CN204327408U - A kind of wind force air compression device - Google Patents

Abstract

The utility model relates to a kind of wind force air compression device, and it comprises cowling, blade, driving shaft, CVT gearbox, air compressor, housing, pylon, compressed air hose, safety check and gas holder; Wherein, described cowling is connected with blade, driving shaft respectively; Described driving shaft connects and drives CVT gearbox; Described CVT gearbox connects and drives air compressor; Described CVT gearbox, air compressor are contained in housing; Described housings support is on pylon; Described compressed air hose one end is connected to air compressor, and the other end is connected to gas holder; Described safety check is arranged on compressed air hose.It is simple that wind force air compression device of the present utility model has structure, without intermediate energy conversion links and the plurality of advantages such as controllability is good.

Description

A kind of wind force air compression device

Technical field

The utility model relates to a kind of wind energy facility, is specifically related to a kind of wind force air compression device, belongs to technical field of environment protection equipment.

Background technique

The pressurized air of prior art generally drives special air compressor operation to produce by electric power.And electric power is mainly through multiple forms of electricity generation such as firepower, waterpower, wind-force, nuclear energy, solar energy, in conversion process of energy, there is loss.

Therefore, for solving the problems of the technologies described above, the necessary wind force air compression device providing a kind of innovation, to overcome described defect of the prior art.

Model utility content

For solving the problems of the technologies described above, the purpose of this utility model is that a kind of structure is simple, without intermediate energy conversion links and the good wind force air compression device of controllability.

For achieving the above object, the technological scheme that the utility model is taked is: a kind of wind force air compression device, and it comprises cowling, blade, driving shaft, CVT gearbox, air compressor, housing, pylon, compressed air hose, safety check and gas holder; Wherein, described cowling is connected with blade, driving shaft respectively; Described driving shaft connects and drives CVT gearbox; Described CVT gearbox connects and drives air compressor; Described CVT gearbox, air compressor are contained in housing; Described housings support is on pylon; Described compressed air hose one end is connected to air compressor, and the other end is connected to gas holder; Described safety check is arranged on compressed air hose.

Wind force air compression device of the present utility model is set to further: in described cowling, be provided with a blade angle final controlling element, and this blade angle final controlling element connects and drive vane.

Wind force air compression device of the present utility model is set to further: be provided with a wind meter in the top of described housing; DCS controller and yaw motor are installed in described housing; Driftage final controlling element is provided with in the bottom of described housing; Described yaw motor connects and drives driftage final controlling element, and driftage final controlling element connects and drive shell.

Wind force air compression device of the present utility model is set to further: described wind meter is electrically connected on DCS controller; Described DCS controller is electrically connected respectively and controls blade angle final controlling element, yaw motor; This DCS controller is also connected on a ground handling station.

Wind force air compression device of the present utility model is also set to: connected by a Moveable seal cartridge between described air compressor and compressed air hose.

Compared with prior art, the utility model has following beneficial effect:

1. air is directly changed into pressurized air by wind-force by wind force air compression device of the present utility model, saves intermediate energy conversion links, has the advantage that capacity usage ratio is high;

2. wind force air compression device of the present utility model can regulate Windward angle, blade angle, thus makes the working state of air compressor best;

3. the data transferring of operation can be gone back to ground by wind force air compression device of the present utility model, and ground handling station is compared the data analysis sent back, and make staff understand working condition and the operational efficiency of this device, controllability is good.

Accompanying drawing explanation

Fig. 1 is the structural representation of wind force air compression device of the present utility model.

Fig. 2 is the control principle drawing of wind force air compression device of the present utility model.

Embodiment

Refer to shown in Figure of description 1 and accompanying drawing 2, the utility model is a kind of wind force air compression device, and it is made up of a few parts such as cowling 1, blade 2, driving shaft 3, CVT gearbox 4, air compressor 5, housing 6, pylon 7, compressed air hose 8, safety check 9 and gas holder 10.

Wherein, described cowling 1 is connected with blade 2, driving shaft 3 respectively, and wind-force shunts wind-force by cowling 1, and band moving vane 2 rotates, and blade 2 drives driving shaft 3 to produce moment of torsion.

Described driving shaft 3 connects and drives CVT gearbox 4.Described CVT gearbox 4 connects and drives air compressor 5, makes air compressor 5 produce pressurized air.

Described CVT gearbox 4, air compressor 5 are contained in housing 6.Described housing 6 is supported on pylon 7.

Described compressed air hose 8 one end is connected to air compressor 5, and the other end is connected to gas holder 10.Specifically, connected by a Moveable seal cartridge 11 between described air compressor 5 and compressed air hose 8, thus be convenient to housing 6 and adjust position.Described safety check 9 is arranged on compressed air hose 8.Air, by Moveable seal cartridge 11, compressed air hose 8 and safety check 9, is sent to gas holder 10 by the air after compression, forms pressurized air.

Further, be provided with a blade angle final controlling element 12 in described cowling 1, this blade angle final controlling element 12 connects and drive vane 2.

In the top of described housing 6, a wind meter 13 is installed.DCS controller 14 and yaw motor 15 are installed in described housing 6.Driftage final controlling element 16 is provided with in the bottom of described housing 6.Described yaw motor 15 connects and drives driftage final controlling element 16, and driftage final controlling element 16 connects and drive shell 6.

Described wind meter 13 is electrically connected on DCS controller 14; Described DCS controller 14 is electrically connected respectively and controls blade angle final controlling element 12, yaw motor 15; This DCS controller 14 is also connected on a ground handling station 17.

The working principle of wind force air compression device of the present utility model is as follows:

1. wind-force shunts wind-force by cowling 1, and band moving vane 2 rotates, and produces moment of torsion and drives CVT gearbox 4, CVT gearbox 4 to be with engine-driven air compressor 5 to work; Air compressor 5 delivers to gas holder 10 after producing the air of compression, forms pressurized air.

2. survey wind speed and direction by wind meter 13, the wind direction data will collected on the one hand, control yaw motor 15 after the computing by DCS controller 14 and drive driftage final controlling element 16 to adjust Windward angle in real time.On the other hand control blade angle final controlling element 12 by after the computing of the air speed data of collection by DCS controller 14, blade 2 is made to be in best angle, adjust the speed ratio of CVT gearbox 4, the torsion of control CVT gearbox 4 and rotating speed, make air compressor 5 be operated in optimum condition simultaneously.

3, by DCS controller 14 analysis and adjustment driftage final controlling element 16 and the data that transmit of blade angle final controlling element 12, and the data transferring of this device real time execution can be gone back to ground, ground handling station 17 is compared the data analysis sent back, and makes staff understand working condition and the operational efficiency of this device.

Above embodiment is only the preferred embodiment of this creation, and not in order to limit this creation, any amendment made within all spirit in this creation and principle, equivalent replacement, improvement etc., within the protection domain that all should be included in this creation.

Claims (5)

1. a wind force air compression device, is characterized in that: comprise cowling, blade, driving shaft, CVT gearbox, air compressor, housing, pylon, compressed air hose, safety check and gas holder; Wherein, described cowling is connected with blade, driving shaft respectively; Described driving shaft connects and drives CVT gearbox; Described CVT gearbox connects and drives air compressor; Described CVT gearbox, air compressor are contained in housing; Described housings support is on pylon; Described compressed air hose one end is connected to air compressor, and the other end is connected to gas holder; Described safety check is arranged on compressed air hose.

2. wind force air compression device as claimed in claim 1, is characterized in that: in described cowling, be provided with a blade angle final controlling element, and this blade angle final controlling element connects and drive vane.

3. wind force air compression device as claimed in claim 2, is characterized in that: be provided with a wind meter in the top of described housing; DCS controller and yaw motor are installed in described housing; Driftage final controlling element is provided with in the bottom of described housing; Described yaw motor connects and drives driftage final controlling element, and driftage final controlling element connects and drive shell.

4. wind force air compression device as claimed in claim 3, is characterized in that: described wind meter is electrically connected on DCS controller; Described DCS controller is electrically connected respectively and controls blade angle final controlling element, yaw motor; This DCS controller is also connected on a ground handling station.

5. wind force air compression device as claimed in claim 1, be is characterized in that: connected by a Moveable seal cartridge between described air compressor and compressed air hose.