CN208907655U - A kind of double split flow heat exchange station - Google Patents

Abstract

The utility model discloses a kind of double split flow heat exchange stations, comprising: heat exchanger；The primary side water supplying pipe of heat exchanger is connected, concatenates feed water valve in the primary side water supplying pipe；Connect the primary side return pipe of heat exchanger；The secondary side water supplying pipe of heat exchanger is connected, is connected with temperature sensor and pressure sensor on the secondary side water supplying pipe, which is electrically connected temperature controller, which is electrically connected pressure controller；The secondary side return pipe of heat exchanger is connected, concatenates circulating pump in the secondary side return pipe, which is electrically connected pressure controller；Primary side flow divider is connected between the primary side water supplying pipe and primary side return pipe, which is electrically connected temperature controller；Secondary side flow divider is connected between the secondary side water supplying pipe and secondary side return pipe, which is electrically connected temperature controller.The utility model can carry out automatic and accurate adjusting to heat supply temperature, improve the stability of heat supply temperature, optimize the consumption of the energy.

Description

A kind of double split flow heat exchange station

Technical field

The utility model belongs to heat supply process field more particularly to a kind of double split flow heat exchange station.

Background technique

With the rapid development of concentrated supply of heating in the city, intermediate link of the heat exchange station as connection heat supply network and heat user is played Very important effect, but at present, some heat exchange stations remain in the level of manual hand manipulation, i.e., by artificial Temperature is adjusted by rule of thumb, to achieve the purpose that control temperature, this traditional method is difficult to be accurately controlled temperature, The stability of heat supply temperature is poor, and the comfort of user is very unsatisfactory, and energy waste is serious.

Utility model content

To solve the above problems, the utility model proposes a kind of double split flow heat exchange station, which can be to confession Hot temperature carries out automatic and accurate adjusting, improves the stability of heat supply temperature, optimizes the consumption of the energy.

To achieve the goals above, the utility model uses following scheme, comprising:

Heat exchanger；

The primary side water supplying pipe of heat exchanger is connected, concatenates feed water valve in the primary side water supplying pipe；

Connect the primary side return pipe of heat exchanger；

The secondary side water supplying pipe of heat exchanger is connected, is connected with temperature sensor and pressure sensing on the secondary side water supplying pipe Device, the temperature sensor are electrically connected temperature controller, which is electrically connected pressure controller；

The secondary side return pipe of heat exchanger is connected, concatenates circulating pump in the secondary side return pipe, circulating pump electrical connection pressure Force controller；

Primary side flow divider is connected between the primary side water supplying pipe and primary side return pipe, which is electrically connected Jointing temp controller；

Secondary side flow divider is connected between the secondary side water supplying pipe and secondary side return pipe, which is electrically connected Jointing temp controller.

The temperature controller, pressure controller are cpu controller.

The primary side flow divider, secondary side flow divider are solenoid valve.

The circulating pump is variable frequency pump.

The heat exchanger is plate heat exchanger or movable tube sheets heat exchanger.

The utility model can carry out automatic and accurate adjusting to heat supply temperature, improve the stability of heat supply temperature, optimize The consumption of the energy.

Detailed description of the invention

Fig. 1 is the utility model structure diagram.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing, so that those skilled in the art can be more Add and be apparent from, as shown in Figure 1, the utility model uses following scheme, comprising:

Heat exchanger 1；

The primary side water supplying pipe 2 of heat exchanger is connected, concatenates feed water valve 3 in the primary side water supplying pipe；

Connect the primary side return pipe 4 of heat exchanger；

The secondary side water supplying pipe 5 of heat exchanger is connected, temperature sensor 6 is connected on the secondary side water supplying pipe and pressure passes Sensor 7, the temperature sensor are electrically connected temperature controller, which is electrically connected pressure controller；

The secondary side return pipe 8 of heat exchanger is connected, circulating pump 9, circulating pump electrical connection are concatenated in the secondary side return pipe Pressure controller；

Primary side flow divider 10, the primary side flow divider are connected between the primary side water supplying pipe 2 and primary side return pipe 4 It is electrically connected temperature controller；

Secondary side flow divider 11, the secondary side flow divider are connected between the secondary side water supplying pipe 5 and secondary side return pipe 8 It is electrically connected temperature controller.

As the preferred embodiment of the utility model, the temperature controller, pressure controller are cpu controller.

As the preferred embodiment of the utility model, the primary side flow divider 10, secondary side flow divider 11 are solenoid valve.

As the preferred embodiment of the utility model, the circulating pump 9 is variable frequency pump.

As the preferred embodiment of the utility model, the heat exchanger 1 is plate heat exchanger or movable tube sheets heat exchanger.

In use, opening feed water valve 3, primary side flow divider 10 is in close state, and circulating pump 9 starts, and secondary side shunts Valve 11 is in close state, and the thermal energy that the transmitting of heat exchanger 1 comes is delivered to user by secondary side water supplying pipe 5, when heat supply temperature reaches When certain value, temperature controller successively opens primary side flow divider 10, secondary side according to the live signal that temperature sensor 6 inputs Flow divider 11 shunts the flow for flowing through heat exchanger, to achieve the purpose that temperature adjustment, pressure controller is according to pressure sensing The live signal that device 7 inputs, the revolving speed of control loop pump 9, to achieve the purpose that control for thermal pressure.

The utility model can carry out automatic and accurate adjusting to heat supply temperature, improve the stability of heat supply temperature, optimize The consumption of the energy.

Claims (5)

1. a kind of double split flow heat exchange station, including, heat exchanger (1)；Connect the primary side water supplying pipe (2) of heat exchanger, the primary side Feed water valve (3) are concatenated in water supplying pipe；Connect the primary side return pipe (4) of heat exchanger；Connect the secondary side water supplying pipe of heat exchanger (5), temperature sensor (6) and pressure sensor (7), temperature sensor electrical connection temperature are connected on the secondary side water supplying pipe Controller is spent, which is electrically connected pressure controller；The secondary side return pipe (8) of heat exchanger is connected, which returns Circulating pump (9) are concatenated in water pipe, which is electrically connected pressure controller；It is characterized by:

Primary side flow divider (10) are connected between the primary side water supplying pipe (2) and primary side return pipe (4), which shunts Valve is electrically connected temperature controller；Secondary side flow divider is connected between the secondary side water supplying pipe (5) and secondary side return pipe (8) (11), which is electrically connected temperature controller.

2. heat exchange station according to claim 1, it is characterised in that: the temperature controller, pressure controller are CPU control Device.

3. heat exchange station according to claim 1, it is characterised in that: the primary side flow divider (10), secondary side flow divider It (11) is solenoid valve.

4. heat exchange station according to claim 1, it is characterised in that: the circulating pump (9) is variable frequency pump.

5. heat exchange station according to claim 1, it is characterised in that: the heat exchanger (1) is that plate heat exchanger or floating head type change Hot device.