KR20110131443A - A revolving building - Google Patents

Abstract

PURPOSE: A rotating construction is provided to improve energy efficiency by rotating a construction structure using solar energy. CONSTITUTION: A foundation part(10) is installed in a floor A building(20) is installed on the top of the foundation part. The rotating member rotates the building on foundation part. A sun detection sensor senses the amount of sunshine according to the location of the sun. A temperature sensing member senses the temperature of an indoor. The controller controls the rotating member. The rotating member controls light which is income to the inside of the building according to the temperature of an indoor.

Description

Revolving Building

The present invention relates to a rotatable building, and more particularly to a rotatable building that automatically rotates according to the position of the sun in order to maintain a constant temperature in the room.

In general, most buildings that are built outdoors such as rural houses or cafes are fixedly constructed by concrete or wood, so once the construction is completed, there is no choice but to view only the fixed exterior scenery indoors until the life of the building is reached. As a result, in places such as cafes, guests tend to sit in a place with good views all the time, and they tend to be reluctant to sit in places with poor views.

In addition, most of the buildings in our country is steadily built with the front part toward the trend toward the south, so that only a certain portion of sunlight is always intensively reflected. Therefore, the part where the sunlight is concentrated is warm in winter but too hot in summer, the part which is not in sunlight is cool in summer but too cold in winter.

For example, windows or doors that enter sunlight indoors face south. In winter, sunlight may enter the interior and the interior may become warm, but in summer, the indoor temperature may be excessive because the sunlight is too strong. There is a risk of rising.

In order to solve this problem, a rotating building is developed to view various landscapes by rotating automatically or manually by moving away from a fixed building, and the present applicant also applies a rotating building through Patent Application No. 10-2004-0026631. It has been filed.

In the case of the rotary building according to the related art, the windows or the doors are positioned in the direction of the sunlight so that the sunlight is sufficiently introduced into the room through the windows or the doors in spring, autumn, or winter, according to the amount of sunshine. In order to prevent sunlight from entering the room directly through the windows or doors, the windows and doors are designed to be positioned in the direction that sunlight does not shine. have.

In addition, in the rotating means for rotating the building, the drive gear is disposed at a short distance from the central axis, a relatively large force is required in the drive gear to obtain the same torque, and a separate support to keep the central axis stable Rollers should be provided. In this case, more driving energy is required, and there is a disadvantage in that the construction process becomes difficult and the cost increases due to a complicated configuration.

The present invention has been proposed to solve the above problems, which is environmentally friendly using solar energy, by adjusting the amount of sunlight introduced into the room according to the room temperature set by the user to maintain a constant temperature in the room It aims to provide a rotatable building.

Another object of the present invention is to provide a rotating structure that can rotate the building with a relatively small force, at least three or more driving gears are provided, no separate support rollers are required.

The present invention for achieving the above object is installed on the base; A building rotatably installed on an upper portion of the foundation; Rotating means for rotating the building with respect to the foundation; It is provided with a solar sensor for detecting the amount of sunlight according to the position of the sun and a temperature sensing means for sensing the temperature of the room, and adjusts the rotating means to adjust the amount of light incident into the building according to the room temperature It includes a control unit.

In the above-described configuration, it is provided in the building is further provided with an adjustment unit for arbitrarily adjusting the rotation of the building by the user's operation, the control unit is configured to rotate the building in accordance with the adjustment signal of the adjustment unit. It is done.

In the above-described configuration, the rotating means includes a rack mounted in a circular shape having a radius of at least 1/2 or more of the radius of the minor axis of the bottom of the building from the central axis on the bottom of the building; A drive motor installed at the base portion; A pinion provided on at least three rotation lines of the rack to transmit the rotational force by the driving motor to the rack; A rotating shaft mounted at the center of the bottom of the building; And a support installed at the center of the base part, the support shaft being rotatably inserted therein, and having a bearing inside the rotation shaft wrapped therein.

The present invention of the configuration as described above improves energy efficiency by rotating the building using the solar energy directly, by rotating the building to adjust the amount of sunlight introduced into the room according to the room temperature set by the user to increase the room temperature Can be kept constant.

In addition, the drive gear for rotating the building is disposed on the bottom of the building at least three or more in a circle of a larger radius than the previous radius can be rotated stably without requiring a separate support roller.

1 is an exploded perspective view showing a rotatable building according to an embodiment of the present invention;
Figure 2 is a side cross-sectional view showing a state in which a part of the building cut according to the embodiment of the present invention,
3 is a plan view showing a basic portion of a rotatable building according to an embodiment of the present invention;
4 is a block diagram showing a control unit of a rotatable building according to an embodiment of the present invention;
5 is a flow chart showing a control flow of the rotatable building according to an embodiment of the present invention.

The technical problem achieved by the present invention and the practice of the present invention will be apparent from the preferred embodiments described below. The following examples are merely illustrated to illustrate the present invention and are not intended to limit the scope of the present invention. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a rotatable building according to an embodiment of the present invention, Figure 2 is a side cross-sectional view showing a state in which a portion of the building according to the embodiment of the present invention cut, Figure 3 is an embodiment of the present invention It is a top view which shows the basic part of the rotatable building.

Referring to the drawings, the rotatable building according to an embodiment of the present invention is the foundation 10 installed on the floor, the building 20 rotatably installed on the upper portion of the foundation 10, the foundation 10 Consists of a rotating means 30 for relatively rotating the building 20 with respect to, and includes a control unit 40 for controlling the rotating means (30).

Looking in more detail, the above-described base portion 10 is a configuration for forming a foundation on which the building 20 can be stably installed, and may be made of a general concrete structure, and flatten the floor and then form the formwork thereon. The installation is completed by installing and curing the concrete between the formwork and curing.

At this time, the installation space 10a for installing the drive motor 32 and the pinion 33 of the rotating means to be described later and the insertion space 10b for inserting the rack 31 are respectively formed on the upper surface of the base 10. It is formed, the support 36 to be described later in the process of placing concrete in the center of the upper surface of the base portion 10 is embedded in advance.

The building 20 described above is a building of various shapes and uses, such as a house or a pension, and is preferably constructed directly on the base 10, but separately in the case of a wooden house or a prefabricated house, separately from the base 10. Can be assembled.

The rotating means 30 is a configuration for rotating the building 20, the drive is installed in the installation space (10a) of the rack (rack) and the base portion 10 mounted in a circular shape on the bottom of the building (20) It is installed in the center of the pinion (pinion) for transmitting the rotational force by the motor 32, the drive motor 32 to the rack 31, the rotary shaft 35 mounted on the center of the bottom surface of the building 20 and the base 10 Consisting of a support 36.

The rack 31 is inserted into the insertion space (10b) formed on the upper surface of the base portion 10 protruding from the bottom of the building 20 is coupled to the pinion (33) to be described later.

The drive motor 32 is configured to generate forward and reverse rotational force, and may be driven by a power source applied from the outside, but it is preferable to use a power source generated by the solar cell module. To this end, the building 20 is provided with a solar cell module such as a converter for converting solar heat into electrical energy and a charger for storing the generated electrical energy.

Pinion 33 is a configuration for transmitting the rotational force of the drive motor 32 to the rack 31 to rotate the building, is connected to the end of the drive motor to transmit the rotational movement to the rack 31 in a linear motion. Wherein the rack 31 is a linear movement in the interlocking position with the pinion 33, but is formed in a circular shape as a whole to rotate the building 20. At least one pinion 33 is provided along the insertion space 10b into which the rack 31 is inserted, and at least three or more pins 33 are preferably provided to maintain a stable balance of the building. Consists of dogs.

On the other hand, between the pinion 33 and the drive motor 32 may be further provided with a deceleration device, consisting of a drive gear 38 of a smaller diameter than the pinion 33 is interlocked with the pinion 33, wherein the pinion ( The support shaft 34 of the 33 is rotatably installed on the side wall of the installation space 10a.

The support 36 is configured to support the rotating shaft 35 by being buried in the upper portion of the base 10 when the base portion 10 is installed, and a bearing 37 for smoothly rotating the inside of the rotating shaft 35. ) Is built.

In particular, in the embodiment of the present invention, the rack 31 and the insertion space (10b) is formed in a circular radius of at least 1/2 or more than the short radius of the building 20. Since the torque τ generated in the rotating body has a relationship of τ = F xd in the relationship between the force F and the distance d from the center, the smaller the distance with respect to the same torque τ, the smaller the force. Is required. Accordingly, the rack 31 and the insertion space 10b are advantageously formed with a radius as large as possible, preferably at least 1/2 of the radius of the building.

In addition, the pinion 33 interlocked with the rack 31 is provided with at least three or more racks while rotating the rack 31 to stably support the building 20 to maintain a balanced state. The greater the distance, the better the stability.

Due to this configuration, a separate support roller is not required to support the building, thereby simplifying the structure and construction.

4 is a block diagram illustrating a control unit of a rotatable building according to an embodiment of the present invention, and FIG. 5 is a flowchart illustrating a control flow of the rotatable building according to an embodiment of the present invention.

The rotatable building according to the embodiment of the present invention is further provided with a control unit 40 for controlling the rotation means.

The control unit 40 is configured to control the rotation means to adjust the amount of sunlight incident into the interior according to the room temperature, the room temperature sensor 41 and the sun position sensor 42 is provided as shown In addition, the temperature input unit 43 for setting the room temperature and the drive motor 32 for controlling the rotation means.

The control unit 40 compares the room temperature preset by the user with the actual room temperature. When the room temperature is lower than the set temperature, the control unit 40 rotates the large window or the front door of the living room so that the sun faces the front. On the contrary, if the room temperature is higher than the set temperature, rotate the window or front door to the opposite side of the sun to prevent sunlight from entering.

 For example, as shown in FIG. 5, the controller 40 checks the temperature inside the building through the indoor temperature sensor 41 (S11) and checks the temperature set by the user through the temperature input unit 43. (S12). After comparing the actual room temperature and the temperature input by the user (S13), if there is a difference, check the position of the sun through the sun position sensor (S14), and controls the drive motor according to the temperature difference (S15) The window of the building rotates to form a predetermined angle with the sun (S16) by repeating the process of adjusting the inflow of sunlight, so that the interior of the building can maintain the temperature set by the user.

At this time, since the position of the sun is constantly changing, the position of the sun is confirmed by the sun position sensor in real time, and the rotational speed or the direction of rotation is automatically determined according to the difference between the room temperature and the set temperature. That is, when the difference between the temperature set by the user and the room temperature is large, the rotation speed is relatively fast, and when the temperature difference is small, the rotation speed is relatively slow. Such an operation is pre-programmed.

On the other hand, regardless of the temperature of the room is further provided with an adjustment unit that allows the user to arbitrarily rotate the building, when the control signal is input through the adjustment unit 44 (S21) the building is rotated by the control of the control unit 40. If the building 20 is used for a purpose such as a cafe, guests can rotate arbitrarily so that the guests can see all the surrounding landscapes, and the rotation speed or direction can also be adjusted.

That is, when the user operates the adjusting unit 44 to input the rotational speed, the number of rotations, the rotational direction, and the like, the input signal is transmitted to the control unit 40 and rotates under the control of the control unit 40 receiving the input signal. As the means operate, the building rotates. This control unit may be attached to the building or may be configured in the form of a remote control.

Although the embodiments of the present invention have been described with reference to the present invention, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

10: foundation 20: building
30: rotation means 31: rack
32: drive motor 33: pinion
34: support shaft 35: rotation shaft
36 support 40 a controller
41: temperature sensor 42: solar position sensor
43: temperature input section 44: adjustment section

Claims (3)

A foundation installed on the floor;
A building rotatably installed on an upper portion of the foundation;
Rotating means for rotating the building with respect to the foundation; And
It is provided with a solar sensor for detecting the amount of sunlight according to the position of the sun and a temperature sensing means for sensing the temperature of the room, and adjusts the rotating means to adjust the amount of light incident into the building according to the room temperature Rotatable building comprising a control unit.
The method of claim 1,
And a control unit provided in the building to arbitrarily adjust the rotation of the building by a user's operation, wherein the control unit is configured to rotate the building according to the adjustment signal of the adjusting unit.
According to claim 1, The rotating means,
A rack mounted to the bottom of the building in a circular shape having a radius of at least one half of the bottom minor axis radius of the building from a central axis;
A drive motor installed at the base portion;
A pinion provided on at least three rotation lines of the rack to transmit the rotational force by the driving motor to the rack;
A rotating shaft mounted at the center of the bottom of the building; And
And a support body installed at the center of the base part, the rotation shaft being rotatably inserted and supported, and a bearing having a bearing enclosing the rotation shaft therein.

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