KR20160045445A - Constant Pressure Maintain Air Conditioning Unit of Compartment and Alignment Method - Google Patents

Abstract

The present invention relates to an air conditioning device for maintaining constant pressure of a compartment. The air conditioning device comprises: an air conditioner supplying air to a first compartment among a plurality of first compartments and second compartments divided from a machine room; a duct installed between the air conditioner and the first compartment; and a transfer duct installed between the first compartment and the second compartment and moving the air supplied to the first compartment to the second compartment. Therefore, the present invention can reduce costs and work time required for installation of the duct since the duct is installed in one compartment and the air conditioner, easily secures a space required for installation of the duct since the minimized number of duct is installed, and enables the transfer duct to be automatically opened and closed by pressure to maintain the uniform constant pressure of the compartments.

Description

Technical Field [0001] The present invention relates to an air conditioning apparatus for maintaining static pressure in a compartment,

The present invention relates to an air conditioner for static pressure holding in a compartment and a method of arranging the air conditioner in a compartment, and more particularly to an air conditioner for static pressure holding in a compartment that can maintain a space having a risk factor such as an explosion or fire at a pressure higher than atmospheric pressure And a method of arranging the same.

Generally, a ship is a structure that transports people and cargo while operating the sea. Generally, a large-scale structure such as a ship must have an air-conditioning device for purifying and circulating the internal air.

In the case of an engine room of a ship equipped with an engine that enables the operation of a ship, a space for installing machinery such as a generator, a boiler, etc., including a main engine for propulsion, is divided into a plurality of compartments, , Ducts for piping and air supply are complicatedly arranged.

The air supply of the engine room converts the polluted air into comfortable air, supplies combustion air to the main engine, generator engine and boiler, and cools the heat generated by various devices.

Mechanical (forced) ventilation by blower is applied in the engine room, which can maintain constant ventilation and room pressure compared to natural ventilation, but generates noise, energy consumption and equipment costs.

The air conditioning system of the engine room is mainly composed of a duct. The duct system is connected to a place requiring cooling, heating, or ventilation, and serves to supply or discharge an appropriate amount of air from one or a plurality of sources.

The design of an engine room duct or air conditioner is to determine a route that takes into account the shape of the duct and the efficient placement of the duct to provide sufficient flow to the appropriate location.

It is not easy to supply the required amount of flow to the desired place precisely through the duct system in the engine room because of various flow characteristics and pressure distribution according to the complicated duct system.

Failure to provide proper air supply for cooling combustion engine or high calorific equipment can lead to reduced operating efficiency of the ship and failure of the equipment, which can cause serious problems during the voyage.

On the other hand, the area accommodating the equipment such as explosion or fire can be prevented from entering the static pressure space by setting the pressure to maintain the static pressure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing an arrangement of an air conditioner for keeping a conventional compartment at a constant pressure; FIG.

As shown in Fig. 1, the machine room 1 comprises a compartment having a plurality of compartmented spaces. An air conditioner 2 for air conditioning is installed in the machine room 1. The air conditioner 2 includes a first compartment 3 and a second compartment 4, And a partition 5 separating the first compartment 3 and the second compartment 4 from each other is provided.

A first duct 6 is provided between the air conditioner 2 and the first compartment 3 and a second duct 7 is provided between the air conditioner 2 and the second compartment 4. [

The first compartment 3 and the second compartment 4 maintain a higher pressure than the machine room 1 in order to prevent air, gas,

It is necessary to install the air conditioner 2 and the ducts 6 and 7 in the respective compartments 3 and 4 as shown in FIG. 1, and the compartments 3 and 4 are provided with fire damper fire damper, and weather tight damper should be installed.

The second compartment 4 is used as an air lock for distinguishing between the machine room 1 and the outside air. Since the airtight compartment is formed as small as possible in the designing stage, The installation or disposition of the second duct 7 is restricted. In addition, these compartments (3, 4) must satisfy the ship-related regulations and requirements. However, since the compartment space is too narrow, it is difficult to satisfy the regulations and requirements related to the ship.

For example, Patent Document 1 below discloses a method for arranging a limited area ventilation system of a ship.

The method of arranging a limited area ventilation system of a ship according to Patent Document 1 includes a plurality of exhaust louver blades uniformly installed at a predetermined height interval to exhaust the compartment exhaust air in a first direction, There is disclosed a supplier which includes a plurality of supply louver blades uniformly installed at predetermined intervals, and sucks the compartment supply air in a second direction to supply the compartment supply air to the ship compartment.

The following Patent Document 2 discloses a "in-ship dangerous zone access system".

The on-board dangerous zone access system according to the following Patent Document 2 includes a static pressure space in which equipment having an explosion risk is accommodated, a static pressure space in which a first door is formed so as to form a static pressure so that it can enter and exit from the outside, And an air lock space for relieving a pressure between the positive pressure space and the negative pressure space, the system comprising: an inboard dangerous zone access system, And a control unit connected to the control unit to control the operation of the first door and the second door, and a control unit connected to the door and the second door to control the operation of the second door, 1 A negative pressure space access portion for driving the second door is disclosed according to the state of the door.

Korean Patent Publication No. 10-2013-0136062 (published on December 12, 2013) Korean Patent Publication No. 10-2013-0010389 (published on January 28, 2013)

However, according to the prior art air conditioner for static pressure maintenance of a compartment and its arrangement method, a plurality of ducts must be installed in order to maintain a plurality of spaces formed by the partition walls in a static pressure, There is a problem that it is necessary to install a fire damper and a weather weaving damper together with the duct, and it is difficult to maintain the divided compartments at the same static pressure.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems and provide an air conditioning apparatus and a method for arranging the same in a compartment which can easily maintain each compartment at the same static pressure.

It is another object of the present invention to provide an air conditioning apparatus and a method of arranging the same in a compartment for minimizing the number of ducts installed in the compartments, thereby reducing costs and operations associated with installing the ducts.

In order to achieve the above object, an air conditioning apparatus for maintaining a static pressure in a compartment according to the present invention comprises an air conditioner for supplying air to the first compartment among a plurality of first compartments and a second compartment partitioned by a machine room, A duct installed between the air conditioner and the first compartment, and a transfer duct installed between the first compartment and the second compartment for moving the air supplied to the first compartment to the second compartment, Is maintained at the same static pressure by the transfer duct.

The transfer duct may include a fire damper installed so that the air or the flame source of the second compartment is restricted from moving to the first compartment.

And a pressure regulating damper installed in each of the first compartment and the second compartment so as to maintain the same static pressure.

And the pressure regulating damper is opened at a higher pressure than the transfer duct.

In order to achieve the above-mentioned object, a method of arranging a static pressure maintaining air conditioner of a compartment according to the present invention is characterized in that, in order to block inflow of outside air into the first compartment and the second compartment, (A) arranging the air in the air conditioner to be supplied to the first compartment through a duct provided in the air conditioner, (b) And arranging the air in the first compartment to be supplied to the second compartment through a transfer duct provided in the partition between the first compartment and the second compartment so as to maintain the same static pressure.

In the step (b), a fire damper is installed in the transfer duct to block the air in the second compartment from moving into the first compartment.

As described above, according to the air conditioner for static pressure maintenance of the compartment according to the present invention, since the duct is installed only in the air conditioner and one compartment, the cost and the working time for installing the duct can be reduced, The space required for installing the duct can be easily secured and the transfer duct can be automatically opened and closed by the pressure so that the compartments can be maintained at the same static pressure.

According to the arrangement method of the static pressure maintaining air conditioner of the compartment according to the present invention, the air supplied from the duct provided in the compartment can be easily held at the same static pressure as the other compartments, It is possible to maintain the pressure and to block the movement of risk factors such as fire and explosion by interrupting the other compartments by the fire damper.

1 is a schematic view showing a conventional air conditioner for maintaining a static pressure in a compartment,
FIG. 2 is a configuration diagram showing a static pressure maintaining air conditioner of a compartment according to a preferred embodiment of the present invention;
3 is a sectional view showing the transfer duct of the air conditioner for maintaining the static pressure in the compartment according to the preferred embodiment of the present invention,
FIG. 4 is a process diagram showing a method for arranging an air conditioner for static pressure holding in a compartment according to a preferred embodiment of the present invention. FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an air conditioning apparatus and method for maintaining static pressure in a compartment according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view showing a transfer duct of a static pressure maintaining air conditioner of a compartment according to a preferred embodiment of the present invention.

The air conditioner for maintaining the static pressure in the compartment according to the preferred embodiment of the present invention supplies air to the first compartment 11 among the first compartment 11 and the second compartment 12 partitioned by the machine room 10, A transfer chamber provided between the first compartment and the second compartment and adapted to move the air supplied to the first compartment to the second compartment, (30).

The plurality of compartments (11, 12) may be maintained at the same constant pressure by the transfer duct (20).

As shown in FIGS. 2 and 3, the machine room 10 secures a space in which the device such as an engine of a ship is installed, and can be partitioned into a plurality of compartments 11 and 12 at an upper portion thereof.

The machine room 10 may be provided with an air conditioner 20 for cooling the heat generated by the engine or the like, as well as for ventilation. The air conditioner 20 may be installed inside the machine room 10 or outside the machine room 10.

The upper part of the machine room 10 may be provided with a plurality of compartments 11 and 12 so as to prevent a risk such as fire or explosion from being introduced from the outside. And the upper portion may be provided as a space defined by the first compartment 11 and the second compartment 12.

The first compartment 11 and the second compartment 12 are each divided into a divided space. However, the first compartment 11 and the second compartment 12 must maintain the same pressure. This is to prevent the inflow of air or gas which may cause fire or explosion from the outside.

The first compartment 11 and the second compartment 12 may be formed as a space divided by the partition 13 so that clean air is supplied to the first compartment 11 and air A duct 21 connected to the air conditioner 20 may be installed to maintain a high pressure state.

The duct 21 may be provided with a jet port 22 for jetting air at regular intervals. The first compartment 11 may be provided with a first pressure control damper 14 capable of discharging the air filled in the first compartment 11 so that the air supplied through the duct 21 is maintained at a predetermined pressure .

The second compartment 12 may be provided with a second pressure control damper 15 capable of discharging the air filled in the second compartment 12 so as to maintain the same pressure as the first compartment 11.

These pressure regulating dampers 14 and 15 allow the first compartment 11 and the second compartment 12 to maintain the same pressure state respectively while the first compartment 11 and the second compartment 12 are not excessively pressurized So that a set pressure higher than the atmospheric pressure of the machine room 10 or outside is maintained.

3, the air supplied to the first compartment 11 through the duct 21 is introduced into the second compartment 13 through the first compartment 11 and the second compartment 12, The transfer duct 30 can be installed so that the transfer duct 30 is moved to the transfer chamber 12.

The transfer duct 30 may be provided with a fire damper 31 for blocking the air supplied to the second compartment 12 from moving to the first compartment 11. [

The fire damper 31 may block the flame caused by fire or the like generated outside the second compartment 12 or the machine room 10 from being transferred to the first compartment 11. [

The transfer duct 30 has a hole 33 through which air can pass through the case 32 having a predetermined thickness and a fixing plate 34 having a predetermined length is fixed to one side of the hole 33 of the case 32 And a movable plate 35 having a predetermined or constant thickness can be fixed to the other side of the hole 33 of the case 32. [

The movable plate 35 is brought into close contact with the fixing plate 34 by the low pressure of the first compartment 11 to close the transfer duct 30 or to close the first compartment 12 so that the transfer duct 30 is opened.

The following is a detailed description of the engagement relationship of a static pressure maintaining air conditioner of a compartment according to a preferred embodiment of the present invention.

2 and 3, the air-conditioning apparatus for static pressure holding in the compartment according to the embodiment of the present invention includes an air conditioner 20 installed in a machine room 10 having a predetermined space, And a transfer duct 30 capable of maintaining the air supplied from the air conditioner 10 at the same pressure in a plurality of compartments 11 and 12 partitioned in the upper part.

The compartments 11 and 12 maintain the pressure set higher than the atmospheric pressure of the mechanical chamber 10 or the outside so as to divide the mechanical chamber 10 into a more secure space.

An air conditioner 20 can be installed in the machine room 10 so as to supply air to the compartments 11 and 12. The compartments 11 and 12 include a first compartment 11 and a second compartment 11, (12).

A duct 21 may be provided between the air conditioner 20 and the first compartment 11 so as to move (or supply) air generated in the air conditioner 20 to the first compartment 11 . The duct 21 can be limitedly connected to the first compartment 11 only.

That is, since the ducts 21 are limited only to the air conditioner 20 and the first compartment 11, the installation of the ducts 21 installed in the compartments 11 and 12 can be reduced, The installation space of the duct 21 can be more easily secured by the duct 21 and the cost for installation of the duct 21 can be reduced.

The first compartment 11 may be provided with a first pressure control damper 15 capable of discharging the air filled in the first compartment 11 so as to maintain a predetermined pressure, A second pressure regulating damper 15 identical to the pressure regulating damper 15 can be provided.

A partition wall 13 separating the first compartment 11 and the second compartment 12 is provided with a transfer duct 30 which is opened and closed so that the air supplied to the first compartment 11 is moved to the second compartment 12 Can be installed.

The transfer duct 30 can be kept open at all times and can be opened gradually as the pressure of the first compartment 11 rises to the set pressure.

The transfer duct 30 can form a hole 33 in a case 32 having a predetermined size and can be provided with a fixing plate 34 having a predetermined length on one side of the hole 33, The movable plate 35 having a predetermined length can be provided on the other side of the movable plate 35. [

The movable plate 35 is opened or closed according to the pressure of the first compartment 11, and one end thereof may be a free end which can freely move. That is, as the pressure of the first compartment 11 increases, the movable plate 35 can open and close the hole 33 by the pressure.

In addition, a fire damper 31 may be installed at one side of the transfer duct 30 to block the air in the second compartment 12 from moving to the first compartment 11. When the fire or explosion occurs in the second compartment 12 or the outside of the machine room 10, the fire damper 31 prevents the flame source, which has flowed into the second compartment 12, from moving to the first compartment 11 It is possible to prevent the machine room 10 from being exposed to fire or the like.

As shown in FIG. 4, the method for arranging the static pressure maintaining air conditioner of the compartment according to the preferred embodiment of the present invention includes a first compartment 11 and a second compartment 12, (20) to maintain the compartments (11, 12) at a higher pressure than the outside in order to cut off the air in the compartments (11, 12) (12) so that the first compartment (11) and the second compartment (12) are maintained at the same static pressure as the first compartment (11) And arranging the air in the first compartment 11 to be supplied to the second compartment 12 through the transfer duct 30 installed in the partition 13.

2 to 4, a method for arranging a static pressure air-conditioning apparatus for a compartment according to an embodiment of the present invention includes a machine room 10 in which an engine or the like of a ship is installed and a plurality of compartments 11 and 12 And can be formed into a plurality of divided spaces.

An air conditioner 20 capable of supplying air to the compartments 11 and 12 as well as the machine room 10 is installed in the machine room 10 or the outside thereof.

The air conditioner 20 is connected to a duct 20 capable of supplying air to the first compartment 11 and the duct 20 is connected to the air conditioner 20 through a plurality of air outlets 22, The first compartment 11 and the second compartment 11 are connected to each other.

Thus, the air supplied from the air conditioner 20 is supplied to the first compartment 11 through the duct 21 (S10).

As the air is continuously supplied to the first compartment 11, the pressure of the first compartment 11 rises.

The air blown from the duct 21 through the transfer duct 30 which is opened while the pressure of the first compartment 11 rises or is always open is supplied to the first compartment 11 and the second compartment 12 at the same time.

The air in the first compartment 11 is supplied to the second compartment 12 through the transfer duct 30 so that the pressure in the second compartment 12 is increased as the pressure in the first compartment 11 is increased. (S20).

In addition, the transfer duct 30 may be provided with a fire damper 31 for blocking the air in the second compartment 12 from moving to the first compartment 11. [ The fire damper 31 protects the first compartment 11 from fire or explosion of the second compartment 12 used as a hermetic compartment so that the main compartment 10 is protected from fire or explosion, It becomes possible to protect it.

The first pressure regulating damper 14 is connected to the first pressure regulating damper 14 which keeps the first compartment 11 at a predetermined pressure as the air supplied to the first compartment 11 increases, And the first pressure regulating damper 14 keeps the first compartment 11 at a set pressure.

The air in the first compartment 11 is supplied to the second compartment 12 through the transfer duct 30 and the air supplied to the second compartment 12 flows into the first compartment 12 It is possible to maintain a constant pressure state, which is the same pressure as that of the first and second cylinders 11 and 11.

On the other hand, when the pressure of the first compartment 11 is higher than the predetermined pressure, the first pressure control damper 14 is opened to maintain the first compartment 11 at a predetermined pressure.

In addition, when the pressure in the second compartment 12 is higher than the predetermined pressure, the second pressure regulating damper 15 is opened and the second compartment 12 can be maintained at a predetermined pressure .

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

10: machine room 11: first compartment
12: second compartment 13: partition wall
14: first pressure regulating damper 15: second pressure regulating damper
20: air conditioner 21: duct
22: air outlet 30: transfer duct
31: Fire damper

Claims (6)

An air conditioner for supplying air to the first compartment among a plurality of first compartments and a second compartment partitioned by the machine room,
A duct installed between the air conditioner and the first compartment,
And a transfer duct installed between the first compartment and the second compartment for moving the air supplied to the first compartment to the second compartment,
Wherein the plurality of compartments are held at the same static pressure by the transfer duct. The method according to claim 1,
Wherein the transfer duct includes a fire damper installed in the second compartment so that air or a flame source of the second compartment is restricted from moving to the first compartment. The method according to claim 1,
And a pressure regulating damper installed in the first compartment and the second compartment such that the same static pressure is maintained in the first compartment and the second compartment. The method of claim 3,
Wherein the pressure regulating damper is opened at a higher pressure than the transfer duct. And an air conditioner for maintaining the compartment at a higher pressure than the outside in order to block inflow of outside air into the first compartment and the second compartment,
(a) arranging the air in the air conditioner to be supplied to the first compartment through a duct provided in the air conditioner,
(b) arranging the air in the first compartment to be supplied to the second compartment through a transfer duct provided in a partition between the first compartment and the second compartment so as to maintain the same static pressure as the first compartment Wherein the air conditioner comprises a plurality of air conditioners. 6. The method of claim 5,
Wherein in the step (b), a fire damper is installed in the transfer duct to block the air in the second compartment from moving to the first compartment.

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