CN218644193U - Sunshade control system and sunshade system - Google Patents

Abstract

The utility model discloses a sunshade control system and sunshade system relates to the technical field of doors and windows, and the sunshade control system comprises a solar charging module, a battery charging module, a voltage stabilizing module, a main control module, a radio frequency module, a key module, a motor induction module, an ADC (analog-to-digital converter) sampling module and a motor driving module; the solar charging module is used for outputting the current of the solar panel to the battery for charging; the voltage stabilizing module is used for stabilizing the voltage output by the battery and supplying power to the main control module, the radio frequency module, the key module and the motor driving module; the radio frequency module is used for receiving and transmitting frequency signals to the main control module; the key module is used for receiving and forwarding the code matching signal to the main control module; the motor induction module is used for detecting and transmitting a generator signal to the main control module; the ADC sampling module is used for collecting and transmitting electric signals of the solar panel, the battery and the motor to the main control module. The utility model discloses simple structure, simple to operate, the function is complete, reduces the fault rate.

Description

Sunshade control system and sunshade system

Technical Field

The utility model relates to a door and window technical field especially relates to a sunshade control system and sunshade system.

Background

At present, the sun-shading product is widely applied to various places, such as high-grade office buildings, enterprises and the like. However, the conventional sunshade products on the market mainly have the following disadvantages:

1. the mechanical stroke is used, so that the process cost is high, the performance is unstable, the data is inaccurate, and the quality problem is more, so that more customer complaints are caused;

2. the key code matching technology is used, the operation is relatively complex, and the touch keys are influenced by temperature and humidity, so that unstable control is easily caused;

3. the spring antenna is arranged in the receiver, so that the occupied space is extremely large, the receiving is insensitive, and the situation of slow response is caused;

4. the light energy plate is required to be externally arranged outside the louver to receive light energy for charging, so that the occupied area of the appearance is large, the installation limitation is difficult, and the quality loss and falling are easily caused by the oxidation of air;

5. the polymer battery is used, and because the polymer battery has high cost and poor safety performance, large-current discharge can not be realized, and the battery capacity slowly ages along with the rise and fall of the temperature;

6. the AC220V power supply is used for driving and then mounting, the process is unscientific and inconvenient, a large amount of wires are consumed for distribution control, and mistakes are easy to make.

As can be seen from the above, the workload is increased due to the trouble in the section bar and installation; meanwhile, because the sectional material has large volume limitation, many customers cannot accept the sectional material in the aspect of attractive installation; in addition, the existing sun-shading product is very inconvenient in construction, has large loss on labor cost and is not close to national indexes of energy reduction and emission reduction, thereby reducing the social economic benefit. Therefore, it is necessary to develop a new sunshade product to solve the above problems.

Disclosure of Invention

The utility model aims to solve the technical problem that a simple structure is provided, simple to operate's sunshade control system and solar shading system, and the function is complete, can reduce the fault rate.

In order to solve the technical problem, the utility model provides a sun-shading control system, which comprises a solar charging module, a battery charging module, a voltage stabilizing module, a main control module, a radio frequency module, a key module, a motor induction module, an ADC (analog-to-digital converter) sampling module and a motor driving module; the solar charging module is used for outputting the current of the solar panel to the battery for charging; the battery charging module is used for controlling the charging of the battery; the voltage stabilizing module is respectively connected with the main control module, the radio frequency module and the key module and is used for stabilizing the voltage output by the battery and supplying power to the main control module, the radio frequency module, the key module and the motor driving module; the radio frequency module is connected with the main control module and is used for receiving and forwarding radio frequency signals to the main control module; the key module is connected with the main control module and used for receiving and forwarding a code matching signal to the main control module; the motor induction module is connected with the main control module and used for detecting and transmitting a generator signal to the main control module; the ADC sampling module is connected with the main control module and is used for collecting and transmitting electric signals of the solar panel, the battery and the motor to the main control module; the motor driving module is connected with the main control module and used for driving a motor according to the control signal of the main control module so as to adjust the state of the sunshade structure.

As an improvement of the above scheme, the sunshade control system further comprises an encapsulation structure, and the sunshade control system is arranged in the encapsulation structure.

As an improvement of the above scheme, the radio frequency module includes a radio frequency control circuit and an FPC flexible antenna that are connected to each other, the radio frequency control circuit is disposed in the packaging structure, and the FPC flexible antenna is disposed on an outer wall of the packaging structure and in the hollow cavity.

As an improvement of the above scheme, the key module includes a full-pole hall sensor, and the full-pole hall sensor is used for sensing a magnetic signal in real time and converting the magnetic signal into an electrical signal to be sent to the main control module.

As an improvement of the scheme, the sunshade control system further comprises a wireless transceiver module, and the wireless transceiver module is connected with the main control module and used for data interaction with external equipment.

As an improvement of the above scheme, the motor sensing module includes a bipolar latching hall sensor, and the bipolar latching hall sensor is used for detecting a pulse signal of the motor in real time and sending the pulse signal to the main control module.

Correspondingly, the invention also provides a sun-shading system which comprises a frame body, the hollow glass, a sun-shading structure, a solar panel, a battery, a motor and a sun-shading control system, wherein the motor is used for controlling the state of the sun-shading structure; the solar charging module is connected with the solar panel and the battery respectively, the battery charging module is connected with the battery, the voltage stabilizing module is connected with the battery, the motor sensing module is connected with the motor, the ADC sampling module is connected with the solar panel, the battery and the motor respectively, and the motor driving module is connected with the motor.

As an improvement of the above scheme, the sun-shading control system further comprises an encapsulation structure arranged in the hollow cavity, and the solar panel is arranged on the outer wall of the encapsulation structure and in the hollow cavity.

As an improvement of the above scheme, the encapsulation structure is fastened to the top of the inner wall of the frame body.

As an improvement of the above scheme, the mobile phone further comprises an external transmitter, wherein the external transmitter is provided with a magnet and is used for transmitting a radio frequency signal with the radio frequency module and transmitting a code matching signal with the key module.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses combine together solar charging module, battery charging module, voltage stabilizing module, host system, radio frequency module, button module, motor induction module, ADC sampling module and motor drive module, form the complete sunshade control system who possesses of function.

Furthermore, the utility model encapsulates the sun-shading structure, the solar panel, the battery, the motor and the sun-shading control system (the solar charging module, the battery charging module, the voltage stabilizing module, the main control module, the radio frequency module, the key module, the motor induction module, the ADC sampling module and the motor driving module) in the hollow cavity between the hollow glasses, and can isolate the control component and the functional component from the external environment, thereby reducing the influence of the external environment on the internal parts, greatly reducing the failure rate and having low maintenance cost;

meanwhile, the battery is packaged in the hollow cavity, so that the main control module, the radio frequency module, the key module, the motor driving module and other components can be powered by the battery, an external wire and a power supply are not needed, the distribution control is also not needed, and the installation is extremely convenient;

additionally, the utility model discloses a pertinence to each part is improved, has reduced the size of each part widely to all encapsulate solar panel, battery, motor and sunshade control system in the cavity between cavity glass, thereby solved traditional sunshade product because of the big installation limitation problem that leads to of outward appearance area occupied, thereby reduced artifical installation cost, improved economic benefits.

Drawings

FIG. 1 is a schematic structural view of the sunshade control system of the present invention;

fig. 2 is a circuit diagram of a solar charging module in the sunshade control system of the present invention;

fig. 3 is a circuit diagram of a battery charging module in the sunshade control system of the present invention;

FIG. 4 is a circuit diagram of a voltage stabilizing module in the sunshade control system of the present invention;

fig. 5 is a circuit diagram of a radio frequency module in the sunshade control system of the present invention;

FIG. 6 is a circuit diagram of a key module in the sunshade control system of the present invention;

FIG. 7 is a circuit diagram of a motor induction module in the sunshade control system of the present invention;

fig. 8 is a circuit diagram of an ADC sampling module in the sunshade control system of the present invention;

fig. 9 is a circuit diagram of a main control module in the sunshade control system of the present invention;

fig. 10 is a circuit diagram of a motor driving module in the sunshade control system of the present invention;

FIG. 11 is a schematic structural view of a packaging mechanism in the sunshade control system of the present invention;

FIG. 12 is another schematic view of the packaging mechanism of the sunshade control system of the present invention;

FIG. 13 is a schematic view of the sunshade system of the present invention;

FIG. 14 is a schematic view of another embodiment of the sunshade system of the present invention;

FIG. 15 is an exploded view of the sunshade system of the present invention;

fig. 16 is a schematic structural view of an external reflector in the sunshade 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 further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside equidirectional wording that appears or will appear in the text only uses the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

As shown in fig. 1, the sunshade control system 4 includes a solar charging module 41, a battery charging module 42, a voltage stabilizing module 43, a main control module 44, a radio frequency module 45, a key module 46, a motor sensing module 47, an ADC sampling module 48, and a motor driving module 49.

The following describes each functional module in detail with reference to a specific circuit diagram:

1. solar charging module

The solar charging module 41 is respectively connected with the external solar panel 7 and the battery 8, and is used for outputting the current of the solar panel 7 to the battery 8 for charging;

as shown in fig. 2, the solar charging module 41 includes a first diode D1, a second diode D2, a third diode D3, a resistor R and a capacitor C; wherein, solar panel 7's current gets into battery 8 through first diode D1 and charges, and first diode D1 pipe can prevent that battery 8's current from flowing into solar panel 7, and simultaneously, two TVS pipes (second diode D2 and third diode D3) of solar panel 7's input parallel connection protect, can effectively promote the security.

2. Battery charging module

The battery charging module 42 is connected with an external battery 8 and used for controlling the charging of the battery 8;

as shown in fig. 3, the battery charging module 42 selects a CS5095E three-lithium battery charging chip U4 for battery charging, wherein the input voltage of the battery charging module 42 is 5V, and the output voltage thereof is 12V.

3. Voltage stabilizing module

As shown in fig. 4, the voltage stabilizing module 43 may convert the battery voltage BATVCC into a voltage of 3.3V; in the present invention, the voltage stabilizing module 43 is connected to the external battery 8, the main control module 44, the radio frequency module 45, the key module 46 and the motor driving module 49, respectively, and the voltage output from the battery 8 can be stabilized by the voltage stabilizing module 43 and supplied to the main control module 44, the radio frequency module 45, the key module 46 and the motor driving module 49;

4. radio frequency module

The radio frequency module 45 is connected with the main control module 44 and is used for receiving and forwarding radio frequency signals to the main control module 44;

as shown in fig. 5, the rf module 45 selects a CMT2300A rf chip U2, processes the received rf signal, and sends the processed rf signal to the main control module 44.

5. Key module

The key module 46 is connected with the main control module 44 and is used for receiving and forwarding the pairing code signal to the main control module 44;

as shown in fig. 6, the button module 46 selects a CC6201 low-power consumption all-pole hall sensor U1, converts the magnetic signal into an electrical signal, and sends the electrical signal to the main control module 44.

6. Motor induction module

The motor induction module 47 is respectively connected with the main control module 44 and the external motor 9, and is used for detecting and transmitting a generator signal to the main control module 44;

as shown in fig. 7, the motor sensing module 47 uses a TMR1202 low power consumption bipolar latch type hall sensor to detect the number of turns of the motor 8, and sends a real-time pulse signal corresponding to the number of turns to the main control module 44 for counting. Preferably, the bipolar latching type hall sensor is small in size, convenient to install in the hollow cavity, stable in performance and low in cost, and the complexity of field installation can be greatly reduced.

7. ADC sampling module

The ADC sampling module 48 is connected to the main control module 44, the external solar panel 7, the battery 8 and the motor 9, and is configured to collect and forward electrical signals of the solar panel 7, the battery 8 and the motor 9 to the main control module 44;

as shown in fig. 8, the utility model discloses in need carry out solar energy voltage sampling, battery voltage sampling and motor current sampling respectively through ADC sampling module 48 to send the sampled data for host system 44, thereby feed back the hardware state in real time.

8. Main control module

The main control module 44 is used for generating control signals according to the electric signals of the external solar panel 7, the battery 8 and the motor 9;

as shown in fig. 9, the main control module 44 processes signals sent by the rf chip, key signals, ADC sampling signals, motor hall sensor signals, etc. in real time, and sends motor driving signals and LED display signals.

Preferably, the power consumption of the main control module 44 is 60uA, and the size is 41 × 16 × 13.4mm, but not limited thereto, as long as the size is small;

9. motor drive module

The motor driving module 49 is connected to the main control module 44 and the external motor 9, respectively, and is configured to drive the motor 9 according to a control signal of the main control module 44 to adjust the state of the sunshade structure 3.

As shown in fig. 10, the motor driving module 49 selects a TB67H451FNG motor driving chip U2, and the main control module 44 can control the motor 9 to rotate forward and backward by sending a high-low level signal from the motor driving chip U2.

It should be noted that the TB67H451FNG motor driving chip has a current limiting protection function, and can set a protection current, so that the power failure machine 9 can be blocked with low consumption effectively.

To sum up, the utility model discloses combine together solar charging module 41, battery charging module 42, voltage stabilizing module 43, host system 44, radio frequency module 45, button module 46, motor response module 47, ADC sampling module 48 and motor drive module 49, form the complete sunshade control system 4 of function.

Referring to fig. 11 and 12, in the utility model discloses, sunshade control system still includes packaging structure 6, and in packaging structure 6 was all located to outside battery 8, motor 9 and sunshade control system 4, packaging structure 6's outer wall was located to outside solar panel 7.

The battery 8, the motor 9 and the sunshade control system 4 can be shielded and sealed by the packaging structure 6, so that the overall effect of the product is achieved.

Further, the radio frequency module 45 includes a radio frequency control circuit and an FPC flexible antenna that are connected to each other, the radio frequency control circuit is disposed in the package structure 6, and the FPC flexible antenna is disposed on an outer wall of the package structure 6. Preferably, packaging structure 6 can be by two section bars amalgamation in order forming the box structure, through attaching FPC flexible antenna on the section bar surface, can effectively promote signal reception's sensitivity, and data is more accurate, and the operation is easier.

In addition, the sunshade control system also comprises a wireless transceiver module, and the wireless transceiver module is connected with the main control module and used for carrying out data interaction with external equipment.

Referring to fig. 13-15, fig. 13-15 show an embodiment of the present invention, which includes a frame body 1, a hollow glass 2, a sunshade structure 3, a solar panel 7, a battery 8, a motor 9 and a sunshade control system 4, the hollow glass 2 is sealed on the frame body 1 to make the hollow glass 2 and the frame body 1 form a structure with a hollow cavity, and the sunshade structure 3, the solar panel 7, the battery 8, the motor 9 and the sunshade control system 4 are all disposed in the hollow cavity. Specifically, the method comprises the following steps:

the sun-shading structure 3 can be a louver structure, and the louver structure is sealed in the hollow cavity, so that the louver structure can be effectively isolated from the outside, and the maintenance cost and the installation difficulty are reduced.

Solar panel 7 installs in the cavity of cavity, can make solar shading system's whole outward appearance more succinct, easily installs, still can play very big promotion effect to solar panel 7's quality protection.

The motor 9 is used for controlling the state of the sunshade structure 3, and the size of the motor 9 is preferably 95 × 25.8 × 18.6mm, but not limited thereto, as long as the motor is small in size.

The battery 8 is a lithium battery pack. It should be noted that the lithium battery has low requirements on the working environment, high safety and long service life, and meanwhile, the lithium battery has the advantages of thinness, arbitrary area and arbitrary shape, and has small volume and large capacity. Preferably, the size of the lithium battery pack is 90 × 18 × 18mm, and the rated capacity is 800mAh, but not limited thereto, and may be adjusted according to actual situations.

Therefore, the utility model discloses all encapsulate sunshade structure 3, solar panel 7, battery 8, motor 9 and sunshade control system 4 (solar charging module 41, battery charging module 42, voltage stabilizing module 43, main control module 44, radio frequency module 45, button module 46, motor induction module 47, ADC sampling module 48 and motor drive module 49) in the cavity between cavity glass 2 to keep apart control unit and functional unit and external environment, reduced the influence of external environment to internals, greatly reduced the fault rate, consequently, the maintenance cost is low; and simultaneously, the utility model discloses encapsulate battery 8 in the cavity for parts such as host system 44, radio frequency module 45, button module 46 and motor drive module 49 all can supply power through battery 8, need not external electric wire and power, also need not to arrange accuse, installation and convenience.

Furthermore, packaging structure 6 accessible lock joint is in the top of framework 1 inner wall, hugs closely each other with framework 1, has good wholeness, and installation/dismantlement are convenient.

As shown in fig. 16, the sunshade system further comprises an external transmitter 5, wherein the external transmitter 5 is used for transmitting the radio frequency signal with the radio frequency module 45 and transmitting the code signal with the key module 46.

It should be noted that the external transmitter 5 is provided with a magnet, and the all-pole hall sensor in the key module 46 is used for sensing a magnetic signal in real time, and converting the magnetic signal into an electrical signal to be sent to the main control module 44. Preferably, the external transmitter 5 may be a T-type remote controller, but is not limited thereto as long as a code manipulation is possible.

What is different from the prior art, the utility model discloses combine together hall response technique and pair yard technique, thereby detect the positional relationship between button module 46 and external transmitter 5 through full polar type hall sensor real-time induction magnetic field intensity, the controller 44 of being convenient for carries out the pair yard operation according to the positional relationship that detects out, and stability is strong, and the reaction is sensitive, easy to operate.

For example, when the sun-shading control system 4 works, a T-shaped remote controller is used to be close to the key module 46 in the sun-shading control system 4 so as to receive Hall magnetic induction; meanwhile, the main control module 44 can receive the sensing signal and enter a learning state; then, pressing the code matching key on the T-shaped remote controller can match the code with the main control module 44.

Therefore, the utility model discloses a pertinence to each part is improved, the size of each part has been reduced widely, thereby with sunshade structure 3, solar panel 7, battery 8, motor 9 and sunshade control system 4 (solar charging module 41, battery charging module 42, voltage stabilizing module 43, host system 44, radio frequency module 45, button module 46, motor induction module 47, ADC sampling module 48 and motor drive module 49) all encapsulate in the cavity between cavity glass, thereby the installation limitation problem that traditional sunshade product leads to because of the outward appearance area occupied is big has been solved, thereby manual installation cost has been reduced, economic benefits is improved.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and decorations can be made, which are also considered as the protection scope of the present invention.

Claims (10)

1. A sun-shading control system is characterized by comprising a solar charging module, a battery charging module, a voltage stabilizing module, a main control module, a radio frequency module, a key module, a motor induction module, an ADC (analog-to-digital converter) sampling module and a motor driving module;

the solar charging module is used for outputting the current of the solar panel to the battery for charging;

the battery charging module is used for controlling the charging of the battery;

the voltage stabilizing module is respectively connected with the main control module, the radio frequency module and the key module and is used for stabilizing the voltage output by the battery and supplying power to the main control module, the radio frequency module, the key module and the motor driving module;

the radio frequency module is connected with the main control module and is used for receiving and transmitting radio frequency signals to the main control module;

the key module is connected with the main control module and used for receiving and forwarding a code matching signal to the main control module;

the motor induction module is connected with the main control module and used for detecting and transmitting a generator signal to the main control module;

the ADC sampling module is connected with the main control module and is used for collecting and transmitting electric signals of the solar panel, the battery and the motor to the main control module;

the motor driving module is connected with the main control module and used for driving a motor according to the control signal of the main control module so as to adjust the state of the sunshade structure.

2. The shade control system of claim 1, further comprising an enclosure, the shade control system being disposed within the enclosure.

3. The solar shading control system of claim 2, wherein the radio frequency module comprises a radio frequency control circuit and an FPC flexible antenna which are connected with each other, the radio frequency control circuit is arranged in the packaging structure, and the FPC flexible antenna is arranged on the outer wall of the packaging structure.

4. The solar shading control system of claim 1, wherein the key module comprises a full pole hall sensor for sensing a magnetic signal in real time and converting the magnetic signal into an electrical signal to be sent to the main control module.

5. The sunshade control system of claim 1, further comprising a wireless transceiver module connected to the main control module for data interaction with an external device.

6. The solar shading control system of claim 1, wherein the motor sensing module comprises a bipolar latching type hall sensor for detecting a pulse signal of the motor in real time and transmitting the pulse signal to the main control module.

7. A sun-shading system is characterized by comprising a frame body, hollow glass, a sun-shading structure, a solar panel, a battery, a motor and the sun-shading control system according to any one of claims 1 to 6, wherein the motor is used for controlling the state of the sun-shading structure, the hollow glass is sealed on the frame body so that the hollow glass and the frame body form a structure with a hollow cavity, and the sun-shading structure, the solar panel, the battery, the motor and the sun-shading control system are all arranged in the hollow cavity;

the solar energy charging module is connected with the solar panel and the battery respectively, the battery charging module is connected with the battery, the voltage stabilizing module is connected with the battery, the motor induction module is connected with the motor, the ADC sampling module is connected with the solar panel, the battery and the motor respectively, and the motor driving module is connected with the motor.

8. The shading system of claim 7, further comprising an enclosure structure disposed within the hollow cavity, the solar panel being disposed on an outer wall of the enclosure structure and within the hollow cavity.

9. The shading system of claim 8, wherein the enclosure is fastened to the top of the interior wall of the frame.

10. The shading system of claim 7, further comprising an external transmitter having a magnet thereon, the external transmitter for transmitting radio frequency signals with the radio frequency module and code matching signals with the key module.

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