The control device of blow moulding machine heating system
Technical field
The utility model relates to the blow moulding machine heating system, refers more particularly to the control device of blow moulding machine heating system.
Background technology
At present, traditional blow moulding machine heating system generally includes host computer (adopting programmable logic controller (PLC) usually) and main control device and the infrared lamp that is made up of analog input unit, power drive unit and power distribution unit.Owing to need the expensive digital-to-analogue of the price eighteenth of the twenty (D/A) modular converter during the direct driving power driver element of programmable logic controller (PLC), make that the cost of whole heating system is higher, influence the market competitiveness; And; Programmable logic controller (PLC) is through the voltage signal of 1~5 volt of digital-to-analogue (D/A) modular converter output or the direct driving power driver element of current signal of 4~20mA; Power drive unit and programmable logic controller (PLC) do not have the detection feedback unit; Can not OBD, can not form closed-loop control; And well-known, the antijamming capability of analog signal is relatively poor, and the longer decay of cable is big more, makes input signal unstable, and the instability of input signal directly has influence on the output accuracy and the stability of power drive unit; In addition, the fluctuation of electrical network also is to influence the stable key factor of power drive unit.Power drive unit output accuracy and stability directly have influence on the blowing effect.
The utility model content
The utility model technical problem to be solved is: the control device that the high blow moulding machine heating system of the output lasting accuracy of a kind of cheapness, power drive unit is provided.
For solving the problems of the technologies described above; The technical scheme that the utility model adopts is: the control device of blow moulding machine heating system; Comprise: power drive unit, microprocessor unit, D/A output unit, A/D input block, communication unit, address setting unit, detection feedback unit and power distribution unit; The input of power distribution unit links to each other with the AC power supplies input; The power take-off of power distribution unit links to each other with the power input of power drive unit; The power take-off of microprocessor unit links to each other with the input of D/A output unit, and the output of D/A output unit links to each other with the input control end of power drive unit, and the communication input of microprocessor unit links to each other with the output of communication unit; The communication output of microprocessor unit links to each other with the input of communication unit, and the output of address setting unit links to each other with the address input end of microprocessor unit; The input of detection feedback unit links to each other with the power drive unit feedback output end, and the output of detection feedback unit links to each other with the input of A/D input block, and the output of A/D input block links to each other with the feedback input end of microprocessor unit.
Described control device also includes the feedback output unit, and the input of feedback output unit links to each other with the output of detection feedback unit.
Described control device also includes: analog input unit and A/D input block, and the output of analog input unit links to each other with the input of A/D input block, and the output of A/D input block links to each other with the signal input part of microprocessor unit.
The beneficial effect of the utility model is: the utility model adopts microprocessing unit to obtain power output parameter with the digital communication pattern from host computer through communication unit; Thereby improved the antijamming capability of input cable greatly; And power drive unit feeds back to microprocessing unit through the detection feedback unit with the output situation of power drive unit, makes microprocessing unit can in time adjust the output of power drive unit; Form closed-loop control; Play pressure stabilization function, eliminated the influence that power network fluctuation causes power drive unit, improved the stability and the precision of power drive unit greatly; Simultaneously, the cost of D/A output unit than with cheap many of supporting digital-to-analogue (D/A) modular converter of programmable logic controller (PLC), thereby greatly reduce the cost of manufacture of whole heating system; In addition, also increase the feedback output unit, can observe the output situation of power drive unit intuitively, greatly facilitated debugging work; In addition, also kept the analog signal unit, although the decay on the circuit is arranged, owing to adopted closed-loop control, thus improved the stability and the precision of power output.
Description of drawings
Fig. 1 is the electric theory structure sketch map of the utility model.
Among the figure: 1, analog input unit, 2, single-chip microcomputer, 21, the A/D input block, 22, microprocessor unit; 23, A/D input block, 24, the D/A output unit, 3, communication unit, 4, the address setting unit; 5, power drive unit, 6, infrared lamp, 7, the detection feedback unit, 8, the feedback output unit; 9, host computer, 10, AC power supplies input, 11, power distribution unit.
The specific embodiment
As shown in Figure 1; The control device of blow moulding machine heating system; Comprise: analog input unit 1, A/D input block 21, microprocessor unit 22, A/D input block 23, D/A output unit 24, communication unit 3, address setting unit 4, power drive unit 5, detection feedback unit 7, feedback output unit 8 and power distribution unit 11; The input of power distribution unit 11 links to each other with AC power supplies input 10; The power take-off of power distribution unit 11 links to each other with the power input of power drive unit 5; Power distribution unit 11 comprises that also the IC chip in promising each unit provides the working power of direct-current working volts; The power take-off of microprocessor unit 22 links to each other with the input of D/A output unit 24, and the output of D/A output unit 24 links to each other with the input control end of power drive unit 5, and the communication input of microprocessor unit 22 links to each other with the output of communication unit 3; The communication output of microprocessor unit 22 links to each other with the input of communication unit 3, and the output of address setting unit 4 links to each other with the address input end of microprocessor unit 22; The input of detection feedback unit 7 links to each other with power drive unit 5 feedback output ends; The output of detection feedback unit 7 links to each other with the input of A/D input block 23 and the input of feedback output unit 8, and the output of A/D input block 23 links to each other with the feedback input end of microprocessor unit 22; The output of analog input unit 1 links to each other with the input of A/D input block 21, and the output of A/D input block 21 links to each other with the signal input part of microprocessor unit 22.
During practical application; Can adopt the single-chip microcomputer 2 that has mould/number (A/D) and D/A (D/A) port; Microprocessor unit 22 is not as single-chip microcomputer independently; By two mould/numbers (A/D) port of single-chip microcomputer 2 respectively as A/D input block 21 and A/D input block 23, by D/A (D/A) port of single-chip microcomputer 2 as D/A output unit 24; Described communication unit 3 can adopt the chip of 485 serial bus communications such as grade.
During use; The power take-off of power drive unit 5 is linked to each other with infrared lamp 6; Set different address through address setting unit 4 to control device, make host computer 9 link to each other with the described control device of a plurality of the utility model with communication unit 3 through 485 buses.