CN205655384U - Air source solid energy storage boiler - Google Patents

Abstract

The utility model discloses an air source solid energy storage boiler, including air -source heat pump, from energy storage formula electric boiler, controlling means and hot water circulating pump, controlling means and air -source heat pump and from energy storage formula electric boiler communication connection respectively, pass through the tube coupling from energy storage formula electric boiler and hot water circulating pump at air -source heat pump, controlling means is used for controlling air -source heat pump and from energy storage formula electric boiler's operating condition, air -source heat pump and all be arranged in heating the liquid of pipeline from energy storage formula electric boiler. Above -mentioned air source solid energy storage boiler can improve heating efficiency, reduce the heating cost and enlarge the heating scope.

Description

Air source energy-accumulating solid boiler

Technical field

This utility model relates to boiler technology field, particularly relates to a kind of air source energy-accumulating solid boiler.

Background technology

Owing to utilizing merely existing air source heat pump to heat, having arrived subzero less than 10 degree, air source heat pump is difficult to work, not to mention heating.And air source heat pump also has a defect the biggest to be exactly that the leaving water temperature heated mostly is about 45 degree, the most on the low side.And boilers heated electrically needs the heat needed for utilizing the trough-electricity time whole day to be heated to store, cause thermic load bigger than normal.And corresponding electric power auxiliary facility much places cannot meet, the user that causes much warming oneself warms oneself restricted.

Utility model content

The technical problems to be solved in the utility model is for above-mentioned the deficiencies in the prior art, it is provided that a kind of improve that heat supply efficiency is high, the air source energy-accumulating solid boiler of low cost.

For solving above-mentioned technical problem, technical solution adopted in the utility model is: a kind of air source energy-accumulating solid boiler, including air energy heat pump, from energy-storage electric boiler, control device and hot water circulating pump；Described control device and described air energy heat pump and described communicate to connect respectively from energy-storage electric boiler, described air energy heat pump, described connected by pipeline from energy-storage electric boiler and described hot water circulating pump；

Described hot water circulating pump is arranged on the pipeline that described accumulation of heat unit is connected with user side；

Described control device is for controlling described air energy heat pump and the described duty from energy-storage electric boiler；

Described air energy heat pump and described be used to the liquid in pipeline is heated from energy-storage electric boiler.

Preferably, the water inlet pipe of described air energy heat pump is for being connected with user side, and the outlet pipe of described air energy heat pump is connected with the described water inlet pipe from energy-storage electric boiler, described is used for being connected with described user side from the outlet pipe of energy-storage electric boiler.

Preferably, described air source energy-accumulating solid boiler also includes ambient temperature detection device；Described ambient temperature detection device is connected with described control device, for detecting the ambient temperature around described air energy heat pump, and the ambient temperature detected is sent to described control device；

Described control device, within the non-valley power consumption time, according to the relation of described ambient temperature Yu the first preset temperature, controls the duty of described air energy heat pump.

Preferably, described air source energy-accumulating solid boiler also includes that pipe temperature detector surveys device；Described pipe temperature detector is surveyed device and is arranged on described between energy-storage electric boiler and described user side, and is connected with described control device；

Described pipe temperature detector surveys device, the water temperature in signal piping, and the first temperature detected is sent to described control device；

Described control device is within the non-valley power consumption time, always according to the relation of described first temperature Yu the second preset temperature, controls described from the duty of energy-storage electric boiler.

Preferably, described air source energy-accumulating solid boiler also includes input/output unit；Described input/output unit is connected with described control device, is used for inputting described first preset temperature and/or described second preset temperature, and shows described ambient temperature and/or described first temperature.

Preferably, described input/output unit is touch screen.

Preferably, described control device, in the valley power consumption time, controls described air energy heat pump and is closing duty, and opening duty from energy-storage electric boiler described in control.

Preferably, described hot water circulating pump is arranged on described on the pipeline between energy-storage electric boiler and described user side.

Preferably, described from the boilers heated electrically that energy-storage electric boiler is solid heat storage body accumulation of heat.

Preferably, described control device is PLC.

Use produced by technique scheme and have the beneficial effects that: use air energy heat pump and be that the liquid in pipeline heats from energy-storage electric boiler, can solve the problem that the problem that when the simple ambient temperature using air energy heat pump to occur when heating is relatively low, heat supply efficiency is low, also be able to solve to use merely occur when energy-storage electric boiler heats electric load is bigger than normal and problem that electric power auxiliary facility is not enough, relatively costly, reach to improve heat supply efficiency, reduce heating cost and expand the advantage for warm range.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure: 100, control device；200, air energy heat pump；300, from energy-storage electric boiler；400, hot water circulating pump；500, input/output unit；600, supply channel；700, water return pipeline；800, user side；101, ambient temperature detection device；102, pipe temperature detector surveys device.

Detailed description of the invention

With detailed description of the invention, this utility model is described in further detail below in conjunction with the accompanying drawings.

Seeing Fig. 1, in an embodiment, air source energy-accumulating solid boiler can include air energy heat pump 200, from energy-storage electric boiler 300, control device 100 and hot water circulating pump 400.Control device 100 communicates to connect respectively with air energy heat pump 200 with from energy-storage electric boiler 300.Air energy heat pump 200, connected by pipeline from energy-storage electric boiler 300 and hot water circulating pump 400.In use, air energy heat pump 200, form closed circuit from energy-storage electric boiler 300 and hot water circulating pump 400 by pipeline and user side 800.Control device 100 for controlling air energy heat pump 200 and the duty from energy-storage electric boiler 300.Air energy heat pump 200 and be used to the liquid in pipeline is heated from energy-storage electric boiler 300.

As a kind of embodiment, seeing Fig. 1, the water inlet pipe of air energy heat pump 200 is for being connected with user side 800.The outlet pipe of air energy heat pump 200 is connected with the water inlet pipe from energy-storage electric boiler 300.From the outlet pipe of energy-storage electric boiler 300 for being connected with user side 800.

Seeing Fig. 1, in an embodiment, air source energy-accumulating solid boiler can also include ambient temperature detection device 101.Ambient temperature detection device 101 is connected with controlling device 100, for detecting the ambient temperature around air energy heat pump 200, and is sent to the ambient temperature detected control device 100.Control device 100, within the non-valley power consumption time, according to the relation of ambient temperature Yu the first preset temperature, controls the duty of air energy heat pump 200.Concrete, the non-valley power consumption time can be 22:00 to 06:00, and the first preset temperature can be-10 DEG C or-5 DEG C of isothermal angle value.

It should be understood that the ambient temperature of air energy heat pump 200 is when less than-10 DEG C, the work efficiency of air energy heat pump 200 is relatively low, and being difficult to is the liquid heating in pipeline again.Therefore, control device 100 is within the non-valley power consumption time, if it is determined that ambient temperature is higher than the first preset temperature, then controls the duty in air energy thermal source 200 for opening.That is, it is that the liquid in pipeline heats by air energy thermal source 200.And control device 100 within the non-valley power consumption time, if it is determined that ambient temperature less than the first preset temperature, then controls the duty in air energy thermal source 200 for closing, control from the duty of energy-storage electric boiler 300 as opening.That is, by being that the liquid in pipeline heats from energy-storage electric boiler 300.

Further, air source energy-accumulating solid boiler can also include that pipe temperature detector surveys device 102.Pipe temperature detector is surveyed device 102 and is arranged on between energy-storage electric boiler 300 and user side 800, and is connected with controlling device 100.Pipe temperature detector surveys device 102, the water temperature in signal piping, and is sent to the first temperature detected control device 100.Control device 100, within the non-valley power consumption time, also can control the duty from energy-storage electric boiler 300 according to the relation of the first temperature Yu the second preset temperature.Concrete, the second preset temperature can be the temperature that user side 800 needs, for example, 60 DEG C.

It should be understood that the liquid in pipeline is heated by air energy heat pump 200, leaving water temperature may be less than the second preset temperature.At this time, it may be necessary to the liquid heated through air energy heat pump 200, then use and carry out post bake from energy-storage electric boiler 300, so that the leaving water temperature of air source energy-accumulating solid boiler meets the requirement of the second preset temperature.

Seeing Fig. 1, in an embodiment, air source energy-accumulating solid boiler can also include input/output unit 500.Input/output unit 500 is connected with controlling device 100, for input the first preset temperature and/or the second preset temperature, and display environment temperature and/or the first temperature.User can set the first preset temperature by this input/output unit 500, to prevent when the work efficiency of air energy heat pump 200 is too low still in duty.User can set the second preset temperature by this input/output unit 500, more preferably to ensure that the leaving water temperature of air source energy-accumulating solid boiler meets preset requirement.Certainly, user can also observe ambient temperature and the leaving water temperature of air source energy-accumulating solid boiler of air energy heat pump 200 by this input/output unit 500, in order to understands the working condition of air source energy-accumulating solid boiler in real time.

As a kind of embodiment, input/output unit 500 can use touch screen to realize.

It is additionally operable in the valley power consumption time it is also preferred that the left control device 100, controls air energy heat pump 200 and closing duty, and control opening duty from energy-storage electric boiler 300.Owing in the valley power consumption time, the work efficiency of air energy heat pump 200 reduces, and the electricity charge needed for energy-storage electric boiler 300 are inexpensively, therefore can use from energy-storage electric boiler 300 is that the liquid in pipeline heats.Meanwhile, can also carry out accumulation of heat from energy-storage electric boiler 300, for when non-valley power consumption time air energy heat pump 200 can not meet heating requirements, auxiliary carries out post bake to the liquid in pipeline.

It addition, in an embodiment, hot water circulating pump 400 can be arranged on the pipeline between energy-storage electric boiler 300 and user side 800, so that the hot water circuit in pipeline is better.

In the present embodiment, from the boilers heated electrically that energy-storage electric boiler 300 is solid heat storage body accumulation of heat, controlling device 100 is PLC.

Hereinafter the work process of air source energy-accumulating solid boiler is described.

Within the non-valley power consumption time, the ambient temperature that ambient temperature detection device 101 is detected by control device 100 compares with the first preset temperature.If ambient temperature is higher than the first preset temperature, control device 100 controls air energy heat pump 200 and heats by the cold water transmitted in water return pipeline 700.Control device 100 the first temperature that pipe temperature detector survey device 102 detects to be compared with the second preset temperature again.If the first temperature is less than the second preset temperature, then controls device 100 and control, from energy-storage electric boiler 300, the water heated through air energy heat pump 200 is carried out post bake.If the first temperature is not less than the second preset temperature, then the water being not required to heating through air energy heat pump 200 from energy-storage electric boiler 300 carries out post bake.Water through heating arrives user side 800, for user's heat supply by supply channel 600.

If ambient temperature is less than the first preset temperature, then controls device 100 and control air energy heat pump 200 and close, and control to heat by the cold water transmitted in water return pipeline 700 from energy-storage electric boiler 300, and be heated to the second preset temperature.Water through heating arrives user side 800, for user's heat supply by supply channel 600.

Within the valley power consumption time, control device 100 controls air energy heat pump 200 and closes, and controls to heat by the cold water transmitted in water return pipeline 700 from energy-storage electric boiler 300, and is heated to the second preset temperature.Water through heating arrives user side 800, for user's heat supply by supply channel 600.

In the present embodiment, it can be all temperature sensor that ambient temperature detection device 101 and pipe temperature detector survey device 102.Further, since air source energy-accumulating solid boiler includes air energy heat pump 200, therefore air source energy-accumulating solid boiler can be also used for refrigeration, it is possible to meets the refrigeration demand of user.

Above-mentioned air source energy-accumulating solid boiler, use air energy heat pump 200 and be that the liquid in pipeline heats from energy-storage electric boiler 300, can solve the problem that the problem that when the simple ambient temperature using air energy heat pump 200 to occur when heating is relatively low, heat supply efficiency is low, also be able to solve to use merely occur when energy-storage electric boiler 300 heats electric load is bigger than normal and problem that electric power auxiliary facility is not enough, relatively costly, reach improve heating or heating efficiency, reduction heating cost and expand the advantage for warm range.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, within should be included in protection domain of the present utility model.

Claims (10)

1. an air source energy-accumulating solid boiler, it is characterised in that include air energy heat pump, from energy-storage electric boiler, control device and hot water circulating pump；Described control device and described air energy heat pump and described communicate to connect respectively from energy-storage electric boiler, described air energy heat pump, described connected by pipeline from energy-storage electric boiler and described hot water circulating pump；

Described control device is for controlling described air energy heat pump and the described duty from energy-storage electric boiler；

Described air energy heat pump and described be used to the liquid in pipeline is heated from energy-storage electric boiler.

Air source energy-accumulating solid boiler the most according to claim 1, it is characterized in that, the water inlet pipe of described air energy heat pump is for being connected with user side, the outlet pipe of described air energy heat pump is connected with the described water inlet pipe from energy-storage electric boiler, described from the outlet pipe of energy-storage electric boiler for being connected with described user side.

Air source energy-accumulating solid boiler the most according to claim 2, it is characterised in that described air source energy-accumulating solid boiler also includes ambient temperature detection device；Described ambient temperature detection device is connected with described control device, for detecting the ambient temperature around described air energy heat pump, and the ambient temperature detected is sent to described control device；

Described control device, within the non-valley power consumption time, according to the relation of described ambient temperature Yu the first preset temperature, controls the duty of described air energy heat pump.

Air source energy-accumulating solid boiler the most according to claim 3, it is characterised in that described air source energy-accumulating solid boiler also includes that pipe temperature detector surveys device；Described pipe temperature detector is surveyed device and is arranged on described between energy-storage electric boiler and described user side, and is connected with described control device；

Described pipe temperature detector surveys device, the water temperature in signal piping, and the first temperature detected is sent to described control device；

Described control device is within the non-valley power consumption time, always according to the relation of described first temperature Yu the second preset temperature, controls described from the duty of energy-storage electric boiler.

Air source energy-accumulating solid boiler the most according to claim 4, it is characterised in that described air source energy-accumulating solid boiler also includes input/output unit；Described input/output unit is connected with described control device, is used for inputting described first preset temperature and/or described second preset temperature, and shows described ambient temperature and/or described first temperature.

Air source energy-accumulating solid boiler the most according to claim 5, it is characterised in that described input/output unit is touch screen.

Air source energy-accumulating solid boiler the most according to claim 2, it is characterised in that described control device, in the valley power consumption time, controls described air energy heat pump and closing duty, and opening duty from energy-storage electric boiler described in control.

Air source energy-accumulating solid boiler the most according to claim 2, it is characterised in that described hot water circulating pump is arranged on described on the pipeline between energy-storage electric boiler and described user side.

Air source energy-accumulating solid boiler the most according to claim 1, it is characterised in that described from the boilers heated electrically that energy-storage electric boiler is solid heat storage body accumulation of heat.

10. according to the air source energy-accumulating solid boiler described in claim 1 to 9 any one, it is characterised in that described control device is PLC.