CN203131932U - Heating system combining solar energy and off-peak electricity - Google Patents

Abstract

The utility model provides a heating system combining solar energy and off-peak electricity in order to avoid the defects that a heat collector of an existing heating system combining the solar energy and the off-peak electricity is low in heat collecting efficiency and the system is easy to age in the prior art. The heating system combining the solar energy and the off-peak electricity comprises a heat collector, at least two water tanks and an electronic control system. Under the control of the electronic control system, every water tank can be subjected to heating and heat exchange independently. According to the heating system with the above structure, when the temperature and the water volume of the tanks are configured, the total heat storage quantity of every single water tank only needs to be set to meet the heating demands on the second day; during the energy storage by utilizing the off-peak electricity at night, the system can preferably heat water in the water tanks with the high water temperature and utilizes the off-peak electricity to subject the water tanks with the high water temperature to energy storage, therefore, the system can reach a set water temperature with less electric energy consumed; and during the daytime, the system can select water tanks with the low water temperature to exchange heat with the heat collector, so that the heat efficiency of the heat collector is improved, and further the energy-saving effect is improved.

Description

Solar energy is combined heating system with the low ebb electricity

Technical field

The utility model relates to a kind of solar energy and is combined heating system with the low ebb electricity.

Background technology

At present, solar energy has obtained at aspects such as bathing, heating, drinking water heat supplies using widely.For economic and energy saving, solar energy enterprise had developed solar energy in recent years--low ebb electricity storage heating system, and utilize daytime solar thermal collector that the water in the water tank is carried out heat exchange, utilize low ebb evening, water in the water tank is continued heating, reach and not only save money but also purpose of energy saving.

But currently used heating system, connected to form by a water tank and a solar thermal collector, electric heating device is set in water tank, adopt the heating system of said structure, evening is in the low ebb electricity period, start the electric heater in the hot water storage tank, water in the water tank is heated to design temperature, and during to daytime, water tank and heat collector carry out heat exchange, but, to daytime, because the water temperature that heats in the rear water box evening is too high, when heat collector and water tank heat exchange, heat exchange efficiency is low, reduces the collecting efficiency of solar energy; The water tank temperature height not only can increase the weight of thermal loss, the waste more heat of system simultaneously, and can accelerate the aging speed of system, the service life of shortening system.

The utility model content

The purpose of this utility model is that to be combined heating system heat collector collecting efficiency with the low ebb electricity at solar energy in the prior art low, system is aging deficiency easily, and the solar energy that a kind of further saves energy is provided and can improves the collecting efficiency of heat collector is combined heating system with the low ebb electricity.

The purpose of this utility model is achieved through the following technical solutions:

A kind of solar energy is combined heating system with the low ebb electricity, comprise heat collector, water tank and electric-control system, described water tank is at least two, and each water tank is connected with the heat collector outlet pipe by the heat exchange water inlet pipe respectively, and the heat exchange water inlet pipe of each water tank is provided with motor-driven valve; Each water tank is connected with the heat collector water inlet pipe by the heat exchange outlet pipe respectively, and the heat exchange outlet pipe of each water tank is provided with the heat exchange circulating pump; Each water tank send moisture pipe and heat supply to send the supply mains to be connected by heat supply respectively, and described heat supply is sent the supply mains and is connected with thermic devices; Each water tank all is connected with the cold water water supply line; In each water tank, be provided with electric heating device, in each water tank, be provided with the water tank water temperature probe; Described heat collector outlet pipe is provided with the heat collector water temperature probe, and described water tank water temperature probe, motor-driven valve, heat collector water temperature probe, heat exchange circulating pump, electric heating device are connected with described electric-control system respectively;

Each described water tank is in charge of with the heating system return main by the heating system backwater respectively and is connected, the heat supply of each described water tank send the moisture pipe to be provided with the backwater circulation pump, described heating system backwater is in charge of and is provided with magnetic valve, described heating system return main is provided with the backwater water temperature probe, the hot equipment of described usefulness is arranged on described heat supply and send between supply mains and described heating system return main, and described magnetic valve, described backwater water temperature probe, described backwater circulation pump all are connected with described electric-control system;

Described heat supply send the supply mains to be provided with water pressure master switch P1, and the described water pressure master switch P1 that uses is connected with described electric-control system;

Described heat collector water temperature probe is associated with described motor-driven valve, described heat exchange circulating pump; Described a kind of solar energy is combined heating system with the low ebb electricity, described backwater water temperature probe is associated with described backwater circulation pump, described magnetic valve;

Described motor-driven valve is electronic dish valve;

In each described water tank level sensor is set all, described level sensor links to each other with described electric-control system.

Adopt the heating system of the utility model structure, be provided with plural water tank, each water tank is connected with heat collector respectively, in each water tank, be provided with electric heating device, each water tank is connected with watering equipment respectively, so can be according to hot needs being water tank setting water consumption and maximum heating temperature, can heat or heat exchange the water in one or several water tank wherein according to program setting, saves energy so to a greater degree reaches the purpose of further energy savings.Adopt the heating system of said structure, as long as when carrying out the configuration of water tank temperature and the water yield, make total amount of stored heat of single water tank satisfy second day heat supply requirement, so during evening low ebb electricity accumulation of energy, system can preferentially start the electric heater of the higher water tank of water temperature, utilize the low ebb electricity to the water tank accumulation of heat of higher water temperature, system consumption electric energy still less just can reach the coolant-temperature gage of using of setting like this, satisfy second day heat demand, and during daytime, system can select to carry out heat exchange by water temperature low water tank and heat collector, so improved the thermal efficiency of heat collector, has further improved energy-saving effect.Therefore, native system can effectively reduce power consumption, utilize low ebb to greatest extent.

Description of drawings

Fig. 1 is that the utility model solar energy is combined heating system example structure schematic diagram with the low ebb electricity;

Fig. 2 is that the utility model solar energy is combined heating system example structure schematic diagram with the low ebb electricity.

Description of reference numerals

1-puts with hot charging, 2-the second water tank, the moisture pipe is sent in 3-the second heat supply, 4-the first heat supply send moisture pipe 5-the second water tank heat supply backwater to be in charge of, 6-heating system return main, 7-the first water tank, 8-first ball-cock assembly 9-the first water tank heat supply backwater is in charge of, 10-the first water tank heat exchange outlet pipe, the 11-solar thermal collector, 12-heat collector water inlet pipe, 13-heat collector outlet pipe, 14-the second water tank heat exchange outlet pipe, 16-the second ball-cock assembly, the 17-level sensor, 18-the second water tank heat exchange water inlet pipe, 19-the first water tank heat exchange water inlet pipe 20-backwater water temperature probe, 21-heat collector water temperature probe, the 31-switching value, the 32-analog quantity, the 33-thermal module, the 34-PLC processor, the 35-touch-screen, the 36-contact unit, the 37-control coil, 38-master control point, 39-equipment, 40-analog signal input channel, P1-water pressure master switch, D1-the first electric butterfly valve, D2-the second electric butterfly valve, D3-the first magnetic valve, D4-the second magnetic valve, B1-the first heat exchange circulating pump, B2-the second heat exchange circulating pump, B3-the first return circulating pump, B4-the second return circulating pump, DJ1-the first electric heating device, DJ2-the second electric heating device

The explanation of breviary term:

The T1-heat collector water temperature T 2-first water tank water temperature T 3-second water tank water temperature T 4-backwater water temperature LS1-first liquid-level probe LS2-second liquid-level probe

The specific embodiment

The utility model will be further described below in conjunction with drawings and Examples:

As depicted in figs. 1 and 2, the utility model solar energy is combined heating system with the low ebb electricity, comprise solar thermal collector 11 and at least two water tanks.Each water tank is connected with heat collector outlet pipe 13 by the heat exchange water inlet pipe respectively, and the heat exchange water inlet pipe of each water tank is provided with motor-driven valve, and this motor-driven valve is preferably electric butterfly valve; Each water tank is connected with heat collector water inlet pipe 12 by the heat exchange outlet pipe respectively, and the heat exchange outlet pipe of each water tank is provided with the heat exchange circulating pump; Each water tank send moisture pipe and heat supply to send the supply mains to be connected by heat supply respectively, and each heat supply send the moisture pipe to send the supply mains and be connected with thermic devices 1 by heat supply, and the heat supply of each water tank send the moisture pipe to be provided with the backwater circulation pump; Each water tank all is connected with the cold water water supply line; Each water tank is in charge of with heating system return main 6 by the heating system backwater respectively and is connected, and every heating system backwater is in charge of and is provided with magnetic valve; In each water tank, be provided with electric heating device; Heat supply send the supply mains to be provided with water pressure master switch P1, is provided with level sensor 17, water tank water temperature probe and ball-cock assembly in each water tank; Heating system return main 6 is provided with backwater water temperature probe 20, and heat collector outlet pipe 13 is provided with heat collector water temperature probe 21; Send in heating system return main 6 and heat supply and to be connected between the supply mains with thermic devices 1.Water tank water temperature probe, heat collector water temperature probe, backwater water temperature probe, level sensor, motor-driven valve, magnetic valve, backwater circulation pump, heat exchange circulating pump, be connected with electric-control system respectively with water pressure master switch, electric heating device.

Level sensor 17 is used for controlling the lowest water level of water tank, prevents the too low electric heating device dry combustion method of water level in the water tank.

On heat collector outlet pipe 13 He in the water tank, water temperature probe is set all, heat exchange outlet pipe at each water tank arranges the heat exchange circulating pump, the heat exchange water inlet pipe of each water tank is provided with motor-driven valve, system can compare water tank water temperature and heat collector water temperature T 1, when the temperature difference of heat collector water temperature T 1 and the water temperature of a certain water tank more than or equal to the temperature difference in limited time, start with the corresponding heat exchange circulating pump of this water tank; When the water temperature temperature difference of heat collector water temperature and water tank smaller or equal to water temperature under in limited time, circulating pump stops, like this, when having only the temperature difference of water tank water temperature and heat collector water temperature to reach certain value, heat collector ability is carried out heat exchange with water tank, can improve thermal-arrest and the heat exchange efficiency of heat collector.

Heating system return main 6 backwater water temperature probe 20 is set, be in charge of at each heating system backwater magnetic valve is set, send the moisture pipe that the backwater circulation pump is set in each heat supply, system can be surveyed heating system return main 6 backwater water temperature T 4 by the backwater water temperature probe: when backwater water temperature T 4 smaller or equal to return water temperature under in limited time, illustrate that heat supply send supply mains's water temperature low, the comfort level of user's water is poor, this moment, the backwater circulation pump corresponding with the water tank of hot-water supply can be opened by system, the water that temperature is low in the heat supply flow pipe is returned in the water tank of hot-water supply, hot water in the corresponding water tank enters heat supply and send the supply mains, when the backwater water temperature more than or equal to return water temperature in limited time, the backwater circulation pump quits work, and this moment, the user obtained the suitable hot water of water temperature.When the user took hot water, heat supply sent the usefulness water pressure master switch on the supply mains to open automatically, and the pump of the backwater circulation on the moisture pipe is sent in the heat supply of system's startup this moment hot-water supply water tank correspondence, improves discharge pressure and the water yield of hot water, improves comfort.

In order to realize above-mentioned functions, system can adopt following electric-control system:

This electric-control system comprises switching value 31, analog quantity 32, PLC processor 34, touch-screen 35, thermal module 33, contact unit 36.Output by switching value 31 is connected with the input of PLC processor, the output of analog quantity 32 is connected with the analog signal input channel 40 of thermal module 33, I/O module Port by thermal module is connected with the I/O module Port of PLC processor, COM2/COM3 by the PLC processor is connected with the COM Port of touch-screen, the control coil 37 corresponding connections of the output of PLC processor and each passage of contact unit, contact unit is connected with corresponding controlled device 39 by the main contacts 38 of each passage.In the utility model, corresponding equipment 39 comprises electronic dish valve, magnetic valve, circulating pump, electric heating device.With water pressure master switch P1, level sensor and switching value associated, water temperature probe is associated with analog quantity in the utility model.Wherein, the backwater water temperature probe is associated with backwater circulation pump, magnetic valve, and the heat collector water temperature probe is associated with motor-driven valve, heat exchange circulating pump.

Embodiment 1

Providing bathing hot water with system is example.Two water tanks are set in the system, are respectively first water tank 7 and second water tank 2, in first water tank 7, be provided with first ball-cock assembly 8, in second water tank 2, be provided with second ball-cock assembly 16, be used for controlling the inflow of water tank; The first water tank heat exchange water inlet pipe 19 is provided with the first electronic dish valve D1, the second water tank heat exchange water inlet pipe 18 is provided with the second electronic dish valve D2, and the first water tank heat exchange water inlet pipe 19 and the second water tank heat exchange water inlet pipe 18 are connected with heat collector outlet pipe 13 respectively; The first water tank heat exchange outlet pipe 10 is provided with the first heat exchange circulating pump B1, the second water tank heat exchange outlet pipe 14 is provided with the second heat exchange circulating pump B2, and the first water tank heat exchange outlet pipe 10 and the second water tank heat exchange outlet pipe 14 are communicated with heat collector water inlet pipe 12 respectively; First heat supply send moisture pipe 4 to be provided with the first backwater circulation pump B3, second heat supply send moisture pipe 3 to be provided with the second backwater circulation pump B4, first heat supply is sent moisture pipe 4 and second heat supply to send moisture pipe 3 to be connected heat supply respectively and is sent the supply mains, send with heat supply heating system return main 6 to be connected tap and shower nozzle between the supply mains; Send the supply mains to arrange with water pressure master switch P1 in heat supply, P1 is opening when water; In first water tank, be provided with the first liquid-level probe LS1, the second liquid-level probe LS2 is set in second water tank; P1, LS1 and LS2 are associated with switching value 31 respectively.The first water tank heat supply backwater is in charge of the 9 and second water tank heat supply backwater and is in charge of 5 and is connected with heating system return main 6 respectively, the first water tank heat supply backwater is in charge of 9 and is provided with the first magnetic valve D3, and the second water tank heat supply backwater is in charge of 5 and is provided with the second magnetic valve D4; In first water tank 7, second water tank 2, the water tank water temperature probe is set respectively, heating system return main 6 the backwater water temperature probe is set, at heat collector outlet pipe 13 the heat collector water temperature probe is set, the above-mentioned water temperature probe corresponding first water tank water temperature T 2, the second water tank water temperature T 3, backwater water temperature T 4, heat collector water temperature T 1, the first water tank and second water tank surveyed respectively is connected with tap water supply system respectively.First water tank and second water tank are provided with overflow mechanism, be provided with the first electric heating device DJ1 in first water tank, be provided with the second electric heating device DJ2 in second water tank.Heat collector water temperature probe, water tank water temperature probe, backwater water temperature probe are associated with analog quantity respectively; The first electronic dish valve D1, the second electronic dish valve D2, the first magnetic valve D3, the second magnetic valve D4, the first electric heating device DJ1, the second electric heating device DJ2, the first heat exchange circulating pump B1, the second heat exchange circulating pump B2, the first backwater circulation pump B3 and the second backwater circulation pump B4 by corresponding main contacts 39 control of contact unit logical disconnected.

Adopt the water tank of said structure, heating system can be carried out heat supply by following program, reaches further purpose of energy saving:

1, during the night dip electricity: system arrives the accumulation of energy period, setting by system, control system only starts the electric heating device of a higher water tank of water temperature in two water tanks, suppose that the higher water tank of this water temperature is first water tank 7, then first electric heating device DJ1 work, when the water temperature T 2 of first water tank more than or equal to system's low ebb electricity accumulation of heat during high water temperature, DJ1 stops electrical heating.

2, use daytime when hot, system selects a higher water tank of temperature to carrying out heat supply with thermic devices 1, at this moment, and first water tank 7 of water tank for being heated by the first electric heating device DJ1 in the electric period of night dip that temperature is higher;

3, daytime, select the low water tank of temperature, just second water tank 2 carries out the forced circulation heat exchange with heat collector 11, and this moment, the ON cycle pump B2 of system and corresponding electric butterfly valve D2 made water and heat collector in second water tank carry out heat exchange.

4, to evening, arrive the low ebb electricity again during the period, system is 1 described set by step, selects that the higher water tank of temperature carries out electrical heating in two water tanks, because second water tank has carried out heat exchange with heat collector by day, so, generally, the higher water tank of temperature is second water tank, and system's unlatching this moment DJ2 carries out electrical heating to second water tank, reach the highest water temperature of system's low ebb electricity accumulation of heat up to the second water tank water temperature T 3, DJ2 stops heating; During heat supply, use the thermic devices heat supply by the water tank that the described selection water temperature of the 2nd step is higher by day, at this moment, the temperature height of second water tank normally, then second water tank 2 is to use the thermic devices heat supply; During heat exchange, system is described by the 3rd step by day, selects a lower water tank of water temperature to carry out heat exchange with heat collector, and this moment, normally the first water tank water temperature T 2 was lower, and then first water tank 7 and heat collector carry out heat exchange.System goes round and begins again and alternately first water tank and second water tank is carried out electrical heating and heat collector heat exchange by said procedure.

In sum, system can select the high-temperature water tank of daytime and heat collector heat exchange to heat in the low ebb electricity period, and second day daytime, system was selected by the electrically heated water tank of low ebb to using the thermic devices heat supply, so be to be obtained by low ebb electrical heating, heat collector heat exchange to the hot water with the thermic devices heat supply, like this, when reducing the electric energy use, taken full advantage of low ebb, reduced electric cost, it is energy-conservation, economical not only to can be the user, and can rationally arrange the electricity consumption time, reaches energy-conservation, economic purpose.

Select daytime the low water tank of temperature and heat collector to carry out heat exchange: to improve the heat utilization efficiency of solar energy, improved the collecting efficiency of solar energy, can make solar thermal collection system give play to maximum effect.

Claims (7)

1. a solar energy is combined heating system with the low ebb electricity, comprise heat collector (11), water tank and electric-control system, it is characterized in that, described water tank is at least two, each water tank is connected with heat collector outlet pipe (13) by the heat exchange water inlet pipe respectively, and the heat exchange water inlet pipe of each water tank is provided with motor-driven valve; Each water tank is connected with heat collector water inlet pipe (12) by the heat exchange outlet pipe respectively, and the heat exchange outlet pipe of each water tank is provided with the heat exchange circulating pump; Each water tank send moisture pipe and heat supply to send the supply mains to be connected by heat supply respectively, and described heat supply is sent the supply mains and is connected with thermic devices (1); Each water tank all is connected with the cold water water supply line; In each water tank, be provided with electric heating device, in each water tank, be provided with the water tank water temperature probe; Described heat collector outlet pipe (13) is provided with the heat collector water temperature probe, and described water tank water temperature probe, motor-driven valve, heat collector water temperature probe, heat exchange circulating pump, electric heating device are connected with described electric-control system respectively.

2. a kind of solar energy as claimed in claim 1 is combined heating system with the low ebb electricity, it is characterized in that: each described water tank is in charge of with heating system return main (6) by the heating system backwater respectively and is connected, the heat supply of each described water tank send the moisture pipe to be provided with the backwater circulation pump, described heating system backwater is in charge of and is provided with magnetic valve, described heating system return main (6) is provided with the backwater water temperature probe, the hot equipment of described usefulness is arranged on described heat supply and send between supply mains and described heating system return main, described magnetic valve, described backwater water temperature probe, described backwater circulation pump all is connected with described electric-control system.

3. a kind of solar energy as claimed in claim 1 or 2 is combined heating system with the low ebb electricity, it is characterized in that: described heat supply send the supply mains to be provided with water pressure master switch P1, describedly is connected with described electric-control system with water pressure master switch P1.

4. a kind of solar energy as claimed in claim 1 is combined heating system with the low ebb electricity, and it is characterized in that: described heat collector water temperature probe is associated with described motor-driven valve, described heat exchange circulating pump.

5. a kind of solar energy as claimed in claim 2 is combined heating system with the low ebb electricity, and it is characterized in that: described backwater water temperature probe is associated with described backwater circulation pump, described magnetic valve.

6. a kind of solar energy as claimed in claim 1 is combined heating system with the low ebb electricity, and it is characterized in that: described motor-driven valve is electronic dish valve.

7. a kind of solar energy as claimed in claim 1 is combined heating system with the low ebb electricity, and it is characterized in that: in each described water tank level sensor is set all, described level sensor links to each other with described electric-control system.

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