CN205119562U - Compound heat source hot water unit of bathing pool - Google Patents

Abstract

The utility model provides a compound heat source hot water unit of bathing pool relates to a sewage treatment technical field. The utility model discloses an including sewage treatment plant, waste heat recovery device, sewage source heat pump set and air -source heat pump device, sewage treatment plant is connected with waste heat recovery device through first sewage case, and sewage source heat pump set includes second sewage case and hot -water tank, and waste heat recovery device passes through the pipeline and is connected with second sewage case, hot -water tank respectively, and the air -source heat pump device is connected with the hot -water tank. The utility model discloses putting forward the temperature with running water after the waste heat recovery heat transfer or well water once more through the water resource heat pump, using the temperature confession of hot -water heating to normal national standard bathing water, have the probably emergence that the temperature is not enough when the season in winter, adopt air -source heat pump to mend the temperature, air -source heat pump production hot water can be used to the while when not having the wastewater collection.

Description

A kind of bathing pool composite heat power supply Hot water units

Technical field

The utility model relates to a kind of technical field of sewage, particularly relates to a kind of bathing pool composite heat power supply Hot water units.

Background technology

The life of people be unable to do without the domestic hot-waters such as bathing, in city, popular bathing pool gathers, in many big cities, various bathing place is all more than family more than 2,000, simultaneously, various hotel, school, factories and miness, catering industry etc., also all need to use hot water in a large number, a lot of hot water all solves with coal-burning boiler or gas fired-boiler, not only contaminated environment, waste resource simultaneously, operating cost is expensive, also there is unsafe factor, other method obtains hot water, and input cost is high especially, and it is huge to consume energy, uncontrollable dirty stifled and corrosion, efficiency is low, life-span is short, be difficult to meet the demands.

Utility model content

For the weak point existed in the problems referred to above, the utility model provides a kind of bathing pool composite heat power supply Hot water units, make it by the running water after waste heat recovery heat exchange or well water by water resource heat pump temperature raising again, the temperature heating water to normal GB bath water for, when winter season has may occurring of temperature deficiency, adopting air energy heat pump to carry out benefit temperature, simultaneously when there is no wastewater collection, air energy heat pump can be used to produce hot water.

In order to solve the problem, the utility model provides a kind of bathing pool composite heat power supply Hot water units, wherein, comprise sewage-treatment plant, waste-heat recovery device, sewage source heat pump unit and air energy thermal pump installation, described sewage-treatment plant is connected with described waste-heat recovery device by the first foul water tank, described sewage source heat pump unit comprises the second foul water tank and boiler, described waste-heat recovery device is connected with described second foul water tank, described boiler respectively by pipeline, and described air energy thermal pump installation is connected with described boiler.

Preferably, described air energy thermal pump installation comprises the first evaporimeter, first compressor, first condenser and electric expansion valve, gas-liquid separator is connected with between described first evaporimeter and described first compressor, filter is connected with between described electric expansion valve and described first condenser, described first evaporimeter is provided with fan, described first condenser is connected by pipeline with between described boiler, described first evaporimeter is provided with EAT sensor, described first compressor is provided with compressor temperature sensor, in described boiler, hot water temperature sensor is installed.

Preferably, described sewage source heat pump unit left end is provided with the second foul water tank, described sewage source heat pump unit right-hand member is provided with boiler, the second compressor, the second evaporimeter and the second condenser is provided with in the middle part of described sewage source heat pump unit, described second compressor is connected and forms loop with described second evaporimeter, described second condenser by the first pipeline respectively, described second evaporimeter is connected by the second pipeline with described second foul water tank and forms loop, and described second condenser to be connected with described boiler by the 3rd pipeline and to form loop.

Preferably, described waste-heat recovery device comprises the first husky cylinder pump, husky cylinder and plate type heat exchanger, described first husky cylinder pump is communicated with described husky cylinder by the 4th pipeline, described plate type heat exchanger left end is provided with recycle-water import, moisturizing outlet, described plate type heat exchanger right-hand member is provided with recycle-water outlet and moisturizing import, described recycle-water import is communicated with described husky cylinder by the 5th pipeline, described moisturizing outlet is communicated with described boiler, described recycle-water outlet is communicated with described second foul water tank, and described moisturizing import is communicated with external water source by the 6th pipeline.

Preferably, described first pipeline is provided with flow control valve, magnetic valve and equalization filter, one end of described flow control valve is connected with described second foul water tank, the other end of described flow control valve is connected with described magnetic valve, one end of described equalization filter is connected with described boiler, and the other end of described equalization filter is connected with described magnetic valve.

Preferably, described second pipeline is provided with the first threeway and the second husky cylinder pump, one end of described first threeway is connected with described second husky cylinder pump, the other end of described second husky cylinder pump is connected with described second evaporimeter, on the pipeline between described second evaporimeter and described second foul water tank, on the pipeline of described second foul water tank and described first threeway, the pipeline of described second husky cylinder pump and described second evaporimeter is provided with control valve.

Preferably, described 3rd pipeline is provided with the second threeway and the 3rd husky cylinder pump, one end of described second threeway is connected with described 3rd husky cylinder pump, the other end of described 3rd husky cylinder pump is connected with described second condenser, on the pipeline between described second condenser and described boiler, on the pipeline of described boiler and described second threeway, the pipeline of described 3rd husky cylinder pump and described second condenser is provided with control valve.

Preferably, described magnetic valve, described flow control valve, equalization filter three are connected on the warm water pipeline between described second evaporimeter and described second condenser.

Preferably, also comprise device for automatically controlling, described device for automatically controlling is provided with control panel, and described device for automatically controlling is connected with described sewage-treatment plant, described waste-heat recovery device, described sewage source heat pump unit, described air energy thermal pump installation respectively.

Preferably, described device for automatically controlling is connected with described first compressor, described second compressor, described first evaporimeter, described second evaporimeter, described first condenser, described second condenser, described first husky cylinder pump, described flow control valve, described magnetic valve, described equalization filter, described second husky cylinder pump, described 3rd husky cylinder pump, described control valve, described EAT sensor, described compressor temperature sensor, described hot water temperature sensor respectively.

Compared with prior art, the utility model has the following advantages:

1, the utility model

Design content: the running water after waste heat recovery heat exchange or well water are passed through water resource heat pump temperature raising again, the temperature heating water to normal GB bath water for, when winter season has may occurring of temperature deficiency, air energy heat pump is adopted to carry out benefit temperature, simultaneously when there is no wastewater collection, air energy heat pump can be used to produce hot water;

2, the utility model can heat in high efficiency extraction bath sewage, heating bath water, and can ensure that longtime running is reliable, thus has saved the energy widely, saves operating cost, and cleaning of environment, facilitate management;

3, efficiency is high, and one-time heating uses water, after water temperature setting; use water water inlet and leaving water temperature constant; unit be may operate in metastable operating mode, and water temperature is high, uses water once to heat water temperature and can reach 70 DEG C; the large discharge that can realize needed for commercial unit controls automatically; unit operation and protection Automatic Control, unmanned, good looking appearance; easy to operate, can Long-distance Control be realized.

Accompanying drawing explanation

Fig. 1 is embodiment schematic diagram of the present utility model.

Main element symbol description:

1-sewage source heat pump unit 2-waste-heat recovery device 3-second foul water tank

4-boiler 5-second compressor 6-second evaporimeter

7-second condenser 8-first pipeline 9-second pipeline

10-the 3rd pipeline 11-flow control valve 12-magnetic valve

The husky cylinder pump of the husky cylinder pump 15-the 3rd of 13-equalization filter 14-second

The husky cylinder pump of 16-first threeway 17-second threeway 18-first

19-husky cylinder 20-plate type heat exchanger 21-sewage-treatment plant

22-first foul water tank 23-first compressor 24-first condenser

25-first evaporimeter 26-the 8th pipeline 27-fluid reservoir

The husky cylinder pump of 28-electric expansion valve 29-liquid flow control valve 30-the 4th

31-the 3rd threeway 32-the 9th pipeline

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with accompanying drawing and example, the utility model is described in further detail, but example is not as to restriction of the present utility model.

As shown in Figure 1, embodiment of the present utility model comprises sewage-treatment plant 21, waste-heat recovery device 2, sewage source heat pump unit 1 and air energy thermal pump installation, sewage-treatment plant 21 is connected with waste-heat recovery device 2 by the first foul water tank 22, sewage source heat pump unit 1 comprises the second foul water tank 3 and boiler 4, waste-heat recovery device 2 is connected with the second foul water tank 3, boiler 4 respectively by pipeline, and air energy thermal pump installation is connected with boiler 4.

Air energy thermal pump installation comprises the first evaporimeter 25, first compressor 23, first condenser 24 and electric expansion valve 28, gas-liquid separator is connected with between first evaporimeter 25 and the first compressor 23, filter is connected with between electric expansion valve 28 and the first condenser 24, first evaporimeter 25 is provided with fan, first condenser 24 is connected by pipeline with between boiler 4, first evaporimeter 25 is provided with EAT sensor, first compressor 23 is provided with compressor temperature sensor, in boiler 4, hot water temperature sensor is installed.

First compressor 23 is connected and forms loop with the first evaporimeter 25, first condenser 24 by the 9th pipeline 32 respectively, described 9th pipeline 32 is provided with fluid reservoir 27, electric expansion valve 28 and liquid flow control valve 29, and liquid flow control valve 29 is communicated with the first compressor 23.

Sewage source heat pump unit 1 left end is provided with the second foul water tank 3, sewage source heat pump unit 1 right-hand member is provided with boiler 4, the second compressor 5, second evaporimeter 6 and the second condenser 7 is provided with in the middle part of sewage source heat pump unit 1, second compressor 5 is connected and forms loop with the second evaporimeter 6, second condenser 7 by the first pipeline 8 respectively, second evaporimeter 6 is connected by the second pipeline 9 with the second foul water tank 3 and forms loop, and the second condenser 7 to be connected with boiler 4 by the 3rd pipeline 10 and to form loop.

Waste-heat recovery device 2 comprises the first husky cylinder pump 18, husky cylinder 19 and plate type heat exchanger 20, first husky cylinder pump 18 is communicated with husky cylinder 19 by the 4th pipeline, plate type heat exchanger 20 left end is provided with recycle-water import, moisturizing outlet, plate type heat exchanger 20 right-hand member is provided with recycle-water outlet and moisturizing import, recycle-water import is communicated with husky cylinder 19 by the 5th pipeline, moisturizing outlet is communicated with boiler 4, and recycle-water outlet is communicated with the second foul water tank 3, and moisturizing import is communicated with external water source by the 6th pipeline.

6th pipeline and the 5th pipeline, by the 7th pipeline connection, the 4th pipeline, the 6th pipeline, the 7th pipeline are provided with control valve.

First pipeline 8 is provided with flow control valve 11, magnetic valve 12 and equalization filter 13, one end of flow control valve 11 is connected with the second foul water tank 3, the other end of flow control valve 11 is connected with magnetic valve 12, one end of equalization filter 13 is connected with boiler 4, and the other end of equalization filter 13 is connected with magnetic valve 12.

Second pipeline 9 is provided with the first threeway 16 and the second husky cylinder pump 14, one end of first threeway 16 is connected with the second husky cylinder pump 14, the other end of the second husky cylinder pump 14 is connected with the second evaporimeter 6, on the pipeline between the second evaporimeter 6 and the second foul water tank 3, on the pipeline of the second foul water tank 3 and the first threeway 16, the pipeline of the second husky cylinder pump 14 and the second evaporimeter 6 is provided with control valve.

3rd pipeline 10 is provided with the second threeway 17 and the 3rd husky cylinder pump 15, one end of second threeway 17 is connected with the 3rd husky cylinder pump 15, the other end of the 3rd husky cylinder pump 15 is connected with the second condenser 7, on the pipeline between the second condenser 7 and boiler 4, on the pipeline of boiler 4 and the second threeway 17, the pipeline of the 3rd husky cylinder pump 15 and the second condenser 7 is provided with control valve.

8th pipeline 26 is provided with the 3rd threeway 31 and the 4th husky cylinder pump 30, one end of 3rd threeway 31 is connected with the 4th husky cylinder pump 30, the other end of the 4th husky cylinder pump 30 is connected with the first condenser 24, on the pipeline between the first condenser 24 and boiler 4, on the pipeline of boiler 4 and the 3rd threeway 31, the pipeline of the 4th husky cylinder pump 30 and the first condenser 24 is provided with control valve.

Magnetic valve 12, flow control valve 11, equalization filter 13 three are connected on the warm water pipeline between the second evaporimeter 6 and the second condenser 7.

The left end of husky cylinder 19 is provided with discharge pipe, and discharge pipe is provided with control valve.

Also comprise device for automatically controlling, device for automatically controlling is provided with control panel, device for automatically controlling is connected with sewage-treatment plant 21, waste-heat recovery device 2, sewage source heat pump unit 1, air energy thermal pump installation respectively.

Device for automatically controlling is connected with the husky cylinder pump 18 of the first compressor 23, second compressor 5, first evaporimeter 25, second evaporimeter 6, first condenser 24, second condenser 7, first, flow control valve 11, magnetic valve 12, the husky cylinder pump 14 of equalization filter 13, second, the 3rd husky cylinder pump 15, control valve, EAT sensor, compressor temperature sensor, hot water temperature sensor respectively.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. a bathing pool composite heat power supply Hot water units, it is characterized in that, comprise sewage-treatment plant, waste-heat recovery device, sewage source heat pump unit and air energy thermal pump installation, described sewage-treatment plant is connected with described waste-heat recovery device by the first foul water tank, described sewage source heat pump unit comprises the second foul water tank and boiler, described waste-heat recovery device is connected with described second foul water tank, described boiler respectively by pipeline, and described air energy thermal pump installation is connected with described boiler.

2. bathing pool composite heat power supply Hot water units as claimed in claim 1, it is characterized in that, described air energy thermal pump installation comprises the first evaporimeter, first compressor, first condenser and electric expansion valve, gas-liquid separator is connected with between described first evaporimeter and described first compressor, filter is connected with between described electric expansion valve and described first condenser, described first evaporimeter is provided with fan, described first condenser is connected by pipeline with between described boiler, described first evaporimeter is provided with EAT sensor, described first compressor is provided with compressor temperature sensor, in described boiler, hot water temperature sensor is installed.

3. bathing pool composite heat power supply Hot water units as claimed in claim 2, it is characterized in that, described sewage source heat pump unit left end is provided with the second foul water tank, described sewage source heat pump unit right-hand member is provided with boiler, the second compressor is provided with in the middle part of described sewage source heat pump unit, second evaporimeter and the second condenser, described second compressor by the first pipeline respectively with described second evaporimeter, described second condenser connects and forms loop, described second evaporimeter is connected by the second pipeline with described second foul water tank and forms loop, described second condenser to be connected with described boiler by the 3rd pipeline and to form loop.

4. bathing pool composite heat power supply Hot water units as claimed in claim 3, it is characterized in that, described waste-heat recovery device comprises the first husky cylinder pump, husky cylinder and plate type heat exchanger, described first husky cylinder pump is communicated with described husky cylinder by the 4th pipeline, described plate type heat exchanger left end is provided with recycle-water import, moisturizing exports, described plate type heat exchanger right-hand member is provided with recycle-water outlet and moisturizing import, described recycle-water import is communicated with described husky cylinder by the 5th pipeline, described moisturizing outlet is communicated with described boiler, described recycle-water outlet is communicated with described second foul water tank, described moisturizing import is communicated with external water source by the 6th pipeline.

5. bathing pool composite heat power supply Hot water units as claimed in claim 4, it is characterized in that, described first pipeline is provided with flow control valve, magnetic valve and equalization filter, one end of described flow control valve is connected with described second foul water tank, the other end of described flow control valve is connected with described magnetic valve, one end of described equalization filter is connected with described boiler, and the other end of described equalization filter is connected with described magnetic valve.

6. bathing pool composite heat power supply Hot water units as claimed in claim 5, it is characterized in that, described second pipeline is provided with the first threeway and the second husky cylinder pump, one end of described first threeway is connected with described second husky cylinder pump, the other end of described second husky cylinder pump is connected with described second evaporimeter, on the pipeline between described second evaporimeter and described second foul water tank, on the pipeline of described second foul water tank and described first threeway, the pipeline of described second husky cylinder pump and described second evaporimeter is provided with control valve.

7. bathing pool composite heat power supply Hot water units as claimed in claim 6, it is characterized in that, described 3rd pipeline is provided with the second threeway and the 3rd husky cylinder pump, one end of described second threeway is connected with described 3rd husky cylinder pump, the other end of described 3rd husky cylinder pump is connected with described second condenser, on the pipeline between described second condenser and described boiler, on the pipeline of described boiler and described second threeway, the pipeline of described 3rd husky cylinder pump and described second condenser is provided with control valve.

8. bathing pool composite heat power supply Hot water units as claimed in claim 7, it is characterized in that, described magnetic valve, described flow control valve, equalization filter three are connected on the warm water pipeline between described second evaporimeter and described second condenser.

9. bathing pool composite heat power supply Hot water units as claimed in claim 8, it is characterized in that, also comprise device for automatically controlling, described device for automatically controlling is provided with control panel, and described device for automatically controlling is connected with described sewage-treatment plant, described waste-heat recovery device, described sewage source heat pump unit, described air energy thermal pump installation respectively.

10. bathing pool composite heat power supply Hot water units as claimed in claim 9, it is characterized in that, described device for automatically controlling is connected with described first compressor, described second compressor, described first evaporimeter, described second evaporimeter, described first condenser, described second condenser, described first husky cylinder pump, described flow control valve, described magnetic valve, described equalization filter, described second husky cylinder pump, described 3rd husky cylinder pump, described control valve, described EAT sensor, described compressor temperature sensor, described hot water temperature sensor respectively.