CN202040985U - Wind power and water power hybrid heating system - Google Patents

Abstract

The utility model discloses a wind power and water power hybrid heating system, comprising a hydraulic generator, a wind driven generator and an electric heater. The hydraulic generator and the wind driven generator both include three stator terminals which are a U1 terminal, a V1 terminal and a W1 terminal, which are electrically connected to the electric heater through cables. The hybrid heating system can be used in areas where no electric power is possessed, but wind power and water power are rich, and thereby investment cost can be reduced. As water power generation will be affected by a dry season when wind power is rich, wind power generation devices are built adjacent to a hydropower station, making water power generation and wind power generation complementary.

Description

Wind-force, waterpower Hybrid Heating system

Technical field

The utility model relates to a kind of wind-force, waterpower Hybrid Heating system.

Background technology

Health hot water is used in hot water and life that present industrial production is used, is generally provided by hot water facilities such as electric heater, fuel-firing gas-firing water heater, solar water heater and air-source heat pump hot waters; Superheated steam is provided by Industrial Boiler, electric heater etc.; The heating of air then is to be provided by heat pump air conditioner or electric heater etc.At no electricity but above-mentioned firing equipment can't be used in the abundant area of wind-force, waterpower resourses, insert electrical network if desired, then need to spend a large amount of investments.

Summary of the invention

The purpose of this utility model is to overcome the defective of prior art, a kind of wind-force heating system wind-force, waterpower Hybrid Heating system are provided, the utility model can be at no electricity but wind-force, the abundant area of waterpower resourses use, the investment that is spent is little, and the adaptability of system is stronger.

To describe the technical solution of the utility model below.

A kind of wind-force, waterpower Hybrid Heating system, comprise hydrogenerator, wind-driven generator and electric heater, hydrogenerator, wind-driven generator have included three stator terminals, be U1 terminals, V1 terminals and W1 terminals, the U1 terminals of hydrogenerator, wind-driven generator, V1 terminals and W1 terminals are electrically connected with electric heater on the spot by cable.

Form Y-connection or triangle connection between described U1 terminals, V1 terminals and the W1 terminals.

Described electric heater is Induction heater or resistance type heater.

Also include pedestal, column, water intaking passage and filtering ponds, the lower end of column is located on the pedestal, and wind-driven generator is located at the upper end of column; Filtering ponds and hydrogenerator all are located on the water intaking passage, and the water intake end of the close water intaking of filtering ponds passage, and hydrogenerator is near the water side of water intaking passage.

Described column is a tower-type, be provided with in the upper end of this column and turn, described wind-driven generator includes cabin, impeller, horizontal rotating shaft and empennage, and the cabin is movably connected in the upper end of described column by turning, empennage is connected on the cabin, and impeller is movably connected on the cabin by horizontal rotating shaft.

Described column is a Jackstay type, also include at least three drag-lines, top, lower end that the upper end of drag-line is connected column are connected on the pedestal, described wind-driven generator comprises round wind wheel, vertical rotation axis and asynchronous generator, vertical rotation axis is located at the upper end of described column, and being located on the vertical rotation axis and with asynchronous generator of circle wind wheel activity is connected.

Described water intaking passage comprises flume, penstocks and the tailwater channel that sets gradually from front to back, is provided with pressure tank between flume and penstocks, and described filtering ponds are located on the flume, and described hydrogenerator is located at the end of penstocks.

Aforementioned schemes has following advantage:

In wind resource or the relatively abundanter remote districts of waterpower resourses, can and be used for electrical heating by wind-driven generator or hydrogenerator generating, can limited fund input satisfy the daily life needs;

Simultaneously, owing to can influence hydroelectric generation dry season, but when wind resource is more rich just, near water-power plant, build wind power generation plant, can make hydroelectric generation and wind-power electricity generation accomplish complementation.

Description of drawings

Fig. 1 is among the utility model embodiment one, the structure chart of described electric heating system.

Fig. 2 is among the embodiment one, the structure chart of used wind power generation plant.

Fig. 3 is among the embodiment one, the structure chart of used hydroelectric installation.

Fig. 4 is the control principle figure of wind power generation plant shown in Figure 2.

Fig. 5 is among the embodiment one, the terminals of wind-driven generator, hydraulic generator stator and electric heater connection diagram.

Fig. 6 is among the embodiment two, the structure chart of used wind power generation plant.

Fig. 7 is among the embodiment three, the structure chart of described electric heating system.

Fig. 8 is among the embodiment four, the structure chart of described electric heating system.

Description of reference numerals: 1, electric heater, 2, pedestal, 3, column, 4, wind-driven generator, 5, penstocks, 6, hydrogenerator, 7, filtering ponds, 8, turn, 9, the cabin, 10, impeller, 11, horizontal rotating shaft, 12, empennage, 13, drag-line, 14, the circle wind wheel, 15, vertical rotation axis, 16, asynchronous generator, 17, flume, 18, water inlet, 19, tailwater channel, 20, pressure tank, 21, current transformer, 22, bellows, 23, blower fan, 24, air inlet, 25, air outlet, 26, water tank, 27, delivery port.

The specific embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated.

Be the structure of embodiment one as shown in Figures 1 to 4: a kind of wind-force, waterpower Hybrid Heating system, comprise wind power generation plant, hydroelectric installation and electric heater 1, wherein, wind power generation plant includes pedestal 2, column 3, wind-driven generator 4, the lower end of column 3 is located on the pedestal 2, wind-driven generator 4 is located at the upper end of column 3, hydroelectric installation includes the water intaking passage, hydrogenerator 6, filtering ponds 7, filtering ponds 7 and hydrogenerator 6 all are located on the water intaking passage, and filtering ponds 7 are near the water intake end of water intaking passage, and hydrogenerator 6 is near the water side of water intaking passage; The terminals of wind-driven generator 4 and hydrogenerator 6 stators are electrically connected with electric heater 1 on the spot by cable.

Wherein, described column 3 is a tower-type, be provided with in the upper end of this column 3 and turn 8, described wind-driven generator 4 includes cabin 9, impeller 10, horizontal rotating shaft 11 and empennage 12, cabin 9 is by 8 upper ends that are movably connected in column 3 of turning, empennage 12 is connected on the cabin 9, and impeller 10 is movably connected on the cabin 9 by horizontal rotating shaft 11; Described water intaking passage comprises flume 17, penstocks 5 and the tailwater channel 19 that sets gradually from front to back, is provided with pressure tank 20 between flume 17 and penstocks 5, and filtering ponds 7 are located on the flume 17, and hydrogenerator 6 is located at the end of penstocks 5.

The terminals of wind-driven generator 4, hydrogenerator 6 stators are identical with the syndeton of electric heater, as shown in Figure 5, the terminals of described stator are three, be U1 terminals, V1 terminals and W1 terminals, form Y-connection or triangle connection between U1 terminals, V1 terminals and the W1 terminals, described electric heater 1 is a resistance type heater, and it comprises three heating resistor R1, R2 and R3, and three heating resistor R1, R2 and R3 form Y-connection or triangle connects.

Also include water tank 26, water tank 26 is provided with water inlet 18 and delivery port 27, and electric heater 1 is located in the water tank 26.The electric power that wind-driven generator 4 or hydrogenerator 6 are sent can be used for heating the domestic hot-water.

Present embodiment has following advantage: in wind resource or the relatively abundanter remote districts of waterpower resourses, can and be used for electrical heating by wind-driven generator 4 or hydrogenerator 6 generatings, can limited fund input satisfy the daily life needs.

Simultaneously, owing to can influence hydroelectric generation dry season, but when wind resource is more rich just, near water-power plant, build wind power generation plant, can make hydroelectric generation and wind-power electricity generation accomplish complementation.

The utility model embodiment two is for embodiment one, its difference is the structure of wind power generation plant, as shown in Figure 6, described column 3 is a Jackstay type, also include at least three drag-lines 13, top, lower end that the upper end of drag-line 13 is connected column 3 are connected on the pedestal 2, and described wind-driven generator 4 comprises round wind wheel 14, vertical rotation axis 15 and asynchronous generator 16, vertical rotation axis 15 is located at the upper end of column 3, and being located on the vertical rotation axis 15 and with asynchronous generator 16 of circle wind wheel 14 activities is connected.The principle of present embodiment is identical with embodiment one, repeats no more herein.

The utility model embodiment three is for embodiment one, its difference is, present embodiment is used for room air is heated, also include bellows 22 and blower fan 23, bellows 22 are provided with air inlet 24 and air outlet 25, blower fan 23 is connected in air inlet 24 places of bellows 22 by connecting hose, and electric heater 1 is located in the bellows 22, and its structure as shown in Figure 7.

The utility model embodiment three is for embodiment one, and its difference is that in the present embodiment, the electric power that wind-driven generator 4 or hydrogenerator 6 are sent can be by exporting (as being connected to the grid) to the external world after current transformer 21 unsteady flows, and its structure as shown in Figure 8.

Only be specific embodiment of the utility model below, do not limit protection domain of the present utility model with this; Any replacement and the improvement done on the basis of not violating the utility model design all belong to protection domain of the present utility model.

Claims (7)

1. a wind-force, waterpower Hybrid Heating system, it is characterized in that, comprise hydrogenerator, wind-driven generator and electric heater, hydrogenerator, wind-driven generator have included three stator terminals, be U1 terminals, V1 terminals and W1 terminals, the U1 terminals of hydrogenerator, wind-driven generator, V1 terminals and W1 terminals are electrically connected with electric heater on the spot by cable.

2. wind-force, waterpower Hybrid Heating system according to claim 1 is characterized in that, form Y-connection between described U1 terminals, V1 terminals and the W1 terminals or triangle connects.

3. wind-force, waterpower Hybrid Heating system according to claim 1 is characterized in that described electric heater is Induction heater or resistance type heater.

4. as wind-force, waterpower Hybrid Heating system as described in each in the claim 1 to 3, it is characterized in that also include pedestal, column, water intaking passage and filtering ponds, the lower end of column is located on the pedestal, wind-driven generator is located at the upper end of column; Filtering ponds and hydrogenerator all are located on the water intaking passage, and the water intake end of the close water intaking of filtering ponds passage, and hydrogenerator is near the water side of water intaking passage.

5. as wind-force, waterpower Hybrid Heating system as described in the claim 4, it is characterized in that, described column is a tower-type, be provided with in the upper end of this column and turn, described wind-driven generator includes cabin, impeller, horizontal rotating shaft and empennage, the cabin is movably connected in the upper end of described column by turning, empennage is connected on the cabin, and impeller is movably connected on the cabin by horizontal rotating shaft.

6. as wind-force, waterpower Hybrid Heating system as described in the claim 4, it is characterized in that, described column is a Jackstay type, also include at least three drag-lines, top, lower end that the upper end of drag-line is connected column are connected on the pedestal, described wind-driven generator comprises round wind wheel, vertical rotation axis and asynchronous generator, and vertical rotation axis is located at the upper end of described column, and being located on the vertical rotation axis and with asynchronous generator of circle wind wheel activity is connected.

7. as wind-force, waterpower Hybrid Heating system as described in the claim 4, it is characterized in that, described water intaking passage comprises flume, penstocks and the tailwater channel that sets gradually from front to back, between flume and penstocks, be provided with pressure tank, described filtering ponds are located on the flume, and described hydrogenerator is located at the end of penstocks.

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