KR102155564B1 - Remote control device of air compressor - Google Patents

Abstract

The present invention relates to an energy-saving remote control device for air compressors of multiple plants, and more specifically, to an energy-saving remote control device for air compressors of multiple plants, which is able to remotely control a plurality of air compressors installed in different areas from each other by using a main server installed in a remote place or a wireless terminal carried by an administrator, and check the operation status of the plurality of air compressors. In addition, an additional emergency air line connected to air supply lines of the plurality of air compressors is installed such that, when an air compressor fails to operate, an air pressure of the air compressors, which are in a normal status, is normally supplied towards a load of the failed air compressor through the emergency air line, thereby allowing the plant to be normally operated even if the air compressor is out of order.

Description

Energy-saving remote control device of air compressor for many factories {Remote control device of air compressor}

The present invention relates to an energy-saving multi-factory air compressor remote control device, and more specifically, a plurality of air compressors installed in different areas remotely controlled using a main server installed in a remote location or a wireless terminal carried by an administrator. In addition, a separate emergency air line connected to the air supply line of a number of air compressors is installed so that the operation status of multiple air compressors can be checked while allowing the operation to be performed in a normal state when one of the air compressors is inoperable. The present invention relates to an energy-saving multi-factory air compressor remote control device that allows the air pressure of an in-air compressor to be normally supplied to the load side of a malfunctioning air compressor through an emergency air line so that the factory can operate normally even when the air compressor fails. .

In general, an air compressor is installed in a factory, and since it is supplied by compressing air at high pressure, it is an indispensable equipment in all factories that operate tools operated by various air pressures used in the factory.

Typically, an air compressor is equipped with a power switch, and in order to operate such an air compressor, a worker moves to the site and manually turns on the power switch installed in the air compressor so that the main power is supplied to the air compressor. , Air compressor operates normally.

However, in the prior art, since the operator must manually manipulate the power switch to operate the air compressor, turning the air compressor on/off is very cumbersome, and when the air compressor is operated at the same time as the factory work, the air pressure of the air compressor There was a problem that the factory could not be operated normally for a certain period of time to be filled.

In addition, if the air compressor installed in the factory suddenly becomes inoperative and cannot supply air pressure normally, all the air pressure driving tools installed in the factory become unavailable and the factory is stopped. There was a problem that economic losses occurred.

* Prior art literature *

Korean Patent Application No. 10-2013-0092318

The present invention for solving the above problem is to remotely control a plurality of air compressors installed in different areas using a main server installed in a remote location or a wireless terminal carried by an administrator, while operating states of a plurality of air compressors. In addition, a separate emergency air line connected to the air supply lines of a number of air compressors is additionally installed so that if any one of the air compressors is inoperable, the air pressure of the air compressor in a normal state is reduced to the emergency air line. The purpose of this is to provide an energy-saving remote control device for air compressors at many factories, which enables the factory to operate normally even when the air compressor is broken by supplying it normally to the load side of the failed air compressor.

The present invention for achieving the above object,

A number of air compressors (CP1 to CPN) installed in different areas and connected to each of the power switches (SW1 to SWN) for power control and supplying air to the load side through the air supply lines (L1 to LN) and ;

A pressure sensor (PS1 to PSN) that senses the pressure state of the air supply lines (L1 to LN) and outputs the output to the control unit (C1 to CN);

While communicating with the main server (1) through a wired or wireless communication line, the power switch (SW1 to SWN) is controlled on/off according to the control command transmitted from the main server (1), and detected by the pressure sensor (PS1 to PSN). A control unit (C1 to CN) for transmitting the pressure information to the main server 1;

While communicating with the control unit (C1~CN) through wired/wireless communication line, it transmits the user's control command to the control unit (C1~CN), and operates the air compressor (CP1~CPN) transmitted from each control unit (C1~CN) It characterized in that it consists of a; main server (1); outputs the status information to the screen so that the user can monitor.

According to the present invention, it is possible to remotely control a plurality of air compressors installed in different areas using a remotely installed main server or a wireless terminal carried by an administrator, and to check the operation status of the plurality of air compressors. In addition, a separate emergency air line connected to the air supply lines of a number of air compressors is further installed, and in case any one of the air compressors is inoperable, the air pressure of the normal air compressor is reduced through the emergency air line. It is expected that the factory can be operated normally even when the air compressor breaks down by supplying it normally to the load side of.

1 is a block diagram showing the configuration of the air compressor remote control device of the present invention.
Figure 2 is a view illustrating the operating state of the present invention.
3 is a table showing the operating state of the valve in the operating state of Figure 2;

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings FIGS. 1 to 3.

A number of air compressors (CP1 to CPN) installed in different areas and connected to each of the power switches (SW1 to SWN) for power control and supplying air to the load side through the air supply lines (L1 to LN) and ;

A pressure sensor (PS1 to PSN) that senses the pressure state of the air supply lines (L1 to LN) and outputs the output to the control unit (C1 to CN);

While communicating with the main server (1) through a wired or wireless communication line, the power switch (SW1 to SWN) is controlled on/off according to the control command transmitted from the main server (1), and detected by the pressure sensor (PS1 to PSN). A control unit (C1 to CN) for transmitting the pressure information to the main server 1;

While communicating with the control unit (C1~CN) through wired/wireless communication line, it transmits the user's control command to the control unit (C1~CN), and operates the air compressor (CP1~CPN) transmitted from each control unit (C1~CN) A main server 1 that displays status information on a screen so that a user can monitor it; It is characterized by consisting of.

In addition, an emergency air line (EL) connecting each air supply line (L1 to LN) is further configured, and an emergency valve (EV1 to LN) is connected to the emergency air line (EL) and the air supply line (L1 to LN). EVN), respectively, and supply valves (V1 to VN) at the outlet side of the air supply line (L1 to LN), respectively,

The controllers (C1 to CN) selectively turn on/off the supply valves (V1 to VN) and emergency valves (EV1 to EVN) according to the control command transmitted from the main server (1) to operate one of the air compressors. It is characterized in that it is configured so that the air output from the air compressor in a normal state can be supplied to the load side of the failed air compressor through the emergency air line (EL) when it is disabled.

In addition, the main server 1

A communication unit 3 communicating with a plurality of control units C1 to CN through a wired/wireless communication line;

Control commands for controlling the air compressor according to the user's input information are transmitted to a plurality of control units (C1 to CN) through the communication unit (3), and the operation status of the air compressors transmitted from each control unit (C1 to CN) A main control unit 2 that outputs information through the display unit 4;

A display unit 4 for displaying an operating state of the air compressors CP1 to CPN under the control of the main control unit 2; It characterized in that it is configured to include.

In addition, a remote control app (6) for remote control of a number of air compressors (CP1 to CPN) is installed, and a remote control app that controls the operating state of the air compressor while wirelessly communicating with the communication unit (3) of the main server (1). A wireless terminal 5 that outputs a screen through (6) and transmits control command information for remote control of the air compressor (CP1 to CPN) according to the operation of the user's remote control app 6 to the main server 1; It characterized in that it is further configured.

In addition, the wireless terminal is characterized in that it includes a smart phone, a tablet PC.

It is illustrated that a plurality of air compressors (CP1 to CPN) installed in the present invention are installed in different factories, and power switches (SW1 to SWN) for power control are connected to each air compressor (CP1 to CPN), The power switches (SW1~SWN) used electronically operated power switches to enable remote control.

In addition, each air compressor (CP1 to CPN) is configured to operate to supply compressed air to the load side through the air supply lines (L1 to LN), and each air compressor (L1 to LN) As (CP1~CPN) operates, a pressure sensor (PS1~PSN) that senses the air pressure output to the air supply line (L1~LN) is installed to be connected to each air supply line (L1~LN), The pressure sensors PS1 to PSN are configured to output the sensed pressure information to the controllers C1 to CN.

Meanwhile, an emergency air line (EL) that connects each air supply line (L1 to LN) is further configured, and an emergency valve (EV1 to LN) is connected to the emergency air line (EL) and the air supply line (L1 to LN). EVN) are installed respectively, and supply valves (V1 to VN) are installed at the outlet side of the air supply line (L1 to LN), respectively, to selectively combine emergency valves (EV1 to EVN) and supply valves (V1 to VN). It is configured so that two air supply lines separated from each other can be connected to an emergency air line by turning on/off.

The controllers (C1 to CN) selectively turn on/off the supply valves (V1 to VN) and emergency valves (EV1 to EVN) according to the control command transmitted from the main server (1) to operate one of the air compressors. When it is disabled, the air output from the air compressor in a normal state can be supplied to the load side of the failed air compressor through the emergency air line (EL).

In addition, the controllers (C1 to CN) control the power switches (SW1 to SWN) on/off according to a control command transmitted from the main server 1 while communicating with the main server 1 through a wired or wireless communication line. The air compressor (CP1~CPN) can be remotely controlled, and the pressure information detected by the pressure sensor (PS1~PSN) after the operation of the air compressor (CP1~CPN) is transmitted to the main server (1). ~CPN) operation status can be monitored by the user through the main server (1).

On the other hand, the main server 1 is a communication unit 3 that communicates with a plurality of control units (C1 to CN) through a wired or wireless communication line, and a control command for controlling the air compressor according to the user's input information. The main control unit 2 that transmits to a plurality of control units (C1 to CN) through the air compressor and outputs the operating state information of the air compressor transmitted from each control unit (C1 to CN) through the display unit 4, and the main control unit According to the control of (2), it is composed of a display unit 4 that displays the operating state of the air compressors (CP1 to CPN).

The main server 1 and the controllers C1 to CN communicate with each other through a wired/wireless communication line, and the wired/wireless communication line may include Wi-Fi, an Internet network, and wireless communication.

In addition, in the present invention, the air compressors CP1 to CPN can be remotely controlled using the wireless terminal 5 carried by the user.

The wireless terminal 5 is equipped with a remote control app 6 for remotely controlling a plurality of air compressors (CP1 to CPN), and operating the air compressor while wirelessly communicating with the communication unit 3 of the main server 1 The status is displayed on the screen through the remote control app (6), and control command information for remote control of the air compressor (CP1 to CPN) according to the user's operation of the remote control app (6) is transmitted to the main server (1). Provides.

Wireless terminals include all terminals that the user can carry and carry, such as smartphones and tablet PCs, and the remote control app (6) mounted on the wireless terminal (5) is installed in the form of a program on the wireless terminal (5). As a result, a control screen for remotely controlling the power of multiple air compressors (CP1~CPN), a monitoring screen for monitoring the operation status of multiple air compressors (CP1~CPN), and an arbitrary air compressor (CP1~ CPN) controls each supply valve (V1~VN) and emergency valve (EV1~EVN) so that air can be supplied through the air supply line of the failed air compressor through the emergency air line (EL). A valve control screen that can be performed may be provided.

The operation of the present invention configured as described above will be described as follows.

First, explaining the remote control of each air compressor (CP1~CPN),

The user inputs a control command to turn on the air compressor to be operated through the remote control app (6) of the wireless terminal (5) that the user is carrying, or turns on the specific air compressor through the main server (1). When a control command for control is input, the control command transmits the control command to the control units C1 to CN connected to the air compressor to be controlled through a wired or wireless communication line.

Herein, when the user inputs a control command for turning on the first air compressor CP1, the control command input by the user transmits the corresponding control command to the control unit C1 through the main server 1, The control unit C1 turns on the power switch SW1 of the first air compressor CP1 according to the input control command, so that power is supplied to the air compressor CP1 to operate the air compressor CP1.

When the air compressor (CP1) is operated, the compressed air generated by the operation of the air compressor (CP1) is supplied to the load side in the factory through the air supply line (L1), from which the pressure sensor (PS1) supplies air. The pressure in the line L1 is sensed and supplied to the control unit C1, and the control unit C1 transmits the pressure information sensed by the pressure sensor PS1 to the main server 1.

The main server 1 displays the pressure information detected by the pressure sensor PS1 on a screen through the display unit 4 so that the user can monitor the operating state of the air compressor CP1 in operation.

In addition, the operation status information displayed on the display unit 4 of the main server 1 is also transmitted to the wireless terminal 5 and displayed on the screen through the remote control app 6, so that the user uses the wireless terminal 5 that he carries. Even so, it is possible to monitor the operating state of the air compressor (CP1) in operation.

In the above description, remote control of the first air compressor CP1 has been exemplified, but a plurality of air compressors CP1 to CPN can be remotely controlled by the same method.

On the other hand, in the present invention, when one of the air compressors fails, air from another normal air compressor can be used to normally supply the defective air compressor to the load side of the factory.

This will be described with reference to FIGS. 2 and 3, which describes a case in which air is normally supplied by operating the first air compressor CP1 when the last air compressor CPN fails.

As shown in Fig. 2, all other air compressors are normal, but when the last air compressor (CPN) fails and stops, an abnormally low pressure is detected by the corresponding pressure sensor (PSN) to the main server (1) through the control unit (CN). It is transmitted, and the main controller 2 of the main server 1 determines that the air compressor (CPN) has failed by using the abnormally low pressure state information transmitted from the pressure sensor (PSN) and performs a preset alarm operation.

The alarm operation performs an alarm operation such as outputting a preset alarm sound or vibrating an alarm sound or the wireless terminal 5 through the wireless terminal 5.

The user recognizes the fault condition of the air compressor (CPN) by this alarm operation, and inputs a control command to control the valve as shown in FIG. 3 to solve this problem.

The supply valve (V1) and emergency valves (EV2 to EVN-1) are turned off according to the user's control command, and the emergency valves (EV1, EVN) and supply valves (VN) are turned on, and the first air compressor (CP1) The compressed air discharged can be supplied normally through the air supply line LN of the failed air compressor CPN through the air supply line L1 and the emergency air line EL.

Accordingly, even if any one of the air compressors fails, the excess air pressure of the other normal air compressor can be bypassed through the emergency air line and can be supplied normally, thereby preventing the plant from malfunctioning due to the failure of the air compressor. will be.

1: main server, 2: main control unit,
3: communication unit, 4: display unit,
5: wireless terminal, 6: remote control app,
CP1~CPN: air compressor, SW1~SWN: power switch,
L1 to Ln: air supply line, V1 to VN: supply valve,
EL: emergency air line, EV1~EVN: emergency valve,
PS1~PSN: pressure sensor, C1~CN: control unit

Claims (5)

A number of air compressors (CP1 to CPN) installed in different areas and connected to each of the power switches (SW1 to SWN) for power control and supplying air to the load side through the air supply lines (L1 to LN) and ;
A pressure sensor (PS1 to PSN) that senses the pressure state of the air supply lines (L1 to LN) and outputs the output to the control unit (C1 to CN);
While communicating with the main server (1) through a wired or wireless communication line, the power switch (SW1 to SWN) is controlled on/off according to the control command transmitted from the main server (1), and detected by the pressure sensor (PS1 to PSN). A control unit (C1 to CN) for transmitting the pressure information to the main server 1;
While communicating with the control unit (C1~CN) through wired/wireless communication line, it transmits the user's control command to the control unit (C1~CN), and operates the air compressor (CP1~CPN) transmitted from each control unit (C1~CN) It consists of a main server (1) that displays the status information on the screen so that the user can monitor,
An emergency air line (EL) that connects each air supply line (L1 to LN) is further configured, and emergency valves (EV1 to EVN) are connected to the emergency air line (EL) and the air supply line (L1 to LN). Respectively, and supply valves (V1 to VN) on the outlet side of the air supply line (L1 to LN) respectively,
The controllers (C1 to CN) selectively turn on/off the supply valves (V1 to VN) and emergency valves (EV1 to EVN) according to the control command transmitted from the main server (1) to operate one of the air compressors. An energy-saving multi-factory air compressor remote control device, characterized in that the air output from the air compressor in a normal state can be supplied to the load side of the failed air compressor through the emergency air line (EL) when it is disabled.
delete The method of claim 1,
The main server 1 is
A communication unit 3 communicating with a plurality of control units C1 to CN through a wired/wireless communication line;
Control commands for controlling the air compressor according to the user's input information are transmitted to a plurality of control units (C1 to CN) through the communication unit (3), and the operation status of the air compressors transmitted from each control unit (C1 to CN) A main control unit 2 that outputs information through the display unit 4;
A display unit 4 for displaying an operating state of the air compressors CP1 to CPN under the control of the main control unit 2; An energy-saving multi-factory air compressor remote control device, characterized in that configured to include.
The method of claim 1,
A remote control app (6) for remote control of a number of air compressors (CP1 to CPN) is installed, and the remote control app (6) controls the operating status of the air compressor while wirelessly communicating with the communication unit (3) of the main server (1). ) Through the screen output, and transmitting control command information for remote control of the air compressor (CP1 ~ CPN) according to the user's remote control app (6) operation to the main server (1) (5); An energy-saving multi-factory air compressor remote control device, characterized in that the further configuration.
The method of claim 4,
The wireless terminal is a remote control device for an air compressor of a number of energy-saving factories, characterized in that it includes a smartphone or a tablet PC.

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