KR102628979B1 - Diffuser for vessel - Google Patents

Abstract

A diffuser device for ships is disclosed.
According to one embodiment of the present invention, a housing that receives gas from the outside and includes a lower outlet for discharging the gas downward, and a plurality of side outlets for discharging the gas laterally; at least one airflow guide plate configured to be movable to adjust relative amounts of gas flowing to the lower outlet and the side outlet within the housing; And a diffuser device for a ship can be provided, including a temperature sensitive member that moves the airflow guide plate by expanding and contracting in length depending on the temperature of the gas.

Description

Diffuser device for ships {DIFFUSER FOR VESSEL}

The present invention relates to a diffuser device for ships.

Generally, for cooling and heating on ships, a cooling and heating air conditioning method using cold or warm air supplied from an air conditioner is used, and with the development of various air conditioning systems, cooling and heating air conditioning methods are also developing.

Among the cooling, heating and air conditioning systems currently in use, the diffuser, which serves as an air outlet, has made little progress in terms of function and efficiency compared to the development of other devices.

Cold or warm air supplied from an air conditioner usually spreads throughout the room through a diffuser installed on the ceiling, playing the role of maintaining the indoor air temperature appropriately. Conventional diffusers have exhaust blades that discharge air in a certain direction (approx. , blowing angle of about 45 degrees), so the air discharged from the diffuser always diffuses in a certain direction regardless of the temperature.

For example, a conventional diffuser has a problem in that air is always diffused in a certain direction regardless of whether cold air is supplied in the summer or warm air is supplied in the winter. For reference, cold air is heavy due to its large air density, so it tends to descend immediately after being discharged from the diffuser, and warm air is light due to its low air density, so it tends to rise immediately after being discharged from the diffuser. If air is discharged in a certain direction regardless of temperature, there is a problem in that effective airflow distribution cannot be formed in summer and winter.

Japanese Patent No. 3172400 (registered on March 23, 2001)

An embodiment of the present invention is intended to provide a diffuser device for ships in which the discharge amount and discharge direction are automatically adjusted according to the temperature of the discharged air to maintain appropriate airflow distribution indoors at all times.

According to one aspect of the present invention, a housing that receives gas from the outside and includes a lower outlet for discharging the gas downward, and a plurality of side outlets for discharging the gas laterally; at least one airflow guide plate configured to be movable to adjust relative amounts of gas flowing to the lower outlet and the side outlet within the housing; A diffuser device for a ship may be provided, including a temperature sensitive member that moves the airflow guide plate by expanding and contracting in length depending on the temperature of the gas.

In addition, a plurality of side outlets are provided, and the at least one air flow guide plate includes: a first air flow guide plate disposed on one side of the interior of the housing and slidable toward one of the plurality of side outlets; and a second air flow guide plate disposed on the other side of the housing, provided to be slidable toward another one of the plurality of side outlets, and installed at a predetermined distance from the first air flow guide plate, wherein the temperature sensitive The member connects the first air flow guide plate and the second air flow guide plate to each other, and when contacted with the gas at a temperature lower than a predetermined temperature, the separation distance between the first air flow guide plate and the second air flow guide plate becomes small. The distance between the side outlet and the first air flow guide plate and the second air flow guide plate is increased, and when contact with the gas having a temperature higher than a predetermined temperature is made, the separation distance between the first air flow guide plate and the second air flow guide plate is may be made large, but the distance between the side outlet and the first air flow guide plate and the second air flow guide plate may be made small.

In addition, the lower outlet includes a plurality of blades formed at different inclination angles so that air spreads obliquely downward, and the temperature sensitive member may be made of a shape memory alloy in the form of a coil spring.

In addition, it is provided at an end of the first air flow guide plate and one side of the inner side of the housing, and an end of the second air flow guide plate and the other side of the inner side of the housing, respectively, and the first air flow guide plate and the second air flow guide are provided. The plate may further include elastic members that provide elastic force, respectively.

Additionally, the first air flow guide plate and the second air flow guide plate are arranged in a straight line to maintain a horizontal state with each other, and may slide in a direction toward or away from the side outlet.

According to an embodiment of the present invention, when cold air is discharged, the amount of air discharged through the side outlet becomes greater than the amount of air discharged through the lower outlet, so that cold air with high air density is discharged to the side of the housing and then downward. Convection has the effect of lowering the temperature of a wider space.

In addition, when warm air is discharged, the amount of air discharged through the lower outlet becomes greater than the amount of air discharged through the side outlet, so the air density is small and the light warm air is discharged to the bottom of the housing and then spreads to the surroundings and convects upward again. Because of this, it has the effect of raising the temperature of a wider space.

Figure 1 is a perspective view showing a diffuser device for a ship according to an embodiment of the present invention.
Figure 2 is a diagram showing the diffusion state of air when cold air is discharged from a marine diffuser device according to an embodiment of the present invention.
Figure 3 is a diagram showing the diffusion state of air when warm air is discharged from a marine diffuser device according to an embodiment of the present invention.

Hereinafter, the configuration and operation according to an embodiment of the present invention will be described in detail with reference to the attached drawings. The following description is one of several aspects of the invention that can be claimed for patent, and the following description may form part of a detailed description of the invention.

However, when describing the present invention, detailed descriptions of well-known structures or functions may be omitted for clarity of the present invention.

Since the present invention can make various changes and include various embodiments, specific embodiments will be illustrated in the drawings and described in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Terms including ordinal numbers, such as first, second, etc., may be used to describe various components, but the components are not limited by these terms. These terms are used only to distinguish one component from another.

When a component is said to be 'connected' or 'connected' to another component, it is understood that it may be directly connected or connected to the other component, but that other components may exist in between. It should be.

The terms used in this application are only used to describe specific embodiments and are not intended to limit the invention. Singular expressions include plural expressions unless the context clearly dictates otherwise.

Hereinafter, a diffuser device for a ship according to an embodiment of the present invention will be described with reference to the attached drawings.

Figure 1 is a perspective view showing a diffuser device for a ship according to an embodiment of the present invention, Figure 2 is a diagram showing the diffusion state of air when discharging cold air from a diffuser device for a ship according to an embodiment of the present invention, and Figure 3 is a diagram showing the diffusion state of air when warm air is discharged from a marine diffuser device according to an embodiment of the present invention.

1 to 3, the marine diffuser device 10 according to an embodiment of the present invention may include a housing 200, at least one airflow guide plate 300, and a temperature sensitive member 500. .

The air supply pipe 100 is connected to an air conditioner (not shown) and can receive a predetermined gas (eg, cold air or warm air) from the air conditioner. The air supply pipe 100 is made of a material that can minimize heat loss, and can be connected to supply gas (cold air or warm air) from the air conditioner to one side of the ceiling 20. Here, the gas can be cold air with a temperature lower than a predetermined temperature and warm air with a temperature higher than the predetermined temperature. Cold air and warm air are relative concepts of air with different temperatures, and hereinafter, for convenience of explanation and understanding. To help, the terms cold wind and warm wind are used.

The housing 200 is provided at the end of the air supply pipe 100 and can be installed on the ceiling 20 to receive gas such as cold or warm air therein. The housing 200 has a predetermined receiving space formed inside, and is connected to the air supply pipe 100 to receive cold or warm air from the air supply pipe 100 and temporarily store it.

The housing 200 is formed with an accommodating space having a larger cross-sectional area than the air supply pipe 100 to temporarily store the supplied cold or warm air, and the cold or warm air is temporarily stored in this accommodating space and then discharged to the outside of the housing 200. It can be.

The housing 200 may include a bottom outlet 210 and a plurality of side outlets 220.

The lower outlet 210 may be provided on the lower surface of the housing 200 to discharge cold or warm air downward from the housing 200. At this time, the lower outlet 210 may include a plurality of blades 211 formed at different inclination angles to allow air to obliquely diffuse downward of the housing 200, as shown in FIG. 2 .

Since the plurality of blades 211 are each formed at different inclination angles, when cold or warm air is discharged through the lower outlet 210, the cold or warm air is not concentrated at any point below the housing 200 but around the surrounding area. It can spread into the room, thereby allowing air to quickly spread indoors and improving airflow distribution with an appropriate temperature.

Additionally, a plurality of side discharge ports 220 may be provided, and may be provided on the side of the housing 200 to discharge cold or warm air to the side of the housing 200. The side discharge ports 220 may be formed on at least two of the sides of the housing 200, and the number of side discharge ports 220 can be increased or decreased as needed. Accordingly, the cold or warm air supplied into the housing 200 may be discharged to the outside of the housing 200 through the lower outlet 210 and the side outlet 220.

The air flow guide plate 300 may be provided to be movable to adjust the relative amounts of gas flowing to the lower outlet 210 and the side outlet 220 within the housing 200.

At least one airflow guide plate 300 may be provided. Accordingly, one air flow guide plate 300 may be provided, but as shown, a plurality of first air flow guide plates 300 and second air flow guide plates 400 may be provided. Hereinafter, a case in which a plurality of airflow guide plates are provided will be described as an example.

The first airflow guide plate 300 may be provided to guide the airflow direction of cold or warm air introduced into the housing 200 through the air supply pipe 100. Accordingly, the first airflow guide plate 300 is disposed on one side between the end of the air supply pipe 100 and the lower outlet 210, as shown in FIGS. 2 and 3, to allow air flowing into the interior of the housing 200. To prevent cold or warm air from escaping through the lower outlet 210, the air flow can be temporarily blocked, and the direction of the air flow can be guided towards the lower outlet 210 or the side outlet 220, if necessary.

The first airflow guide plate 300 may be installed to be slidable toward any one side outlet 220 among the plurality of side outlets 220 . A sliding portion 310 may be provided at the lower portion of the first air flow guide plate 300 so that the first air flow guide plate 300 slides smoothly toward the side outlet 220.

In addition, the second airflow guide plate 400 is disposed on the other side between the end of the air supply pipe 100 and the lower outlet 210, and at this time, it is aligned in a straight line to maintain a horizontal state with the first airflow guide plate 300. can be placed.

The second airflow guide plate 400 is also provided to be able to slide toward another side outlet 220 among the plurality of side outlets 220, and a second airflow guide plate 400 is also provided on the lower part of the second airflow guide plate 400. ) may be provided with a sliding part 410 that allows it to slide smoothly.

At this time, the second airflow guide plate 400 may be installed to be spaced apart from the first airflow guide plate 300 by a predetermined distance. When the separation distance between the first air flow guide plate 300 and the second air flow guide plate 400 is reduced, the amount of air discharged through the lower outlet 210 decreases, while the amount of air discharged through the side outlet 220 decreases. can be increased.

Additionally, the temperature sensitive member 500 expands and contracts in length depending on the temperature of the gas and can move the airflow guide plate 300. Specifically, the temperature sensitive member 500 connects the first air flow guide plate 300 and the second air flow guide plate 400, and expands and contracts in length depending on the temperature change of the gas in contact with the temperature sensitive member 500. It can be.

Therefore, as shown in FIG. 2, when cold air flows into the interior of the housing 200 and the temperature sensitive member 500 comes into contact with the cold wind, the temperature sensitive member 500 contracts and connects the first airflow guide plate 300 and the second airflow guide plate 300. 2 The separation distance between the airflow guide plates 400 becomes smaller.

Since the separation distance between the first air flow guide plate 300 and the second air flow guide plate 400 is reduced, the air moving to the lower outlet 210 flows through the first air flow guide plate 300 and the second air flow guide plate 400. The amount of cold air discharged through the lower outlet 210 is reduced.

On the other hand, since the first air flow guide plate 300 and the second air flow guide plate 400 slide in a direction away from the side outlet 220, the side outlet 220, the first air flow guide plate 300, and the second air flow As the distance between the guide plates 400 increases, cold air moves toward the side outlet 220 by the first and second air flow guide plates, and can be discharged to the side of the housing 200 through the side outlet 220.

In this way, when the temperature sensitive member 500 is contacted with cold wind as shown in FIG. 2, the amount of air discharged through the side outlet 220 becomes greater than the amount of air discharged through the lower outlet 210, and thus Accordingly, cold air with high air density is discharged to the side of the housing 200 and then convects downward, thereby lowering the temperature of a wider space.

Meanwhile, as shown in FIG. 3, when warm air flows into the interior of the housing 200 and the temperature sensitive member 500 comes into contact with the warm air, the temperature sensitive member 500 expands and connects the first airflow guide plate 300 and the second airflow guide plate 300. 2 The separation distance between the airflow guide plates 400 increases.

Since the separation distance between the first air flow guide plate 300 and the second air flow guide plate 400 increases, a relatively large amount is moved to the lower outlet 210, and the amount of warm air discharged through the lower outlet 210 is cold air. It increases significantly compared to the previous day.

On the other hand, since the first airflow guide plate 300 and the second airflow guide plate 400 slide in a direction approaching the side outlet 220, the side outlet 220, the first airflow guide plate 300, and the second airflow guide plate 300 Since the distance between the airflow guide plates 400 is reduced, a smaller amount of warm air can be discharged to the side of the housing 200 through the side outlet 220 compared to cold air.

In this way, when the temperature sensitive member 500 is contacted with warm air as shown in FIG. 3, the amount of air discharged through the lower outlet 210 becomes greater than the amount of air discharged through the side outlet 220, and thus Accordingly, warm air with low air density and light is discharged to the lower part of the housing 200 and then spreads to the surroundings and convects upward again, thereby increasing the temperature of a wider space.

Here, the temperature sensitive member 500 may be made of a shape memory alloy in the form of a coil spring, as shown in FIGS. 2 and 3. Shape memory alloy remembers both the shape of the austenite state and the shape of the martensite state and changes its shape according to cooling and heating, so it can perform the function of contracting when it comes into contact with cold air and expanding when it comes into contact with warm air. there is.

Additionally, an embodiment of the present invention may further include an elastic member 600.

As shown in FIGS. 2 and 3, the elastic member 600 is provided at the end of the first air flow guide plate 300 and one side of the inner surface of the housing 200, and is provided at the end of the second air flow guide plate 400 and They may be provided on the other inner side of the housing 200, respectively.

The elastic member 600 provides elastic force to the first air flow guide plate 300 and the second air flow guide plate 400, respectively, to induce the first air flow when the temperature sensitive member 500 expands and contracts in length depending on the temperature of the air. The plate 300 and the second airflow guide plate 400 can slide more smoothly.

The length of the elastic member 600 may increase when the temperature-sensitive member 500 contracts as shown in FIG. 2, and its length may increase when the temperature-sensitive member 500 expands as shown in FIG. 3. It may decrease.

Above, the present invention has been described using preferred embodiments, but the scope of the present invention is not limited to the specific embodiments described, and those skilled in the art may use the scope of the present invention. Substitution and change of components are possible, and this also falls within the rights of the present invention.

10: Marine diffuser device 20: Ceiling
100: air supply pipe 200: housing
210: lower outlet 211: blade
220: side outlet 300: first airflow guide plate
400: second air flow guide plate 500: temperature sensitive member
600: Elastic member

Claims (5)

A housing that receives gas from the outside and includes a lower outlet for discharging the gas downward, and a plurality of side outlets for discharging the gas laterally;
at least one airflow guide plate configured to be movable to adjust relative amounts of gas flowing to the lower outlet and the side outlet within the housing; and
It includes a temperature-sensitive member that moves the airflow guide plate by expanding and contracting in length depending on the temperature of the gas,
A plurality of side outlets are provided,
The at least one airflow guide plate,
a first airflow guide plate disposed on one side of the housing and slidable toward one of the plurality of side outlets; and
It is disposed on the other side of the interior of the housing, is provided to be able to slide to the other one of the plurality of side outlets, and includes a second air flow guide plate installed at a predetermined distance from the first air flow guide plate,
The temperature sensitive member is,
Connecting the first air flow guide plate and the second air flow guide plate to each other,
When contacted with the gas at a temperature lower than a predetermined temperature, the separation distance between the first air flow guide plate and the second air flow guide plate is reduced, but the distance between the side outlet and the first air flow guide plate and the second air flow guide plate is increased. And
When contacted with the gas at a temperature higher than a predetermined temperature, the separation distance between the first air flow guide plate and the second air flow guide plate is increased, but the distance between the side outlet and the first air flow guide plate and the second air flow guide plate is Make it smaller,
Provided at an end of the first air flow guide plate and one side of the inner side of the housing, and at an end of the second air flow guide plate and the other side of the inner side of the housing, respectively, wherein the first air flow guide plate and the second air flow guide plate are provided. Each further includes an elastic member that provides elastic force,
The first air flow guide plate and the second air flow guide plate are arranged in a straight line to maintain a horizontal state with each other and slide in a direction toward or away from the side outlet,
The first air flow guide plate and the second air flow guide plate are disposed above the side outlet,
Diffuser device for ships. delete According to claim 1,
The lower outlet includes a plurality of blades formed at different inclination angles so that air diffuses in an inclined downward direction,
The temperature-sensitive member is composed of a shape memory alloy in the form of a coil spring,
Diffuser device for ships. delete delete

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