34 is in an OFF state, the microcomputer determines whether a predetermined time (N seconds) has elapsed after the heater relay is OFF (step 150).

The 150th step is to determine whether the fan motor 24 is further operated for a predetermined time (N seconds) even after the heater is operated and the heater relay 34 is turned off. Therefore, if a predetermined time (N seconds) has elapsed after the heater relay 34 is turned off, the fan motor relay 33 is turned off (step 160).

When the fan motor relay 33 is turned off in step 160, the fan motor 24 stops and all operations of the microwave oven are terminated (step 170).

In operation 140, the microcomputer determines whether the toaster heater relay 34 in the toaster mode described below is in an ON state.

That is, since the user can use the microwave oven and the toaster at the same time, if the user is using the toaster even after the operation of the microwave oven, the fan motor relay 33 should be kept ON.

Therefore, if the heater relay in the toaster mode is ON in operation 140, the microcomputer determines whether the operation setting time of the heater relay 34 has elapsed (operation 220).

If the set time has not elapsed, the heater relay 34 and the fan motor relay 33 continue to operate.

However, if it is determined in step 220 that the set time has ended, the heater relay 34 is turned off. As the heater relay 34 is turned off, the toaster heater is stopped (operation 230).

After operation 230, the microcomputer determines whether a predetermined time (N seconds) has elapsed after the heater relay 34 is turned off (operation 150).

The 150th step is to remove the latent heat remaining in the toaster heater by additionally operating the fan motor for a predetermined time after the heater relay 34 is turned off.

Therefore, when the predetermined time (N seconds) elapses, the fan motor relay 33 is turned off. As the fan motor relay 33 is turned off, the operation of the fan motor is stopped (step 240).

When the fan motor relay 33 is turned off and the fan motor is stopped, all operations of the microwave oven and the toaster are completed (step 250).

Next, the toaster mode according to the present invention will be described.

First, the user inserts bread into the toaster bread inlet 16 to bake bread, closes the door, and selects the toaster keys 13 and 14 (step 200).

When the toaster keys 13 and 14 are turned on, the heater relay 34 and the fan motor relay 33 are closed at step 210. That is, the toaster heater 25 and the fan motor 24 are operated by the toaster heater relay 34 and the fan motor relay 33 to bake bread.

Therefore, since the toaster heater relay 34 is in an ON state in the toaster mode, the toaster heater relay 34 is inspected by the microcomputer in the microwave mode 140.

That is, the microcomputer determines whether the heater relay 34 in the toaster mode is ON (step 140). If the heater relay 34 is in the ON state in the toast mode, it is determined whether the toaster heater setting time has elapsed again (step 220).

If the set time has elapsed in the toaster mode, the heater relay 34 is turned off after the set time ends, and only the fan motor 24 continues to operate (step 230).

However, if the set time has not elapsed, the heater relay 34 and the fan motor relay 33 in the toaster mode continue to operate.

After the heater relay 34 is turned off in step 230, the microcomputer determines whether a predetermined time (N seconds) has elapsed after the heater relay 34 is turned off (step 150). .

That is, even if the toaster heater 35 ends the set time, the cooling fan motor 24 is further operated for a predetermined time (N seconds) to cool the heat of the toaster heater 25.

After the fan motor is further operated for the predetermined time (N seconds), the fan motor relay 33 is turned OFF (step 240).

Therefore, after all of the heater relay 34 and the fan motor relay 33 stop, all operations of the toaster are terminated (step 250).

Therefore, the flowchart is configured to additionally cool the heat of the microwave as well as the high temperature heat generated in the toaster by N seconds after the heater relay 34 is turned off by using the fan motor 24 of the microwave oven. .

As described above, the present invention relates to a microwave oven using a toaster, so that the microwave oven and the toaster can be used independently in one microwave oven, and each of them can be used simultaneously, thereby allowing users to use separate toasters. This can reduce the cost of the arrangement.

In addition, the high temperature heat generated when the toaster is used can be efficiently cooled by using the cooling fan of the microwave oven, which has the effect of reducing the reliability and cost of the product.

Claims (3)

A magnetron generating microwave waves for microwave cooking; A power relay connecting the magnetron and a power source; A toaster heater that supplies heat for baking bread; A toaster heater relay connecting power to the toaster heater; A cooling fan motor for cooling the heat of the magnetron and the toaster heater; Toaster microwave oven including a fan motor relay for connecting the power and fan motor for the cooling fan motor operation. The method of claim 1, And a microcontroller configured to control the relays to operate the microwave oven and the toaster heater independently and simultaneously. The method according to claim 1 or 2, The cooling fan motor is a toaster combined microwave oven, characterized in that for cooling the high temperature latent heat generated in the toaster after the toaster operation for a predetermined time after the end of the toaster.