CN206282521U - Central heating comprehensive experimental system - Google Patents

Abstract

The utility model discloses a kind of central heating comprehensive experimental system, including：Once net system, it has the first oil burning boiler, the second oil burning boiler, water knockout drum, pipe heat exchanger, the first plate type heat exchanger, the second plate type heat exchanger, water collector, once net water circulating pump, once net small pump, and once net expansion tank, softens hutch water device：Secondary network system, it has uses hot end equipment, secondary network water circulating pump, secondary network small pump, secondary network expansion tank, and three user's branch roads and five user's branch roads are included with hot end equipment.The utility model is familiar with the technological process of central heating system beneficial to student, specifies the function of key equipment, grasps the principle and operation reserve of regulation control.

Description

Central heating comprehensive experimental system

Technical field

The utility model is related to a kind of central heating comprehensive experimental system, belongs to Practical Teaching Platform.

Background technology

Central heating is the important heat energy application system of China's severe cold, cold district civil buildings, and real system is due to rule Mould is big, distribution is wide, and not enough intuitively, student only will appreciate that operation principle and process substantially, can seldom participate in system debug, fortune The practices such as row regulation, thus can not well grasp operation and the adjusting method of specification.It is existing on Heat Supply Engineering The model equipment that experimental system multidigit simplifies, or software emulation demo system, it is impossible to true reflection key equipment maneuverability Can, system condition regulation change, and composition structure it is larger with real system deviation, it is impossible to very well adaptation process capability training and Form.Therefore develop a set of central heating comprehensive experimental system to improve students ' practical ability and engineering actual operational capacity seems pole For important.

Utility model content

For the deficiency in the presence of prior art, the utility model provides a kind of central heating comprehensive experimental system, Student is set to be familiar with central heating system, to improve the operational capacity to central heating system.

To achieve the above object, the utility model employs following technical scheme：A kind of central heating Comprehensive Experiment system System, it is characterised in that including：

Once net system, it has the first oil burning boiler, the second oil burning boiler, water knockout drum, pipe heat exchanger, first board-like Heat exchanger, the second plate type heat exchanger, once water collector, net water circulating pump, once net small pump, once net expansion tank and softening Hutch water device；

The outlet of the first oil burning boiler and the second oil burning boiler is connected to the entrance of water knockout drum；

The first outlet of water knockout drum is connected to the first entrance of pipe heat exchanger, the first entrance of the first plate type heat exchanger respectively And second plate type heat exchanger first entrance, the second outlet of water knockout drum is connected to the first interface of water collector；

The first of the first outlet of pipe heat exchanger, the first outlet of the first plate type heat exchanger and the second plate type heat exchanger goes out Mouth is connected to the second interface of water collector, and the 3rd interface of water collector is connected to the first oil burning boiler and the by once net water circulating pump The entrance of two oil burning boilers；

Once net expansion tank is connected to once net water circulating pump entrance；

Soften hutch water device and once net water circulating pump entrance is connected to by once net small pump；

Secondary network system, it has with the expansion of hot end equipment, secondary network water circulating pump, secondary network small pump and secondary network Water tank, with hot end equipment include three user's branch roads and five user's branch roads, three user's branch roads include three branch roads first with hot end, Three branch roads second hot end and three branch roads the 3rd use hot end, five user's branch roads include five branch roads first with hot end, five Hot end is used with hot end, five branch roads the 4th with hot end and five branch roads the 5th in road second with hot end, five branch roads the 3rd；

The second of the second outlet of pipe heat exchanger, the second outlet of the first plate type heat exchanger and the second plate type heat exchanger goes out Mouth is connected to the entrance with hot end, and the second entrance of pipe heat exchanger, the second entrance of the first plate type heat exchanger and second are board-like The second entrance of heat exchanger is connected to the outlet with hot end by secondary network water circulating pump；

Soften the entrance that hutch water device is connected to secondary network water circulating pump by secondary network small pump；

Secondary network expansion tank is connected to the entrance of secondary network water circulating pump.

Preferably, setting the first pressure difference pick-up in adapter between the first interface of the second outlet of water knockout drum and water collector Device and the first electric control valve.

Preferably, once setting Y types dirt separator and electronic hydrotreater at net water circulating pump；At secondary network water circulating pump Y types dirt separator and electronic hydrotreater are set.

Preferably, installing self-supporting balanced valve in five user's branch road feed pipes, teletransmission pressure is filled before self-supporting balanced valve Table, electric control valve is installed on five user's branch road return pipes, installs distance-transmission pressure gauge after electric control valve, five user's branch roads supply, Pressure difference transmitter is installed between return pipe, manual modulation valve is installed on five user's branch road return pipes.

Preferably, installing self-supporting balanced valve in three user's branch road feed pipes, teletransmission pressure is filled before self-supporting balanced valve Table, electric control valve is installed on three user's branch road return pipes, installs distance-transmission pressure gauge after electric control valve, three user's branch roads supply, Pressure difference transmitter is installed between return pipe, manual modulation valve is installed on three user's branch road return pipes.

Preferably, each is provided with calorimeter with hot end water inlet pipe, each is with hot outlet water at tail end branch pipe equipped with electricity Dynamic regulating valve and manual modulation valve, each is also equipped with balanced valve with hot outlet water at tail end branch pipe.

Preferably, being provided with calorimeter on return main.

Preferably, installing the second pressure difference transmitter and the second electric control valve between the confession of secondary network system, backwater main.

Preferably, pressure difference control device is connected to the first electric control valve and the first pressure difference transmitter, constant pressure supply water control Device is connected to liquid level sensor in once net expansion tank and the once motor of net small pump respectively.

Preferably, constant pressure supply water frequency-converting control device is connected to the motor and secondary network swelling water of secondary network small pump respectively Liquid level sensor in case and, circulating pump pressure difference frequency-converting control device is connected to the motor and the second pressure of secondary network water circulating pump respectively Difference transmitter, process control equipment is connected to going out for the secondary net side setting of the second electric control valve, the second pressure difference transmitter, heat exchanger The backwater regulating valve that net side of current transmitter and heat exchanger is set.

Compared to prior art, the utility model has the advantages that：The utility model is applied to there is provided a clock The comprehensive experimental system of Heat Supply Engineering, embodies the basic composition structure of actual central heating system, there is provided the thermal source of key Equipment, heat transmission equipment and end heating equipment, have selected typical operation control facility.Student is in system debug and runing adjustment During can be familiar with the technological process of central heating system, specify the function of key equipment, grasp the original of regulation control Reason and operation reserve.

Brief description of the drawings

Fig. 1 is central heating comprehensive experimental system structural diagrams intention in the utility model, and part-structure is eliminated in figure.

Fig. 2 is thermal source (the first oil burning boiler and the second oil burning boiler) and pipe network connection diagram in the utility model.

Fig. 3 is for once net point, water collector bypass connection diagram at motor-driven pressure-difference balanced valve in the utility model.

Fig. 4 is net side (hot side) adapter schematic diagram of heat exchanger in the utility model.

Fig. 5 is heat exchanger secondary net side (hot side) adapter schematic diagram in the utility model.

Fig. 6 is secondary network bifurcation adapter schematic diagram in the utility model.

Fig. 7 is end heating equipment adapter schematic diagram in the utility model.

Fig. 8 is a pipe network system operation control principle drawing in the utility model.

Fig. 9 is secondary pipe network system operation control principle drawing in the utility model.

Specific embodiment

Referring to Fig. 1, a kind of central heating comprehensive experimental system, including once net system (pipe network system), it has First oil burning boiler 1a, the second oil burning boiler 1b, water knockout drum 2, pipe heat exchanger 3, the first plate type heat exchanger 41, second is board-like changes Hot device 42, once water collector 5, net water circulating pump 6, once net small pump 9, once net expansion tank 11 and softening hutch water device 13.

The outlet of the first oil burning boiler 1a and the second oil burning boiler 1b is connected to the entrance of water knockout drum 2.

The first outlet of water knockout drum 2 is connected to the first entrance of pipe heat exchanger 3, the first of the first plate type heat exchanger 41 respectively The first entrance of entrance and the second plate type heat exchanger 42, the second outlet of water knockout drum 2 is connected to the first interface of water collector 5.

The first outlet of pipe heat exchanger 3, the first outlet of the first plate type heat exchanger 41 and the second plate type heat exchanger 42 First outlet is connected to the second interface of water collector 5, and the 3rd interface of water collector 5 is connected to the first combustion by once net water circulating pump 6 The entrance of thermo oil boiler 1a and the second oil burning boiler 1b.

Once net expansion tank 11 is connected to the once entrance of net water circulating pump 6.

Soften hutch water device 13 and the once entrance of net water circulating pump 6 is connected to by once net small pump 9.

Secondary network system (secondary pipe network system), it has is mended with hot end equipment, secondary network water circulating pump 8, secondary network Water pump 10 and secondary network expansion tank 12, three user's branch roads and five user's branch roads, three user's branch road bags are included with hot end equipment Include the three hot ends 71 of branch road first, the three branch roads second hot end 73 of branch road the 3rd of hot end 72 and three, five user's branch roads Including the five hot ends 81 of branch road first, the five hot ends 82 of branch road second, the five hot ends 83 of branch road the 3rd, five branch roads the 4th With the hot end 85 of branch road the 5th of hot end 84 and five.

The second outlet of pipe heat exchanger 3, the second outlet of the first plate type heat exchanger 41 and the second plate type heat exchanger 42 Second outlet is connected to the entrance with hot end, the second entrance of pipe heat exchanger 3, the second entrance of the first plate type heat exchanger 41 and The second entrance of the second plate type heat exchanger 42 is connected to the outlet with hot end by secondary network water circulating pump 8.

Soften the entrance that hutch water device 13 is connected to secondary network water circulating pump 8 by secondary network small pump 10.

Secondary network expansion tank 12 is connected to the entrance of secondary network water circulating pump 8.

First pressure difference transmitter and are set in the adapter between the second outlet of water knockout drum 2 and the first interface of water collector 5 One electric control valve (bypass motor-driven pressure-difference balanced valve).

Y types dirt separator and electronic hydrotreater are once set at net water circulating pump 6.

Self-supporting balanced valve is installed in five user's branch road feed pipes, distance-transmission pressure gauge is filled before self-supporting balanced valve, with other Pressure gauge coordinates the pressure drop of observable balanced valve, electric control valve is installed on five user's branch road return pipes, after electric control valve Distance-transmission pressure gauge is installed, the pressure drop with other pressure gauges cooperation observable electric control valve, between the confession of five user's branch roads, return pipe (such as in figure between the first mount point A1 and the second mount point A2) installs pressure difference transmitter, can show that five branch roads are supplied on computers Pressure difference between backwater, manual modulation valve is provided with five user's branch road return pipes, is adjusted by computer or on-site manual, can Change the water-carrying capacity of this branch road.

Self-supporting balanced valve is installed in three user's branch road feed pipes, distance-transmission pressure gauge is filled before self-supporting balanced valve, with other Pressure gauge coordinates the pressure drop of observable balanced valve, electric control valve is installed on three user's branch road return pipes, after electric control valve Distance-transmission pressure gauge is installed, with the pressure drop that other pressure gauges coordinate observable electric control valve.Between the confession of three user's branch roads, return pipe (such as in figure between the 3rd mount point B1 and the 4th mount point B2) installs pressure difference transmitter, can show that five branch roads are supplied on computers Pressure difference between backwater.Manual modulation valve is installed on three user's branch road return pipes, is adjusted by computer or on-site manual, can Change the water-carrying capacity of this branch road.

Each is provided with calorimeter with hot end (air heater) water inlet pipe, and is connected with computer, both can be from now Manual record data on instrument board, also can from computer direct access data above, each is filled with hot outlet water at tail end branch pipe There are electric control valve and manual modulation valve, by computer or manually can adjust air and heat according to test requirements document The water of device, each is also equipped with balanced valve with hot outlet water at tail end branch pipe.

It is provided with return main's (with the pipeline between hot end and heat exchanger, being such as arranged at the 5th mount point D) Calorimeter.

(such as in figure between the 6th mount point E1 and the 7th mount point E2) installs second between the confession of secondary network system, backwater main Pressure difference transmitter and the second electric control valve (bypass motor-driven pressure-difference balanced valve).

Y types dirt separator and electronic hydrotreater are set at secondary network water circulating pump 8.

In this comprehensive experimental system, thermal source is two oil-fired water-boilers (first, second oil burning boiler), if dividing, collecting Each one of hydrophone, point, set pressure difference transmitter, electric control valve between water collector, electric control valve is adjusted by differential pressure controller Aperture makes a pipe network for pressure stability between backwater.Heat transmission equipment is two platen type heat exchangers (first, second plate type heat exchanger) With a pipe heat exchanger.Water circulating pump is installed on boiler inlet, while setting Y types dirt separator and electronic hydrotreater.

Secondary network water circulating pump is located at heat exchanger entrance, and water is squeezed into heat exchanger by water circulating pump during operation, after heat exchange, Supplied water to system end.System end (using hot end) is eight air heaters, simulates eight heat users.For simulation is outdoor big The pressure loss of type pipe network, on the confession water return pipeline between each heat user, is equipped with butterfly valve and pressure gauge, for adjusting and seeing Examine the pressure drop of pipeline.Calorimeter is installed on return main.To make secondary pipe network for pressure stability between backwater, in secondary network For setting motor-driven pressure-difference balanced valve between, backwater main.Pipeline Y types dirt separator and electronic hydrotreater are pumped into located at secondary network recirculated water Mouthful.

Eight air heaters are eight heat users of simulation, exhaust blower from indoor suction air, by air heater, Air is heated, and is then discharged to outdoor, and the heat consumption of hot-water heating system is fallen.Manual wind is fitted with after every air heater Adjustable valve, can change air quantity according to different test requirements documents.

Boiler (the first oil burning boiler and the second oil burning boiler) is imported and exported and is mounted on high-precision pressure sensor, while peace Dress pressure gauge and duct type thermometer.Boiler (the first oil burning boiler and the second oil burning boiler) outlet is equipped with calorimeter, measurable The indexs such as inlet temperature, outlet temperature, the heat of boiler.

Heat exchanger is made up of that (i.e. heat exchanger includes pipe heat exchanger, the two platen type heat exchangers and pipe heat exchanger One plate type heat exchanger and the second plate type heat exchanger), the import and export of heat exchanger are provided with high-precision pressure sensor and pressure gauge, temperature Degree meter, heat exchanger exit side (first outlet of pipe heat exchanger, the first outlet of the first plate type heat exchanger and the second plate-type heat-exchange The first outlet of device) electric control valve and manual modulation valve are installed, pipeline flow can be changed by computer controls, Can manual site's regulation.Change the heat exchange amount of heat exchanger by adjusting once net output, so as to control the water outlet of secondary network Temperature.

Turbine flux transmitter, temperature sensor can be installed in pipe heat exchanger entrance, to calculate one on computers The heat exchange amount of secondary net.

Once net water circulating pump is similar with secondary network water circulating pump, by taking secondary network water circulating pump as an example, secondary network recirculated water Pump is two pumps, and two pumps are installation compensator, pressure gauge before and after used in parallel, the using and the reserved, pump, and pump discharge sets one-way non-return Valve.Pump is imported and exported and is provided with butterfly valve, is only done shut-off and is used, and regulation is not done and is used, and is normally open.When starting pump every time, to check The on off state of butterfly valve, in order to avoid damage water pump.

Once net small pump is similar with secondary network small pump, and by taking secondary network small pump as an example, secondary network small pump is two Water pump, a preparation and a use, exit of pump sets pressure gauge, high-precision pressure sensor, one way stop peturn valve.When making level pressure water pump and using, The expansion tank (once net expansion tank and secondary network expansion tank) of first and second pipe network should be turned off, exit of pump it is high-precision The pressure change of pressure sensor monitoring system is spent, as the feedback signal of level pressure pump variable frequency work.Make as moisturizing water pump Used time, the high and low liquid level gauge with expansion tank coordinates (now expansion tank should be connected with system), makes the liquid level in expansion tank Between setting position.

Once net system is also provided with expansion tank (once net expansion tank and secondary network expansion simultaneously with secondary network system Water tank), for the switching selection of pressurization methods, expansion tank is provided with high and low electronic liquid level gauge simultaneously.When system is using expansion During water tank constant pressure supply water form, it is opening to keep the ball valve on expansion tube, and the electric signal of high and low electronic liquid level gauge is as benefit The start stop signal of water water pump.When system uses variable frequency pump constant pressure supply water form, by the ball valve shut-off on expansion tube, make expansion Water tank disconnects with system.

Whole system can be also controlled by switch board and (be below brief introduction, specifically refer to existing in addition to artificial control Have technology), for example：Pressure difference control device 100 is connected to the first electric control valve 102 and the first pressure difference transmitter 101, constant pressure supply water Control device 200 is connected to liquid level sensor in once net expansion tank 11 and the once motor of net small pump 9 respectively.Level pressure is mended Water frequency-converting control device 300 is connected to the liquid level sensor in the motor of secondary network small pump 10 and secondary network expansion tank 12 respectively And, circulating pump pressure difference frequency-converting control device 400 is connected to the motor and the second pressure difference transmitter 401 of secondary network water circulating pump 8 respectively, Process control equipment 500 is connected to going out for the secondary net side setting of the second electric control valve 402, the second pressure difference transmitter 401, heat exchanger The backwater regulating valve that net side of current transmitter and heat exchanger is set.It should be noted that control device is passed with corresponding survey The connection of sensor arrangement and control valve actuator or pump motor is electric signal transmission loop.

Constant pressure arrangement：First and second net is designed with expansion tank and frequency conversion moisturizing two ways level pressure supplies experimental selection.The former It is the mode that constant pressure point level pressure is maintained using expansion tank, the latter changes supply frequency, puts down according to the change of control point pressure It is sliding infinitely to adjust moisturizing revolution speed, and then rate of water make-up is adjusted in time, realize the constant of system constant pressure point pressure.Frequency conversion moisturizing is determined Voltage-controlled system is realized by frequency-variable controller.

Hydraulic regime adjusting means：Two kinds for backwater level pressure difference constant control function：One is on backwater main plus other Logical regulating valve (bypass motor-driven pressure-difference balanced valve), is suppressed heat user by the regulation of valve during heating network operation is tested and adjusted Pressure difference between the confession backwater that section causes changes.We are carried out to first and second net for backwater respectively from intelligent industrial regulator Constant pressure difference control, once net point, pressure difference transmitter is housed between water collector, point, on the bypass line between water collector equipped with electricity Dynamic regulating valve (bypass motor-driven pressure-difference balanced valve), is equipped with pressure difference transmitter, for backwater main between the confession backwater main of secondary network Bypass line on be also equipped with electric control valve.Current signal is converted to as intelligence by transmitter for the pressure difference signal between backwater The input of adjuster, it is defeated after input quantity and set amount to be analyzed adjuster the calculation process for judging and carrying out certain rule Go out executing agency of the corresponding electric signal to electric control valve, control valve opening is adjusted, realize constant pressure difference control；Furthermore Exactly ensured by variable frequency adjustment water circulating pump for the constant pressure difference between backwater.Specifically, pressure difference transmitter will be for returning Pressure difference signal between water is converted into current signal and inputs to water circulating pump frequency-variable controller, and input value is led to setting value ratio by controller After carry out analytical calculation, control corresponding motor output frequency, change pump rotary speed, reach regulation flow and ensure that pressure difference is constant Purpose.

Thermal drying adjusting means：The regulation of system thermal drying is mainly by the regulation control to thermal source and heat transmission equipment Make to realize.As two oil burning boilers of system heat sources equipped with powerful controller, user Ke Gen in once netting According to itself need set its operational factor and the method for operation.Heat transmission equipment regulation major control thought be：According to heat transmission equipment The supply water temperature of secondary side is adjusted accordingly to the flow of primary side.Specifically, two plate type heat exchangers and a pipe Temperature sensor is housed at the secondary network side outlet of formula heat exchanger, electric control valve (backwater is housed on a net side water return pipeline Regulating valve), every heat exchanger all selects intelligent industrial regulator, according to respective secondary network outlet temperature to each once net Circling water flow rate is adjusted, and meets the heat demand of terminal temperature difference.

The utility model central heating comprehensive experimental system has complete technological process and typical system equipment, and wraps Contain adjusting means, the monitoring device of the overwhelming majority in heating system, more comprehensively reappear engineering practice key element.Can carry out Fluid supply device performance, pipe resistance characteristic, the test analysis of heat transmission equipment performance, can also carry out heating system debugging and The related engineering teacher's instructions of operation control, while the research work such as technical Analysis for influenceing system operation to adjust with thermal behavior can be carried out Make, with larger practical value.

Finally illustrate, above example is only used to illustrate the technical solution of the utility model and unrestricted, although ginseng The utility model has been described in detail according to preferred embodiment, it will be understood by those within the art that, can be to this The technical scheme of utility model is modified or equivalent, without deviating from the objective and model of technical solutions of the utility model Enclose, it all should cover in the middle of right of the present utility model.

Claims (10)

1. a kind of central heating comprehensive experimental system, it is characterised in that including：

Once net system, it has the first oil burning boiler (1a), the second oil burning boiler (1b), water knockout drum (2), pipe heat exchanger (3), the first plate type heat exchanger (41), the second plate type heat exchanger (42), once water collector (5), net water circulating pump (6), once net Small pump (9), once net expansion tank (11) and softening hutch water device (13)；

First oil burning boiler (1a) is connected to the entrance of water knockout drum (2) with the outlet of the second oil burning boiler (1b)；

The first outlet of water knockout drum (2) is connected to the first entrance of pipe heat exchanger (3), the of the first plate type heat exchanger (41) respectively The first entrance of one entrance and the second plate type heat exchanger (42), the second outlet of water knockout drum (2) is connected to the first of water collector (5) and connects Mouthful；

The first outlet of pipe heat exchanger (3), the first outlet of the first plate type heat exchanger (41) and the second plate type heat exchanger (42) First outlet be connected to the second interface of water collector (5), the 3rd interface of water collector (5) is connect by once net water circulating pump (6) In the first oil burning boiler (1a) and the entrance of the second oil burning boiler (1b)；

Once net expansion tank (11) is connected to once net water circulating pump (6) entrance；

Soften hutch water device (13) and net water circulating pump (6) entrance is connected to once by once net small pump (9)；

Secondary network system, it has with hot end equipment, secondary network water circulating pump (8), secondary network small pump (10) and secondary network Expansion tank (12), three user's branch roads and five user's branch roads are included with hot end equipment, and three user's branch roads include three branch roads first With hot end (71), three branch roads second hot end (72) and three branch roads the 3rd with hot end (73), five user's branch roads include five Branch road first hot end (81), five branch roads second hot end (82), five branch roads the 3rd hot end (83), five branch roads the 4th With hot end (84) and five branch roads the 5th with hot end (85)；

The second outlet of pipe heat exchanger (3), the second outlet of the first plate type heat exchanger (41) and the second plate type heat exchanger (42) Second outlet be connected to entrance with hot end, the second entrance of pipe heat exchanger (3), the second of the first plate type heat exchanger (41) The second entrance of entrance and the second plate type heat exchanger (42) is connected to the outlet with hot end by secondary network water circulating pump (8)；

Soften the entrance that hutch water device (13) is connected to secondary network water circulating pump (8) by secondary network small pump (10)；

Secondary network expansion tank (12) is connected to the entrance of secondary network water circulating pump (8).

2. central heating comprehensive experimental system according to claim 1, it is characterised in that the second outlet of water knockout drum (2) with First pressure difference transmitter and the first electric control valve are set in the adapter between the first interface of water collector (5).

3. central heating comprehensive experimental system according to claim 1, it is characterised in that once net water circulating pump (6) place sets Put Y types dirt separator and electronic hydrotreater；Secondary network water circulating pump (8) place sets Y types dirt separator and electronic hydrotreater.

4. central heating comprehensive experimental system according to claim 1, it is characterised in that installed in five user's branch road feed pipes Self-supporting balanced valve, fills distance-transmission pressure gauge before self-supporting balanced valve, electric control valve is installed on five user's branch road return pipes, electronic Distance-transmission pressure gauge is installed after regulating valve, pressure difference transmitter is installed between the confession of five user's branch roads, return pipe, on five user's branch road return pipes Manual modulation valve is installed.

5. central heating comprehensive experimental system according to claim 1, it is characterised in that installed in three user's branch road feed pipes Self-supporting balanced valve, fills distance-transmission pressure gauge before self-supporting balanced valve, electric control valve is installed on three user's branch road return pipes, electronic Distance-transmission pressure gauge is installed after regulating valve, pressure difference transmitter is installed between the confession of three user's branch roads, return pipe, on three user's branch road return pipes Manual modulation valve is installed.

6. central heating comprehensive experimental system according to claim 1, it is characterised in that each is pacified with hot end water inlet pipe Equipped with calorimeter, each is equipped with electric control valve and manual modulation valve with hot outlet water at tail end branch pipe, and each is with hot outlet water at tail end branch Balanced valve is also equipped with pipe.

7. central heating comprehensive experimental system according to claim 1, it is characterised in that heat is provided with return main Table.

8. central heating comprehensive experimental system according to claim 1, it is characterised in that secondary network system is supplied, backwater main Between the second pressure difference transmitter and the second electric control valve are installed.

9. central heating comprehensive experimental system according to claim 2, it is characterised in that pressure difference control device (100) is connected to First electric control valve (102) and the first pressure difference transmitter (101), constant pressure supply water control device (200) are connected to once net respectively Liquid level sensor in expansion tank (11) and the once motor of net small pump (9).

10. central heating comprehensive experimental system according to claim 8, it is characterised in that constant pressure supply water frequency-converting control device (300) liquid level sensor that is connected to respectively in the motor of secondary network small pump (10) and secondary network expansion tank (12) and, circulation Pump pressure difference frequency-converting control device (400) is connected to the motor and the second pressure difference transmitter (401) of secondary network water circulating pump (8) respectively, Process control equipment (500) is connected to the second electric control valve (402), the second pressure difference transmitter (401), the secondary net side of heat exchanger and sets The backwater regulating valve that the net side of water flow transmitter and heat exchanger put is set.