KR102220571B1 - A method of installing a hood for kitchen - Google Patents

Abstract

Disclosed is a method of constructing a kitchen hood that is easily installed and has improved ventilation performance. According to the present invention, the method of constructing a kitchen hood comprises the steps of: forming a ventilation port (20) for ventilation in a wall; installing a kitchen hood (10) around the ventilation port; connecting an exhaust port of the kitchen hood to the ventilation port; and disposing a fan (30) between the exhaust port of the kitchen hood and the ventilation port.

Description

Kitchen hood construction method to improve ventilation performance{A METHOD OF INSTALLING A HOOD FOR KITCHEN}

The following embodiments relate to a kitchen hood construction method.

In general, in the case of recently constructed high-rise apartments with high functionality, windows (curtain wall method) are being constructed so that they are sealed in terms of energy conservation, and such high-rise apartment houses are required to introduce a large amount of fresh outside air in response to the demand for comfort Since it is inevitably required, the indoor ventilation problem is becoming more serious.

In particular, the main pollutants of indoor air in such high-rise apartment houses are composed of various pollutants such as heat generated during cooking in the kitchen, smells, and oil vapors, and these pollutants rise due to thermal force, causing the ceiling to rise. Ride and float and spread throughout the kitchen or room.

In addition, heat generation in the kitchen is mostly generated in the form of convective heat and radiant heat including impurities, and the amount of heat varies depending on the equipment, surface temperature, and degree of heat retention. It spreads and pollutes the room.

In addition, in the case of a villa, the size of the ventilation hole for the kitchen hood through the wall is only 75 pi (or 100 pi) (125 pi in the case of an apartment), and the ventilation performance is too small. Poor ventilation of the hood can make the air in the house very bad as food fumes cannot escape. In addition, the ventilation openings for piping are to be constructed in units of 25 pi, and the ventilation openings are buried in the wall close to the ceiling, and gypsum board is placed thereon. In addition, when the ventilation hole and the pipe are wrapped with tape, wind may leak, bad air may enter the house, and oil stains may spread into the house.

In addition, the ventilation opening is formed in a shape that prevents rain from entering the building, and the hole is made smaller. If the size of the hole is increased, condensation may occur.

In particular, the diameter of the exhaust pipe of the kitchen hood is larger than the ventilation hole in the wall, creating a bottleneck, preventing air from escaping, and swirling inside the hood. Accordingly, the wind does not escape well and smells There is a case that it does not fall out.

Republic of Korea Public Utility Model No. 2006-0031202 proposed an integrated ventilation system for both hoods.

An object according to an embodiment is to provide a method of constructing a kitchen hood that is easy to install.

An object according to an embodiment is to provide a method of constructing a kitchen hood with improved ventilation performance.

An object according to an embodiment is to provide a method of constructing a kitchen hood capable of preventing oil from falling to the lower side of the hood due to condensation.

An object according to an embodiment is to provide a method of constructing a kitchen hood capable of intensively ventilating air flowing from an upper side of a portion where cooking is performed.

A method of constructing a kitchen hood according to an embodiment includes: forming a ventilation opening 20 for ventilation on a wall, installing a kitchen hood 10 around the ventilation opening, and connecting the exhaust opening of the kitchen hood with the ventilation opening And placing the fan 30 between the exhaust port of the kitchen hood and the ventilation port.

In this case, the step of disposing a fan between the exhaust port of the kitchen hood and the ventilation port includes connecting a part of the fan to the ventilation port and then sealing the fan 30. ) Is formed of a plurality of sidewall elements 310 overlapping each other, and the width of the diameter of the portion 300 of the fan 30 may be changed by changing the degree of overlapping of the plurality of sidewall elements.

In addition, the fan 30, in a state in which the fan is connected to the exhaust port and the ventilation port, further includes a tightening element 320 capable of pressing the plurality of side wall elements such that the part is in close contact with the ventilation port. I can. The tightening element 320 may be disposed in a shape surrounding a portion of the fan.

The kitchen hood 10 is disposed on the upper side of the heater A installed in the kitchen to suck the air or pollutants discharged from the heater 110, and the air or pollutants introduced through the hood It may include an exhaust port 120 for transferring to 20 and a flow path 130 disposed between the hood and the exhaust port to flow the air or pollutants.

In addition, the flow path is a main flow path, a cleaning element disposed inside the main flow path to remove the pollutants, and extending from one side of the main flow path adjacent to the exhaust port to the other side of the main flow path adjacent to the hood. A circuit breaker capable of being hinged by being disposed at one end of the bypass path connected to one side of the main flow path and connected to the bypass flow path; A first sensor disposed inside the main passage and measuring the amount of pollutants contained in the air passing through the main passage, and the amount of pollutants present in the air measured by the first sensor is a preset value When it exceeds the value, it may include a first controller for moving the entire amount of air and pollutants present on the main flow path to the bypass flow.

In this case, the first controller may selectively block the main flow path of the flow path or block the bypass flow path by hinges the breaker.

The hood 110 is formed by being divided into a plurality of compartments, and each compartment is a suction unit 111 that can be selectively moved toward the lower side of the hood, and is disposed on the hood to generate from the lower side of the hood. A second sensor 112 capable of detecting heat and a second controller controlling vertical movement of each section of the suction unit, and the second controller is an upper side of a portion generated by heat by the second sensor. It is possible to move only the compartment of the suction unit disposed in the lower side.

In addition, the second controller may control such that when a section of the suction unit is moved downward, the cooking utensil placed on the heater is not disposed closer than a preset distance.

In addition, the hood is disposed on the hood, a third sensor 113 capable of detecting liquid oil formed on the surface of the suction unit 111, and is disposed under the suction unit 111 When the liquid oil is sensed on the surface of the suction part 111 by the removal element 114 that can remove the liquid oil while moving adjacent to one surface of the suction part, the It may comprise a third controller that automatically drives the removal element 114.

In this case, the removal element 114 is formed of a filter paper capable of absorbing liquid oil, and the removal element moves from one side of the suction part to the other side of the suction part along a guide formed on the suction part. It can absorb the liquid oil formed on the surface of the suction part.

In the method of constructing a kitchen hood according to an embodiment, a kitchen hood can be easily installed.

A kitchen hood constructed by the method of constructing a kitchen hood according to an embodiment may improve ventilation performance.

A kitchen hood constructed by the method of constructing a kitchen hood according to an exemplary embodiment can prevent oil from falling down to the lower side of the hood due to condensation.

A kitchen hood constructed by the method of constructing a kitchen hood according to an embodiment may intensively ventilate air flowing from an upper side of a portion where cooking is performed.

1 is a flowchart of a method of constructing a kitchen hood according to an embodiment.
2 shows a state in which a kitchen hood is installed according to an embodiment.
3 shows in detail a kitchen hood according to an embodiment.
4 and 5 show a fan of a kitchen hood according to an embodiment.
6 and 7 show an operating state of the suction unit of the kitchen hood according to an embodiment.
8 shows an operating state of a removal element of the kitchen hood according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. The following description is one of several aspects of the embodiments, and the following description forms part of a detailed description of the embodiments.

However, in describing one embodiment, detailed descriptions of known functions or configurations will be omitted in order to clarify the gist of the present invention.

In addition, terms or words used in the present specification and claims should not be interpreted in a conventional or dictionary meaning, and the inventor may appropriately define the concept of terms in order to describe his own invention in the best way. Based on the principle that there is, it should be interpreted as a meaning and concept consistent with the technical idea of a kitchen hood and a method of constructing it according to an embodiment.

Therefore, the configuration shown in the embodiments and drawings described in the present specification is only one most preferred embodiment of a kitchen hood and a method of constructing the same according to an embodiment, and of a kitchen hood and a method of constructing the same according to an embodiment. Since not all of the technical ideas are represented, it should be understood that there may be various equivalents and modified examples that can replace them at the time of the present application.

1 is a flow chart of a method of constructing a kitchen hood according to an embodiment, and FIG. 2 shows a state in which a kitchen hood according to an embodiment is installed. 3 shows a kitchen hood according to an embodiment in detail, and FIGS. 4 and 5 show a fan of the kitchen hood according to an embodiment. 6 and 7 illustrate an operation state of a suction unit of the kitchen hood according to an embodiment, and FIG. 8 shows an operation state of a removal element of the kitchen hood according to an embodiment.

Referring to FIG. 1, a method of constructing a kitchen hood according to an embodiment includes: forming a ventilation opening 20 on a wall, installing a kitchen hood 10 around the ventilation opening, and Connecting the exhaust port to the ventilation port and disposing a fan 30 between the exhaust port of the kitchen hood and the ventilation port.

In this case, disposing a fan between the exhaust port of the kitchen hood and the ventilation port may include connecting a part of the fan to the ventilation port and then sealing the fan.

Specifically, referring to Figs. 2 and 3, the kitchen hood 10 is disposed on the upper side of the heater A installed in the kitchen to suction the air or pollutants discharged from the heater 110, the hood. An exhaust port 120 for transferring air or contaminants introduced through the ventilation port 20 and a flow path 130 disposed between the hood and the exhaust port to flow the air or contaminants may be included. In addition, it includes a fan 30 connecting the exhaust port and the ventilation port of the kitchen hood.

In this case, the flow path is a main flow path, a cleaning element disposed inside the main flow path to remove contaminants, a bypass flow path extending from one side of the main flow path adjacent to the exhaust port and connected to the other side of the main flow path adjacent to the hood, A breaker disposed at one end of the bypass path connected to one side of the main flow path and hinged; The amount of pollutants present in the air measured by the first sensor and the first sensor that is arranged inside the main passage and measures the amount of pollutants contained in the air passing through the main passage exceeds a preset numerical value In this case, it may include a first controller to move the entire amount of air and pollutants present on the main flow path to the bypass flow. The first controller may selectively block the main flow path of the flow path or block the bypass flow path by hinges the breaker.

The configuration of the fan 30 will be described in detail with reference to FIGS. 4 and 5. One part 300 of the fan 30 is formed of a plurality of sidewall elements 310 overlapping each other, and by changing the degree of overlapping of the plurality of sidewall elements, the diameter of the part 300 of the fan 30 The width can be changed.

In addition, the fan 30 may further include a tightening element 320 capable of pressing a plurality of sidewall elements such that the part is in close contact with the ventilation port while the fan is connected to the exhaust port and the ventilation port. In this case, the tightening element 320 may be disposed in a shape surrounding a portion of the fan. That is, by changing the width of the end portion of the fan to be the same as the width of the ventilation port, the part of the fan and the ventilation port may be sealed.

Referring to (a) of FIG. 5, the width of the end of a portion of the fan can be set to be larger by reducing the overlapping portion between the plurality of side wall elements 310, and a plurality of side wall elements as shown in (b) of FIG. 5 By increasing the overlapping portions between the 310s, the width of the end of the portion of the fan may be set to be small. That is, through such a configuration, the width of the end of a portion of the fan may be controlled so as to correspond selectively to the width of the ventilation opening in which the kitchen hood is installed, so as to match the width of the ventilation opening.

6 and 7, the hood 110 is formed by being divided into a plurality of compartments, and each compartment is a suction unit 111 that can be selectively moved toward the lower side of the hood, and is disposed on the hood. It may include a second sensor 112 capable of detecting heat generated from the lower side and a second controller controlling the vertical movement of each compartment of the suction unit.

In this case, the second controller may move only one section of the suction unit 111 disposed above the portion where heat is generated by the second sensor 112 to the lower side. In addition, the second controller may control such that when one section of the suction unit is moved downward, the cooking utensils placed on the heater are not disposed closer than a preset distance.

As an example, as shown in FIG. 7, the suction part 111 of the hood 110 may be divided into four compartments, and each compartment may be selectively moved up and down. Accordingly, when the second sensor 112 detects the heat generated in the portion where the cooking utensils heated on the heater are disposed, the second controller moves only one section of the suction unit disposed above the corresponding portion to the lower side. It can more effectively inhale air and pollutants generated from the cooking utensil side.

Referring to FIG. 8, the hood 110 is a third sensor 113 disposed on the hood and capable of detecting liquid oil formed on the surface of the suction unit 111, and a lower side of the suction unit 111 A removal element 114 that is disposed in the suction unit and moves adjacent to one surface of the suction unit to remove liquid oil, and a removal element when liquid oil is detected on the surface of the suction unit 111 by a third sensor A third controller that automatically drives 114 may be included.

At this time, the removal element 114 is formed of a filter paper capable of absorbing liquid oil and may be implemented in the form of a roller, and the removal element moves from one side of the suction unit to the other side of the suction unit along a guide formed on the suction unit. While doing so, it can absorb the liquid oil formed on the surface of the suction part.

In addition, the removal element 114 is a configuration that can be detachable from the hood, and when there is a need for replacement as the oil absorbed by the removal element increases, the existing removal element is detached and a new removal element is placed on the hood. Can be attached to.

The kitchen hood including the above-described configuration and a method of constructing the same can easily install the kitchen hood and improve ventilation performance. In addition, the kitchen hood and its construction method can prevent oil from falling on the hood and falling down the hood, and can intensively ventilate the air flowing from the upper side of the cooking portion.

As described above, in the embodiment, the embodiment has been described by specific matters such as specific components and the limited embodiment and drawings, but this is provided to help overall understanding. In addition, the present invention is not limited to the above-described embodiments, and various modifications and variations are possible from these descriptions by those of ordinary skill in the field to which the present invention belongs. Therefore, the spirit of the present invention is limited to the above-described embodiments and should not be determined, and all things that are equivalent or equivalent to the claims as well as the claims to be described later belong to the scope of the present invention.

10: kitchen hood
110: hood
111: suction unit
112: second sensor
113: third sensor
114: removal factor
120: exhaust port
130: Euro
20: vent
30: fan
300: part of the fan
310: side wall element
320: tightening element

Claims (8)

In the method of constructing a kitchen hood,
Forming a ventilation opening 20 for ventilation on the wall;
Installing a kitchen hood 10 around the ventilation port;
Connecting the exhaust port of the kitchen hood with the ventilation port; And
Disposing a fan (30) between the exhaust port of the kitchen hood and the ventilation port;
Including,
Placing a fan between the exhaust port of the kitchen hood and the ventilation port,
Connecting a portion of the fan to the ventilation opening and sealing it;
Including,
One portion 300 of the fan 30 is formed of a plurality of sidewall elements 310 overlapping each other, and one portion 300 of the fan 30 by changing the degree of overlapping of the plurality of sidewall elements The width of the diameter of can be varied,
How to build a kitchen hood.
delete The method of claim 1,
The fan 30,
A tightening element (320) capable of pressing the plurality of side wall elements such that the part is in close contact with the ventilation port while the fan is connected to the exhaust port and the ventilation port;
Including more,
The tightening element 320 is disposed in a shape surrounding a portion of the fan,
How to build a kitchen hood.
The method of claim 3,
The kitchen hood 10,
A hood 110 disposed above the heater A installed in the kitchen to suck air or pollutants discharged from the heater;
An exhaust port 120 for transferring air or pollutants introduced through the hood to the ventilation port 20; And
A flow path 130 disposed between the hood and the exhaust port to flow the air or pollutants;
Containing,
How to build a kitchen hood.
The method of claim 4,
The flow path is,
Main euro;
A cleaning element disposed inside the main flow path to remove the pollutants;
A bypass passage extending from one side of the main passage adjacent to the exhaust port and connected to the other side of the main passage adjacent to the hood;
A circuit breaker disposed at one end of the bypass passage connected to one side of the main passage and hinged;
A first sensor disposed inside the main passage and measuring the amount of pollutants contained in the air passing through the main passage; And
When the amount of pollutants present in the air measured by the first sensor exceeds a preset numerical value, a first controller that moves the entire amount of air and pollutants present on the main passage to the bypass passage ;
Including,
The first controller may selectively block the main flow path of the flow path or block the bypass flow path by hinges the breaker,
How to build a kitchen hood.
The method of claim 5,
The hood 110,
A suction unit 111 that is formed by being divided into a plurality of compartments, and each compartment is selectively moved toward the lower side of the hood;
A second sensor (112) disposed on the hood and capable of detecting heat generated under the hood; And
A second controller controlling vertical movement of each section of the suction unit;
Including,
The second controller is capable of moving downwardly only the section of the suction unit disposed above the portion where heat is generated by the second sensor,
How to build a kitchen hood.
The method of claim 6,
The second controller may control such that when one section of the suction unit is moved downward, the cooking utensils placed on the heater are not disposed closer than a preset distance,
How to build a kitchen hood.
The method of claim 6,
The hood,
A third sensor 113 disposed on the hood and capable of detecting liquid oil formed on the surface of the suction unit 111;
A removal element 114 disposed under the suction part 111 to move adjacent to one surface of the suction part to remove the liquid oil; And
A third controller for automatically driving the removal element 114 when liquid oil is detected on the surface of the suction unit 111 by the third sensor;
Including,
The removal element 114 is formed of a filter paper capable of absorbing liquid oil, and the removal element moves from one side of the suction part to the other side of the suction part along a guide formed on the suction part, and the surface of the suction part Which can absorb the liquid oil formed on the phase,
How to build a kitchen hood.

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