KR20100076621A - Control logic system for variable frequency driver and method driving the same - Google Patents

Abstract

PURPOSE: A control logic system of a variable-speed driver and a driving method thereof are provided to automatically or manually switch between a variable-speed mode and a vane mode without stopping a boiler. CONSTITUTION: A driving method for a control logic system of a variable-speed driver is as follows. A variable speed mode of a ventilation system is operated. During the variable speed mode, a VFD FAULT signal is generated in response to a fault of a speed varying device. An input breaker(K1) and an output breaker(K2) are turned off after the set time, and the variable speed mode is converted into a vane mode. If the vane mode is processed, a bypass breaker(K3) is turned on and the quantity of ventilation of a boiler is controlled based on the set value. If the fault of the speed varying device is solved, a VFD FAULT signal is reset. The vane mode is converted into the variable speed mode, and a VFD RUN signal is generated. And, the by-pass breaker is turned off while the input breaker and the output breaker are turned on.

Description

Control Logic System For Variable Frequency Driver and Method Driving The Same

The present invention relates to a variable speed control logic system and a driving method thereof.

Boiler ventilation system using a variable speed device using a general power converter, if an abnormality occurs in the variable speed device during variable speed mode operation, it is switched to vane mode, and the variable speed device maintenance is completed. Could not. Accordingly, there is a problem that the operation of the boiler should be stopped when switching from the vane mode to the variable speed mode.

It is an object of the present invention to provide a variable speed control logic system and a driving method thereof in which a boiler can operate normally when a variable speed mode or a vane mode is switched according to an embodiment of the present invention.

According to an embodiment of the present invention, a method of driving a variable speed control logic system may include: operating a ventilation system variable speed mode for controlling a boiler ventilation amount, generating a “VFD FAULT” signal due to a variable speed device failure during a variable speed mode operation; When the VFD FAULT signal is generated, the input breaker and output breaker are turned off after the preset time set by the user.When the input breaker and output breaker are turned off, the operation is switched to vane mode. Bypass circuit breaker is turned on and controls the boiler air flow based on the user's preset setting value.When the variable speed device breaks down, the "VFD FAULT" signal is reset.If the "VFD FAULT" signal is reset, the variable speed Bypass mode is turned off when the "VFD RUN" signal is generated and the "VFD RUN" signal is generated. Input and output breakers breaker is a step that is turned on.

In addition, the variable speed control logic system according to an embodiment of the present invention controls the boiler ventilation amount in the variable speed mode in normal times, the non-stop automatic switching unit, non-stop automatic switching unit for controlling the boiler ventilation amount by switching to the vane mode other than usual Blocking unit for turning on or off according to the variable speed mode or the vane mode provided by the control unit and the variable speed power converter for controlling the blocker during the switching from the variable speed mode to the vane mode or from the vane mode to the variable speed mode.

The variable speed control logic system and its driving method according to an embodiment of the present invention have an effect that can be automatically or manually switched without stopping the boiler even when switching from the variable speed mode to the vane mode or from the vane mode to the variable speed mode.

In addition, the variable speed control logic system and its driving method according to an embodiment of the present invention can be smoothly switched to each other at the time of mode switching, in particular, after the maintenance by the variable speed device failure in the vane mode to the variable speed mode without stopping the boiler It is possible to maximize the effect of installing the variable speed device by switching it, and also has the effect of saving the maximum energy.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Specific details of other embodiments are included in the detailed description and drawings. Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. Like reference numerals refer to like elements throughout.

1 is a view illustrating a method of driving a variable speed device control logic system according to an embodiment of the present invention.

1, a flowchart illustrating a method of driving a variable speed device control logic system according to an embodiment of the present invention is shown.

First, the step of operating the ventilation system variable speed mode for controlling the boiler ventilation amount (S100). This variable speed mode can be operated normally to control the boiler ventilation volume.

Thereafter, the method may include checking an abnormality of the variable speed device during the variable speed mode operation (S200). If the variable speed device does not generate an error, the variable speed mode may continue to operate, and if an error occurs in the variable speed device, generating a “VFD FAULT” signal may be included (S300).

When the “VFD FAULT” signal is generated due to an error of the variable speed device, the input circuit breaker and the output circuit breaker may be turned off after a preset time set by the user. That is, when the "VFD FAULT" signal is generated and the "VFD FAULT" signal is continuously generated for a predetermined time set by the variable speed control logic system, the input circuit breaker and the output circuit breaker may be turned off.

As such, when the input breaker and the output breaker are turned off, the operation may be performed by switching to the vane mode (S400). That is, when a predetermined time elapses after the "VFD FAULT" signal is generated, the input circuit breaker and the output circuit breaker are turned off and the boiler ventilation volume can be controlled by switching from the variable speed mode to the vane mode. When the vane mode is operated, the bypass circuit breaker may be turned on and control the boiler ventilation volume based on a preset value set by the user. When the bypass breaker is turned on, the high-pressure motor is rated and the boiler airflow can be controlled by the vane mode based on a preset value set by the user.

In this case, the preset value set by the user may be an existing preset value substantially the same as the value set in the variable speed mode. These settings can be set differently depending on the product or the environment.

Thereafter, the method may include checking whether the abnormality of the variable speed device is solved (S500). If the variable speed device does not solve the problem, it may continue to operate in the vane mode, and if the problem is solved in the variable speed device may include a step (S600) that the "VFD FAULT" signal is reset (Reset).

Subsequently, when the "VFD FAULT" signal is reset (Reset), it may include a step (S700) to switch to the variable speed mode to generate a "VFD RUN" signal. In other words, when the "VFD FAULT" signal is reset, it switches from the vane mode to the variable speed mode and the "VFD RUN" signal may be generated. Accordingly, the bypass circuit breaker may be turned off and the input circuit breaker and the output circuit breaker are turned on. When the input breaker and the output breaker are turned on, the variable speed device is operated so that the vane mode is full open and the high pressure motor can control the boiler airflow in the variable speed mode.

In the steps described so far, the switching from the variable speed mode to the vane mode or the switching from the vane mode to the variable speed mode may be automatically or manually switched by the user. For example, when an abnormality occurs in the variable speed device during the variable speed mode operation and is switched to the vane mode, it is automatically switched, so that the boiler ventilation volume can be continuously controlled without stopping. Alternatively, when the abnormality of the variable speed device is solved during the vane mode operation, the user may manually control the vane mode to the variable speed mode to continuously control the boiler ventilation volume without stopping.

In addition, the DCS control signal may be supplied and fed back in the step of switching from the variable speed mode to the vane mode or from the vane mode to the variable speed mode. As such, by feeding back the DCS control signal, the ventilation amount of the boiler can be continuously controlled without stopping or stopping during mode switching, thereby preventing the boiler from causing an unstable state.

2 is for explaining a variable speed control logic system according to an embodiment of the present invention.

Referring to FIG. 2, the variable speed control logic system according to an embodiment of the present invention may include a non-stop automatic switching unit, a blocking unit, a variable speed power converter, and a distributed control unit.

The non-stop automatic switching unit 100 can normally control the boiler ventilation volume in a variable speed mode, and control the boiler ventilation volume by switching to the vane mode other than usual. That is, the non-stop automatic switching unit 100 is normally operated a variable speed device to control the boiler ventilation volume in the variable speed mode, abnormality occurs in the variable speed device, check the variable speed device, or test the variable speed device It is possible to control the boiler ventilation volume in the vane mode by operating the high-pressure motor at other times than usual.

The blocking units 200a and 200b may be turned on or turned off according to the variable speed mode or the vane mode provided by the non-stop automatic switching unit 100. The blocking units 200a and 200b may include an input breaker K1, an output breaker K2, and a bypass breaker K3. In the variable speed mode, the input breaker K1 and the output breaker K2 may be turned on and the bypass breaker K3 may be turned off. In the vane mode, the input breaker K1 and the output breaker K2 may be turned off, and the bypass breaker K3 may be turned on. As described above, by controlling the operation of the input breaker K1 and the output breaker K2 and the bypass breaker K3 in accordance with the variable speed mode or the vane mode, the ventilation volume of the boiler is continuously controlled without stopping or stopping during mode switching. You can do it.

In addition, the blocking unit 200a or 200b may be at least one or more. Accordingly, even if an abnormality occurs in one blocking unit 200a, the other blocking unit 200b may operate to continuously control the ventilation amount of the boiler without stopping or stopping during mode switching.

The variable speed power converters 300a and 300b may control the blocking units 200a and 200b while switching from the variable speed mode to the vane mode or from the vane mode to the variable speed mode. That is, the variable speed power converters 300a and 300b may control the input breaker K1, the output breaker K2, and the bypass breaker K3 to operate in a variable speed mode or a vane mode. In addition, the variable speed power converter 300a or 300b may automatically or manually switch from the variable speed mode to the vane mode or the vane mode to the variable speed mode by a user. Accordingly, when the variable speed mode or the vane mode of the boiler ventilation system high voltage motor is operated, the mutual switching can be efficiently performed automatically without stopping the boiler, and the mode switching by manual operation can be efficiently performed when necessary.

The distribution controller 400 may provide a DCS control signal to the non-stop automatic switching unit 100 by feeding back the variable speed mode or the vane mode. Since the DCS control signal is fed back through the distributed control unit 400, the ventilation amount of the boiler can be continuously controlled without stopping or stopping during mode switching, thereby preventing the unstable state of the boiler from occurring.

As described above, the variable speed control logic system according to an embodiment of the present invention includes a non-stop automatic switching unit, a blocking unit, a variable speed power converter, and a distributed control unit, so that the variable speed device malfunctions during the variable speed mode operation. Even when switching to the vane mode, it can be automatically switched without stopping the boiler, and also, when the variable speed device is recovered and switched to the variable speed mode, it can be automatically switched without stopping the boiler. In addition, it is possible to change the mode by manual operation if necessary, it is possible to prevent the boiler stop due to the variable speed device error.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

1 is a view illustrating a method of driving a variable speed device control logic system according to an embodiment of the present invention.

2 is for explaining a variable speed control logic system according to an embodiment of the present invention.

* Description of the main parts of the drawings *

100: non-stop automatic switching unit 200a, 200b: blocking unit

300a, 300b: variable speed power conversion unit 400: distributed control unit

K1: input breaker K2: output breaker

K3: Bypass Breaker

Claims (9)

Operating a ventilation system variable speed mode for controlling a boiler ventilation amount; Generating a “VFD FAULT” signal over the variable speed device during the variable speed mode operation; Turning off the input circuit breaker and the output circuit breaker after a preset time set by the user when the “VFD FAULT” signal is generated; Switching to a vane mode when the input breaker and the output breaker are turned off; A bypass circuit breaker is turned on when the vane mode is in operation and controlling the boiler ventilation volume based on a preset value set by the user; Resetting the "VFD FAULT" signal when the variable speed error is solved; Switching to the variable speed mode and generating a “VFD RUN” signal when the “VFD FAULT” signal is reset; And The bypass circuit breaker is turned off and the input circuit breaker and the output circuit breaker are turned on when the “VFD RUN” signal is generated; Method of driving a variable speed control logic system comprising a. According to claim 1, And the step of switching from the variable speed mode to the vane mode or from the vane mode to the variable speed mode is automatically or manually switched by the user. According to claim 1, And a DCS control signal is supplied and fed back in the step of switching from the variable speed mode to the vane mode or from the vane mode to the variable speed mode. Normally non-stop automatic switching unit for controlling the boiler ventilation amount in a variable speed mode, and switching to the vane mode to control the boiler ventilation amount other than the usual; A blocking unit for turning on or off according to the variable speed mode or the vane mode provided by the non-stop automatic switching unit; And A variable speed power converter configured to control the blocking unit while switching from the variable speed mode to the vane mode or switching from the vane mode to the variable speed mode; Variable speed control logic system comprising a. 5. The method of claim 4, And a distribution controller for feeding back the variable speed mode or the vane mode to provide a DCS control signal to the non-stop automatic switching unit. 5. The method of claim 4, And the interrupter includes an input breaker, an output breaker and a bypass breaker. The method according to claim 6, In the variable speed mode, the input breaker and the output breaker are turned on and the bypass breaker is turned off, and in the vane mode, the input breaker and the output breaker are turned off and the bypass breaker is turned on. Device control logic system. 5. The method of claim 4, A variable speed control logic system for automatically or manually switching from the variable speed mode to the vane mode or from the vane mode to the variable speed mode by a user. 5. The method of claim 4, And at least one blocking unit.

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