CN204953872U - Water -cooling control system - Google Patents

Abstract

The utility model discloses a water -cooling control system, including the water cooling plant, the water cooling plant is connected with a water supply solenoid valve, a flow control valve including many cooling channel on every cooling channel, controlling means, controlling means is including the industrial computer, the industrial computer disposes the MNETH optical fiber communication card, the industrial computer passes through the MNETH optical fiber communication card with treat cooling system signal connection, the industrial computer still disposes cclink communication card, through cclink communication card with water supply solenoid valve, flow control valve signal connection. This water -cooling control system degree of automation is high, the cryogenine exactness is high, the qualitative data can be traceed back.

Description

Water-cooling control system

Technical field

The utility model relates to Cooling Control Technology field, particularly a kind of water-cooling control system.

Background technology

At present, when carrying out water-cool control, automatically control mainly through inputting cooling parameter, more general PLC in touch-screen.In actual use, often there is following shortcoming in cooling controller of the prior art:

One, often need manually to carry out intervening in real time to reach cooling effect to regulate; Two, data record can not be formed, when the later stage, quality was reviewed without data tracing; Three, add up icon and system diagnostics function not in detail, comprehensive not; Four, control accuracy is not high.

Utility model content

The purpose of this utility model is to provide a kind of water-cooling control system, and this water-cooling control system automaticity is high, cryogenin exactness is high, qualitative data can be reviewed.

In order to achieve the above object, the utility model adopts following technical scheme:

Water-cooling control system, comprising: water cooling plant, and described water cooling plant includes many cooling ducts, and every bar cooling duct is connected with a water supply electromagnetic valve, flow control valve; Control device; Described control device includes industrial computer, described industrial computer is configured with MNETH optical-fibre communications card, described industrial computer is connected with system signal to be cooled by described MNETH optical-fibre communications card, with gather described system to be cooled cooling log-on message, in real time cool object information, qualitative data information and cooling ending message; Described industrial computer is also configured with cclink address card, is connected with described water supply electromagnetic valve, flow-control valve signal by described cclink address card.

Further, described control device also includes remote I/O module, remote temperature module, long-range A/D module; The communication port of described remote I/O module, remote temperature module, long-range A/D module is connected with described cclink address card; Described remote I/O module is connected with the indicator lamp on device panel, action button, water supply electromagnetic valve, flow control valve; Each input of described remote temperature module is connected with the point for measuring temperature of system to be cooled, and described point for measuring temperature is located on each cooling duct; Each input of described long-range A/D module is connected with the cooling water flow gauge on each cooling duct.

As a kind of specific embodiment, described system to be cooled is mold system or casting system.

As a kind of specific embodiment, described water cooling plant also includes cylinder manifold, water pump, water tank; Described cylinder manifold is connected with described many cooling duct pipelines; Described cylinder manifold, water pump, water tank successively pipeline connect.

Further, described water cooling plant and control device are arranged in frame, and described frame is also provided with refrigerator, breaker and repeater.

Further, described water cooling plant includes 16 cooling ducts.

Compared with prior art, the beneficial effects of the utility model are:

The utility model water-cooling control system, by using industrial computer configuration cclink address card, by the cclink network formed, achieve the water supply electromagnetic valve of many cooling ducts, the control of flow valve, temperature, the cooling water flow of in good time collection device to be cooled, thus realize automatically cooling control.

Further, industrial computer of the present utility model is also configured with MNETH fiber optic network, to realize waiting for that the communication of cooling device is connected with casting machine, mould, understands the cooling requirement of equipment to be cooled in time, and obtain the information such as cooling effect record, qualitative data record, thus quality is reviewed.In addition, the utility model many cooling ducts, preferably 16 cooling ducts, and then achieve accurate control.

Accompanying drawing explanation

Fig. 1 is the right view of water-cooling control system of the present utility model.

Fig. 2 is the front view of water-cooling control system of the present utility model.

Fig. 3 is the perspective view of water-cooling control system of the present utility model.

Fig. 4 is communication connection diagram of the present utility model,

Detailed description of the invention

Describe the utility model in detail below in conjunction with accompanying drawing and specific implementation method, be used for explaining the utility model in exemplary embodiment and description of the present utility model, but not as to restriction of the present utility model.

As Figure 1-4, water-cooling control system of the present utility model, comprises water cooling plant 2, control device 3; Described water cooling plant 2 and control device 3 are arranged in a frame 1.

Described water cooling plant 2 includes many cooling ducts, and every bar cooling duct is connected with a water supply electromagnetic valve, flow control valve.Preferably, described water cooling plant 2 includes 16 cooling duct CH1-CH16.Described water cooling plant 2 includes 16 water supply electromagnetic valves and 16 flow control valves.

Described water cooling plant 2 includes cylinder manifold, water pump 22, water tank 21.Cylinder manifold is connected with described many cooling duct pipelines; Described cylinder manifold, water pump 22, water tank 21 successively pipeline connect.

Described control device 3 includes electronic box 31 and water route controls 32; In described electronic box 31, be provided with industrial computer PC.Described frame 1 is also provided with refrigerator 33, breaker 34 and repeater 35, described refrigerator 33, breaker 34 are arranged on described electronic box 31, and described repeater 35 is arranged on described water route control part 32.

Wherein, described industrial computer is configured with MNETH optical-fibre communications card, described industrial computer is connected with system signal to be cooled by described MNETH optical-fibre communications card, with gather described system to be cooled cooling log-on message, in real time cool object information, qualitative data information and cooling ending message; The real-time cooling object information of described system to be cooled and qualitative data information can include but not limited to as temperature, cooling effect etc.Described industrial computer is also configured with cclink address card, is connected with described water supply electromagnetic valve, flow-control valve signal by described cclink address card.Described control device 3 also includes remote I/O module, remote temperature module, long-range A/D module.Wherein, described system to be cooled can be mold system or casting system etc.

The communication port of described remote I/O module, remote temperature module, long-range A/D module is connected with described cclink address card; Described remote I/O module is connected with the indicator lamp on device panel, action button, water supply electromagnetic valve, flow control valve; Each input of described remote temperature module is connected with the point for measuring temperature of system to be cooled, and described point for measuring temperature is located on each cooling duct; Each input of described long-range A/D module is connected with the cooling water flow gauge on each cooling duct.

In addition, the utility model water-cooling control system, adopt VB.NET Software Development Platform, develop functions such as being integrated with automatic diagnostic function, data analysis, data preservation, by using industrial computer configuration cclink address card, by the cclink network formed, achieve the water supply electromagnetic valve of many cooling ducts, the control of flow valve, temperature, the cooling water flow of in good time collection device to be cooled, thus realize automatically cooling control.

Further, industrial computer of the present utility model is also configured with MNETH fiber optic network, to realize waiting for that the communication of cooling device is connected with casting machine, mould, understands the cooling requirement of equipment to be cooled in time, and obtain the information such as cooling effect record, qualitative data record, thus quality is reviewed.In addition, the utility model many cooling ducts, preferably 16 cooling ducts, and then achieve accurate control.

Wherein, as shown in Figure 4, the PC industrial computer of water-cooling control system, by MNETH address card, reads cooling enabling signal, the cooling end signal for the treatment of cooling system.Start between tailend in cooling, water-cooling control system by cclink address card, exports to being attached thereto the remote I/O module connect the command signal that the water supply electromagnetic valve on CH1-CH16 opens or close; Read the temperature being attached thereto system to be cooled on the cooling duct CH1-CH16 collected by remote temperature module that connects; Read the cooling water flow of the cooling duct CH1-CH16 of the system to be cooled that long-range A/D module is collected.

According to the data processing function of software, the supply flow rate of each passage cooling water is guaranteed on the curve of the setting that the temperature of respective passage keeps automatically.The object information of cooling is by indicator lamp and industrial computer screen display, and qualitative data is kept in industrial computer hard disk.

Above the technical scheme that the utility model embodiment provides is described in detail, apply specific case herein to set forth the principle of the utility model embodiment and embodiment, the explanation of above embodiment is only applicable to the principle helping to understand the utility model embodiment; Meanwhile, for one of ordinary skill in the art, according to the utility model embodiment, detailed description of the invention and range of application all will change, and in sum, this description should not be construed as restriction of the present utility model.

Claims (6)

1. water-cooling control system, is characterized in that, comprising:

Water cooling plant; Described water cooling plant includes many cooling ducts, and every bar cooling duct is connected with a water supply electromagnetic valve, flow control valve;

Control device; Described control device includes industrial computer, described industrial computer is configured with MNETH optical-fibre communications card, described industrial computer is connected with system signal to be cooled by described MNETH optical-fibre communications card, with gather described system to be cooled cooling log-on message, in real time cool object information, qualitative data information and cooling ending message;

Described industrial computer is also configured with cclink address card, is connected with described water supply electromagnetic valve, flow-control valve signal by described cclink address card.

2. water-cooling control system according to claim 1, is characterized in that:

Described control device also includes remote I/O module, remote temperature module, long-range A/D module; The communication port of described remote I/O module, remote temperature module, long-range A/D module is connected with described cclink address card;

Described remote I/O module is connected with the indicator lamp on device panel, action button, water supply electromagnetic valve, flow control valve;

Each input of described remote temperature module is connected with the point for measuring temperature of system to be cooled, and described point for measuring temperature is located on each cooling duct;

Each input of described long-range A/D module is connected with the cooling water flow gauge on each cooling duct.

3. water-cooling control system according to claim 2, is characterized in that:

Described system to be cooled is mold system or casting system.

4. water-cooling control system according to claim 1, is characterized in that:

Described water cooling plant also includes cylinder manifold, water pump, water tank; Described cylinder manifold is connected with described many cooling duct pipelines; Described cylinder manifold, water pump, water tank successively pipeline connect.

5. water-cooling control system according to claim 4, is characterized in that:

Described water cooling plant and control device are arranged in frame, and described frame is also provided with refrigerator, breaker and repeater.

6. water-cooling control system according to claim 1, is characterized in that:

Described water cooling plant includes 16 cooling ducts.