CN103869765A - Monitoring system and application thereof for maneuvering instrument and depth instrument - Google Patents

Abstract

The invention relates to a monitoring system and an application thereof for a maneuvering instrument and a depth instrument. The system comprises a central computer, monitoring equipment, a monitoring computer and a control instrument, wherein the monitoring equipment is respectively connected with the central computer, the monitoring computer and the control instrument, and the control instrument is respectively connected with the maneuvering instrument and the depth instrument. Compared with the prior art, the system has the advantages that the control precision is high, the power consumption is little, the stability is high, the reliability is high, and the like.

Description

A kind of supervisory system and application thereof for motor-driven instrument and degree of depth instrument

Technical field

The present invention relates to a kind of monitoring technique of instrument, especially relate to a kind of supervisory system and application thereof for motor-driven instrument and degree of depth instrument.

Background technology

The control system of existing motor-driven instrument and degree of depth instrument is generally by simple controller to be controlled, will certainly cause like this control accuracy low, control weak effect, thereby cause the reliability of motor-driven instrument and degree of depth instrument to reduce, serviceable life the problem such as low, poor stability.

Summary of the invention

Object of the present invention is exactly to provide in order to overcome the defect that above-mentioned prior art exists that a kind of control accuracy is high, power consumption is little, stability is high, the supervisory system for motor-driven instrument and degree of depth instrument of good reliability.

Object of the present invention can be achieved through the following technical solutions:

A kind of supervisory system for motor-driven instrument and degree of depth instrument, it is characterized in that, comprise central computer, watch-dog, supervisory control comuter and controller, described watch-dog is connected with central computer, supervisory control comuter and controller respectively, and described controller is connected with motor-driven instrument and degree of depth instrument respectively.

Described central computer is connected with watch-dog by RS422 interface.

Described watch-dog is connected with controller by RS422 interface.

For an application for the supervisory system of motor-driven instrument and degree of depth instrument, it is characterized in that, comprise the following steps:

1) system initialization;

2) central computer sends the setup parameter information of motor-driven instrument and degree of depth instrument to controller;

3) watch-dog receives setup parameter information;

4) watch-dog forwards respectively setup parameter information to supervisory control comuter and controller;

5) the real-time display setting parameter information of supervisory control comuter;

6) controller receives after setup parameter information, sends to respectively motor-driven instrument and degree of depth instrument, motor-driven instrument and the degree of depth instrument setup parameter that brings into operation;

7) controller by the current status information Real-time Feedback of motor-driven instrument, degree of depth instrument gathering to central computer;

8) watch-dog receives feedback states information;

9) watch-dog forwards respectively feedback states information to supervisory control comuter and central computer;

10) supervisory control comuter shows feedback states information in real time;

11) central computer shows feedback states information in real time, and returns to step 7).

Compared with prior art, the present invention has the following advantages:

1, control accuracy is high, by seeing intuitively the communication data between central computer and controller, is convenient to maintenance and the debugging of equipment;

2, power consumption is little, and working temperature is low, and a whole set of supervisory system is stably worked, and has improved reliability.

Accompanying drawing explanation

Fig. 1 is hardware configuration schematic diagram of the present invention;

Fig. 2 is workflow diagram of the present invention.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in detail.

Embodiment

As shown in Figure 1, a kind of supervisory system for motor-driven instrument and degree of depth instrument, comprise central computer 1, watch-dog 2, supervisory control comuter 3 and controller 4, described watch-dog 2 is connected with central computer 1, supervisory control comuter 3 and controller 4 respectively, and described controller 4 is connected with motor-driven instrument 5 and degree of depth instrument 6 respectively.

Described central computer 1 is connected with watch-dog 2 by RS422 interface.Described watch-dog 2 is connected with controller 4 by RS422 interface.

As shown in Figure 2, workflow of the present invention is as follows:

1) system initialization;

2) central computer sends the setup parameter information of motor-driven instrument and degree of depth instrument to controller;

3) watch-dog receives setup parameter information;

4) watch-dog forwards respectively setup parameter information to supervisory control comuter and controller;

5) the real-time display setting parameter information of supervisory control comuter;

6) controller receives after setup parameter information, sends to respectively motor-driven instrument and degree of depth instrument, motor-driven instrument and the degree of depth instrument setup parameter that brings into operation;

7) controller by the current status information Real-time Feedback of motor-driven instrument, degree of depth instrument gathering to central computer;

8) watch-dog receives feedback states information;

9) watch-dog forwards respectively feedback states information to supervisory control comuter and central computer;

10) supervisory control comuter shows feedback states information in real time;

11) central computer shows feedback states information in real time, and returns to step 7).

Claims (4)

1. the supervisory system for motor-driven instrument and degree of depth instrument, it is characterized in that, comprise central computer, watch-dog, supervisory control comuter and controller, described watch-dog is connected with central computer, supervisory control comuter and controller respectively, and described controller is connected with motor-driven instrument and degree of depth instrument respectively.

2. a kind of supervisory system for motor-driven instrument and degree of depth instrument according to claim 1, is characterized in that, described central computer is connected with watch-dog by RS422 interface.

3. a kind of supervisory system for motor-driven instrument and degree of depth instrument according to claim 1, is characterized in that, described watch-dog is connected with controller by RS422 interface.

4. an application for the supervisory system for motor-driven instrument and degree of depth instrument as claimed in claim 1, is characterized in that, comprises the following steps:

1) system initialization;

2) central computer sends the setup parameter information of motor-driven instrument and degree of depth instrument to controller;

3) watch-dog receives setup parameter information;

4) watch-dog forwards respectively setup parameter information to supervisory control comuter and controller;

5) the real-time display setting parameter information of supervisory control comuter;

6) controller receives after setup parameter information, sends to respectively motor-driven instrument and degree of depth instrument, motor-driven instrument and the degree of depth instrument setup parameter that brings into operation;

7) controller by the current status information Real-time Feedback of motor-driven instrument, degree of depth instrument gathering to central computer;

8) watch-dog receives feedback states information;

9) watch-dog forwards respectively feedback states information to supervisory control comuter and central computer;

10) supervisory control comuter shows feedback states information in real time;

11) central computer shows feedback states information in real time, and returns to step 7).

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