CN204241925U - Reagent process automation control system in gelatine production course - Google Patents
Reagent process automation control system in gelatine production course Download PDFInfo
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- CN204241925U CN204241925U CN201420629135.XU CN201420629135U CN204241925U CN 204241925 U CN204241925 U CN 204241925U CN 201420629135 U CN201420629135 U CN 201420629135U CN 204241925 U CN204241925 U CN 204241925U
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- Prior art keywords
- reagent
- rare
- control box
- dense
- efferent duct
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Abstract
The utility model relates to reagent process automation control system in a kind of gelatine production course, and this system comprises dense reagent pot, rare reagent pot and PLC control unit.Dense reagent pot liquid level gauge is established in side, dense reagent pot top, and opposite side bottom connects efferent duct I; Efferent duct I is established dense reagent concentration meter, dense reagent output stream gauge, dense reagent output solenoid valve; Rare reagent pot liquid level gauge is established in side, rare reagent pot top, and opposite side bottom connects efferent duct II, and running water pipe, circulation pipe are established in top; Running water pipe is established tap water flowmeter; Circulation pipe is established rare reagent concentration meter; Total efferent duct is established rare reagent output solenoid valve, rare reagent output stream gauge; PLC control unit comprises Main Control Tank, hydrochloric acid control box, NaOH control box, hydrogen peroxide control box, phosphoric acid control box and industrial computer; Each flowmeter, densimeter, liquid level gauge are connected with Main Control Tank respectively; Preparation pump, rear pump, each solenoid valve are connected with Main Control Tank, each control box respectively.The utility model can be enhanced productivity.
Description
Technical field
The utility model relates to manufacturing of gelatin technical field, particularly relates to reagent process automation control system in gelatine production course.
Background technology
At present, when carrying out preparation of reagents in gelatine production course, many employings are manually hand-manipulated, the experience of operator is relied on to prepare, the rare reagent solution concentration made is unstable, inaccurate, thus cause gelatin quality unstable, have impact on production effect and the gelatin product quality of the operations such as neutralization, ion-exchange.
Utility model content
Technical problem to be solved in the utility model is to provide reagent process automation control system in a kind of gelatine production course of enhancing productivity.
For solving the problem, reagent process automation control system in gelatine production course described in the utility model, is characterized in that: this system comprises dense reagent pot, rare reagent pot and PLC control unit; The side, top of described dense reagent pot is provided with dense reagent pot liquid level gauge, and its opposite side bottom is connected with efferent duct I by preparation pump, and this efferent duct I is connected with the top of described rare reagent pot; Described efferent duct I is provided with successively dense reagent concentration meter, dense reagent output stream gauge, dense reagent output solenoid valve; The side, top of described rare reagent pot is provided with rare reagent pot liquid level gauge, and its opposite side bottom is connected with efferent duct II by rear pump, and its top is respectively equipped with the running water pipe bringing tap water solenoid valve into, the circulation pipe being with circulating electromagnetic valve; Described running water pipe is provided with tap water flowmeter; Described circulation pipe is provided with rare reagent concentration meter, and is connected with total efferent duct after being connected with described efferent duct II again; Described total efferent duct is provided with successively rare reagent output solenoid valve, rare reagent output stream gauge; Described PLC control unit comprises Main Control Tank, hydrochloric acid control box, NaOH control box, hydrogen peroxide control box, phosphoric acid control box and industrial computer; Described Main Control Tank comprises PS307 power supply and CPU315-2DP Programmable Logic Controller; Described Main Control Tank, hydrochloric acid control box, NaOH control box, hydrogen peroxide control box, phosphoric acid control box are linked together in turn by PROFIBUS-DP fieldbus; CPU315-2DP Programmable Logic Controller in described Main Control Tank is connected with the USB interface in described industrial computer by MPI cable; Described dense reagent output stream gauge, tap water flowmeter, rare reagent output stream gauge, dense reagent concentration meter, rare reagent concentration meter, dense reagent pot liquid level gauge, rare reagent pot liquid level gauge are connected with described Main Control Tank respectively; Described preparation pump, rear pump, dense reagent output solenoid valve, enter tap water solenoid valve, circulating electromagnetic valve, rare reagent output solenoid valve be connected with described Main Control Tank, hydrochloric acid control box, NaOH control box, hydrogen peroxide control box, phosphoric acid control box respectively.
The utility model compared with prior art has the following advantages:
Owing to being provided with PLC control unit in the utility model, therefore, control signal can be sent by PLC to control dense reagent output solenoid valve and add reagent to rare reagent pot, control to add tap water into tap water solenoid valve, control that rare reagent output solenoid valve discharges rare reagent, controlled circulation valve circulates, driver output pump while exporting rare reagent; PLC accurately can control rare amount of reagent of dense amount of reagent and tap water volume and the output added by flowmeter, determine dense reagent pot liquid level, rare reagent pot liquid level by liquid level gauge, accurately control rare reagent concentration by densimeter, thus rare reagent concentration that guarantee makes, realize interval preparation by closed-loop control and quantitatively export rare reagent, enhance productivity.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.
Fig. 1 is structural representation of the present utility model.
Fig. 2 is PLC control unit structural representation in the utility model.
Fig. 3 is the utility model process flow diagram.
In figure: 1-dense reagent pot, 2-rare reagent pot 3-preparation pump, 4-rear pump, 5-dense reagent output stream gauge, 6-tap water flowmeter 7-rare reagent output stream gauge 8-dense reagent concentration meter 9-rare reagent concentration meter 10-dense reagent pot liquid level gauge 11-rare reagent pot liquid level gauge 12-dense reagent output solenoid valve 13-enter tap water solenoid valve 14-circulating electromagnetic valve 15-rare reagent output solenoid valve 16-Main Control Tank 17-hydrochloric acid control box 18-NaOH control box 19-hydrogen peroxide control box 20-phosphoric acid control box 21-industrial computer.
Embodiment
As shown in Figure 1 and Figure 2, reagent process automation control system in gelatine production course, this system comprises dense reagent pot 1, rare reagent pot 2 and PLC control unit.
The side, top of dense reagent pot 1 is provided with dense reagent pot liquid level gauge 10, and its opposite side bottom is connected with efferent duct I by preparation pump 3, and this efferent duct I is connected with the top of rare reagent pot 2; Efferent duct I is provided with successively dense reagent concentration meter 8, dense reagent output stream gauge 5, dense reagent output solenoid valve 12; The side, top of rare reagent pot 2 is provided with rare reagent pot liquid level gauge 11, and its opposite side bottom is connected with efferent duct II by rear pump 4, and its top is respectively equipped with the running water pipe bringing tap water solenoid valve 13 into, the circulation pipe being with circulating electromagnetic valve 14; Running water pipe is provided with tap water flowmeter 6; Circulation pipe is provided with rare reagent concentration meter 9, and is connected with total efferent duct after being connected with efferent duct II again; Total efferent duct is provided with successively rare reagent output solenoid valve 15, rare reagent output stream gauge 7.
PLC control unit comprises Main Control Tank 16, hydrochloric acid control box 17, NaOH control box 18, hydrogen peroxide control box 19, phosphoric acid control box 20 and industrial computer 21.Main Control Tank 16 comprises PS307 power supply and CPU315-2DP Programmable Logic Controller; Main Control Tank 16, hydrochloric acid control box 17, NaOH control box 18, hydrogen peroxide control box 19, phosphoric acid control box 20 are linked together in turn by PROFIBUS-DP fieldbus; CPU315-2DP Programmable Logic Controller in Main Control Tank 16 is connected with the USB interface in industrial computer 21 by MPI cable; Dense reagent output stream gauge 5, tap water flowmeter 6, rare reagent output stream gauge 7, dense reagent concentration meter 8, rare reagent concentration meter 9, dense reagent pot liquid level gauge 10, rare reagent pot liquid level gauge 11 are connected with Main Control Tank 16 respectively; Preparation pump 3, rear pump 4, dense reagent output solenoid valve 12, enter tap water solenoid valve 13, circulating electromagnetic valve 14, rare reagent output solenoid valve 15 be connected with Main Control Tank 16, hydrochloric acid control box 17, NaOH control box 18, hydrogen peroxide control box 19, phosphoric acid control box 20 respectively.
As shown in Figure 3, during use, industrial computer 21 target setting concentration, calculates required dense amount of reagent and the tap water water yield; Then start PLC control unit by industrial computer 21 automatically to run.Open into tap water solenoid valve 13 according to the parameter that industrial computer 21 sets, start to play tap water in rare reagent pot 2.When getting to a certain amount of (being about 50% of calculated amount), open dense reagent output solenoid valve 12, start preparation pump 3, start to play dense reagent in rare reagent pot 2.Meanwhile, open circulating electromagnetic valve 14, start rear pump 4, perform and beat circulation (beating action) function.After tap water is totally lost (water yield of calculating), close into tap water solenoid valve 13.Control system closed-loop control (PID), until rare reagent solution concentration reaches setting value in rare reagent pot 2, after time delay 1min, stops preparing pump 3, closes dense reagent output solenoid valve 12.Continue to perform and beat circulatory function reasonable time, stop rear pump 4, close circulating electromagnetic valve 14.So far, the complex acid of rare reagent pot 2 terminates, and the dilute acid soln prepared is to be output.
In preparation of reagents process, if the equipment such as pump, valve breaks down, or pipeline occurs that leakage such as to ooze at the situation, can press " preparation is anxious to stop ", stop process for preparation at industrial computer 21.
Claims (1)
1. reagent process automation control system in gelatine production course, is characterized in that: this system comprises dense reagent pot (1), rare reagent pot (2) and PLC control unit; The side, top of described dense reagent pot (1) is provided with dense reagent pot liquid level gauge (10), and its opposite side bottom is connected with efferent duct I by preparation pump (3), and this efferent duct I is connected with the top of described rare reagent pot (2); Described efferent duct I is provided with successively dense reagent concentration meter (8), dense reagent output stream gauge (5), dense reagent output solenoid valve (12); The side, top of described rare reagent pot (2) is provided with rare reagent pot liquid level gauge (11), its opposite side bottom is connected with efferent duct II by rear pump (4), and its top is respectively equipped with the running water pipe bringing tap water solenoid valve (13) into, the circulation pipe being with circulating electromagnetic valve (14); Described running water pipe is provided with tap water flowmeter (6); Described circulation pipe is provided with rare reagent concentration meter (9), and is connected with total efferent duct after being connected with described efferent duct II again; Described total efferent duct is provided with successively rare reagent output solenoid valve (15), rare reagent output stream gauge (7); Described PLC control unit comprises Main Control Tank (16), hydrochloric acid control box (17), NaOH control box (18), hydrogen peroxide control box (19), phosphoric acid control box (20) and industrial computer (21); Described Main Control Tank (16) comprises PS307 power supply and CPU315-2DP Programmable Logic Controller; Described Main Control Tank (16), hydrochloric acid control box (17), NaOH control box (18), hydrogen peroxide control box (19), phosphoric acid control box (20) are linked together in turn by PROFIBUS-DP fieldbus; CPU315-2DP Programmable Logic Controller in described Main Control Tank (16) is connected with the USB interface in described industrial computer (21) by MPI cable; Described dense reagent output stream gauge (5), tap water flowmeter (6), rare reagent output stream gauge (7), dense reagent concentration meter (8), rare reagent concentration meter (9), dense reagent pot liquid level gauge (10), rare reagent pot liquid level gauge (11) are connected with described Main Control Tank (16) respectively; Described preparation pump (3), rear pump (4), dense reagent output solenoid valve (12), enter tap water solenoid valve (13), circulating electromagnetic valve (14), rare reagent output solenoid valve (15) and be connected with described Main Control Tank (16), hydrochloric acid control box (17), NaOH control box (18), hydrogen peroxide control box (19), phosphoric acid control box (20) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420629135.XU CN204241925U (en) | 2014-10-28 | 2014-10-28 | Reagent process automation control system in gelatine production course |
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CN201420629135.XU CN204241925U (en) | 2014-10-28 | 2014-10-28 | Reagent process automation control system in gelatine production course |
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CN204241925U true CN204241925U (en) | 2015-04-01 |
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CN201420629135.XU Expired - Fee Related CN204241925U (en) | 2014-10-28 | 2014-10-28 | Reagent process automation control system in gelatine production course |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105549518A (en) * | 2014-10-28 | 2016-05-04 | 兰州理工大学 | Automation control system of reagent process in production process of gelatin |
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2014
- 2014-10-28 CN CN201420629135.XU patent/CN204241925U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105549518A (en) * | 2014-10-28 | 2016-05-04 | 兰州理工大学 | Automation control system of reagent process in production process of gelatin |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150401 Termination date: 20181028 |
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CF01 | Termination of patent right due to non-payment of annual fee |