CN103670926A

CN103670926A - Device with windmill power generation function and indoor heat exhaust function

Info

Publication number: CN103670926A
Application number: CN201210326032.1A
Authority: CN
Inventors: 李琮杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-09-06
Filing date: 2012-09-06
Publication date: 2014-03-26

Abstract

Provided is a device with the windmill power generation function and the indoor heat exhaust function. A wind driven generator is combined with a cylindrical air exhaust body, the device is arranged at an opening of a roof protrusion, radial vanes on the cylindrical air exhaust body are utilized to rotate to generate power and generate thrust for pumping airflow, indoor hot air is exhausted to the outdoors, and therefore the indoor air circulates strongly, and the indoor temperature is decreased greatly.

Description

Device with windmill power generation and indoor heat extraction functions

Technical Field

The device has the functions of wind turbine power generation and indoor heat removal, utilizes the design that the wind turbine rotates with large torque force to discharge indoor hot air, can also generate electric power, and has the function of reducing indoor temperature, thereby belonging to an innovative device.

Background

The conventional roof ventilator is a small windmill, and the purpose of extracting hot air out of the house is to use the rotation generated by the blades pushed by wind, if the roof ventilator is required to have a power generation function, a power generation disc can generate the function only by enough rotating torque, but the wind area of the blades of the ventilator is limited, the obtained auxiliary power is difficult to rotate for power generation, so that the purpose of increasing the power generation function cannot be realized.

Disclosure of Invention

The invention aims to provide a device with wind turbine power generation and indoor heat removal functions, which can generate thrust of a pumping airflow in addition to power generation by utilizing the rotation of radial blades on a cylindrical exhaust body, can pump indoor hot air to exhaust the hot air to the outside of a room, and has double effects of generating power and reducing indoor temperature.

In order to achieve the above object, the present invention discloses a device for wind turbine power generation and indoor heat removal, comprising: the group of windmill blades are vertical windmill blades, the upper support of the windmill blade is connected with the second bearing, the lower support of the windmill blade is connected with the third bearing and the axis sleeve, and the third bearing and the axis sleeve jointly penetrate through the middle idle shaft; a shaft center sleeve which is connected with the cylindrical exhaust main body, the bearing III, the lower blade bracket and the windmill blade and is jointly linked to rotate around the hollow rotating shaft; a cylindrical exhaust main body, a disc-shaped magnet group is arranged above the cylindrical exhaust main body, the middle part of the cylindrical exhaust main body is connected with a vertical centrifugal exhaust blade, and the lower end of the cylindrical exhaust main body is combined with a turntable; the inside of the turntable is provided with accelerated convection blades attached to a turntable support, and the cylindrical exhaust main body rotates around the hollow rotating shaft by the support of the axis sleeve, the bearing III and the bearing I; the hollow rotating shaft is fixed in the center of the chassis support and used as a support column of the windmill, a group of power generation coil discs are arranged in the cylindrical exhaust main body at positions corresponding to the disc-shaped magnet groups, the hollow rotating shaft upwards penetrates through the cylindrical exhaust main body, the axis sleeve and the bearing III to extend out of a proper height, and penetrates through the bearing II to support the rotation of the blade support and the whole group of windmill blades; a base plate, in which a base plate support is connected with hollow rotating shaft as supporting centre of windmill, and fixed on the floor slab opening.

The shaft center sleeve is a hollow cylinder, and is connected with the bearing III and the cylindrical exhaust main body and sleeved on the hollow rotating shaft together to rotate around the hollow rotating shaft.

The invention also discloses a device with the functions of windmill power generation and indoor heat removal, which comprises the following structures: a set of windmill blades, which is provided with a vertical windmill blade and a windmill blade bracket for connecting the windmill blade to the cylindrical exhaust main body; a cylindrical exhaust main body, a disc-shaped magnet group is arranged above the cylindrical exhaust main body, the middle part of the cylindrical exhaust main body is connected with a vertical centrifugal exhaust blade, and the lower end of the cylindrical exhaust main body is combined with a turntable; the inside of the turntable is provided with accelerated convection blades attached to a turntable support, and the cylindrical exhaust main body rotates around the hollow rotating shaft by the support of a bearing II and a bearing I; a hollow rotating shaft fixed in the center of the chassis bracket as a support of the windmill, and a group of power generation coil discs are arranged in the cylindrical exhaust main body corresponding to the disc-shaped magnet group; a chassis, the inside of which is connected with the hollow rotating shaft by a chassis bracket and is used as a supporting center of the windmill and fixed on the metal heightening sleeve with the increased height; the device is installed on the concrete building roof protrusion, uses the centrifugal effect of the rotation of the exhaust blade to exhaust the indoor hot air, and has the double effects of generating electric power and reducing indoor temperature by the rotation of the windmill with large torque force.

The first bearing is fixed at the center of the turntable support, and the second bearing is fixed at the center of the disc-shaped magnet group to form a part of the cylindrical exhaust main body, and the two bearings are sleeved on the hollow rotating shaft together to rotate around the hollow rotating shaft.

The hollow rotating shaft is a hollow pipe body, a hole is formed in the hollow rotating shaft below the power generation coil disc, and leads at two ends of power output penetrate through the hole and extend out from the lower portion of the chassis through the inside of the hollow rotating shaft.

Wherein, the chassis is fixed at the metal heightening sleeve and then is arranged on the opening reserved on the floor slab.

The windmill power generation and indoor heat removal device has the advantages that the rotation of the radial blades on the cylindrical exhaust main body is utilized, the thrust of the pumping airflow can be generated in addition to power generation, indoor hot air is pumped and exhausted outdoors, and the double effects of generating power and reducing indoor temperature are achieved.

Drawings

FIG. 1: the invention relates to a three-dimensional combined view.

FIG. 2: the invention discloses a three-dimensional exploded view of a heat dissipation and power generation device.

FIG. 3: the invention is a schematic operation diagram.

FIG. 4: the invention discloses a power generation architecture schematic diagram.

FIG. 5: the hot gas flow of the present invention is schematic.

FIG. 6: an exploded perspective view of another embodiment of the present invention.

FIG. 7: a perspective assembly view of another embodiment of the present invention.

FIG. 8: a schematic of the hot gas flow of another embodiment of the present invention.

Detailed Description

Referring to fig. 1 to 5, a preferred embodiment 1 of the present invention is illustrated, which comprises a windmill 1, a cylindrical exhaust body 2; wherein,

the windmill 1 comprises a plurality of windmill blades 10, wherein the inner surfaces of the windmill blades 10 are respectively provided with a windmill blade bracket 12 at the upper part and the lower part, and are sleeved on a hollow rotating shaft 30 which protrudes upwards of a cylindrical exhaust main body 2 through a bearing II 120 and a bearing III 121;

the cylindrical exhaust body 2 (refer to fig. 2) comprises a disc-shaped magnet set 20 and centrifugal exhaust blades 21 vertically arranged below the disc-shaped magnet set 20, and is connected to a turntable 22, the turntable is provided with a turntable support, and the support is provided with accelerated convection blades 23 and is connected to a bearing one 24; the disc-shaped magnet set 20 is combined with the turntable 22 up and down, and positions each centrifugal exhaust blade 21 to be arranged in a radial shape with equal space, and the vertical cylinder shape with a hollow space 210 is presented;

the bottom of the cylindrical exhaust body 2 is mounted on a base plate 32, the base plate 32 is provided with a base plate support 320, the center of the base plate 32 is connected with a hollow rotating shaft 30, the hollow rotating shaft 30 is connected with a generating coil disc 31 in the disc-shaped magnet group 20, and the bearing three 121 and the bearing two 120 which pass through the shaft center sleeve 200 at the upper end of the disc-shaped magnet group 20 and the windmill blade support 12 are sleeved, so that the windmill 1 and the cylindrical exhaust body 2 rotate around the hollow rotating shaft 30.

By means of the above components, a main body with heat-dissipating effect and power generation is completed, and the main body is combined and fixed on the roof opening A through the chassis 32 to discharge hot air indoors.

In operation, as shown in fig. 5, when the wind turbine blade 10 slowly rotates in the wind, the disc-shaped magnet set 20 rotates around the power generation coil disc 31 on the hollow rotating shaft 30, and starts to generate the power output C. The hot air B rises due to the temperature convection in the room, enters the hollow space 210 formed by the plurality of centrifugal exhaust vanes 21 in the cylindrical exhaust body 2 through the roof opening a set up in advance, and is discharged to the outside through the radial centrifugal exhaust vanes 21 by the pushing of the accelerated convection vanes 23 in the turntable 22, so that the power generation can be performed and the room temperature can be reduced.

Referring to fig. 6 to 8, a 2 nd preferred embodiment of the present invention is described, which is similarly composed of a windmill 1a, a cylindrical exhaust body 2a, and provided with a metal heightening sleeve 4a as a base; wherein, the windmill blades 1b of the windmill 1a are respectively connected to the disc-shaped magnet group 2b and the turntable 2c of the cylindrical exhaust main body 2a by a windmill blade bracket 1 c;

the cylindrical exhaust body 2a comprises a disc-shaped magnet group 2b and centrifugal exhaust blades 2d vertically arranged below the disc-shaped magnet group 2b, and is connected to a turntable 2c, the turntable 2c is provided with a turntable support, and the support is provided with accelerated convection blades 2f which are connected to a bearing I2 i;

the lower part of the cylindrical exhaust body 2a is arranged on a chassis 2g, the chassis 2g is provided with a chassis bracket 2h, the center of the chassis bracket is connected with a hollow rotating shaft 3b, and the hollow rotating shaft 3b is arranged in the disc-shaped magnet group 2b and is connected with a power generation coil disc 3 c; the disc-shaped magnet group 2b and the rotary disc 2c are sleeved on the hollow rotary shaft 3b to be combined up and down, the centrifugal exhaust blades 2d are positioned to be arranged in an equidistant radial mode, the cylindrical exhaust main body 2a is in a vertical cylinder shape with a hollow space 2e (refer to fig. 8), and then the chassis 2g is combined with the metal heightening sleeve 4a to be fixed on the roof opening A to discharge hot air indoors.

In actual operation (see fig. 8), when the windmill blades 1b connected to the cylindrical exhaust body 2a rotate slowly in the wind, the disc-shaped magnet group 2b of the cylindrical exhaust body 2a rotates around the power generation coil disc 3C on the hollow rotating shaft 3b, and the power output C starts to be generated. The hot air B rises due to the temperature convection in the room, enters the hollow space 2e formed by the plurality of centrifugal exhaust vanes 2d in the cylindrical exhaust body 2a through the metal heightening sleeve 4a connected to the roof opening a set in advance, and is discharged to the outside through the radial centrifugal exhaust vanes 2d by pushing the convection acceleration vanes 2f in the rotary disk 2c, so that the power generation is similarly performed and the room temperature is also lowered.

Claims

1. An apparatus for wind turbine power generation and indoor heat removal, comprising:

the group of windmill blades are vertical windmill blades, the upper support of the windmill blade is connected with the second bearing, the lower support of the windmill blade is connected with the third bearing and the axis sleeve, and the third bearing and the axis sleeve jointly penetrate through the middle idle shaft;

a shaft center sleeve which is connected with the cylindrical exhaust main body, the bearing III, the lower blade bracket and the windmill blade and is jointly linked to rotate around the hollow rotating shaft;

a cylindrical exhaust main body, a disc-shaped magnet group is arranged above the cylindrical exhaust main body, the middle part of the cylindrical exhaust main body is connected with a vertical centrifugal exhaust blade, and the lower end of the cylindrical exhaust main body is combined with a turntable; the inside of the turntable is provided with accelerated convection blades attached to a turntable support, and the cylindrical exhaust main body rotates around the hollow rotating shaft by the support of the axis sleeve, the bearing III and the bearing I;

the hollow rotating shaft is fixed in the center of the chassis support and used as a support column of the windmill, a group of power generation coil discs are arranged in the cylindrical exhaust main body at positions corresponding to the disc-shaped magnet groups, the hollow rotating shaft upwards penetrates through the cylindrical exhaust main body, the axis sleeve and the bearing III to extend out of a proper height, and penetrates through the bearing II to support the rotation of the blade support and the whole group of windmill blades;

a base plate, in which a base plate support is connected with hollow rotating shaft as supporting centre of windmill, and fixed on the floor slab opening.

2. The windmill generator and indoor heat removal device as claimed in claim 1, wherein the shaft center sleeve is a hollow cylinder, and the connecting bearing III and the cylindrical exhaust body are jointly sleeved around the hollow rotating shaft to rotate around the hollow rotating shaft.

3. An apparatus for wind turbine power generation and indoor heat removal, characterized in that the structure comprises:

a set of windmill blades, which is provided with a vertical windmill blade and a windmill blade bracket for connecting the windmill blade to the cylindrical exhaust main body;

a cylindrical exhaust main body, a disc-shaped magnet group is arranged above the cylindrical exhaust main body, the middle part of the cylindrical exhaust main body is connected with a vertical centrifugal exhaust blade, and the lower end of the cylindrical exhaust main body is combined with a turntable; the inside of the turntable is provided with accelerated convection blades attached to a turntable support, and the cylindrical exhaust main body rotates around the hollow rotating shaft by the support of a bearing II and a bearing I;

a hollow rotating shaft fixed in the center of the chassis bracket as a support of the windmill, and a group of power generation coil discs are arranged in the cylindrical exhaust main body corresponding to the disc-shaped magnet group;

a chassis, the inside of which is connected with the hollow rotating shaft by a chassis bracket and is used as a supporting center of the windmill and fixed on the metal heightening sleeve with the increased height;

the device is installed on the concrete building roof protrusion, uses the centrifugal effect of the rotation of the exhaust blade to exhaust the indoor hot air, and has the double effects of generating electric power and reducing indoor temperature by the rotation of the windmill with large torque force.

4. The windmill generator and indoor heat removal device as claimed in claim 3, wherein the first bearing is fixed at the center of the turntable support, and the second bearing is fixed at the center of the disc-shaped magnet set to form a part of the cylindrical exhaust body, and is sleeved around the hollow rotating shaft to rotate together.

5. The windmill generator and indoor heat removal device as claimed in claim 3, wherein the hollow shaft is a hollow tube, and a hole is formed in the hollow shaft below the coil disc, so that the wires at both ends of the power output are inserted into the hole, pass through the inside of the hollow shaft, and extend out from the bottom of the base plate.

6. The windmill generator and indoor heat removal system as claimed in claim 3, wherein the base plate is fixed to the metal heightening sleeve and then installed on the opening reserved in the floor slab.