KR100547694B1 - Fixing structure of microwave duct - Google Patents

Abstract

The present invention relates to a fixing structure of the upper duct of the microwave oven. The fixing structure of the upper duct according to the present invention is formed to be perforated so that the air heated in the air inlet 130a is formed to be perforated so that the air sucked through the inlet of the cavity wall surface is blown into the cavity. The upper duct 100 of the microwave oven, which includes an exhaust port 110a and an air curtain generating means for preventing the steam generated in the cooking process from moving to the door side, is located in front of the fixing protrusion 300 formed at the rear. It is characterized in that it is fixed to the upper cavity by the locking step 330 is formed. In this case, there is an advantage that the fixing of the upper duct 10 becomes easy.

Microwave oven, upper duct, fixing protrusion, locking jaw, handle hole

Description

Fixing structure of Upper duct for Microwave oven}

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

Figure 2 is a partial perspective view showing a state in which the upper duct according to the prior art is installed above the cavity.

Figure 3 is a partial perspective view showing a state in which the upper duct of the microwave oven according to the present invention installed above the cavity.

Figure 4 is a perspective view of the lower surface of the microwave oven duct according to the present invention.

Explanation of symbols on the main parts of the drawings

100: upper duct 110: main body

110a: exhaust port 130: inclined portion

130a: air vent 200: air guide

250: air guide 300: fixed protrusion

330: engaging jaw 350: handle hole

The present invention relates to a microwave oven, and more particularly to a fixing structure of the upper duct for controlling the air flow in the cavity.

2. Description of the Related Art In general, a microwave oven is a device for cooking food by generating microwave waves in a magnetron by supplying electric current, and irradiating the microwaves with heated objects such as food.

Such a microwave oven is classified into a household microwave oven having a small magnetron and a commercial microwave oven having a large or a plurality of magnetrons.

In addition, the microwave oven is classified according to the heating method of food, the home microwave oven is generally a glass tray method of rotating the food, commercial microwave oven is mainly used a stirrer pan method to scatter the microwave wave is scanned.

On the other hand, commercial microwave ovens are commonly used in convenience stores, which are frequently used, or in restaurants that require food to be cooked in a short time, and therefore, a relatively high output is required.

Hereinafter, the configuration of a commercial microwave oven as described above (hereinafter referred to as a microwave oven) will be described in detail with reference to the accompanying drawings. 1 is a perspective view showing the configuration of a typical commercial microwave oven, Figure 2 is a partial perspective view showing a state in which the upper duct according to the prior art is installed above the cavity.

First, referring to FIG. 1, a configuration of a general microwave oven is as follows.

The microwave oven is composed of an outer case forming an exterior, a cavity 20, and an electrical equipment room 30. And the door 40 is installed on the front of the cavity 20 is included.

The outer case forms the appearance of the microwave oven and at the same time serves to protect the cavity 20 installed therein. Therefore, the outer case is generally made of an iron plate having a predetermined strength.

The outer case is installed around the cavity 20. The upper plate (Upper Plate 11) that covers the upper and both sides of the cavity 20 at the same time, and the base plate (Base Plate 13), the ca It consists of a front plate (Front Plate 15) to form the front of the beater 20, and a back plate (Back Plate 17) to protect the back of the cavity (20).

The cavity 20 is a space in which food, such as food, is cooked, and is composed of a substantially rectangular box opened forward. That is, food is fed through the opened front, and cooked food is taken out.

Above the cavity 20, that is, on the outer top surface, a waveguide 21 for guiding the microwave wave generated by the magnetron to be described below into the cavity 20 is provided. One side of the waveguide 21 is provided with a synchronous motor M for driving a stirrer fan to be described below.

The waveguide 21 as described above is provided not only on the outer top surface of the cavity 20 but also on the outer bottom surface. Therefore, when the waveguides 21 are respectively provided on the upper and lower surfaces of the cavity 20, the microwave waves scanned into the cavity 20 are scanned upwards and downwards and downwards and upwards.

The electrical equipment room 30 is a space formed on the inner right side of the outer case, and a plurality of electrical equipment for driving the cavity 20 is installed.

In the electric chamber 30, a plurality of electric components such as a transformer 31, a magnetron 33, a blower fan 35, and a capacitor 37 are installed. In addition, a barrier 39 is provided inside the electric chamber 30, that is, between the transformer 31 and the blower fan 35. The transformer 31, the blower fan 35, the capacitor 37, and the barrier 39 are fixed to the upper surface of the subplate S. The subplate S is installed in a state spaced apart from the upper surface of the base plate 13 by a predetermined interval.

On the other hand, the above-mentioned plurality of electrical components, in particular, the transformer 31 and the magnetron 33 serve to generate microwave waves that are scanned into the cavity 20. In the process, the electrical components are subjected to high temperature heat. It will cause fever. Therefore, the temperature of the electrical equipment room 30 increases while cooking food.

In order to cool the electric chamber 30 heated as described above, the outside air must be sucked, which is performed by the blower fan 35.

Meanwhile, the inside of the cavity 20 will be described in more detail with reference to FIG. 2 as follows.

The upper duct 23 is provided above the cavity 20.

The upper duct 23 is formed of a substantially rectangular plate, and an exhaust port 23a is formed in the left end side thereof. In the front, a blower port 23b is formed through the upper duct 23.

The upper duct 23 is installed so that a predetermined interval is formed between the upper surface of the cavity 20. This allows a stirrer pan (not shown) to be installed between the upper surface of the cavity 20 and the upper duct 23, and suctioned through an air inlet (not shown) formed on the right wall of the cavity 20. The air to be blown to the front of the cavity 20 through the blower 23b.

Looking at the upper duct 23 as described above is installed on the upper surface of the cavity 20 as follows.

First, fastening holes (not shown) are formed at the rear and the front of the cavity upper surface.

A through hole 23c corresponding to the fastening hole of the cavity is provided at the front of the upper duct 23, and a through hole 23c ′ corresponding to the fastening hole of the cavity is formed at the rear side of the upper duct 23.

The upper duct 23 is brought into close contact with the upper surface of the cavity, and then the through holes 23c and 23c 'of the upper duct 23 communicate with the fastening hole of the cavity. Then, when the screw 25 is fastened to the through holes 23c and 23c ', the upper duct 23 is fixedly installed on the upper surface of the cavity 20. Of course, if the upper duct 23 is installed as described above, the stirrer fan installed therein is rotated by the synchronous motor, and scatters the microwave wave scanned into the cavity.

On the other hand, although not shown, a ceramic plate (Ceramic Plate) is installed below the inside of the cavity 20, such a ceramic plate forms the bottom surface of the substantially cavity (20).

However, the upper duct according to the prior art as described above has the following problems.

In order to fix the upper duct 23, the upper duct 23 should be in close contact with the upper surface of the cavity 20, and then the screw 25 should be fastened upward. Therefore, there is an inconvenience that the operator has to lean the head near the cavity 20 in order to fasten the screw (25). In particular, since the through holes 23c and 23c 'of the upper duct 23 are not exposed to the front, there is a problem in that the screw 25 cannot be easily fastened.

In addition, since the number of the through holes 23c and 23c 'of the upper duct 23 is fastened by fastening the number of screws 25, the assembling process is complicated and there is a problem in that the working time increases.

In addition, since a plurality of screws 25 must be provided, there is a problem that the manufacturing cost of the microwave oven increases.

After all, this problem leads to a problem of raising the unit price of the microwave oven.

Accordingly, an object of the present invention is to solve the problems in the prior art as described above, and to provide a structure for fixing the upper duct more easily.

The fixing structure of the upper duct of the present invention for achieving the above object, the air inlet is formed to be perforated so that the air sucked through the inlet port of the cavity wall into the cavity, the air heated inside the cavity In the upper duct of the microwave oven comprising an exhaust port formed to be punctured to be discharged to the outside, and air curtain generating means for preventing the steam generated during the cooking process to move to the door side; The upper duct is characterized in that it is fixed to the upper cavity by a locking projection formed in the rear of the upper duct and a locking jaw formed in the front.

The fixing protrusion fixes the rear end of the upper duct, and the locking jaw is preferably fixed to the front end of the upper duct, and the fixing protrusion and the locking jaw are more preferably formed integrally with the upper duct.

In addition, the fixing protrusion may be formed to protrude at least one or more behind the upper duct.

On the other hand, the front of the upper duct is preferably formed with a handle hole for easy fixing and removal of the upper duct.

Hereinafter, the fixing structure of the microwave oven upper duct as described above will be described in more detail with reference to the accompanying drawings.

Figure 3 is a partial perspective view showing a state in which the upper duct of the microwave oven according to the present invention is installed above the cavity, Figure 4 is a perspective view showing the bottom surface of the microwave oven duct according to the present invention.

First, the microwave oven consists of an outer case, a battlefield in which a plurality of electrical components are installed, and a cavity into which food to be cooked is put. An upper duct is installed above the cavity.

As shown in FIG. 3, the upper duct 100 is installed on the upper surface of the cavity 20. And although not shown, the air inlet is formed in the right wall surface of the cavity (0). Therefore, the air sucked through the air inlet of the cavity is guided by the upper duct 100 and blown into the cavity. In addition, the upper duct 100 serves to guide the air heated in the cavity to be discharged to the outside of the cavity. Meanwhile, air is blown as described above by a stirrer fan (not shown) which is installed between the upper surface of the cavity and the upper duct and rotates.

As shown in FIG. 4, the upper duct 100 includes a main body 110 and an inclined portion 130. In addition, an exhaust port 110a is formed in the main body, and the air inlet 130a and the handle hole 350 to be described below are formed in the inclined portion 130.

On the other hand, the fixing end 300 is formed at the rear end of the main body portion 110, the locking step 330 is formed at the front end of the inclined portion 130.

First, the main body 110 forms the basis of the upper duct 100 and is formed in a substantially rectangular plate shape. At the rear of the main body unit 110, an exhaust port 110a composed of a plurality of through holes is formed in the perforations.

Therefore, when the upper duct 100 is installed above the cavity, the heated air inside the cavity is discharged through the exhaust port 110a. Although not shown, an air outlet is formed at an upper surface of the cavity, that is, at a position corresponding to the exhaust port 110a to discharge air discharged through the exhaust port 110a to the outside of the cavity. On the other hand, the exhaust port (110a) is formed to be inclined at a predetermined angle. This is to prevent the air discharged through the exhaust port (110a) to flow back into the cavity.

The front of the main body 110 is formed with an inclined portion 130 to allow the air blown from the air outlet to be described below to be blown to the door side installed in the front of the cavity. And the air inlet 130a is formed in the inclined portion 130 perforated.

A plurality of air outlets 130a are formed along the inclined portion 130. Therefore, when the upper duct 100 is installed above the cavity, the air sucked through the air inlet of the cavity is blown into the cavity through the air vent 130a. In addition, the air blown as described above is directly blown to the rear of the door installed in front of the cavity, that is, the space where the cavity and the door abut each other.

And the handle hole 350 is formed between the plurality of air vents (130a), which is to facilitate the installation of the upper duct (100) after. The handle hole 350 is formed on the left and right of the inclined portion 130, respectively.

On the other hand, the air guide 200 is formed between the front end of the main body portion 110, that is, the main body 110 and the inclined portion 130 is configured as described above, from the left to the right of the upper duct 100 Many are provided.

The air guide 200 is formed of an approximately long rectangular hole, and penetrates the upper duct 100 in the vertical direction. The air guide 250 is formed on the outside of the air guide 200.

When the air guide 250 is formed in the air guide 200 as described above, the air blowing through the air guide 200 is guided by the air guide 250 in the blowing direction.

Hereinafter, the upper duct 100 configured as described above will be described.

A stirrer pan (not shown) installed between the upper duct 100 and the upper surface of the cavity serves to scatter microwave waves injected into the cavity. Therefore, the scattered microwave wave passes through the upper duct 100 and is scanned into the cavity. In order to transmit microwave waves as described above, the upper duct 100 is preferably made of a synthetic resin.

Therefore, the upper duct 100 is made by injecting a synthetic resin raw material into a predetermined mold, and then applying high pressure and high heat. In this case, the fixing protrusion 300, the locking jaw 330, and the handle hole 350 may be easily formed by modifying the mold for the upper duct 100.

Meanwhile, the air flow in the upper duct 100 is installed in the cavity as follows.

As described above, an air inlet is formed above the right wall surface of the cavity, so that outside air, more specifically, air in the electrical equipment room, flows in between the cavity and the upper duct. The introduced air flows by the stirrer pan, and moves forward of the upper duct. A part of the air moved forward in this way is blown to the door side through the air vent 130a of the upper duct. In addition, the rest is blown downward through the air guide (200). At this time, the air blown through the air guide 200 is bent by a predetermined angle toward the rear of the cavity by the curved portion (250b) of the air guide 250. That is, it blows so that the air which blows may incline.

Thereafter, the inside air of the cavity is heated in the process of irradiating microwaves to the food introduced into the cavity, and the heated air is an air outlet formed on the exhaust port 110a of the upper duct 100 and the upper surface of the cavity. Is discharged through the cavity. Of course, the air discharged outside the cavity is discharged to the outside of the microwave oven.

Hereinafter, looks at the upper duct as described above is installed on the upper surface of the cavity.

As shown in FIG. 4, fixing protrusions 300 are formed at both sides of the rear end portion of the main body portion 110, and a locking step 330 is formed at the front end portion of the inclined portion 130. Although not shown, a rear fixing hole into which the fixing protrusion 300 is inserted is formed at the rear wall of the cavity, and a front fixing groove into which the locking jaw 330 is inserted is formed at the front of the cavity.

First, hold the handle hole 350 so that the fixing projection 300 toward the rear, and insert the upper duct 100 into the cavity. When the fixing protrusion 300 is inserted into the rear fixing hole of the rear wall of the cavity, the rear side of the upper duct 100 is fixed to the rear of the cavity.

In this state, when the front of the upper duct 100 is pushed up, the locking jaw 330 is one-touch fixed to the front fixing groove.

When the upper duct 100 is fixed as described above, the upper duct 100 can be easily fixed without a separate screw.

Meanwhile, if the upper duct 100 fixed as described above is dirty in use, it must be removed for cleaning. Such removal of the upper duct 100 is facilitated by the handle hole 350.

When the upper duct 100 is installed above the cavity, the handle hole 350 is exposed to the front. At this time, when the wall surface of the handle hole 350 is pushed back downward, the locking jaw 330 is pushed backward to fall out of the front fixing groove. In this case, the front of the upper duct 100 is free. Then, when the upper duct 100 is pulled forward, the upper duct 100 is removed by the fixing protrusion 300 to exit from the rear fixing hole.

In this way, the removal of the upper duct 100 is made in the opposite manner to the installation process as described above. That is, the locking jaw 330 first falls out, and then the fixing protrusion 300 falls out.

As described above, in the present invention, the upper duct installed above the cavity is one-touch fixed by using a fixing protrusion and a locking step. Therefore, within the scope of the basic idea of the present invention, it will be apparent to those skilled in the art that more modifications are possible.

 According to the fixing structure of the microwave oven upper duct as described above is expected the following effects.

When the fixing structure of the present invention, that is, forming a fixing projection on the rear of the upper duct, and the locking step is formed in the front, the upper duct can be fixed without a separate screw. In this case, the fixing process of the upper duct is simplified, and there is an advantage of fixing the upper duct at a faster time.

In addition, since the material cost of the microwave oven is reduced by not using a separate screw, there is an advantage that a microwave oven can be manufactured at a lower cost.

In addition, if a finger hole is formed in the inclined portion of the upper duct, there is an advantage that the removal of the upper duct as well as easy to remove.

Claims (5)

An air vent formed through the inlet of the cavity wall to blow air into the cavity, an exhaust port formed to perforate the air heated inside the cavity to the outside of the cavity, and steam generated during the cooking process. In the upper duct of the microwave oven comprising an air curtain generating means for preventing movement to the door side; The upper duct is fixed structure of the microwave upper duct, characterized in that fixed to the upper cavity by the locking projection formed in the rear and the fixing projection formed in the front duct. The fixing structure of the upper duct of claim 1, wherein the fixing protrusion fixes the rear end of the upper duct, and the locking jaw fixes the front end of the upper duct. The fixing structure of the upper duct of claim 1, wherein the fixing protrusion and the locking jaw are integrally formed with the upper duct. The fixing structure of the upper duct of the microwave oven according to claim 1 or 2, wherein the fixing protrusion protrudes at least one rear of the upper duct. The structure of claim 1, wherein a handle hole is further formed at a front of the upper duct to facilitate fixing and detachment of the upper duct.

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