KR101237787B1 - Smart-grid control device being connected with the Internet, and control method for the same - Google Patents

Abstract

The present invention relates to a smart grid control technology that operates in conjunction with the Internet. In particular, the present invention receives weather-related information (eg, external temperature, daylight information) in real time from an external server (eg, Google) via the Internet, and provides information on the installation position and direction of the window and time information. In combination, it is a technique to selectively control the window opening and closing device (such as a blind) based on the geometric relationship between the sun and the window. This configuration optimizes the power consumption used for indoor temperature control in homes and offices by maintaining indoor temperatures as best as possible using natural energy (e.g. solar energy). There is an advantage to achieving savings.

Description

Smart-grid control device being connected with the Internet, and control method for the same}

The present invention relates to a smart grid control technology that operates in conjunction with the Internet. In particular, the present invention receives weather-related information (eg, external temperature, daylight information) in real time from an external server (eg, Google) via the Internet, and provides information on the installation position and direction of the window and time information. In combination, it is a technique to selectively control the window opening and closing device (such as a blind) based on the geometric relationship between the sun and the window. Through this configuration, the indoor temperature is naturally maintained to be optimized to optimize power consumption used for indoor temperature control, thereby achieving power savings of power consumers, which are the core of the smart grid.

Recently, the smart grid has been a hot topic. The original concept of smart grid refers to a technology that optimizes energy efficiency by exchanging information in both directions by integrating information technology into the existing one-way power grid, which was composed of power generation, transmission, and distribution. The goal is to operate the entire power system efficiently by connecting power plants, transmission and distribution facilities, and power consumers to the information network and sharing information in both directions.

The ultimate goal of smart grid implementation is to streamline or optimize power consumption. As traditional fossil energy is depleted, power use is being monitored and controlled. Various ideas are emerging on how to implement smart grids. As long as the ultimate goal of smart grid implementation is to optimize power consumption, the effect will be halved unless power consumers, such as homes, offices and factories, reduce power use or actively use natural energy. Therefore, in the present invention, a key element of the smart grid is regarded as power saving.

The seasons with the most power use are summer and winter, so you need to reduce power usage at this time. The increase in power usage in the summer and winter is due to air conditioners and heaters, which are electric heating and heating devices. Until now, the focus has been on improving the consumption efficiency of air-conditioning equipment, but it is more effective to reduce the need for air-conditioning by improving the surrounding environment in which these air-conditioning equipment operates.

Use winter as an example (summer is the opposite). The most common part of the home or office that exchanges heat with the outside is the window, which is why blinds are installed to prevent heat from escaping. By covering the window with blinds, the heat is prevented from being lost through the window, thereby reducing the heating burden by maintaining the maximum room temperature.

But even in winter, when the weather is fine, it is better to open the blinds. Opening the blinds is really beneficial because sunlight enters the room through the windows and raises the room temperature. On the contrary, it is advantageous to close the blinds when the weather is cloudy or snowing, or when the outside temperature is too low even if the sunlight is good, and it is preferable to close the blinds in the evening after sunset.

But the weather then changes. The weather improves from time to time, then goes back and forth, the sun shines well, then the clouds are covered, then the sun moves, depending on the time of day, especially at a specific time (e.g. 11 am to 5 pm). This shines well. Of course, at the same time, when the weather is bad (e.g. when it is snowing or when there is a lot of clouds), there is no sunlight.

At this time, it was necessary to judge whether it would be beneficial to open the blinds or to close the blinds because the weather fluctuated every moment. Thus, until now, people have judged and opened or closed the blinds manually. However, it is very cumbersome for a person to do and reduces concentration of work in an office or factory, and there is no way to manage it, especially when there are no people in the office or factory.

An object of the present invention is to provide a technology that can contribute to the power saving, which is the core of the smart grid by optimizing the power consumption used for indoor temperature control by maintaining the indoor temperature as best as possible using natural energy, in particular the sun. In particular, it provides real-time weather-related information (e.g. external temperature, daylight information) from an external server (e.g. Google) via the Internet, combined with information about the window's installation location and orientation, and time information. It is an object of the present invention to provide a technique for maintaining a good room temperature by selectively controlling a window opening and closing device (eg, a blind) based on the geometric relationship between the window and the window.

In order to achieve this object, the smart grid control device according to the present invention receives the weather information in real time through the Internet by using the sunshade opening and closing device 200 to selectively block the external influence of the room temperature by using the indoor power In order to optimize consumption, as a component, the installation information storage unit 120 for storing the installation information for the sunshade opening and closing device; Weather information receiving unit 140 for receiving in real time weather information about the shade opening and closing device through the Internet; Information processing unit 150 for determining the control mode for the sunshade opening and closing device by integrating the weather information and the installation information; And a control signal transmitter 160 for providing a control signal to the shade opening and closing device in response to the control mode.

Smart grid control device of the present invention further comprises a time information storage unit 130 for storing the current time, the installation information storage unit 120 stores the installation location information and the installation direction information for the sunshade opening and closing device, the weather The information receiving unit 140 is provided with weather information including daylight information, the information processing unit 150 calculates the geometric relationship between the sunshade opening and closing device and the sun from the installation location information, the installation direction information and the time information, the calculated geometric It is preferably configured to determine the open / close of the sun visor based on the relationship and daylight information.

In addition, the smart grid control apparatus of the present invention, the GPS unit 112 for providing the installation position information for the shade opening and closing device; Compass unit 113 for providing the installation direction information for the shade opening and closing device; may further include. In this case, the compass unit 113 may display the geomagnetic field polarity information on the screen, and then set the geomagnetic field polarity information as the installation direction information as the user inputs the selection.

Smart grid control method according to the present invention is to optimize the indoor power consumption by controlling the sunshade opening and closing device to selectively block the external influence of the room temperature by receiving the weather information in real time through the Internet, the configuration As an element, (a) storing the installation information for the shade opening and closing device; (b) receiving real-time weather information on the vicinity of the shade opening and closing device through the Internet; (c) determining a control mode for the sunshade by integrating the weather information and the installation information; and (d) providing a control signal to the shade opening and closing device corresponding to the control mode.

The smart grid control method of the present invention further includes, before step (c), (ab) setting a current time; step (a) includes installation location information and installation direction information on the shade opening and closing device as installation information. (B) receiving the weather information including daylight information, and (d) calculating the geometric relationship between the sunshade opening and closing device and the sun from the installation location information, the installation direction information, and the time information. Making; (d2) determining the open / close of the shade opening and closing device based on the geometric relationship and the daylight information.

In addition, in the smart grid control method of the present invention, step (a), (a1) receiving and storing the installation position information for the shade opening and closing device via the GPS unit; (a2) receiving and storing the installation direction information on the shade opening and closing device through the compass; may be configured. At this time, step (a2), (a21) displaying the geomagnetic field polarity information on the screen through the compass; (a22) receiving a selection input from a user; (a23) setting and providing the corresponding geomagnetic polarity information provided with the above selection input as the installation direction information.

According to the present invention, by using the natural energy (for example, solar energy) to maintain the indoor temperature as best as possible to optimize the power consumption used in the indoor temperature control at home or office, through which the power consumer of the core of the smart grid There is an advantage to achieve power savings.

1 is a view showing the concept of a system to which the smart grid control technology according to the present invention is applied.
2 is a diagram showing a system to which a smart grid remote control is applied as an embodiment of the present invention.
FIG. 3 is a view illustrating a blind opening using a smart grid remote control in the embodiment of FIG. 2. FIG.
4 is a view showing a state of closing the blinds using the smart grid remote control in the embodiment of FIG.
5 is a block diagram showing the internal configuration of a system to which the smart grid control technology according to the present invention is applied.
6 is a flowchart illustrating an embodiment of a smart grid control method according to the present invention.
7 is a flow chart showing another embodiment of a smart grid control method according to the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail.

1 is a view showing the concept of a system to which the smart grid control technology according to the present invention is applied.

First, the awning opening and closing device 200 is a configuration for selectively blocking the external influence on the room temperature, such as home or office, for example, blinds or curtains. Since the room temperature is affected a lot by how to control the sunshade opening and closing device 200, the optimal control is performed through the smart grid control device 100 to maintain the room temperature as best as possible, thereby controlling the room temperature. The idea is to optimize the associated power consumption.

The information providing device 300 provides the weather information in the vicinity of the shade opening and closing device 200 to the smart grid control device 100 through the Internet in real time. Information providing server 300 may be composed of an Internet website that provides information on the Internet, such as Google (www.google.com) or Naver (www.naver.com) or Daum (www.daum.net), It may be a server built exclusively for the present invention.

Smart grid control device 100 is configured to optimally manage the room temperature by controlling the sunshade opening and closing device 200. Preferably the control mode for the sunshade opening and closing device 200 for optimal management of the indoor temperature by integrating the installation information of the sunshade opening and closing device 200 and the weather information provided in real time from the information providing device 300 to store itself And determine a control signal accordingly. For example, it is determined whether enough sun is currently shining on the sunshade opening and closing device 200 through installation information and weather information, and accordingly, the open / close of the sunshade opening and closing device 200 is determined.

2 to 4 will be described the concept of the smart grid control technology according to the present invention. Specific technical means for the smart grid control will be described in detail with reference to [5] to [7], and [2] to [4] will be briefly described only the concept of the present invention.

FIG. 2 is a diagram illustrating a control method of a blind 400 of a living room window using the smart grid remote control 500 as an embodiment to which the smart grid control technology according to the present invention is applied.

The smart grid remote control 500 has a menu 501 for receiving installation information on the blind 400 through a user UI. The smart grid remote control 500 inputs the installation location information 502 and the installation direction information 503. . Of these, the installation direction information 503 may be set through the compass module 504 embedded in the remote controller 500. That is, as shown in FIG. 2, when the direction of the remote control 500 is directed to the blind 400, the geomagnetic polarity information is displayed 504, and when the user clicks or presses a button, the geomagnetic polarity information at that time is displayed. Can be used as installation direction information.

When the smart grid remote control 500 sends a control signal for the blind 400, the control signal receiving unit 410 installed in the blind 400 recognizes the control signal and controls the blind driver 420 accordingly, blind cloth Raising or lowering (430) will achieve open / close. The smart grid remote control 500 determines whether the blind 400 is open or closed will be described in detail with reference to FIGS. 5 to 7.

[Fig. 3] and [Fig. 4] is an example of the smart grid system of Fig. 2 is applied in the winter, showing the opening and closing of the blind 400 of the living room window using the smart grid remote control 500, respectively. Drawing.

FIG. 3 is a view where the smart grid remote control 500 opens the blind 400 because the sunlight is shining through the living room window. The smart grid remote control 500 may determine such a situation by integrating the installation information of the blind 400 and the weather information provided by the information providing server 300 as described below, and accordingly the blind 400 A control signal was sent to open. Accordingly, the blind cloth 430 is fully raised, and sunlight is entering the room to raise the temperature.

On the contrary, [FIG. 4] is a situation where the snow is falling so that the smart grid remote control 500 closes the blind 400. The smart grid remote control 500 may determine the situation that the current snow is falling or the current daylight cannot be expected by integrating the installation information of the blind 400 and the weather information provided by the information providing server 300. The control signal is sent to close the blind 400 accordingly. Accordingly, the blind cloth 430 is completely lowered, preventing the indoor heat from being taken out through the living room window.

5 is a block diagram showing the internal configuration of a system to which the smart grid control technology according to the present invention is applied. The system is composed of a smart grid control device 100 and the sunshade opening and closing device 200, the information providing server 300 provides the weather information in real time to the smart grid control device 100 over the Internet. The information providing server 300 may be composed of an Internet website providing various kinds of information on the Internet, such as Google, Naver, and the like, or may be a dedicated server.

The sunshade opening and closing device 200 will be described. The sunshade opening and closing device 200 is configured to selectively block the external influence on the room temperature, for example, blinds or curtains. In winter, for example, closing blinds (or curtains) blocks the windows of the building from the outside to keep the heat from being taken away, while also blocking sunlight, thereby blocking the opportunity to receive energy from the outside. Even in summer, closing blinds prevents outside heat from entering the interior, while blocking the opportunity to let the heat out outside after a cloudy day, shade or sunset.

As shown in FIG. 5, the awning opening and closing device 200 includes a control signal receiver 210 and a driver 220.

The control signal receiver 210 is a component that receives a control signal from the smart grid control apparatus 200. The smart grid control apparatus 200 determines a control mode of the shade opening and closing device 200 by integrating various kinds of information, and receives the control signal sent from the control signal receiving unit 210 according to the determined control mode. According to the configuration of the smart grid control device 200, the specific implementation of the control signal receiver 210 also varies. When the smart grid control device 200 is configured as a remote control, the control signal receiver 210 will be a remote control receiver circuit (eg, an infrared receiver circuit, an RF receiver circuit), and the smart grid controller 200 is configured as a network integrated controller. If so, the control signal receiving unit 210 may be, for example, an Ethernet modem. The control signal receiver 210 receives a control signal from the smart grid control apparatus 200.

The driver 220 performs an operation for selectively blocking an external influence of the room temperature according to the control signal. If the shade opening and closing device 200 is an embodiment consisting of a blind covering an indoor window, the driving unit 220 corresponds to a motor or a related mechanical part that opens or closes the blind. When the control signal for opening the blind is input through the receiving unit 210, the driving unit 220 drives the motor or the related mechanical component to open the blind, and if closing the blind, the driving unit 220 also controls the motor or the like. Drive to close the blinds.

Next, the smart grid control apparatus 100 will be described. Smart grid control device 100 is configured to optimally manage the room temperature by controlling the sunshade opening and closing device 200. Information necessary for determining the control mode of the shade opening and closing device 200 is provided in real time through the Internet from the external information providing server 300, mainly receives weather information. The installation information for the sunshade opening and closing device 200, and preferably time information is determined by integrating the weather information thus provided to determine the control mode for the sunshade opening and closing device 200, and provides a control signal accordingly.

As shown in FIG. 5, the smart grid control apparatus 100 includes an installation information setting unit 110, an installation information storage unit 120, a time information storage unit 130, a weather information receiving unit 140, and information. It is configured to include a processing unit 150, the control signal transmission unit 160, wherein the installation information setting unit 110 is all or part of the user UI unit 111, GPS unit 112, compass unit 113. It may be configured to include.

First, the installation information setting unit 110 is a configuration for providing various installation information for the sunshade opening and closing device 200 to the smart grid control device 100, the user UI 111 and the GPS unit 112 and All or part of the compass 113 is provided. In the present specification, the installation location information and the installation direction information are dealt with as a preferred embodiment. Depending on the purpose of the system of the present invention, only some of them may be needed or may be further needed.

The user UI unit 111 is for setting a related value through a display and an input device (eg, a keyboard). Referring to FIG. 2, a user inputs installation information through the location information menu 502 and the location direction menu 503 in the installation information setting menu 501 displayed on the display of the remote controller 500.

The GPS unit 112 preferably inputs position information of the sunshade opening and closing device 200 through a satellite navigation device (GPS) embedded in the smart grid control device 100. Position information of the GPS unit 112 is strictly related to the information about the smart grid control device 100 or in the actual operating environment since the two devices (100, 200) will be located in close proximity to the sunshade opening and closing device ( 200 can be used as location information.

Compass 113 preferably provides the installation direction information for the sunshade opening and closing device 200 through a compass module embedded in the smart grid control device 100. Referring to the embodiment shown in FIG. 2, in the state where the direction of the smart grid control device 100 is directed toward the sunshade opening and closing device 200, the geomagnetic field polarity information is displayed 504 on the display and the user's selection is made. As the input is provided, the corresponding magnetic field polarity information may be used as the installation direction information of the sunshade opening and closing device 200.

Installation information storage unit 120 stores the installation information for the sunshade opening and closing device 200, the installation information is preferably provided through the installation information setting unit 110 described above. However, other embodiments are possible, for example, it is conceivable that the installation information is provided directly from the shade opening and closing device 200.

The time information storage unit 130 stores the current time. The time information may be calculated through a system clock module embedded in the smart grid control apparatus 100 or may be provided from the information providing server 300 through the Internet, for example, from an external device such as the sun visor device 200. You may be provided.

The weather information receiver 140 receives the weather information about the awning opening and closing device 200 in real time from the information providing server 300 through the Internet. Weather information provided by the weather information receiver 140 in the present invention preferably includes information on the outside temperature and daylight information for the area. Daylight information is information about whether the sun is currently shining in the area, or if there is no cloud because of cloud or snow. Since weather information changes from time to time, it is desirable to be provided continuously in real time.

The information processing unit 150 determines the control mode for the sunshade opening and closing device 200 by integrating the weather information and the installation information secured above. Preferably, the information processing unit 150 calculates the geometric relationship between the sunshade opening and closing device 200 and the sun from the installation position information, the installation direction information, the time information, and based on the geometric relationship and daylight information Sunshade opening and closing device 200 ) To open / close.

If there is time information (including date), the geometric relationship between the earth and the sun can be known at all times. Substituting the installation information of the shade opening and closing device 200 here, the geometric relationship between the sun and shade opening and closing device 200 can be calculated. . At this time, by substituting the installation position information, the geometric relationship between the sunshade opening and closing device 200 and the sun can be roughly known, and by substituting the installation direction information, it can be determined more precisely. Even in the same building, it is preferable to substitute the installation direction information since the sun is different depending on the installation direction.

The control mode for the shade opening and closing device 200 is determined by integrating daylight information into the geometric relationship between the sun and the shade opening and closing device 200 thus calculated. Referring to the embodiments shown in FIGS. 2 to 4, in the case of winter, when it is known that the sun can project a window from a geometric relationship, and it is known that sunlight is well shining from daylight information, the sunshade opening and closing device The control mode is determined to open the blind 400 which is 200. On the other hand, if it is determined from the geometric relationship that the sun is not able to shine the window shaded, or if the daylight information from the current day is lacking in the sun, it is determined that the control mode to close the blind 400, the shade opening and closing device 200 It is preferable.

The control signal transmitting unit 160 provides a control signal for the sunshade opening and closing device 200 in response to the control mode determined by the information processing unit 150. 2 to 4, the control signal transmitter 160 transmits a signal for instructing an operation of opening or closing the blind 400 as an infrared or RF signal.

6 is a flowchart illustrating an embodiment of a smart grid control method according to the present invention. Since most of the technical configuration of the present invention has been described with reference to [FIGS. 1] to [FIG. 5], the following briefly describes only the process flow. The order of each step is not limited to the ones shown in the drawings, and may be implemented by changing the order of each other within the scope of achieving the object of the invention.

(S100) step: Store the installation information for the awning opening and closing device 200. As the installation information, installation location information and installation direction information are preferable, and in the present specification, the installation information is received and stored through the user UI unit 111, the GPS unit 112, and the compass unit 113 as an embodiment. It was.

In step S110, weather information about the awning opening and closing device 200 is received in real time from an external information providing server 300 through the Internet. The information providing server 300 may be composed of a general Internet website providing various kinds of information on the Internet, such as Google or Naver or the following, or may be a server dedicated to the purpose of the present invention.

Step S120: The control mode for the sunshade opening and closing device 200 is determined by integrating the acquired weather information and the installation information. How to control the shade opening and closing device 200 to selectively block the external influence on the room temperature in order to optimize the indoor power consumption by integrating the installation information of the shade opening and closing device 200 and the weather information in the vicinity thereof You can judge.

In operation S130, the control signal for the sunshade opening and closing device 200 is provided corresponding to the determined control mode. 2 to 4, a control signal according to a control mode instructing an operation of opening or closing the blind 400 is transmitted as an infrared or RF signal.

FIG. 7 is a flowchart showing another embodiment of the smart grid control method according to the present invention, and the description will be mainly focused on different parts from the embodiment of FIG. The embodiment of FIG. 7 is characterized in that the control mode is determined by calculating the geometric relationship between the sunshade 200 and the sun and reflecting daylight information thereto.

(S200) step: Store the installation position information and the installation direction information for the sunshade opening and closing device 200. One example of the installation location information is GPS information and one example of the installation direction information is geomagnetic polarity information provided by the compass. In the present specification, the installation location information and the installation direction information are received and stored through the user UI unit 111, the GPS unit 112, and the compass unit 113 as an embodiment.

Step S210: Weather information (including daylight information) about the awning opening and closing device 200 is received in real time from an external information providing server 300 through the Internet. Daylight information is information about whether the sun is currently shining in the area, or whether there is no sunlight because of cloudiness or snow. Since weather information changes from time to time, it is desirable to be provided continuously in real time.

(S220) step: set the current time. Information about the current time may be calculated through a system clock module built in the smart grid control device 100, or may be provided from the information providing server 300 through the Internet, for example, such as the shade opening and closing device 200. It may be provided from an external device.

(S230) step: calculate the geometric relationship between the sunshade opening and closing device 200 and the sun. With time information (including dates), even simple earth science knowledge always reveals the geometric relationship between the Earth and the sun. When the installation position information and the installation direction information of the sunshade opening and closing device 200 is applied thereto, it is possible to calculate the geometric relationship between the sun and the sunshade opening and closing device 200. By substituting the installation position information, an approximate relationship between the sunshade opening and closing device 200 and the sun can be known. Even in the same building, it is preferable to substitute the installation direction information since the sun is different depending on the installation direction.

In operation S240, the open / close of the shade opening and closing device 200 may be determined by integrating the calculated geometric relationship and daylight information. Referring to the embodiments shown in FIGS. 2 to 4, in the winter, the sun may well illuminate the window from the geometric relationship between the sunshade 200 and the sun, and the current sunlight is well received from the daylight information. If it is found that the light, it is determined that the control mode to open the blind 400, the shade opening and closing device 200.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of 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 interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

Claims (8)

As a smart grid control device to optimize indoor power consumption by controlling the sunshade opening and closing device 200 to selectively receive the weather information via the Internet in real time to selectively block the external influence of the room temperature,
Installation information storage unit 120 for storing the installation information for the sunshade opening and closing device;
A weather information receiver 140 for receiving in real time weather information about the awning opening and closing device through the Internet;
An information processing unit 150 for determining the control mode for the awning opening and closing device by integrating the weather information and the installation information;
A control signal transmitter 160 for providing a control signal to the awning opening and closing device in response to the control mode;
GPS unit 112 for providing the installation position information for the sunshade opening and closing device;
Compass unit 113 for providing the installation direction information for the sunshade opening and closing device;
Smart grid control device configured to include.
The method according to claim 1,
The installation information storage unit 120 stores the installation location information and the installation direction information for the sunshade opening and closing device as the installation information,
The smart grid control device 100 further includes a time information storage unit 130 for storing the current time,
The weather information receiver 140 receives the weather information including daylight information,
The information processing unit 150 calculates a geometric relationship between the sunshade opening and closing device and the sun from the installation position information, the installation direction information, and the time information, and opens the sunshade opening and closing device based on the geometric relationship and the daylight information. Smart grid control device, characterized in that for determining the / close.
delete The method according to claim 2,
The compass unit 113 displays the geomagnetic field polarity information on the screen, and according to the user's selection input, the geomagnetic field polarity information is set as the installation direction information.
Smart grid control method to optimize indoor power consumption by receiving weather information through the Internet in real time and controlling the sunshade to selectively block external influences of the room temperature.
(A) storing the installation information for the sunshade opening and closing device, (a1) receiving and storing the installation position information for the sunshade opening and closing device via a GPS unit, and (a2) for the sunshade opening and closing device through a compass Storing installation position information and installation direction information for the sunshade opening and closing device by receiving and storing installation direction information;
(b) receiving in real time weather information about the awning opening and closing device through the Internet;
(c) determining the control mode for the sunshade opening and closing device by integrating the weather information and the installation information;
(d) providing a control signal to the shade opening and closing device corresponding to the control mode;
Smart grid control method comprising a.
The method according to claim 5,
The smart grid control method further includes, before step (c), (ab) setting a current time;
Step (b) is provided with the weather information including daylight information,
The step (d)
(d1) calculating a geometric relationship between the sunshade opening and closing device and the sun from the installation position information, the installation direction information, and the time information;
(d2) determining an open / close of the sun visor based on the geometric relationship and the daylight information;
Smart grid control method characterized in that it comprises a.
delete The method of claim 6,
The step (a2)
(a21) displaying geomagnetic field polarity information on the screen through the compass unit;
(a22) receiving a selection input from a user;
(a23) setting and providing the corresponding geomagnetic polarity information provided with the selection input as the installation direction information;
Smart grid control method characterized in that it comprises a.

Images