CN207763028U - Gap heating energy-saving apparatus system - Google Patents

Abstract

The utility model is related to a kind of gap heating energy-saving apparatus systems, including hot water energy centre to fill, and the filling of hot water energy centre is separately connected water supply line and water return pipeline；The first heat exchange water pump is provided on water return pipeline, the first heat exchange water pump connects frequency converter；Thermal energy consumption system includes heat exchanger and with heat space, heat exchanger includes two heat exchanger tubes, respectively the first heat exchanger tube and the second heat exchanger tube, first heat exchanger tube import is connect through first pipe with feed pipe, first heat transfer tube outlet is connect through second pipe with return pipe, and primary side electrically operated valve is arranged in first pipe；Second heat transfer tube outlet is connect through third pipeline with heat space, and the second heat exchanger tube import is connect through the 4th pipeline with heat space, and secondary side electrically operated valve and secondary side heat exchange water pump are provided on the 4th pipeline.The inefficient cycle of the hot water avoided, the heat exchanger energy loss of reduction also mitigate the burden of energy centre hot water supply, greatly reduce the power consumption of the first heat exchange water pump.

Description

Gap heating energy-saving apparatus system

Technical field

The utility model is related to a kind of gap heating energy-saving apparatus systems.

Background technology

Currently, the heat exchange situation of many dining room bathrooms and air-conditioning is all the motor-driven valve by switching live heat exchanger secondary side Door controls, when heat-exchange time then, the electrically operated valve unlatching of heat exchanger secondary side exchanges heat, after heat exchange, close Close the valve of secondary side.Due to simply turning off secondary side valve, and once energizing side still has hot water stream process, due to not exchanging heat Effect causes hot loss of energy.It is negative with can not mitigate energy centre supply in the case of no heat exchange at this simultaneously Load, energy centre heat-exchanger pump causes the significant wastage of the energy still with same Power operation at this time.And excessive hot water It is circulated through the pipeline not exchanged heat, other pipelines for needing to exchange heat is affected, reduces the heat exchange efficiency of other using areas.

Utility model content

The technical problems to be solved in the utility model is：Overcome the deficiencies of the prior art and provide a kind of gap heating energy-saving Apparatus system solves the problems, such as previous heating system heat-energy losses.

Technical solution adopted by the utility model to solve its technical problems is：A kind of gap heating energy-saving apparatus system, It is filled including hot water energy centre, the hot water energy centre filling is separately connected water supply line and water return pipeline, the water supply line Several thermal energy consumption systems are connected separately between water return pipeline；It is provided with the first heat exchange water pump on water return pipeline, first The water pump that exchanges heat connects frequency converter；

The thermal energy consumption system includes heat exchanger and with heat space, and the heat exchanger includes two heat exchanger tubes, respectively For the first heat exchanger tube and the second heat exchanger tube, the first heat exchanger tube import is connect through first pipe with feed pipe, the first heat transfer tube outlet It is connect with return pipe through second pipe, primary side electrically operated valve is set in the first pipe；

Second heat transfer tube outlet is connect through third pipeline with heat space, and the second heat exchanger tube import is through the 4th pipeline and uses heat Space connects, and secondary side electrically operated valve and secondary side heat exchange water pump are provided on the 4th pipeline.

Further, the thermal energy consumption system includes PLC controller, described to be provided with on heat space for detecting this First temperature sensor of space temperature, the PLC controller respectively with the first temperature sensor, secondary side electrically operated valve, two Secondary side heat exchange water pump and primary side heat exchange water pump connection.

Further, pressure of supply water sensor and supply water temperature sensor are provided on the water supply line；The return water Pressure of return water sensor and return water temperature sensor are provided on pipeline.

The utility model has the beneficial effects that：

One, the primary side electrically operated valve installed additional on heat exchanger primary side, temperature are opened when being less than setting value, when temperature arrives It is closed in time up to setting value, the inefficient cycle of the hot water avoided, the heat exchanger energy loss of reduction, also mitigates energy centre heat The burden of water supply, greatly reduces the power consumption of the first heat exchange water pump.When hot water supply is larger, heat exchanger primary side Upper electrically operated valve is timely closed when hot water temperature meets, and ensures the supply effect of the other users hot water energy.

Two, due to increasing PLC controller at the scene, all detection signals and valve control signal are all connected to the control On device, unlatching setting can be carried out according to various process requirements and user demand, it is convenient and efficient, it is time saving and energy saving.

Three, when summer and smaller the mount of using heat, PLC controller can use the energy period according to user, to entire Heat-exchange system carries out intermittent automatic start-stop, is conveniently operated, and reduces the non-productive work time, energy saving.

Description of the drawings

The utility model is further illustrated below in conjunction with the accompanying drawings.

Fig. 1 is the utility model gap heating energy-saving apparatus system schematic diagram；

Wherein, 1, water supply line, 2, water return pipeline, the 3, first heat exchange water pump, 4, heat exchanger, the 41, first heat exchanger tube, 42, Second heat exchanger tube, 5, with heat space, 6, primary side electrically operated valve, 7, secondary side electrically operated valve, 8, secondary side exchange heat water pump, 9, the One temperature sensor.

Specific implementation mode

The utility model is further described presently in connection with attached drawing.These attached drawings are simplified schematic diagram only to show Meaning mode illustrates the basic structure of the utility model, therefore it only shows composition related with the utility model.

As shown in Figure 1, a kind of gap heating energy-saving apparatus system, including hot water energy centre fill, hot water energy centre fills It is separately connected water supply line 1 and water return pipeline 2, several thermal energy consumptions are connected separately between water supply line 1 and water return pipeline 2 System；The first heat exchange water pump 3 is provided on water return pipeline 2, the first heat exchange water pump 3 connects frequency converter.

Thermal energy consumption system includes heat exchanger 4 and with heat space 5, and heat exchanger 4 includes two heat exchanger tubes, and respectively first Heat exchanger tube 41 and the second heat exchanger tube 42,41 import of the first heat exchanger tube are connect through first pipe with feed pipe, and the first heat exchanger tube 41 goes out Mouth is connect through second pipe with return pipe, and primary side electrically operated valve 6 is arranged in first pipe；

The outlet of second heat exchanger tube 42 is connect through third pipeline with heat space 5, and 42 import of the second heat exchanger tube is through the 4th pipeline It is connect with heat space 5, secondary side electrically operated valve 7 and secondary side heat exchange water pump 8 is provided on the 4th pipeline.

The primary side electrically operated valve 6 installed additional on 4 primary side of heat exchanger, temperature are opened when being less than setting value, when temperature arrives It is closed in time up to setting value, the inefficient cycle of the hot water avoided, 4 energy loss of heat exchanger of reduction also mitigates energy centre The burden of hot water supply, greatly reduces the power consumption of the first heat exchange water pump 3.When hot water supply is larger, heat exchanger 4 one Electrically operated valve is timely closed when hot water temperature meets on secondary side, ensures the supply effect of the other users hot water energy.

Thermal energy consumption system includes PLC controller, with the first temperature being provided on heat space 5 for detecting the space temperature Spend sensor 9, PLC controller respectively with the first temperature sensor 9, secondary side electrically operated valve 7, secondary side heat exchange water pump 8 and Primary side heat exchange water pump connection.

Due to increasing PLC controller at the scene, all detection signals and valve control signal are all connected to the controller On, unlatching setting can be carried out according to various process requirements and user demand, it is convenient and efficient, it is time saving and energy saving.

Pressure of supply water sensor and supply water temperature sensor are provided on water supply line 1；It is provided with return water on water return pipeline 2 Pressure sensor and return water temperature sensor.

Can be eaten in practical applications with bathroom, shop office air-conditioning, life building with heat space 5 in the utility model The place of other needs heat such as hall, the box air-conditioning in workshop.In this implementation is the boiler in bathroom with heat space 5.

When more in winter or with thermal energy, user is primary side electrically operated valve 6, secondary after opening heat-exchange system Side electrically operated valve 7, the secondary side heat exchange heat exchange water pump 3 of water pump 8, first are switched on.Over time, when the first temperature sensing Device 9 detects that the hot water temperature of user has reached set temperature, and primary side electrically operated valve 6 is begun to shut off, and confession at this time should be located Pipeline hot water flow can be gradually reduced to 0, this variation can influence to be responsible for supply side, pressure of supply water, pressure of return water on main pipeline, After supply water temperature sensor, return water sensor detect variation, frequency converter according to the degree pair first of the variation exchange heat water pump 3 into Row frequency redution operation reduces the inefficient cycle of hot water, in the electric energy for saving water pump.When the hot water temperature of user is less than set temperature When, the electrically operated valve for being then turned on the primary side of heat exchanger 4 exchanges heat.

When the mount of using heat of summer is smaller, cyclelog can use the energy period with user, be to entirely exchanging heat System carries out intermittent start-stop, is conveniently operated, and reduces the non-productive work time.

It is enlightenment, through the above description, related work people with the above-mentioned desirable embodiment according to the utility model Member can carry out various changes and amendments in the range of without departing from this item utility model technological thought completely.This item is real It is not limited to the contents of the specification with novel technical scope, it is necessary to which its technology is determined according to right Property range.

Claims (3)

1. a kind of gap heating energy-saving apparatus system, characterized in that filled including hot water energy centre, the hot water energy centre fills It is separately connected water supply line（1）And water return pipeline（2）, the water supply line（1）And water return pipeline（2）It is connected separately between if Dry thermal energy consumption system；Water return pipeline（2）On be provided with the first heat exchange water pump（3）, the first heat exchange water pump（3）Connect frequency conversion Device；

The thermal energy consumption system includes heat exchanger（4）And use heat space（5）, the heat exchanger（4）Including two heat exchanger tubes, Respectively the first heat exchanger tube（41）With the second heat exchanger tube（42）, the first heat exchanger tube（41）Import connects through first pipe and feed pipe It connects, the first heat exchanger tube（41）Outlet is connect through second pipe with return pipe, and primary side electrically operated valve is arranged in the first pipe （6）；

Second heat exchanger tube（42）Outlet is through third pipeline and uses heat space（5）Connection, the second heat exchanger tube（42）Import is through the 4th pipe Road and use heat space（5）It connects, secondary side electrically operated valve is provided on the 4th pipeline（7）With secondary side heat exchange water pump（8）.

2. heating energy-saving apparatus system in gap according to claim 1, characterized in that the thermal energy consumption system includes PLC controller, it is described to use heat space（5）On be provided with the first temperature sensor for detecting the space temperature（9）, described PLC controller respectively with the first temperature sensor（9）, secondary side electrically operated valve（7）, secondary side exchange heat water pump（8）And it is primary Side heat exchange water pump connection.

3. heating energy-saving apparatus system in gap according to claim 1, characterized in that the water supply line（1）Upper setting There are pressure of supply water sensor and supply water temperature sensor；The water return pipeline（2）On be provided with pressure of return water sensor and return water Temperature sensor.