KR20180002043A - filter unit of downward exhaust type hood - Google Patents

Abstract

The present invention relates to a filter unit which is provided in a downward exhaust hood apparatus and effectively filters oil vapor flowing downward. The filter unit comprises a condensation unit provided to condensate oily water included in the oil vapor when the oil vapor passes therethrough so as to remove the oily water from the oil vapor. The condensation unit comprises: a plurality of upper channels arranged at regular intervals; a plurality of lower channels alternately arranged from each of the upper channels; and an outer frame supporting the upper channels and the lower channels. According to the present invention, a large quantity of oily water is removed in advance before the oil vapor is induced to a suction fan, thereby having an effect of keeping the hood apparatus clean and enhancing operation stability of the same.

Description

[0001] The present invention relates to a filter unit of a downward exhaust type hood,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a filter mechanism provided in a downward-evacuation type hood apparatus and capable of effectively filtering downwardly flowing vapors.

The hood device is a device for discharging unburned gas, food odor, and the like generated during cooking using a heating device for cooking such as a gas range. The hood device includes a hood for collecting vapor, a suction fan for sucking vapor, The filter is composed of a filter and the like.

Such a conventional hood apparatus can be divided into a so-called upper exhaust type and a lower exhaust type on the basis of the arrangement of the flow paths for sucking and discharging the vapor.

1, the upward ventilation type hood apparatus 10 is disposed above a heating mechanism for cooking such as a gas range G provided in a kitchen, and an intake fan 14 is provided in the hood 12 And is attached to a wall.

2, the downward ventilation type hood apparatus 20 includes a fan box 24 having an intake fan 22 and an intake fan, and a post duct 26 connected to the fan box 24 to stand upright And the post duct 26 is arranged on the side or rear of the heating mechanism for cooking such as the induction range D.

According to the upward ventilation type hood apparatus 10, the vapor rising and rising in the gas range G is collected by the hood 12, sucked by the intake fan 14 and discharged to the outside, and according to the downward ventilation type hood apparatus 20 Vapor generated in the heating mechanism R is sucked through the post duct 26 and discharged after being descended.

In the case of the upper exhaust type hood apparatus 10, a filter 16 is provided at the lower end of the hood 12. The filter 16 is provided at the lower end of the hood 12, In the case of the downward evacuation type hood apparatus 20, the filter 28 is provided in the post duct 26 to perform a filtering action on the vapor flowing downward.

Here, the filter 16 of the upward ventilation type hood apparatus 10 filters the foreign substances such as water content contained in the vapor, and the water droplets formed by the condensation of the vapor fall downward to prevent the food from being contaminated. It is desirable to have a technical feature of suppressing condensation as much as possible.

On the other hand, the filter 28 of the downward-evacuation type hood apparatus 20 does not need to cope with the contamination of food and food, but rather, there is a fear that more water droplets drop on the side of the intake fan 22, It is necessary to have a function to cope positively.

Therefore, it can be considered that the filter 28 of the downward ventilation type hood apparatus 20 requires a technical feature to induce condensation before the vapor flows to the intake fan 22 side to remove the water content contained in the vapor.

On the other hand, as a heating mechanism for cooking, there is a system (a gas range or an electric heater range) for heating by applying heat to the cooking vessel, and a system for inducing a self-heating of the cooking vessel by forming an induction magnetic field.

When the gas range G is used, strong heat is diffused not only in the cooking vessel but also outside the cooking vessel, so that the vapor is heated by the heat and a considerable amount of water contained in the vapor is evaporated. And it is not likely to fall down.

On the other hand, in the case of using the induction range D, the cooking vessel is heated by itself and the contained food is heated, but the vapor flows in such a form that the rising air current is not formed strongly but spread sideways.

Therefore, when the induction range D is used as the heating device for cooking, the downward evacuation type hood device 20 that performs the intake action in the vicinity of the source of the vapor (cooking container) .

However, in this case, since the vapor is not heated, the evaporation amount of the water content contained in the vapor is small, and the vapor is sucked into the post duct 26 while containing a large amount of water content.

Therefore, in the case of using the downward evacuation type hood device 20 with respect to the induction range D, it is necessary to induce condensation phenomenon of the vapor more actively and to treat the water content in advance, as compared with the case of using it for the gas range .

However, according to the related art, the same function filter as that of the upward exhaust type hood apparatus 10, which focuses only on the filtering function, is used for the downward ventilation type hood apparatus 20 as well.

As a result, in the case of the downward evacuation type hood apparatus, the problem that the maintenance of the cleanliness and the operation stability are impaired due to the intake of the vapor containing a large amount of the water content.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a filter mechanism that can be applied to a downward evacuation type hood apparatus and effectively cope with a vapor containing a large amount of water content.

In order to achieve the above object, the filter mechanism of the downward evacuation type hood apparatus according to the present invention is applied to a downward evacuation type hood apparatus having an operating characteristic for allowing the inhaled vapor to flow downward, And a condensation unit for allowing the contained water to condense so as to remove water from the vapor.

The coagulation unit includes a plurality of upper channels arranged at regular intervals and curved upwardly, a plurality of lower channels staggered from the upper channels and curved downward, As shown in Fig.

The left and right ends of the upper channel form a downward section of a predetermined length. The left and right ends of the lower channel form upward sections of a predetermined length. The upper channel and the lower channel form respective downward sections and upward sections Are arranged above and below such that they overlap each other with a constant clearance.

The condensation unit has a structure in which a discharge hole is formed at one end of each of the lower channels, and the discharge hole is arranged to be inclined downward.

Further, the filter mechanism of the downward-evacuation type hood apparatus according to the present invention includes a low-water receiver for storing the water content discharged through the discharge holes formed in the respective lower channels of the condensation unit.

As described above, according to the filter mechanism of the downward evacuation type hood apparatus according to the present invention, since the operation of the downward evacuation type hood apparatus is effective, a condensation operation is effectively performed for the vapor containing a large amount of water. Therefore, it is possible to remove a large amount of the water content in advance before the vapor flows to the suction fan side, which is advantageous in improving the cleanliness maintenance and the operation stability of the hood device.

1 is a schematic diagram showing the configuration of the upward ventilation type hood apparatus;
2 is a schematic view showing the structure of the downward evacuation type hood apparatus;
Figs. 3A and 3B are perspective views showing the form of the condensation unit of the filter mechanism according to the present invention; Fig.
Fig. 4 is a partial perspective view showing the main structure of the condensation unit of the filter mechanism according to the present invention; Fig.
Fig. 5 is an exemplary sectional view showing an installation state of the filter mechanism according to the present invention;
Fig. 6 is an exemplary view showing the condensation action by the condensation unit of the filter mechanism according to the present invention. Fig.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The filter mechanism according to the present invention is applied to a downward evacuation type hood apparatus having an operating characteristic such that the inhaled vapor can be downwardly flowed. As shown in FIGS. 3A and 3B, in the course of passage of the vapor, A condensing unit 30 for removing water from the vapor in the condensing unit 30 and a low-condensing unit 40 (see FIG. 5) for condensing the condensed water flowing downward in the condensing unit 30.

The condensation unit 30 includes a plurality of upper channels 32 arranged at regular intervals, a plurality of lower channels 34 arranged to be staggered with the upper channels 32, And an outer frame 36 supporting the lower channel 34.

The left and right ends of the upper channel 32 form a downward section 321 of a predetermined length and the left and right ends of the lower channel 34 form upward sections 341 of a predetermined length, The upper channel 32 and the lower channel 34 are arranged up and down such that the downward sections 321 and the upward sections 341 overlap each other with a predetermined gap.

4, each of the lower channels 34 of the condensation unit 30 has a structure in which a discharge hole 34a is formed at one end of the longitudinal direction, and the condensation unit 30 is formed in the discharge hole 34a are disposed to be inclined in the interior of the post duct 26 so as to face downward (see Fig. 5)

The operation of the filter mechanism of the downward evacuation type hood apparatus according to the present invention constructed as described above will be described with reference to FIG.

First, due to the operation of the downward evacuation type hood device, the vapor flowing into the post duct 26 flows downward, and in the process of passing through the condensation unit 30, And is dispersed to both sides along the upper surface of the upper channel 32 and flows sideways along the downward section 321 at both sides of the upper channel 32.

The vapor flowing sideways along the downward section 321 at the opposite ends of the upper channel 32 flows downward through the gap between the upper channel 32 and the upper channel 32 and is staggered with the upper channel 32 A second resistance is applied to the flow in contact with the upper section 341 of the lower channel 34 and then a second resistance is applied between the lower section 321 of the upper channel 32 and the upper section 341 of the lower channel 34 Flows through the gap and exits down through the gap between the lower channel 34 and the lower channel 34.

In the process of alternately touching the surfaces of the upper channel 32 and the lower channel 34 while the vapor of the upper channel 32 and the lower channel 34 are shifted from each other, water vapor is condensed to form a water droplet, The droplets are formed on the upper surface of the upper channel 32 and the upper surface of the lower channel 34.

Here, the water droplets formed on the upper surface of the upper channel 32 flow down along the downward section 321 but are prevented from falling downward by the upward section 341 of the overlapped lower channel 34. The water droplets formed on the upper surface of the lower channel 34 are gathered in the lower channel 34 due to the structure of the lower curved lower channel 34 so that almost all the water droplets are collected on the lower channel 34.

 The droplet of water collected in the lower channel 34 flows down along the longitudinal direction of the lower channel 34 due to the structure in which the condensation unit 30 is inclined, (34a) and collected in the low-storage container (40).

As described above, according to the present invention, since the upper channel 32 and the lower channel 34 are alternately overlapped to form a strong condensation phenomenon against the vapor in the structure of the condensation unit 30 having a large surface area in contact with the vapor, The vapors passing through the evaporator 30 are in a dry state in which a large amount of water is removed.

As a result, the phenomenon that the cleanliness of the suction fan 22 is lowered or the operation state becomes poor is more positively prevented by the vapor flowing through the condensing unit 30 and flowing toward the suction fan 22 side.

30: condensation unit
32: Upper channel 321: Downward section
34: lower channel 341: upward section 34a: exhaust hole
36: Outer frame

Claims (5)

The present invention is applied to a downward evacuation type hood apparatus having an operating characteristic for allowing the inhaled vapor to flow downward,
A condensation unit for removing water from the vapor so that the water content contained in the vapor is condensed during the passage of the vapor,
And a filter mechanism for filtering the exhaust gas.
The method according to claim 1,
The condensation unit
A plurality of upper channels arranged at regular intervals,
A plurality of lower channels staggered with the upper channels,
An outer frame supporting the upper channel and the lower channel,
By being composed of

In the course of passing through the condensation unit, the vapor flows through the gaps between the plurality of upper channels and the plurality of lower channels to repeatedly contact and condense the lower channel and the upper channel
And the filter mechanism of the downward-displacement type hood apparatus. 3. The method of claim 2,
The left and right ends of the upper channel form a downward section of a predetermined length,
The left and right ends of the lower channel form upward sections of a predetermined length,
The upper channel and the lower channel may be arranged so that the downward and upward sections of the upper channel and the lower channel are overlapped with each other with a predetermined gap therebetween
And the filter mechanism of the downward-displacement type hood apparatus.
The method of claim 3,
The condensing unit may have a structure in which a discharge hole is formed at one longitudinal end of each of the lower channels, and the discharge hole is arranged to be inclined downward
And the filter mechanism of the downward-displacement type hood apparatus.
5. The method of claim 4,
And a low-condenser for storing the water content discharged through the discharge holes formed in the respective lower channels of the condensation unit.

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