KR20030056982A - A method for thawing control of microwave oven - Google Patents

Abstract

PURPOSE: A method is provided to achieve improved user satisfaction by thawing foodstuffs in an effective and uniform manner. CONSTITUTION: A method comprises the first step of performing a heating operation at a high power for a predetermined time period; the second step of performing a heating operation at a power relatively lower than the power of the first step until the temperature variation sensed by two infrared sensors(20,30) reaches a predetermined value; the third step of controlling a turning operation if the temperature variation occurs in a predetermined time in the second step; and the fourth step of controlling a turning operation after elapse of a predetermined time if the temperature variation does not occur in a predetermined time in the second step.

Description

A method for thawing control of microwave oven

The present invention relates to a microwave oven, and more particularly, to a thawing control method for a microwave oven for thawing a load provided in a cooking chamber.

Looking at the thawing control method of the microwave oven according to the prior art as follows.

1 is a state diagram for sensing the temperature of the load according to the thawing of the microwave oven according to the prior art.

As shown in the figure, when a frozen load is put in a cavity and a thawing control signal is input, thawing proceeds according to the signal. At this time, by detecting the temperature of the refrigeration load provided in the cavity, it performs the thawing control.

An infrared sensor is attached to the outside of the cavity to detect the temperature of the freezing load. The infrared sensor detects the temperature of the freezing load to be thawed, and the controller (not shown) determines whether to stop thawing according to the detected result.

Figure 2a is a graph showing the temperature change of the steady state at the time of thawing in the microwave oven according to the prior art, Figure 2b is a graph showing the temperature change of the non-phase state at the time of thawing in the microwave oven according to the prior art.

When the heating pattern of the microwave oven is heated uniformly when the upper and lower surfaces, the heat is evenly transferred to the surface, and as shown in the drawing, the thawing process proceeds in the form of a normal graph.

That is, the heat reaching the upper surface of the freezing load and the heat reaching the lower surface of the freezing load are different and thus have a normal thawing temperature control state in which the temperature of the load is increased with a constant temperature difference as shown in the drawing.

However, as shown in FIG. 2B, when the heating pattern of the microwave oven is not uniform, for example, when stronger heat is output to the bottom surface, the bottom surface ripens before the top surface. At this time, the infrared sensor for detecting the temperature of the refrigeration load is provided on the upper side, it does not detect the temperature of the lower side of the refrigeration load. Therefore, by detecting only the temperature of the upper side, if the upper side is not thawed, the thawing is continued. As a result, the lower side of the refrigeration load cannot confirm the temperature, so that even if the thawing is completed, the thawing is continued. The ripening occurs.

Thus, the thawing control method of the microwave oven according to the prior art has the following problems.

If only one sensor is used, the surface temperature of only one side is read, so the thawing continues without the heating state of the bottom. At this time, when the heating pattern is not uniform, the lower side of the freezing load becomes more ripe than the upper side, so that uniform thawing cannot be performed.

Accordingly, an object of the present invention is to provide a thawing control method of a microwave oven which controls the thawing of the refrigeration load provided in the microwave effectively.

Figure 1 is a perspective view of the position of the infrared sensor provided to detect the temperature of the load according to the thawing of the microwave oven according to the prior art.

Figure 2a is a graph showing the temperature of a steady state for thawing a uniform load in the microwave oven according to the prior art.

Figure 2b is a graph showing the temperature at which the non-uniform load of the microwave oven according to the prior art is thawed.

Figure 3 is a position perspective view of the infrared sensor provided to detect the temperature of the load according to the thawing of the microwave oven according to the present invention.

4 is a control block diagram for thawing control of a microwave oven according to the present invention;

Figure 5 is a graph showing the temperature to control so that the load provided in the microwave oven according to the invention uniformly thawed.

Explanation of symbols on the main parts of the drawings

S: Load T: Tray

10: signal input unit 20: infrared sensor 1

30: infrared sensor 240: control unit

50: power supply 60: heater relay

In the microwave thawing control method according to the present invention for achieving the above object, in the microwave oven having two infrared sensors, the first step of proceeding with a high power for a predetermined time, and the two infrared sensors A second step of heating at a relatively lower power than the first step until the temperature deviation sensed by the predetermined value becomes a predetermined value, and a third to control flipping when the temperature deviation occurs in the second step within a predetermined time. And a fourth step of controlling flipping after a predetermined time, if a temperature deviation does not occur in the second step within a predetermined time.

Hereinafter, the thawing control method of the microwave oven according to the present invention will be described.

3 is an exemplary view for sensing the temperature of the load according to the thawing of the microwave oven according to the present invention.

As shown in the figure, a freezing load S is provided inside the cavity, and as the freezing load S is thawed, infrared sensors 1, 2 (20, 20) for sensing the surface temperature of the freezing load S are provided. 30). At this time, the infrared sensor 1 (20) is attached to the upper outside the cavity, the infrared sensor 2 (30) is attached to the outer end of the cavity.

When a freezing load is put in the cavity and a signal for thawing is input, the thawing algorithm is driven accordingly. When driven to thaw the freezing load S by the thawing algorithm, each infrared sensor 20, 30 detects the surface temperature of the freezing load S at the same time. That is, the infrared sensor 1 20 detects the surface temperature of the upper surface of the freezing load S, and the infrared sensor 2 30 detects the surface temperature of the lower surface of the freezing load S.

4 is a control block diagram for thawing control of the microwave oven according to the present invention.

First, a power supply unit 50 for supplying power to a microwave oven, a signal input unit 10 for inputting a thawing control signal, and a heater relay 60 for transmitting power to drive a heater that generates heat according to the input signal. ), And the infrared rays sensor 1, 2 (20, 30) for detecting the surface temperature of the refrigeration load provided in the cavity, and the heater relay 60 according to the temperature detected by the infrared sensors 1, 2 (20, 30). It is configured to include a control unit 40 for controlling the operation.

Looking at the thawing control method of the microwave oven according to the present invention with reference to the control configuration as described above in detail as follows.

5 is a graph showing a temperature for controlling the load provided in the microwave oven according to the present invention to thaw uniformly.

As shown in FIGS. 3 and 4, when the freezing load S is provided inside the cavity of the microwave oven and the thawing driving signal is input through the signal input unit 10, it is transmitted to the control unit 40. 40 controls the heater relay 60 to be driven according to the thawing drive signal. As a result, the heater is driven to start thawing control. In the process of thawing control as described above, as shown in FIG. 3, the infrared sensor 1 20 and the infrared sensor 2 30 provided on the outer surface of the cavity perform surface temperature detection of the freezing load S.

Therefore, if the operation according to the thawing algorithm continues, the surface temperature of the freezing load (S) also increases accordingly. The infrared sensor 1 (20) and the infrared sensor 2 (30) continue to measure the surface temperature of the refrigeration load (S). At this time, the heating proceeds with a relatively high energy on the lower side of the freezing load (S) during the T1 time starting to thaw.

Therefore, the temperature of the heater supplied to the lower side of the refrigeration load (S) is strong, and as time passes, the temperature at which the upper side of the refrigeration load (S) is sensed through the infrared sensor 1 (20) and the infrared sensor 2 (30). Through), the temperature detected by the lower side of the freezing load (S) becomes equal. At this time, by lowering the heating energy supplied to the refrigeration load (S) in the T2 section proceeds for a predetermined time until the temperature difference detected between the infrared sensor 1, 2 (20, 30) as much as 'α' occurs.

That is, for example, if the heating energy generated in the t1 section is 100%, the heating energy generated in the t2 section is 30%, thereby lowering the heating energy supplied to the freezing load S. Because of this, if the temperature difference detected on the lower surface and the upper surface for a predetermined period of time t2 occurs by the predetermined 'α' in the control unit 40, the thawing is continued evenly without having to reverse the freezing load (S). Allow thawing to proceed. In this case, the predetermined time period and the temperature deviation are preset in the controller 40 to detect whether the temperature deviation 'α' is generated in the t2 section.

However, if the temperature difference 'α' between the upper side and the lower side of the freezing load S set in the control unit 40 does not occur even after a predetermined time has elapsed in the t2 section, that is, a point where the predetermined time 'β' has elapsed, A beep is generated at the point of "a constant time + β", so that the user reverses the freezing load S. The role of the buzzer sound is to output a signal for the user to turn over to improve the thawing algorithm by minimizing the heating deviation of the thawing load.

As described above, the present invention detects the temperature of the refrigeration load by the infrared sensors 1 and 2 provided on the outside of the cavity of the microwave oven, and proceeds until a predetermined temperature deviation occurs, and a predetermined temperature deviation does not occur after a certain time. If not, it is a basic technical idea to transmit a beep sound to the user to reverse the freezing load.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and various changes and modifications can be made by those skilled in the art within the scope of the claims. It is self-evident.

Therefore, the present invention can effectively thaw the frozen load evenly, so that the user using the product according to the present invention can maximize satisfaction with the product.

Claims (1)

In a microwave oven with two infrared sensors, A first step of heating at a high power for a predetermined time; A second step of heating at a relatively lower power than the first step until the temperature deviation sensed by the two infrared sensors becomes a predetermined value; A third step of controlling flipping when a temperature deviation occurs in the second step within a predetermined time; If the temperature deviation does not occur in the second step within a predetermined time, the thawing control method of the microwave oven comprising a fourth step of controlling the flipping after a predetermined time.