KR20050043434A - Guide for convection oven - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a convection oven, and more particularly to a speedy cooking and even cooking by allowing hot air from the discharge port to be circulated evenly in a cavity, which is a cooking space. The flow path guide shape, the flow path guide of the convection oven according to the present invention, a fan, a heater surrounding the fan, a flow path guide for guiding the flow of air flow by the fan, a motor for applying power to the fan A convection oven in which a chamber composed of a chamber and an outlet corresponding to the passage guide are formed in a cavity, the passage guide comprising: a first guide plate attached to a bottom surface of the chamber; The second guide plate is installed to face the first guide plate spaced apart at a predetermined interval.

In addition, in the passage guide of the convection oven according to the present invention, the second guide plate is characterized in that the vertical width is smaller than the first guide plate.

The flow guide of the convection oven according to the present invention increases the flow rate of the air discharged into the cavity from each discharge port by about 25% compared to the existing flow guide, so that the temperature at the center of the cavity 10 minutes after the operation is increased, Compared to the conventional flow path guide has an effect of about 13 ° C higher.

In addition, according to another aspect of the present invention, the flow rate of air discharged into the cavity at each discharge port is increased by about 25% compared to the existing flow path guide, so that the time for the temperature at the center of the cavity to reach 200 ° C As compared with the conventional flow path guide, the cooking time is shortened by about 1 minute and 10 seconds.

Further, according to another aspect of the present invention, the temperature deviation near the center of the cavity in which the food is placed is lowered by 10 ° or more as compared to the convection oven according to the prior art, thereby enabling the even cooking.

Description

Euro guide for convection ovens {Guide for convection oven}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a convection oven, and more particularly, to a speed cooking and even cooking by allowing hot air from the discharge port to circulate rapidly evenly in a cavity, which is a cooking space. As the flow guide shape is increased, compared to the existing flow guide, the air flow rate discharged into the cavity at each discharge port is significantly increased, so that the temperature at the center of the cavity after a certain period of time after operation is considerably increased compared to the conventional flow guide. Not only is it high, but the flow rate of hot air discharged into the cavity at each discharge port is significantly increased compared to the existing flow path guide, so that the temperature variation near the center of the cavity in which the food is placed is changed according to conventional techniques. Even cooking because it is lower than 10˚ compared to the oven And the time at which the temperature at the center of the cavity reaches 200 ° C. is faster than the conventional flow path guide, and thus the flow path shape of the convection oven allows the cooking time to be significantly shortened.

1 is a view showing the combination of the interior of the chamber and the cavity (cavity) in the convection oven according to the prior art, Figure 2 is a detailed view showing the main configuration inside the chamber in Figure 1, Figure 3 In the convection oven according to the present invention, there is shown a side wall of the chamber-side direction as viewed from the cavity side.

Referring to these drawings, a convection oven generally refers to an oven having a mechanism that forces forced convection of heat generated by a heater in a process of cooking food and the like, and is a conventional heat transfer method. Compared to natural convection ovens or standard ovens, the ingredients are cooked much more evenly and quickly.

That is, the convection oven (convection oven) is generally composed of a cavity (1) which is a space for cooking the ingredients to be cooked and a chamber (2) for supplying heat for cooking the ingredients into the cavity (1), In particular, the chamber 2 is forced by the heater 3 for generating heat for cooking food, the fan 4 for forcibly circulating the heat generated in the heater 3, and the fan 4. And a discharge port 5 for discharging the circulated air into the cavity 1, and at the center of the fan 4, the air inside the cavity 1 is formed by the fan 4 in the chamber 2. A suction port 6 for suctioning toward the side, and a plurality of flow path guides in the vicinity of the discharge port 5 to facilitate circulation of the hot air sucked by the fan 4 and discharged to the discharge port 5. (7) will be installed.

In more detail, the convection oven is a food material is cooked by the circulation of the heat generated from the heater 3, the heater 3 has a shape bent several times in a circle, the heater ( When current flows in 3), the current is also supplied to the fan 4 installed in the bent interior of the heater 3 so that the fan 4 rotates, whereby the heat generated from the heater 3 It is forced to be circulated by the fan 4.

In addition, the plurality of flow path guides 7 according to the related art are made of a single plate to induce circulation of air by the fan 4 as described above, which smoothly flows high-temperature air to each discharge port. It serves to distribute, and is bent at approximately right angles and installed in the chamber, and hot air circulated by the fan 4 is guided by the flow path guide 7 to the discharge port 5. It will be discharged.

The hot air guided by the flow path guide (7) is the cavity (1) through the discharge port (5) consisting of a hole in the side of the cavity in the chamber (2) in which the fan (4), the heater (3) is installed It is discharged to the inside of the. In general, the discharge port is formed of a plurality of holes (holes) at approximately each corner of the side wall.

In addition, a suction port 6 communicating with the cavity 1 is provided at the center of the fan 4 so that the air forcibly sucked from the cavity 1 is sucked into the chamber 2 so that the heater Heated by (3) and discharged into the cavity (1) again via the discharge port (5) to be circulated.

4 is a graph illustrating a temperature change in a cavity as the temperature at the center of the cavity reaches 200 ° C. in the convection oven according to the related art.

Referring to Fig. 4, in the convection oven according to the prior art, the maximum temperature inside the cavity 1 during normal cooking is 254 ° C, the minimum temperature is 220 ° C, and the temperature difference is approximately 34 °. C.

In the convection oven according to the related art, it takes about 7 minutes for the temperature of the cavity center point to reach 200 ° C after operation, and the temperature of the center of the cavity after 10 minutes is 230 ° C. To this.

As described above, in the convection oven according to the related art, the hot air discharged from the discharge port 5 and introduced into the cavity 1 is not evenly circulated into the cavity 1 which is a cooking space. Because of the large temperature difference, there is a problem in that uniform cooking is difficult due to a deviation, and since the time to reach a set temperature is long, speed cooking is impossible.

The present invention was created in view of the above problems, and in particular, a convection to enable speed cooking and even cooking by allowing the hot air from the discharge port to circulate rapidly evenly in the cavity, the cooking space. It relates to the shape of the flow path guide of the oven. Compared to the existing flow path guide, the flow rate of the air discharged into the cavity from each discharge port is significantly increased. Compared to the existing flow guide, the flow rate of the air discharged into the cavity is significantly increased compared to the existing flow guide, so that the temperature variation near the center of the cavity is small and uniform cooking is possible. The time when temperature reaches 200˚C is conventional It is an object of the present invention to provide a flow guide shape of the convection oven that is faster than the flow path guide of the cooking time is significantly shortened.

The flow path guide of the convection oven according to the present invention is a flow path guide of a plurality of convection ovens which are attached to correspond to the discharge port of the side wall surface of the cavity in the chamber, wherein the flow path guide is attached to the bottom surface of the chamber. 1 guide plate; The second guide plate is installed to face the first guide plate spaced apart at a predetermined interval.

In addition, in the passage guide of the convection oven according to the present invention, the second guide plate is characterized in that the vertical width is smaller than the first guide plate.

That is, the flow guide of the convection oven according to the present invention is characterized in that a plurality of guide plates are combined, unlike the conventional flow guide, in particular, the first guide plate and the first guide plate attached to the chamber bottom surface and Characterized in that the second guide plate is installed facing each other.

Hereinafter, a preferred embodiment of a flow guide of a convection oven according to the present invention will be described with reference to the accompanying drawings.

5 is a detailed view showing the main configuration and the flow path guide inside the chamber in the convection oven according to the present invention, Figure 6 is a convection oven according to the present invention, the temperature of the center of the cavity reaches 200 ° C. It is a graph showing the temperature change according to the

Looking at the operation according to cooking in the convection oven of the flow path guide structure according to the present invention with reference to these drawings, the flow path guide 8 according to the present invention is respectively installed in the vicinity of the discharge port, the first guide plate (9) ) And the second guide plate 10, and the guide plates 9 and 10 are connected to each other by the guide plate connecting portion 11, which is formed by bending a single plate. , The hot air forcedly circulated by the fan 4 hits the second guide plate 10 first, and then hits the first guide plate 9 again.

That is, the hot air forcedly circulated by the fan 4 first strikes the second guide plate 10 to form a vortex. The hot air thus vortexed is a flow path according to the prior art. The first guide plate 9 hits the first guide plate 9 in an increased state than the pressure in the guide, and hot air of the increased pressure is discharged to the discharge port 5.

Therefore, as the amount of hot air discharged is increased, the hot material is transferred to the food material in the cavity 1 more quickly and faster, and thus, more hot air is introduced into the cavity 1 and more. By being delivered faster and farther, the air after warming the food is also sucked farther and faster into the inlet 6 above.

In addition, the experiment on various types of flow path guides shows that the second guide plate 10 has a smaller vertical width h than the vertical width H of the first guide plate 9. The ratio of the vertical width h of the second guide plate 10 is preferably in the range of 1/3 to 2/3 of the vertical width H of the first guide plate.

In addition, the width w of the second guide plate 10 is in a range of 1/2 to 3/2 of the width W of the first guide 9 plate, and the second guide plate 10 is provided. ) Is preferably in the range of 1/3 to 2/3 of the separation distance L from the side wall facing the first guide plate.

In the convection oven according to the present invention, the maximum temperature inside the cavity 1 during normal cooking is 265 ° C, the minimum temperature is 235 ° C, and the temperature difference is approximately 30 ° C.

In addition, in the convection oven according to the present invention, it takes about 5 minutes and 50 seconds for the temperature inside the cavity to reach 200 ° C after the operation, and the temperature of the center of the cavity after 10 minutes is 245 ° C. It can be seen that.

That is, in the convection oven provided with the flow guide according to the present invention, the hot air discharged from the discharge port and discharged into the cavity is circulated evenly in the cavity, which is the cooking space, whereby the variation in temperature is relatively reduced and set. It takes less time to reach temperature, which makes speed cooking possible.

FIG. 7 is a detailed view of still another embodiment of the flow guide in FIG. 5. FIG.

This is characterized in that the first guide plate 9 is a shape that is coupled to the second guide plate 10 at a predetermined angle, so that there is no separate guide plate connecting portion (11).

Therefore, the flow path guide according to the present invention has a structure composed of a plurality of guide plates, thereby increasing the pressure of the hot air discharged into the cavity and thereby the flow rate of the hot air discharged into the cavity by the increased air pressure. By increasing the pressure, not only the temperature variation inside the cavity can be reduced, but also the speed cutting can be performed.

The flow guide of the convection oven according to the present invention increases the flow rate of the air discharged into the cavity from each discharge port by about 25% compared to the existing flow guide, so that the temperature at the center of the cavity 10 minutes after the operation is increased, Compared to the conventional flow path guide has an effect of about 13 ° C higher.

In addition, according to another aspect of the present invention, the flow rate of air discharged into the cavity at each discharge port is increased by about 25% compared to the existing flow path guide, so that the time for the temperature at the center of the cavity to reach 200 ° C As compared with the conventional flow path guide, the cooking time is shortened by about 1 minute and 10 seconds.

Further, according to another aspect of the present invention, the temperature deviation near the center of the cavity in which the food is placed is lowered by 10 ° or more as compared to the convection oven according to the prior art, thereby enabling the even cooking.

1 is a view showing the combination of the inside of the chamber and the cavity in the convection oven according to the prior art.

FIG. 2 is a detailed view of the main structure inside the chamber in FIG. 1; FIG.

3 is a view showing a side wall of the chamber side viewed from the cavity side in the convection oven according to the related art.

4 is a graph showing a temperature change as the temperature of the center of the cavity reaches 200 ° C. in the convection oven according to the related art.

Figure 5 is a detailed view showing the main configuration and the passage guide in the chamber in the convection oven according to the present invention.

6 is a graph showing the temperature change as the temperature of the cavity center reaches 200 ° C in the convection oven according to the present invention.

FIG. 7 is a detailed view of still another embodiment of the flow path guide in FIG. 5. FIG.

<Description of the symbols for the main parts of the drawings>

1: cavity 2: chamber 3: heater

4 fan 5 discharge port 6 suction port

7: Euro guide 8: Euro guide 9: First guide plate

10: second guide plate 11: guide plate connection portion

Claims (6)

In the passage guide of a plurality of convection ovens corresponding to the discharge port of the side wall side of the cavity in the chamber, The flow path guide includes a first guide plate attached to the bottom surface of the chamber; The flow guide of the convection oven, characterized in that consisting of a second guide plate facing the first guide plate. The method of claim 1, The second guide plate has a smaller vertical width than the first guide plate, the flow guide of the convection oven. The method of claim 2, The vertical width of the second guide plate is in the range of 1/3 to 2/3 of the vertical width of the first guide plate, the flow path guide of the convection oven. The method of claim 1, The width of the second guide plate is in the range of 1/2 to 3/2 of the width of the first guide plate, the flow path guide of the convection oven. The method of claim 1, The second guide plate, the flow guide of the convection oven, characterized in that the range of 1/3 to 2/3 of the separation distance from the side wall facing the first guide plate. The method of claim 1, The first guide plate and the second guide plate at a constant angle, the flow guide of the convection oven, characterized in that formed integrally.