CN216296354U - Intelligent identification control cabinet for condensate polishing resin regeneration - Google Patents

Abstract

The application discloses a condensate polishing resin regeneration intelligent recognition control cabinet, which comprises a cabinet body, a display, a server, an output board card and a power network box, wherein the display, the server, the output board card and the power network box are arranged in the cabinet body; the server is connected with the output board card, and the output board card sends an identification signal to the PLC control system. The control system is optimized, and the response speed is improved. The control cabinet is adopted, a plurality of hardware are concentrated in the control cabinet, and the occupied area of each part is reduced.

Description

Intelligent identification control cabinet for condensate polishing resin regeneration

Technical Field

The application relates to a condensate polishing system, in particular to a condensate polishing resin regeneration intelligent identification control cabinet.

Background

At present, large-scale power generating sets in China are all provided with condensate polishing systems, and resin in the systems needs to be regenerated periodically to ensure the removal function of the resin on impurity ions. In the original working mode, the regeneration process of the resin is basically ensured to be normally carried out in a manual field observation, judgment and adjustment mode, so that a plurality of defects exist, and the method mainly comprises the following steps: 1. the regeneration process is long, a worker is required to stay on the site all the time, the working intensity of the worker is high, and the labor consumption of an enterprise is high; 2. the manual adjustment precision is insufficient, and the randomness is large, so that the resin proportion is disordered, and the final regeneration effect of the mixed bed is influenced.

In the later industry, a computer image recognition algorithm is adopted to realize the accurate control of the output of the positive and negative resins of the resin separation tower in the condensate water fine treatment regeneration system, and the loss and the required supplement amount of the positive and negative resins in the running, circulation and conveying processes are accurately and quantitatively analyzed. For example, the Chinese patent application "an intelligent monitoring system for resin interface of separation tower", application number: 201620799516.1, it comprises a separating tower, an upper window, a middle window, a lower window, a female resin outlet door, a male resin outlet door, an upper window camera, a middle window camera, a lower window camera, an optical fiber cable, an industrial exchanger, a monitoring computer, a human-computer interface, a bus converter, a signal converter, a PLC/DCS controller, an electric conversion controller, etc.

The intelligent monitoring system relates to the realization of remote identification, remote diagnosis and remote control of resin layering, resin conveying, resin output end point and the like. And the method corresponds to the contents of different separation tower diameters, different mixed bed resin layer heights and different resin proportions. Therefore, the hardware components of the intelligent detection system disclosed in the above patent application have the problems of slow response, low processing efficiency and the like in the actual use process.

SUMMERY OF THE UTILITY MODEL

An aim at of this application provides a condensate polishing resin regeneration intelligent recognition switch board, and the optimal control system improves response speed.

Another aim at of this application provides a condensate polishing resin regeneration intelligent recognition switch board, adds server and output integrated circuit board, improves PLC control system's recognition rate.

Another aim at of this application provides a condensate polishing resin regeneration intelligent recognition switch board, adopts the switch board, concentrates on a plurality of hardware in the switch board, reduces the area of each part.

The technical scheme adopted by the application is as follows: an intelligent recognition control cabinet for resin regeneration of condensate fine treatment comprises a cabinet body, and a display, a server, an output board card and a power network box which are arranged in the cabinet body, wherein the power network box is arranged at the bottom of the cabinet body and supplies power to the control cabinet and transmits network signals; the server is connected with the output board card, and the output board card sends an identification signal to the PLC control system.

Compared with the prior art, the method and the device have the advantages that the server is firstly arranged for processing the image or video signal transmitted by the camera group and outputting the analog signal. The server has high-speed CPU computing capability, long-time reliable operation, strong I/O external data throughput capability and better expansibility. And secondly, the server is connected with an output board card, namely, an analog signal output by the server is sent to the PLC control system through the output board card, and the output board card converts the analog signal into an identification signal which can be identified by PLC control. The identification speed of the PLC control system is improved. Thirdly, the PLC control system carries out logic judgment according to the received identification signal and sends out a control command to require to execute a relevant regeneration step sequence. And finally, a plurality of hardware of the display, the server, the output board card and the power network box are integrated in the control cabinet, so that the occupied area of each part is reduced.

In some embodiments of the present application, the display, the server, the output board card and the power network box are sequentially arranged in the cabinet body from top to bottom. This application adopts vertical overall arrangement, can reduce the area of the cabinet body.

In some embodiments of the present application, a side of the cabinet is open and covered by a door that is movable relative to the cabinet and opens or closes the opening. In the application, the display, the server, the output board card, the power network box and other components are all installed in the cabinet body, and if necessary, the components also need to be repaired, so that the cabinet body cannot be completely closed, and the door-openable cabinet body is preferably adopted.

In some embodiments of the present application, the cabinet door is made of a transparent material. Preferably, at least one side wall of the cabinet body is made of transparent materials. The user can observe the use condition of the internal parts through the cabinet door. In particular, some components may be provided with indicator lights to indicate the status of use of the device.

In some embodiments of the present application, a side wall of the cabinet door or the cabinet body is provided with a viewing port, and the display screen is exposed at the viewing port. In the in-service use process, the cabinet body or cabinet door surface can be stained with dust and the like inevitably, lead to transparent cabinet body or cabinet door definition to reduce originally. It is feasible to observe a general indicator light. However, if the user needs to view the picture on the display, the definition is poor. Therefore, the display screen is exposed at the viewing port, and a user can directly observe pictures on the display.

In some embodiments of this application, the group of making a video recording be used for monitoring smart resin regeneration system, the group of making a video recording is connected to the POE switch, the video or image signal that the group of making a video recording will shoot transmit POE switch to, POE switch connection display, server. In this application, the group of making a video recording can't direct connection to display and server in the cabinet body, but carries out the transfer through the POE switch. A POE switch is a switch that supports power over ethernet.

In some embodiments of the present application, the PLC control system is coupled to the resin regeneration system.

In some embodiments of the application, the PLC control system is connected with an upper computer, and signals are transmitted between the PLC control system and the upper computer.

The PLC control system is the lower computer corresponding to the upper computer in the application. The PLC control system feeds back the state data of the resin regeneration system to the upper computer, and the upper computer sends out a control command to the PLC control system.

In some embodiments of the present application, the resin regeneration system includes a separation tower, a negative tower, a positive tower and a mixed bed, the camera group includes a plurality of cameras, the separation tower, the negative tower, the positive tower punishment respectively correspond and be provided with at least two cameras, the camera shoots the work scene in separation tower, negative tower, the positive tower.

Specifically, the knockout tower correspond and be provided with three camera, three camera head gives three video or image signal of POE switch. The negative tower and the positive tower are respectively and correspondingly provided with two cameras, and the four cameras send four videos or image signals of the POE switch. In the application, logic judgment is carried out according to the seven video or image signals, and a corresponding control command is sent.

In some embodiments of the present application, the PLC control system is connected to the mixed bed, the PLC control system controls the mixed bed to work, and the working state of the mixed bed is transferred to the PLC control system.

Drawings

The present application will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of illustrating the preferred embodiments and therefore should not be taken as limiting the scope of the present application. Furthermore, unless specifically stated otherwise, the drawings are merely schematic representations based on conceptual representations of elements or structures depicted and may contain exaggerated displays and are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic diagram of a fine resin regeneration system.

Wherein the reference numerals are specified as follows: 1. a cabinet body; 2. a display; 3. a server; 4. outputting a board card; 5. a power network box; 6. a camera group; 7. a PLC control system; 8. a polishing resin regeneration system; 9. an upper computer; 10. and (6) a POE switch.

Detailed Description

The present application will now be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As shown in fig. 1: an intelligent identification switch board of condensate polishing resin regeneration, embodiment one: including the cabinet body 1 and install display 2, server 3, output integrated circuit board 4 and power network case 5 in the cabinet body 1, power network case 5 install in the bottom of the cabinet body 1 and for switch board power supply and network signal transmission, concentrate display 2, server 3, output integrated circuit board 4 and a plurality of hardware of power network case 5 in the switch board, reduce the area of each part. The server 3 and the display 2 are connected with the camera group 6, the server 3 receives the image or video signal transmitted by the camera group 6, and the server 3 is arranged for processing the image or video signal transmitted by the camera group 6 and outputting an analog signal. And an image or video signal is displayed on the display 2; the server 3 is connected with the output board card 4, and the output board card 4 sends an identification signal to the PLC control system 7. The output board card 4 converts the analog signal into an identification signal which can be identified by PLC control. The recognition speed of the PLC control system 7 is improved. The PLC control system 7 carries out logic judgment according to the received identification signal and sends out a control command to require to execute a relevant regeneration step sequence.

In the application, only relevant hardware in the field of resin regeneration systems is further improved, and all the relevant hardware in the application can be directly obtained by purchasing. Such as: the POE switches 10 can adopt POE switches 10 with the model numbers S2700, S5720, and the like; the display 2 can adopt a common computer display 2, a display screen and the like; the server 3 can adopt a high-performance server 3 with model number SKY-8101SAS, SKY-3270 and the like under the Tephrosic flag; the output board 4 can be a hua board.

The second embodiment is the same as the first embodiment in other points: the display 2, the server 3, the output board card 4 and the power network box 5 are sequentially arranged in the cabinet body 1 from top to bottom. This application adopts vertical overall arrangement, can reduce the area of the cabinet body 1.

One side of the cabinet body 1 is open and covered by a cabinet door, and the cabinet door can move relative to the cabinet body 1 and open or close the opening. In the present application, the display 2, the server 3, the output board 4, the power network box 5, and other components are all installed in the cabinet 1, and if necessary, the above components also need to be repaired, so that the cabinet 1 cannot be completely closed, and the openable cabinet 1 is preferably used.

The cabinet door is made of transparent materials. Preferably, at least one side wall of the cabinet body 1 is made of transparent material. The user can observe the use condition of the internal parts through the cabinet door. In particular, some components may be provided with indicator lights to indicate the status of use of the display 2.

A side wall of the cabinet door or the cabinet body 1 is provided with an observation port, and the screen of the display 2 is exposed at the observation port. In the in-service use process, the cabinet body 1 or the cabinet door surface can be stained with dust and the like inevitably, resulting in that the original transparent cabinet body 1 or the cabinet door definition is reduced. It is feasible to observe a general indicator light. But the user has poor clarity if he wants to view the picture on the display 2. Therefore, the present application provides the viewing port, and exposes the screen of the display 2 at the viewing port, so that the user can directly view the picture on the display 2.

The third embodiment is the same as the first embodiment or the second embodiment, and the differences are as follows: group 6 of making a video recording be used for monitoring smart resin regeneration system 8, the group 6 of making a video recording is connected to POE switch 10, the group 6 of making a video recording transmits the video or image signal of shooing to POE switch 10, POE switch 10 connects display 2, server 3. In this application, the camera group 6 cannot be directly connected to the display 2 and the server 3 in the cabinet 1, but is relayed through the POE switch 10. POE switch 10 is a switch that supports power over ethernet.

The PLC control system 7 is connected to the resin regeneration system.

The PLC control system 7 is connected with an upper computer 9, and signals are transmitted between the PLC control system 7 and the upper computer 9.

In the application, the PLC control system 7 is a lower computer corresponding to the upper computer 9. The PLC control system 7 feeds back the state data of the resin regeneration system to the upper computer 9, and the upper computer 9 sends a control command to the PLC control system 7.

Fourth embodiment is as shown in fig. 2, and the other contents of the fourth embodiment are the same as those of the first embodiment, the second embodiment or the third embodiment, and the differences are as follows: the resin regeneration system comprises a separation tower, a negative tower, a positive tower and a mixed bed, the camera group 6 comprises a plurality of cameras, at least two cameras are respectively and correspondingly arranged at the positions of the separation tower, the negative tower and the positive tower, and the cameras shoot working scenes in the separation tower, the negative tower and the positive tower.

Specifically, the knockout tower correspond and be provided with three camera, three camera sends for three video or image signal of POE switch 10. Cloudy tower, positive tower correspond respectively and be provided with two cameras, four cameras send four videos or image signal of POE switch 10. In the application, logic judgment is carried out according to the seven video or image signals, and a corresponding control command is sent.

The PLC control system 7 is connected with the mixed bed, the PLC control system 7 controls the mixed bed to work, and the working state of the mixed bed is transmitted to the PLC control system 7.

The present application has been described in detail above, and specific examples thereof are used herein to explain the principles and implementations of the present application, which are presented solely to aid in understanding the present application and its core concepts. It should be noted that, for those skilled in the art, it is possible to make several improvements and modifications to the present application without departing from the principle of the present application, and such improvements and modifications also fall within the scope of the claims of the present application.

Claims (10)

1. An intelligent recognition control cabinet for resin regeneration of condensate polishing is characterized by comprising a cabinet body, and a display, a server, an output board card and a power network box which are arranged in the cabinet body, wherein the power network box is arranged at the bottom of the cabinet body and supplies power to the control cabinet and transmits network signals; the server is connected with the output board card, and the output board card sends an identification signal to the PLC control system.

2. The intelligent recognition control cabinet for the condensate polishing resin regeneration of claim 1, wherein the display, the server, the output board card and the power network box are sequentially arranged in the cabinet body from top to bottom.

3. The intelligent recognition control cabinet for condensate polishing resin regeneration according to claim 1, wherein a side of the cabinet body is open and covered by a cabinet door, and the cabinet door is movable relative to the cabinet body to open or close the opening.

4. The intelligent recognition control cabinet for condensate polishing resin regeneration according to claim 3, wherein a viewing port is disposed on a side wall of the cabinet door or the cabinet body, and the display screen is exposed at the viewing port.

5. The intelligent recognition control cabinet for condensate polishing resin regeneration of claim 1, wherein the camera group is used for monitoring the polishing resin regeneration system, the camera group is connected to the POE switch, the camera group transmits the shot video or image signal to the POE switch, and the POE switch is connected to the display and the server.

6. The intelligent recognition control cabinet for condensate polishing resin regeneration according to claim 1, wherein the PLC control system is connected with the resin regeneration system; the PLC control system is connected with an upper computer, and signals are transmitted between the PLC control system and the upper computer.

7. The intelligent recognition control cabinet for condensate polishing resin regeneration according to claim 5, wherein the resin regeneration system comprises a separation tower, a negative tower, a positive tower and a mixed bed, the camera group comprises a plurality of cameras, at least two cameras are respectively and correspondingly arranged at the separation tower, the negative tower and the positive tower, and the cameras shoot working scenes in the separation tower, the negative tower and the positive tower.

8. The intelligent recognition control cabinet for condensate polishing resin regeneration according to claim 7, wherein the separation tower is correspondingly provided with three cameras, and the three cameras send three video or image signals to the POE switch.

9. The intelligent recognition control cabinet for the resin regeneration of condensate polishing as claimed in claim 7 or 8, wherein the female tower and the male tower are respectively and correspondingly provided with two cameras, and the four cameras transmit four video or image signals of the POE switch.

10. The intelligent recognition control cabinet for the resin regeneration of the condensate polishing as claimed in claim 7, wherein the PLC control system is connected to the mixed bed, the PLC control system controls the operation of the mixed bed, and the operation state of the mixed bed is transmitted to the PLC control system.

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