CN205261518U - Steaming system - Google Patents

Abstract

The utility model relates to a steaming system, it includes the refrigeration plant heat exchanger, steam outlet passes through the steam boiler that the steam supply pipeline links to each other with refrigeration plant heat exchanger steam inlet, steam outlet passes through the catch water that the steam supply pipeline links to each other with refrigeration plant heat exchanger steam inlet, steam outlet passes through the solar energy steaming plant that the steam conduit links to each other with catch water steam inlet, water softener that the delivery port links to each other through an inhalant canal and steam boiler water inlet and locate the steam supply pipeline on form the gas -distributing cylinder that a plurality of branch steam pipe supplied with respectively to the need steaming plant. The purpose of the utility model is to provide an one of provide a steaming system, guarantee steam in time, in succession, under the stable prerequisite of supplying with, it is realized efficient energy saving and consumption reduction, is reduced discharging and enlarges.

Description

Vapour system

Technical field

The utility model relates to a kind of vapour system.

Background technology

At present, enterprise adopts steaming plant so that steam to be endlessly provided, to adapt to the steam demand of enterprise conventionally. Therefore, ensure steam in time, continuously, under the prerequisite of stable supplying, realize efficiently energy-saving and cost-reducing, reduce discharging synergy, be the important subject of vapour system.

Summary of the invention

One of the purpose of this utility model is to provide a kind of vapour system, ensure steam in time, continuously, under the prerequisite of stable supplying, its realize efficiently energy-saving and cost-reducing, reduce discharging synergy.

The purpose of this utility model is achieved through the following technical solutions:

A kind of vapour system, it comprises refrigeration plant heat exchanger, the steam boiler that steam (vapor) outlet is connected with refrigeration plant heat exchanger steam inlet by steam supply pipeline, the steam-water separator that steam (vapor) outlet is connected with refrigeration plant heat exchanger steam inlet by steam supply pipeline, the solar steam equipment that steam (vapor) outlet is connected with steam-water separator steam inlet by jet chimney, the water softener that delivery port is connected with steam boiler water inlet by the first intake tunnel and be located on steam supply pipeline and form multiple steam branch pipes to the gas-distributing cylinder that needs steaming plant to supply with respectively, described the first intake tunnel is provided with the first water pump and the first magnetic valve, described jet chimney is provided with the second magnetic valve, described water softener delivery port is connected with solar steam equipment water inlet by the second intake tunnel, and described the second intake tunnel is provided with the second water pump and the 3rd magnetic valve, described steam-water separator delivery port is connected with solar steam equipment water inlet by the 3rd intake tunnel, and described the 3rd intake tunnel is provided with the 3rd water pump and the 4th magnetic valve, described steam-water separator delivery port is connected with steam boiler water inlet by the 4th intake tunnel, and described the 4th intake tunnel is provided with the 4th water pump and the 5th magnetic valve, described solar steam equipment delivery port is connected with steam boiler water inlet by the 5th intake tunnel, and described the 5th intake tunnel is provided with the 5th water pump and the 6th magnetic valve, described solar steam equipment delivery port is connected with water softener water inlet by the 6th intake tunnel, and described the 6th intake tunnel is provided with the 6th water pump and the 7th magnetic valve, the condensation-water drain of described refrigeration plant heat exchanger is connected with water softener water inlet by the 7th intake tunnel, and described the 7th intake tunnel is provided with the 9th water pump and the 14 magnetic valve.

Compared to prior art, the utility model has the advantage of:

(1) this vapour system is by solar steam equipment and the integrated use of steam boiler, when sunny, the work of solar steam equipment provides needs the required steam of steaming plant, when sunlight while not being very sufficient solar steam equipment and steam boiler work as needing steam that steam is provided simultaneously, in the time that sunlight is inadequate, solar steam equipment produces high-temperature-hot-water supply steam boiler, provide steam by steam boiler, greatly reduce energy consumption, environmental protection;

(2) hierarchy of control of this vapour system is passed through optical sensor, pressure sensor, thereby temperature sensor and level sensor are monitored and are made interlock control equipment operation, equipment can be worked under various modes, make full use of solar energy, and the waste heat hot water supply that equipment is produced is to solar steam equipment or steam boiler, the higher production steam of the temperature required time of waste heat hot water is shorter, required luminous energy and natural gas are fewer, thereby greatly improve equipment operating efficiency and also greatly reduced equipment energy consumption, realize the environmental protection of enterprise, energy-saving and emission-reduction, the multiple indexes reducing costs.

Brief description of the drawings

Fig. 1 is the structural representation of a kind of embodiment of the utility model.

Label declaration: 1 refrigeration plant heat exchanger, 2 steam supply pipelines, 3 steam boilers, 4 steam-water separators, 5 jet chimneys, 6 solar steam equipment, 7 first intake tunnels, 8 water softeners, 9 gas-distributing cylinders, 10 second intake tunnels, 11 the 3rd intake tunnels, 12 the 4th intake tunnels, 13 the 5th intake tunnels, 14 the 6th intake tunnels, 15 water inlet feed channels, 16 carry out aquaporin, 17 cyclic water tanks, 18 condensed water collecting ponds, 19 first circulation canals, 20 second circulation canals, 21 circulation heat exchangers, 22 steam curing kilns, 23 check valves, 24 optical sensors, 25 pressure sensors, 26 the 7th intake tunnels, 31, the first water pump, 32 second water pumps, 33 the 3rd water pumps, 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 valves, 52 second magnetic 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 11 magnetic valves, 512 the 12 magnetic valves, 513 the 13 magnetic valves, 514 the 14 magnetic valves, 61 first temperature sensors, 62 second temperature sensors, 63 three-temperature sensors, 65 the 5th temperature sensors, 66 the 6th temperature sensors, 67 the 7th temperature sensors, 71 first level sensors, 72 second level sensors, 73 the 3rd level sensors, 74 the 4th level sensors, 75 the 5th level sensors.

Detailed description of the invention

Below in conjunction with Figure of description and embodiment, the utility model content is elaborated:

Be illustrated in figure 1 the embodiment schematic diagram of a kind of vapour system that the utility model provides.

A kind of vapour system, it comprises refrigeration plant heat exchanger 1, the steam boiler 3 that steam (vapor) outlet is connected with refrigeration plant heat exchanger 1 steam inlet by steam supply pipeline 2, the steam-water separator 4 that steam (vapor) outlet is connected with refrigeration plant heat exchanger 1 steam inlet by steam supply pipeline 2, the solar steam equipment 6 that steam (vapor) outlet is connected with steam-water separator 4 steam inlets by jet chimney 5, the water softener 8 that delivery port is connected with steam boiler 3 water inlets by the first intake tunnel 7 and be located at and form the gas-distributing cylinder 9 that multiple steam branch pipes are supplied with respectively needing steaming plant on steam supply pipeline 2, described the first intake tunnel 7 is provided with the first water pump 31 and the first magnetic valve 51, described jet chimney 5 is provided with the second magnetic valve 52, described water softener 8 delivery ports are connected with solar steam equipment 6 water inlets by the second intake tunnel 10, and described the second intake tunnel 10 is provided with the second water pump 32 and the 3rd magnetic valve 53, described steam-water separator 4 delivery ports are connected with solar steam equipment 6 water inlets by the 3rd intake tunnel 11, and described the 3rd intake tunnel 11 is provided with the 3rd water pump 33 and the 4th magnetic valve 54, described steam-water separator 4 delivery ports are connected with steam boiler 3 water inlets by the 4th intake tunnel 12, and described the 4th intake tunnel 12 is provided with the 4th water pump 34 and the 5th magnetic valve 55, described solar steam equipment 6 delivery ports are connected with steam boiler 3 water inlets by the 5th intake tunnel 13, and described the 5th intake tunnel 13 is provided with the 5th water pump 35 and the 6th magnetic valve 56, described solar steam equipment 6 delivery ports are connected with water softener 8 water inlets by the 6th intake tunnel 14, and described the 6th intake tunnel 14 is provided with the 6th water pump 36 and the 7th magnetic valve 57, the condensation-water drain of described refrigeration plant heat exchanger 1 is connected with water softener 8 water inlets by the 7th intake tunnel 26, and described the 7th intake tunnel 26 is provided with the 9th water pump the 39 and the 14 magnetic valve 514. the preferred LiBr-Air-conditioner equipment of described refrigeration plant. the correspondences such as the steam (vapor) outlet of the steam inlet of refrigeration plant heat exchanger 1, the steam (vapor) outlet of steam boiler 3, steam-water separator 4 are provided with the turnover according to steam need to control the magnetic valve that gateway opens and closes.

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

It comprises delivery port and the cycle heat exchange assembly that water inlet feed channel 15 water inlets are connected and water inlet is connected with water source; Described cycle heat exchange assembly comprise that delivery port is connected with water inlet feed channel 15 water inlets and water inlet by carry out aquaporin 16 cyclic water tank 17 being connected with water source, the condensed water collecting pond 18 of collecting the steam condensate (SC) that needs steaming plant, water inlet is connected with cyclic water tank 17 circulation imports by the first circulation canal 19 and delivery port passes through the circulation heat exchanger 21 that the second circulation canal 20 is connected with cyclic water tank 17 loop exits; Described the first circulation canal 19 is provided with the 8th water pump the 38 and the 11 magnetic valve 511; Described the second circulation canal 20 is provided with the 12 magnetic valve 512; Described come aquaporin 16 be provided with the 13 magnetic valve 513.

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

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

A kind of hierarchy of control of vapour system, it comprises hardware components and software section, and described hardware components comprises microprocessor, the man-machine interface being connected with microprocessor, the optical sensor 24 being connected with microprocessor, the pressure sensor 25 being connected with microprocessor, the multiple temperature sensors that are connected with microprocessor, the multiple level sensors that are connected with microprocessor, the relay interface being connected with microprocessor and multiple relays of being connected respectively with relay interface.

Described relay comprises the first relay being connected with the first magnetic valve 51 with the first water pump 31, the second relay being connected with the second magnetic valve 52, the 3rd relay being connected with the 3rd magnetic valve 53 with the second water pump 32, the 4th relay being connected with the 4th magnetic valve 54 with the 3rd water pump 33, the 5th relay being connected with the 5th magnetic valve 55 with the 4th water pump 34, the 6th relay being connected with the 6th magnetic valve 56 with the 5th water pump 35, the 7th relay being connected with the 7th magnetic valve 57 with the 6th water pump 36, the 8th relay being connected with steam boiler 3 and the 13 relay being connected with the 14 magnetic valve (514) with the 9th water pump (39), described optical sensor 24 is located on solar steam equipment 6, described pressure sensor 25 is located in gas-distributing cylinder 9, described temperature sensor comprise be located at the interior monitoring water temperature of steam-water separator 4 the first temperature sensor 61, be located at the second temperature sensor 62 of the interior monitoring water temperature of solar steam equipment 6 and be located at the three-temperature sensor 63 in water softener 8, described level sensor comprises the first level sensor 71 of being located in steam-water separator 4, be located at the second level sensor 72 in water softener 8, be located at the 3rd level sensor 73 in solar steam equipment 6 and be located at the 4th level sensor 74 in steam boiler 3.

Described temperature sensor also comprise be located at the interior monitoring kiln temperature of steam curing kiln 22 the 5th temperature sensor 65, be located at the 6th temperature sensor 66 of the interior monitoring water temperature of condensed water collecting pond 18 and be located at the 7th temperature sensor 67 of the interior monitoring water temperature of cyclic water tank 17.

Described relay also comprises the 9th relay being connected with the tenth magnetic valve 510 with the 7th water pump 37, the tenth relay, the 11 relay being connected with the 12 magnetic valve 512 and the 12 relay being connected with the 13 magnetic valve 513 that are connected with the 11 magnetic valve 511 with the 8th water pump 38.

Described software section is that sunlight intensity value, steam pressure value, water temperature value and the water yield value that microprocessor monitors according to optical sensor, pressure sensor, temperature sensor and level sensor compares with sunlight intensity value, steam pressure value, water temperature value and the water yield value of corresponding setting, according to certain control program, control water pump, the break-make of magnetic valve and the start and stop of steam boiler.

Described control program, specific as follows:

The water level value monitoring at the 5th level sensor 75 is not when the second water level lower limit in setting of the 5th water level lower limit in setting and the water level value that monitors of the second level sensor 72, the 13 relay connects until the water level value that the 5th level sensor 75 monitors is down to the 5th water level lower limit of setting just disconnects

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

When the sunlight intensity value that a monitors when optical sensor 24 reaches the heat-flash power sunlight intensity value of setting and steam pressure value that pressure sensor 25 monitors and reaches the steam pressure value of setting,

Supply with steam by solar steam equipment 6, second relay connect, open jet chimney 5, the steam that solar steam equipment 6 generates through steam-water separator 4 enter gas-distributing cylinder 9 with respectively to need steaming plant supply with steam;

When the water level value monitoring at the first level sensor 71 reaches the first water level higher limit of setting and water level value that the 3rd level sensor 73 monitors and do not reach the 3rd water level higher limit of setting, the 4th relay is connected until the water level value that the first level sensor 71 monitors is down to the first water level lower limit of setting just disconnects;

The water level value monitoring at the first level sensor 71 is when the 3rd water level lower limit in setting of the first water level lower limit in setting and the water level value that monitors of the 3rd level sensor 73, and the 4th relay is connected until the water level value that the first level sensor 71 monitors is down to the first water level lower limit of setting just disconnects;

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

In the time that solar steam equipment 6 can meet steam supply demand, too can steaming plant 6 individual operations, preferentially be supplied to solar steam equipment 6 with the hot water that steam-water separator 4 is separated, make solar steam equipment 6 need the initial temperature of the heat medium water of heating greatly to increase, make full use of waste heat, improve the operating efficiency of solar steam equipment 6.

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

1. the steam pressure value monitoring at pressure sensor 25 lower than set steam pressure value time, supply with steam by solar steam equipment 6 and steam boiler 3, the second breaker and the 8th closing of power circuit breaker, keep the unlatching of jet chimney 5, and start steam boiler 3 and work, with the common supply steam of solar steam equipment 6, ensure that steam supply is timely, stable;

When the water temperature value monitoring at the first temperature sensor 61 is not less than the first water temperature lower limit of setting and water level value that the first level sensor 71 monitors and reaches the first water level higher limit of setting, the 4th closing of power circuit breaker is until the water level value that the first level sensor 71 monitors is down to the first water level lower limit of setting just disconnects;

When the water temperature value monitoring at the first temperature sensor 61 reaches the first water level higher limit of setting lower than the first water temperature lower limit of setting and the water level value that monitors of the first level sensor 71, the 5th closing of power circuit breaker is until the water level value that the first level sensor 71 monitors is down to the first water level lower limit of setting just disconnects;

When the 3rd water level lower limit in setting of the first water level lower limit of the water level value monitoring at the first level sensor 71 in setting and the water level value that monitors of the 3rd level sensor 73, the 3rd closing of power circuit breaker is until the water level value that the 3rd level sensor 73 monitors reaches the 3rd water level higher limit of setting just disconnects;

When the 4th water level lower limit in setting of the first water level lower limit of the water level value monitoring at the first level sensor 71 in setting and the water level value that monitors of the 4th level sensor 74, the first closing of power circuit breaker is until the water level value that the 4th level sensor 74 monitors reaches the 4th water level higher limit of setting just disconnects;

The hot water that steam-water separator 4 is separated, while being not less than 50 DEG C, is directly supplied to solar steam equipment 6 as water temperature, as water temperature during lower than 50 DEG C, be supplied to steam boiler 3, avoid the temperature recurrent fluctuations of solar steam equipment 6, reduce the live load of steam boiler 3.

2. when the steam pressure value monitoring at pressure sensor 25 reaches the steam pressure value of setting, supply with steam by solar steam equipment 6, the second breaker keeps connecting, and the 8th breaker disconnects, ensure the unlatching of jet chimney 5, steam off boiler 3 reduces consumption in time;

When the water level value monitoring at the first level sensor (71) reaches the first water level higher limit of setting and water level value that the 3rd level sensor (73) monitors and does not reach the 3rd water level higher limit of setting, the 4th relay connects until the water level value that the first level sensor (71) monitors is down to the first water level lower limit of setting just disconnects

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

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

When the weak heating power sunlight intensity interval value of the sunlight intensity value that c monitors when optical sensor 24 in setting,

Supply with steam by steam boiler 3, the 8th closing of power circuit breaker,

When the water temperature value monitoring at the second temperature sensor 62 is not less than the second water temperature higher limit of setting and water level value that the 4th level sensor 74 monitors and does not reach the 4th water level higher limit of setting, the 6th closing of power circuit breaker is until the water level value that the 4th level sensor 74 monitors reaches the 4th water level higher limit of setting

When the water level value that the water temperature value monitoring at the second temperature sensor 62 monitors lower than the second water temperature higher limit and second level sensor 72 of setting does not reach the second water level higher limit of setting, the 7th closing of power circuit breaker is until the water level value that the 4th level sensor 74 monitors reaches the 4th water level higher limit of setting

When the 4th water level lower limit in setting of the three water level lower limit of the water level value monitoring at the 3rd level sensor 73 in setting and the water level value that monitors of the 4th level sensor 74, the first closing of power circuit breaker is until the water level value that the 4th level sensor 74 monitors reaches the 4th water level higher limit of setting just disconnects

The water level value monitoring at the 3rd level sensor 73 in set the 3rd water level lower limit time, the 3rd closing of power circuit breaker is until the water level value that the 3rd level sensor 73 monitors reaches the 3rd water level higher limit of setting;

Lack enough solar irradiations when forming a large amount of steam at solar steam equipment 6, using solar steam equipment 6 as the thermal source that heating water is provided, and the hot water of taking water temperature to be not less than 90 DEG C is directly supplied steam boiler 3, make the efficiency of heating surface of steam boiler 3 keep stable, reduce the consumption of steam boiler 3.

The sunlight intensity value that d monitors when optical sensor 24 in set without heating power sunlight intensity interval value time,

Supply with steam by steam boiler 3, the 8th closing of power circuit breaker,

The water level value monitoring at the 4th level sensor 74 lower than set the 4th water level lower limit time, the first closing of power circuit breaker is until the water level value that the 4th level sensor 74 monitors reaches the 4th water level higher limit of setting just disconnects.

When temperature value that the temperature value monitoring when the 6th temperature sensor 66 monitors higher than the 7th temperature sensor 67, the tenth relay and the 11 relay are connected until the temperature value that the temperature value that the 6th temperature sensor 66 monitors or not higher than the 7th temperature sensor 67, the water that is cyclic water tank 17 carries out circulating-heating through circulation heat exchanger 21, utilize the heat energy of the hot water of steam-condensation to carry out preheating to the water of supplying with water softener 8, further improve utilization rate of waste heat.

When the second water level lower limit of the water level value monitoring when the second level sensor 72 in setting, the 9th breaker and the 12 closing of power circuit breaker are 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, aspirate to supplement, or it is supplementary to utilize running water to send into can utilize the 7th pumping for water pump time in the negative pressure of cyclic water tank 17 interior formation from water source.

Claims (5)

1. a vapour system, is characterized in that: it comprises that refrigeration plant heat exchanger (1), steam (vapor) outlet lead toCross steam boiler (3) that steam supply pipeline (2) is connected with refrigeration plant heat exchanger (1) steam inlet,The carbonated drink that steam (vapor) outlet is connected with refrigeration plant heat exchanger (1) steam inlet by steam supply pipeline (2)Separator (4), steam (vapor) outlet are connected with steam-water separator (4) steam inlet by jet chimney (5)Solar steam equipment (6), delivery port are by the first intake tunnel (7) and steam boiler (3) water inletConnected water softener (8) and be located at that steam supply pipeline (2) is upper forms multiple steam branch pipes to needing steamThe gas-distributing cylinder (9) that equipment is supplied with respectively; Described the first intake tunnel (7) is provided with the first water pump (31)With the first magnetic valve (51); Described jet chimney (5) is provided with the second magnetic valve (52); Described water softener(8) delivery port is connected with solar steam equipment (6) water inlet by the second intake tunnel (10), instituteState the second intake tunnel (10) and be provided with the second water pump (32) and the 3rd magnetic valve (53); Described carbonated drink is dividedBe connected with solar steam equipment (6) water inlet by the 3rd intake tunnel (11) from device (4) delivery port,Described the 3rd intake tunnel (11) is provided with the 3rd water pump (33) and the 4th magnetic valve (54); Described carbonated drinkSeparator (4) delivery port is connected with steam boiler (3) water inlet by the 4th intake tunnel (12), instituteState the 4th intake tunnel (12) and be provided with the 4th water pump (34) and the 5th magnetic valve (55); Described solar energySteaming plant (6) delivery port is connected with steam boiler (3) water inlet by the 5th intake tunnel (13),Described the 5th intake tunnel (13) is provided with the 5th water pump (35) and the 6th magnetic valve (56); The described sunCan be connected with water softener (8) water inlet by the 6th intake tunnel (14) by steaming plant (6) delivery port,Described the 6th intake tunnel (14) is provided with the 6th water pump (36) and the 7th magnetic valve (57); Described refrigerationThe condensation-water drain of equipment heat exchanger (1) is by the 7th intake tunnel (26) and water softener (8) water inletBe connected, described the 7th intake tunnel (26) is provided with the 9th water pump (39) and the 14 magnetic valve (514).

2. vapour system according to claim 1, is characterized in that: described water softener (8) water inletBe connected with the water inlet feed channel (15) being connected with water source; Described water inlet feed channel (15) is provided with the 7thWater pump (37) and the tenth magnetic valve (510).

3. vapour system according to claim 2, is characterized in that: it comprises delivery port and water inlet benefitGive the cycle heat exchange assembly that passage (15) water inlet is connected and water inlet is connected with water source; Described cycle heat exchangeAssembly comprise that delivery port is connected with water inlet feed channel (15) water inlet and water inlet by carrying out aquaporin (16)The cyclic water tank (17) being connected with water source, the condensed water collecting pond of collecting the steam condensate (SC) that needs steaming plant(18), water inlet is connected and water outlet with cyclic water tank (17) loop exit by the first circulation canal (19)The circulation heat exchanger (21) that mouth is connected with cyclic water tank (17) circulation import by the second circulation canal (20);Described the first circulation canal (19) is provided with the 8th water pump (38) and the 11 magnetic valve (511); DescribedThe second circulation canal (20) is provided with the 12 magnetic valve (512); Described come aquaporin (16) be provided withThe 13 magnetic valve (513).

4. vapour system according to claim 1, is characterized in that: it also comprises steam inlet and dividesThe connected steam curing kiln (22) of steam branch pipe of cylinder (9).

5. vapour system according to claim 1, is characterized in that: each water inlet that is provided with water pump is logicalRoad is provided with check valve (23).