CN211174450U - Wind power recovery and power generation system of ventilator - Google Patents

Abstract

The utility model provides a generating system is retrieved to ventilation blower wind-force, including air pipe, install the ventilation blower of taking high-power fan in the air pipe, still install fixed equipment on the ventilation blower, inherent wind-force recovery power generation facility in the air pipe of ventilation blower one side, wind-force recovery power generation facility includes the bearing roller who takes the shoulder hole, the shoulder hole complex step shaft, the wind energy conversion equipment that is fixed in the bearing roller back and is connected with the shoulder shaft and the flange of support through the bolt fastening in the bearing roller front portion, the shoulder shaft front end passes the flange of support and the front end is connected with the fan blade; the wind power recovery power generation device also comprises an electric storage device connected with the wind energy conversion device through a wire; the outside cladding of wind power recovery power generation facility has the heat dissipation case. The utility model recycles the wind power generated by the fan of the ventilator, stores the electric energy through the wind power conversion, uses the electric energy for other electric equipment with low power, and saves resources; meanwhile, a heat dissipation device is arranged, and the production is safe.

Description

Wind power recovery and power generation system of ventilator

Technical Field

The utility model relates to wind power generation design field, in particular to generating system is retrieved to ventilation blower wind-force.

Background

In ventilation systems for civil, public or industrial buildings, the indoor air is almost directly discharged to the outside. The wind energy generated by the exhaust systems is not recycled at present, some small ventilation systems are difficult to utilize, but some large ventilation systems are also quite waste, and the power of a fan is up to hundreds of kilowatts and is not utilized.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides a power generation system is retrieved to ventilation blower wind-force.

The utility model provides a technical scheme is: a ventilator wind power recovery power generation system comprises a ventilation pipeline, wherein a ventilator with a high-power fan is installed in the ventilation pipeline, a fixing device is also installed on the ventilator, a wind power recovery power generation device is fixed in the ventilation pipeline on one side of the ventilator, the wind power recovery power generation device comprises a bearing roller with a stepped hole, a stepped shaft matched in the stepped hole, wind power conversion equipment fixed on the back of the bearing roller and connected with the stepped shaft, and a support flange fixed on the front of the bearing roller through a bolt, the front end of the stepped shaft penetrates through the support flange, and the front end of the stepped shaft is connected with a; the wind power recovery power generation device also comprises an electric storage device connected with the wind energy conversion device through a wire; the outside cladding of wind power recovery power generation facility has the heat dissipation case.

The utility model recycles the wind power generated by the fan of the ventilator, stores the electric energy through the wind power conversion, uses the electric energy for other electric equipment with low power, and saves resources; and simultaneously, the utility model discloses set up heat abstractor, safety in production. The wind power recovery power generation system comprises a ventilating duct, wherein a ventilator with a high-power fan is installed in the ventilating duct, and a fixing device capable of fixedly installing the ventilator on a channel is further installed on the ventilator; the utility model discloses set up the wind energy recycle power generation facility that can accept wind-force in air pipe, inherent wind power recovery power generation facility in the air pipe of ventilation blower one side, wind power recovery power generation facility is including the bearing roller who takes the shoulder hole, the shoulder shaft of cooperation installation in the shoulder hole, fix with screw in the bearing roller back and with the wind energy conversion equipment of shoulder shaft connection and fix in the support flange of bearing roller front portion through the bolt, the shoulder shaft front end passes the support flange and the front end is connected with the fan blade, the wind-force that high-power fan sent drives the fan blade rotation, and then drive the shoulder shaft rotation, the shoulder shaft continues to drive the wind energy conversion equipment rotation and carries out the energy dress and trade; in order to store electric energy, the wind power recovery power generation device also comprises an electric storage device connected with the wind energy conversion device through a wire, the electric energy of the wind energy conversion device is transmitted to the electric storage device through the wire, and the electric energy of the electric storage device can be used by other low-power electric equipment or a reverse supplement ventilator; the utility model discloses can adopt and set up many wind-force recovery power generation facility in the passageway and carry out parallelly connected electricity generation, improve wind energy utilization, in order to avoid wind-force recovery power generation facility to generate heat and damage, the cladding of wind-force recovery power generation facility is in the radiator box, in time dispels the heat.

The utility model has the beneficial technical effects that: the utility model discloses a wind power generation equipment turns into electric energy to electrical storage equipment with the wind energy conversion that the ventilation blower produced. The system is particularly suitable for large ventilation systems, such as exhaust systems in industrial plants, the size of the ventilation pipeline is large, the power of the ventilation pipeline is up to hundreds of kilowatts, and the recovered wind energy can be used by other devices with low power after being converted into electric energy.

Drawings

FIG. 1 is a schematic structural view of the present invention;

in the figure, the wind power generation device comprises a fixing device 1, a high-power fan 2, a fan 3, a ventilator 4, a heat dissipation angle bar 5, a heat dissipation box 6, an electric power storage device 7, an electric wire 8, a ventilation pipeline 9, a wind energy conversion device 10, a stepped shaft 11, a bearing roller 12, bolts 13, a supporting flange 14 and fan blades.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, the relative terms "upper", "lower", "left", "right", "inner", "outer" and other position indication positions are only based on the position shown in the drawings to simplify the description of the present invention, but not the position and structure that the components must have, and thus, the limitation of the present invention cannot be understood.

Example 1

As shown in fig. 1, a wind power recovery power generation system of a ventilator comprises a ventilation duct 8, a ventilator 3 with a high-power fan 2 is installed in the ventilation duct 8, a fixing device 1 is further installed on the ventilator 3, a wind power recovery power generation device is inherent in the ventilation duct 8 on one side of the ventilator 3, the wind power recovery power generation device comprises a bearing roller 11 with a stepped hole, a stepped shaft 10 matched in the stepped hole, a wind power conversion device 9 fixed on the back of the bearing roller 11 and connected with the stepped shaft 10, and a support flange 13 fixed on the front of the bearing roller 11 through a bolt 12, wherein the front end of the stepped shaft 10 penetrates through the support flange 13, and the front end of the stepped shaft is; the wind power recovery power generation device further comprises an electric storage device 6 connected with a wind energy conversion device 9 through an electric wire 7; the outside of the wind power recovery and generation device is coated with a heat dissipation box 5.

The utility model recycles the wind power generated by the fan of the ventilator, stores the electric energy through the wind power conversion, uses the electric energy for other electric equipment with low power, and saves resources; and simultaneously, the utility model discloses set up heat abstractor, safety in production. Specifically, the wind power recovery power generation system of the ventilator comprises a ventilation pipeline 8, wherein the ventilation pipeline 8 is internally provided with the ventilator 3 with a high-power fan 2, and the ventilator 3 is also provided with a fixing device 1 capable of fixedly mounting the ventilator 3 on a channel; the utility model discloses set up the wind energy recycle power generation facility that can accept wind-force in air pipe 8, inherent wind power recovery power generation facility in air pipe 8 of ventilation blower 3 one side, wind power recovery power generation facility is including the bearing roller 11 of taking the shoulder hole, the shoulder shaft 10 of cooperation installation in the shoulder hole, fix with screw in the bearing roller 11 back and with the wind energy conversion equipment 9 of shoulder shaft 10 connection and be fixed in the support flange 13 of bearing roller 11 front portion through bolt 12, the front end of shoulder shaft 10 passes support flange 13 and the front end is connected with fan blade 14, the wind-force that high-power fan 2 sent drives fan blade 14 and rotates, and then drive shoulder shaft 10 and rotate, shoulder shaft 10 continues to drive wind energy conversion equipment 9 and rotates and carry out the energy dress and trade and generate electricity; in order to store electric energy, the wind power recovery power generation device further comprises an electric storage device 6 connected with a wind energy conversion device 9 through a wire 7, the electric energy of the wind energy conversion device 9 is transmitted to the electric storage device 6 through the wire 7, and the electric energy of the electric storage device can be used by other low-power electric equipment or a reverse compensation ventilator 3; the utility model discloses can adopt and set up many wind-force recovery power generation facility in the passageway and carry out parallelly connected electricity generation, improve wind energy utilization, in order to avoid wind-force recovery power generation facility to generate heat and damage, the cladding of wind-force recovery power generation facility is in heat dissipation case 5, in time dispels the heat.

Furthermore, a wind power recovery and generation device is also symmetrically and fixedly arranged in the ventilation pipeline 8 at the other side of the ventilator 3, and the wind power recovery and generation device is connected with the electric storage equipment 6 through a branch line. In the present embodiment, a wind power recovery and generation device is also symmetrically screwed into the ventilation duct 8 on the other side of the ventilator 3, and is connected to the electric storage device 6 through a branch line, so that both downwind and upwind can be utilized.

Further, the fan blades 14 are bidirectional rotating type blades. As described above, the left and right sides generate electricity, and the fan blades 14 need to be bidirectional rotating type blades.

Furthermore, a heat dissipation angle bar 4 is arranged on the heat dissipation box 5. The heat dissipation angle bars 4 are integrally formed on the heat dissipation box 5, so that the heat dissipation area of the heat dissipation box 5 can be increased.

Furthermore, lubricating oil is sprayed in the stepped hole. The utility model discloses convert mechanical rotational energy into electric energy, consequently need reduce the friction in rotation energy loss, consequently spout in the shoulder hole and be equipped with lubricating oil, and for cooling lubricating oil.

Further, a bearing is arranged between the support flange 13 and the stepped shaft 10. In order to further reduce the friction, bearings are also provided between the support flange 13 and the stepped shaft 10, by means of which bearings the front friction is reduced by rolling.

Further, the bearing drum 11 is provided with ventilation holes in the axial direction. In this embodiment, the bearing drum 11 is provided with ventilation holes in the axial direction, so that ventilation and heat dissipation can be continued.

Obviously, the utility model discloses the wind energy electricity generation that the wind-force that utilizes the ventilation blower fan to send goes on stores the electric energy through the wind energy conversion, is used for other consumer of low-power, resources are saved with the electric energy.

The foregoing is a preferred embodiment of the present invention, and it should be understood that those skilled in the art can derive the related technical solutions through logic analysis, reasoning or experiment based on the present invention without creative efforts, and therefore, these related technical solutions should be within the protection scope of the present claims.

Claims (7)

1. The utility model provides a power generation system is retrieved to ventilation blower wind-force, includes air pipe (8), installs ventilation blower (3) of taking high-power fan (2) in air pipe (8), still installs fixed equipment (1), its characterized in that on ventilation blower (3): a wind power recovery and power generation device is fixed in a ventilation pipeline (8) on one side of the ventilator (3), the wind power recovery and power generation device comprises a bearing roller (11) with a stepped hole, a stepped shaft (10) matched with the stepped hole, wind power conversion equipment (9) fixed on the back of the bearing roller (11) and connected with the stepped shaft (10) and a support flange (13) fixed on the front part of the bearing roller (11) through a bolt (12), the front end of the stepped shaft (10) penetrates through the support flange (13) and is connected with a fan blade (14); the wind power recovery and generation device also comprises an electric storage device (6) connected with the wind energy conversion device (9) through an electric wire (7); the outside of the wind power recovery and generation device is coated with a heat dissipation box (5).

2. A ventilator wind power recovery generating system according to claim 1, wherein: a wind power recovery generating set is symmetrically fixed in the ventilating duct (8) at the other side of the ventilator (3) and is connected with the electric power storage equipment (6) through a branch line.

3. A ventilator wind power recovery generating system according to claim 2, wherein: the fan blade (14) is a bidirectional rotating type blade.

4. A ventilator wind power recovery generating system according to claim 1, 2 or 3, wherein: the heat dissipation box (5) is also provided with heat dissipation angle bars (4).

5. A ventilator wind power recovery and generation system according to claim 4, wherein: lubricating oil is sprayed in the stepped holes.

6. A ventilator wind power recovery generating system according to claim 1 or 5, characterized in that: a bearing is arranged between the support flange (13) and the stepped shaft (10).

7. A ventilator wind power recovery and generation system according to claim 6, wherein: the bearing roller (11) is provided with a vent hole in the axial direction.

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