CN105698155B

CN105698155B - Vapour system and its control system

Info

Publication number: CN105698155B
Application number: CN201510729405.3A
Authority: CN
Inventors: 李大为
Original assignee: China State Construction Technology Fuzhou Co Ltd
Current assignee: China State Construction Technology Fuzhou Co Ltd
Priority date: 2015-10-31
Filing date: 2015-10-31
Publication date: 2017-12-05
Anticipated expiration: 2035-10-31
Also published as: CN105698155A

Abstract

The present invention relates to a kind of vapour system, it includes refrigeration plant heat exchanger, the steam boiler that steam (vapor) outlet is connected by steam suppling tube road with refrigeration plant heat exchanger steam inlet, the steam-water separator that steam (vapor) outlet is connected by steam suppling tube road with refrigeration plant heat exchanger steam inlet, the solar steam equipment that steam (vapor) outlet is connected by jet chimney with steam-water separator steam inlet, water softener that delivery port is connected by the first intake tunnel with steam boiler water inlet and multiple steam branch pipes are formed on steam suppling tube road to the gas-distributing cylinder that needs steaming plant to be supplied respectively to.An object of the present invention is to provide a kind of vapour system, ensure steam in time, on the premise of continuous, stable supplying, it realizes efficient energy-saving, emission reduction synergy.

Description

Vapour system and its control system

Technical field

The present invention relates to a kind of vapour system and its control system.

Background technology

At present, enterprise's generally use steaming plant is to provide endlessly steam, to adapt to the steam demand of enterprise.Cause This, is ensureing steam in time, on the premise of continuous, stable supplying, realize efficient energy-saving, emission reduction synergy, be steam system The important subject of system.

The content of the invention

An object of the present invention is to provide a kind of vapour system, ensure steam in time, before continuous, stable supplying Put, it realizes efficient energy-saving, emission reduction synergy.

An object of the present invention is to provide a kind of control system of vapour system, passes through optical sensor, pressure sensing Device, temperature sensor and level sensor are monitored to equipment operation so as to make coordinated signals, to realize efficient energy-conservation Consumption reduction, emission reduction synergy.

The purpose of the present invention is achieved through the following technical solutions：

A kind of vapour system, it includes refrigeration plant heat exchanger, steam (vapor) outlet passes through steam suppling tube road and refrigeration plant The connected steam boiler in heat exchanger steam inlet, steam (vapor) outlet pass through steam suppling tube road and refrigeration plant heat exchanger steam inlet Connected steam-water separator, steam (vapor) outlet are set by jet chimney with the solar steam that steam-water separator steam inlet is connected The water softener and the shape on steam suppling tube road that standby, delivery port is connected by the first intake tunnel with steam boiler water inlet Into multiple steam branch pipes to the gas-distributing cylinder that needs steaming plant to be supplied respectively to；First intake tunnel is provided with the first water pump With the first magnetic valve；The jet chimney is provided with second solenoid valve；The water softener delivery port by the second intake tunnel with Solar steam equipment water inlet is connected, and second intake tunnel is provided with the second water pump and the 3rd magnetic valve；The carbonated drink Separator delivery port is connected by the 3rd intake tunnel with solar steam equipment water inlet, and the 3rd intake tunnel is provided with 3rd water pump and the 4th magnetic valve；The steam-water separator delivery port passes through the 4th intake tunnel and steam boiler water inlet phase Even, the 4th intake tunnel is provided with the 4th water pump and the 5th magnetic valve；The solar steam equipment delivery port passes through Five intake tunnels are connected with steam boiler water inlet, and the 5th intake tunnel is provided with the 5th water pump and the 6th magnetic valve；Institute State solar steam equipment delivery port by the 6th intake tunnel with water softener water inlet to be connected, set on the 6th intake tunnel There are the 6th water pump and the 7th magnetic valve；The condensation-water drain of the refrigeration plant heat exchanger passes through the 7th intake tunnel and water softener Water inlet is connected, and the 7th intake tunnel is provided with the 9th water pump and the 14th magnetic valve.

A kind of control system of vapour system, it is characterised in that：It includes hardware components and software section, the Hardware Subdivision Dividing includes microprocessor, the man-machine interface being connected with microprocessor, the optical sensor being connected with microprocessor and microprocessor phase Even pressure sensor, be connected with microprocessor multiple temperature sensors, be connected with microprocessor multiple level sensors, The relay interface being connected with microprocessor and the multiple relays being respectively connected with relay interface.

For prior art, the advantage of the invention is that：

(1) vapour system is used solar steam equipment and steam boiler are integrated, and solar energy steams when sunny The work of vapour equipment provides steam needed for maintenance of equipment, and when sunlight is not very sufficient, solar steam equipment and steam boiler be simultaneously Work and provide steam for curing system, when sunlight is inadequate, solar steam equipment produces high-temperature-hot-water supply steam boiler, Steam is provided by steam boiler, substantially reduces energy consumption, it is green；

(2) control system of the vapour system passes through optical sensor, pressure sensor, temperature sensor and level sensor Equipment operation is monitored so as to make coordinated signals, causes the device to work under various modes, make full use of solar energy, and Afterheat hot water caused by equipment is supplied to solar steam equipment or steam boiler, the higher production steam of temperature of afterheat hot water Shorter, the required luminous energy of required time and natural gas are fewer, have been greatly reduced so as to substantially increasing equipment operating efficiency and have set Standby energy consumption, realizes the green of enterprise, energy-saving and emission-reduction, the multiple indexes for reducing cost.

Brief description of the drawings

Fig. 1 is the structural representation of an embodiment of the present invention.

Label declaration：1 refrigeration plant heat exchanger, 2 steam suppling tube roads, 3 steam boilers, 4 steam-water separators, 5 steam pipes Road, 6 solar steam equipment, 7 first intake tunnels, 8 water softeners, 9 gas-distributing cylinders, 10 second intake tunnels, 11 the 3rd water inlets are logical Aquaporin, 17 are come in road, 12 the 4th intake tunnels, 13 the 5th intake tunnels, 14 the 6th intake tunnels, 15 water inlet feed channels, 16 Cyclic water tank, 18 condensed water collecting ponds, 19 first circulation passages, 20 second circulation passages, 21 circulation heat exchangers, 22 steam curings Kiln, 23 check valves, 24 optical sensors, 25 pressure sensors, 26 the 7th intake tunnels, the 31, first water pump, 32 second water pumps, 33 3rd water pump, 34 the 4th water pumps, 35 the 5th water pumps, 36 the 6th water pumps, 37 the 7th water pumps, 38 the 8th water pumps, 39 the 9th water pumps, 51 First magnetic valve, 52 second solenoid valves, 53 the 3rd magnetic valves, 54 the 4th magnetic valves, 55 the 5th magnetic valves, 56 the 6th magnetic valves, 57 the 7th magnetic valves, 58 the 8th magnetic valves, 59 the 9th magnetic valves, 510 the tenth magnetic valves, 511 the 11st magnetic valves, 512 the tenth Two magnetic valves, 513 the 13rd magnetic valves, 514 the 14th magnetic valves, 61 first temperature sensors, 62 second temperature sensors, 63 Three-temperature sensor, 65 the 5th temperature sensors, 66 the 6th temperature sensors, 67 the 7th temperature sensors, 71 first water levels Sensor, 72 second level sensors, 73 the 3rd level sensors, 74 the 4th level sensors, 75 the 5th level sensors.

Embodiment

Present invention is described in detail with reference to Figure of description and embodiment：

It is a kind of embodiment schematic diagram of vapour system provided by the invention as shown in Figure 1.

A kind of vapour system, it includes refrigeration plant heat exchanger 1, steam (vapor) outlet is set by steam suppling tube road 2 with refrigeration Steam boiler 3, the steam (vapor) outlet that the standby steam inlet of heat exchanger 1 is connected are steamed by steam suppling tube road 2 and refrigeration plant heat exchanger 1 The sun that the connected steam-water separator 4 of vapour entrance, steam (vapor) outlet are connected by jet chimney 5 with the steam inlet of steam-water separator 4 Can the water softener 8 that is connected by the first intake tunnel 7 with the water inlet of steam boiler 3 of steaming plant 6, delivery port and located at steam Multiple steam branch pipes are formed on service 2 to needing the gas-distributing cylinder 9 that steaming plant is supplied respectively to；First intake tunnel 7 are provided with the first water pump 31 and the first magnetic valve 51；The jet chimney 5 is provided with second solenoid valve 52；The water softener 8 goes out The mouth of a river is connected by the second intake tunnel 10 with the water inlet of solar steam equipment 6, and second intake tunnel 10 is provided with the Two water pumps 32 and the 3rd magnetic valve 53；The delivery port of steam-water separator 4 is set by the 3rd intake tunnel 11 with solar steam Standby 6 water inlets are connected, and the 3rd intake tunnel 11 is provided with the 3rd water pump 33 and the 4th magnetic valve 54；The steam-water separator 4 delivery ports are connected by the 4th intake tunnel 12 with the water inlet of steam boiler 3, and the 4th intake tunnel 12 is provided with the 4th water The magnetic valve 55 of pump 34 and the 5th；The delivery port of solar steam equipment 6 is intake by the 5th intake tunnel 13 with steam boiler 3 Mouth is connected, and the 5th intake tunnel 13 is provided with the 5th water pump 35 and the 6th magnetic valve 56；The solar steam equipment 6 goes out The mouth of a river is connected by the 6th intake tunnel 14 with the water inlet of water softener 8, and the 6th intake tunnel 14 is provided with the 6th water pump 36 With the 7th magnetic valve 57；The condensation-water drain of the refrigeration plant heat exchanger 1 is intake by the 7th intake tunnel 26 with water softener 8 Mouth is connected, and the 7th intake tunnel 26 is provided with the 9th water pump 39 and the 14th magnetic valve 514.The preferred bromine of refrigeration plant Change lithium air-conditioning equipment.The steam inlet of refrigeration plant heat exchanger 1, the steam (vapor) outlet of steam boiler 3, the steam of steam-water separator 4 Outlet etc. is correspondingly provided with to be needed to control the magnetic valve of gateway opening and closing according to steam disengaging.

The water inlet of water softener 8 is connected with the water inlet feed channel 15 being connected with water source；The water inlet feed channel 15 It is provided with the 7th water pump 37 and the tenth magnetic valve 510.

It includes delivery port and the cycle heat exchange group that the water inlet of feed channel 15 is connected and water inlet is connected with water source of intaking Part；The cycle heat exchange component is connected including delivery port with the water inlet water inlet of feed channel 15 and water inlet is by carrying out aquaporin 16 The cyclic water tank 17 that is connected with water source, condensed water collecting pond 18, the water inlet for collecting the steam condensate (SC) for needing steaming plant pass through First circulation passage 19 is connected with the loop exit of cyclic water tank 17 and delivery port passes through second circulation passage 20 and cyclic water tank 17 Circulate the connected circulation heat exchanger 21 of import；The first circulation passage 19 is provided with the 8th water pump 38 and the 11st magnetic valve 511；The second circulation passage 20 is provided with the 12nd magnetic valve 512；It is described come aquaporin 16 be provided with the 13rd magnetic valve 513。

It also includes the steam curing kiln 22 that steam inlet is connected with the steam branch pipe of gas-distributing cylinder 9.

Each intake tunnel provided with water pump is provided with check valve 23.

A kind of control system of vapour system, it includes hardware components and software section, and the hardware components include micro- place Reason device, the man-machine interface being connected with microprocessor, the optical sensor 24 being connected with microprocessor, the pressure being connected with microprocessor Sensor 25, the multiple temperature sensors being connected with microprocessor, the multiple level sensors being connected with microprocessor and micro- place The connected relay interface of reason device and the multiple relays being respectively connected with relay interface.

The relay includes the first relay and the second solenoid valve being connected with the first water pump 31 and the first magnetic valve 51 52 the second connected relays, the 3rd relay being connected with the second water pump 32 and the 3rd magnetic valve 53 and the 3rd water pump 33 and The 4th connected relay of 4th magnetic valve 54, the 5th relay being connected with the 4th water pump 34 and the 5th magnetic valve 55 and the The 6th connected relay of five water pumps 35 and the 6th magnetic valve 56, the 7th to be connected with the 6th water pump 36 and the 7th magnetic valve 57 after Electrical equipment, with the 8th relay being connected of steam boiler 3 and the be connected with the 9th water pump 39 and the 14th magnetic valve 514 the 13rd Relay；The optical sensor 24 is in solar steam equipment 6；The pressure sensor 25 is in gas-distributing cylinder 9；It is described Temperature sensor includes the first temperature sensor 61 located at the interior monitoring water temperature of steam-water separator 4, located at solar steam equipment 6 The second temperature sensor 62 of interior monitoring water temperature and the three-temperature sensor 63 in water softener 8；The level sensor Device includes the first level sensor 71 in steam-water separator 4, the second level sensor 72 in water softener 8, set In the 3rd level sensor 73 in solar steam equipment 6, the 4th level sensor 74 in steam boiler 3 and set In the 5th level sensor 75 in refrigeration plant heat exchanger 1.

The temperature sensor also includes the 5th temperature sensor 65 of monitoring kiln temperature in steam curing kiln 22, is located at 6th temperature sensor 66 of the interior monitoring water temperature of condensed water collecting pond 18 and the located at the interior monitoring water temperature of cyclic water tank 17 the 7th Temperature sensor 67.

The relay also includes the 9th relay and the 8th water being connected with the 7th water pump 37 and the tenth magnetic valve 510 The tenth connected relay of the magnetic valve 511 of pump 38 and the 11st, the 11st relay being connected with the 12nd magnetic valve 512 and The 12nd relay being connected with the 13rd magnetic valve 513.

The software section is microprocessor according to optical sensor, pressure sensor, temperature sensor and level sensor Sunlight intensity value, vapour pressure force value, water temperature value and the water value and sunlight intensity value, the steam pressure of setting monitored Value, water temperature value and water value are compared, according to certain control program, control water pump, the break-make and steam boiler of magnetic valve Start and stop.

The control program, it is specific as follows：

The 5th water level lower limit and the second water level of setting are not in the water level value that the 5th level sensor 75 monitors When the water level value that sensor 72 monitors is in the second water level lower limit of setting, the 13rd relay is connected until the 5th water level The 5th water level lower limit that the water level value that sensor 75 monitors is down to setting just disconnects,

When the water level value that the 5th level sensor 75 monitors reaches the 5th water level higher limit of setting, the 13rd relay Device is connected until the 5th water level lower limit that the water level value that the 5th level sensor 75 monitors is down to setting just disconnects.

A reaches the heat-flash power sunlight intensity value of setting and pressure biography when the sunlight intensity value that optical sensor 24 monitors When the vapour pressure force value that sensor 25 monitors reaches the vapour pressure force value of setting,

Steam is supplied by solar steam equipment 6, the second relay is connected, that is, opens jet chimney 5, solar steam is set The steam of standby 6 generation enter gas-distributing cylinder 9 with respectively to needing steaming plant to supply steam through steam-water separator 4；

Reach the first water level higher limit of setting in the water level value that the first level sensor 71 monitors and the 3rd water level passes When the water level value that sensor 73 monitors is not up to the 3rd water level higher limit set, the 4th relay is connected until the first water level passes The first water level lower limit that the water level value that sensor 71 monitors is down to setting just disconnects；

The first water level lower limit and the 3rd water level of setting are not in the water level value that the first level sensor 71 monitors When the water level value that sensor 73 monitors is in three water level lower limit of setting, the 4th relay is connected until the first water level passes The first water level lower limit that the water level value that sensor 71 monitors is down to setting just disconnects；

The first water level lower limit of setting is in the water level value that the first level sensor 71 monitors and the 3rd water level passes When the water level value that sensor 73 monitors is in three water level lower limit of setting, the 3rd relay is connected until the 3rd level sensor The 3rd water level higher limit that the water level value that device 73 monitors reaches setting just disconnects.

When solar steam equipment 6 can meet steam demand and supply, too can the individual operation of steaming plant 6, it is preferential to use The hot water that steam-water separator 4 is separated is supplied to solar steam equipment 6, the heat for heating the needs of solar steam equipment 6 The initial temperature of matchmaker's water increases significantly, makes full use of waste heat, improves the operating efficiency of solar steam equipment 6.

B is in the common heating power sunlight intensity interval value of setting when the sunlight intensity value that optical sensor 24 monitors When,

1. in vapour pressure force value of the vapour pressure force value that pressure sensor 25 monitors less than setting, by solar steam Equipment 6 and steam boiler 3 supply steam, and the second relay and the 8th relay are connected, that is, keep the unlatching of jet chimney 5, and Start steam boiler 3 to work, steam is supplied jointly with solar steam equipment 6, ensure steam supply in time, stably；

In first water temperature lower limit and first water level of the water temperature value that the first temperature sensor 61 monitors not less than setting When the water level value that sensor 71 monitors reaches the first water level higher limit of setting, the 4th relay is connected until the first water level passes The first water level lower limit that the water level value that sensor 71 monitors is down to setting just disconnects；

Passed in the water temperature value that the first temperature sensor 61 monitors less than the first water temperature lower limit of setting and the first water level When the water level value that sensor 71 monitors reaches the first water level higher limit of setting, the 5th relay is connected until the first level sensor The first water level lower limit that the water level value that device 71 monitors is down to setting just disconnects；

The first water level lower limit of setting is in the water level value that the first level sensor 71 monitors and the 3rd water level passes When the water level value that sensor 73 monitors is in three water level lower limit of setting, the 3rd relay is connected until the 3rd level sensor The 3rd water level higher limit that the water level value that device 73 monitors reaches setting just disconnects；

The first water level lower limit of setting is in the water level value that the first level sensor 71 monitors and the 4th water level passes When the water level value that sensor 74 monitors is in four water level lower limit of setting, the first relay is connected until the 4th level sensor The 4th water level higher limit that the water level value that device 74 monitors reaches setting just disconnects；

The hot water that steam-water separator 4 is separated, when being not less than 50 DEG C such as water temperature, it is supplied directly to solar steam equipment 6, when being less than 50 DEG C such as water temperature, steam boiler 3 is supplied to, avoids the temperature recurrent fluctuations of solar steam equipment 6, reduces steam The live load of boiler 3；

2. when the vapour pressure force value that pressure sensor 25 monitors reaches the vapour pressure force value of setting, by solar steam Equipment 6 supplies steam, and the second relay remains up, and the 8th relay disconnects, that is, ensures the unlatching of jet chimney 5, close in time Close steam boiler 3 and reduce consumption；

Reach the first water level higher limit of setting in the water level value that the first level sensor 71 monitors and the 3rd water level passes When the water level value that sensor 73 monitors is not up to the 3rd water level higher limit set, the 4th relay is connected until the first water level passes The first water level lower limit that the water level value that sensor 71 monitors is down to setting just disconnects,

The first water level lower limit and the 3rd water level of setting are not in the water level value that the first level sensor 71 monitors When the water level value that sensor 73 monitors is in three water level lower limit of setting, the 4th relay is connected until the first water level passes The first water level lower limit that the water level value that sensor 71 monitors is down to setting just disconnects,

C when the sunlight intensity value that optical sensor 24 monitors be in setting weak heating power sunlight intensity value section when,

Steam is supplied by steam boiler 3, the 8th relay is connected,

In second water temperature higher limit and fourth water level of the water temperature value that second temperature sensor 62 monitors not less than setting When the water level value that sensor 74 monitors is not up to the 4th water level higher limit set, the 6th relay is connected until the 4th water level The water level value that sensor 74 monitors reaches the 4th water level higher limit of setting,

Passed in the water temperature value that second temperature sensor 62 monitors less than the second water temperature higher limit of setting and the second water level When the water level value that sensor 72 monitors is not up to the second water level higher limit set, the 7th relay is connected until the 4th water level passes The water level value that sensor 74 monitors reaches the 4th water level higher limit of setting,

The 3rd water level lower limit of setting is in the water level value that the 3rd level sensor 73 monitors and the 4th water level passes When the water level value that sensor 74 monitors is in four water level lower limit of setting, the first relay is connected until the 4th level sensor The 4th water level higher limit that the water level value that device 74 monitors reaches setting just disconnects,

When the water level value that the 3rd level sensor 73 monitors is in three water level lower limit of setting, the 3rd relay Connect until the water level value that the 3rd level sensor 73 monitors reaches the 3rd water level higher limit of setting；

When solar steam equipment 6 lacks enough solar irradiations to form a large amount of steam, by solar steam equipment 6 As the thermal source of offer heating water, and take hot water of the water temperature not less than 90 DEG C directly to supply steam boiler 3, make steam boiler 3 The efficiency of heating surface keep stable, reduce the consumption of steam boiler 3.

D when the sunlight intensity value that optical sensor 24 monitors be in setting without heating power sunlight intensity value section when,

Steam is supplied by steam boiler 3, the 8th relay is connected,

In four water level lower limit of the water level value that the 4th level sensor 74 monitors less than setting, the first relay Connect until the 4th water level higher limit that the water level value that the 4th level sensor 74 monitors reaches setting just disconnects.

When the temperature value that the 6th temperature sensor 66 monitors is higher than the temperature value that the 7th temperature sensor 67 monitors, Tenth relay and the 11st relay are connected until the temperature value that the 6th temperature sensor 66 monitors is not higher than the 7th temperature The temperature value that sensor 67 monitors, the i.e. water of cyclic water tank 17 carry out circulating-heating through circulation heat exchanger 21, cold using steam The heat energy of solidifying hot water preheats to the water for supplying water softener 8, further improves utilization rate of waste heat.

When the water level value that the second level sensor 72 monitors is in the second water level lower limit of setting, the 9th relay Connected with the 12nd relay until the water level value that the second level sensor 72 monitors reaches the second water level higher limit of setting. The water of cyclic water tank 17, it can be mended using the negative pressure formed during seven pumping for water pump in cyclic water tank 17 from water source suction Fill, or supplement is sent into using running water.

Claims

A kind of 1. vapour system, it is characterised in that：It includes refrigeration plant heat exchanger (1), steam (vapor) outlet passes through steam suppling tube Steam boiler (3) that road (2) is connected with refrigeration plant heat exchanger (1) steam inlet, steam (vapor) outlet pass through steam suppling tube road (2) Steam-water separator (4), the steam (vapor) outlet being connected with refrigeration plant heat exchanger (1) steam inlet pass through jet chimney (5) and carbonated drink The connected solar steam equipment (6) in separator (4) steam inlet, delivery port pass through the first intake tunnel (7) and steam boiler (3) water softener (8) and form multiple steam branch pipes to needing steaming plant on steam suppling tube road (2) that water inlet is connected The gas-distributing cylinder (9) being supplied respectively to；First intake tunnel (7) is provided with the first water pump (31) and the first magnetic valve (51)；The jet chimney (5) is provided with second solenoid valve (52)；Water softener (8) delivery port passes through the second intake tunnel (10) it is connected with solar steam equipment (6) water inlet, second intake tunnel (10) is provided with the second water pump (32) and the Three magnetic valves (53)；Steam-water separator (4) delivery port is entered by the 3rd intake tunnel (11) with solar steam equipment (6) The mouth of a river is connected, and the 3rd intake tunnel (11) is provided with the 3rd water pump (33) and the 4th magnetic valve (54)；The steam-water separation Device (4) delivery port is connected by the 4th intake tunnel (12) with steam boiler (3) water inlet, on the 4th intake tunnel (12) Provided with the 4th water pump (34) and the 5th magnetic valve (55)；Solar steam equipment (6) delivery port passes through the 5th intake tunnel (13) it is connected with steam boiler (3) water inlet, the 5th intake tunnel (13) is provided with the 5th water pump (35) and the 6th electromagnetism Valve (56)；Solar steam equipment (6) delivery port is connected by the 6th intake tunnel (14) with water softener (8) water inlet, 6th intake tunnel (14) is provided with the 6th water pump (36) and the 7th magnetic valve (57)；The refrigeration plant heat exchanger (1) Condensation-water drain be connected by the 7th intake tunnel (26) with water softener (8) water inlet, on the 7th intake tunnel (26) Provided with the 9th water pump (39) and the 14th magnetic valve (514).
2. vapour system according to claim 1, it is characterised in that：Water softener (8) water inlet is connected with and water source Connected water inlet feed channel (15)；The water inlet feed channel (15) is provided with the 7th water pump (37) and the tenth magnetic valve (510)。
3. vapour system according to claim 2, it is characterised in that：It includes delivery port and entered with water inlet feed channel (15) The cycle heat exchange component that the mouth of a river is connected and water inlet is connected with water source；The cycle heat exchange component includes delivery port and fed with water inlet Passage (15) water inlet is connected and water inlet needs steam by coming cyclic water tank (17), collection that aquaporin (16) is connected with water source Condensed water collecting pond (18), the water inlet of the steam condensate (SC) of equipment are followed by first circulation passage (19) and cyclic water tank (17) The circulation heat exchanger that ring outlet is connected and delivery port is connected by second circulation passage (20) with cyclic water tank (17) circulation import (21)；The first circulation passage (19) is provided with the 8th water pump (38) and the 11st magnetic valve (511)；The second circulation is led to Road (20) is provided with the 12nd magnetic valve (512)；It is described come aquaporin (16) be provided with the 13rd magnetic valve (513).
4. vapour system according to claim 1, it is characterised in that：It also includes steam inlet and the steaming of gas-distributing cylinder (9) The connected steam curing kiln (22) of vapour branch pipe.
5. vapour system according to claim 1, it is characterised in that：Each intake tunnel provided with water pump is provided with unidirectional Valve (23).
6. the control system of the vapour system according to claim 1-5 any one, it is characterised in that：It includes Hardware Subdivision Divide and software section, the hardware components are connected including microprocessor, the man-machine interface being connected with microprocessor, with microprocessor Optical sensor (24), be connected with microprocessor pressure sensor (25), be connected with microprocessor multiple temperature sensors, Multiple level sensors for being connected with microprocessor, the relay interface being connected with microprocessor and distinguish with relay interface Connected multiple relays.
7. the control system of vapour system according to claim 6, it is characterised in that：The relay includes and the first water The first connected relay of pump (31) and the first magnetic valve (51), the second relay being connected with second solenoid valve (52) and the The 3rd connected relay of two water pumps (32) and the 3rd magnetic valve (53), it is connected with the 3rd water pump (33) and the 4th magnetic valve (54) The 4th relay, be connected with the 4th water pump (34) and the 5th magnetic valve (55) the 5th relay, with the 5th water pump (35) and The 6th connected relay of 6th magnetic valve (56), the 7th relay being connected with the 6th water pump (36) and the 7th magnetic valve (57) Device, the 8th relay being connected with steam boiler (3) and be connected with the 9th water pump (39) and the 14th magnetic valve (514) 13 relays；The optical sensor (24) is in solar steam equipment (6)；The pressure sensor (25), which is located at, divides vapour In cylinder (9)；The temperature sensor includes the first temperature sensor (61) of monitoring water temperature in steam-water separator (4), set In the second temperature sensor (62) of monitoring water temperature in solar steam equipment (6) and the 3rd temperature in water softener (8) Spend sensor (63)；The level sensor includes the first level sensor (71) in the steam-water separator (4), located at soft The second level sensor (72) in hydrophone (8), the 3rd level sensor (73) in solar steam equipment (6), set In the 4th level sensor (74) in steam boiler (3) and the 5th level sensor in refrigeration plant heat exchanger (1) Device (75).
8. the control system of vapour system according to claim 7, it is characterised in that：The software section is microprocessor The sunlight intensity value that is monitored according to optical sensor, pressure sensor, temperature sensor and level sensor, steam pressure Value, water temperature value and water value compared with the sunlight intensity value, vapour pressure force value, water temperature value and water value that set, according to Certain control program, control water pump, the break-make of magnetic valve and the start and stop of steam boiler.
9. the control system of vapour system according to claim 8, it is characterised in that：The control program, it is specific as follows：

The 5th water level lower limit of setting is not in the water level value that the 5th level sensor (75) monitors and the second water level passes When the water level value that sensor (72) monitors is in the second water level lower limit of setting, the 13rd relay is connected until the 5th water level The 5th water level lower limit that the water level value that sensor (75) monitors is down to setting just disconnects,

When the water level value that the 5th level sensor (75) monitors reaches the 5th water level higher limit of setting, the 13rd relay Connect until the 5th water level lower limit that the water level value that the 5th level sensor (75) monitors is down to setting just disconnects；

A, when the sunlight intensity value that optical sensor (24) monitors reaches the heat-flash power sunlight intensity value of setting and pressure passes When the vapour pressure force value that sensor (25) monitors reaches the vapour pressure force value of setting,

Steam is supplied by solar steam equipment (6), the second relay is connected,

Reach the first water level higher limit and the 3rd level sensor of setting in the water level value that the first level sensor (71) monitors When the water level value that device (73) monitors is not up to the 3rd water level higher limit set, the 4th relay is connected until the first water level passes The first water level lower limit that the water level value that sensor (71) monitors is down to setting just disconnects,

The first water level lower limit of setting is not in the water level value that the first level sensor (71) monitors and the 3rd water level passes When the water level value that sensor (73) monitors is in three water level lower limit of setting, the 4th relay is connected until the first water level passes The first water level lower limit that the water level value that sensor (71) monitors is down to setting just disconnects,

The first water level lower limit and the 3rd level sensor of setting are in the water level value that the first level sensor (71) monitors When the water level value that device (73) monitors is in three water level lower limit of setting, the 3rd relay is connected until the 3rd level sensor The 3rd water level higher limit that the water level value that device (73) monitors reaches setting just disconnects；

B, when the sunlight intensity value that optical sensor (24) monitors is in the common heating power sunlight intensity interval value of setting,

1. in vapour pressure force value of the vapour pressure force value that pressure sensor (25) monitors less than setting, set by solar steam Standby (6) and steam boiler (3) supply steam, the second relay and the 8th relay are connected,

Passed in the water temperature value that the first temperature sensor (61) monitors not less than the first water temperature lower limit of setting and the first water level When the water level value that sensor (71) monitors reaches the first water level higher limit of setting, the 4th relay is connected until the first water level passes The first water level lower limit that the water level value that sensor (71) monitors is down to setting just disconnects,

In first water temperature lower limit and first level sensor of the water temperature value that the first temperature sensor (61) monitors less than setting When the water level value that device (71) monitors reaches the first water level higher limit of setting, the 5th relay is connected until the first level sensor The first water level lower limit that the water level value that device (71) monitors is down to setting just disconnects,

The first water level lower limit and the 3rd level sensor of setting are in the water level value that the first level sensor (71) monitors When the water level value that device (73) monitors is in three water level lower limit of setting, the 3rd relay is connected until the 3rd level sensor The 3rd water level higher limit that the water level value that device (73) monitors reaches setting just disconnects,

The first water level lower limit and the 4th level sensor of setting are in the water level value that the first level sensor (71) monitors When the water level value that device (74) monitors is in four water level lower limit of setting, the first relay is connected until the 4th level sensor The 4th water level higher limit that the water level value that device (74) monitors reaches setting just disconnects,

2. when the vapour pressure force value that pressure sensor (25) monitors reaches the vapour pressure force value of setting, set by solar steam Standby (6) supply steam, the second relay remain up, and the 8th relay disconnects；

C, when the sunlight intensity value that optical sensor (24) monitors is in the weak heating power sunlight intensity value section of setting,

Steam is supplied by steam boiler (3), the 8th relay is connected,

Passed in the water temperature value that second temperature sensor (62) monitors not less than the second water temperature higher limit of setting and the 4th water level When the water level value that sensor (74) monitors is not up to the 4th water level higher limit set, the 6th relay is connected until the 4th water level The water level value that sensor (74) monitors reaches the 4th water level higher limit of setting,

In second water temperature higher limit and second level sensor of the water temperature value that second temperature sensor (62) monitors less than setting When the water level value that device (72) monitors is not up to the second water level higher limit set, the 7th relay is connected until the 4th water level passes The water level value that sensor (74) monitors reaches the 4th water level higher limit of setting,

The 3rd water level lower limit and the 4th level sensor of setting are in the water level value that the 3rd level sensor (73) monitors When the water level value that device (74) monitors is in four water level lower limit of setting, the first relay is connected until the 4th level sensor The 4th water level higher limit that the water level value that device (74) monitors reaches setting just disconnects,

When the water level value that the 3rd level sensor (73) monitors is in three water level lower limit of setting, the 3rd relay connects The logical water level value monitored up to the 3rd level sensor (73) reaches the 3rd water level higher limit of setting；

D, when the sunlight intensity value that optical sensor (24) monitors be in setting without heating power sunlight intensity value section when,

Steam is supplied by steam boiler (3), the 8th relay is connected,

When the water level value that the 4th level sensor (74) monitors is in four water level lower limit of setting, the first relay connects The 4th water level higher limit that the logical water level value monitored up to the 4th level sensor (74) reaches setting just disconnects.