KR20160050358A - Apparatus and Control Method for Ventilation - Google Patents

Abstract

The present invention relates to a ventilation apparatus capable of controlling the amount of ventilation according to the positions and the number of loaded freezer containers, and a control method thereof. The ventilation apparatus comprises: a plurality of intake fans installed in an intake pipe guiding external air of a freight warehouse forming a space, in which freezer containers are loaded, to the freight warehouse, and introducing the external air into the freight warehouse; a plurality of fine pipe fans installed in a plurality of fine pipes respectively connected with the intake pipes and moving the air introduced into the freight warehouse to the freezer containers; a plurality of exhaust fans discharging air from the freight warehouse to the outside; and a control unit controlling operations of the plurality of intake fans, the plurality of fine pipe fans, and the plurality of exhaust fans according to information on the positions and the number of the freezer containers loaded in the freight warehouse.

Description

Technical Field [0001] The present invention relates to a ventilation apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a ventilation apparatus and a control method, and more particularly, to a ventilation apparatus and a control method for controlling the driving of an intake fan and an exhaust fan according to the number and position of accommodated containers.

The frozen food, such as frozen food, which is to be moved in a frozen state, is housed in a refrigeration container provided with a cooling device and transported through a ship.

At this time, the freezing container is loaded on the cargo hold provided on the ship, and the heat is discharged to the outside of the freezing container. As a result, the temperature inside the cargo hold is increased, so that the cooling efficiency of the freezing container is lowered and the fuel used can be increased.

Therefore, a facility for circulating air inside and outside the cargo hold in which the refrigeration container is disposed was invented. However, even if a small amount of freezing container is loaded in a cargo hold, a general cargo hold ventilation system must drive all of the ventilation devices provided in the entire cargo hold, resulting in low energy efficiency.

Korea public utility model 20-2011-0003461 (public date: 2011.04.06)

It is an object of the present invention to provide a ventilation device and a control method for circulating air inside and outside of a cargo hold in which a refrigeration container is accommodated.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a ventilator and a control method for controlling the driving of the ventilator in accordance with the number and position of loaded refrigeration containers.

The problems of the present invention are not limited to the above-mentioned problems, and another problem that is not mentioned can be clearly understood by a person skilled in the art from the following description.

According to an aspect of the present invention, there is provided a refrigerator comprising: a plurality of inflow fans installed in an inflow pipe for guiding the outside air of a cargo hold forming a space in which a freezing container is loaded to the cargo hold, the inflow fan being connected to the inflow pipe A plurality of detailed piping fans installed in the plurality of detailed pipes for moving the air introduced into the cargo hold to the refrigeration container, a plurality of exhaust fans for discharging the air inside the cargo hold to the outside, Disclosed is a ventilating apparatus including a control unit for controlling the driving of the plurality of inflowing fans, the detailed piping fan and the exhausting fan in accordance with the loading position and the number information to be loaded.

Wherein the control unit comprises: a storage unit for storing a database in which the loading position and the number information for loading the refrigeration container are stored in the cargo hold; a receiving unit for receiving the loading position and the number information of the refrigeration container recorded in the database; A detailed piping fan and an exhaust fan to be driven among the plurality of inflow fans, the detailed piping fan and the exhaust fan according to the loading position and the number information of the refrigeration container received by the receiving unit, And a driving control unit for controlling driving of the inlet fan, the detailed piping fan, and the exhaust fan according to the determined information.

The judging unit may include a position judging unit for judging driving of the inlet fan, the detailed piping fan and the exhaust fan adjacent to the loading position of the refrigerant container among the plurality of inlet fans, the detailed piping fan and the exhaust fan, And a number determination unit for determining the number of the intake fan, the detailed piping fan, and the exhaust fan to be driven or the rotation speed of the exhaust fan.

And a display unit for displaying the position and the number of the inlet fan, the detailed piping fan, and the exhaust fan determined to be driven and stopped by the determination unit.

According to another aspect of the present invention, there is provided a refrigeration system, comprising: a storage step in which a loading position and a number information of the refrigeration container loaded on a cargo hold forming a space for loading a refrigeration container are stored in a database; A plurality of inflow fans for introducing outside air into the cargo hold according to the loading position and the number information, and a plurality of inflow pipes connected to the inflow pipe, respectively, A plurality of detailed piping fans to be moved to the container, and a plurality of exhaust fans for discharging the air of the cargo hold to the outside, a determination step of determining the inlet fan, the detailed piping fan and the exhaust fan to be driven, And a drive step of driving the intake fan, the detailed piping fan, and the exhaust fan, It is poetry.

Wherein the determining step includes determining a position of the inlet fan, the detailed piping fan, and the exhaust fan adjacent to the loading position of the plurality of inlet fans, the detailed piping fan, and the exhaust fan, Determining whether the number of the intake fan, the detailed piping fan, and the exhaust fan to be driven according to the number of revolutions of the exhaust fan,

And a releasing step of releasing driving of the inlet fan, the detailed piping fan, and the exhaust fan being driven according to the position and the number of the refrigerating container removed when the refrigeration container is removed from the cargo hold.

The ventilation device and the control method according to the embodiment of the present invention can circulate air inside and outside the cargo hold in which the freezing container is housed.

The ventilation device and the control method according to the embodiment of the present invention can control the driving of the ventilation device according to the number and position of the loaded refrigeration containers.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 to 4 are views showing a ventilator according to an embodiment of the present invention;
5 is a view illustrating a control unit of a ventilator according to an embodiment of the present invention;
6 is a view showing a database used in a ventilator according to an embodiment of the present invention; And
7 is a view illustrating a ventilation control method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the appended drawings illustrate the present invention in order to more easily explain the present invention, and the scope of the present invention is not limited thereto. You will know.

Furthermore, the terms used in the present invention are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present invention, the term "comprises" or "having ", etc. is intended to specify that there is a feature, number, step, operation, element, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

An item to be transported in a frozen state can be carried in the freezing container (20) through a vessel. At this time, the freezing container 20 is disposed in the cargo hold 10 provided in the ship and may discharge heat to the outside of the freezing container 20 in order to lower the temperature inside the freezing container 20.

The temperature of the interior of the cargo hold 10 is higher than the outside of the cargo hold 10 and the performance of the refrigerator container 20 disposed inside the cargo hold 10 And thus the consumption of energy for operating the refrigeration container 20 may increase.

In order to solve this problem, the ventilator according to the embodiment of the present invention may be installed in the cargo hold 10 to circulate air inside and outside the cargo hold 10 to reduce the temperature inside the cargo hold 10.

As shown in FIG. 1, an inlet 100 and an outlet 200 may be installed in the cargo hold 10. At this time, the inlet portion 100 and the exhaust portion 200 may be provided inside the cargo hold 10 to ventilate air inside and outside the cargo hold 10.

2 to 4, the inflow section 100 is a facility for introducing the outside air of the cargo hold 10 into the cargo window 10, and the inflow section 100 includes an inlet fan 120, An inlet pipe 140, a detail pipe 160, and a detail pipe fan 180. [

The inlet fan 120 has a propeller shape and is capable of generating power for introducing the outside air of the cargo hold 10 into the cargo hold 10 through rotation.

The inlet pipe 140 may have a pipe shape and may be a passage through which the air outside the cargo hold 10 is introduced into the cargo hold 10.

The detailed piping 160 may be a passage for guiding the air outside the cargo hold 10 introduced into the inflow pipe 140 to the heating surface 30 of each container 20 placed in the cargo hold 10. The detailed piping 160 may have a shape similar to the shape of the inflow pipe 140 and may include a plurality of detailed piping 160 in one inflow pipe 140. The detailed piping fan 180 may be installed in each of the plurality of detailed piping 160 to move air introduced into the cargo hold 10 to the freezing container 20.

At this time, the detailed piping fan 180 has a propeller shape and can generate power to move the air that has flowed into the cargo hold 10 through the rotation to the freezing container 20.

The heating surface 30 may be provided on one side of the freezing container 20 and may be a portion for discharging heat to the outside of the freezing container 20 to lower the internal temperature of the freezing container 20. [

As the inlet fan 120 and the detail piping fan 180 are driven, air outside the cargo hold 10 can be introduced into the heating surface 30 through the inlet pipe 140 and the detail pipe 160 .

4, the exhaust unit 200 is a facility for discharging the air in the cargo hold 10 to the outside of the cargo hold 10. The exhaust unit 200 includes an exhaust fan 220, (240).

The exhaust fan 220 has a propeller shape and can generate power for discharging the internal air of the cargo hold 10 to the outside of the cargo hold 10 through rotation.

The exhaust pipe 240 has a pipe shape and may be a passage for discharging the air inside the cargo hold 10 to the outside of the cargo hold 10.

As the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 are driven, the air inside and outside the cargo hold 10 can be vented. The inlet fan 120, the detailed piping fan 180, and the exhaust fan 220 can be efficiently controlled according to the position and the number of the refrigerant containers 20 mounted on the cargo hold 10, thereby enhancing the fuel efficiency.

When the ship loaded with the cargo hold 10 arrives at the destination and the freezing container 20 is removed from the cargo hold 10, the inlet fan 120, which has been driven according to the position and the number of the removed freezer container 20, The driving of the detailed piping fan 180 and the exhaust fan 220 can be released.

The inflow fan 120, the detailed piping fan 180 and the exhaust fan 220 corresponding to the areas (not shown) in which the plurality of refrigeration containers 20 are to be disposed, respectively, may be installed in the cargo hold 10. At this time, information on the position, number, and performance of the inlet fan 120, the detailed piping fan 180, and the exhaust fan 220 installed in the cargo hold 10 can be stored in a storage device of a computer (not shown). The inflow fan 120, the detailed piping fan 180 and the exhaust fan 220 corresponding to the freezing container 20 are arranged in the vicinity of the freezing container 20 in the vicinity of the freezing container 20, Can be circulated.

As shown in FIG. 5, the control unit 900 may further include a ventilator control unit 900 according to an embodiment of the present invention.

The control unit 900 controls a plurality of the inlet fans 120, the detailed piping fans 180 and the exhaust fans 220 to control the driving of the plurality of inlet fans 120, the detailed piping fans 180 and the exhaust fans 220 according to the loading position and the number information, And may include a storage unit 400, a receiving unit 500, a determination unit 600, and a driving control unit 700.

The storage unit 400 may store a database in which the loading position and the number information of the refrigeration container 20 loaded in the cargo hold 10 are recorded.

The database may be stored in a storage device of a computer provided in the hull, and an operator may input the storage location and the number of the storage in the storage unit 400 of the computer.

6, the loading position and the number information of the freezing container 20 are stored in the database, and not only the loading position and the number information, but also the number of the refrigeration container 20, the loading date, the destination, , The holding temperature, the loading position, and the receiving article.

6 is not limited to the information shown in FIG. 6, and various other information about the refrigeration container 20 may be stored in the database Lt; / RTI >

Further, the position and the number information of the freezing container 20 can be stored in the storage unit 400 through the input of the operator, but the present invention is not limited thereto. For example, a sensor unit (not shown) for sensing the refrigeration container 20 may be provided to store the position and the number information in the storage unit 400.

The receiving unit 500 can read the loading position and the number information of the refrigeration container 20 recorded in the database.

The receiving unit 500 included in the computer reads the position information of the position where the freezing container 20 is loaded and the position where the freezing container 20 is not loaded in the cargo hold 10, It is possible to read the number information about the quantity of the frozen containers 20. At this time, the number information and position information read from the receiving unit 500 may be sent to the determining unit 600.

The determining unit 600 may determine whether the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 to be driven among the plurality of the inlet fans 120, the detailed exhaust pipes 220, The piping fan 180 and the exhaust fan 220 can be determined. In this case, the determination unit 600 may include a position determination unit 620 and a number determination unit 640. The position determiner 620 compares the position of the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 stored in the computer with the position of the refrigerator container 20 stored in the storage unit 400 The detailed piping fan 180 and the exhaust fan 220 corresponding to the freezing container 20 can be determined.

Information of the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 determined by the position determination unit 620 is sent to the drive control unit 700. The drive control unit 700 controls the plurality of Only the intake fan 120, the detailed piping fan 180 and the exhaust fan 220 among the intake fan 120, the detailed piping fan 180 and the exhaust fan 220, which are determined by the position determination unit 620, .

For example, when the freezer container 20 is installed only in the first section (not shown) of the cargo hold 10, the computer may include a plurality of inlet fans 120, a detailed piping fan 180, Only the inlet fan 120, the detailed piping fan 180, and the exhaust fan 220 installed in the first zone can be driven.

That is, the positions of the inflow fan 120, the detailed piping fan 180, and the exhaust fan 220 installed in the cargo hold 10 are stored in the storage device of the computer as described above, The detailed piping fan 180, and the exhaust fan 220 corresponding to the intake fan 120,

The number determiner 640 can determine the number or rotation speed of the inlet fan 120, the detailed piping fan 180, and the exhaust fan 220 that are driven according to the number information of the refrigeration container 20.

The heat generated by the freezing container 20 raises the temperature inside the cargo hold 10 and the temperature inside the cargo hold 10 is changed according to the number of the freezing containers 20, The number or the rotational speed of the inlet fan 120, the detailed piping fan 180, and the exhaust fan for lowering the flow rate may be varied.

For example, when there are more than twenty refrigeration containers 20 arranged in the cargo hold 10 than when ten refrigeration containers 20 are arranged, the number of driven inflow fans 120, detailed piping fans 180 and exhaust fans 220 and the rotational speed thereof may be larger.

Information on the number or rotation speed of the intake fan 120, the detailed piping fan 180 and the exhaust fan 220 determined by the number determination unit 640 is sent to the drive control unit 700. The drive control unit 700 The number or rotational speed of the inlet fan 120, the detailed pipe fan 180, and the exhaust fan 220 to be driven according to the information. At this time, the number of the inlet piping 140 or the detailed piping fan 180 is controlled can be adjusted.

In the case of the refrigeration container 20 having a larger calorific value than the reference value, not only the allocated inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 but also the inlet fans 120, The detailed piping fan 180 and the exhaust fan 220 may be driven together to circulate the air in the cargo hold 10.

The driving control unit 700 controls the driving fan 700 to drive the inlet fan 120 among the plurality of inlet fans 120, the detailed piping fan 180 and the exhaust fan 220, So that the driving of the exhaust fan 180 and the exhaust fan 220 can be controlled. At this time, the drive control unit 700 may control the switch (not shown) to drive or stop the inflow fan 120, the detailed piping fan 180, and the exhaust fan 220.

The ventilator according to the embodiment of the present invention may further include a display unit 800.

The display unit 800 may be a component that displays the position and the number information of the inlet fan 120, the detailed piping fan 180, and the exhaust fan 220 that are determined to be driven and stopped by the determination unit 600.

The display unit 800 displays the position, number, and rotation speed of the inlet fan 120, the detailed pipe fan 180, and the exhaust fan 220 driven according to the determination of the position determiner 620 and the number determiner 640 However, the present invention is not limited thereto, and temperatures inside and outside the cargo hold 10 may also be displayed on the display unit 800.

The driving of the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 can be confirmed as the display unit 800 is driven, and the driving of the inlet fan 120, the detailed piping fan 180, The operator recognizes a warning alarm (not shown) displayed on the display unit 800 and maintains the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220, And equipment damage.

7 shows a ventilation control method according to an embodiment of the present invention.

As shown in FIG. 7, the freezing container 20 can be loaded in the cargo hold 10 provided in the ship. In the storage step S110, the loading position and the number information of the freezing container 20 may be stored in the storage unit 400 including the database.

The receiving step S120 may be a step in which the receiving unit 500 reads the position and the number information stored in the database in the storing step S110.

The determining step S130 is a step of determining whether or not the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 to be driven among the inlet fan 120, the detailed piping fan 180, And determining the fan 220. In this case, the determining step S130 may include a position determining step S140 and a number determining step S150.

The position determination step S140 may be a step of determining the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 corresponding to the position of the freezing container 20 loaded in the cargo hold 10.

At this time, the position determination unit 620 searches the inlet fan 120, the detailed piping fan 180, and the exhaust fan 220 corresponding to the position of the freezing container 20 in the computer, The detailed piping fan 180 and the exhaust fan 220 can be driven by transmitting information on the detailed piping fan 180 and the exhaust fan 220 to the drive control unit 700. [

For example, when the freezer container 20 is installed only in the first section (not shown) of the cargo hold 10, the computer may include a plurality of inlet fans 120, a detailed piping fan 180, Only the inflow fan 120, the detailed piping fan 180, and the exhaust fan 220 installed in the first zone can be driven.

The number determination step S150 determines the number or rotational speed of the inlet fan 120, the detailed piping fan 180, and the exhaust fan 220 to be driven according to the number of the freezing containers 20, Lt; / RTI >

The heat generated by the freezing container 20 raises the temperature inside the cargo hold 10 and the temperature inside the cargo hold 10 is changed according to the number of the freezing containers 20, The number or rotation speed of the intake fan 120, the detailed piping fan 180, and the exhaust fan 220 for lowering the engine speed can be changed.

For example, when there are more than twenty refrigeration containers 20 arranged in the cargo hold 10 than when ten refrigeration containers 20 are arranged, the number of driven inflow fans 120, detailed piping fans 180 and exhaust fans 220 or the rotational speed thereof may be larger.

The driving step S160 drives the inlet fan 120, the detailed piping fan 180 and the exhaust fan 220 to be driven according to the determination of the position determining unit 620, The detailed piping fan 180, and the exhaust fan 220 to be driven.

When the freezing container 20 arriving at the destination is removed from the cargo window 10, the disengaging step S170 is performed to remove the inflow fan 120, the detailed piping fan 180, and the exhaust fan 220 May be stopped.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. . Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

10: Cargo hold 20: Refrigerated container
30: heat generating surface 100:
120: inlet fan 140: inlet pipe
160: Detail piping 180: Detail piping fan
200: exhaust part 220: exhaust fan
240: exhaust pipe 400:
500: Receiving unit 600:
620: position determination unit 640: number determination unit
700: drive control section 800: display section
900: control unit S110: storage step
S120: Receiving step S130: Judging step
S140: Position determination step S150: Number determination step
S160: drive step S170: release step

Claims (7)

A plurality of inflow fans installed in an inflow pipe for guiding outside air of a cargo hold forming a space in which a freezing container is loaded to the cargo hold,
A plurality of detailed piping fans installed in a plurality of detailed pipelines connected to the inflow pipe to move the air introduced into the cargo hold to the refrigeration container;
A plurality of exhaust fans for discharging the air inside the cargo hold to the outside; And
And a controller for controlling driving of the plurality of inlet fans, the detailed piping fan, and the exhaust fan according to the loading position and the number information on which the refrigeration container is loaded in the cargo hold. The method according to claim 1,
Wherein,
A storage unit for storing a database in which the loading position and the number information of the refrigeration container are stored in the cargo hold;
A receiving unit for receiving the loading position and the number information of the refrigeration container recorded in the database;
A determining unit for determining the inlet fan, the detailed piping fan, and the exhaust fan to be driven among the plurality of inlet fans, the detailed piping pan, and the exhaust fan according to the loading position and the number information of the refrigeration container received by the receiving unit; And
And a driving control unit for controlling driving of the inlet fan, the detailed piping fan, and the exhaust fan according to the information determined by the determination unit. The method according to claim 2, wherein
Wherein,
A position determining unit for determining driving of the inlet fan, the detailed pipe fan, and the exhaust fan adjacent to the loading positions of the plurality of inlet fans, the detailed pipe fans, and the exhaust fans; And
And a number determining unit for determining the number or rotation speed of the inlet fan, the detailed piping fan, and the exhaust fan to be driven according to the number of the refrigeration containers. 3. The method of claim 2,
And a display unit for displaying the position and the number information of the inlet fan, the detailed piping fan, and the exhaust fan determined to be driven and stopped by the determination unit. A storing step of storing the loading position and the number information of the refrigeration container, which is loaded in a cargo hold forming a space for loading the refrigeration container, in a database;
A receiving step of reading the loading position and the number information stored in the database;
A plurality of inflow fans for introducing outside air into the cargo hold in accordance with the loading position and the number information, and a plurality of detailed pipes installed in the plurality of detailed pipes connected to the inflow pipe, A detailed piping fan and an exhaust fan to be driven among a plurality of exhaust fans for discharging the air of the cargo hold to the outside; And
And a driving step of driving the inlet fan, the detailed piping fan, and the exhaust fan determined to be driven by the determination unit. 6. The method of claim 5,
Wherein,
A position determining step of determining driving of the inlet fan, the detailed piping fan, and the exhaust fan adjacent to the loading positions of the plurality of inlet fans, the detailed piping fan, and the exhaust fan; And
And a number determining step of determining the number or rotation speed of the inlet fan, the detailed piping fan, and the exhaust fan to be driven according to the number of the refrigeration containers. 6. The method of claim 5,
And a release step of releasing the driving of the inlet fan, the detail piping fan, and the exhaust fan being driven according to the position and the number of the refrigeration container removed when the refrigeration container is removed from the cargo hold.

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