CN202033683U

CN202033683U - Constant power control circuit of electrical vibrating machine in cement production

Info

Publication number: CN202033683U
Application number: CN2011201134132U
Authority: CN
Inventors: 唐本法; 唐立军; 唐立民; 东传荣
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-04-18
Filing date: 2011-04-18
Publication date: 2011-11-09
Anticipated expiration: 2021-04-18

Abstract

The utility model discloses a constant power control circuit of an electrical vibrating machine in cement production, which comprises a control circuit, wherein the control circuit comprises a pulse transformer circuit and a crystal brake tube circuit. The constant power control circuit is characterized by comprising a detection operational circuit for preprocessing a control signal, wherein the detection operational circuit comprises an operational amplifier and a transformer, the control signal is input to a non-inverting input end of the operational amplifier, the input end of the transformer is connected to a homologous power supply of the electrical vibrating machine, the output end of the transformer is connected to an inverted input end of the operational amplifier after the rectification and voltage stabilization, and the output end of the operational amplifier is connected with the inverted input end of the operational amplifier through a resistance R4. According to the utility model, by arranging the detection operational circuit for processing the control signal, the output signal is in proportion to the control signal and is in inverse proportion to a power supply signal of the electrical vibrating machine, the constant power control for the electrical vibrating machine is realized, the feeding amount of the electrical vibrating machine can not be changed due to an external power supply, and the quality of cement raw material after being mixed is improved.

Description

The constant-power control circuit of the electric machine that shakes in the manufacture of cement

Technical field

The utility model relates to the constant-power control circuit of the electric machine that shakes in a kind of manufacture of cement, in particular, relate in particular to a kind of power supply and detect and generate control electricity the shake constant-power control circuit of machine of electricity in the manufacture of cement of negative-feedback signal of machine that shakes by machine that electricity is shaken.

Background technology

The electricity machine that shakes is a batching link imperative equipment in the manufacture of cement, shown in Figure of description 4, the feed proportioning system of manufacture of cement generally adopts the comparatively accurate microcomputer of electronic scale or control to claim the raw material of landing on the machine that shakes from electricity are demarcated, and meets the requirements so that guarantee the ratio of various raw material in the cement mixing raw material.Whether the electricity machine workability that shakes is stable, the performance index of mixing the back cement slurry will directly be had influence on, electricity the shake amplitude of machine and the speed that frequency will determine blanking, shake the electricity amplitude of machine and frequency are realized by the shake thyristor circuit of machine concussion of control electricity, the feedback of control of microcomputer signal or pressure transducer is input in the pulse transformer, and output is to the shake signal of machine control of electricity after pulse transformer transformation.Adopt in the cement ingredient system of electronic scale, if the cement slurry weight on the electronic scale is greater than setting value, then the voltage signal of its feedback also can increase, through acting in opposition, the signal that is input to the pulse transformer input end can be diminished accordingly, thereby can reduce the shake amplitude of machine of electricity, thereby realize negative feedback.The principle that microcomputer claims is also like this.

Though above-mentioned control method plays the effect of regulating the electric machine amplitude that shakes, but do not consider the influence that the electric AC power that machine adopted (being generally 380 volts of alternating currents) of shaking is brought, because in cement production process, power consumption is bigger, employed industrial electro is not invariable, but bigger fluctuation is arranged.The veteran worker who worked in the cement mill decades, find by observing the record of production table: for same production equipment, cement quality that produce its night and qualification rate will be better than the cement quality and the qualification rate of producing daytime far away, by research and demonstration, find finally and determine to cause that the reason that above-mentioned situation takes place is: when the stability of extraneous power supply will be better than daytime far away when being used for night, the variation of extraneous power supply has caused electricity to shake machine can not be with firm power work, thereby caused the amplitude and the frequency of the electric machine that shakes to change along with the variation of extraneous power supply, and then make the blanking of cement slurry change, the quality of the cement that final influence is produced.

Summary of the invention

The utility model is in order to overcome the shortcoming of above-mentioned technical matters, provides a kind of power supply by machine that electricity is shaken to detect and generate control electricity the shake constant-power control circuit of machine of electricity in the manufacture of cement of negative-feedback signal of machine that shakes.

The constant-power control circuit of the electric machine that shakes in the manufacture of cement of the present utility model, the described electricity machine that shakes comprises control circuit, this control circuit comprises pulse transformer circuit and thyristor circuit, described pulse transformer circuit comprises triode, unijunction transistor and pulse transformer, the collector of described triode is connected with the emitter of unijunction transistor, and the emitter of triode is connected with positive source with resistance series connection back; Three phase thyristors that described thyristor circuit comprises main thyristor and controls motor coil respectively, the output terminal of described pulse transformer is connected with main thyristor; The base stage input control signal of described triode; Its special feature is: also comprise the control signal that is input to transistor base is carried out pretreated detection calculations circuit, this detection calculations circuit comprises operational amplifier and transformer, control signal is input to the in-phase input end of operational amplifier, on the power supply of machine homology that one side winding of transformer is received and electricity shakes, the opposite side winding of transformer is received the inverting input of operational amplifier after overcommutation, voltage stabilizing; The output terminal of operational amplifier is connected with its inverting input through resistance R 4.Control signal is input to and is used on the transistor base to realize the shake amplitude and the frequency of machine of electricity controlled, be entered into the in-phase input end of operational amplifier, realized that output signal changes output signal and control signal relation in direct ratio with the variation of control signal; The output signal of transformer is input to the reverse input end of operational amplifier, makes the output signal of output signal and transformer be inversely proportional to.

The constant-power control circuit of the electric machine that shakes in the manufacture of cement of the present utility model, described control signal is connected with the in-phase input end of operational amplifier through resistance R 1, and this in-phase input end is connected with power supply ground through resistance R 2; The output voltage of described transformer is received the inverting input of operational amplifier through resistance R 3, the output terminal of described operational amplifier is connected with its inverting input through resistance R 4 backs, and operational amplifier is connected with power supply ground through the potentiometer RP2 as output signal.This annexation, make that output signal and control signal are proportional, with the output signal of the transformer relation that all is inversely proportional to, realized the control of triode in the output signal pulse transformer circuit, and then realize the control of pulse transformer output signal, finally reach electricity the shake amplitude of machine and the control of concussion frequency.

The constant-power control circuit of the electric machine that shakes in the manufacture of cement of the present utility model, the resistance of described resistance R 1, R2, R3, R4 is respectively 10K, 1M, 51K, 10K ohm, and total resistance of described potentiometer RP2 is 47K; The output voltage of described transformer is 18V, is 20V through the voltage behind the rectifying and voltage-stabilizing.As output signal, this just makes output signal to require to regulate according to control the variable partition of potentiometer RP2.

The constant-power control circuit of the electric machine that shakes in the manufacture of cement of the present utility model, the in-phase input end of described operational amplifier links to each other by two diodes with inverting input, and the direction of these two diodes is opposite.By being connected the opposite diode of both direction with inverting input at in-phase input end, prevented that effectively operational amplifier is breakdown, realized protective effect to circuit.

The constant-power control circuit of the electric machine that shakes in the manufacture of cement of the present utility model is connected with power supply ground behind the output voltage process potentiometer RP1 of described transformer.

The beneficial effects of the utility model are: the utility model is by being provided with the detection calculations circuit that control signal is handled, also advancing this detection calculations circuit and carry out calculation process with the shake voltage signal of machine homology of electricity, make the signal of output be directly proportional with control signal, with the shake inverse ratio that is varied to of dynamo-electric source signal of electricity, finally realized the shake permanent power control of machine duty of electricity, make electricity in the cement ingredient system shake the blanking amount of machine, improved the quality that cooperates the back cement slurry greatly not because of the fluctuation of extraneous power supply changes.

Description of drawings

Fig. 1 is the principle schematic of detection calculations circuit of the present utility model;

Fig. 2 is the principle schematic of pulse transformer circuit of the present utility model;

Fig. 3 is the principle schematic of thyristor control circuit of the present utility model;

Fig. 4 is the structural representation of batching set-up in the cement production process;

Fig. 5 is that detection calculations circuit application of the present utility model is to controlling total circuit diagram in the electric machine circuit that shakes.

Among the figure: 1 operational amplifier, 2 transformers, 3 unijunction transistors, 4 pulse transformers, 5 main thyristors, 6 motors, 7,8,9 phase thyristors, 10 microcomputers claim, the 11 electricity machine that shakes, 12 slide valves, 13 storage bins.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing and embodiment.

As shown in Figure 4, provided the structural representation of batching set-up in the present cement mill, it comprises that microcomputer claims 10, electricity shakes machine 11, slide valve 12, storage bin 13, and storage bin 13 is used to hold different types of cement slurry, and slide valve 12 is arranged in the outlet of storage bin 13 belows.The electricity machine 11 that shakes is arranged on the below of storage bin 13 outlet, realizes the blanking of cement slurry by the shake vibrations of machine 11 of electricity, claims 10 to carry out weight measurement and further transmission from the electricity raw material that machine 11 falls that shake at microcomputer.Some producer's microcomputer claims 10 also to adopt electronic scale now.Microcomputer claims 10 also to export one and be used for the electricity feedback signal that machine 11 controls of shaking, and the blanking velocity of machine 11 meets the requirements so that the control electricity shakes.But, all consider the shake fluctuation of operating voltage of machine 11 of electricity in the existing cement ingredient device, to the electricity adverse effect that machine brings of shaking, cause under the bigger situation of extraneous voltage fluctuation the cement of producing of low quality, or do not reach requirement.

As shown in Figure 1, provided the schematic diagram of detection calculations circuit of the present utility model, it comprises operational amplifier 1, transformer 2, four resistance R 1, R2, R3, R4, two diode D1, D2 that shield, two potentiometer RP1, RP2, a commutation diode D3, a filtering capacitance of voltage regulation C1; Shown resistance one end is connected with the in-phase input end of operational amplifier 1, and the other end is the input end of control signal, promptly claims the feedback control signal of 10 output to be connected with microcomputer; In-phase input end is connected with power supply ground through resistance R 2.The input end of transformer 2 is received on the power supply identical with the electric machine that shakes, after the rectification and filtering of the output voltage signal of transformer 2 through diode D3 and capacitor C 1, at the reverse input end of receiving operational amplifier 1 through resistance R 3; The output terminal of operational amplifier 1 is connected with power supply ground with the reverse input end of self with potentiometer RP2 through resistance R 4 respectively, and potentiometer RP2 sliding contact is as signal output part.

The control signal signal voltage of supposing signal input part (A end) input of resistance R 1 is

, the voltage that transformer 2 is exported after overcommutation, voltage stabilizing is , the voltage signal of establishing the output of control signal and transformer is respectively at the voltage that signal output part (B end) produces

With

, then the voltage of potentiometer RP2 output terminal (B end) is total amount For

With

Sum; If the resistance between the output terminal of potentiometer RP2 and the power supply ground is " empty disconnected " and " empty short " principle according to operational amplifier can calculate

Size.

（1）

（2）

（3）

Can be drawn by top (3) formula, the output signal and the control signal of B end are proportional, and with the output signal of the transformer relation that all is inversely proportional to, this just makes output signal

Can be along with input signal

With

Variation and change so that be input in the pulse transformer circuit shown in Figure 2, play the control corresponding effect.

As shown in Figure 2, provided the structural representation of pulse transformer 4 and peripheral circuit, it comprises triode T1, single crystals pipe 3 and pulse transformer 4, the base stage of triode T1 is connected with positive source by resistance R 5, emitter is connected with positive source with variable resistor RP3 by resistance R 6, the collector of triode is connected with the emitter of unijunction transistor 3, so that realize control action to unijunction transistor, the input end of pulse transformer 4 is connected with unijunction transistor 3, and the input winding of pulse transformer 4 and diode D4 are in parallel.In the process of using, the output terminal B of detection calculations circuit shown in Figure 1 is connected with signal input end C shown in Figure 2 end, so that realize the control of pulse transformer 4 output voltage signals, when the signal of transistor base input increases, will make the signal of pulse transformer 4 outputs strengthen, when the signal of triode base stage input increases, the signal weakening that will make pulse transformer 4 outputs.

As shown in Figure 3, provided a phase thyristor circuit control chart, as shown in the figure, it comprises main thyristor 5, motor 6 and thyristor 7 mutually; The output D of pulse transformer 4 end and E end are held with G with the F end among Fig. 3 to be connected, so that main thyristor 5 is controlled with the conducting state of thyristor 7 mutually.And then realize the shake amplitude of fluctuation and the frequency of machine of electricity controlled.

As shown in Figure 5, for detection calculations circuit application of the present utility model to the control electricity total circuit diagram in the machine circuit that shakes, by above analysis to detection calculations circuit, pulse transformer circuit and thyristor control circuit, and shaking dynamo-electric source voltage when ratings changes up and down in conjunction with electricity, detection calculations circuit of the present utility model is that the permanent power control how to realize is analyzed.

When electricity shakes machine 11 extraneous supply voltages when reducing,, can make the output signal of B end through after the detection calculations processing of circuit shown in Figure 1

Increase, also make the signal that is added in triode T1 among Fig. 2 increase, and then make the output signal of pulse transformer 4 increase, be operated in permanent power duty by the thyristor control electricity machine 11 that shakes at last.When the electricity machine 11 extraneous supply voltages that shake subtract when increasing,, can make the output signal of B end through after the detection calculations processing of circuit shown in Figure 1

Reduce, also make the signal that is added in triode T1 among Fig. 2 reduce, and then make the output signal of pulse transformer 4 reduce, be operated in constant duty by the electric machine 11 that shakes of thyristor control at last.The blanking velocity of realizing the electric machine that shakes remains unchanged substantially, has guaranteed to produce the quality of cement.

In being provided with the feed proportioning system of constant-power control circuit of the present utility model, the voltage and current of the machine that shakes through electricity is measured, the results are shown in Table 1.

Table 1

Electricity dynamo-electric pressure of shaking	The electricity dynamo-electric stream that shakes	Performance number
			190V	1.15A	218.5W
200V	1.1A	220W
			210V	1.05A	220.5W
220V	1.0A	220W
			230V	0.95A	218.5W

Have in the table 1 data as can be seen, be provided with the feed proportioning system of constant-power control circuit of the present utility model, realized the shake permanent power control of machine of electricity.

Claims

1. the shake constant-power control circuit of machine of electricity in the manufacture of cement, the described electricity machine that shakes comprises control circuit, this control circuit comprises pulse transformer circuit and thyristor circuit, described pulse transformer circuit comprises triode (T1), unijunction transistor (3) and pulse transformer (4), the collector of described triode is connected with the emitter of unijunction transistor, and the emitter of triode is connected with positive source with resistance series connection back; Three phase thyristors (7,8,9) that described thyristor circuit comprises main thyristor (5) and controls motor coil respectively, the output terminal of described pulse transformer is connected with main thyristor; The base stage input control signal of described triode (T1); It is characterized in that: also comprise the control signal that is input to transistor base is carried out pretreated detection calculations circuit, this detection calculations circuit comprises operational amplifier (1) and transformer (2), control signal is input to the in-phase input end of operational amplifier, on the power supply of machine homology that one side winding of transformer is received and electricity shakes, the opposite side winding of transformer is received the inverting input of operational amplifier after overcommutation, voltage stabilizing; The output terminal of operational amplifier is connected with its inverting input through resistance R 4.

2. the constant-power control circuit of the electric machine that shakes in the manufacture of cement according to claim 1, it is characterized in that: described control signal is connected with the in-phase input end of operational amplifier (1) through resistance R 1, and this in-phase input end is connected with power supply ground through resistance R 2; The output voltage of described transformer (2) is received the inverting input of operational amplifier (1) through resistance R 3, the output terminal of described operational amplifier is connected with its inverting input through resistance R 4 backs, and operational amplifier is connected with power supply ground through the potentiometer RP2 as output signal.

3. the constant-power control circuit of the electric machine that shakes in the manufacture of cement according to claim 2, it is characterized in that: the resistance of described resistance R 1, R2, R3, R4 is respectively 10K, 1M, 51K, 10K ohm, and total resistance of described potentiometer RP2 is 47K; The output voltage of described transformer (2) is 18V, is 20V through the voltage behind the rectifying and voltage-stabilizing.

4. the constant-power control circuit of the electric machine that shakes in the manufacture of cement according to claim 1 and 2, it is characterized in that: the in-phase input end of described operational amplifier links to each other by two diodes with inverting input, and the direction of these two diodes is opposite.

5. the constant-power control circuit of the electric machine that shakes in the manufacture of cement according to claim 1 and 2 is characterized in that: be connected with power supply ground behind the output voltage process potentiometer RP1 of described transformer (2).