CN104633746A - Control method of burning pump complementary water heating system - Google Patents

Abstract

The invention discloses a control method of a burning pump complementary water heating system. The method includes that when the state is a hot water utilizing state and temperature detecting valve of a temperature probe is larger than or equal to set water utilizing temperature and when the state is not the hot water utilizing state and the temperature detecting valve of the temperature probe is larger than or equal to the set water utilizing temperature, a heating circulating pump and a heat pump are controlled to start if the period is a heating working time period and temperature detecting value of a heating room temperature controller is smaller than set heating temperature, the heating circulating pump is controlled to stop and the heat pump is controlled to start if the period is the heating working time period and the temperature detecting value of the heating room temperature controller is larger than or equal to the set heating temperature, and the heating circulating pump and the heat pump are controlled to stop if the period is outside the heating working time period. According to the control method of the burning pump complementary water heating system, life hot water can be timely supplied while heating effects are guaranteed, and water utilization demands of a user in each time period can be met.

Description

The control method of combustion pump complementary hot-water system

Technical field

The present invention relates to electrical equipment manufacturing technology field, in particular to a kind of control method of firing pump complementary hot-water system.

Background technology

Combustion pump complementary hot-water system in correlation technique, easily affects the supply of domestic hot-water, causes leaving water temperature cannot reach setting coolant-temperature gage when heating function is opened, cannot meet user and use water requirement in each time period.

Summary of the invention

The present invention is intended to solve one of above-mentioned technical problem in correlation technique at least to a certain extent.For this reason, the present invention proposes a kind of control method of firing pump complementary hot-water system, and the control method of this combustion pump complementary hot-water system can realize the timely supply of domestic hot-water when ensureing heating effect, meets user and uses water requirement in each time period.

For achieving the above object, propose a kind of control method of heat pump complementary hot-water system according to embodiments of the invention, described combustion pump complementary hot-water system comprises: water tank, and described water tank is connected with water source by cold water inlet, is provided with temp probe in described water tank, life cold water outlet pipe, described life cold water outlet pipe is connected with described cold water inlet, and described life cold water outlet pipe has life cold water water end (W.E.), domestic hot-water's outlet pipe, described domestic hot-water's outlet pipe is connected with described water tank, and described domestic hot-water's outlet pipe has domestic hot-water's water end (W.E.), heat pump, described heat pump is connected with described water tank with heat pump outlet pipe by heat pump water inlet pipe, gas heater, described gas heater is connected with described water tank with the hot outlet pipe of combustion by the hot water inlet pipe of combustion, first triple valve and the second triple valve, described first triple valve is located on described domestic hot-water's outlet pipe, and described second triple valve is located on the hot outlet pipe of described combustion, and described first triple valve is connected by the hot exit branch of combustion with described second triple valve, Living Water circulating pump, described Living Water circulating pump to be located on the hot outlet pipe of described combustion and between described second triple valve and described water tank, temperature flow sensor, described temperature flow sensor to be located on described domestic hot-water's outlet pipe and between described first triple valve and described domestic hot-water's water end (W.E.), 3rd triple valve, described 3rd triple valve to be located on described heat pump outlet pipe and to be connected with the hot water inlet pipe of described combustion by heat pump exit branch, heat exchange coil, described heat exchange coil is located in described water tank, condensate correcting-distribuing device, described condensate correcting-distribuing device is connected with described heat exchange coil with heating outlet pipe by heating water inlet pipe, heating circulating pump, described heating circulating pump is located on described heating outlet pipe, multiple heat-sink unit, multiple described heat-sink unit is connected with described condensate correcting-distribuing device respectively and multiple described heat-sink unit is parallel relationship, for detecting the heating room temperature controller of heating room temperature, described control method comprises: set some domestic water working time sections and heating working time section, no matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, control described gas heater and described Living Water circulation pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be less than setting heating temperature, then control described heating circulating pump and the unlatching of described heat pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be more than or equal to as described in setting heating temperature, then control described heating circulation pump and control described heat pump to open, as outside heating working time section as described in being in, then control described heating circulating pump and the closedown of described heat pump, no matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described heat pump and described gas heater and open and control described Living Water circulating pump and described heating circulation pump, be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described heat pump, described gas heater and described Living Water circulating pump and open and control described heating circulation pump, be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, control described gas heater and described Living Water circulation pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be less than setting heating temperature, then control described heating circulating pump and the unlatching of described heat pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be more than or equal to as described in setting heating temperature, then control described heating circulation pump and control described heat pump to open, as outside heating working time section as described in being in, then control described heating circulating pump and the closedown of described heat pump, be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described heat pump and open and control described gas heater, described Living Water circulating pump and described heating circulation pump, be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, control described gas heater and described Living Water circulation pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be less than setting heating temperature, then control described heating circulating pump and the unlatching of described heat pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be more than or equal to as described in setting heating temperature, then control described heating circulation pump and control described heat pump to open, as outside heating working time section as described in being in, then control described heating circulating pump and the closedown of described heat pump.

The timely supply of domestic hot-water can be realized according to the control method of the combustion pump complementary hot-water system of the embodiment of the present invention when ensureing heating effect, meeting user and using water requirement in each time period.

In addition, combustion pump complementary hot-water system according to the above embodiment of the present invention can also have following additional technical characteristic:

According to one embodiment of present invention, be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than described setting coolant-temperature gage, control to open in the predetermined heat time of described heat pump only before the next one described domestic water working time section.

According to one embodiment of present invention, in heating working time section and the temperature detection value of described temp probe is less than described setting coolant-temperature gage, described heating circulation pump is controlled under hot water water state, hot water water stops after predetermined interval and the temperature detection value of described temp probe is more than or equal to described setting coolant-temperature gage, then control described heating circulating pump and open.

According to one embodiment of present invention, described predetermined interval is 5 minutes.

According to one embodiment of present invention, no matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is more than or equal to described setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve; No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe be less than described setting coolant-temperature gage and be more than or equal to described setting coolant-temperature gage deduct predetermined difference value time, control described first triple valve and be only communicated with described domestic hot-water's water end (W.E.) and be only communicated with described gas heater with described second triple valve, described second triple valve and be only communicated with described heat pump and described water tank with described first triple valve, described 3rd triple valve; No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe be less than described setting coolant-temperature gage deduct predetermined difference value time, control described first triple valve and be only communicated with described domestic hot-water's water end (W.E.) and be only communicated with described gas heater with described second triple valve, described second triple valve and be only communicated with described heat pump and the hot water inlet pipe of described combustion with described first triple valve, described 3rd triple valve.

According to one embodiment of present invention, described predetermined difference value is 10 DEG C.

According to one embodiment of present invention, be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve; Be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve.

According to one embodiment of present invention, be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve; Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve.

According to one embodiment of present invention, no matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, as in heating working time section as described in being in, then control described heat pump and add predetermined added value with described setting coolant-temperature gage and start; No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, control described heat pump and described gas heater all starts with described setting coolant-temperature gage; Be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, control described heat pump and described gas heater all starts with described setting coolant-temperature gage; Be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, as in heating working time section as described in being in, then control described heat pump and add described predetermined added value with described setting coolant-temperature gage and start; Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described heat pump and start with described setting coolant-temperature gage; Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, as in heating working time section as described in being in, then control described heat pump and add described predetermined added value with described setting coolant-temperature gage and start.

According to one embodiment of present invention, described predetermined added value is 3 DEG C.

Accompanying drawing explanation

Fig. 1 is the structural representation of the combustion pump complementary hot-water system according to the embodiment of the present invention.

Fig. 2 is the heating schematic diagram of the combustion pump complementary hot-water system according to the embodiment of the present invention.

Fig. 3 is the logic control chart of the control method of combustion pump complementary hot-water system according to the embodiment of the present invention.

Reference numeral: combustion pump complementary hot-water system 1, water source 2, water tank 10, temp probe 11, cold water inlet 20, 4th check valve 21, life cold water outlet pipe 30, life cold water water end (W.E.) 31, domestic hot-water's outlet pipe 40, domestic hot-water is with water end (W.E.) 41, second check valve 42, heat pump 50, heat pump water inlet pipe 60, heat pump outlet pipe 70, gas heater 80, fire hot water inlet pipe 90, 3rd check valve 91, fire hot outlet pipe 100, first triple valve 110, second triple valve 120, fire hot exit branch 130, first check valve 131, Living Water circulating pump 140, temperature flow sensor 150, central controller 170, 3rd triple valve 180, heat pump exit branch 190, heat exchange coil 200, condensate correcting-distribuing device 210, heating water inlet pipe 220, heating outlet pipe 230, heating circulating pump 240, heat-sink unit 250, towel rack 251, floor heating 252, fin 253, heating room temperature controller 260, water softener 270, preposition water purifier 280, lavatory basin 290, showerhead 300.

Detailed description of the invention

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the present invention, and can not limitation of the present invention be interpreted as.

Below with reference to the accompanying drawings combustion pump complementary hot-water system 1 according to the embodiment of the present invention is described.

As depicted in figs. 1 and 2, combustion pump complementary hot-water system 1 according to the embodiment of the present invention comprises water tank 10, cold water inlet 20, life cold water outlet pipe 30, domestic hot-water's outlet pipe 40, heat pump 50, heat pump water inlet pipe 60, heat pump outlet pipe 70, gas heater 80, fire hot water inlet pipe 90, fire hot outlet pipe 100, first triple valve 110, second triple valve 120, fire hot exit branch 130, Living Water circulating pump 140, temperature flow sensor 150, heat exchange coil 200, condensate correcting-distribuing device 210, heating water inlet pipe 220, heating outlet pipe 230, heating circulating pump 240, multiple heat-sink unit 250, heating room temperature controller 260 and central controller 170.

Water tank 10 is connected with water source 2 by cold water inlet 20, is provided with temp probe 11 in water tank 10.Life cold water outlet pipe 30 is connected with cold water inlet 20, and life cold water outlet pipe 30 has life cold water water end (W.E.) 31.Domestic hot-water's outlet pipe 40 is connected with water tank 10, and domestic hot-water's outlet pipe 40 has domestic hot-water with water end (W.E.) 41.Heat pump 50 is connected with water tank 10 with heat pump outlet pipe 70 by heat pump water inlet pipe 60.Gas heater 80 is connected with water tank 10 with the hot outlet pipe 100 of combustion by the hot water inlet pipe 90 of combustion.First triple valve 110 is located on domestic hot-water's outlet pipe 40, and the second triple valve 120 is located on the hot outlet pipe 100 of combustion, and the first triple valve 110 is connected by the hot exit branch 130 of combustion with the second triple valve 120.Living Water circulating pump 140 is located on the hot outlet pipe 100 of combustion, and Living Water circulating pump 140 is between the second triple valve 120 and water tank 10.Temperature flow sensor 150 is located on domestic hot-water's outlet pipe 40, and temperature flow sensor 150 is between the first triple valve 110 and domestic hot-water are with water end (W.E.) 41.Heat exchange coil 200 is located in water tank 10.Condensate correcting-distribuing device 210 is connected with heat exchange coil 200 with heating outlet pipe 230 by heating water inlet pipe 220.Heating circulating pump 240 is located on heating outlet pipe 230.Multiple heat-sink unit 250 is connected with condensate correcting-distribuing device 210 respectively and multiple heat-sink unit 250 is parallel relationship.After water heat exchange in water in heat exchange coil 200 and water tank 10, condensate correcting-distribuing device 210 is entered by heating water inlet pipe 220, then multiple heat-sink unit 250 is dispensed into through condensate correcting-distribuing device 210, current after multiple heat-sink unit 250 dispels the heat return condensate correcting-distribuing device 210, after condensate correcting-distribuing device 210 is assembled, flow back to heat exchange coil 200 again by heating outlet pipe 230.Heating room temperature controller 260 is for detecting heating room temperature.Central controller 170 respectively with gas heater 80, heat pump 50, temp probe 11, first triple valve 110, second triple valve 120, Living Water circulating pump 140, temperature flow sensor 150, heating circulating pump 240 and heating room temperature controller 260 communication.

Wherein, about the first triple valve 110, its two ends connecting water tank 10 and the second triple valve 120 are normal-closed end, and its two ends connecting domestic hot-water's water end (W.E.) 41 and water tank 10 are normal open state, and its two ends connecting domestic hot-water's water end (W.E.) 41 and the second triple valve 120 are normally off.

About the second triple valve 120, its two ends connecting water tank 10 and the first triple valve 110 are normal-closed end, and its two ends connecting gas heater 80 and water tank 10 are normal open state, and its two ends connecting gas heater 80 and the first triple valve 110 are normally off.

According to the combustion pump complementary hot-water system 1 of the embodiment of the present invention, adopt heat pump 50 and gas heater 80 to carry out complementation, heat pump 50 can be utilized to make up combustion thermal defect and utilize combustion heat to make up heat pump 50 defect, realizing constant temperature, immediately supply water.

In addition, by arranging the heat-sink unit 250 of multiple parallel connection, enter multiple heat-sink unit 250 through the hot water of condensate correcting-distribuing device 210 with identical temperature to dispel the heat, the low temperature heating system of composition complete set, dispel the heat with full low temperature 50 DEG C, realize low temperature heating, the structure of combustion pump complementary hot-water system 1 can be simplified thus, mixed to equipment and Based Intelligent Control end without the need to arranging, significantly reduce cost, add security of system intensity, at heating capacity, power consumption and hot water total amount, the aspects such as heating function advantageously, efficiency higher grade, reduce small family's house type user heating cost, be more suitable for southern family to use.

Therefore, domestic water supply and low temperature heating demand can be met according to the combustion pump complementary hot-water system 1 of the embodiment of the present invention, and there is energy-conservation, structure simply and low cost and other advantages.

Below with reference to the accompanying drawings combustion pump complementary hot-water system 1 according to the specific embodiment of the invention is described.

In specific embodiments more of the present invention, as depicted in figs. 1 and 2, combustion pump complementary hot-water system 1 according to the embodiment of the present invention comprises water tank 10, cold water inlet 20, life cold water outlet pipe 30, domestic hot-water's outlet pipe 40, heat pump 50, heat pump water inlet pipe 60, heat pump outlet pipe 70, gas heater 80, fire hot water inlet pipe 90, fire hot outlet pipe 100, first triple valve 110, second triple valve 120, fire hot exit branch 130, Living Water circulating pump 140, temperature flow sensor 150, heat exchange coil 200, condensate correcting-distribuing device 210, heating water inlet pipe 220, heating outlet pipe 230, heating circulating pump 240, multiple heat-sink unit 250, heating room temperature controller 260 and central controller 170.

Specifically, as depicted in figs. 1 and 2, multiple heat-sink unit 250 comprises at least one in towel rack 251, floor heating 252 and fin 253.

In concrete examples more of the present invention, as shown in Figure 1, in order to make the temperature detection value of temp probe 11 more close to the leaving water temperature of water tank 10, the contiguous domestic hot-water's outlet pipe 40 of temp probe 11 is arranged.

Further, as shown in Figure 1, heat pump outlet pipe 70 is provided with and is connected with the hot water inlet pipe 90 of combustion by heat pump exit branch 190 with the 3rd triple valve the 180, three triple valve 180, central controller 170 and the 3rd triple valve 180.Wherein, about the 3rd triple valve 180, its two ends connecting water tank 10 and heat pump exit branch 190 are normal-closed end, and its two ends connecting water tank 10 and heat pump 50 are normal open state, and its two ends connecting heat pump 50 and heat pump exit branch 190 are normally off.Central controller 170 by the keying of control the 3rd triple valve 180, can control the current recovery tank 10 after heat pump 50 heats or directly flows to gas heater 80, can improve hot water effluent's speed of combustion pump complementary hot-water system 1 thus when needing.

In specific embodiments more of the present invention, as shown in Figure 1, in order to ensure to fire the water (flow) direction in pump complementary hot-water system 1, prevent backflow phenomenon, the pipeline of combustion pump complementary hot-water system 1 is provided with the first check valve 131, second check valve 42, the 3rd check valve 91 and the 4th check valve 21.

Specifically, the first check valve 131 is located on the hot exit branch 130 of combustion, and the first check valve 131 only allows current direction first triple valve 110 at the second triple valve 120 place.

Second check valve 42 is located on domestic hot-water's outlet pipe 40 and between water tank 10 and the first triple valve 110, the second triple valve 120 only allows current direction first triple valve 110 in water tank 10.

3rd check valve 91 is located on the hot water inlet pipe 90 of combustion and between water tank 10 and heat pump exit branch 190, the 3rd check valve 91 only allows current direction gas heater 80 in water tank 10 and the 3rd triple valve 180.

4th check valve 21 is located on cold water inlet 20 and between life cold water outlet pipe 30 and water tank 10, the 4th check valve 21 only allows the current direction water tank 10 at water source 2.

In concrete examples more of the present invention, as shown in Figure 1, cold water inlet 20 is provided with water softener 270 and preposition water purifier 280, and preposition water purifier 280 and water softener 270 are between life cold water outlet pipe 30 and water source 2, and the more contiguous water source 2 of preposition water purifier 280 compared by water softener 270.The water that water softener 270 and preposition water purifier 280 pairs of water sources 2 can be utilized thus to flow into system 1 carries out softening and purifying, and can improve effluent quality on the one hand, can extend the service life of system 1 on the other hand.

Alternatively, as shown in Figure 1, life cold water outlet pipe 30 has multiple life cold water water end (W.E.) 31, and domestic hot-water's outlet pipe 40 has multiple domestic hot-water with water end (W.E.) 41, and each domestic hot-water is connected a lavatory basin 290 or showerhead 300 with water end (W.E.) 41 jointly with a life cold water water end (W.E.) 31.Wherein, lavatory basin 290 make a general reference 6-8L with drainage facility, what showerhead 300 made a general reference more than 8L uses drainage facility.Life hot and cold water can be user-friendly to thus.

According to the combustion pump complementary hot-water system 1 of the embodiment of the present invention other form and operation be all known for those of ordinary skills, be not described in detail here.

Below with reference to the accompanying drawings the control method of the combustion pump complementary hot-water system 1 according to the embodiment of the present invention is described.

As shown in Figure 3, comprise according to the control method of the combustion pump complementary hot-water system 1 of the embodiment of the present invention:

Set some domestic water working time sections and heating working time section, such as, set three domestic water working time sections and a heating working time section, domestic water working time section and heating working time section relatively independent, and can be overlapped.

Under hot water water state (temperature flow sensor 150 has flow signal), no matter whether be in described domestic water working time section, the X when the temperature detection value T2 of temp probe 11 is more than or equal to setting coolant-temperature gage, controls gas heater 80 and Living Water circulating pump 140 cuts out;

Control the first triple valve 110 only joining water box 10 and domestic hot-water with water end (W.E.) 41 (namely only A1, A2 are communicated with), control the second triple valve 120 and be only communicated with gas heater 80 and water tank 10 (namely only B1, B2 are communicated with), 3rd triple valve 180 is only communicated with heat pump 50 and water tank 10 (namely C1, C2 are communicated with), and the water in water tank 10 feeds to domestic hot-water with water end (W.E.) 41 by domestic hot-water's outlet pipe 40.

Now, as in heating working time section as described in being in and the temperature detection value of heating room temperature controller 260 is less than setting heating temperature X1, then control heating circulating pump 240 to open, and control heat pump 50 adds the startup of predetermined added value with described setting coolant-temperature gage X, described predetermined added value is 3 DEG C.

As in heating working time section as described in being in and the temperature detection value of heating room temperature controller 260 be more than or equal to as described in setting heating temperature X1, then control heating circulating pump 240 to close, and control heat pump 50 adds the startup of predetermined added value with described setting coolant-temperature gage X, described predetermined added value is 3 DEG C.

As outside heating working time section as described in being in, then control heating circulating pump 240 and heat pump 50 cuts out.

Under hot water water state, no matter whether be in described domestic water working time section, the X when the temperature detection value T2 of temp probe 11 is less than setting coolant-temperature gage, control heat pump 50 and gas heater 80 are all opened with setting coolant-temperature gage X, and control Living Water circulating pump 140 and heating circulating pump 240 are closed.

Now, when the temperature detection value T2 of temp probe 11 be less than described setting coolant-temperature gage X and be more than or equal to described setting coolant-temperature gage X deduct predetermined difference value time, control the first triple valve 110 and be only communicated with domestic hot-water with water end (W.E.) 41 and the second triple valve 120 (i.e. only A1, A3 is communicated with), control the second triple valve 120 and be only communicated with gas heater 80 and the first triple valve 110 (i.e. only B1, B3 is communicated with), control the 3rd triple valve 180 and be only communicated with heat pump 50 and water tank 10 (i.e. only C1, C2 is communicated with), water enters water tank 10 after heat pump 50 heats, then gas heater 80 heats again, domestic hot-water is fed to water end (W.E.) 41 through the second triple valve 120 and the first triple valve 110 successively after gas heater 80 heats again.

When the temperature detection value T2 of temp probe 11 be less than described setting coolant-temperature gage X deduct predetermined difference value time, control the first triple valve 110 and be only communicated with domestic hot-water with water end (W.E.) 41 and the second triple valve 120 (i.e. only A1, A3 is communicated with), control the second triple valve 120 and be only communicated with gas heater 80 and the first triple valve 110 (i.e. only B1, B3 is communicated with), control the 3rd triple valve 180 and be only communicated with heat pump 50 and the hot water inlet pipe of combustion 90 (i.e. only C2, C3 is communicated with), water after heat pump 50 heats directly enters gas heater 80 without water tank 10, then domestic hot-water is fed to water end (W.E.) 41 through the second triple valve 120 and the first triple valve 110 successively.

Alternatively, described predetermined difference value is 10 DEG C.

Specifically, in heating working time section and the temperature detection value T2 of temp probe 11 is less than described setting coolant-temperature gage X, under hot water water state, control heating circulating pump 240 close, hot water water stops after predetermined interval and the temperature detection value T2 of temp probe 11 is more than or equal to described setting coolant-temperature gage X, then control heating circulating pump 240 to open, wherein, described predetermined interval is 5 minutes.

Can ensure thus, during user's water, water requirement is used as heating system can meet, then heating function can be opened in heating working time section, water requirement is used as heating system cannot meet, then no matter whether in heating working time section, all close heating function, thus the moment meet user use water requirement.

Under non-hot water water state (temperature flow sensor 150 is without flow signal) and be in described domestic water working time section, when the temperature detection value T2 of temp probe 11 is less than setting coolant-temperature gage X, control heat pump 50 and gas heater 80 are all opened with setting coolant-temperature gage X, control Living Water circulating pump 140 to open, and control heating circulating pump 240 cuts out.

Control the first triple valve 110 only joining water box 10 and domestic hot-water with water end (W.E.) 41 (namely only A1, A2 are communicated with), control the second triple valve 120 and be only communicated with gas heater 80 and water tank 10 (namely only B1, B2 are communicated with), 3rd triple valve 180 is only communicated with heat pump 50 and water tank 10 (namely C1, C2 are communicated with), and heat pump 50 and gas heater 80 heat the water in water tank 10 simultaneously.

Be in described domestic water working time section under non-hot water water state, when the temperature detection value T2 of temp probe 11 is more than or equal to setting coolant-temperature gage X, control gas heater 80 and Living Water circulating pump 140 cuts out.

Control the first triple valve 110 only joining water box 10 and domestic hot-water with water end (W.E.) 41 (namely only A1, A2 are communicated with), control the second triple valve 120 and be only communicated with gas heater 80 and water tank 10 (namely only B1, B2 are communicated with), the 3rd triple valve 180 is only communicated with heat pump 50 and water tank 10 (namely C1, C2 are communicated with).

As in heating working time section as described in being in and the temperature detection value of heating room temperature controller 260 be more than or equal to as described in setting heating temperature X1, then control heating circulating pump 240 to close, and control heat pump 50 adds the startup of predetermined added value with described setting coolant-temperature gage X, described predetermined added value is 3 DEG C.

As outside heating working time section as described in being in, then control heating circulating pump 240 and heat pump 50 cuts out.

Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value T2 of temp probe 11 is less than setting coolant-temperature gage X, control gas heater 80, Living Water circulating pump 140 and heating circulating pump 240 are closed, control to open in the predetermined heat time of heat pump 50 before the next one described domestic water working time section, to carry out fuzzy heating, and outside predetermined heat time before the next one described domestic water working time section, then control heat pump 50 to close, wherein, the described predetermined heat time can set according to the efficiency of heating surface of heat pump 50, to ensure that the water temperature when next domestic water working time section in water tank 10 can reach setting coolant-temperature gage X.

Control the first triple valve 110 only joining water box 10 and domestic hot-water with water end (W.E.) 41 (namely only A1, A2 are communicated with), control the second triple valve 120 and be only communicated with gas heater 80 and water tank 10 (namely only B1, B2 are communicated with), the 3rd triple valve 180 is only communicated with heat pump 50 and water tank 10 (namely C1, C2 are communicated with).

Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value T2 of temp probe 11 is more than or equal to setting coolant-temperature gage X, control gas heater 80 and Living Water circulating pump 140 cuts out.

Control the first triple valve 110 only joining water box 10 and domestic hot-water with water end (W.E.) 41 (namely only A1, A2 are communicated with), control the second triple valve 120 and be only communicated with gas heater 80 and water tank 10 (namely only B1, B2 are communicated with), the 3rd triple valve 180 is only communicated with heat pump 50 and water tank 10 (namely C1, C2 are communicated with).

As in heating working time section as described in being in and the temperature detection value of heating room temperature controller 260 be more than or equal to as described in setting heating temperature X1, then control heating circulating pump 240 to close, and control heat pump 50 adds the startup of predetermined added value with described setting coolant-temperature gage X, described predetermined added value is 3 DEG C.

As outside heating working time section as described in being in, then control heating circulating pump 240 and heat pump 50 cuts out.

According to the control method of the combustion pump complementary hot-water system 1 of the embodiment of the present invention, the timely supply of domestic hot-water can be realized when ensureing heating effect, meeting user and using water requirement in each time period.

In describing the invention, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", orientation or the position relationship of the instruction such as " counterclockwise " are based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore limitation of the present invention can not be interpreted as.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In describing the invention, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

In the present invention, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, also can comprise the first and second features and not be directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " comprise fisrt feature immediately below second feature and tiltedly below, or only represent that fisrt feature level height is less than second feature.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.In addition, the different embodiment described in this description or example can carry out engaging and combining by those skilled in the art.

Although illustrate and describe embodiments of the invention above, be understandable that, above-described embodiment is exemplary, can not be interpreted as limitation of the present invention, and those of ordinary skill in the art can change above-described embodiment within the scope of the invention, revises, replace and modification.

Claims (10)

1. fire a control method for pump complementary hot-water system, it is characterized in that, described combustion pump complementary hot-water system comprises:

Water tank, described water tank is connected with water source by cold water inlet, is provided with temp probe in described water tank;

Life cold water outlet pipe, described life cold water outlet pipe is connected with described cold water inlet, and described life cold water outlet pipe has life cold water water end (W.E.);

Domestic hot-water's outlet pipe, described domestic hot-water's outlet pipe is connected with described water tank, and described domestic hot-water's outlet pipe has domestic hot-water's water end (W.E.);

Heat pump, described heat pump is connected with described water tank with heat pump outlet pipe by heat pump water inlet pipe;

Gas heater, described gas heater is connected with described water tank with the hot outlet pipe of combustion by the hot water inlet pipe of combustion;

First triple valve and the second triple valve, described first triple valve is located on described domestic hot-water's outlet pipe, and described second triple valve is located on the hot outlet pipe of described combustion, and described first triple valve is connected by the hot exit branch of combustion with described second triple valve;

Living Water circulating pump, described Living Water circulating pump to be located on the hot outlet pipe of described combustion and between described second triple valve and described water tank;

Temperature flow sensor, described temperature flow sensor to be located on described domestic hot-water's outlet pipe and between described first triple valve and described domestic hot-water's water end (W.E.);

3rd triple valve, described 3rd triple valve to be located on described heat pump outlet pipe and to be connected with the hot water inlet pipe of described combustion by heat pump exit branch;

Heat exchange coil, described heat exchange coil is located in described water tank;

Condensate correcting-distribuing device, described condensate correcting-distribuing device is connected with described heat exchange coil with heating outlet pipe by heating water inlet pipe;

Heating circulating pump, described heating circulating pump is located on described heating outlet pipe;

Multiple heat-sink unit, multiple described heat-sink unit is connected with described condensate correcting-distribuing device respectively and multiple described heat-sink unit is parallel relationship;

For detecting the heating room temperature controller of heating room temperature,

Described control method comprises:

Set some domestic water working time sections and heating working time section;

No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, control described gas heater and described Living Water circulation pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be less than setting heating temperature, then control described heating circulating pump and the unlatching of described heat pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be more than or equal to as described in setting heating temperature, then control described heating circulation pump and control described heat pump to open, as outside heating working time section as described in being in, then control described heating circulating pump and the closedown of described heat pump,

No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described heat pump and described gas heater and open and control described Living Water circulating pump and described heating circulation pump;

Be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described heat pump, described gas heater and described Living Water circulating pump and open and control described heating circulation pump;

Be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, control described gas heater and described Living Water circulation pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be less than setting heating temperature, then control described heating circulating pump and the unlatching of described heat pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be more than or equal to as described in setting heating temperature, then control described heating circulation pump and control described heat pump to open, as outside heating working time section as described in being in, then control described heating circulating pump and the closedown of described heat pump,

Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described heat pump and open and control described gas heater, described Living Water circulating pump and described heating circulation pump;

Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, control described gas heater and described Living Water circulation pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be less than setting heating temperature, then control described heating circulating pump and the unlatching of described heat pump, as in heating working time section as described in being in and as described in the temperature detection value of heating room temperature controller be more than or equal to as described in setting heating temperature, then control described heating circulation pump and control described heat pump to open, as outside heating working time section as described in being in, then control described heating circulating pump and the closedown of described heat pump.

2. the control method of combustion pump complementary hot-water system according to claim 1, it is characterized in that, be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than described setting coolant-temperature gage, control to open in the predetermined heat time of described heat pump only before the next one described domestic water working time section.

3. the control method of combustion pump complementary hot-water system according to claim 1, it is characterized in that, in heating working time section and the temperature detection value of described temp probe is less than described setting coolant-temperature gage, described heating circulation pump is controlled under hot water water state, hot water water stops after predetermined interval and the temperature detection value of described temp probe is more than or equal to described setting coolant-temperature gage, then control described heating circulating pump and open.

4. the control method of combustion pump complementary hot-water system according to claim 3, is characterized in that, predetermined interval is 5 minutes.

5. the control method of combustion pump complementary hot-water system according to claim 1, is characterized in that,

No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is more than or equal to described setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve;

No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe be less than described setting coolant-temperature gage and be more than or equal to described setting coolant-temperature gage deduct predetermined difference value time, control described first triple valve and be only communicated with described domestic hot-water's water end (W.E.) and be only communicated with described gas heater with described second triple valve, described second triple valve and be only communicated with described heat pump and described water tank with described first triple valve, described 3rd triple valve;

No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe be less than described setting coolant-temperature gage deduct predetermined difference value time, control described first triple valve and be only communicated with described domestic hot-water's water end (W.E.) and be only communicated with described gas heater with described second triple valve, described second triple valve and be only communicated with described heat pump and the hot water inlet pipe of described combustion with described first triple valve, described 3rd triple valve.

6. the control method of combustion pump complementary hot-water system according to claim 5, is characterized in that, described predetermined difference value is 10 DEG C.

7. the control method of combustion pump complementary hot-water system according to claim 1, it is characterized in that, be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve;

Be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve.

8. the control method of combustion pump complementary hot-water system according to claim 1, it is characterized in that, be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve;

Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, controls described first triple valve and be only communicated with described water tank and be only communicated with described gas heater with described domestic hot-water with water end (W.E.), described second triple valve and be only communicated with described heat pump and described water tank with described water tank, described 3rd triple valve.

9. the control method of the combustion pump complementary hot-water system according to any one of claim 1-8, is characterized in that,

No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, as in heating working time section as described in being in, then control described heat pump and add predetermined added value with described setting coolant-temperature gage and start;

No matter whether be in described domestic water working time section under hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, control described heat pump and described gas heater all starts with described setting coolant-temperature gage;

Be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, control described heat pump and described gas heater all starts with described setting coolant-temperature gage;

Be in described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, as in heating working time section as described in being in, then control described heat pump and add described predetermined added value with described setting coolant-temperature gage and start;

Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is less than setting coolant-temperature gage, controls described heat pump and start with described setting coolant-temperature gage;

Be in outside described domestic water working time section under non-hot water water state, when the temperature detection value of described temp probe is more than or equal to setting coolant-temperature gage, as in heating working time section as described in being in, then control described heat pump and add described predetermined added value with described setting coolant-temperature gage and start.

10. the control method of combustion pump complementary hot-water system according to claim 9, is characterized in that, described predetermined added value is 3 DEG C.