KR20220025433A - Ventilation system for shaft generator motor room and vessel including the same - Google Patents

Abstract

The present invention relates to an air conditioning system. The air conditioning system includes: a package type air conditioning unit located on an inner wall of an electricity panel room; a cold air duct connected to the air conditioning unit, and having a plurality of cold air discharge parts located therein at regular intervals so as to discharge cold air in response to a plurality of objects to be cooled; a plurality of air dampers installed on the cold air duct at regular intervals; and a ventilation line including a ventilation fan connected with a variable frequency drive (VFD) mechanism to ventilate the variable frequency drive mechanism located in the electricity panel room. The air conditioning system is installed in a compacter size than an existing air conditioning system of an electricity panel room for space saving, installation with a selected proper capacity can be facilitated with high efficiency, and the discharge and ventilation of internal high-temperature heat can be smoothly performed.

Description

Air conditioning system of electric panel room for shaft generator motor system and ship equipped with the system {VENTILATION SYSTEM FOR SHAFT GENERATOR MOTOR ROOM AND VESSEL INCLUDING THE SAME}

The present invention constitutes an air conditioning system for cooling an electric panel room (equipment room), and more particularly, ventilation cooling of a panel room of a ship transformation and power generation drive (Transformer and VFD) for a shaft generator motor system of a ship The present invention relates to an air conditioning system of an electric panel room for a shaft generator motor system and a ship equipped with the system.

In offshore structures and ships, various plant facilities are installed, and an air conditioning system for ventilation of the work and residence of the plant facilities is mounted.

In ships, a centrally supplied cooling/heating system is applied. In the central supply type, air is cooled or heated by the air conditioning unit to a set temperature, and the main electrical equipment room located in the cabin (cabin, mess room, recreation room, office), etc. (electric switchboard/equipment room), etc. It is a method of supplying to the required area.

Such a centrally supplied heating and cooling system is an HCFC-based refrigerant freezer, an air handling unit that cools or heats air according to a preset temperature and supplies it to each room and equipment room of a residence area (AHU), and a package type air conditioner included.

On the other hand, the electric panel room for the shaft generator motor system of the ship is configured such that an independent package type air conditioning unit is installed adjacently, and high heat generated inside is discharged to the outside through the air conditioning unit.

This conventional air conditioning method for an electric panel room is a large-capacity air conditioning unit selected and installed in consideration of the heat of all electric equipment placed inside the room. There was a problem in that ventilation of the internal high temperature was not performed properly.

For reference, as the technology of the centrally supplied heating and cooling system for ships and offshore structures, the 'ship air conditioning system' disclosed in Patent Application No. 10-2016-0181614 and the 'air conditioning system' disclosed in No. 10-2014-0065214 There is this.

An object of the present invention is to save space by being installed more compactly than the conventional air conditioning system of an electric panel room, to select an appropriate capacity and to install easily, so the efficiency is high, and the shaft generator motor system in which the exhaust ventilation of the internal high heat is smoothly performed It is to provide an air conditioning system for an electric panel room for use and a ship equipped with the system.

An air conditioning system for an electric panel room for a shaft generator motor system according to the present invention is installed in an electrical panel room for a shaft generator motor system, and includes a plurality of cooling objects positioned inside the electric panel room; an air conditioning unit located inside the electric panel room; a cold air duct connected to the air conditioning unit and positioned at a predetermined interval so that a plurality of cold air discharge units discharge cold air in response to the plurality of cooling objects; and a plurality of air dampers installed at predetermined intervals in the cold air duct.

In addition, the plurality of cooling objects may include a variable frequency drive device (VFD), and may include a ventilation line having a ventilation fan connected to the variable frequency drive device for ventilation of the variable frequency drive device.

In addition, the cold air duct may include: a first duct connected adjacent to the air conditioning unit in the electric panel room and disposed to correspond to a width direction of the electric panel room; a pair of second ducts having one end connected to the first duct and installed to correspond to the longitudinal direction of the electric panel room; a pair of third ducts respectively connected to the other ends of the pair of second ducts on opposite sides of the first duct and disposed to correspond to the width direction of the electric panel room; and a pair of fourth ducts spaced apart from the pair of third ducts, respectively connected to the pair of second ducts, and extending to the variable frequency drive device.

In addition, the pair of second ducts may be disposed adjacent to both inner walls of the electric panel room.

In addition, the plurality of air dampers, one or more first dampers located in the first duct; at least one second damper located in the second duct; And it may include one or more third dampers located in the ventilation line.

In addition, the first damper may be positioned on both sides of the center of the first duct, and the second damper may be positioned in the second duct between the third duct and the fourth duct.

In addition, the plurality of cold air discharge unit, at least one first cold air discharge unit located in the first duct; at least one second cold air discharge unit located in the second duct; one or more third cold air outlets located in the third duct; And it may include at least one fourth cold air discharge unit located in the fourth duct.

In addition, the first cold air discharge unit is located on both sides in the center of the first duct, and the second cold air discharge unit is located in the second duct between the first duct and the fourth duct, and the third cold air The discharge unit may be located at an end of the third duct, and the fourth cold air discharge unit may be located at an end of the fourth duct.

In addition, the plurality of cooling objects further include an axial transformer and an electric panel, and some of the first cold air discharge unit and the second cold air discharge unit discharge cold air from both sides of the axis transformer, and the second cold air discharge unit Another part of the exhaust unit may be positioned to discharge cold air to the electric panel.

In addition, the air conditioning unit, as an independent package type, is located adjacent to the entrance of the electric panel room, the ventilation line has an exhaust hood, and the ventilation fan can be located on the opposite side of the air conditioning unit there is.

In addition, a plurality of temperature measuring transmitters for measuring and transmitting the temperature for each zone are installed in the electric panel room, and a controller connected to the plurality of temperature measuring transmitters and the plurality of air dampers is installed, and the controller includes the plurality of temperature measuring transmitters. The plurality of air dampers may be controlled so that the cold air delivered to each zone in the electric panel room is adjusted according to the temperature measured for each zone by the temperature measuring transmitter.

On the other hand, according to the present invention, it is possible to provide a ship equipped with an air conditioning system of the electric panel room for the shaft generator motor system described above.

According to the present invention, it is installed more compactly than the existing electric panel room air conditioning system to save space, and since it is easy to install by selecting an appropriate capacity, the efficiency is high, and for the shaft generator motor system in which the exhaust ventilation of the internal high heat is smoothly performed It is possible to provide an air conditioning system for an electric panel room.

1 is a layout view of an air conditioning system of an electric panel room for a shaft generator motor system according to an embodiment of the present invention.
FIG. 2 is a system control diagram of FIG. 1 .
3 is a side cross-sectional view of an air conditioning system of an electric panel room for a shaft generator motor system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

1 is a layout view of an air conditioning system of an electric panel room for a shaft generator motor system according to an embodiment of the present invention, and FIG. 2 is a system control diagram of FIG. 1 . 3 is a side cross-sectional view of an air conditioning system of an electric panel room for a shaft generator motor system according to an embodiment of the present invention. In the electric panel room 10 of this embodiment, an axial transformer 20 , an electric panel 30 , a variable frequency drive device 40 , and the like are installed.

1 to 3, the air conditioning system of the electric panel room for the shaft generator motor system according to an embodiment of the present invention is installed in the electric panel room 10 for the shaft generator motor system, and an air condition unit ( 100 ), a plurality of cold air ducts 110 , a plurality of air dampers 130 , and a ventilation line 140 .

The air conditioning unit 100 is an independent package type, which is a type of individual air conditioner located on the inner wall side of the electric panel room 10, is located adjacent to the entrance of the electric panel room 10, and is assembled at a factory. The refrigerator (compressor, condenser, expansion valve), cooler, blower, air filter control, box, etc. are assembled in the case of

The plurality of cold air ducts 110 are connected to the air conditioning unit 100 to guide cold air, and the plurality of cold air discharge units 120 are positioned at predetermined intervals to discharge cold air in response to a plurality of cooling objects, It is disposed in the upper area surrounding the electrical devices in the interior of the electrical panel room (10).

A plurality of cold air ducts 110 are connected adjacent to the air conditioning unit 100 in the electric panel room 10 , and a first duct 111 , a first A pair of second ducts 112 connected to the duct 111 and installed to correspond to the longitudinal direction of the electric panel room 10 and disposed adjacent to both inner walls of the electric panel room 10, and a first duct ( 111) is connected to the second duct 112 on the opposite side and includes a pair of third ducts 113 disposed on both sides to correspond to the width direction of the electric panel room 10.

The first duct 111 is disposed in front of the shaft transformer 20 , and guides cold air toward the second duct 112 , and the second duct 112 is bent at an approximately right angle from the first duct 111 . It is positioned on both sides of the variable frequency drive device 40 (VFD) and guides cold air toward the third duct 113 . The third duct 113 is bent at a substantially right angle to the second duct 112 , and guides cold air toward both ends of the variable frequency drive device 40 (VFD).

The plurality of cold air ducts 110 are spaced apart from the pair of third ducts 113 and connected to the second duct 112, and a pair of fourth ducts extending to the variable frequency drive device 40 (VFD) are arranged. It is appropriate to further include (114).

The fourth duct 114 is bent at a substantially right angle to the second duct 112 and guides cold air to both ends of the variable frequency drive device 40 (VFD).

On the other hand, the plurality of cold air discharge unit 120, the first cold air discharge unit 121 located on both sides in the center of the first duct 111, between the first duct 111 and the fourth duct 114 A plurality of second cold air outlet 122 positioned in the 2 duct 112 , a third cold air outlet 123 positioned at the end of the third duct 113 , and positioned at the end of the fourth duct 114 . and a fourth cold air discharge unit 124 that does.

A part of the first cold air discharge unit 121 and the second cold air discharge unit 122 discharges cold air from both sides of the axial transformer 20 , and the other part of the second cold air discharge unit 122 is an electric panel 30 . ) can be located to discharge cold air.

As such, the second cold air discharge unit 122 mainly discharges the cold air to both sides of the shaft transformer 20 and the variable frequency drive device 40 (VFD), and the third discharge unit mainly discharges the cold air to both sides of the variable frequency drive device 40 (VFD). The cold air is exhausted through the end.

The fourth cold air discharge unit 124 discharges cold air adjacent to the center of both sides of the variable frequency drive device 40 (VFD).

The plurality of air dampers 130 are installed at a predetermined interval in the cold air duct to control the flow rate or open/close, and the first dampers 131 and the third ducts ( It is appropriate to include a plurality of second dampers 132 positioned in the second duct 112 between the 113 and the fourth duct 114 , and a third damper 133 positioned in the ventilation line 140 . .

The first damper 131 controls the flow rate or opening/closing of cold air toward the second duct 112, and the second damper 132 controls the flow rate or opening/closing of cold air from the second duct 112 to the third duct 113 side. Adjust. Through this, the second damper 132 may adjust the flow rate distribution between the third duct 113 and the fourth duct 114 . The third damper 133 adjusts the flow rate discharged from the ventilation line 140 , and accordingly, the ventilation flow rate of the variable frequency drive device 40 (VFD) is adjusted. The third damper 133 is adjusted according to the load or internal temperature of the variable frequency drive device 40 (VFD).

The ventilation line 140 is provided with a ventilation fan 141 connected to the variable frequency drive device 40 for ventilation of the variable frequency drive device 40 (VFD) in the electric panel room 10 , and a variable frequency drive device (VFD) is provided. This is to exhaust heat from the drive device 40 .

The ventilation line 140 is provided with a discharge hood 145, and the ventilation fan 141 is suitably located on the opposite side of the air conditioning unit. It is appropriate that the exhaust hood 145 is installed above the variable frequency drive device 40 (VFD) so that air can be easily introduced from the variable frequency drive device 40 (VFD) to the ventilation line 140 side (Fig. see 3).

According to the air conditioning system of the electric panel room for a shaft generator motor system according to an embodiment of the present invention, cold air is supplied from the upper area to the lower area of the electric panel room 10 through a plurality of cold air ducts 110, The heat generated by the electric panel 30 and the variable frequency drive device 40 (VFD) is exhausted to the exhaust hood 145 through the rise, and thus air circulation by forced convection can be realized.

A plurality of temperature measuring transmitters 150 are installed in the electric panel room 10 to measure and transmit the temperature for each zone, and a control unit is connected to the plurality of air dampers 130 .

The controller 160 may control the plurality of air dampers 130 to adjust the cool air of the air conditioning unit 100 according to the temperature measured for each zone by the plurality of temperature measuring transmitters 150 .

In the above, the present invention has been described with reference to the embodiments shown in the drawings. However, the present invention is not limited thereto, and various modifications or other embodiments within the scope equivalent to the present invention are possible by those of ordinary skill in the art to which the present invention pertains. Accordingly, the true scope of protection of the present invention should be defined by the following claims.

10: electrical panel room 20: axial transformer
30: electric panel 40: variable frequency drive unit
100: air conditioning unit 110: a plurality of cold air ducts
111: first duct 112: second duct
113: third duct 114: fourth duct
120: a plurality of cold air exhaust
121: first cold air discharge unit 122: second cold air discharge unit
123: third cold air discharge unit 124: fourth cold air discharge unit
130: a plurality of air dampers
131: first air damper 132: second air damper
133: third air damper 140: ventilation line
141: ventilation fan 145: exhaust hood
150: temperature measurement transmitter 160: control unit

Claims (12)

As installed in the electric panel room for the shaft power motor system,
a plurality of cooling objects located inside the electric panel room;
an air conditioning unit located inside the electric panel room;
a cold air duct connected to the air conditioning unit, the plurality of cold air discharge units being positioned at predetermined intervals to discharge cold air corresponding to the plurality of cooling objects; and
A plurality of air dampers installed at predetermined intervals in the cold air duct; including, an electric panel room air conditioning system for a shaft generator motor system. The method of claim 1,
The plurality of cooling objects includes a variable frequency drive device (VFD),
and a ventilation line having a ventilation fan connected to the variable frequency drive device for ventilation of the variable frequency drive device. 3. The method of claim 2,
The cold air duct,
a first duct connected adjacent to the air conditioning unit in the electrical panel room and disposed to correspond to a width direction of the electrical panel room;
a pair of second ducts having one end connected to the first duct and installed to correspond to the longitudinal direction of the electric panel room;
a pair of third ducts respectively connected to the other ends of the pair of second ducts on opposite sides of the first ducts and disposed to correspond to the width direction of the electric panel room; and
An electrical panel room for a shaft generator motor system, including a pair of fourth ducts spaced apart from the pair of third ducts and connected to the pair of second ducts, respectively, extending to the variable frequency drive device of the air conditioning system. 4. The method of claim 3,
and the pair of second ducts are disposed adjacent to inner walls of both sides of the electric panel room. 4. The method of claim 3,
The plurality of air dampers,
at least one first damper positioned in the first duct;
at least one second damper located in the second duct; and
An air conditioning system for an electric panel room for a shaft generator motor system, comprising at least one third damper located in the ventilation line. 6. The method of claim 5,
The first damper is located on both sides in the center of the first duct,
The second damper is located in the second duct between the third duct and the fourth duct. 4. The method of claim 3,
The plurality of cold air discharge units,
one or more first cold air discharge units located in the first duct;
at least one second cold air discharge unit located in the second duct;
one or more third cold air outlets located in the third duct; and
An air conditioning system for an electric panel room for a shaft generator motor system, comprising at least one fourth cold air outlet located in the fourth duct. 8. The method of claim 7,
The first cold air discharge unit is located on both sides in the center of the first duct,
The second cold air discharge unit is located in the second duct between the first duct and the fourth duct,
The third cold air discharge unit is located at the end of the third duct,
The fourth cold air discharge unit is located at the end of the fourth duct, the air conditioning system of the electric panel room for the shaft generator motor system. 9. The method of claim 8,
The plurality of cooling objects further include an axial transformer and an electric panel,
Some of the first cold air discharge unit and the second cold air discharge unit discharge cold air from both sides of the axial transformer,
Another part of the second cold air discharge unit is located to discharge cold air to the electric panel, the air conditioning system of the electric panel room for the shaft generator motor system. 3. The method of claim 2,
The air conditioning unit, as an independent package type, is located adjacent to the entrance of the electric panel room,
The ventilation line has an exhaust hood, and the ventilation fan is located on the opposite side of the air conditioning unit. The method of claim 1,
A plurality of temperature measuring transmitters for measuring and transmitting the temperature for each area are installed in the electric panel room,
A control unit connected to the plurality of temperature measuring transmitters and the plurality of air dampers is installed,
The control unit controls the plurality of air dampers so that the cold air delivered to each area in the electric panel room is adjusted according to the temperature measured for each area by the plurality of temperature measuring transmitters. system. A ship equipped with an air conditioning system in an electric panel room for a shaft generator motor system according to any one of claims 1 to 11.

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