CN203249316U

CN203249316U - Solar warmer

Info

Publication number: CN203249316U
Application number: CN 201320204248
Authority: CN
Inventors: 陈建亮
Original assignee: Fuzhou Aquapower Electric Water Heater Co Ltd
Current assignee: Fuzhou Aquapower Electric Water Heater Co Ltd
Priority date: 2013-04-22
Filing date: 2013-04-22
Publication date: 2013-10-23
Anticipated expiration: 2023-04-22

Abstract

The utility model discloses a solar warmer which comprises a warmer main machine, a central processing unit, a warmer driving circuit, an AD digital-to-analogue conversion circuit and a power control module. The power control module is connected with at least one photovoltaic conversion module, a first storage battery set and a second storage battery set. The photovoltaic conversion module is used for converting optical energy into electric energy when light is input. The power control module is used for controlling a commercial power supply circuit to be disconnected or connected, controlling the first storage batter set to be disconnected or connected relative to the first power supply circuit of the AD digital-to-analogue conversion circuit and controlling the second storage battery set to be disconnected or connected relative to the second power supply circuit of the AD digital-to-analogue conversion circuit, controlling the photovoltaic conversion module to be disconnected or connected relative to the first charging circuit of the first storage battery set and controlling the photovoltaic conversion module to be disconnected or connected relative to the second charging circuit of the second storage battery set according to electric signals input into the photovoltaic conversion module and the respective voltage conditions of the first storage battery set and the second storage battery set.

Description

Solar space heating facility

Technical field

The utility model relates to the heat collector field, relates in particular to a kind of solar space heating facility of accumulation.

Background technology

Along with the raising of people's living standard, electric heater as winter family's auxiliary warming apparatus more and more be subjected to liking of people.And present on the market electric heater, majority is the product that is single electric heating function.Heat collector all needs to continue start basically when work uses, and also other household electrical appliances are high relatively aspect electricity consumption, and the winter heating electricity charge also are no small expenditures.And solar energy is subject to various countries research staff's attention as a kind of emerging regenerative resource.

But, solar energy photoelectric conversion efficient is lower, most solar space heating facility utilizes the photo-thermal conversion regime on the market at present, directly utilize the heat radiation feed-tank heating of sunshine, this mode is subjected to season and weather effect larger, and for example, summer, the sunlight heat radiation was strong, but use the demand of heat supply heating minimum, consume nowhere through the photo-thermal conversion thermal energy; And sunlight is more weak when needing in the winter time a large amount of heat supplies heating, causes heat supply not enough, all needs electricity consumption to carry out auxiliary heating on most equipment, and is not high to the utilization rate of solar energy; Other has some directly to adopt the solar space heating facility of opto-electronic conversion, does not have storage function, causes thermal waste.

The utility model content

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is:

A kind of solar space heating facility is provided, comprise heat collector main frame, central processing unit and the heat collector drive circuit and the AD D/A converting circuit that link to each other respectively with central processing unit, described heat collector drive circuit is used for driving the heat collector host work according to the control signal of central processing unit, described AD D/A converting circuit is connected with energy supply control module, it is the solar space heating facility power supply by the AD D/A converting circuit that energy supply control module is used for the control mains supply, and described energy supply control module is connected with at least one opto-electronic conversion module, the first batteries and the second batteries; It is electric energy that described opto-electronic conversion module is used for when having light to input transform light energy; Described energy supply control module is used for the signal of telecommunication, the first batteries and the second batteries voltage condition separately according to the input of opto-electronic conversion module, to the opening or closing of the second current supply circuit of AD D/A converting circuit, and control opto-electronic conversion module is to the first charge circuit of the first batteries and opto-electronic conversion module opening or closing the second charge circuit of the second batteries to the first current supply circuit of AD D/A converting circuit and the second batteries for control mains-supplied loop, the first batteries;

Wherein, described energy supply control module is used for when having the signal of telecommunication to input from the opto-electronic conversion module, judges whether the first batteries and the second accumulator battery voltage are lower than predeterminated voltage and judge the first batteries and whether the second batteries is in power supply state; Described energy supply control module also is used for when the first batteries and the second accumulator battery voltage all are lower than predeterminated voltage and all are not in power supply state, open the first charge circuit electric energy is inputed to the first batteries, and after the first battery charging is finished, close the first charge circuit and open the second charge circuit electric energy is inputed to the second batteries, and after being finished, the second battery charging closes the second charge circuit; Described energy supply control module also is used for when the first batteries is in power supply state and the second accumulator battery voltage and is lower than predeterminated voltage, open the second charge circuit electric energy is inputed to the second batteries, and after the second battery charging is finished, close the second charge circuit and the first current supply circuit and open the second current supply circuit and the first charge circuit inputs to the first batteries with electric energy, and after being finished, the first battery charging closes the first charge circuit; Described energy supply control module also is used for all discharging when the first batteries and the second batteries and opens the mains powered loop when finishing.

Wherein, described energy supply control module also is used for and will be sent to central processing unit by the AD D/A converting circuit from the signal of telecommunication that the opto-electronic conversion module receives, described opto-electronic conversion module is installed in the servo-electric mechanism, described central processing unit also connects the driven by servomotor circuit, described central processing unit is used for producing the servomotor control signal according to the signal of telecommunication that receives, and described driven by servomotor circuit is used for driving servo-electric mechanism according to the servomotor control signal and rotates.

Wherein, described heat collector main frame comprises blower fan and at least one heater, correspondingly described heat collector drive circuit comprises that the wind-speed gear that links to each other respectively with central processing unit drives relay and heater drives relay, described central processing unit is used for the controlled wind speed gear and drives relay driving blower fan with default wind speed rotation, and described central processing unit also is used for control heater driving relay and drives heater to preset the power heating.

Described AD D/A converting circuit also is connected with temperature sensor, and described temperature sensor is used for the detecting temperature and by the AD D/A converting circuit temperature signal is sent to central processing unit; Described central processing unit is used for when the temperature signal that receives is lower than default minimum temperature value, open the mains powered loop by AD D/A converting circuit control energy supply control module, and control described at least one heater heating of described heater driving relay driving; Described central processing unit also is used for when the temperature signal that receives is higher than the preset standard temperature value, and when the first batteries and/or the second batteries store electric weight, open current supply circuit corresponding to the high batteries of electric weight, and control the minimum heater heating of power in described at least one heater of described heater driving relay driving.

Wherein, described AD D/A converting circuit also is connected with touch sensor, is used for receiving touching input signal and will touching input signal by the AD D/A converting circuit being sent to central processing unit; Described central processing unit also is used for carrying out corresponding operating according to described touch input signal control solar space heating facility.

Wherein, described solar space heating facility also comprises display screen, and described central processing unit also is connected with a display driver circuit, and described display driver circuit is used for driving described LED display and carries out the data demonstration.

Wherein, described AD D/A converting circuit also is connected with sound transducer, is used for receiving voice signal and by the AD D/A converting circuit voice signal is sent to central processing unit; Described central processing unit also is used for carrying out corresponding operating according to described voice signal control solar space heating facility.

The beneficial effects of the utility model are: but but the opto-electronic conversion module of lift-launch one cover adjustment angle and direction carries out opto-electronic conversion by the optical energy irradiation position of control system Automatic-searching the best, effectively improved the utilization rate to solar energy; By two group storage batteries are set, neatly two group storage batteries are carried out electric power storage and power supply according to actual conditions, guaranteed best power supply effectiveness; Utilize simultaneously two kinds of energy of civil power and electric power storage, can guarantee on the one hand the heating effect of heat collector, battery is powered to the low heater of power on the other hand, can avoid battery to carry out large current work, prolong flying power and the service life of battery, reach the effect of environmental protection and energy saving.

Description of drawings;

Fig. 1 is the structured flowchart of solar space heating facility in the utility model one embodiment;

Fig. 2 is the syndeton schematic diagram of opto-electronic conversion module and servo-electric mechanism in the utility model one embodiment.

The main element symbol description:

Heat collector main frame 10; Blower fan 11; Heater 12; Central processing unit 20; Heat collector drive circuit 30;

Wind-speed gear drives relay 31; Heater drives relay 32; AD D/A converting circuit 40;

Energy supply control module 50; Mains supply 200; Opto-electronic conversion module 60; Solar battery group 61;

Photoelectric sensor 62; The first batteries 71; The second batteries 72; Servo-electric mechanism 80;

Driven by servomotor circuit 81; Temperature sensor 91; Touch sensor 92; LED display 93;

Display driver circuit 94; Sound transducer 95; Loudspeaker 96.

The specific embodiment

By describing technology contents of the present utility model, structural feature in detail, being realized purpose and effect, below in conjunction with embodiment and cooperate accompanying drawing to give in detail explanation.

See also Fig. 1, Fig. 2, it is the structured flowchart of a kind of solar space heating facility in the utility model one embodiment, this solar space heating facility comprises heat collector main frame 10, central processing unit 20 and the heat collector drive circuit 30 and the AD D/A converting circuit 40 that link to each other respectively with central processing unit, described heat collector drive circuit 30 is used for driving 10 work of heat collector main frame according to the control signal of central processing unit 20, described AD D/A converting circuit 40 is connected with energy supply control module 50, and energy supply control module 50 is used for control mains supply 200 and is the solar space heating facility power supply by AD D/A converting circuit 40.

Described energy supply control module 50 is connected with at least one opto-electronic conversion module 60, the first batteries 71 and the second batteries 72, and in the present embodiment, described opto-electronic conversion module 60 comprises solar battery group 61 and photoelectric sensor 62.It is electric energy that described opto-electronic conversion module 60 is used for when having light to input transform light energy; The signal of telecommunication, the first batteries 71 and the second batteries 72 voltage condition separately that described energy supply control module 50 is used for according to 60 inputs of opto-electronic conversion module, opening or closing of the first current supply circuit of control mains-supplied loop, 71 pairs of AD D/A converting circuits 40 of the first batteries and the second current supply circuit of 72 pairs of AD D/A converting circuits 40 of the second batteries, and the opening or closing of the second charge circuit of the first charge circuit of 60 pairs of the first batteries of control opto-electronic conversion module and 60 pairs of the second batteries of opto-electronic conversion module.

Particularly, described energy supply control module 50 is used for when having the signal of telecommunication to input from opto-electronic conversion module 60, judges whether the first batteries 71 and the second batteries 72 voltages are lower than predeterminated voltage and judge the first batteries 71 and whether the second batteries 72 is in power supply state.

Described energy supply control module 50 also is used for when the first batteries 71 and the second batteries 72 voltages all are lower than predeterminated voltage and all are not in power supply state, open the first charge circuit electric energy is inputed to the first batteries 71, and after charging is finished to the first batteries 71, close the first charge circuit and open the second charge circuit electric energy is inputed to the second batteries 72, and close the second charge circuit after finishing when the second batteries 72 is charged;

Described energy supply control module 50 also is used for when the first batteries 71 is in power supply state and the second batteries 72 voltages and is lower than predeterminated voltage, open the second charge circuit electric energy is inputed to the second batteries 72, and after charging is finished to the second batteries 72, close the second charge circuit and the first current supply circuit and open the second current supply circuit and the first charge circuit inputs to the first batteries 71 with electric energy, and after being finished, the first battery charging closes the first charge circuit.Described energy supply control module 50 also is used for all discharging when the first batteries 71 and the second batteries 72 and opens the mains powered loop when finishing.

Wherein, described energy supply control module 50 also is used for and will be sent to central processing unit 20 by the AD D/A converting circuit from the signal of telecommunication that opto-electronic conversion module 60 receives.See also Fig. 2, it is the syndeton schematic diagram of opto-electronic conversion module and servo-electric mechanism in the utility model one embodiment, described opto-electronic conversion module 60 is installed in the servo-electric mechanism 80, this servo-electric mechanism 80 can be rotating mechanism or the rotatory and extending device by driven by servomotor, described central processing unit 20 also connects driven by servomotor circuit 81, described central processing unit 20 is used for producing the servomotor control signal according to the signal of telecommunication that receives, described driven by servomotor circuit 81 is used for driving servo-electric mechanism 80 according to the servomotor control signal and rotates, thereby adjust receiving angle and the direction of electricity conversion module 60, seek the optical energy irradiation position of optimal light intensity.

Wherein, described heat collector main frame 10 comprises blower fan 11 and at least one heater 12, correspondingly described heat collector drive circuit 30 comprises that the wind-speed gear that links to each other respectively with central processing unit 20 drives relay 31 and heater drives relay 32, described central processing unit 20 is used for the controlled wind speed gear and drives relay driving blower fan with default wind speed rotation, and described central processing unit 20 also is used for control heater driving relay 32 and drives heaters 12 to preset the power heating.

Described AD D/A converting circuit 40 also is connected with temperature sensor 91, and described temperature sensor 91 is used for the detecting temperature and by AD D/A converting circuit 40 temperature signal is sent to central processing unit 20; Described central processing unit 20 is used for when the temperature signal that receives is lower than default minimum temperature value, open the mains powered loop by AD D/A converting circuit 40 control energy supply control modules 50, and control described at least one heater 12 heating of described heater driving relay 32 drivings; Described central processing unit 20 also is used for when the temperature signal that receives is higher than the preset standard temperature value, and when the first batteries 71 and/or the second batteries 72 store electric weight, open current supply circuit corresponding to the high batteries of electric weight, and control the minimum heater heating of power in described at least one heater 12 of described heater driving relay 32 drivings.

In the present embodiment, described AD D/A converting circuit 40 also is connected with touch sensor 92, is used for receiving touching input signal and will touching input signal by AD D/A converting circuit 40 being sent to central processing unit 20; Described central processing unit 20 also is used for carrying out corresponding operating according to described touch input signal control solar space heating facility.

Described solar space heating facility also comprises display screen 93, and described central processing unit 20 also is connected with a display driver circuit 94, and described display driver circuit 94 is used for driving described LED display 93 and carries out the data demonstration.

Described AD D/A converting circuit 40 also is connected with sound transducer 95, is used for receiving voice signal and by AD D/A converting circuit 40 voice signal is sent to central processing unit 20; Described central processing unit 20 also is used for carrying out corresponding operating according to described voice signal control solar space heating facility.

Described AD D/A converting circuit 40 also is connected with loudspeaker 96, and described central processing unit 20 also is used for driving described loudspeaker 96 output sounds by AD D/A converting circuit 40.

The above only is embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims

1. solar space heating facility, comprise the heat collector main frame, central processing unit and the heat collector drive circuit and the AD D/A converting circuit that link to each other respectively with central processing unit, described heat collector drive circuit is used for driving the heat collector host work according to the control signal of central processing unit, described AD D/A converting circuit is connected with energy supply control module, it is the solar space heating facility power supply by the AD D/A converting circuit that energy supply control module is used for the control mains supply, and it is characterized in that: described energy supply control module is connected with at least one opto-electronic conversion module, the first batteries and the second batteries;

It is electric energy that described opto-electronic conversion module is used for when having light to input transform light energy;

Described energy supply control module is used for the signal of telecommunication, the first batteries and the second batteries voltage condition separately according to the input of opto-electronic conversion module, to the opening or closing of the second current supply circuit of AD D/A converting circuit, and control opto-electronic conversion module is to the first charge circuit of the first batteries and opto-electronic conversion module opening or closing the second charge circuit of the second batteries to the first current supply circuit of AD D/A converting circuit and the second batteries for control mains-supplied loop, the first batteries.

2. solar space heating facility according to claim 1, it is characterized in that, described energy supply control module is used for when having the signal of telecommunication to input from the opto-electronic conversion module, judges whether the first batteries and the second accumulator battery voltage are lower than predeterminated voltage and judge the first batteries and whether the second batteries is in power supply state;

Described energy supply control module also is used for when the first batteries and the second accumulator battery voltage all are lower than predeterminated voltage and all are not in power supply state, open the first charge circuit electric energy is inputed to the first batteries, and after the first battery charging is finished, close the first charge circuit and open the second charge circuit electric energy is inputed to the second batteries, and after being finished, the second battery charging closes the second charge circuit;

Described energy supply control module also is used for when the first batteries is in power supply state and the second accumulator battery voltage and is lower than predeterminated voltage, open the second charge circuit electric energy is inputed to the second batteries, and after the second battery charging is finished, close the second charge circuit and the first current supply circuit and open the second current supply circuit and the first charge circuit inputs to the first batteries with electric energy, and after being finished, the first battery charging closes the first charge circuit;

Described energy supply control module also is used for all discharging when the first batteries and the second batteries and opens the mains powered loop when finishing.

3. solar space heating facility according to claim 1, it is characterized in that, described energy supply control module also is used for and will be sent to central processing unit by the AD D/A converting circuit from the signal of telecommunication that the opto-electronic conversion module receives, described opto-electronic conversion module is installed in the servo-electric mechanism, described central processing unit also connects the driven by servomotor circuit, described central processing unit is used for producing the servomotor control signal according to the signal of telecommunication that receives, and described driven by servomotor circuit is used for driving servo-electric mechanism according to the servomotor control signal and rotates.

4. solar space heating facility according to claim 1 is characterized in that,

Described heat collector main frame comprises blower fan and at least one heater, correspondingly described heat collector drive circuit comprises that the wind-speed gear that links to each other respectively with central processing unit drives relay and heater drives relay, described central processing unit is used for the controlled wind speed gear and drives relay driving blower fan with default wind speed rotation, and described central processing unit also is used for control heater driving relay and drives heater to preset the power heating.

5. solar space heating facility according to claim 4 is characterized in that,

Described AD D/A converting circuit also is connected with temperature sensor, and described temperature sensor is used for the detecting temperature and by the AD D/A converting circuit temperature signal is sent to central processing unit;

Described central processing unit is used for when the temperature signal that receives is lower than default minimum temperature value, open the mains powered loop by AD D/A converting circuit control energy supply control module, and control described at least one heater heating heating of described heater driving relay driving;

Described central processing unit also is used for when the temperature signal that receives is higher than the preset standard temperature value, and when the first batteries and/or the second batteries store electric weight, open current supply circuit corresponding to the high batteries of electric weight, and control the minimum heater heating of power in described at least one heater of described heater driving relay driving.

6. solar space heating facility according to claim 1 is characterized in that, described AD D/A converting circuit also is connected with touch sensor, is used for receiving touching input signal and will touching input signal by the AD D/A converting circuit being sent to central processing unit;

Described central processing unit also is used for carrying out corresponding operating according to described touch input signal control solar space heating facility.

7. solar space heating facility according to claim 1, it is characterized in that, described solar space heating facility also comprises display screen, and described central processing unit also is connected with a display driver circuit, and described display driver circuit is used for driving described LED display and carries out the data demonstration.

8. solar space heating facility according to claim 1 is characterized in that, described AD D/A converting circuit also is connected with sound transducer, is used for receiving voice signal and by the AD D/A converting circuit voice signal is sent to central processing unit;

Described central processing unit also is used for carrying out corresponding operating according to described voice signal control solar space heating facility.