KR20170142356A - Air compression system with failure diagnosis module using wcdma - Google Patents

Abstract

The present invention relates to an air compression device with a failure diagnosis module, monitoring an air compressor using a failure diagnosis module using a failure diagnosis element and a bidirectional wireless communications module using a WCDMA in real time in order to improve efficiency of the compressor and reduces power consumption. Moreover, the present invention stores a failure record and manages and controls a failure in order to reduce maintenance costs of the air compressor.

Description

TECHNICAL FIELD [0001] The present invention relates to an air compression system having a remote fault diagnosis module using WCDMA,

The present invention monitors the air compressor in real time using a bidirectional wireless communication module using WCDMA (wideband code division multiple access) and a fault diagnosis module using a fault diagnosis factor, thereby improving the efficiency of the compressor and reducing power consumption And more particularly, to an air compression system having a remote fault diagnosis module using WCDMA that can reduce the maintenance cost of the air compressor according to the fault history storage and control management.

Air compressors are essential fluid machinery for industrial field. They are widely used from general pneumatic equipment and facilities to environment, plant, mining, construction, civil engineering, etc., and the domestic production volume is 14,632 as of 2014, It is showing.

The air compressors include reciprocating, screw, and turbo-type. There are a variety of technologies related to the air compressor including Patent Documents 1 to 3.

Such an air compressor technology is being developed as a screw type compressor, and a compressor adopting an inverter for power saving has been developed.

On the other hand, the air compressor consumes a large amount of electric power, and 9 ~ 25% of the domestic industrial electric power is used for driving the air compressor. This is 52,879 GWh as of 2013 (Source: 2013 The electric power of the air compressor is consumed by the electric power amount and the amount of about 4.7 trillion won or more in the electricity statistics breaking news No. 422 in February.

However, when the conventional air compressor fails to replace consumables in a short time, the efficiency is lowered, but the power consumption is increased.

In addition, the plant holds an air compressor is plentiful, the efficiency is degraded depending on the note does surveillance is not well done, of course, there is a disadvantage that the power required for driving by the aging of the device is consuming.

In other words, conventionally, when the air compressor is delivered, only a consumable is replaced with a certain amount of time, and it is impossible to check whether the discharged air amount, the discharge pressure and the consumed electric power, which are the most important factors of the air compressor, There is a problem in that the air compressor can not actually achieve the optimal driving efficiency under the optimum condition.

Korean Patent No. 0552257 Korean Patent Publication No. 2007-0106856

It is an object of the present invention to provide an air compression system having a remote fault diagnosis module using WCDMA that can be self-diagnosed to secure safety and durability for a long period of time .

That is, a plurality of sensors are installed in the air compression system to monitor the driving state of the air compression system, and the monitoring information is analyzed by using a two-way wireless communication module using WCDMA and a control program of a high air cleaner It is an object of the present invention to provide an air compression system equipped with a remote fault diagnosis module using WCDMA that can improve the efficiency of an air compressor, reduce power consumption, and reduce maintenance costs by predicting and maintaining the situation .

In order to achieve the above object, an air compression system having a remote fault diagnosis module using WCDMA according to the present invention is for diagnosing a failure of an air compression system 100 including an air-end and a compressor. A diagnostic information sensor; A failure diagnosis module for comparing the received information detected by the diagnostic information sensor with predetermined information to diagnose whether the device equipped with the diagnostic information sensor is normal or not; Monitoring / controlling means for monitoring the failure diagnosed by the failure diagnosis module; And WCDMA for transmitting the information detected by the diagnostic information sensor to the failure diagnosis module and the monitoring / control means, and for transmitting the control signal of the monitoring / control means to the device.

The diagnostic information sensor includes a pressure sensor installed at the rear end of the pressure compensating valve (MPV) for sensing the discharge pressure and measuring the internal pressure of the receiver tank, a thermocouple sensing the temperature of the discharge port of the airend and the temperature of the IPM motor, A current sensor, and an air amount measuring device installed at an input end of the air filter and measuring an amount of air flowing into the air filter.

The failure diagnosis module may be a failure determination program included in the monitoring / control means. The failure diagnosis program may be detected by a pressure sensor, a thermocouple, a current sensor, and an air flow meter, Information on the discharge temperature, the IPM motor temperature, the current, and the air amount with the predetermined reference value is transmitted to the monitoring / control means and displayed, and when the sensed information is out of the reference value, the device abnormality information is outputted to the monitoring / The history is stored in the storage means.

As described above, the air compression system having the remote fault diagnosis module using the WCDMA according to the present invention monitors the driving state of the air compressor continuously during the operation time, thereby saving the additional cost for maintaining the efficiency of the air compressor And it is possible to minimize the loss caused by the air compressor shutdown as the waiting time for the repair due to the failure of the air compressor airend is reduced.

In addition, by continuously diagnosing the apparatus during operation of the air compressor, it is possible to cope with a failure in real time so that the air compressor can be driven in an optimum condition, so that the apparatus can be prevented from aging, It is also possible to reduce the effect.

1 is a block diagram of an air compression system having a remote fault diagnosis module using WCDMA according to the present invention
2 is a layout diagram of a diagnostic information sensor installed in an air compression system equipped with a remote fault diagnosis module using WCDMA according to the present invention.
3 is a flowchart of a process of diagnosing a failure in an air compression system having a remote fault diagnosis module using WCDMA according to the present invention

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention can monitor the respective devices constituting the air compression system in real time to check the driving state of each of the devices so that the driving state of the air compression system can be maintained in the optimal driving state and preliminary action can be taken And can respond immediately when a failure occurs.

As shown in FIG. 1, the air compression system according to the present invention includes a plurality of diagnostic information sensors 10, a failure diagnosis module 20, and a monitoring / control means 30.

It is also possible to transmit the information sensed by each of the diagnostic information sensors 10 to the failure diagnosis module 20 and the monitoring / control means 30 and to transmit the control signal of the monitoring / control means 30 to the device And a WCDMA (40).

Of course, wired communication means may be provided in place of the WCDMA 40. However, in the case of wired communication, it is difficult to install the wired communication line or other wired devices because of a lot of space and cost. It is preferable to use WCDMA.

In addition, since WCDMA is used, it is possible to use the recently used portable terminal as a monitoring means, so that the air compression system can be always managed regardless of the position of the manager.

The diagnostic information sensor 10 is a means for sensing the current state of each device constituting the air compression system. Various types of sensors may be used depending on the attributes of the devices constituting the air compression system.

Examples of the diagnostic information sensor 10 include pressure sensors P1 and P2 installed at the rear end of the pressure-reducing valve MPV for detecting the discharge pressure and measuring the internal pressure of the receiver tank, a temperature sensor for detecting the temperature of the discharge port of the airend and the temperature of the IPM motor A current sensor for sensing the current of the inverter, and an air flow meter A1 for measuring the amount of air introduced into the air filter, which is installed at an input end of the air filter.

As shown in FIG. 2, the pressure sensor P1 of the pressure sensors P1 and P2 is installed at the rear end of the pressure-reducing valve MPV to sense the pressure of the air discharged to the pressure-reducing valve, So that it is possible to control the operation of the compressor and also to determine whether the booster valve is normally driven or not.

That is, it is possible to check whether the pressure compensating valve is normally operated by comparing the pressure sensed by the pressure sensor P2 that senses the pressure of the air moving from the receiver tank to the air cleaner side, and the pressure sensed by the pressure sensor P1 It is.

The pressure sensor P1 provided in the pressure compensating valve is operated so that the pressure of the receiver tank provided in the normal air compressing system is maintained to be 0.95 MPa or less. In view of this, the pressure of 0-1.2 MPa is sensed It is preferable to use a sensor that can measure the temperature.

Of course, the pressure range detected by the pressure sensor P2 installed at the output end of the receiver tank is 0 to 1.2 MPa.

The thermocoupler (T1) is installed in a device that generates heat during operation, and can detect whether the device is overheated by detecting the temperature of the device.

Although FIG. 2 shows an example in which the thermocoupler (T1) is installed at the outlet of the airstream, it may be installed in the IPM motor of the compressor as described above.

A temperature sensor may be installed instead of a thermocouple. However, in the case of an exothermic device constituting the air compression system, when the generated heat is high temperature and the temperature sensor is physically brought into contact with the device, It is desirable to use a thermocouple capable of sensing the temperature without being in direct contact with the apparatus.

The air quantity measuring device A1 is a means for controlling the driving of the entire air compression system. When the amount of air detected by the air quantity measuring device is equal to or greater than a preset reference value, the air quantity measuring device A1 generates more air than necessary. Is substantially ineffective and the air compression system is over driven and consumes unnecessary power. Accordingly, the air amount detected by the air amount measuring device is compared with a predetermined reference value, and the driving of the air compression system is controlled to reduce unnecessary power consumption.

The current sensor is installed in an inverter of a compressor in which a motor having an inverter is used, and senses an inverter current to determine whether an overload is applied to the system.

The information detected by the diagnostic information sensor 10 including various sensors is transmitted to the failure diagnosis module 20, and the failure diagnosis module analyzes the information to determine whether the corresponding device is malfunctioning.

The failure diagnosis module 20 compares the information detected by the plurality of the diagnostic information sensors 10 with predetermined information and diagnoses whether the device equipped with the diagnostic information sensor is normal or not.

The failure diagnosis module 20 may be a failure determination program included in the monitoring / control means.

As shown in FIG. 3, the failure diagnosis module, that is, the failure diagnosis program, compares each information detected from the diagnostic information sensors 10 with a preset reference value, and determines that the device is abnormal when the reference value is exceeded .

The monitoring / control means 30 is provided as means for displaying the information detected by the diagnostic information sensor 10 as well as the information related to the failure analyzed by the failure diagnosis module 20.

The monitoring / control means 30 displays various information and has a function of controlling the driving of the air compression system, and can be implemented by modifying the conventional control means.

The monitoring / control means 30 includes a failure determination program, which is a failure diagnosis module 20, as described above, and may include one or more memories to store sensed information and analysis results.

The information stored in the memory of the monitoring / controlling means 30 is stored together with the real time information detected by the diagnostic information sensor 10 and the input time of the corresponding information.

Therefore, the user or the administrator can confirm the history of the air compression system at a glance, so that the air compression system can be maintained before the failure, and the system can be prevented from being disabled due to failure You can.

As shown in FIG. 1, the monitoring / control means 30 may include a computer capable of collectively monitoring a plurality of air compression systems installed in a plurality of or a plurality of places, A remote control center, and a mobile terminal associated with an owner or operator of a particular air compression system.

That is, a plurality of air compression systems are monitored and observed at a remote control center, and observation results of a plurality of air compression systems are observed through a corresponding air compressor By transmitting to the system administrator, the air compression system administrator can monitor the current state of the air compression system whenever desired.

This remote control center monitors and manages a number of air compression systems, so that a company that designs and constructs an air compression system will notify users with their own air compression systems of the current situation of a faster and more accurate air compression system, It can be done.

10: Diagnostic information sensor
20: Fault diagnosis module
30: Monitoring / control means
40: WCDMA

Claims (4)

For diagnosing faults in an air compression system (100) comprising an airend and a compressor,
A plurality of diagnostic information sensors (10) installed in respective components constituting the air compression system to sense diagnostic telegrams necessary for diagnosis of the system;
A failure diagnosis module (20) for comparing the received information detected by the diagnostic information sensor with preset information to diagnose whether the device equipped with the diagnostic information sensor is normal or not;
Monitoring / controlling means (30) for monitoring the failure diagnosed by the fault diagnosis module; And
And a WCDMA (40) for transmitting the information sensed by the diagnostic information sensor to the fault diagnosis module and the monitoring / control means and for transmitting the control signal of the monitoring / control means to the device. Air compression system. The method according to claim 1,
The diagnostic information sensor 10 includes pressure sensors P1 and P2 installed at a rear end of a pressure-compensating valve MPV for detecting a discharge pressure and measuring the internal pressure of the receiver tank, A coupler (T1), a current sensor for sensing the current of the inverter, and an air quantity measuring device (A1) installed at an input end of the air filter for measuring the amount of air flowing into the air filter Air compression system. 3. The method according to claim 1 or 2,
Wherein the failure diagnosis module (20) is a failure determination program included in the monitoring / control means. The method of claim 3,
The malfunction diagnostic program detects information from a pressure sensor, a thermocouple, a current sensor, and an air flow meter, and compares the air pressure, the discharge temperature, the IPM motor temperature, the current, and the air amount received through the WCDMA 40 with a preset reference value And outputting the device abnormality information to the monitoring / control means when the sensed information is out of the reference value, and storing the device abnormality information in the storage means. system.

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