CN101329084B - Complex heating system of full function heat energy equipment - Google Patents

Abstract

The invention discloses a full-functional heat-energy equipment comprehensive heat-supply system, comprising a multifunctional heat-conducting oil boiler and a plurality of heat-exchanging systems. An oil chamber containing the heat-conducting oil of the heating system occupies more than one-fifth space of the boiler body of the multifunctional heat-conducting oil boiler; a stainless steel fire tube and a stainless steel heat pipe which are combusted and heated by the boiler firebox are distributed on the lower part of the oil chamber. The heat tube, the fire tube and the oil tube of the invention are all made of stainless steel, and the heating system of the invention can overcome a series of defects caused by the structure of the traditional heating system as the stainless steel can prevent scale formation phenomenon. Namely, the scale formation phenomenon of the boiler is eliminated so as to fundamentally enhance heating efficiency and therefore, one small heating boiler can be used to provide heat energy to a plurality of heated devices.

Description

Complex heating system of full function heat energy equipment

Technical field

The present invention relates to a kind of central heating system, particularly a kind of complex heating system of full function heat energy equipment that is suitable for concentrating steam supply, heat supply water.

Background technology

Traditional heating system comprises: give low-temperature heat supply equipment heating system with hot-water boiler, give the gas utilization unit heating system with steam boiler, give high-temperature heat supply equipment heating system with heat conducting oil boiler.Wherein, the water heater funnel resistance is big, at the bottom of the heat transfer efficiency; The steam-heating system condensed water can not reclaim, and loses heat reaches 20%; Also the thermal efficiency is low, transmission efficiency is low, radiating efficiency is low, radiating efficiency is low for heat conducting oil boiler heating system pot courage; Electric heating system power consumption is big, the operating cost height.

The traditional heating system generally all is the open type heating system, and corrosion and scaling, the evaporating, emitting, dripping or leaking of liquid or gas heat loss is big, transmission efficiency is low, the more high fundamental drawback of maintenance cost.

Behind the boiler body corrosion and scaling, will reduce the thermal efficiency, so the boiler body volume is big at present, floor space is big, and row's temperature amount is high, and one-time investment is big, the maintenance cost height, power consumption is big, the equipment cost height, and the maintenance and operation personnel are many, the equipment complexity, incendiary material is single, can only be with coal as fuel, and the device security coefficient is low.

At some drinks of dining together from a common dish, bathing, heating, steam supply, heat supply water is in the comprehensive facility of one, needs several boilers that corresponding hot water, steam are provided respectively usually, and this has not only increased the hot air discharge amount greatly, but also is unfavorable for energy savings.

Summary of the invention

The purpose of this invention is to provide the concentrated steam supply that a kind ofly can reduce energy resource consumption, reduce the heat discharging, the complex heating system of full function heat energy equipment of heat supply water, so that solve the defective of above-mentioned traditional heating system.Complex heating system of full function heat energy equipment of the present invention is applicable to large-scale synthesis facilities such as hotel, amusement, food and drink.

The object of the present invention is achieved like this, and a kind of complex heating system of full function heat energy equipment comprises multifunctional heat conducting oil boiler and a plurality of heat-exchange system, it is characterized in that:

The grease chamber that holds the heating system conduction oil in the body of heater of described multifunctional heat conducting oil boiler occupies more than 1/5th of furnace space;

Distribute by the stainless steel fire tube and the stainless steel heat pipe of boiler furnace burning heating in bottom, described grease chamber.

Wherein, the oil pipe of a plurality of parallel connection grease chamber runs through the pot courage of multifunctional heat conducting oil boiler.

Wherein, the stainless steel heat pipe is the vacuum tubular container of a sealing, and heat-conducting medium is housed in it.

Wherein, the outlet of the conduction oil on heat conducting oil boiler top connects the separator inlet via oil pipe;

Each outlet of separator connects the conduction oil inlet of each heat-exchange system respectively via oil pipe;

The conduction oil outlet of each heat-exchange system connects the corresponding inlet of oil catcher via oil pipe;

The outlet of oil catcher connects the oil return base of heat conducting oil boiler via oil pipe.

Wherein, described a plurality of heat-exchange systems comprise: bathing pond heat-exchange system, and described bathing pond heat-exchange system places within the pond, and its heat exchanger heating system is enclosed in three for insulated wall, simultaneously among the framework of stainless steel heat sink.

Wherein, described a plurality of heat-exchange system comprises: steam heat-exchanging pressure vessel, steam heating integrated system, its heating steam supply heat exchanger system is installed within the container of filled with water, and the inlet of described heating steam supply heat exchanger system connects the heat exchanger delivery valve, and outlet connects the oil return control valve.

Wherein, described a plurality of heat-exchange system comprises: hot water heat exchange container and comprehensive hot water heating system, its heating steam supply heat exchanger system is installed within the container of filled with water, and the inlet of described heating steam supply heat exchanger system connects the heat exchanger delivery valve, and outlet connects the oil return control valve..

Wherein, described a plurality of heat-exchange system comprises: the heat exchange saunas system, its heat exchange heater system is placed among the container that is surrounded by stainless steel casing, thermal insulator, and the inlet of heat exchange heater system connects the oil supply system valve, and its outlet connects the oil return system valve..

Wherein, described a plurality of heat-exchange systems comprise: heat exchange hot water tank system and heat supply baking integrated system, wherein,

Described heat exchange hot water tank system has the heat exchange heater system that is placed in the water receptacle, and the inlet of described heat exchange heater system connects the oil supply system valve, and its outlet connects oil return system valve;

Described heat supply baking integrated system has: the cool-bag that is surrounded by steel plate, insulated wall; Be fixed on the heat exchange heater system within the described cool-bag; And, be mounted respectively near the high temperature heat exchange heater system series of fire-cureing.

Heat conducting oil boiler of the present invention improves heating heat-conducting oil efficient by following measure: 1) grease chamber that placement can be held the conduction oil of whole heating system is set in body of heater, make it occupy more than 1/5th of furnace space, so as thermal source can be directly to the whole heat-conducting oil heating in the whole heating system almost; 2),, thereby improve the efficiency of heating surface so that the heat energy that utilizes stainless steel fire tube and stainless steel heat pipe is to heat-conducting oil heating at grease chamber's lower dense distribution stainless steel fire tube and stainless steel heat pipe; 3) a plurality of oil pipes (that is, a plurality of oil pipes run through a pot courage) of UNICOM grease chamber are set in the pot courage, so that utilize pyrotechnics waste heat in the pot courage to the heat-conducting oil heating in the oil pipe.

Above-mentioned three measures has improved heat conducting oil boiler greatly to heating heat-conducting oil efficient, thereby can realize with a heat conducting oil boiler a plurality of heat-exchange systems being provided the purpose of heat energy.

In addition, heat pipe of the present invention, fire tube and oil pipe are made by stainless steel, because stainless steel can prevent scale formation, therefore heating system of the present invention has been eliminated the traditional heating system because a series of defectives that structure is brought, thereby can utilize a little heating boiler to provide heat energy to a plurality of equipment that are heated.

The present invention is described in detail below in conjunction with accompanying drawing.

Description of drawings

Fig. 1 is the schematic diagram of complex heating system of full function heat energy equipment of the present invention;

Fig. 2 a is the schematic diagram of multifunctional heat conducting oil boiler of the present invention;

Fig. 2 b is the profile of the A-A of Fig. 2 a;

Fig. 3 a is the schematic diagram of bathing of the present invention pond heat-exchange system;

Fig. 3 b is the layout drawing of the heat exchange heating system 204 of Fig. 3 a;

Fig. 3 c is the sectional view of Fig. 3 b;

Fig. 4 a is the schematic diagram of steam heat-exchanging pressure vessel of the present invention, steam heating integrated system;

Fig. 4 b has shown the practical application of the steam heat-exchanging pressure vessel shown in Fig. 4 a, steam heating integrated system;

Fig. 4 c is the vertical view of heating steam supply heat exchanger system 305 among Fig. 4 a;

Fig. 5 a is the schematic diagram of hot water heat exchange container of the present invention, comprehensive hot water heating system;

Fig. 5 b has shown the practical application of the hot water heat exchange container shown in Fig. 5 a, comprehensive hot water heating system;

Fig. 5 c is the vertical view of heating steam supply heat-exchange system 404 among Fig. 5 a;

Fig. 6 a is the schematic diagram of heat exchange saunas system of the present invention;

Fig. 6 b is the vertical view cutaway drawing of Fig. 6 a;

Fig. 6 c is the sectional view of Fig. 6 b.

Fig. 7 a is the schematic diagram of heat exchange hot water tank of the present invention system;

Fig. 7 b is the sectional view of Fig. 7 a;

Fig. 7 c is the vertical view cutaway drawing of Fig. 7 a;

Fig. 8 a is the schematic diagram of heat supply baking integrated system of the present invention;

Fig. 8 b is the cutaway view of Fig. 8 a;

Fig. 8 c is the sectional view of Fig. 8 c.

Description of reference numerals: 1-multifunctional heat conducting oil boiler; 101-oil cauldron base anchor; The 102-tube sheet; 103-stainless steel heat pipe; 104-stainless steel fire tube; 105-pot courage; The 106-oil pipe; The 107-Shell Plate; The 108-flat-plate closure; The outlet of 109-conduction oil; The 110-boiler end; The 111-impact tube; 112-impact tube flange; The comprehensive oil conservator flange of 113-base; Door is observed in the 114-ash disposal; 115-oil return base; 116-oil extraction carbon distribution base; 2-bathing pond heat-exchange system; 201-oil supply system valve; 202-oil return system valve; The 203-insulated wall; 204-heat exchange heater system; 205-stainless steel heat sink; 3-steam heat-exchanging pressure vessel, steam heating integrated system; 301-Pressure gauge, sub-assembly; The 302-safety valve; 303-steam supply group valve; The board-like water level meter of 304-; 305-heating steam supply heat exchanger system; 306-heat exchanger delivery valve; 307-moisturizing valve; 308-oil return control valve; The 309-blowoff valve; 310-steam supply group valve; 311-divides the vapour control valve; 312-laundry heating system by-pass valve control; 313-food steaming system air-supplying valve; The comprehensive decontamination system valve of 314-; 315-hot water, potable water system by-pass valve control; The 316-gas-distributing cylinder; 317-gas-distributing cylinder water discharging valve; The 318-water charging system that condenses; The 319-feed pump; The 320-check valve; 4-hot water heat exchange container, comprehensive hot water heating system; The 401-Pressure gauge; The 402-pressure-type thermometer; 403-heat exchanger delivery valve; 404-heating steam supply heat exchanger system; 405-oil return control valve; 406-return water system valve; 407-drainage valve; 408-atmospheric communicating pipe seat; 409-water outlet main valve; The 410-check valve; 411-water knockout drum main valve; 412,413,414,415-heating system valve; The 416-water knockout drum; The 417-hot water circulating pump; 5-heat exchange saunas system; 501-stainless steel casing, thermal insulator; 502-heat exchange heater system; 503-oil supply system valve; 504-oil return system valve; 505-flat thermal insulator; 6-heat exchange hot water tank system; 601-water supply system valve; The 602-ball float is controlled the ball valve system automatically; 603-water level display system; 604-heat exchange heater system; 605-display system blowoff valve; 606-oil supply system valve; 607-oil return system valve; 608-water tank drainage valve; 609-water tank return water system valve; 7-heat supply baking integrated system; 701-oil supply system valve; 702-oil return system valve; 703-steel plate, insulated wall; 704-heat exchange heater system; 705,706,707, the 708-high temperature series of fire-cureing.

The specific embodiment

Referring to Fig. 1, complex heating system of full function heat energy equipment of the present invention comprises: multifunctional heat conducting oil boiler 1 and a plurality of heat-exchange system.To heat-conducting medium such as heat-conducting oil heating, the conduction oil after the heating flows through described a plurality of heat-exchange system by oil circulation to described heat conducting oil boiler 1 under the effect of circulating pump 10 in body of heater, thereby realizes continual heat exchange effect in each heat exchanger.

Heat-exchange system shown in Figure 1 can comprise: bathing pond heat-exchange system 2, steam heat-exchanging pressure vessel, steam heating integrated system 3, hot water heat exchange container and comprehensive hot water heating system 4, heat exchange saunas system 5, heat exchange hot water tank system 6 and heat supply baking integrated system 7.These heat-exchange systems are transformed into hot water or steam by being heated to the heat exchange effect of conduction oil in system about about 300C °, making be heated thing such as water.

Conduction oil after the heating flows into separator 8 from heat conducting oil boiler 1 top along oil pipe, flow into each heat-exchange system respectively by separator then, imports oil catcher 9 at last, turns back to heat conducting oil boiler 1 by oil catcher 9 again.

In the embodiment of a large-scale bath center that for example comprises Saunas, bath pond, steam, hot water, the heat-exchange system that traditional heating system needs a plurality of burning boilers to be respectively different provides heat energy, and utilize comprehensive heat supply system of the present invention, such bath center just can only provide heat energy with a heat-conducting oil heating boiler 1 for a plurality of heat-exchange systems, thereby reduced the quantity of burning boiler, improve heating efficiency, and significantly reduced heat exhaust.

The structure of the heat conducting oil boiler of the present invention 1 that Fig. 2 a and Fig. 2 b have shown.This heat conducting oil boiler 1 can act as a fuel with fuel oil, coal gas, natural gas, liquefied gas, raw coal, moulded coal, coal slime etc.

Shown in Fig. 2 a, heat conducting oil boiler 1 of the present invention improves heating heat-conducting oil efficient by following measure: 1) grease chamber that placement can be held the conduction oil of whole heating system is set in body of heater, make it occupy more than 1/5th of furnace space, so as thermal source can be directly to the whole heat-conducting oil heating in the whole heating system almost; 2),, thereby improve the efficiency of heating surface so that the heat energy that utilizes stainless steel fire tube 104 and stainless steel heat pipe 103 is to heat-conducting oil heating at grease chamber's lower dense distribution stainless steel fire tube 104 and stainless steel heat pipe 103 (referring to Fig. 2 b); 3) a plurality of oil pipes 106 (that is, a plurality of oil pipes 106 run through a pot courage) of UNICOM grease chamber are set in the pot courage, so that utilize pyrotechnics waste heat in the pot courage to the heat-conducting oil heating in the oil pipe 106.

Above-mentioned three measures has improved 1 pair of heating heat-conducting oil efficient of heat conducting oil boiler greatly, thereby can realize with a heat conducting oil boiler a plurality of heat-exchange systems being provided the purpose of heat energy.This three measures can adopt respectively, also can adopt simultaneously.

Shown in Fig. 2 a, heat conducting oil boiler 1 comprises a pot courage, grease chamber and combustion chamber (not shown).The combustion chamber is positioned under the grease chamber, so that the thermal source of conduction oil in the heating grease chamber is provided.The pot courage is fixed on the middle part of body of heater by stainless steel fire tube 104 and flue (impact tube 111).The grease chamber occupies other space except that the pot courage in the body of heater, that is to say space, grease chamber (volume)=furnace space (volume)-pot courage space (volume).A plurality of stainless steel fire tubes 104 and stainless steel heat pipe 103 are interspersed in the bottom, grease chamber.The top and bottom of stainless steel fire tube 104 are respectively fixed on pot courage 105 and the tube sheet 102.Stainless steel heat pipe 103 is fixed on the tube sheet, and its main body is positioned at the bottom, grease chamber, and its lower end is exposed to the combustion chamber.Shown in Fig. 2 a, heat conducting oil boiler 1 also comprises: be communicated with the conduction oil outlet 109 on top, grease chamber; The oil return base 115 that connects oil catcher 9 by oil pipe; The impact tube 111 that connects the chimney (not shown) by flange 112; Door 114 is observed in ash disposal; And comprehensive oil conservator flange base 113.

Fig. 3 a-Fig. 3 c has shown bathing of the present invention pond heat-exchange system 2.This bathing pond heat-exchange system 2 places within the pond, and heat exchanger heating system 204 (that is dish type oil pipe) is enclosed in three for insulated wall 203, simultaneously among the framework of stainless steel heat sink 205.The conduction oil that has heated flows into the dish type oil pipe from oil supply system valve 201, flow back into multifunctional heat conducting oil boiler 1 from oil return system valve 202 again.When conduction oil flow through dish type oil pipe 204, the cold water in the pond discharged heat energy, thereby the water in the pond is heated to 40 to 45 degree Celsius.

Fig. 4 a-Fig. 4 b has shown steam heat-exchanging pressure vessel of the present invention, steam heating integrated system 3.Shown in Fig. 4 a, heating steam supply heat exchanger system 305 is installed within the container of filled with water, and its inlet connects heat exchanger delivery valve 306, and its outlet connects oil return control valve 308.The conduction oil that has heated flows into heating steam supply heat exchanger system (that is, the dish type oil pipe) 305 from heat exchanger delivery valve 306, flow back into multifunctional heat conducting oil boiler 1 from oil return control valve 308 again.

Steam heat-exchanging pressure vessel of the present invention, steam heating integrated system 3 also comprise: the Pressure gauge, the sub-assembly 301 that are installed in container top; Safety valve 302; Steam supply group valve 303; Board-like water level meter 304; Moisturizing valve 307; Blowoff valve 309; Steam supply group valve 310; Divide vapour control valve 311; Laundry heating system by-pass valve control 312; Food steaming system air-supplying valve 313; Comprehensive decontamination system valve 314; Hot water, potable water system by-pass valve control 315; Gas-distributing cylinder 316; Gas-distributing cylinder water discharging valve 317; Water charging system 318 condenses; Feed pump 319; Check valve 320.

Shown in Fig. 4 b, when the water in the container is heated to more than 100C °, water vapour enters gas-distributing cylinder 316 from steam supply group valve 310, branch vapour control valve 311, and then corresponding steam is provided, and provides hot water, drinking water by hot water, potable water system by-pass valve control 315 by laundry heating system by-pass valve control 312, food steaming system air-supplying valve 313, comprehensive decontamination system valve 314.Container is by the water charging system 318 that condenses, feed pump 319, check valve 320,307 moisturizings of moisturizing valve.

Fig. 5 a-Fig. 5 c has shown hot water heat exchange container of the present invention, comprehensive hot water heating system 4.Shown in Fig. 5 a, heating steam supply heat exchanger system 404 is installed within the container of filled with water, and its inlet connects heat exchanger delivery valve 403, and its outlet connects oil return control valve 405.The conduction oil that has heated flows into heating steam supply heat exchanger system (that is, the dish type oil pipe) 404 from heat exchanger delivery valve 403, flow back into multifunctional heat conducting oil boiler 1 from oil return control valve 405 again.

Hot water heat exchange container of the present invention, comprehensive hot water heating system 4 can be used for heating, and it also comprises: Pressure gauge 401; Pressure-type thermometer 402; Return water system valve 406; Drainage valve 407; Atmospheric communicating pipe seat 408; Water outlet main valve 409; Check valve 410; Water knockout drum main valve 411; Heating system valve 412,413,414,415; Water knockout drum 416; Hot water circulating pump 417.

Shown in Fig. 5 b, when the water in the container was heated, hot water flowed into water knockout drum 416 from water outlet main valve 409, and then provides corresponding hot water by heating system valve 412,413,414,415.

Fig. 6 a-Fig. 6 c has shown heat exchange saunas system 5 of the present invention.Heat exchange saunas system 5 comprises the container that is surrounded by stainless steel casing, thermal insulator 501.Heat exchange heater system 502 is dish type stainless steel oil pipes, and the inlet of this oil pipe connects oil supply system valve 503, and its outlet connects oil return system valve 504.Below heat exchange heater system 502, be provided with flat thermal insulator 505.Can also place stone in addition above heat exchange heater system 502, so that the bathing water under spill the top produces steam when falling into approximate 300C ° dish type stainless steel oil pipe 502 surfaces, this steam passes on the slit between the stone and rises.

Fig. 7 a-Fig. 7 c has shown heat exchange hot water tank of the present invention system 6.Heat exchange hot water tank of the present invention system 6 comprises the heat exchange heater system 604 (that is, disk-shaped distribution oil pipe) that is placed in the water receptacle, and the inlet of this heat exchange heater system 604 connects oil supply system valve 606, and its outlet connects oil return system valve 607.When the conduction oil circulation of having heated flows to dish type distribution oil pipe 604, the oil pipe surface is reached be about 300C ° temperature, add the water in the hot water tank thus.Heat exchange hot water tank of the present invention system 6 comprises that also water water supply system valve 601 and ball float control ball valve system 602 automatically, is used for this water receptacle moisturizing automatically.

In addition, heat exchange hot water tank of the present invention system 6 also comprises water level display system 603; Display system blowoff valve 605; Water tank drainage valve 608 and water tank return water system valve 609.

Fig. 8 a-Fig. 8 c has shown heat supply baking integrated system 7 of the present invention.Shown in Fig. 8 b, heat supply baking integrated system 7 comprises: the cool-bag that is surrounded by steel plate, insulated wall 703; Be fixed on the heat exchange heater system 704 within the described cool-bag, i.e. the dish type stainless steel oil pipe; And high temperature fire-cure series 705,706,707,708, they are mounted respectively near heat exchange heater system 704 and (are shown as thereunder among the figure).The outlet of heat exchange heater system 704 connects oil supply system valve 701, and its outlet connects oil return system valve 702.The high temperature series of fire-cureing 705,706,707,708 can be steamer, baking box etc., and its heat energy is taken from the heat that the dish type stainless steel oil pipe distributes.

In sum, the present invention has improved heat conducting oil boiler to heating heat-conducting oil efficient greatly by above-mentioned three measures, thereby can realize with a heat conducting oil boiler a plurality of heat-exchange systems being provided the purpose of heat energy.

In addition, heat pipe of the present invention, fire tube and oil pipe are made by stainless steel, because stainless steel can prevent scale formation, therefore heating system of the present invention has been eliminated the traditional heating system because a series of defectives that structure is brought.That is to say, eliminate the scale formation of boiler, will fundamentally improve the efficiency of heating surface, thereby can utilize a little heating boiler to provide heat energy to a plurality of equipment that are heated.

In a word, global function combined heated of the present invention system has energy-conservation, efficient, safety, reduction of discharging, long service life, cost is low, the Operation and Maintenance amount is low technique effect.

Claims (8)

1. a complex heating system of full function heat energy equipment comprises multifunctional heat conducting oil boiler (1) and a plurality of heat-exchange system, it is characterized in that:

The grease chamber that holds the heating system conduction oil in the body of heater of described multifunctional heat conducting oil boiler (1) occupies more than 1/5th of furnace space;

Distribute by the stainless steel fire tube (104) and the stainless steel heat pipe (103) of boiler furnace burning heating in bottom, described grease chamber, wherein the main body of stainless steel heat pipe (103) is positioned at the bottom, grease chamber, and its lower end is exposed to the combustion chamber;

Wherein, heat conducting oil boiler (1) comprises a pot courage (105), grease chamber and combustion chamber, and the combustion chamber is positioned under the grease chamber, and pot courage (105) is fixed on the middle part of body of heater by impact tube (111) and the upper end that is distributed in the stainless steel fire tube (104) of bottom, described grease chamber;

Wherein, the oil pipe (106) of a plurality of parallel connection grease chamber runs through the pot courage (105) of multifunctional heat conducting oil boiler (1).

2. complex heating system of full function heat energy equipment according to claim 1 is characterized in that, stainless steel heat pipe (103) is the vacuum tubular container of a sealing, and heat-conducting medium is housed in it.

3. complex heating system of full function heat energy equipment according to claim 1 and 2 is characterized in that,

The conduction oil outlet (109) on heat conducting oil boiler (1) top connects separator (8) inlet via oil pipe;

Each outlet of separator (8) connects the conduction oil inlet of each heat-exchange system respectively via oil pipe;

The conduction oil outlet of each heat-exchange system connects the corresponding inlet of oil catcher (9) via oil pipe;

The outlet of oil catcher (9) connects the oil return base (115) of heat conducting oil boiler (1) via oil pipe.

4. require 3 described complex heating system of full function heat energy equipment according to aforesaid right, it is characterized in that, described a plurality of heat-exchange system comprises bathing pond heat-exchange system (2), described bathing pond heat-exchange system (2) places within the pond, and its heat exchanger heating system (204) is enclosed in three for insulated wall (203), simultaneously among the framework of stainless steel heat sink (205).

5. require 3 described complex heating system of full function heat energy equipment according to aforesaid right, it is characterized in that, described a plurality of heat-exchange system comprises steam heat-exchanging pressure vessel, steam heating integrated system (3), its heating steam supply heat exchanger system (305) is installed within the container of filled with water, the inlet of described heating steam supply heat exchanger system (305) connects heat exchanger delivery valve (306), and outlet connects oil return control valve (308).

6. require 3 described complex heating system of full function heat energy equipment according to aforesaid right, it is characterized in that, described a plurality of heat-exchange system comprises hot water heat exchange container and comprehensive hot water heating system (4), its heating steam supply heat exchanger system (404) is installed within the container of filled with water, the inlet of described heating steam supply heat exchanger system (404) connects heat exchanger delivery valve (403), and outlet connects oil return control valve (405).

7. require 3 described complex heating system of full function heat energy equipment according to aforesaid right, it is characterized in that, described a plurality of heat-exchange system comprises heat exchange saunas system (5), its heat exchange heater system (502) is placed among the container that is surrounded by stainless steel casing, thermal insulator (501), the inlet of heat exchange heater system (502) connects oil supply system valve (503), and its outlet connects oil return system valve (504).

8. require 3 described complex heating system of full function heat energy equipment according to aforesaid right, it is characterized in that, described a plurality of heat-exchange systems comprise heat exchange hot water tank system (6) and heat supply baking integrated system (7), wherein,

Described heat exchange hot water tank system (6) has the heat exchange heater system (604) that is placed in the water receptacle, and the inlet of described heat exchange heater system (604) connects oil supply system valve (606), and its outlet connects oil return system valve (607);

Described heat supply baking integrated system (7) has: the cool-bag that is surrounded by steel plate, insulated wall (703); Be fixed on the heat exchange heater system (704) within the described cool-bag; And, be mounted respectively near high temperature heat exchange heater system (704) series (705,706,707,708) of fire-cureing.

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