KR20020044207A - The structure of damper for machine room of microwave oven - Google Patents

Abstract

PURPOSE: Structure of a damper of an electrical device chamber of a microwave oven is provided to reduce the cost for materials by making a damper door perform the function of a damper duct without installation of a damper duct and to simplify a connection process. CONSTITUTION: Damper structure is installed in an air inlet hole formed in a portion of a cavity. A motor(108) having an output shaft is installed on the upper face of an installation plate(107). A damper door(106) is formed by using the chamfered portion of an electrical device chamber. If the output shaft rotates, the damper door rotates in the angle of the output shaft. Thus, the air inlet hole is opened and closed. By directly guiding an airflow to the air inlet hole via the damper door, the airflow efficiently flows into the cavity.

Description

The structure of damper for machine room of microwave oven}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microwave oven, and more particularly, to a damper structure of a microwave electric equipment compartment capable of forming a damper for controlling an airflow flowing into a cavity from an electric equipment compartment without a separate component.

Hereinafter, the structure of the damper structure of the microwave electric equipment chamber according to the prior art will be described in detail with reference to the drawings. Hereinafter, the damper structure is a structure that selectively restricts the air flow flowing into the cavity of the microwave oven.

FIG. 1 is a partial perspective view of an electric battle chamber in which a damper is installed, and FIG. 2 is an exploded perspective view of the damper structure disassembled. As shown, the damper structure is provided on the side wall 1 which partitions the electric compartment and the inside of the cavity. The damper structure consists of a damper duct (4), a damper door (6), and a motor (8).

At the end of the damper duct (4) is formed an air inlet (2) through which air in the electrical equipment chamber can be introduced. The air inlet 2 is formed perpendicular to the side wall 1 of the electric compartment so that the air flow formed in parallel with the side wall 1 of the electric compartment can be easily introduced into the damper duct 4.

The damper duct 4 bends one side to the side so that air introduced through the air inlet 2 can be vertically guided on the side wall 1. In addition, a through hole 4a 'is formed at one side of the upper surface 4a of the damper duct 4, that is, the upper surface 4a of the damper duct 4 adjacent to the air inlet 2. The bottom face 4b of the damper duct 4 is provided with a protrusion 4b 'at a position facing the through hole 4a'.

On the other hand, the air inlet 2 is provided with a damper door (6). The damper door 6 has a shape of a thin hexahedron and its outer shape is formed to correspond to the air inlet 2. That is, the air inlet 2 is opened and closed by the damper door 6.

A groove 6a 'corresponding to the through hole 4a' of the damper duct 4 is formed in the upper surface 6a of the damper door 6. In addition, a groove 6b 'corresponding to the protrusion 4b' of the damper duct 4 is formed on the lower surface 6b of the damper door 6.

The motor 8 is mounted on the upper surface 4a of the damper duct 4. That is, the motor 8 is mounted on the upper surface 4a of the damper duct 4 adjacent to the air inlet 2. In addition, the motor 8 is provided with an output shaft 8a.

In addition, (3) and (f) in a figure mean a magnetron and airflow.

Hereinafter, the operation of the conventional damper structure will be described in detail with reference to the drawings.

First, assembling of the damper structure, the damper duct (4) manufactured separately is installed on the side wall (1) of the microwave electrical equipment room. The method of installing the damper duct 4 generally uses a screwing method. And a damper door (6) is installed in the damper duct (4). In this case, the through hole 4a 'formed in the upper surface 4a of the damper duct 4 includes a groove 6a' formed in the upper surface 6a of the damper door 6 and a bottom surface of the damper duct 4. The protrusions 4b 'formed at 4b correspond to the grooves 6b' formed at the lower surface 6b of the damper door 6, respectively.

Then, the output shaft 8a of the motor 8 is inserted into the through hole 4a 'formed in the upper surface 4a of the damper duct 4, and then the groove formed in the upper surface 6a of the damper door 6 is formed. The output shaft 8a is inserted to 6a 'and the motor 8 is fixed to the upper surface 4a of the damper duct 4. In addition, one side of the damper duct 4 is equipped with a switch 8b for controlling the operation of the motor 8, thereby completing the damper structure.

On the other hand, look at the operation of the damper as follows.

That is, as shown in the drawing, the airflow f is formed in the electric compartment of the microwave oven from the rear of the electric compartment to the front. Looking in detail, the air flow (f) is introduced into the interior of the electrical equipment room from the rear upper portion of the electrical equipment room by the operation of a blower fan (not shown) installed in the upper rear side of the electrical equipment room, the air flow (f) Flows toward the front of the battlefield to flow back into the cavity. The formation of such an airflow prevents overheating of the machinery and the like in the electrical equipment room.

And, the air flow (f) is to be introduced into the cavity through a plurality of through-holes (not shown) formed on one side of the side wall (1) of the electrical equipment room. In this case, a damper structure is installed on the side wall 1 to allow the airflow f to smoothly flow into a plurality of through holes formed in the side wall 1. That is, the airflow (f) is introduced through the air inlet (2) formed perpendicular to the airflow (f), and the airflow (f) through the damper duct (4) on the side wall (1) It is to guide the through-hole (not shown).

In addition, the air flow (f) flowing into the air inlet (2) is selectively shielded by a damper door (6) installed in the air inlet (2). That is, when the cooking method in the cavity is a normal mode using a magnetron, the damper door 6 opens the air inlet 2 by the operation of the motor 8, and the cooking method in the cavity is a heating source. In the convection mode, the damper door 6 closes the air inlet 2 by the operation of the motor 8.

However, according to the damper structure according to the prior art, the following problems are pointed out.

First, in the damper structure mounted on the side wall 1 in the electric compartment, the damper duct 4 is manufactured and mounted separately. Therefore, the manufacturing cost of the damper structure is high.

In addition, the damper duct 4 is screwed onto the side wall 1, which not only makes the installation process of the damper duct 4 cumbersome but also wastes fastening components.

Accordingly, an object of the present invention for solving the above problems is to provide a damper structure of a microwave oven, which is low in manufacturing cost and simple in installation process.

1 is a partial perspective view of an electric compartment including a damper structure according to the prior art;

Figure 2 is an exploded perspective view of the conventional damper structure separated

3 is a partial perspective view of an electrical equipment room including a damper structure according to the present invention;

Figure 4 is an exploded perspective view of the damper structure in accordance with the present invention

Explanation of symbols on the main parts of the drawings

102 ............. Air inlet 105 .......... Insulation

106 .......... Damper door107 .......... Mounting plate

108 ............. Motor 109 .......... Limited jaw

Features of the present invention for solving the above object, the air inlet formed on the side of the cavity, the motor is provided on one side of the cavity is provided with an output shaft, the output shaft is connected to the output shaft in accordance with the rotation direction of the output shaft It is composed of a damper door that can directly open and close the air inlet.

According to such a structure, since a damper duct is not used in a damper structure, manufacturing cost can be saved and the assembly process of a damper structure can be simplified.

The damper door may be installed to directly guide the air flow to the air inlet at the opening of the air inlet.

According to such a configuration, the damper door can naturally guide the flow of air into the cavity, thereby efficiently supplying air to the cavity.

Hereinafter, the configuration of the damper structure according to the present invention will be described in detail with reference to the preferred embodiment shown in the drawings.

FIG. 3 is a partial perspective view of the electric compartment showing a state in which the damper structure is installed at one side of the electric compartment, and FIG. 4 is an exploded perspective view of the damper structure separately disassembled.

As shown, the damper structure is provided on the left side of the magnetron 103. That is, the damper structure is provided at the air inlet 102 formed at one side of the cavity. The air inlet 102 is formed in the square of the side wall 101 of the electrical compartment and a plurality of through-holes 105a are formed in the heat insulating material 105 provided inside. However, it is not necessary to form the damper structure on the side wall 101 of the electric compartment. Any side of the cavity can be anywhere.

In addition, a rib 102a having a through hole 102a 'is formed at an inner side of the lower edge of the side wall 101 of the electric chamber, and a limiting jaw 109 is provided at the left side. The jaw 109 is formed to protrude from the side wall 101 of the microwave oven, thereby limiting and supporting the operation of the damper door 106 to be described below. The shape is not necessarily limited to the rectangle and many other variations are possible.

In addition, the mounting plate 107 protrudes from the side wall 101 of the electric compartment in the upper portion of the air inlet 102. In addition, a hole 107a is formed at one side of the mounting plate 107 to face the rib 102a formed at the lower edge of the air inlet 102.

On the other hand, the damper door 106 having grooves 106a 'and 106b' corresponding to the ribs 102a of the air inlet 102 and the through holes 107a of the mounting plate 107, respectively, is provided with the air inlet ( 102). That is, the groove 106a 'corresponding to the through hole 107a of the mounting plate 107 is formed in the upper surface 106a of the hexahedron shape, and the air inlet 102 is formed in the lower surface 106b of the hexahedron shape. The grooves 106b 'corresponding to the ribs 102a of the " The ribs 102a and the grooves 106b 'of the lower surface 106b of the damper door 106 are fastened with a fastening screw 102b.

In addition, the damper door 106 is formed by using a portion of the electrical chamber. Therefore, the shape of the damper door 106 is matched with the part of the electric chamber, and the air inlet 102 can be directly opened and closed. In addition, the damper door 106 is installed to face the air flow. That is, the damper door 106 is installed to face the air flow so that the limiting jaw 109 is provided in correspondence with the air flow direction and is supported by the limiting jaw 109.

In addition, a motor 108 having an output shaft 108a is installed on an upper surface of the mounting plate 107. The output shaft 108a is inserted into the through hole 107a of the mounting plate 107 and is inserted into and fixed to the groove 106a 'formed in the upper surface 106a of the damper door 106. In addition, a switch 108b for controlling the motor 108 is installed on one side of the air inlet 102.

Hereinafter, the operation of the damper structure according to the present invention will be described in detail with reference to the preferred embodiment shown in the drawings.

The damper door 106 has the output shaft 108a of the motor 108 inserted into and fixed to the groove 106a 'of the upper surface 106a, and is fastened to the lower surface 106b by a fastening screw 102b. The damper door 106 also rotates at the same angle as the output shaft 108a when the output shaft 108a is rotated because the output shaft 108a is connected to the rib 102a of the air inlet 102. do. Therefore, the air inlet 102 is to be opened and closed.

That is, when the rotation of the output shaft 108a is clockwise in the drawing, the damper door 106 closes the air inlet 102, and in the opposite direction, the damper door 106 is the air inlet. Open 102.

In addition, when the damper door 106 is opened, the damper door 106 directly guides the air flow directed toward the damper door 106 to the air inlet 102, thereby providing more efficient air flow. It will be introduced into me. In addition, the damper door 106 is supported by the limiting jaw 109 is prevented from being pushed down by the air flow.

Within the technical scope of the present invention, of course, many other modifications are possible to those skilled in the art.

Therefore, according to the structure of the damper structure by this invention, the following structural effects are anticipated.

First, a damper door is formed by using a material extracted from the side of the electric chamber, and the damper door performs the function of the damper duct without installing a separate damper duct, thereby saving material cost.

In addition, since the damper duct is not separately installed in the process of installing the damper structure, the fastening process is simplified and the effect of saving the fastening parts is expected.

Claims (2)

An air inlet formed on the side of the cavity; A motor installed at one side of the cavity and having an output shaft; The damper structure of the microwave electrical equipment room is connected to the output shaft so as to be interlocked, and configured to directly open and close the air inlet in accordance with the rotation direction of the output shaft. The damper structure of claim 1, wherein the damper door is installed to directly guide the air flow to the air inlet when the air inlet is opened.