CN205174860U - Solar industry heat -conducting oil integrated system - Google Patents

Abstract

The utility model relates to a solar industry heat -conducting oil integrated system has solar collector, heat conduction oil tank and conduction oil and uses the unit, last oil inlet and the oil -out of being equipped with of heat conduction oil tank, be equipped with oil inlet and oil -out on the applied unit of conduction oil, heat conduction oil tank's oil -out is connected through oil pipe with solar collector's inlet and is communicated with each other, the oil inlet that the unit was used to solar collector's liquid outlet and conduction oil is connected through oil pipe and is communicated with each other, the oil -out that the unit was used to the conduction oil is connected through oil pipe with heat conduction oil tank's oil inlet and is communicated with each other. The utility model discloses utilize solar energy with heat -conducting oil to required industry application temperature, when satisfying the industry application, also accomplished energy -concerving and environment -protectively, saved the cost for the enterprise simultaneously.

Description

Solar industry heat-conducting oil heating integrated system

Technical field

The utility model relates to conduction oil industrial applicability field, particularly a kind of solar industry heat-conducting oil heating integrated system.

Background technology

Conduction oil, also known as organic heat carrier or thermal medium oil, applies to the existing history for many years of industry as intermediate heat medium.Conduction oil has the performance of heat resistanceheat resistant cracking and chemical oxidation, penetrates excellent in efficiency, rapid heat dissipation, Heat stability is good.Conduction oil has following feature as industry oil heat transfer medium: under the condition of almost normal pressure, can obtain very high operating temperature.Namely greatly can reduce operating pressure and the safety requirements of high-temperature heating system, improve the reliability of system and equipment; The technological requirement of different temperatures heating, cooling can be met in wider temperature range, or realize high-temperature heating and subcooled technological requirement with same conduction oil simultaneously in same system.Therefore conduction oil is widely used in industrial circles such as printing and dyeing, chemical fibre, truth, chemical industry.Carrier as conduction oil industrial applicability is common is heat conducting oil boiler.Traditional heat conducting oil boiler is using coal, heavy oil, light oil, fuel gas or other combustible materials as fuel, conduction oil is as heat carrier, utilize oil circulating pump to force liquid phase circulation, after heat energy is flowed to heating equipment, then return the single flow industrial furnace reheated.

Conventional thermal conductive thermo oil boiler consumes the flammable resources such as a large amount of coal, oil, gas due to it, for enterprise adds production cost.Meanwhile, it produces a large amount of toxic emissions, causes serious atmosphere pollution.

Utility model content

The purpose of this utility model is to provide a kind of solar industry heat-conducting oil heating integrated system, and this system synthesis utilizes the modes such as solar energy, flue gas of power plants, combustion gas and electricity to carry out heat industrial conduction oil, economic environmental protection.

The technical scheme realizing the utility model object is: the utility model has solar thermal collector, heat conduction oil tank and conduction oil applying unit; Described solar thermal collector comprises multiple vacuum tube, header and thermal-collecting tube group; Described thermal-collecting tube group is arranged in header, and vacuum tube is disposed side by side on header; Described thermal-collecting tube group comprises feed tube group and drain pipe group; Described feed tube group comprises a feed liquor supervisor and the many liquid feeding sub-tubes be connected to side by side on feed liquor supervisor; Described drain pipe group comprises a fluid supervisor and the many fluids be connected to side by side on fluid supervisor are in charge of; One end of described feed liquor supervisor is closed, and the other end is inlet; One end and the feed liquor of described liquid feeding sub-tube are responsible for connection and are connected, other end opening; One end of described fluid supervisor is closed, and the other end is liquid outlet; One end that described fluid is in charge of is responsible for connection with fluid and is connected, and the other end is closed; Described fluid supervisor is provided with the jack corresponding with liquid feeding sub-tube, and liquid feeding sub-tube inserts fluid through jack and is in charge of interior and formed in the junction of liquid feeding sub-tube and jack and seal; A described fluid is inserted with a liquid feeding sub-tube in being in charge of, and is provided with a fluid and is in charge of in a vacuum tube; The inlet of described feed liquor supervisor and the liquid outlet of fluid supervisor stretch out header; The inlet of described feed liquor supervisor is the inlet of solar thermal collector; The liquid outlet of described fluid supervisor is the liquid outlet of solar thermal collector; Described heat conduction oil tank is provided with oil-in and oil-out; Described conduction oil applying unit is provided with oil-in and oil-out; The oil-out of described heat conduction oil tank and the inlet of solar thermal collector are connected by oil pipe and communicate; The liquid outlet of described solar thermal collector and the oil-in of conduction oil applying unit are connected by oil pipe and communicate; The oil-out of described conduction oil applying unit and the oil-in of heat conduction oil tank are connected by oil pipe and communicate.

Meanwhile, also controller is comprised; The oil pipe of the liquid outlet of described connection solar thermal collector and the oil-in of conduction oil applying unit is provided with instant heater; The oil-in place of described conduction oil applying unit is provided with the first temperature sensor; Described first temperature sensor and instant heater are all electrically connected with controller.

Meanwhile, tail gas applying unit is also comprised; Tail gas coil pipe is provided with in described heat conduction oil tank; The tank body of described heat conduction oil tank comprises outer wall and inwall, is provided with insulation material between outer wall and inwall; Import and the outlet of described tail gas coil pipe are separately positioned on the outer wall of heat conduction oil tank; The described import of tail gas coil pipe is connected with the escape pipe of high-temperature tail gas and communicates; The outlet of described tail gas coil pipe is connected with the air inlet of tail gas applying unit and communicates; The second temperature sensor is provided with in described heat conduction oil tank; Described second temperature sensor and controller are electrically connected.

Meanwhile, also gas-operated thermal bath facility is comprised; Described gas-operated thermal bath facility comprises burner, combustion chamber, heat-exchanging chamber, heat exchange coil and igniter; Described burner connects air inlet pipe, and air inlet pipe is provided with air inlet electromagnetic valve; Described burner is arranged in combustion chamber, and combustion chamber is connected with heat-exchanging chamber and communicates; Described heat exchange coil dish is located at the outside of heat-exchanging chamber; One end of described heat exchange coil is the liquid feeding end of gas-operated thermal bath facility, and the other end is the outlet end of gas-operated thermal bath facility; The oil-out of described heat conduction oil tank and the liquid feeding end of gas-operated thermal bath facility are connected by oil pipe and communicate; The outlet end of described gas-operated thermal bath facility and the inlet of solar thermal collector are connected by oil pipe and communicate; Described igniter and air inlet electromagnetic valve are all electrically connected with controller.

Meanwhile, also heater is comprised; Described heater comprises heat storage tank and electric heater; Described electric heater is arranged in heat storage tank, is provided with high-temperature heat accumulation material in heat storage tank; The casing of described heat storage tank comprises skin and internal layer, is provided with insulation material between skin and internal layer; Be provided with conduction oil coil pipe in described heat storage tank, conduction oil coil pipe is located in high-temperature heat accumulation material, and the oil-in of conduction oil coil pipe and oil-out are separately positioned on the skin of heat storage tank; The oil-in of described conduction oil coil pipe and the oil-out of heat conduction oil tank are connected by oil pipe and communicate; The oil-out of described conduction oil coil pipe and the oil-in of conduction oil applying unit are connected by oil pipe and communicate; The oil-in place of described conduction oil coil pipe is provided with the first magnetic valve; The inlet place of described solar thermal collector is provided with the second magnetic valve; Three-temperature sensor is provided with in described heat storage tank; Described first magnetic valve, the second magnetic valve and three-temperature sensor are all electrically connected with controller.

Above-mentioned high-temperature heat accumulation material at least comprises the wherein a kind of of metal, sandstone, brick clay, cement, slag, quartz, graphite powder and goose soft rock.

Above-mentioned heat storage tank is provided with the dog-house for loading high-temperature heat accumulation material, and dog-house is provided with capping; The bottom of described heat storage tank is funnel-form, and forms discharge port at lowest part; Described discharge port is provided with automatic valve.

Above-mentioned heat storage tank is erected on bracing frame.

The utility model has positive effect: (1) the utility model heats to adapt to commercial Application to conduction oil by solar thermal collector, energy-conserving and environment-protective; (2) in the utility model, the thermal-collecting tube group of solar thermal collector solves the problem that header fluid easily reveals, and improves result of use and the life-span of solar thermal collector; (3) the utility model can heat to meet industrial requirement to conduction oil when illumination condition is bad by controller and instant heater; (4) the utility model also utilizes high-temperature tail gas to heat the conduction oil in heat conduction oil tank, the waste heat of Appropriate application high-temperature tail gas, and capacity usage ratio is high; (5) gas-operated thermal bath facility in the utility model can heat conduction oil when not having high-temperature tail gas and substantial light is shone, to meet industrial requirement; (6) heater in the utility model utilizes high-temperature heat accumulation material to carry out energy storage in advance, and to meet the demand for heat of conduction oil, and this heater can meet separately the demand of conduction oil applying unit; (7) heat storage tank in the utility model, by dog-house, discharge port and automatic valve, substantially increases the degree of convenience that high temperature energy-accumulation material is filled up and changed.

Accompanying drawing explanation

In order to make content of the present utility model more easily be clearly understood, below according to specific embodiment also by reference to the accompanying drawings, the utility model is described in further detail, wherein

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of solar thermal collector in the utility model;

Fig. 3 is the structural representation of the thermal-collecting tube group of solar thermal collector in the utility model;

Fig. 4 is the structural representation of heat conduction oil tank in the utility model;

Fig. 5 is the structural representation of gas-operated thermal bath facility in the utility model;

Fig. 6 is the structural representation of heater in the utility model.

Detailed description of the invention

See Fig. 1 to Fig. 6, the utility model has solar thermal collector 1, heat conduction oil tank 2 and conduction oil applying unit 3; Described solar thermal collector 1 comprises multiple vacuum tube 11, header 12 and thermal-collecting tube group 13; Described thermal-collecting tube group 13 is arranged in header 12, and vacuum tube 11 is disposed side by side on header 12; Described thermal-collecting tube group 13 comprises feed tube group 131 and drain pipe group 132; Described feed tube group 131 comprises feed liquor supervisor 131-1 and Duo Gen and is connected to liquid feeding sub-tube 131-2 on feed liquor supervisor 131-1 side by side; Described drain pipe group 132 comprises the fluid that fluid supervisor 132-1 and Duo Gen be connected on fluid supervisor 132-1 side by side and is in charge of 132-2; One end of described feed liquor supervisor 131-1 is closed, and the other end is inlet; One end and the feed liquor of described liquid feeding sub-tube 131-2 are responsible for 131-1 and are communicated with and connect, other end opening; One end of described fluid supervisor 132-1 is closed, and the other end is liquid outlet; Described fluid one end of being in charge of 132-2 and fluid are responsible for 132-1 and are communicated with and connect, and the other end is closed; Described fluid supervisor 132-1 is provided with the jack corresponding with liquid feeding sub-tube 131-2, and liquid feeding sub-tube 131-2 inserts fluid through jack and to be in charge of in 132-2 and to be formed in the junction of liquid feeding sub-tube 131-2 and jack and seal; A described fluid is in charge of in 132-2 and is inserted with a liquid feeding sub-tube 131-2, is provided with a fluid and is in charge of 132-2 in a vacuum tube 11; The inlet of described feed liquor supervisor 131-1 and the liquid outlet of fluid supervisor 132-1 stretch out header 12; The inlet of described feed liquor supervisor 131-1 is the inlet of solar thermal collector 1; The liquid outlet of described fluid supervisor 132-1 is the liquid outlet of solar thermal collector 1; Described heat conduction oil tank 2 is provided with oil-in and oil-out; Described conduction oil applying unit 3 is provided with oil-in and oil-out.

Meanwhile, controller 4 is also comprised; The oil pipe of the liquid outlet of described connection solar thermal collector 1 and the oil-in of conduction oil applying unit 3 is provided with instant heater 5; The oil-in place of described conduction oil applying unit 3 is provided with the first temperature sensor 31; Described first temperature sensor 31 and instant heater 5 are all electrically connected with controller 4; When the temperature that the first temperature sensor 31 monitors conduction oil is too low, instant heater 5 just carries out work to heighten the temperature of conduction oil.

Simultaneously in order to prevent illumination inadequate, also comprise tail gas applying unit 6; Tail gas coil pipe 21 is provided with in described heat conduction oil tank 2; The tank body of described heat conduction oil tank 2 comprises outer wall 22 and inwall 23, is provided with insulation material 24 between outer wall 22 and inwall 23; Import and the outlet of described tail gas coil pipe 21 are separately positioned on the outer wall 22 of heat conduction oil tank 2; The described import of tail gas coil pipe 21 is connected with the escape pipe of high-temperature tail gas and communicates; The outlet of described tail gas coil pipe 21 is connected with the air inlet of tail gas applying unit 6 and communicates; The second temperature sensor 25 is provided with in described heat conduction oil tank 2; Described second temperature sensor 25 is electrically connected with controller 4; When the conduction oil temperature that the second temperature sensor 25 monitors in heat conduction oil tank 2 reaches requirement, just stop passing into of high-temperature tail gas.

Simultaneously in order to ensure the stable of conduction oil temperature, also comprise gas-operated thermal bath facility 7; Described gas-operated thermal bath facility 7 comprises burner 71, combustion chamber 72, heat-exchanging chamber 73, heat exchange coil 74 and igniter 75; Described burner 71 connects air inlet pipe, and air inlet pipe is provided with air inlet electromagnetic valve 76; Described burner 71 is arranged in combustion chamber 72, and combustion chamber 72 is connected with heat-exchanging chamber 73 and communicates; Described heat exchange coil 74 dish is located at the outside of heat-exchanging chamber 73; One end of described heat exchange coil 74 is the liquid feeding end of gas-operated thermal bath facility 7, and the other end is the outlet end of gas-operated thermal bath facility 7; Described igniter 75 and air inlet electromagnetic valve 76 are all electrically connected with controller 4; When conduction oil temperature is too low, controller controls air inlet electromagnetic valve 76 and opens, and igniter 75 carries out igniting heating; The oil-out of described heat conduction oil tank 2 and the liquid feeding end of gas-operated thermal bath facility 7 are connected by oil pipe and communicate; The outlet end of described gas-operated thermal bath facility 7 and the inlet of solar thermal collector 1 are connected by oil pipe and communicate; The liquid outlet of described solar thermal collector 1 and the oil-in of conduction oil applying unit 3 are connected by oil pipe and communicate; The oil-out of described conduction oil applying unit 3 and the oil-in of heat conduction oil tank 2 are connected by oil pipe and communicate.

Simultaneously in order to the heating-up temperature of whole system, also compensate and be provided with heater 8; Described heater 8 comprises heat storage tank 81 and electric heater 82; Described electric heater 82 is arranged in heat storage tank 81, is provided with high-temperature heat accumulation material 83 in heat storage tank 81; The casing of described heat storage tank 81 comprises outer 81-1 and internal layer 81-2, is provided with insulation material 81-3 between outer 81-1 and internal layer 81-2; Be provided with conduction oil coil pipe 84 in described heat storage tank 81, conduction oil coil pipe 84 is located in high-temperature heat accumulation material 83, and the oil-in of conduction oil coil pipe 84 and oil-out are separately positioned on the outer 81-1 of heat storage tank 81; The oil-in of described conduction oil coil pipe 84 and the oil-out of heat conduction oil tank 2 are connected by oil pipe and communicate; The oil-out of described conduction oil coil pipe 84 and the oil-in of conduction oil applying unit 3 are connected by oil pipe and communicate; The oil-in place of described conduction oil coil pipe 84 is provided with the first magnetic valve 85; The inlet place of described solar thermal collector 1 is provided with the second magnetic valve 14; Three-temperature sensor 86 is provided with in described heat storage tank 81; Described first magnetic valve 85, second magnetic valve 14 and three-temperature sensor 86 are all electrically connected with controller 4; When high-temperature tail gas, combustion gas and solar thermal collector 1 all can not heat conduction oil, can this heater 8 of isolated operation, to ensure industrial normal operation.

Described high-temperature heat accumulation material 83 at least comprises the wherein a kind of of metal, sandstone, brick clay, cement, slag, quartz, graphite powder and goose soft rock.

Described heat storage tank 81 is provided with the dog-house 81-4 for loading high-temperature heat accumulation material 83, and dog-house 81-4 is provided with capping; The bottom of described heat storage tank 81 is funnel-form, and forms discharge port 81-5 at lowest part; Described discharge port 81-5 is provided with automatic valve 81-6; Described heat storage tank 81 is erected on bracing frame.

Above-described specific embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; be understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (7)

1. a solar industry heat-conducting oil heating integrated system, has solar thermal collector (1), heat conduction oil tank (2) and conduction oil applying unit (3); It is characterized in that: described solar thermal collector (1) comprises multiple vacuum tube (11), header (12) and thermal-collecting tube group (13); Described thermal-collecting tube group (13) is arranged in header (12), and vacuum tube (11) is disposed side by side on header (12); Described thermal-collecting tube group (13) comprises feed tube group (131) and drain pipe group (132); Described feed tube group (131) comprises feed liquor supervisor (131-1) and the many liquid feeding sub-tubes (131-2) be connected to side by side on feed liquor supervisor (131-1); Described drain pipe group (132) comprises fluid supervisor (132-1) and the many fluids be connected to side by side in fluid supervisor (132-1) are in charge of (132-2); One end of described feed liquor supervisor (131-1) is closed, and the other end is inlet; One end of described liquid feeding sub-tube (131-2) is responsible for (131-1) and is communicated with and connects, other end opening with feed liquor; One end of described fluid supervisor (132-1) is closed, and the other end is liquid outlet; One end that described fluid is in charge of (132-2) is responsible for (132-1) and is communicated with and connects with fluid, the other end is closed; Described fluid supervisor (132-1) is provided with the jack corresponding with liquid feeding sub-tube (131-2), and liquid feeding sub-tube (131-2) inserts fluid through jack and to be in charge of in (132-2) and to be formed in the junction of liquid feeding sub-tube (131-2) and jack and seal; A described fluid is in charge of in (132-2) and is inserted with a liquid feeding sub-tube (131-2), is provided with a fluid and is in charge of (132-2) in a vacuum tube (11); The inlet of described feed liquor supervisor (131-1) and the liquid outlet of fluid supervisor (132-1) stretch out header (12); The inlet of described feed liquor supervisor (131-1) is the inlet of solar thermal collector (1); The liquid outlet of described fluid supervisor (132-1) is the liquid outlet of solar thermal collector (1); Described heat conduction oil tank (2) is provided with oil-in and oil-out; Described conduction oil applying unit (3) is provided with oil-in and oil-out; The oil-out of described heat conduction oil tank (2) and the inlet of solar thermal collector (1) are connected by oil pipe and communicate; The liquid outlet of described solar thermal collector (1) and the oil-in of conduction oil applying unit (3) are connected by oil pipe and communicate; The oil-out of described conduction oil applying unit (3) and the oil-in of heat conduction oil tank (2) are connected by oil pipe and communicate.

2. solar industry heat-conducting oil heating integrated system according to claim 1, is characterized in that: also comprise controller (4); The oil pipe connecting the liquid outlet of solar thermal collector (1) and the oil-in of conduction oil applying unit (3) is provided with instant heater (5); The oil-in place of described conduction oil applying unit (3) is provided with the first temperature sensor (31); Described first temperature sensor (31) and instant heater (5) are all electrically connected with controller (4).

3. solar industry heat-conducting oil heating integrated system according to claim 2, is characterized in that: also comprise tail gas applying unit (6); Tail gas coil pipe (21) is provided with in described heat conduction oil tank (2); The tank body of described heat conduction oil tank (2) comprises outer wall (22) and inwall (23), is provided with insulation material (24) between outer wall (22) and inwall (23); The import of described tail gas coil pipe (21) and outlet are separately positioned on the outer wall (22) of heat conduction oil tank (2); The import of described tail gas coil pipe (21) is connected with the escape pipe of high-temperature tail gas and communicates; The outlet of described tail gas coil pipe (21) is connected with the air inlet of tail gas applying unit (6) and communicates; The second temperature sensor (25) is provided with in described heat conduction oil tank (2); Described second temperature sensor (25) and controller (4) are electrically connected.

4. the solar industry heat-conducting oil heating integrated system according to Claims 2 or 3, is characterized in that: also comprise gas-operated thermal bath facility (7); Described gas-operated thermal bath facility (7) comprises burner (71), combustion chamber (72), heat-exchanging chamber (73), heat exchange coil (74) and igniter (75); Described burner (71) connects air inlet pipe, and air inlet pipe is provided with air inlet electromagnetic valve (76); Described burner (71) is arranged in combustion chamber (72), and combustion chamber (72) are connected with heat-exchanging chamber (73) and communicate; Described heat exchange coil (74) dish is located at the outside of heat-exchanging chamber (73); One end of described heat exchange coil (74) is the liquid feeding end of gas-operated thermal bath facility (7), and the other end is the outlet end of gas-operated thermal bath facility (7); The oil-out of described heat conduction oil tank (2) and the liquid feeding end of gas-operated thermal bath facility (7) are connected by oil pipe and communicate; The outlet end of described gas-operated thermal bath facility (7) and the inlet of solar thermal collector (1) are connected by oil pipe and communicate; Described igniter (75) and air inlet electromagnetic valve (76) are all electrically connected with controller (4).

5. solar industry heat-conducting oil heating integrated system according to claim 4, is characterized in that: also comprise heater (8); Described heater (8) comprises heat storage tank (81) and electric heater (82); Described electric heater (82) is arranged in heat storage tank (81), is provided with high-temperature heat accumulation material (83) in heat storage tank (81); The casing of described heat storage tank (81) comprises skin (81-1) and internal layer (81-2), is provided with insulation material (81-3) between outer (81-1) and internal layer (81-2); Conduction oil coil pipe (84) is provided with in described heat storage tank (81), conduction oil coil pipe (84) is located in high-temperature heat accumulation material (83), and the oil-in of conduction oil coil pipe (84) and oil-out are separately positioned on the skin (81-1) of heat storage tank (81); The oil-in of described conduction oil coil pipe (84) and the oil-out of heat conduction oil tank (2) are connected by oil pipe and communicate; The oil-out of described conduction oil coil pipe (84) and the oil-in of conduction oil applying unit (3) are connected by oil pipe and communicate; The oil-in place of described conduction oil coil pipe (84) is provided with the first magnetic valve (85); The inlet place of described solar thermal collector (1) is provided with the second magnetic valve (14); Described heat storage tank is provided with three-temperature sensor (86) in (81); Described first magnetic valve (85), the second magnetic valve (14) and three-temperature sensor (86) are all electrically connected with controller (4).

6. solar industry heat-conducting oil heating integrated system according to claim 5, it is characterized in that: described heat storage tank (81) is provided with the dog-house (81-4) for loading high-temperature heat accumulation material (83), and dog-house (81-4) is provided with capping; The bottom of described heat storage tank (81) is funnel-form, and forms discharge port (81-5) at lowest part; Described discharge port (81-5) is provided with automatic valve (81-6).

7. solar industry heat-conducting oil heating integrated system according to claim 6, is characterized in that: described heat storage tank (81) is erected on bracing frame.