CN208284208U - A kind of emulation window system - Google Patents

Abstract

The utility model provides a kind of emulation window system, comprising: camera, display, battery, triode, solar panels, relay, switch, diode, voltage-stabiliser tube, fixed resistance, variable resistance；Wherein, solar panels are directly connected to diode, voltage-stabiliser tube, camera, transistor emitter, and diode and battery, switch connect, and are switched and are connect display, camera connection；Voltage-stabiliser tube is connect with fixed resistance, and fixed resistance is connect with transistor base；Relay is connect with transistor collector, variable resistance, and variable resistance is also connect with battery；Camera is also connect with display.The utility model have the characteristics that at low cost, structure is simple, it is easy to maintain, beautify the environment, can be widely applied in daily life.

Description

Simulation window system

Technical Field

The invention relates to a simulation technology, in particular to a simulation window system.

Background

With the rapid development of science and technology and economy and the increasing improvement of the living standard of people, more and more people move around in the building. Due to the building design and individual preference, there are rooms in the suite or no windows in the washroom. For rooms or toilets without windows, the use is often inconvenient, and sometimes the lamp needs to be turned on for a long time, so that the waste of energy and money is caused; furthermore, the aesthetic feeling of the room cannot be increased.

Therefore, the prior art does not have a simulation window system which can save energy and cost and beautify a room.

Disclosure of Invention

In view of this, the main objective of the present invention is to provide an energy and cost saving and room beautifying simulation window system.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

an artificial window system comprising: the camera (1) is used for sending shot outdoor scene information to the display (2); the display (2) is used for displaying outdoor scenes according to the outdoor scene information sent by the camera (1); the solar panel (3) is used for supplying power to the camera (1), the display (2), the storage battery (4) and the triode T; a triode T for amplifying according to the output voltage of the solar panel (3); a relay KJ for getting on or off the power under the control of the triode T; a switch K for opening or closing under the control of the relay KJ; a diode D1 for determining whether the battery (4) is charged; a voltage regulator tube D2 for stabilizing the input voltage of the triode T; a fixed resistor R1 for dividing the input voltage of the triode T; a variable resistor R2 for adjusting collector current of the triode T; wherein,

the positive polarity output end of the solar panel (3) is connected with the anode of a diode D1, the cathode of the diode D1 is connected with the positive polarity power supply end of the storage battery (4) and one end of a switch K, and the other end of the switch K is connected with the positive polarity power supply end of the display (2) and the positive polarity power supply end of the camera (1); the positive output end of the solar panel (3) is connected with the cathode of a voltage regulator tube D2, the anode of the voltage regulator tube D2 is connected with one end of a fixed resistor R1, and the other end of the fixed resistor R2 is connected with the base electrode of a triode T; the output negative polarity end of the solar panel (3) is connected with the negative polarity power supply end of the display (2), the negative polarity power supply end of the camera (1), the negative polarity power supply end of the storage battery (4) and the emitting electrode of the triode T; one end of the relay KJ is connected with a triode T collector, the other end of the relay KJ is connected with one end of a variable resistor R2, and the other end of the variable resistor R2 is connected with a positive power supply end of the storage battery (4); the output end of the camera (1) is connected with the input end of the display (2).

To sum up, in the simulation window system of the present invention, when there is light brightness outdoors and the voltage at the two ends of the diode is greater than or equal to 0.7 volt, on one hand, the storage battery starts to charge, and the adjustable resistor is adjusted, so that the positive polarity power supply end potential of the storage battery is 12 volt; on the other hand, when the solar panel supplies power, the voltage of the voltage regulator tube is stabilized, the fixed resistor divides voltage, and the positive polarity power supply end potential of the storage battery is maintained at 12 volts, the triode is conducted, at the moment, the coil in the relay is electrified, the electrified relay coil closes the switch under the action of the magnetic field, the display starts to work, and the display displays outdoor scenes from the camera. When the outdoor light brightness is weak or no light brightness exists, the display can still keep displaying outdoor scenes for a period of time under the action of the storage battery; when the voltage at the two ends of the diode is less than 0.7 volt, the solar panel or the storage battery is insufficient in power supply, the triode cannot be conducted, the coil in the relay loses power, the switch is turned on at the moment, and the display cannot display outdoor scenes from the camera due to power loss. In fact, due to insufficient power supply of the solar panel or the storage battery, the camera can stop the collection work of outdoor scene information. To sum up, the simulation window system of the utility model utilizes natural energy to solve the problem of darkness in a room or a toilet, and plays a certain role in beautifying the room or the toilet, thereby greatly reducing the economic cost; moreover, the utility model discloses simple structure easily operates and maintains.

Drawings

Fig. 1 is a schematic view of the structure of the simulation window system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the structure of the simulation window system of the present invention. As shown in fig. 1, the simulation window system of the present invention includes: the camera 1 is used for sending shot outdoor scene information to the display 2; the display 2 is used for displaying outdoor scenes according to the outdoor scene information sent by the camera 1; the solar panel 3 is used for supplying power to the camera 1, the display 2, the storage battery 4 and the triode T; a triode T for amplifying the output voltage of the solar panel 3; a relay KJ for getting on or off the power under the control of the triode T; a switch K for opening or closing under the control of the relay KJ; a diode D1 for determining whether the storage battery 4 is charged; a voltage regulator tube D2 for stabilizing the input voltage of the triode T; a fixed resistor R1 for dividing the input voltage of the triode T; a variable resistor R2 for adjusting collector current of the triode T; wherein,

the positive polarity output end of the solar panel 3 is connected with the anode of a diode D1, the cathode of a diode D1 is connected with the positive polarity power supply end of the storage battery 4 and one end of a switch K, and the other end of the switch K is connected with the positive polarity power supply end of the display 2 and the positive polarity power supply end of the camera 1; the positive output end of the solar panel 3 is connected with the cathode of a voltage regulator tube D2, the anode of the voltage regulator tube D2 is connected with one end of a fixed resistor R1, and the other end of the fixed resistor R2 is connected with the base electrode of a triode T; the output negative polarity end of the solar panel 3 is connected with the negative polarity power supply end of the display 2, the negative polarity power supply end of the camera 1, the negative polarity power supply end of the storage battery 4 and the emitting electrode of the triode T; one end of the relay KJ is connected with a triode T collector, the other end of the relay KJ is connected with one end of a variable resistor R2, and the other end of the variable resistor R2 is connected with a positive power supply end of the storage battery 4; the output end of the camera 1 is connected with the input end of the display 2.

The utility model discloses in, relay KJ is the one-to-one with switch K.

In the present invention, the triode T is an NPN type.

In the present invention, the diode D1 is a silicon diode. In practical application, when the voltage difference between the two ends of the diode D1 is greater than or equal to 0.7 volt, it indicates that there is light brightness outdoors; a voltage difference across diode D1 of less than 0.7 volts indicates no outdoor light brightness. In addition, the diode D1 also has the function of preventing the current from flowing back from the battery 4 to the solar panel 3 when the outdoor light is weak or no light is emitted.

In the utility model, the potential of the positive polarity power supply end of the storage battery 4 is more than or equal to 12 volts. When the storage battery 4 is fully charged, the voltage difference between the positive power supply end of the storage battery 4 and the negative power supply end of the storage battery 4 is about 14 volts, so that the output voltage of the solar panel 3 is 14 volts; otherwise, the charging undervoltage of the storage battery 4 may reduce the service life of the storage battery 4. In order to ensure that the output voltage of the solar panel 3 is 14 volts, the solar panel can be connected in series with a plurality of solar panels 3. When solar panels 3 are connected in series, each solar panel 3 is preferably of the same brand and the same model to ensure the consistency of each solar panel 3.

In the utility model, the regulated voltage at the two ends of the voltage regulator tube D2 is 12 volts.

In the utility model, the fixed resistor R1 has the function of voltage division; the adjustable resistor R2 stabilizes the potential of the positive polarity power supply terminal of the storage battery 4 at 12 volts through the change of the resistance of the adjustable resistor R2.

In a word, in the simulation window system of the present invention, when there is light brightness outdoors and the voltage across the diode is greater than or equal to 0.7 volt, on one hand, the storage battery starts to charge, and the adjustable resistor is adjusted, so that the positive polarity power supply end potential of the storage battery is 12 volt; on the other hand, when the solar panel supplies power, the voltage of the voltage regulator tube is stabilized, the fixed resistor divides voltage, and the positive polarity power supply end potential of the storage battery is maintained at 12 volts, the triode is conducted, at the moment, the coil in the relay is electrified, the electrified relay coil closes the switch under the action of the magnetic field, the display starts to work, and the display displays outdoor scenes from the camera. When the outdoor light brightness is weak or no light brightness exists, the display can still keep displaying outdoor scenes for a period of time under the action of the storage battery; when the voltage at the two ends of the diode is less than 0.7 volt, the solar panel or the storage battery is insufficient in power supply, the triode cannot be conducted, the coil in the relay loses power, the switch is turned on at the moment, and the display cannot display outdoor scenes from the camera due to power loss. In fact, due to insufficient power supply of the solar panel or the storage battery, the camera can stop the collection work of outdoor scene information. To sum up, the simulation window system of the utility model utilizes natural energy to solve the problem of darkness in a room or a toilet, and plays a certain role in beautifying the room or the toilet, thereby greatly reducing the economic cost; moreover, the utility model discloses simple structure easily operates and maintains.

In summary, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. An artificial window system, comprising: the camera (1) is used for sending shot outdoor scene information to the display (2); the display (2) is used for displaying outdoor scenes according to the outdoor scene information sent by the camera (1); the solar panel (3) is used for supplying power to the camera (1), the display (2), the storage battery (4) and the triode T; a triode T for amplifying according to the output voltage of the solar panel (3); a relay KJ for getting on or off the power under the control of the triode T; a switch K for opening or closing under the control of the relay KJ; a diode D1 for determining whether the battery (4) is charged; a voltage regulator tube D2 for stabilizing the input voltage of the triode T; a fixed resistor R1 for dividing the input voltage of the triode T; a variable resistor R2 for adjusting collector current of the triode T; wherein,

the positive polarity output end of the solar panel (3) is connected with the anode of a diode D1, the cathode of the diode D1 is connected with the positive polarity power supply end of the storage battery (4) and one end of a switch K, and the other end of the switch K is connected with the positive polarity power supply end of the display (2) and the positive polarity power supply end of the camera (1); the positive output end of the solar panel (3) is connected with the cathode of a voltage regulator tube D2, the anode of the voltage regulator tube D2 is connected with one end of a fixed resistor R1, and the other end of the fixed resistor R2 is connected with the base electrode of a triode T; the output negative polarity end of the solar panel (3) is connected with the negative polarity power supply end of the display (2), the negative polarity power supply end of the camera (1), the negative polarity power supply end of the storage battery (4) and the emitting electrode of the triode T; one end of the relay KJ is connected with a triode T collector, the other end of the relay KJ is connected with one end of a variable resistor R2, and the other end of the variable resistor R2 is connected with a positive power supply end of the storage battery (4); the output end of the camera (1) is connected with the input end of the display (2).

2. The artificial window system according to claim 1, wherein the transistor T is of NPN type.

3. The artificial window system of claim 1, wherein the diode D1 is a silicon diode.