CN201320444Y - Adsorption type dryer controller - Google Patents

Abstract

The utility model relates to an adsorption type dryer controller which comprises a gas inlet passage switching control device and a central controller, wherein the central controller comprises a programmable logical controller which is connected with a human-computer interface, an A/D conversion module and a communication module used for connecting a network; all output ends of the gas inlet passage switching control device are all respectively connected with an output end of the programmable logical controller directly or by an intermediate relay, and a control module which is set according to working procedures of an adsorption type dryer is arranged inside the programmable logical controller. The adsorption type dryer controller respectively detects the temperature of product gases and gas at a gas outlet of a heater during the controlling process, carries out the control according to detection results and ensures the control to be more accurate and energy-saving. The utility model not only can do the operation by the human-computer in a remote way or by the network, but also is provided with an operation indicating and malfunction alarming device and has perfect functions.

Description

Adsorption type drier controller

Technical field

The utility model relates to compressed air purification techniques field, is specifically related to a kind of adsorption type drier controller.

Background technology

The compressed air purification industry is to rise gradually and develop industry faster in China in recent years, under the situation of global available resources growing tension, utilize compressed air as the power source widespread usage in all trades and professions.But along with being growing more intense of market competition, also more and more higher to the requirement of product quality and manufacturing cost, control performance and the degree of power conservation to product is also more and more higher simultaneously.

The control system of at present domestic compressed air absorption drier all adopts controls such as relay, contactor, causes control system to have following many shortcomings such as complex structure:

1, function imperfection: the controller of at present domestic compressed air absorption drier, do not possess communication function, warning function, remote control function, have only and control function on the spot, can not satisfy modern industry automation control needs.

2, maintenance capacity is big, and is unreliable: because component is many, and the wiring complexity, not only product is made difficulty, easy-maintaining not, and a little less than the antijamming capability, stability, poor reliability.

3, maintenance cost height: because part compressed air absorption drier production firm, do not possess the maintenance condition, so the monoblock circuit board have to be sent back to manufacturer's maintenance, beam back again after maintenance is good, go again to install, so just form higher maintenance cost, brought bad negative effect also for compressed air absorption drier production firm.

The utility model content

Basic task of the present utility model is the defective that will overcome above-mentioned known technology, provides a kind of simple in structure, stable and reliable for performance, is convenient to produce the adsorption type drier controller with operation and maintenance.

The further task of the utility model is to make described adsorption type drier controller have the man-machine interaction close friend, the more perfect advantages of function such as communication function, Long-distance Control, operation indication and fault alarm.

The utility model further task is to make described adsorption type drier controller have characteristics of energy saving preferably.

The technical solution of the utility model is as follows:

A kind of adsorption type drier controller, comprise air inlet gas circuit switching control and central controller, it is characterized in that: described central controller is provided with programmable logic controller (PLC), programmable logic controller (PLC) is connected with a personal-machine interface, each control end of described air inlet gas circuit switching control directly or through auxiliary reclay is connected with the corresponding output of programmable logic controller (PLC) respectively, and programmable logic controller (PLC) inside is provided with the control module of setting according to the absorption drier working procedure.

Described air inlet gas circuit switching control preferably adopts the combination valve of integral type, and it comprises valve body, left cylinder, right cylinder, and valve body is divided into upper chamber, left air chamber, middle air chamber, right air chamber; Upper chamber and middle air chamber all are communicated with left air chamber, right air chamber respectively; Be provided with left pressurising valve seat at left air chamber, right air chamber is provided with right pressurising valve seat, and left pressurising valve seat and right pressurising valve seat couple together by the pressurising pipe; Be provided with valve plug between the connected entrance of left air chamber and upper chamber and left pressurising valve seat, this valve plug links to each other with left cylinder, and the control end of left cylinder directly or by an auxiliary reclay is connected with an output of programmable logic controller (PLC); Be provided with valve plug between the connected entrance of right air chamber and upper chamber and right pressurising valve seat, this valve plug links to each other with right cylinder, and the control end of right cylinder directly or by an auxiliary reclay is connected with an output of described programmable logic controller (PLC); Between the connected entrance of middle air chamber and left air chamber and middle air chamber and right air chamber connected entrance, be provided with the slip valve plug; Middle air chamber is provided with air inlet, and left air chamber is provided with left gas outlet, and left gas outlet is connected with the import of first adsorption tower, and right air chamber is provided with right gas outlet, and the import of the right gas outlet and second adsorption tower is joined, and upper chamber is provided with exhaust outlet; Air inlet place at this integral type combination valve is provided with low tension switch, and the output of low tension switch is connected with an input of programmable logic controller (PLC).

Described air inlet gas circuit switching control can adopt also that split connects four independently electrically-controlled valve constitutes, wherein first electrically-controlled valve is contacted mutually with second electrically-controlled valve, the place is provided with exhaust outlet at polyphone, the 3rd electrically-controlled valve is contacted mutually with the 4th electrically-controlled valve, the place is provided with air inlet at polyphone, the other end of first electrically-controlled valve and the 3rd electrically-controlled valve and connect the back be connected with the air inlet of first adsorption tower, the other end of second electrically-controlled valve and the 4th electrically-controlled valve also connects the back and is connected with the air inlet of second adsorption tower, and the control end of these four electrically-controlled valve all respectively directly or pass through auxiliary reclay and be connected with an output of described programmable logic controller (PLC).

An output of described programmable logic controller (PLC) directly or by an auxiliary reclay is connected with the contactor coil of heater.

Described programmable logic controller (PLC) is connected with an A/D modular converter.

The input end of analog signal of described A/D modular converter is connected with a dew-point temperature transmitter that is used to detect finished product gas dew-point temperature.

The input end of analog signal of described A/D modular converter is connected with a temperature transmitter that is used to detect heater gas outlet gas temperature.

Be connected with a network communication module on the described programmable logic controller (PLC).

The input of described programmable logic controller (PLC) directly or by auxiliary reclay is connected with a long-range permission switch and a long-range guard's valve.

There are two outputs directly or by auxiliary reclay to be connected with a run indicator and a malfunction indicator lamp respectively on the described programmable logic controller (PLC), in addition alarm in parallel with malfunction indicator lamp.

The advantage of the utility model adsorption type drier controller is: simple in structure, control performance is reliable and stable; Can adopt analog quantity control, the gas temperature to dew-point temperature and heater gas outlet detects respectively, and controls according to testing result and programmable logic controller (PLC) self program, and it is energy-conservation that control is more accurately reached; In addition, this absorption drier both can be controlled by man-machine interface, also can carry out Long-distance Control, can also control by network, and be provided with run indicator, malfunction indicator lamp and alarm, thereby function is very perfect.

Description of drawings

Fig. 1 is a kind of schematic diagram of the absorption drier with heater;

Fig. 2,3 is used for a kind of circuit theory diagrams of the absorption drier of Fig. 1 band heater for the utility model adsorption type drier controller;

Fig. 4 for a kind of not with the schematic diagram of the absorption drier of heater;

Fig. 5,6 is used for Fig. 4 not with a kind of circuit theory diagrams of the absorption drier of heater for the utility model adsorption type drier controller.

The specific embodiment

Embodiment 1:

A kind of absorption drier with heating, as shown in Figure 1, comprise first adsorption tower 1, second adsorption tower 2, adsorption type drier controller, silencer 13, heater 7, first check valve 3, second check valve 4, the 3rd check valve 5, the 4th check valve 6, air inlet gas circuit switching device shifter 9 and connecting tube etc., used air inlet gas circuit switching device shifter is the combination valve of integral type.

The utility model adsorption type drier controller comprises that wherein air inlet gas circuit switching control 9 and central controller 10 (are called for short: controller 10).

Shown in Fig. 2,3, controller 10 comprises programmable logic controller (PLC) 91, A/D modular converter 92, communication module 93, man-machine interface 90, auxiliary reclay, switch etc.Output Y0, the Y1 of programmable logic controller (PLC) 91, Y2, Y3, Y4, Y5 link to each other with the coil of auxiliary reclay KA1, KA2, KA3, KA4, KA6, KA7 respectively; Auxiliary reclay KA7 normally open contact KA7-1 links to each other with the input X1 of programmable logic controller (PLC) with auxiliary reclay KA5 normally open contact KA5-1 series connection back, auxiliary reclay KA7 normally open contact KA7-2 links to each other with the input X2 of programmable logic controller (PLC) with auxiliary reclay KA5 normally closed interlock KA5-2 series connection back, long-range permission switch S A1 links to each other with the input X3 of programmable logic controller (PLC), and the normally open contact 17-1 of low tension switch 17 links to each other with the input X4 of programmable logic controller (PLC); The input end of analog signal of A/D modular converter 92 is connected with the dew-point temperature transmitter 11 and the temperature transmitter 12 that is used to detect the heater outlet gas temperature that are used to detect the dew-point temperature of finished product gas; Programmable logic controller (PLC) is connected with a communication module 93 that is used to connect network.

Heater 7 is connected on the three phase mains by normally open contact KM-1 and the knife-like switch QF1 of contactor KM.

Receive after the normally open contact KA2-1 of auxiliary reclay KA2 and the control end of left cylinder 912 are in series on the control power supply, form the control loop of left cylinder; The normally open contact KA3-1 of auxiliary reclay KA3 with receive the control power supply after the control end of right cylinder 913 is connected on, form right cylinder control loop; The normally open contact KA4-1 of auxiliary reclay KA4 with receive the control power supply after the coil of the contactor KM of heater is connected on, form the heater control loop; Long-range start-stop switch S B1 with receive the control power supply after auxiliary reclay KA5 connects on, form long-range start-stop control loop; The normally open contact KA1-1 of auxiliary reclay KA1 connects with run indicator HL2, forms operation indication loop; The normally open contact KA6-1 of auxiliary reclay KA6 be connected to the control power supply after malfunction indicator lamp HL3 connects on, in parallel with malfunction indicator lamp also have an alarm ALM, forms the indicating fault alarm circuit; Also be provided with power supply indicator HL1 on the control power supply.

Control principle:

1 absorption of first adsorption tower, 2 regeneration of second adsorption tower, the slip valve plug 916 of air chamber 907 is in the left side under the original state, under programmable logic controller (PLC) 91 controls, auxiliary reclay KA2, KA3 all must not be electric, make relay normally open contact KA2-1, KA3-1 be in normally open, and left cylinder 912 and right cylinder 913 all must not, the valve plug 914,915 that is driven by cylinder all is in the top, cuts off the connected entrance of upper chamber 905 and left air chamber 906 and upper chamber 905 and right air chamber 908 respectively.Air chamber 907 and right air chamber 908 during compressed air enters by air inlet 901 and low tension switch 17, part compressed air enters into second adsorption tower 2 by the air inlet 201 of right gas outlet 903, second adsorption tower 2, another part compressed air enters into first adsorption tower 1 by the air inlet 101 of right pressurising valve seat 910, pressurising pipe 911, left pressurising valve seat 909, left air chamber 906, left gas outlet 902, first adsorption tower 1, through the pressure balance of first adsorption tower 1 after the corresponding time and second adsorption tower 2, this moment, pressure equalizing was finished; Auxiliary reclay KA3 gets under the control of programmable logic controller (PLC) 91, auxiliary reclay normally open contact KA3-1 closure, right cylinder 913, electric back drive valve plug 915 down the right pressurising valve seat 910 of moving handle block, thereby cut off being communicated with and having opened the connected entrance of upper chamber 905 of left air chamber 906 and right air chamber 908 with right air chamber 908, make right air chamber 908 by upper chamber 905, exhaust outlet 904, silencer 13 is connected with atmosphere, therefore the air pressure moment decline of right air chamber 908 at this moment, form certain pressure reduction with left air chamber 906, promotion sliding block 916 at pressure reduction moves right, the connected entrance of air chamber 907 and right air chamber 908 in blocking.Therefore the compressed air that enters into air chamber 907 all enters first adsorption tower 1, obtains dry back and discharge from finished product gas outlet 14 by check valve 3 by the outlet 102 of adsorption tower 1 again in first adsorption tower 1.The portion of air of finished product gas outlet 14 enters into heater 7 by pipeline, enter adsorption tower 2 through heater 7 heating back by check valve 6, in adsorption tower 2, adsorbent import 201, right gas outlet 903, right air chamber 908, upper chamber 905, exhaust outlet 904, the silencer 13 of back by adsorption tower 2 of regenerating is discharged into atmosphere.

2 absorption of second adsorption tower, the operation principle of first adsorption tower, 1 regeneration and 1 absorption of first adsorption tower, the operation principle of second adsorption tower, 2 regeneration is identical, and the person of an ordinary skill in the technical field is easy to according to 1 absorption of first adsorption tower, and the operation principle of second adsorption tower, 2 regeneration draws.

In the course of work of absorption drier, programmable logic controller (PLC) is controlled time and the frequency that double tower switches according to the dew-point temperature and the program of self of finished product gas outlet 14.When the dew-point temperature of finished product gas was lower than setting value, absorption drier will increase adsorption time, reduced the double tower switching frequency, reduced compressed-air actuated waste; When finished product gas dew-point temperature was higher than setting value, Programmable Logic Controller was controlled double tower at once and is switched, and guaranteed finished product gas dew-point temperature in the scope of setting, thereby reached precise control and purpose of energy saving.

In the course of work of absorption drier, the work that programmable logic controller (PLC) comes control heater 7 according to the gas temperature and the program of self of heater 7 gas outlets.When the temperature of heater 7 reaches the higher limit of setting, programmable logic controller (PLC) 91 makes the auxiliary reclay KA4 must not, auxiliary reclay normally open contact KA4-1 is in normally open, contactor KM must not, contactor normally open contact KM-1 is in normally open, heater 7 must not be electric, is in to stop heated state, reduces power consumption; Otherwise, when the temperature of heater during less than the lower limit set, programmable logic controller (PLC) 91 gets auxiliary reclay coil KA4, auxiliary reclay normally open contact KA4-1 closure, contactor coil KM gets electric, contactor normally open contact KM-1 closure, and heater 7 enters heated condition, thereby the temperature that makes heater is controlled in the scope of setting, therefore reaches accurate control and purpose of energy saving.

In the course of work of absorption drier, when the air pressure of adsorption tower is crossed when low, low tension switch 17 actions, programmable logic controller (PLC) 91 according to the action of pressure switch 17 control auxiliary reclay KA2, KA3 must not, make auxiliary reclay normally open contact KA2-1, KA3-1 be in normally open, left side cylinder 912 and right cylinder 913 must not, the valve plug 914,915 that is driven by left cylinder 912 and right cylinder 913 is in the top, system all presses again, operate as normal again again behind the required pressure of assurance system.

In the course of work of absorption drier, if will realize remote control function, earlier make absorption drier be in halted state by man-machine interface 90, long-range permission switch S A1 closure, programmable logic controller (PLC) 91 gets electric according to the state of long-range permission switch S A1 control auxiliary reclay KA7, auxiliary reclay normally open contact KA7-1, KA7-2 closure.At this moment, when long-range start-stop switch S B1 was closed, auxiliary reclay KA5 got electric, auxiliary reclay KA5 normally open contact KA5-1 closure, auxiliary reclay normally closed interlock KA5-2 disconnects, and programmable logic controller (PLC) 91 starts according to this input signal control absorption drier; Otherwise when length of run start-stop switch S B1 disconnected, absorption drier quit work.

When power supply had electricity, power supply indicator HL1 was bright; When absorption drier normally moved, auxiliary reclay KA1 got electric, auxiliary reclay KA1 normally open contact KA1-1 closure, and run indicator HL2 is bright; When absorption drier broke down, auxiliary reclay KA6 got electric, auxiliary reclay KA6 normally open contact KA6-1 closure, and malfunction indicator lamp HL3 is bright, and alarm ALM sends chimes of doom.

Embodiment 2:

Not with the absorption drier of heater, as shown in Figure 4: comprise and inhale the first attached tower 1, second adsorption tower 2, adsorption type drier controller, silencer 13, first check valve 3, second check valve 4, bypass duct 15, restricting orifice 16, air inlet gas circuit switching device shifter 9, used air inlet gas circuit switching control is four independently electrically-controlled valve.

Shown in Fig. 5,6, the present embodiment adsorption type drier controller comprises that equally wherein air inlet gas circuit switching control 9, central controller 10 (are called for short: controller 10).

Controller 10 comprises programmable logic controller (PLC) 91, man-machine interface 90, communication module 93, auxiliary reclay etc.Output Y1, the Y2 of programmable logic controller (PLC) 91, the output of Y6, Y7 are connected with auxiliary reclay KA2, KA3, KA8, KA9 respectively.

The normally open contact KA2-1 of auxiliary reclay KA2 be connected to the control power supply after electrically-controlled valve 181 is connected on; The normally open contact KA3-1 of auxiliary reclay KA3 be connected to the control power supply after electrically-controlled valve 182 is connected on; The normally open contact KA8-1 of auxiliary reclay KA8 be connected to the control power supply after electrically-controlled valve 183 is connected on; The normally open contact KA9-1 of auxiliary reclay KA9 be connected to the control power supply after electrically-controlled valve 184 is connected on.

When 1 absorption of first adsorption tower, during 2 regeneration of second adsorption tower, programmable logic controller (PLC) 91 control auxiliary reclay KA8, KA3 get electric, and KA2, KA9 must not; The 3rd electrically-controlled valve 183 and second electrically-controlled valve 182 are opened, and first electrically-controlled valve 181 and the 4th electrically-controlled valve 184 are closed.

Compressed air enters first adsorption tower 1 by air inlet, the 3rd electrically-controlled valve 183; The gas of second adsorption tower 2 is discharged in the atmosphere through air inlet 201, second electrically-controlled valve 182, the silencer 13 of second adsorption tower 2.

Otherwise, when 2 absorption of first adsorption tower, 1 regeneration of first adsorption tower, principle is the same, repeats no more.

Claims (10)

1, a kind of adsorption type drier controller, comprise air inlet gas circuit switching control (9) and central controller (10), it is characterized in that: described central controller (10) is provided with programmable logic controller (PLC) (91), programmable logic controller (PLC) (91) is connected with a personal-machine interface (90), each control end of described air inlet gas circuit switching control (9) directly or through auxiliary reclay is connected with the corresponding output of programmable logic controller (PLC) respectively, and programmable logic controller (PLC) (91) inside is provided with the control module of setting according to the absorption drier working procedure.

2, according to the adsorption type drier controller of claim 1, it is characterized in that: described air inlet gas circuit switching control (9) is the combination valve of integral type, comprise valve body, left cylinder (912), right cylinder (913), valve body is divided into upper chamber (905), left air chamber (906), middle air chamber (907), right air chamber (908); Upper chamber (905) and middle air chamber (907) all are communicated with left air chamber (906), right air chamber (908) respectively; Be provided with left pressurising valve seat (909) at left air chamber (906), right air chamber (908) is provided with right pressurising valve seat (910), and left pressurising valve seat (909) and right pressurising valve seat (910) couple together by pressurising pipe (911); Between the connected entrance of left air chamber (906) and upper chamber (905) and left pressurising valve seat (909), be provided with valve plug (914), this valve plug (914) links to each other with left cylinder (912), and the control end of left cylinder (912) directly or by an auxiliary reclay is connected with an output of programmable logic controller (PLC) (91); Between the connected entrance of right air chamber (908) and upper chamber (905) and right pressurising valve seat (910), be provided with valve plug (915), this valve plug (915) links to each other with right cylinder (913), and the control end of right cylinder (913) directly or by an auxiliary reclay is connected with an output of described programmable logic controller (PLC) (91); Between the connected entrance of middle air chamber (907) and left air chamber (906) and middle air chamber (907) and right air chamber (908) connected entrance, be provided with slip valve plug (916); Middle air chamber (907) is provided with air inlet (901), left side air chamber (906) is provided with left gas outlet (902), the air inlet (101) of first adsorption tower of gas outlet (902), a left side and absorption drier is connected, right air chamber (908) is provided with right gas outlet (903), the air inlet (201) of second adsorption tower of right gas outlet (903) and absorption drier is connected, and upper chamber (905) is provided with exhaust outlet (904); Air inlet (901) at this integral type combination valve locates to be provided with low tension switch (17), and the output of low tension switch (17) is connected with an input of programmable logic controller (PLC) (91).

3, adsorption type drier controller according to claim 1, it is characterized in that: described air inlet gas circuit switching control comprises four independently electrically-controlled valve, first electrically-controlled valve (181) is contacted mutually with second electrically-controlled valve (182), be provided with exhaust outlet (21) at the polyphone place, the 3rd electrically-controlled valve (183) is contacted mutually with the 4th electrically-controlled valve (184), be provided with air inlet (19) at the polyphone place, the other end of first electrically-controlled valve (181) and the 3rd electrically-controlled valve (183) and connect the back be connected with the air inlet (101) of first adsorption tower, the other end of second electrically-controlled valve (182) and the 4th electrically-controlled valve (184) also connects the back and is connected with the air inlet (201) of second adsorption tower, and the control end of these four electrically-controlled valve all distinguish direct or passed through auxiliary reclay and is connected with an output of described programmable logic controller (PLC) (91).

4, according to the adsorption type drier controller of claim 1, it is characterized in that: an output of described programmable logic controller (PLC) (91) directly or by the contactor coil of an auxiliary reclay with a heater (7) is connected.

5, according to the adsorption type drier controller of claim 1, it is characterized in that: described programmable logic controller (PLC) (91) is connected with an A/D modular converter (92).

6, according to the adsorption type drier controller of claim 5, it is characterized in that: the input end of analog signal of described A/D modular converter (92) is connected with a dew-point temperature transmitter (12) that is used to detect finished product gas dew-point temperature.

7, according to the adsorption type drier controller of claim 5, it is characterized in that: the input end of analog signal of described A/D modular converter (92) is connected with a temperature transmitter (11) that is used to detect heater gas outlet gas temperature.

8, according to the adsorption type drier controller of claim 1, it is characterized in that: be connected with a network communication module (93) on the described programmable logic controller (PLC) (91).

9, according to the adsorption type drier controller of claim 1, it is characterized in that: the input of described programmable logic controller (PLC) (91) directly or by auxiliary reclay is connected with a long-range permission switch (SA1) and one long-range guard's valve (SB1).

10, according to the adsorption type drier controller of claim 1, it is characterized in that: have two outputs directly or by auxiliary reclay to be connected with a run indicator (HL2) and a malfunction indicator lamp (HL3) respectively on the described programmable logic controller (PLC), an in addition alarm (ALM) in parallel with malfunction indicator lamp.

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