CN204024898U - Electricity-steam two-purpose jacket water heating plant and control circuit thereof - Google Patents

Abstract

The utility model discloses a kind of electricity-steam two-purpose jacket water heating plant and control circuit thereof, described electricity-steam two-purpose jacket water heating plant is divided into two independently cavitys by dividing plate by heating cylinder, be respectively used to electric heating and steam heating, the space taking to reduce heating plant cylindrical shell, electric heating simultaneously and steam heating are by the design of arm, share a set of external pipeline system, simplified pipeline setting, and form two and overlap independently heating system.Simultaneously by the design of control circuit, make electric heating process and self heating process conversion convenient, and have advantages of that automatic monitoring, Safety performance are high.

Description

Electricity-steam two-purpose jacket water heating plant and control circuit thereof

Technical field

The present invention relates to machinery and automation control area, be specially a kind of electricity-steam two-purpose jacket water heating plant and control circuit thereof.

Background technique

Jacket water heater be before main engine starting by diesel cylinder sleeve water preheat to the heating plant that needs temperature, generally on boats and ships, naval vessels configuration use.On boats and ships, naval vessels, being generally all furnished with boiler, in situation, is all steam heated mode mostly, and jacket water heater adopts Boiler Steam to heat (heat exchange) to jacket water.If but the stove that boils in order to use jacket water heater only just wastes energy very much.For this reason, also adopt electric heating, and configure two kinds of heating plants simultaneously on some ships, line arrangement and circuit control, with regard to more complicated, take up room, and cost is high, and are not easy to management, have increased potential safety hazard.

Summary of the invention

For problems of the prior art, technical purpose of the present invention is to provide a kind of have steam heating and electric heating function, saving space, energy saving and safe and reliable jacket water heating plant and control circuit thereof simultaneously.

In order to realize above-mentioned technical purpose, technological scheme provided by the invention is:

A control circuit for electricity-steam two-purpose jacket water heating plant, comprises the secondary power supply output circuit after transformer conversion, it is characterized in that:

Being provided with lower than setting vapor pressure is pressure controller and steam-electric heating change-over circuit of conducting; The coil tandem of the switch contact of described pressure controller and auxiliary reclay KA4 is on described power output circuit, and the coils from parallel connection of coils of time relay KT is at the two ends of the coil of auxiliary reclay KA4;

Described steam-electric heating change-over circuit is provided with throw over switch SW2:

Steam heating position switch contact one end of described throw over switch SW2 is connected on described power output circuit, and one end is connected with the normally-closed contact of time relay KT; Solenoid valve V1 is connected with the normally-closed contact of described time relay KT with one end after solenoid valve V2 parallel connection, and the other end is connected with power output circuit, and described solenoid valve V1 is steam inlet pipe solenoid valve, and solenoid valve V2 is the solenoid valve of steam heated cylinder jacket water water intake;

The electric heating position switch contact of described throw over switch SW2 and solenoid valve V3 are serially connected on described power output circuit, and described solenoid valve V3 is the solenoid valve of electric heating tube jacket water water intake;

After the normally opened contact of time relay KT is connected with one group of normally opened contact of auxiliary reclay KA4, one end is connected between the normally-closed contact and throw over switch SW2 of described time relay KT, and the other end is connected between throw over switch SW2 and solenoid valve V3.

Further technological scheme also comprises:

Control circuit of the present invention is provided with controls electrically heated automatic-manual control change-over circuit, described automatic-manual control change-over circuit comprises throw over switch SW1, automatic temp. controlling circuit and manual control circuit, described throw over switch SW1 is serially connected in power output circuit, its automatic control position, manually control position switch contact respectively with automatic temp. controlling circuit, the corresponding connection of manual control circuit;

Described automatic temp. controlling circuit comprises temperature controller ST1 and the temperature controller ST2 of series connection, and one group of normally open contact of contactor KM1 is connected in parallel on the two ends of temperature controller ST1; Described manual control circuit is provided with controls the push-button switch that electric heater starts and/or stops; Described automatic temp. controlling circuit, manual control circuit are connected with the coil of contactor KM1 respectively, the other end of the coil of described contactor KM1 is connected with power output circuit, and one group of normally open contact of described contactor KM1 is serially connected in the power supply circuits of electric heating tube;

In foregoing circuit, temperature controller ST1 is lower than setting temperature t1 internal switch closure, and temperature controller ST2 disconnects higher than setting temperature t2 internal switch, t1 <t2.

Described manual control circuit comprise press disconnection heating stop button SB1, press closed heating starting button SB2, described heating stop button SB1 one end connects and is connected with the manual control position of throw over switch SW1 switch contact, one end is connected with heating starting button SB2, the other end of described heating starting button SB2 is connected between the coil and temp control switch ST2 of contactor KM1, and one group of normally open contact of contactor KM1 is connected in parallel on the two ends of described heating starting button SB2.

Described control circuit comprises the fluid level controller being arranged in electric heating tube, and described fluid level controller is at least provided with the one in following two groups of switch contacts:

1) water level is closed liquid-level switch contact higher than setting liquid level, and this liquid-level switch contact and automatic-manual control change-over circuit are serially connected in described power output circuit;

2) water level is closed liquid-level switch contact lower than setting liquid level, after the coils from parallel connection of coils of tutorial light H5, buzzer B5 and auxiliary reclay KA3, then is serially connected in power output circuit with this liquid-level switch contact.

Control circuit of the present invention is provided with the thermorelay RJ1 for electric heating tube overload protection, the coil tandem of described thermorelay RJ1 is in the power supply circuits of electric heating tube, and one group of normally-closed contact of thermorelay RJ1 and coil, the automatic-manual control change-over circuit of contactor KM1 are in series; After the coils from parallel connection of coils of tutorial light H4, buzzer B4 and auxiliary reclay KA2, be connected in described power output circuit with one group of normally opened contact of thermorelay RJ1.

Control circuit of the present invention is provided with heat alert circuit, it is the temperature controller ST3 of conducting that described heat alert circuit is provided with higher than setting temperature t3, t1<t2<t3, the coil tandem of described temperature controller ST3 and auxiliary reclay KA1 is in described power output circuit; One group of normally-closed contact of described auxiliary reclay KA1 and coil, the automatic-manual control change-over circuit of contactor KM1 are in series.

Control circuit of the present invention is provided with the low pressure alarming tutorial light H6 of vapor pressure in instruction steam heating pipeline, and described tutorial light H6 is all connected in parallel on the two ends of the coil of auxiliary reclay KA4.

The present invention is provided with remote alarms circuit, in foregoing circuit, each auxiliary reclay is equipped with one group of switch contact being serially connected in remote alarms circuit, comprises auxiliary reclay KA1, KA2, KA3, KA4, in the time that the situations such as overload, high temperature or temperature fault occur, send a signal to background monitoring system.

A kind of electricity-steam two-purpose jacket water heating plant, comprises cylindrical shell, carries pipe-line system, steam-heating pipe group, electric heating tube and the circuit control system of cylinder sleeve water and steam, it is characterized in that:

The control circuit design of described circuit control system as mentioned above;

The inner chamber middle part of described cylindrical shell is provided with dividing plate, cylindrical shell is divided into steam heated cylinder part and electric heating tube part, described steam heated cylinder, electric heating tube are provided with jacket water water intake and jacket water water outlet separately, described water intake or water outlet are connected on outside jacket water inlet pipeline or jacket water rising pipe by an arm respectively, and described water intake, water outlet are equipped with corresponding valve member;

The outer end of described steam heated cylinder is provided with end cap, between end cap and body barrel, be provided with a tube sheet, end cap, tube sheet are fixedly connected with body barrel, steam-heating pipe group is fixed on this tube sheet, described end cap is provided with and the steam inlet pipe and the steam condensation water outer pipe that in described steam-heating pipe group, communicate, described steam inlet pipe is provided with valve member, comprises solenoid valve etc.

The outer end of described electric heating tube is provided with the button cover of protection electric heating tube end, between button cover and body barrel, is provided with a tube sheet, and button cover, tube sheet are fixedly connected with body barrel, and described electric heating tube is fixedly connected on this tube sheet.

The bottom of described steam heated cylinder, electric heating tube is respectively equipped with relief outlet, and top is equipped with safety valve, and pressure, temperature display meter are installed on cylindrical shell.

Further, the valve body arranging on described steam inlet pipe comprises a temperature control valve (TCV), described temperature control valve (TCV) comprises main valve, drive the intelligent actuator of main valve and be connected with described intelligent actuator be arranged on the temperature transducer on steam heated cylinder jacket water rising pipe.

Beneficial effect of the present invention:

1) heating plant of the present invention possesses electric heating and steam-heated function simultaneously, compared with independent use boiler heating, and energy saving; Compare with steam-heating apparatus with electric heating equipment is set respectively, take up room little, cost is low and circuit design is simple;

2) electric heating pattern and the conversion of steam heating pattern are convenient;

3) have automatic monitoring and alarm function, safety coefficient is high, and is convenient to management.

Brief description of the drawings

Fig. 1 is the structural representation of jacket water heating plant of the present invention;

Fig. 2 is the electrical principle schematic diagram of control circuit of the present invention.

Embodiment

In order further to illustrate technological scheme of the present invention and technique effect, below in conjunction with drawings and the specific embodiments, the present invention is further elaborated.

Electricity-steam two-purpose jacket water heating plant as shown in Figure 1, comprises electric control box 7 and cylindrical shell 4.

Described cylindrical shell 4 comprises body barrel and is arranged on end cap or the button cover at body barrel two ends, in the middle part of body barrel, is welded with dividing plate, and cylinder lumen is divided into independently two chambers, is used separately as electric heating and steam heating.

Steam heated cylinder part, electric heating tube part are provided with jacket water water intake and jacket water water outlet separately, and described water inlet is respectively equipped with solenoid valve 15, and described water outlet is respectively equipped with screw down nonreturn valve 11.Described water intake, water outlet are connected with the water inlet of outside jacket water, jacket water rising pipe system by a branch line respectively, shared a set of outside jacket water transporting system, and jacket water water intake, go out fore-edge place and be provided with respectively thermometer 12.

Between the end cap 1 of steam heated cylinder and body barrel, be provided with tube sheet 2, end cap 1 is fixedly connected with tube sheet 2, body barrel by flange, and the steam-heating pipe group of U-shaped stays in steam heating cylindrical shell, and pipe end expanded joint is on tube sheet 2.On described end cap 1, be welded with steam inlet pipe and steam condensation water outer pipe (being the outlet of the condensed water of cooled steam and steam formation), described steam inlet pipe is provided with solenoid valve 15 and temperature control valve (TCV) 16, and described solenoid valve 15, temperature control valve (TCV) 16 are connected with electric control box respectively.Described temperature control valve (TCV) 16 comprises main valve, the intelligent actuator that drives main valve and the temperature transducer that is arranged on jacket water water outlet place being connected with described intelligent actuator, the water-exit temperature detecting according to temperature transducer, intelligent actuator regulates the open degree of main valve automatically, control the steam flow in steam-heating pipe group, thereby reach the effect of adjusting water outlet temperature.Described steam inlet pipe, steam condensation water outer pipe are respectively equipped with thermometer 12.Meanwhile, described steam heating inlet ductwork is also provided with the pressure controller of monitoring steam-heated pipe line pressure.

Between the button cover 6 of electric heating tube and body barrel, be provided with tube sheet 5, button cover 6, body barrel are fixedly connected with by flange with tube sheet 5, and in electric heating tube, several electric heating tubes 9 and fluid level controller 8 are connected on tube sheet 5.Described electric heating tube is by the break-make of temperature controller 10 automatic control electrical heating processes.

The bottom of described steam heated cylinder, electric heating tube is respectively equipped with relief outlet, and top is equipped with safety valve 13, and pressure gauge 14 is installed on cylindrical shell.Heating plant maintenance or stop using before, should turn on drainage plug screw 17, the water of excretion cylindrical shell.

The design of circuit control system of the present invention is as follows:

Electric heating tube 501 is connected in the power supply circuits of 440V or 380V, and described power supply circuits are provided with one group of normally open contact 120 of power switch Q1, contactor KM1 and the coil 201 of thermorelay RJ1 of series connection.Change by transformer from drawing a route road between power switch Q1 and normally open contact 120, make secondary power supply output circuit, following circuit module is all connected on this power output circuit.

Control circuit of the present invention, comprising:

(1) tutorial light and alarm system circuit

Power supply indicator H1, is serially connected on described power output circuit, and after Q1 closure, power supply indicator H1 has instruction;

Electric heating tutorial light H2, is serially connected on described power output circuit with one group of normally open contact 102 of contactor KM1;

High temperature alarm tutorial light H3, is serially connected on described power output circuit with one group of normally opened contact 103 of auxiliary reclay KA1;

In overload-alarm circuit, after the coil 202 of overload-alarm tutorial light H4, buzzer B4 and auxiliary reclay KA2 is in parallel, be connected in described power output circuit with one group of normally opened contact 104 of thermorelay RJ1;

In low liquid level warning indicating circuit, after coil 203 parallel connections of low liquid level warning tutorial light H5, buzzer B5 and auxiliary reclay KA3, be serially connected in described power output circuit the low liquid-level switch contact 301 of closure lower than setting liquid level with float control;

In high temperature alarm circuit, the temperature controller ST3 303 that is conducting higher than setting temperature 75 DEG C (t3) and the coil 209 of auxiliary reclay KA1 are serially connected in power output circuit;

In low-voltage alarm circuit, after described low pressure alarming tutorial light H6, the coil 204 of auxiliary reclay KA4 and the coil 205 of time relay KT are in parallel, be serially connected in described power output circuit with the switch contact 302 of pressure controller.

(2) steam-electric heating change-over circuit

Described steam-electric heating change-over circuit is provided with throw over switch SW2 401.

Steam heating position switch contact one end of described throw over switch SW2 is connected on described power output circuit, and one end is connected with the normally-closed contact 107 of time relay KT; Solenoid valve V1 is connected with the normally-closed contact 107 of described time relay KT with one end after solenoid valve V2 parallel connection, the other end is connected with power output circuit, described solenoid valve V1 is steam inlet pipe solenoid valve, and solenoid valve V2 is the solenoid valve of steam heated cylinder jacket water water intake;

The electric heating position switch contact of described throw over switch SW2 and solenoid valve V3 are serially connected on described power output circuit, and described solenoid valve V3 is the solenoid valve of electric heating tube jacket water water intake;

After the normally opened contact 105 of time relay KT is connected with one group of normally opened contact 106 of auxiliary reclay KA4, one end is connected on the circuit between normally-closed contact 107 and the throw over switch SW2 of time relay KT, and the other end is connected between throw over switch SW2 and solenoid valve V3.

(3) automatic-manual control change-over circuit

Described automatic-manual control change-over circuit comprises throw over switch SW1 402, described throw over switch SW1 402 is serially connected in power output circuit, the switch contact of its automatic control position is connected with the coil 110 of temperature controller ST1 304 and temperature controller ST2 305, contactor KM1, one group of normally-closed contact 121 of thermorelay RJ1, one group of normally closed switch contact 111 of auxiliary reclay KA1, and the other end of normally closed switch contact 111 is connected on power output circuit.The switch contact of the manual control position of throw over switch SW1 starts switch button SB2 404 with heating stop button SB1 403, heating successively connects, and the other end that heating starts switch button SB2 is connected between temp control switch ST2 305 and the coil 110 of contactor KM1.One group of normally open contact 109 of contactor KM1 is connected in parallel on the two ends of button SB2.

In foregoing circuit, establish temperature controller ST1 304 in water temperature lower than conducting after 55 DEG C (t1), temperature controller ST2 305 disconnects higher than 65 DEG C (t2) in the situation that in water temperature.

(4) ball float level controller FS

Described fluid level controller preferably adopts ball float level controller, and its switch contact 306 is serially connected on the power output circuit between high temperature alarm circuit and automatic-manual control change-over circuit.

In the time that in electric heating tube, water level reaches upper switching value, the closed conducting of switch contact 306, automatic-manual control change-over circuit obtains electric.In the time that water level descends switching value lower than it, switch contact 301 closures, send low liquid level warning.

(5) remote alarms circuit

Described remote alarms circuit is connected with background monitoring system, and described auxiliary reclay KA1, KA2, KA3, KA4 are equipped with one group of normally closed switch contact being serially connected in remote alarms circuit.

Working procedure:

In the time that the steam-heated mode of choice for use heats jacket water, first throw over switch SW2 is gone to " steam " position, by power switch Q1 closure, the power supply indicator H1 instruction of having started working.Now solenoid valve V1 and V2 obtain electric closure, and steam and jacket water do not enter in steam-heating pipe group and steam heated cylinder, start heating.

If the pressure of steam is lower than default setting value, switch contact 302 closures of pressure controller, alarm indicator lamp H6 obtains the electric visual alarm that sends, the coil of auxiliary reclay KA4 and time relay KT obtains electric simultaneously, the normally opened contact 106 of auxiliary reclay KA4 is closed under armature effect, and the normally opened contact 105 of time relay KT and normally-closed contact 107 timing closing and disconnection respectively, solenoid valve V1 and V2 disconnect, and steam heated cylinder end stops admission and water inlet.Solenoid valve V3 obtains electric closure simultaneously, and electric heating tube part is injected jacket water, after water level is higher than ball float level controller FS setting value, and switch contact 306 closures, electric heating starts energising work, is converted to electric heating state by steam heating state.(about the about 15-30 minute retard time that time relay KT arranges, mainly consider steam too low may be moment or short time situation, pressure can automatic lifting after a while, avoids so frequent switching).

In the time of choice for use electric heating, first throw over switch SW2 is gone to " electric heating " position, by power switch Q1 closure, power supply indicator H1 starts working, and has instruction.Solenoid valve V3 obtains electric closure, electric heating tube injects jacket water, when water level is higher than setting after liquid level, switch contact 306 closures, if when position, throw over switch SW1 place " automatically ", contactor KM1 coil obtains electric, normally open contact 108, the normally open contact 102 of contactor KM1 are all closed with normally open contact 120, electric heating tube 501 moves, and tutorial light H2 is bright, is initially located in electric heating state.Electric heating process is according to the start and stop of temperature controller automatic controlled electric heater, the setting temperature of assumed temperature controller ST1 switch contact closure is lower than 55 DEG C, when water temp. heating to 55 DEG C ~ 60 DEG C of left and right, temperature controller ST1 disconnects, but due to normally opened contact 108 closures after contactor KM1 coil electricity, heater circuit still keeps being communicated with; In the time that water temperature reaches 65 DEG C, temperature controller ST2 disconnects, and electric heating quits work, and temperature controller ST1, ST2 are closed state in the time that water temperature drops to lower than 55 DEG C, and electric heating pattern is started working again.If temperature controller ST2 breaks down, water temperature continues to raise, in the time that water temperature reaches 75 DEG C, the switch contact closure of temperature controller ST3, auxiliary reclay KA1 coil 209 obtains electric, normally opened contact 103 closures, H3 is bright for high temperature alarm tutorial light, the normally-closed contact 111 of KA1 disconnects, KM1 coil 110 dead electricity, and electric heating quits work.If throw over switch SW1, in the time of " manually " position, presses heating starting button SB2, can start heating.Generally, manual function is to use while just debugging as starting.

If while there is electric heating tube overload or fault, normally opened contact 104 closures of thermorelay RJ1, alarm indicator lamp H4 is bright, and buzzer B4 rings, and the normally-closed contact 121 of RJ1 disconnects, and electric heating work stops.If while occurring liquid level lower than the situation of electric heating tube, the make contact of switch contact 301, low liquid level warning lamp H5 is bright, and buzzer B5 rings.

According to boats and ships practical operation situation, for energy saving, steam is few or automatically convert electric heating to while thering is no steam, and electric heating just stops heating as gone wrong, and reports to the police, and has no longer converted steam heating to.

To sum up, Fig. 2 electrical schematic diagram is designed to throw over switch SW2 (first jacket water uses steam as heat medium) in the time of steam heating, when the hypotony of steam or while thering is no steam, automatically be converted to electric heating state, in the time of electric heating state, the continuous running of guarantee equipment, when water level is too low or when heater overload or fault, externally output remote alarms signal, there are tutorial light and buzzer as prompting, and stop in time heating, ensure device security, until related personnel is to device processes.

More than show and described basic principle of the present invention, major character and advantage of the present invention.The technician of the industry should understand, the present invention is not restricted to the described embodiments, that in above-described embodiment and specification, describes just illustrates principle of the present invention, and without departing from the spirit and scope of the present invention, the present invention also has various changes and modifications.The claimed scope of the present invention is defined by appending claims, specification and equivalent thereof.

Claims (10)

1. a control circuit for electricity-steam two-purpose jacket water heating plant, comprises the secondary power supply output circuit after transformer conversion, it is characterized in that:

Being provided with lower than the vapor pressure of setting is pressure controller and steam-electric heating change-over circuit of conducting; The switch contact (302) of described pressure controller is serially connected on described power output circuit with the coil (204) of auxiliary reclay KA4, and the coil of time relay KT (205) is connected in parallel on the two ends of the coil (204) of auxiliary reclay KA4;

Described steam-electric heating change-over circuit is provided with throw over switch SW2(401):

Described throw over switch SW2(401) steam heating position switch contact one end be connected on described power output circuit, one end is connected with the normally-closed contact (107) of time relay KT; Solenoid valve V1 is connected with the normally-closed contact (107) of described time relay KT with one end after solenoid valve V2 parallel connection, the other end is connected with power output circuit, described solenoid valve V1 is steam inlet pipe solenoid valve, and solenoid valve V2 is the solenoid valve of steam heated cylinder jacket water water intake;

Described throw over switch SW2(401) electric heating position switch contact and solenoid valve V3 be serially connected on described power output circuit, described solenoid valve V3 is the solenoid valve of electric heating tube jacket water water intake;

After the normally opened contact (105) of time relay KT is connected with one group of normally opened contact (106) of auxiliary reclay KA4, one end is connected to normally-closed contact (107) and the throw over switch SW2(401 of described time relay KT) between, the other end is connected to throw over switch SW2(401) and solenoid valve V3 between.

2. the control circuit of a kind of electricity-steam two-purpose jacket water heating plant according to claim 1, is characterized in that:

Be provided with and control electrically heated automatic-manual control change-over circuit, described automatic-manual control change-over circuit comprises throw over switch SW1(402), automatic temp. controlling circuit and manual control circuit, described throw over switch SW1(402) be serially connected in power output circuit, its automatic control position, manually control position switch contact respectively with automatic temp. controlling circuit, the corresponding connection of manual control circuit;

Described automatic temp. controlling circuit comprises the temperature controller ST1(304 of series connection) and temperature controller ST2(305), one group of normally opened contact (108) of contactor KM1 is connected in parallel on temperature controller ST1(304) two ends; Described manual control circuit is provided with controls the push-button switch that electric heater starts and/or stops; Described automatic temp. controlling circuit, manual control circuit are connected with the coil (110) of contactor KM1 respectively, the other end of the coil (110) of described contactor KM1 is connected with power output circuit, and one group of normally open contact (120) of described contactor KM1 is serially connected in the power supply circuits of electric heating tube (501);

In foregoing circuit, temperature controller ST1(304) lower than setting temperature t1 internal switch closure, temperature controller ST2(305) disconnect t1 <t2 higher than setting temperature t2 internal switch.

3. the control circuit of a kind of electricity-steam two-purpose jacket water heating plant according to claim 2, is characterized in that:

Described manual control circuit comprises the heating stop button SB1 (403) that presses disconnection, press closed heating starting button SB2(404), described heating stop button SB1 (403) one end connects and is connected with the manual control position of throw over switch SW1 switch contact, one end and heating starting button SB2(404) be connected, described heating starting button SB2(404) the other end be connected to coil (110) and the temp control switch ST2(305 of contactor KM1) between, one group of normally open contact (109) of contactor KM1 is connected in parallel on described heating starting button SB2(404) two ends.

4. the control circuit of a kind of electricity-steam two-purpose jacket water heating plant according to claim 2, is characterized in that:

Comprise the fluid level controller being arranged in electric heating tube, described fluid level controller is at least provided with any in following two groups of switch contacts:

1) water level is closed liquid-level switch contact (306) higher than setting liquid level, and this liquid-level switch contact (306) is serially connected in described power output circuit with automatic-manual control change-over circuit;

2) water level is closed liquid-level switch contact (301) lower than setting liquid level, after coil (203) parallel connection of tutorial light H5, buzzer B5 and auxiliary reclay KA3, is serially connected in power output circuit with this liquid-level switch contact (301).

5. the control circuit of a kind of electricity-steam two-purpose jacket water heating plant according to claim 2, is characterized in that:

Be provided with the thermorelay RJ1 for electric heating tube (501) overload protection, the coil tandem (201) of described thermorelay RJ1 is in the power supply circuits of electric heating tube (501), and one group of normally-closed contact (121) of thermorelay RJ1 is in series with the coil (110) of contactor KM1, automatic-manual control change-over circuit;

After the coil (202) of tutorial light H4, buzzer B4 and auxiliary reclay KA2 is in parallel, be connected in described power output circuit with one group of normally opened contact (104) of thermorelay RJ1.

6. the control circuit of a kind of electricity-steam two-purpose jacket water heating plant according to claim 2, is characterized in that:

Be provided with heat alert circuit, it is the temperature controller ST3(303 of conducting that described heat alert circuit is provided with higher than setting temperature t3), t1<t2<t3, described temperature controller ST3(303) and the coil (209) of auxiliary reclay KA1 be serially connected in described power output circuit; One group of normally-closed contact (111) of described auxiliary reclay KA1 is in series with the coil (110) of contactor KM1, automatic-manual control change-over circuit.

7. the control circuit of a kind of electricity-steam two-purpose jacket water heating plant according to claim 1, is characterized in that:

The low pressure alarming tutorial light H6 that is provided with vapor pressure in instruction steam heating pipeline, described tutorial light H6 is connected in parallel on the two ends of the coil (204) of auxiliary reclay KA4.

8. according to the control circuit of a kind of electricity-steam two-purpose jacket water heating plant described in arbitrary claim in claim 1-7, it is characterized in that:

Be provided with remote alarms circuit, each auxiliary reclay is equipped with one group of switch contact being serially connected in remote alarms circuit.

9. electricity-steam two-purpose jacket water heating plant, comprises cylindrical shell, carries pipe-line system, steam-heating pipe group, electric heating tube and the circuit control system of cylinder sleeve water and steam, it is characterized in that:

Described circuit control system is provided with the control circuit as described in arbitrary claim in claim 1-7;

The inner chamber middle part of described cylindrical shell is provided with dividing plate, cylindrical shell is divided into steam heated cylinder part and electric heating tube part, described steam heated cylinder, electric heating tube are provided with jacket water water intake and jacket water water outlet separately, described water intake or water outlet are connected on outside jacket water inlet pipeline or jacket water rising pipe by an arm respectively, and described water intake, water outlet are equipped with corresponding valve member;

Described steam heated cylinder outer end is provided with end cap, between end cap and body barrel, be provided with a tube sheet, end cap, tube sheet are fixedly connected with body barrel, steam-heating pipe group is fixed on this tube sheet, described end cap is provided with the steam inlet pipe and the steam condensation water outer pipe that communicate with described steam-heating pipe group, and described steam inlet pipe is provided with valve member;

The outer end of described electric heating tube is provided with the button cover of protection electric heating tube end, between button cover and body barrel, is provided with a tube sheet, and button cover, tube sheet are fixedly connected with body barrel, and described electric heating tube is fixedly connected on this tube sheet;

The bottom of described steam heated cylinder, electric heating tube is respectively equipped with relief outlet, and top is equipped with safety valve, and pressure, temperature display meter are installed on cylindrical shell.

10. electricity-steam two-purpose jacket water heating plant according to claim 9, is characterized in that:

The valve body arranging on described steam inlet pipe comprises a temperature control valve (TCV), described temperature control valve (TCV) comprises main valve, drive the intelligent actuator of main valve and be connected with described intelligent actuator be arranged on the temperature transducer on steam heated cylinder jacket water rising pipe.