KR20190091862A - Apparatus for cooling water temperature control of cooling tower - Google Patents

Abstract

The present invention relates to an apparatus for controlling cooling water temperature of a cooling tower, wherein an inverter is installed in a fan configured in the cooling tower to control revolutions per minute of the fan, and the fan configured in the cooling tower is sequentially driven or stopped based on the revolutions per minute of the fan. According to an embodiment of the present invention, the apparatus for controlling cooling water temperature of a cooling tower comprising a plurality of fans comprises: a drive unit for sequentially driving or stopping the fans; and a control unit installed in a first fan of the fans to control revolutions per minute of the first fan in accordance with cooling water temperature, controlling the first fan to be driven by predetermined revolutions per minute whenever the fans are driven sequentially, and controlling revolutions per minute of the first fan in accordance with the cooling water temperature when reaching a predetermined standard.

Description

Apparatus for cooling water temperature control of cooling tower

The present invention relates to a cooling water temperature control device of a cooling tower, and more particularly, by installing an inverter in a fan configured in the cooling tower to adjust the rotation speed of the fan, and sequentially driving the fans configured in the cooling tower based on the rotation speed of the fan. Or it relates to a cooling water temperature control device of the cooling tower to stop.

The cooling tower is a heat exchanger that cools the cooling water by directly connecting the cooling water with outdoor air in order to reuse the cooling water. The cooling tower can control the number of fans driven according to the temperature of the cooling water by manufacturing a plurality of fans (Fan) as a set. Since the capacity of one configured fan of the cooling tower is a large capacity, even if one fan is driven or stopped, a large temperature variation of the cooling water occurs. In this case, the equipment for cooling the cooling water is likely to fail. In order to solve this problem, an inverter may be installed in every fan or a plurality of heaters may be installed at the end by subdividing pipes, but this requires additional equipment and increases the additional installation cost.

An object of the present invention for meeting the above requirements is to install an inverter in one of the plurality of fans configured in the cooling tower to adjust the rotational speed of the fan by PID control, the other fan based on the rotational speed of the fan It is to provide a cooling water temperature control device of the cooling tower to drive them in order.

A cooling water temperature control apparatus of a cooling tower according to the present invention for achieving the above object is a cooling tower composed of a plurality of fans (Fan), a driving unit for driving or stopping a plurality of fans in order, and the first of the plurality of fans Installed in the fan to adjust the rotational speed of the first fan in accordance with the temperature of the coolant, and control the first fan to run at a constant rotational speed whenever a plurality of fans are driven in sequence, the temperature of the coolant when a certain reference is reached And a control unit for re-adjusting the rotation speed of the first fan.

Here, the controller adjusts the rotation speed of the first fan so that the coolant temperature reaches a preset target temperature.

In addition, when the average rotation speed of the first fan is greater than or equal to the first measured value during the first time, the controller controls the driving unit to sequentially drive the plurality of fans.

In addition, when the average rotation speed of the first fan is less than or equal to the second measured value during the first time, the controller controls the driving unit to stop the plurality of fans in the reverse order.

In addition, the constant criterion is that the first fan reaches a certain rotation speed.

In addition, when a plurality of fans are driven in sequence so that a predetermined time is elapsed when the first fan is driven at a predetermined rotation speed, the controller controls to adjust the rotation speed of the first fan according to the temperature of the cooling water.

In addition, when the cooling water temperature of the cooling tower is greater than or equal to the first temperature, the controller controls the driving unit to sequentially drive the plurality of fans.

In addition, when the cooling water temperature of the cooling tower is less than the second temperature, the control unit controls the driving unit to stop the plurality of fans in reverse order.

The control unit includes a measuring unit for measuring the temperature of the cooling water of the cooling tower and the rotation speed of the first fan, an inverter installed in the first fan to adjust the rotation speed of the first fan, and the cooling water of the cooling tower measured by the measuring unit. An operation unit for determining whether to drive or stop the plurality of fans further based on the temperature of the controller and the rotation speed of the first fan; It includes.

According to the present invention, the cooling water temperature control device of the cooling tower can install the inverter in only one fan can reduce the installation cost.

In addition, it is possible to minimize the temperature change of the cooling water generated when the plurality of fans are driven or stopped.

1 is a view showing the configuration of a cooling water temperature control device of a cooling tower according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of a controller according to an exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

In order to clearly describe the present invention, parts irrelevant to the description are omitted, and like reference numerals designate like elements throughout the specification.

Throughout the specification, when a part is "connected" to another part, this includes not only "directly connected" but also "electrically connected" with another element in between. . In addition, when a part is said to "include" a certain component, which means that it may further include other components, except to exclude other components unless otherwise stated.

When a portion is referred to as being "above" another portion, it may be just above the other portion or may be accompanied by another portion in between. In contrast, when a part is mentioned as "directly above" another part, no other part is involved between them.

Terms such as first, second, and third are used to describe various parts, components, regions, layers, and / or sections, but are not limited to these. These terms are only used to distinguish one part, component, region, layer or section from another part, component, region, layer or section. Accordingly, the first portion, component, region, layer or section described below may be referred to as the second portion, component, region, layer or section without departing from the scope of the invention.

The terminology used herein is for reference only to specific embodiments and is not intended to limit the invention. As used herein, the singular forms “a,” “an,” and “the” include plural forms as well, unless the phrases clearly indicate the opposite. As used herein, the meaning of "comprising" embodies a particular characteristic, region, integer, step, operation, element and / or component, and the presence of other characteristics, region, integer, step, operation, element and / or component It does not exclude the addition.

Terms indicating relative space such as "below" and "above" may be used to more easily explain the relationship of one part to another part shown in the drawings. These terms are intended to include other meanings or operations of the device in use with the meanings intended in the figures. For example, turning the device in the figure upside down, some parts described as being "below" of the other parts are described as being "above" the other parts. Thus, the exemplary term "below" encompasses both up and down directions. The device can be rotated 90 degrees or at other angles, the terms representing relative space being interpreted accordingly.

Unless defined otherwise, all terms including technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. Commonly defined terms used are additionally interpreted to have a meaning consistent with the related technical literature and the presently disclosed contents, and are not interpreted in an ideal or very formal sense unless defined.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

1 is a view showing the configuration of a cooling water temperature control device of a cooling tower according to an embodiment of the present invention.

Referring to FIG. 1, the apparatus 100 for controlling the coolant temperature of a cooling tower according to an exemplary embodiment of the present invention may include a driving unit 110 and a control unit 120.

The driving unit 110 may drive or stop the plurality of fans 10 in order in the cooling tower including a plurality of fans Fan 10. The driving unit 110 may drive or stop the plurality of fans 10 of the cooling tower in the order adjacent to each other.

The control unit 120 is installed in the first fan 11 of the plurality of fans 10 to adjust the rotational speed of the first fan 11 according to the temperature of the cooling water, the plurality of fans 10 are driven in order Each time, the first fan 11 is controlled to be driven at a predetermined rotation speed, and when the predetermined reference is reached, the rotation speed of the first fan may be adjusted according to the temperature of the cooling water.

Specifically, the control unit 120 may adjust the rotation speed of the first fan 11 according to the temperature of the cooling water. The controller 120 may set the rotation speed of the first fan 11 faster as the temperature of the cooling water is higher so that the temperature of the cooling water decreases more quickly. In this case, the controller 120 may reset the rotation speed of the first fan 11 according to the temperature of the cooling water reduced according to the rotation speed of the first fan 11. That is, the controller 120 may set the rotation speed of the first fan 11 according to the temperature of the coolant, and the first fan 11 according to the temperature of the coolant changed when the first fan 11 is driven at the set rotation speed. Can be reset. The controller 120 may adjust the rotation speed of the first fan 11 according to the temperature of the cooling water so that the temperature of the cooling water reaches a preset target temperature.

The controller 120 may control the driving unit 110 to sequentially drive the plurality of fans 10 when the average rotation speed of the first fan 11 is equal to or greater than the first measured value during the first time. That is, when the average rotation speed of the first fan 11 is measured during the first time period, if the first measured value is greater than or equal to the first measured value, the controller 120 may further drive the second fan 12 adjacent to the first fan 11. The driving unit 110 can be controlled. In addition, the second fan 12 is driven, and the control unit 120 continuously measures the average rotational speed of the first fan 11 for the first time, and measures the average rotational speed of the first fan 11. If the first measured value is greater than or equal to the second fan 12, the driving unit 110 may be controlled to additionally drive the third fan 13. Here, when the rotation speed of the first fan 11 is greater than or equal to the first measured value, the first fan 11 is rapidly rotating to lower the cooling water temperature, and the rotation speed of the first fan 11 during the first time is measured first. If the value is greater than or equal to the value, the control unit 120 may control the driving unit 110 to further drive the fan 10 because the first fan 11 determines that it is difficult to lower the cooling water temperature even though the first fan 11 is rapidly rotating to lower the temperature of the cooling water. have.

In addition, the controller 120 may control the driving unit 110 to stop the plurality of fans 10 in the reverse order when the average rotation speed of the first fan 11 is less than or equal to the second measured value during the first time. That is, when the first fan 11, the second fan 12, and the third fan 13 are driven and the average rotation speed of the first fan 11 is measured during the first time period, the second fan value is equal to or less than the second measured value. The controller 120 may control the driver 110 to stop the third fan 13. In addition, the driving of the third fan 13 is stopped, and the controller 120 may continuously measure the average rotational speed of the first fan 11 during the first time. The control unit 120 measures the average rotational speed of the first fan 11 and as a result of the second measurement value, the control unit 120 further stops the second fan 12 adjacent to the third fan 13. Can be controlled. Here, when the rotation speed of the first fan 11 is less than or equal to the second measured value, the cooling water temperature is sufficiently low, and the first fan 11 is slowly rotating, and the rotation speed of the first fan 11 is measured for the second time during the first time. If the value is less than the value, the coolant temperature is sufficiently low to determine that the coolant temperature can be adjusted even when a part of the driven fan 10 is stopped, so that the controller 120 controls the driving unit 110 to stop the fan 10 in the reverse order. Can be.

In addition, the controller 120 may control the first fan 11 to be driven at a predetermined rotation speed whenever the plurality of fans 10 are sequentially driven. The plurality of fans 10 included in the cooling tower have a large capacity, and when the fan 10 is driven, the plurality of fans 10 rotate at the maximum rotation speed, so that the fan 10 of some of the fans 10 is being driven. Even if only one additional drive is made, the temperature variation of the coolant can be large. In addition, even if only one fan 10 of the plurality of driving fans 10 is stopped, a large temperature deviation of the coolant may occur. Therefore, the controller 120 may reduce the temperature deviation by controlling the plurality of fans 10 to be driven at a predetermined rotation speed whenever they are sequentially driven. At this time, the first fan 11 reaches a predetermined rotational speed while rotating, and when the first fan 11 reaches a predetermined rotational speed, the controller 120 determines the rotational speed of the first fan 11 at the temperature of the cooling water. It can be controlled to adjust according to. Here, the temperature variation of the cooling water is large by the additionally driven fan 10. While the first fan 11 reaches a predetermined rotation speed, the rotation speed of the first fan 11 is gradually changed to further drive. The temperature variation of the cooling water by the fan 10 can be reduced.

In addition, the control unit 120 controls the plurality of fans 10 to be driven in order to drive the first fan 11 at a predetermined rotation speed, and when the predetermined time is elapsed, the rotation speed of the first fan 11 is adjusted to the cooling water. It can be controlled to adjust according to the temperature of. Here, the temperature difference of the cooling water is greatly increased by the additionally driven fan 10. When the first fan 11 is driven at a predetermined rotation speed for a predetermined time, the temperature of the cooling water is gradually changed to generate a large temperature deviation. Can be reduced.

In addition, the controller 120 may control the driving unit 110 to drive the plurality of fans 10 in order when the cooling water temperature of the cooling tower is greater than or equal to the first temperature. If the cooling water temperature of the cooling tower is greater than or equal to the first temperature, the controller 120 may control the plurality of fans 10 to be sequentially driven regardless of the rotation speed of the first fan 11 to sufficiently lower the cooling water temperature. In addition, the cooling water temperature reference for driving each fan can be set differently for more precise control. For example, the cooling water temperature reference for allowing each fan to be driven may be set to increase gradually in the order of the plurality of fans 10.

In addition, the controller 120 may control the driving unit 110 to stop the plurality of fans 10 in reverse order when the cooling water temperature of the cooling tower is lower than or equal to the second temperature. If the cooling water temperature of the cooling tower 100 is less than or equal to the second temperature, the controller 120 controls the plurality of fans 10 to be stopped in reverse order regardless of the rotation speed of the first fan 11 to gradually lower the cooling water temperature. Can be.

2 is a diagram illustrating a configuration of a controller according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the controller 120 may include a measurement unit 122, an inverter 124, an operation unit 126, and a driving control unit 128.

The measurement unit 122 may measure the temperature of the cooling water of the cooling tower and the rotation speed of the first fan 11. The measuring unit 122 may include a temperature sensor or a separate module for measuring the temperature of the cooling water of the cooling tower. In addition, the measuring unit 122 may include a sensor for measuring the rotation speed of the first fan 11, a separate module, or the like.

The inverter 124 is installed in the first fan 11 to adjust the rotation speed of the first fan 11 according to the temperature of the cooling water. The inverter 124 may adjust the rotation speed of the first fan 11 according to the temperature of the cooling water measured by the measuring unit 122. In addition, when the fan 10 is driven, the first fan 11 may be controlled to be driven at a predetermined rotation speed regardless of the temperature of the cooling water.

The calculating unit 126 may determine whether to further drive or stop the plurality of fans 10 based on the temperature of the cooling water of the cooling tower measured by the measuring unit 122 and the rotation speed of the first fan 11. Specifically, the calculation unit 126 may determine whether the rotation speed of the first fan 11 is greater than or equal to the first measured value during the first time based on the rotation speed of the first fan 11 measured by the measurement unit 122. It may be determined whether the rotation speed of the first fan 11 is less than or equal to the second measured value during the time. In addition, the operation unit 126 may determine the time when the first fan 11 is driven at a predetermined rotation speed and passed, and may determine whether the rotation speed of the first fan 11 reaches the predetermined rotation speed. .

The driving controller 128 may control the driving unit 110 to drive or stop the plurality of fans 10 in order. The driving controller 128 may control the driving unit 110 to further drive or stop the fan 10, and may drive the last fan 10 adjacent to the last driven fan 10, or last. The driving unit 110 may be controlled to stop the fan 10 driven by.

As described above, according to the present invention, the cooling water temperature of the cooling tower which installs an inverter in the fan of the cooling tower to adjust the rotation speed of the fan and sequentially drives or stops the fan configured in the cooling tower based on the rotation speed of the fan. The control device can be realized.

As those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features, the embodiments described above should be understood as illustrative and not restrictive in all aspects. Should be. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: cooling water temperature control device of the cooling tower
110: drive unit
120: control unit
122: measuring unit
124: inverter
126: calculator
128: drive control unit
10: fan
11: first fan
12: second fan
13: third fan

Claims (9)

In the cooling tower consisting of a plurality of fans (Fan),
A driving unit driving or stopping the plurality of fans in order; And
Is installed in the first fan of the plurality of fans to adjust the rotational speed of the first fan in accordance with the temperature of the cooling water, and control the first fan to be driven at a predetermined speed whenever the plurality of fans are driven in sequence And a controller configured to readjust the rotation speed of the first fan according to the temperature of the cooling water when reaching a predetermined criterion. The method of claim 1,
The controller controls the cooling water temperature of the cooling tower to adjust the rotation speed of the first fan so that the cooling water temperature reaches a predetermined target temperature. The method of claim 1,
And the controller controls the driving unit to sequentially drive the plurality of fans in order when the average rotational speed of the first fan is equal to or greater than a first measured value during a first time period. The method of claim 1,
And the control unit controls the driving unit to stop the plurality of fans in reverse order when the average rotational speed of the first fan is less than or equal to a second measured value during a first time period. The method of claim 1,
The predetermined criterion is the cooling water temperature control device of the cooling tower that the first fan reaches the predetermined rotation speed. The method of claim 1,
When the plurality of fans are driven in sequence so that a predetermined time is elapsed when the first fan is driven at a predetermined rotation speed, the controller controls the rotation speed of the first fan to be adjusted according to the temperature of the cooling water. Temperature control device. The method of claim 1,
And the controller controls the driving unit to drive the plurality of fans in order when the cooling water temperature of the cooling tower is greater than or equal to a first temperature. The method of claim 1,
And the control unit controls the driving unit to stop the plurality of fans in reverse order when the cooling water temperature of the cooling tower is lower than or equal to a second temperature. The method of claim 1,
The control unit,
A measuring unit measuring a temperature of the cooling water of the cooling tower and a rotation speed of the first fan;
An inverter installed in the first fan to adjust a rotation speed of the first fan;
A calculator configured to determine whether to further drive or stop the plurality of fans based on the temperature of the cooling water of the cooling tower and the rotation speed of the first fan measured by the measuring unit;
And a driving control unit controlling the driving unit to drive or stop the plurality of fans based on a result of the determination of the calculating unit.

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