KR20110124043A - A revolving house equipped with solar tracking apparatus - Google Patents

Abstract

PURPOSE: A rotating house comprising a solar tracking device is provided to supply electricity produced with sunlight to a dwelling facility and change view by changing the direction of the dwelling facility according to the change in the position of sun. CONSTITUTION: A rotating house comprising a solar tracking device comprises a support(10), a dwelling facility(30), a module frame(40), a driving unit(20), a guide member(12), and a rotating member(11). The support tracks the position of sun and rotates by power generated from the driving unit. The dwelling facility is installed on the upper part of the support. The module frame is fixed to the roof of the dwelling facility and a plurality of solar modules collecting sunlight and generating power are attached to the module frame. The driving unit is installed on the lower part of the support and generates power to rotate the support.

Description

Revolving house equipped with solar tracking apparatus

The present invention relates to a rotating house having a solar tracking device, and more particularly, to install a residential facility on a support that rotates in accordance with the movement of the sun, to track the movement of the sun to collect sunlight and produce electricity By installing a photovoltaic module on the roof of a residential facility, it can supply electricity to the residential facility as well as change the direction of the residential facility according to the position of the sun and change the view area. It is about.

In general, most buildings that are built outdoors such as rural houses, cafes, and restaurants are fixedly constructed by concrete or wood, so once a building is built, only the exterior landscape is always indoors until the life of the building is over. Since there is no choice but to view, it has a lot of influence on the sunshine and the view. Especially, in the case of cafes and restaurants, guests tend to sit only with a good view and are reluctant to sit in a poor view.

In addition, the fixed building has a problem that the amount of sunshine changes depending on the season, especially in the winter, there is a problem such as a large amount of heating expenses due to the lack of sunshine, and even in the view is always bound to see only a specific direction. In recent years, a rotatable house has been attempted to solve this problem. However, the rotatable house has not been activated because of difficulties in providing piping or facilities for electricity or gas into the rotatable house.

On the other hand, the photovoltaic device has a capacity for generating power according to the size of the module for condensing sunlight, so as to support a large module frame with one frame connecting shaft as disclosed in Patent No. 799260 Since the facility itself is unstable, even if a strong wind, not a typhoon, can not fix the module frame reliably, it will not be possible to generate power due to breakage or damage of the photovoltaic device, and serious problems in safety will occur. In the case of a medium and large capacity generator with a capacity of 10 Kwh or more, there is a problem that a structure supporting the module frame with one axis cannot be used.

The present invention has been made to solve the above problems, an object of the present invention, by installing a residential facility on a support that rotates in accordance with the movement of the sun, by concentrating sunlight while changing the direction by tracking the movement of the sun By installing solar modules that produce electricity on the roof of residential facilities, the solar power can be supplied to residential facilities as well as change the direction of the residential facilities according to the change in the position of the sun. To provide a rotating house having a tracking device.

In order to solve the above problems, the rotary housing having a solar tracking device according to the present invention, the support for rotating in accordance with the movement of the sun; Residential facilities installed on the support; A module frame fixedly installed on a roof installed inclined in one direction on the upper part of the residential facility, and having a plurality of solar modules attached to collect solar light; A driving device installed under the support to generate power for rotating the support; A guide member fixed to the bottom surface in a circular shape; In order to rotate the support, it is characterized in that it comprises a rotating member which is attached to the bottom of the support 4 to 8 at equal intervals and rotates on the top of the guide member.

Preferably, the drive device, the reduction motor for generating power; A reducer for reducing the rotational speed of the reduction motor; A drive gear to receive rotational force from the reducer; It is configured to include a driven gear installed on the lower surface of the support to rotate in engagement with the drive gear.

Preferably, the guide member is installed in any one of the U-shaped, I-type or H-beam (beam), the rotating member is a rotary wheel or roller that rotates on the upper surface of the guide member, the guide member is a rack with a gear formed thereon and a rotating member is a pinion which rotates in engagement with the gear.

Preferably, the module frame has a control unit for tracking the position of the sun and rotationally driven so that the solar module can follow the sun.

In the rotary house equipped with a solar tracking device according to the present invention having the above characteristics, the residential facilities (rotary houses) is installed on a support that rotates in accordance with the movement of the sun, the residential facilities as the position of the sun changes The direction of the (Rotary House) is also changed, which can give the residents a new feeling at all times by changing the right of view and the right of sun that can be seen in the residential space.

In addition, the power generation capacity of the photovoltaic device varies depending on the size of the module for condensing sunlight, the installation itself is unstable when a large module frame is installed on one frame connecting shaft, in the case of the present invention module frame Since it is installed on the roof of a residential facility (rotary house), it can not only securely and stably fix the module frame even if there is a typhoon, but it can also be installed in medium and large capacity with large power generation capacity depending on the roof area. By supplying electricity directly from residential buildings (rotary houses), electricity costs are not charged at all, and if the power generation capacity is large, electricity generated from the roof can be sold to the outside.

1 is a cross-sectional view showing an embodiment of a rotary house having a solar tracking device according to the present invention.
2 is a plan view of FIG.
3 is a view showing a driving unit of the rotary house driving apparatus according to the present invention.
Figure 4 is a cross-sectional view showing another embodiment of a rotary house having a solar tracking device according to the present invention.

Rotating housing having a solar tracking device according to the present invention, the support 10 to rotate by the power generated by the drive device 20 to track the position of the sun, and the housing facilities built on the support ( 30) and a module frame 40 installed with a plurality of solar modules fixedly installed on the roof of the residential facility 30 to collect and generate solar light as a basic configuration.

The support 10 is rotated by the driving force of the driving device 20 under the control of a controller (not shown) by following the movement of the sun, the upper surface is a plate (板狀), the planar shape is circular or square and The same regular polygon is not particularly limited in its planar shape. In addition, one side of the support 10 will have to be installed, such as stairs (not shown) that can be raised or lowered from the ground to the support (10).

The residential facility 30 may be installed at the upper portion of the support 10 so that a person can live there, and is not particularly limited to a use or a shape such as a house, a pension, a cafe, a restaurant, and the like. In addition, the residential facility 30 is provided with a roof, the roof may be in the form of a flat plate inclined only in one direction, the cross-sectional shape may be a shape, a plurality of solar modules are fixed to the roof and collect the solar light The installed module frame 40 is installed only on the entire roof or a predetermined portion in the case of the roof inclined only in one direction, and is installed only on one side of the roof when the cross section is a ∧ shape.

Since the position and altitude of the sun changes with the season and time, the inclination angle of the module frame 40 should also change. Considering the altitude and position of the sun, the module frame 40 has an inclination angle within a range of 30 ° to 80 °. Although the degree should be adjusted, in the present invention, since the roof on which the module frame 40 is installed is fixedly installed, it is preferable to install the inclination angle of the roof inclined by a predetermined angle within a range of 30 ° to 50 ° with respect to the vertical plane. .

The driving device 20 is a device that is installed under the support 10 to generate power for rotating the support 10, and the rotational speed of the reduction motor 21 and the reduction motor 21 for generating power A worm reducer 22, a drive gear 25 for receiving rotational force from the worm reducer 22 through the main reducer 23, and a lower surface of the support 10 are installed to reduce the drive gear 25. It is composed of a driven gear 26 for rotating the support 10 while being engaged with the rotation, the driven gear 26 is coupled to the upper end of the fixed shaft 27 fixed to the bottom surface.

Rotating housing according to the present invention is the housing is rotated so that the water and sewage pipes or gas pipes connected to the outside can be adjusted in a certain range according to the rotation of the residential facility 30 using a flexible one that can be bent freely. It would be, and it would be desirable to introduce it into the house through the interior of the fixed shaft 27.

Since the device that tracks the sun's position and generates electricity needs to reduce the speed of the motor to more than 50,000: 1, one speed reducer cannot reduce the speed of the motor all at once. Using the reduction motor 21, the secondary deceleration is performed in the worm reducer 22 connected to the reduction motor 21, the third deceleration is the main reducer 23 connected to the worm reducer 22 Done at Of course, the arrangement of the reducer or gear to reduce the number of revolutions of the motor can be changed as needed.

The guide member 12 is fixed to the bottom surface in a circular shape to guide the movement of the rotating member 11 for the rotation of the support 10, the rotating member 11 is located at the lower edge of the support (10) 4 8 to 8 are attached at equal intervals and rotated at the top of the guide member 12. If the planar shape of the support 10 is circular, it is preferable to attach an appropriate number at equal intervals, and if the planar shape is a regular polygon, it is preferable to install it under each corner portion of the regular polygon.

Guide member 12 is installed in any one of the U-shaped, I-shaped or H-beam (beam), wherein the rotating member 11 should be a rotating wheel (or roller) that rotates on the beam upper surface of the guide member 12. If the guide member 12 is a rack having gears on the upper surface, the rotating member 11 should be a pinion which rotates in engagement with the gear formed on the rack. The bearing housing may be provided on the upper surface of the upper surface of the 12 and the lower surface of the support 10, respectively, and the bearing may be inserted into the rotating member therebetween. As the rotary member 11 rotates on the upper guide member 12 as described above, the support 10 rotates, and thus, the residential facility 30 built on the upper support 10 rotates, and the residential facility 30 In accordance with the rotation of the module frame 40 installed on the roof of the residential facility 30 is also changed by itself.

In addition, the inner side of the rotating member 11, may be further provided with an auxiliary wheel 13 attached to the lower surface of the support 10 to rotate in pairs with the rotating member 11 with the guide member 12 therebetween. have. In detail, the rotating member 11 and the auxiliary wheel 13 rotate in pairs with the plate-shaped member of the beam constituting the guide member 12 (that is, the upper plate of the beam) interposed therebetween. Even if it is preferable that the housing 30 and the module frame 40 is firmly supported without being shaken so as to stably change the direction. Of course, as shown in Figure 1, the auxiliary wheel 13 will have to be installed by attaching a separate auxiliary wheel fixing stand 15 in the lower lower surface of the support (10).

The controller (not shown) serves to track the position of the sun to drive the solar module to follow the sun. The tracking method can be largely divided into program tracking and sensor tracking. The program tracking is a tracking method in which the module is rotated by inputting the movement of the sun due to the rotation and revolution of the earth into the program in advance. By sensing and controlling the direction of the module, you can choose as many methods as you need. In the present invention, since tracking the position of the sun is not a technical content of the present invention, an existing tracking method is used and a description thereof will be omitted.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: support 11: rotating member
12: guide member 13: auxiliary wheel
14: auxiliary wheel fixture
20: drive device 21: reduction motor
22: worm reducer 23: main reducer
24: rotating shaft 25: drive gear
26: driven gear 27: fixed shaft
30: Residential facility
40: module frame

Claims (8)

A support rotating according to the movement of the sun;
Residential facilities installed on the support;
A module frame fixedly installed on a roof installed inclined in one direction on the upper part of the residential facility, and having a plurality of solar modules attached to collect solar light;
A driving device installed under the support to generate power for rotating the support;
A guide member fixed to the bottom surface in a circular shape;
In order to rotate the support, the rotary member is attached to the lower portion of the support 4 to 8 at equal intervals to rotate at the top of the guide member;
Rotary house provided with a solar tracking device, characterized in that configured to include.
The method of claim 1, wherein the driving device,
A reduction motor for generating power;
A reducer for reducing the rotational speed of the reduction motor;
A drive gear to receive rotational force from the reducer;
A driven gear installed at a lower surface of the support to rotate in engagement with the drive gear;
Rotary house provided with a solar tracking device, characterized in that configured to include.
The method of claim 1,
The guide member is installed in any one of the U-shaped, I-type or H-beam (beam), the rotating member is a rotation with a solar tracking device, characterized in that the rotating wheel or roller rotating on the upper surface of the guide member. Housing.
The method of claim 1,
The upper housing and the lower surface of the support of the guide member is provided with a bearing housing, the rotation housing having a solar tracking device, characterized in that to insert the bearing between the bearing housing to rotate the support.
The method of claim 1,
And the guide member is a rack, and the rotating member is a pinion which rotates thereon.
The method of claim 3,
An inner side of the rotating member, attached to the lower surface of the support is provided with a solar tracking device, characterized in that the auxiliary wheel is further installed to rotate in pairs with the rotating member with the upper plate of the guide member therebetween. Rotating house.
The method of claim 1,
The module frame, the rotary housing having a solar tracking device further comprises a control unit for tracking the position of the sun to rotate the solar module to follow the sun.
The method of claim 1,
The roof of the residential facility is a ∧ shape, the rotary house with a solar tracking device, characterized in that the module frame is installed only on one side of the inclined surface.

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