CN201819337U - New solar fan - Google Patents

Abstract

A solar fresh air fan, including a power source, a DC fan and an air duct passing through the positive outer wall of a building. The power source is a solar photovoltaic panel and an AC power supply. The DC fan is connected to a DC voltage stabilizer, and the AC The power supply is connected with the rectifier and the switch with socket, and the DC fan is connected with the solar photovoltaic panel and the AC power switchable dual control through the single-connected double-control switch; the two ends of the air duct are connected with the outdoor side air inlet mounting plate and the indoor side air outlet The mounting plate, the outdoor side air inlet mounting plate of the air duct is connected to the DC fan, the DC fan is connected with a wind cover, and the top plate of the wind cover is a solar photovoltaic battery panel. This device is an environment-friendly, energy-saving and comfortable ventilation equipment. It is not only clean and comfortable, but also low-carbon and environmentally friendly. power consumption.

Description

Solar Fresh Air Machine

technical field

The utility model relates to a device for ventilating houses by utilizing solar energy.

Background technique

With the development of solar energy technology and material technology, the integration of solar energy technology and building-related equipment has become an important part of solar energy and building integration, which is of great significance for building energy conservation and emission reduction. Traditional house ventilation equipment must rely on the electric energy of the AC power supply to drive the DC fan to ventilate the room, which is not conducive to building energy saving and emission reduction. With the promulgation of the "Renewable Energy Law", more and more solar energy is used in buildings. Using solar technology For the combination of building ventilation equipment came into being.

Utility model content

The purpose of the utility model is to provide a solar fresh fan, to solve the technical problem that the traditional house ventilation equipment must consume the electric energy of the AC power supply, which is not conducive to building energy saving and emission reduction.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a solar fresh air fan, including a power source, a DC fan and an air duct passing through the positive outer wall of the building, characterized in that: the power source is a solar photovoltaic panel and There are two types of AC power supply, the DC fan is connected with a DC voltage stabilizer, the AC power supply is connected with a rectifier and a switch with a socket, and the DC fan is connected with a solar photovoltaic panel and an AC power switchable dual control through a single-connected double-control switch.

The two ends of the air duct are connected with an outdoor side air inlet mounting plate and an indoor side air outlet mounting plate, the outdoor side air inlet mounting plate of the air duct is connected to a DC fan, and the DC fan is connected to a wind cover, and the top plate of the wind cover is solar energy. Photovoltaic panels, the side panels of the windshield are equipped with insect-proof nets, and the periphery of the windshield and the mounting plate of the outdoor air inlet are all fixed on the positive outer wall of the building.

The indoor air outlet of the air duct is provided with fixed louvers or adjustable louvers.

The insect-proof net is mounted on the front side plate position or the left and right side plate positions of the windshield.

The windshield is in the shape of a bucket or a box.

The solar photovoltaic battery panel forms an included angle of 5°-45° with the horizontal plane.

The DC voltage stabilizer is located in the wind cover, and the rectifier, switch with socket and single-connected double-control switch are located indoors.

The ventilation volume of the DC fan is greater than 80m ³ /h.

Thermal insulation and sound insulation materials are filled between the air duct and the positive exterior wall of the building.

Compared with the prior art, the utility model has the following characteristics and beneficial effects: the utility model is an environment-friendly, energy-saving and comfortable ventilation device, the top plate of the wind cover is a solar photovoltaic battery panel, and the side plates of the wind cover can prevent mosquitoes from entering Indoors, the power sources are solar photovoltaic panels and AC power. The power source of the DC fan can be converted between solar photovoltaic panels and AC power through a single-connected double-control switch. The application of solar photovoltaic power generation technology to power DC fans and deliver fresh air to the room is not only clean and comfortable, but also low-carbon and environmentally friendly, which is of great significance for building energy conservation and emission reduction. Since solar energy resources are inexhaustible, the power consumption of equipment can be greatly saved.

Description of drawings

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 is the schematic diagram that the utility model is installed on the house.

Fig. 2 is an exploded schematic view of each component of the utility model.

Fig. 3 is a schematic diagram of the installation and combination of the utility model.

Fig. 4 is a schematic diagram of the circuit working system of the utility model.

Reference signs: 1-solar fresh air fan, 2-insect-proof net, 3-solar photovoltaic panel, 4-DC voltage regulator, 5-wind cover, 6-DC fan, 7-air duct, 8-outside the sunny side of the building Wall, 9-outdoor side air inlet mounting plate, 10-indoor side air outlet mounting plate, 11-rectifier, 12-switch with socket, 13-single-connected double-control switch, 14-AC power supply.

Detailed ways

Referring to the embodiment shown in Figures 1-4, this solar fresh air fan includes a power source, a DC fan 6 and an air duct 7 that passes through the building's sunny exterior wall 8, and the power source is a solar photovoltaic panel 3 and an AC power supply 14 Two kinds, the DC fan is connected with the DC voltage stabilizer 4, the outer contour of the DC fan 6 is a regular quadrilateral, the ventilation rate of the DC fan 6 is greater than 80m ³ /h, and the AC power supply 14 is connected with the rectifier 11 and the switch 12 with socket , the DC blower 6 is switchably connected to the solar photovoltaic cell panel 3 and the AC power source 14 through a single-connected dual-control switch 13 .

The two ends of the air duct 7 are connected with an outdoor side air inlet mounting plate 9 and an indoor side air outlet mounting plate 10, the outdoor side air inlet mounting plate 9 is connected to a DC fan 6, and the DC fan 6 is peripherally connected with a windshield 5, and the windshield 5 is a wind bucket shape or a box shape, and the top plate of the wind cover 5 is a solar photovoltaic battery panel 3, and the solar photovoltaic battery panel 3 is at an angle of 5° to 45° with the horizontal plane, and the side plate of the wind cover 5 is equipped with an insect-proof net 2, The insect-proof net 2 can be installed on the front side plate position or the left and right side plate positions of the wind cover 5. In this embodiment, the insect-proof net 2 is installed on the front side plate, and the periphery of the wind cover 5 and the outdoor side air inlet mounting plate 9 are all fixed. On the sunny exterior wall of the building.

Heat insulation and sound insulation materials are filled between the air duct 7 and the positive exterior wall 8 of the building. The sunny outer wall 8 of the building can be the south wall, the west wall or the east wall of the building, and the ventilation effect is the best when it is located at the south wall. The indoor side air outlet of the air duct 7 is provided with fixed louvers or adjustable louvers, which can adjust the size of the air intake. The DC voltage stabilizer 4 is located in the wind cover 5, and the rectifier 11, the switch 12 with a socket and the single-connected double-control switch 13 are located indoors.

The rectifier 11 can convert the 220V AC power into 12V DC. The DC voltage stabilizer 4 can convert the current with unstable voltage generated by the solar photovoltaic panel 3 into a current with stable voltage, and then supply it to the DC fan 6 .

In this embodiment, a switch box is provided below the indoor air outlet mounting plate 10, and the switch 12 with a socket and the single-connected double-control switch 13 are placed in the switch box, and the switch 12 with a socket is connected between the DC blower 6 and the Between the power plugs with rectifiers, the power plugs are connected to the AC power supply 14 again, and the single-connection double-control switch 13 is connected to the solar photovoltaic battery panel 3 , the DC voltage stabilizer 4 and the rectifier 11 .

In this embodiment, the solar photovoltaic cell panel 3 is a monocrystalline silicon photovoltaic cell, the wind cover is a galvanized steel plate, the DC fan 6 is a DC axial DC fan, and the thermal insulation and sound insulation material sprayed between the duct wall and the opening is inorganic Fiber thermal insulation and sound insulation material, the indoor side air outlet mounting plate of air duct 7 is the adjustable air outlet of plastic air outlet.

As shown in Figure 3, at first the positive side outer wall 8 of the building is punched with a circular hole slightly larger than the fan blade radius of the DC blower 6, and the wind cover is fixed on the outer surface of the positive side outer wall 8 of the building, and the top of the wind cover is in contact with the horizontal plane. Install the solar photovoltaic panel 3 here at an included angle of 5° to 45°, install the air duct 7 in the round hole, and spray thermal insulation and sound insulation materials between the outer wall of the air duct 7 and the surface of the round hole, The DC blower is fixed on the positive exterior wall 8 of the building in the wind hood, and the axis of the DC blower 6 is aligned with the center of the circle of the air duct and the center point of the indoor air inlet fixed on the inner surface of the positive exterior wall of the building. on the straight line of the exterior wall.

Referring to Figure 4, when the sun is sufficient during the day, the single-connected dual-control switch 13 is adjusted to connect with the solar photovoltaic panel 3, and at this time, the electricity generated by the solar photovoltaic panel 3 is regulated by the DC voltage regulator 4 to drive the DC fan Rotate to deliver fresh air indoors; at night or when there is insufficient sunshine, adjust the single-connected double-control switch 13 to connect with the rectifier 11, and close the switch 12 with the socket, at this time the AC power is changed to DC through the rectifier 11 to drive the DC fan to rotate , to deliver fresh air indoors.

Claims (8)

1. new blower fan of solar energy, the airduct (7) that comprises power source, dc fan (6) and break-through building sunny side exterior wall (8), it is characterized in that: described power source is (14) two kinds of solar photovoltaic cell panel (3) and AC powers, described dc fan is connected with direct current stabilizer (4), AC power (14) is connected with the switch (12) of rectifier (11) with the band socket, and dc fan (6) is connected by the convertible two controls of simply connected double control switch (13) and solar photovoltaic cell panel (3) and AC power (14);

Described airduct (7) two ends are connected with outside air inlet installing plate (9) and indoor air outlet installing plate (10), the outside air inlet installing plate (9) of described airduct connects dc fan (6), dc fan (6) periphery is connected with fan housing (5), the top board of fan housing (5) is solar photovoltaic cell panel (3), the side plate of fan housing (5) is equipped with fly net (2), and the periphery of fan housing (5) and outside air inlet installing plate (9) all are fixed on the building sunny side exterior wall.

2. the new blower fan of solar energy according to claim 1 is characterized in that: the air outlet place, indoor of described airduct (7) is provided with fixedly blinds or adjustable blinds.

3. the new blower fan of solar energy according to claim 2 is characterized in that: described fly net (2) is contained in the front side board position or the left side plate position of fan housing (5).

4. the new blower fan of solar energy according to claim 2 is characterized in that: described fan housing (5) is wind scoop shape or box-shaped.

5. the new blower fan of solar energy according to claim 2 is characterized in that: described solar photovoltaic cell panel (3) is horizontal by 5 °～45 ° angle.

6. the new blower fan of solar energy according to claim 2 is characterized in that: described direct current stabilizer (4) is positioned at fan housing (5), and the switch (12) and the simply connected double control switch (13) of rectifier (11), band socket are positioned at indoor.

7. the new blower fan of solar energy according to claim 2 is characterized in that: the ventilation of described dc fan (6) is greater than 80m ³/ h.

8. the new blower fan of solar energy according to claim 2 is characterized in that: be filled with the heat insulating and sound insulating material between described airduct (7) and the building sunny side exterior wall (8).

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