JP2018150686A - Dimming blind device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To control temperature and light quantity inside a building by automatically controlling light transmittance of a light control film by using actual measurement data, thereby making it possible to obtain optimum temperature and light quantity. The challenge is to provide. A dimming blind device comprising a plurality of sensors, a control part, a light control film, and a glass part, the plurality of sensors including a sensor inside the building, an outside the building, and a window. Provided, the data obtained by the sensor is sent to the connected control part, the control part is composed of a storage device and a computing device, and the computing device stores the data from the sensor and the storage device. The calculated data is calculated and converted into an electric signal to be sent to the light control film. The light control film controls the light transmittance by the sent electric signal, so that the inside temperature of the building is optimum, It is a dimming blind device characterized in that the amount of light is adjusted. [Selection diagram] Figure 1

Description

  The present invention relates to a light control blind device. In particular, the present invention relates to a dimming blind device provided in a window of a building and capable of automatically optimizing the light environment inside the building.

  Conventionally, blinds have been used in windows of office buildings and houses for the purpose of adjusting the light inserted into the building to an appropriate level or visually blocking indoors with night lighting from the outside. It was. In addition to optimizing the light environment, this is also effective for energy saving measures such as saving air conditioners to suppress the rise in indoor temperature due to outside light in summer.

  In recent years, for the same purpose, a light control film capable of electrically realizing transparency and opaqueness of a window portion is gradually used instead of a blind.

  The light control film is a film of a laminate that can be instantly switched between transparent and opaque by turning on and off the applied voltage. For example, it is a film that may be used for optimizing the daylighting of a window part or for shading. The principle uses low-molecular liquid crystals and changes in optical properties accompanying rearrangement of liquid crystal molecules by an electric field, and is characterized by low power consumption and low voltage driving.

  In recent years, more efficient light control films have been put to practical use using liquid crystal / polymer composite films in addition to liquid crystals.

  Patent literature proposes a device that can adjust the indoor brightness of a conventional blind having a large number of slats by changing the angle of the slats of the blind according to the result of indoor illuminance measurement. .

  However, a complicated mechanism and power for mechanically changing the angles of a large number of slats are required, and therefore, energy saving is not sufficient. In addition, because it is a method of adjusting the slat angle by detecting only the illuminance at the window, it is not intended to adjust the indoor temperature, which is one of the functions of the blinds, and it is impossible to adjust the indoor brightness in detail Met.

Japanese Patent Laid-Open No. 3-17382

  The present invention has been made in view of such a situation, and the optimum temperature is obtained by automatically controlling the light transmittance of the light control film using the actual measurement data of the temperature and light quantity inside the building. It is an object of the present invention to provide a dimming blind device capable of changing the amount of light.

As means for solving the above problems, the invention according to claim 1
A dimming blind device installed in a building window,
Consists of multiple sensors, control part, light control film, glass part,
The plurality of sensors are provided inside the building, outside the building, and at the window,
The temperature outside the building and the incident light amount data, the temperature and light amount data inside the building, the window temperature and the transmitted light amount data obtained by the sensor are sent to the connected control part,
The control part is composed of a storage device and an arithmetic device,
The storage device stores data on the optimum temperature and light quantity inside the building determined in advance, and the calculation device calculates the data from the sensor and the data stored in the storage device and converts them into electrical signals. To send to the light control film,
The glass portion is composed of plate glass used for building windows,
The light control film is attached to the glass part or sandwiched between two glasses,
The light control film is formed by laminating two plastic films having a transparent conductive film with a transparent conductive film facing each other and a liquid crystal molecular layer or a composite film layer of a liquid crystal molecule and a polymer, By controlling the light transmittance of the light control film by the electrical signal sent to the light control film,
A dimming blind device characterized in that the inside of a building has an optimum temperature and light quantity.

In the invention according to claim 2, the dimming blind device controls the light transmittance of the dimming film independently in each of a plurality of windows, so that the optimum temperature and light quantity inside the building as a whole window are controlled. The light control blind device according to claim 1, wherein the light control blind device is controlled.

  According to the present invention, it is possible to realize the optimum temperature and light amount by automatically controlling the light transmittance of the light control film using the actual measurement data, the temperature inside the building, and the light amount. It is possible to provide a dimming blind device.

  Further, since the light transmittance of the light control film can be instantaneously controlled by turning on and off the applied voltage, energy saving and quick control are possible.

  In addition, in order to control the light transmittance of the light control film based on the actual data of the temperature and light quantity inside the building, for example, when there is an air conditioner or lighting in the room, it is best to incorporate them. It is possible to realize temperature and light quantity.

  Furthermore, even when the light amount outside and inside the building is reversed such as at night and it is necessary to block the field of view, the entire window can be made opaque and can function as a more comfortable blind.

  In particular, according to the second aspect of the present invention, by automatically controlling the light transmittance of each light control film using the actual measurement data for each of the plurality of windows, the temperature and the amount of light inside the building are automatically controlled. Therefore, it is possible to provide a dimming blind device capable of fine control and realizing an optimum temperature and light quantity.

FIG. 1 is a flow chart of the entire apparatus for explaining one embodiment of a light control blind device according to the present invention. FIG. 2 is a partial cross-sectional schematic view for explaining a light control film used in the light control blind device according to the present invention. FIG. 3 is a partial cross-sectional schematic view for explaining an embodiment of a window in which a light control film used in the light control blind device according to the present invention and a glass portion are bonded together. FIG. 4 specifically illustrates the state of light transmission when no voltage is applied, using a reverse mode type liquid crystal / polymer composite film of the light control film used in the light control blind device according to the present invention. It is a partial cross section schematic diagram for this purpose. FIG. 5 illustrates the state of light scattering when a voltage is applied using a reverse mode liquid crystal / polymer composite film of the light control film used in the light control blind device according to the present invention. It is a partial cross section schematic diagram for this purpose. FIG. 6 specifically illustrates the light scattering state when no voltage is applied, using a normal mode type liquid crystal / polymer composite film of the light control film used in the light control blind device according to the present invention. It is a partial cross section schematic diagram for this purpose. FIG. 7 specifically illustrates the state of light transmission when a voltage is applied using a normal mode liquid crystal / polymer composite film of the light control film used in the light control blind device according to the present invention. It is a partial cross section schematic diagram for this purpose.

  Hereinafter, the present invention will be described in more detail with reference to the drawings. However, the present invention is not limited to the examples shown here. The invention is limited only by the claims.

  FIG. 1 is a flow chart of the entire apparatus for explaining one embodiment of a light control blind device according to the present invention.

  The present invention is a light control blind device comprising a plurality of sensors, a control part, a light control film, and a glass part.

  Multiple sensors are provided inside the building, outside the building, and in the window, and the temperature outside the building and the amount of incident light, the temperature inside the building, the data of the amount of light, the temperature of the window, and the amount of transmitted light. Get the data.

  Data acquired by multiple sensors is sent to the connected control part. The control part is composed of a storage device and an arithmetic device. The storage device stores a predetermined optimum temperature and light amount inside the building.

  In relation to this, the relationship between the temperature outside the building and the incident light quantity data, the temperature and light quantity data inside the building, the window temperature and the transmitted light quantity data is stored, and the arithmetic unit receives data from the sensor. And the data stored in the storage device are calculated, and the result is converted into an electrical signal as control data for the light transmittance of the light control film and sent to the light control film.

  The light control film is composed of two plastic films having a transparent conductive film, laminated with a transparent conductive film facing each other and a liquid crystal molecular layer or a composite film layer of liquid crystal molecules and a polymer. They are either pasted together or sandwiched between two glasses.

  That is, the electrical signal sent to the light control film makes it possible to control the light transmittance of the light control film so that the inside of the building has the optimum temperature and light quantity.

As described above, the light control blind device according to the present invention is between the inside of the building and the outside of the building, and can control the incidence of the outside light to the inside by changing the transmittance. As a result, the environment such as the brightness and temperature inside the building can be controlled based on actual data to realize the optimum temperature and light amount.

  The temperature and light quantity inside the building are fed back to the sensor provided inside the building as data on the temperature and light quantity inside the building, and sent to the control part, so that the temperature and light quantity inside the building can be automatically controlled.

  In general, the temperature and light intensity inside the building are also affected by air conditioners and lighting devices, so feedback from the sensors provided inside the building is important for achieving the optimum temperature and light quantity. .

  In the dimming blind device according to the present invention, the temperature and light quantity inside the building, such as the temperature and light quantity inside the building, which are affected by the air conditioner or lighting device, are already calculated by the sensors inside the building. Therefore, fine control of the light transmittance of the light control film can be realized in response to changes in the internal environment of the building.

  Further, in the light control blind device according to the present invention, the transmittance of the light control film can be expressed in gradation other than transparent and opaque by changing the applied voltage, and finer control of the transmittance is possible. It is.

  Moreover, the light control blind device by this invention can control the optimal temperature and light quantity inside a building as a whole window by controlling the light transmittance of a light control film independently in each of several windows. As a result, finer control can be performed, and control unique to the building can be realized, and a customized dimming blind device can be obtained.

  Alternatively, some windows may be intentionally kept opaque or transparent so that convenience can be preferentially used according to the actual application.

  FIG. 2 is a partial cross-sectional schematic view for explaining a light control film used in the light control blind device according to the present invention.

  The light control film (10) used in the light control blind device according to the present invention is composed of two plastic films (1) having a transparent conductive film (2), liquid crystal molecules, or a composite film layer of liquid crystal molecules and polymer. Layered via (3). The peripheral edge of this laminate is sealed with a sealant (5).

  The plastic film (1) is a film made of a polymer resin composition. For example, polyolefin (polyethylene, polypropylene, etc.), polyester (polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, etc.), polyamide (nylon-6, nylon- 66, etc.), polyimide and the like can be used, and are appropriately selected depending on the application. In particular, polypropylene and polyethylene terephthalate are more preferable in terms of film strength and price.

  The transparent conductive films (2) provided on the two plastic films (1) are laminated via liquid crystal molecules or a composite film layer (3) of liquid crystal molecules and polymer in a state of facing each other. By connecting a power source (7) and applying a voltage between the transparent conductive films (2) or turning off the voltage application, the liquid crystal molecules or the liquid crystal molecules of the liquid crystal molecule and polymer composite film layer (3) The orientation of can be changed.

In the example shown here, the light control film (10) is in a transparent state due to the change in the orientation of the liquid crystal molecules, and the incident light (11) is transmitted through the light control film (10) and transmitted light (12). It has become.

  Alternatively, when the light control film (10) is opaque, the incident light (11) is scattered and becomes scattered light. Therefore, the light control film (10) becomes opaque and becomes milky white, and the incident light (11). Is shielded.

  The production method of the transparent conductive film (2) is not limited. For example, indium tin oxide can be vacuum-deposited on the plastic film (1).

  FIG. 3 is a partial cross-sectional schematic view for explaining an embodiment of a window in which a light control film used in the light control blind device according to the present invention and a glass portion are bonded together.

  In the example shown here, the light control film (10) is an example affixed on the transparent plate glass (9) with the adhesive agent (14). Affixing can also be performed using, for example, a transparent adhesive tape in addition to the adhesive (14).

  The light control film (10) is used as a window glass (15) by being sandwiched between two plate glasses (9) in addition to being attached to the plate glass (9).

  As the plate glass (9), a plate glass (9) used for a window of a general building is used. For example, in addition to a transparent plate glass (9), a plate glass whose surface is processed according to the purpose can be used. For example, the surface processing can be provided with a function of not transmitting a light beam having a specific wavelength, or a coating layer for preventing contamination and preventing scratches.

  For example, as in the example shown here, when the light control film (10) is transparent and can transmit light, the incident light (11) from the outside of the building is a transparent plate glass (9) and The adhesive (14) layer and the light control film (10) are transmitted to become transmitted light (12) and enter the building.

  In this case, when there is a sufficient amount of light outside the building, the amount of light in the room can be increased by the transmitted light to make it brighter. Further, by taking light into the room, it has the effect of raising the temperature when the room temperature is low.

  On the other hand, when the light control film (10) is in an opaque state, the incident light (11) from the outside of the building cannot pass through the light control film (10) and becomes scattered light. Is shielded, and only a portion enters the building.

  In this case, when there is a sufficient amount of light outside the building, the amount of light in the room due to the transmitted light can be reduced. Further, by limiting the light into the room, it has the effect of preventing the room temperature from rising more than necessary.

  FIG. 4 specifically illustrates the state of light transmission when no voltage is applied, using a reverse mode type liquid crystal / polymer composite film of the light control film used in the light control blind device according to the present invention. It is a partial cross section schematic diagram for this purpose.

  In the example shown here, a composite film layer of reverse mode type liquid crystal molecules (4) and polymer (6) is shown in the light control film (10). That is, the liquid crystal molecules (4) are arranged in parallel to the incident light (11) with the on / off switch (8) of the power source (7) turned off.

  This state is a uniform alignment by turning off the voltage application to the liquid crystal molecules (4), or the coincidence of the refractive indexes of the liquid crystal molecules (4) and the polymer (6), and the incident light (11) can be transmitted. State. For this reason, incident light (11) passes through the light control film (10) as it is, and becomes transmitted light (12). That is, the light control film (10) is in a transparent state.

  Therefore, when it is used in the light control blind device according to the present invention, when there is sufficient sunlight outside the building in a state where the light outside the building can be taken in, the temperature inside the building is raised and the amount of light is increased. It will be effective.

  FIG. 5 illustrates the state of light scattering when a voltage is applied using a reverse mode liquid crystal / polymer composite film of the light control film used in the light control blind device according to the present invention. It is a partial cross section schematic diagram for this purpose.

  In the example shown here, a composite film layer of reverse mode type liquid crystal molecules (4) and polymer (6) is shown in the light control film (10). That is, in the state where the power source (7) is turned on and off (8), the liquid crystal molecules (4) are irregularly arranged with respect to the incident light (11).

  This state is an opaque state in which incident light (11) cannot be transmitted due to random alignment of the liquid crystal due to voltage application or mismatch in refractive index between the liquid crystal and the polymer. For this reason, incident light (11) cannot be transmitted as it is, but becomes scattered light (13).

  In this case, the light control film becomes opaque due to the scattering of light, and the field of view of the window is blocked from both inside and outside.

  Therefore, when used in the dimming blind device according to the present invention, when there is sufficient sunshine outside the building in a state where light outside the building can be blocked, the temperature inside the building is lowered to reduce the amount of light. It will lower the effect.

  FIG. 6 specifically illustrates the light scattering state when no voltage is applied, using a normal mode type liquid crystal / polymer composite film of the light control film used in the light control blind device according to the present invention. It is a partial cross section schematic diagram for this purpose.

  In the example shown here, a composite film layer of normal mode type liquid crystal molecules (4) and polymer (6) is shown in the light control film (10). That is, in the state where the on / off switch (8) of the power source (7) is off, the liquid crystal molecules (4) are irregularly arranged with respect to the incident light (11).

  This state is a random orientation of the liquid crystal by turning off the voltage application, or a mismatch between the refractive indexes of the liquid crystal and the polymer, and the incident light (11) cannot be transmitted and is opaque. For this reason, incident light (11) cannot be transmitted as it is, but becomes scattered light (13).

  In this case, the light control film becomes opaque due to the scattering of light, and the field of view of the window is blocked from both inside and outside.

  Therefore, when used in the dimming blind device according to the present invention, when there is sufficient sunshine outside the building in a state where light outside the building can be blocked, the temperature inside the building is lowered to reduce the amount of light. It will lower the effect.

  FIG. 7 specifically illustrates the state of light transmission when a voltage is applied using a normal mode liquid crystal / polymer composite film of the light control film used in the light control blind device according to the present invention. It is a partial cross section schematic diagram for this purpose.

  In the example shown here, a composite film layer of mode type liquid crystal molecules (4) and polymer (6) is shown in the light control film (10). That is, the liquid crystal molecules (4) are arranged in parallel to the incident light (11) while the power source (7) is in the on / off switch (8).

  This state is a uniform alignment by turning on the voltage application to the liquid crystal molecules (4), or the coincidence of the refractive indexes of the liquid crystal molecules (4) and the polymer (6), and the incident light (11) can be transmitted. State. For this reason, incident light (11) passes through the light control film (10) as it is, and becomes transmitted light (12). That is, the light control film (10) is in a transparent state.

  Therefore, when it is used in the light control blind device according to the present invention, when there is sufficient sunlight outside the building in a state where the light outside the building can be taken in, the temperature inside the building is raised and the amount of light is increased. It will be effective.

  As shown in FIGS. 4 to 7, the normal mode liquid crystal and the reverse mode liquid crystal can control the temperature and light quantity inside the building, although the operations in voltage application and voltage application off are different. .

  Further, whether to use a normal mode type liquid crystal or a reverse mode type liquid crystal can be appropriately selected in consideration of the use environment, the purpose of use, etc. of the light control blind device.

  In the light control blind device according to the present invention, the plurality of sensors acquire the temperature and incident light amount data outside the building, the temperature and light amount data inside the building, the temperature of the window portion and the transmitted light amount data, and the control portion is By converting the calculation result into an electrical signal and sending it to the light control film, and controlling the light transmittance of the light control film, it is possible to realize the optimum temperature and light quantity inside the building determined in advance.

  Moreover, the light control blind device by this invention can control the optimal temperature and light quantity inside a building as a whole window by controlling the light transmittance of a light control film independently in each of several windows. This allows finer control.

  As described above, the light control blind device according to the present invention is between the inside of the building and the outside of the building, and can control the incidence of the outside light to the inside by changing the transmittance. As a result, the environment such as the brightness and temperature inside the building can be controlled based on actual data to realize the optimum temperature and light amount.

DESCRIPTION OF SYMBOLS 1 ... Plastic film 2 ... Transparent conductive film 3 ... Liquid crystal molecule or the composite film layer 4 of a liquid crystal molecule and a polymer 4 ... Liquid crystal molecule 5 ... Sealant 6 ... Polymer 7 ... Power source 8 ... On / off switch 9 ... Glass part 10 ... Light control film 11 ... Incident light 12 ... Transmitted light 13 ... Scattered light 14 ... Adhesive 15 ..Window glass

Claims (2)

A dimming blind device installed in a building window,
Consists of multiple sensors, control part, light control film, glass part,
The plurality of sensors are provided inside the building, outside the building, and at the window,
The temperature outside the building and the incident light amount data, the temperature and light amount data inside the building, the window temperature and the transmitted light amount data obtained by the sensor are sent to the connected control part,
The control part is composed of a storage device and an arithmetic device,
The storage device stores data on the optimum temperature and light quantity inside the building determined in advance, and the calculation device calculates the data from the sensor and the data stored in the storage device and converts them into electrical signals. To send to the light control film,
The glass portion is composed of plate glass used for building windows,
The light control film is attached to the glass portion or sandwiched between two glasses,
The light control film is formed by laminating two plastic films having a transparent conductive film with a transparent conductive film facing each other and a liquid crystal molecular layer or a composite film layer of a liquid crystal molecule and a polymer, By controlling the light transmittance of the light control film by the electrical signal sent to the light control film,
A dimming blind device characterized in that the inside of a building has an optimum temperature and light quantity.   The dimming blind device controls the optimal temperature and light quantity inside the building as a whole by controlling the light transmittance of the dimming film independently in each of a plurality of windows. Item 4. A dimming blind device according to item 1.