CN219651346U - Out-of-range power-off device - Google Patents
Out-of-range power-off device Download PDFInfo
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- CN219651346U CN219651346U CN202222902637.2U CN202222902637U CN219651346U CN 219651346 U CN219651346 U CN 219651346U CN 202222902637 U CN202222902637 U CN 202222902637U CN 219651346 U CN219651346 U CN 219651346U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/70—Energy storage systems for electromobility, e.g. batteries
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Abstract
The utility model relates to an out-of-range power-off device, which comprises a first signal receiving-transmitting module, a controller, a power-off module and a second signal receiving-transmitting module, wherein the first signal receiving-transmitting module, the controller and the power-off module are arranged on a scooter; the second signal receiving and transmitting module is in wireless connection with the first signal receiving and transmitting module, the second signal receiving and transmitting module is used for transmitting a connection signal, and the first signal receiving and transmitting module is used for receiving the connection signal; the controller is connected with the first signal receiving and transmitting module, and the first signal receiving and transmitting module is used for receiving a connection signal and transmitting the connection signal to the controller; the controller sends out a power-off signal when the controller cannot receive the connection signal; the power-off module is connected with the controller and is used for carrying out power-off processing on the scooter when receiving a power-off signal. The utility model has the advantages that when the second signal receiving and transmitting module is disconnected with the first signal receiving and transmitting module, the controller sends out a power-off signal, and when the power-off module receives the power-off signal, the power-off module performs power-off processing on the scooter.
Description
Technical Field
The utility model relates to the field of scooter safety, in particular to an out-of-range power-off device.
Background
With the improvement of social level, the electric scooter on the market is more and more, and at first glance, the electric scooter looks much like other children bicycles, and is composed of front and rear wheels, a motor, a frame, a front fork, a saddle and a handlebar, and compared with the electric bicycle, the electric scooter has the advantages that the arrangement of pedals is omitted, and children sitting on the saddle can push the children to advance by pedaling backwards by feet, so that the balance feeling of the children riding is improved.
However, under the assistance of the motor, the speed of the electric scooter is higher, the control force of the child on the electric scooter is not strong, an adult needs to look aside, and if some special weather is met, the child drives the child scooter to deviate from the sight range of the adult or deviate from the protection range of the adult, so that the result which is difficult to predict can be caused.
With respect to the related art described above, the inventors consider that there is a child car safety problem.
Disclosure of Invention
In order to improve the safety of a child car, the utility model provides an out-of-range power-off device.
The utility model provides an out-of-range power-off device which adopts the following technical scheme:
the out-of-range power-off device comprises a first signal receiving-transmitting module, a controller and a power-off module which are arranged on a scooter, and also comprises a second signal receiving-transmitting module;
the second signal receiving and transmitting module is in wireless connection with the first signal receiving and transmitting module, the second signal receiving and transmitting module is used for transmitting a connection signal, and the first signal receiving and transmitting module is used for receiving the connection signal;
the controller is connected with the first signal receiving and transmitting module, and the first signal receiving and transmitting module is used for receiving a connection signal and transmitting the connection signal to the controller;
the controller sends out a power-off signal when the controller cannot receive the connection signal;
the power-off module is connected with the controller and is used for carrying out power-off processing on the scooter when receiving a power-off signal.
Through adopting above-mentioned technical scheme, second signal transceiver module is mastered by the adult, and first signal transceiver module sets up on the scooter, and when first signal transceiver module and second signal transceiver module disconnection, it has been explained that the distance between scooter and the second signal transceiver module has exceeded the connection distance, then the controller sent the outage signal, carries out outage processing to the scooter when outage module received the outage signal.
Optionally, the controller sends out a power-off signal when the duration of the connection signal is not received and exceeds a time threshold, and the power-off module receives the power-off signal and then performs power-off processing on the scooter.
Through adopting above-mentioned technical scheme, when second signal module and first signal module cause the disconnection because signal interference, and the time of disconnection is less than time threshold value, can not cut off the power supply to the scooter immediately, can guarantee the continuity of children's car to a certain extent down.
Optionally, the device further comprises a distance detection module connected with the controller;
the distance detection module is used for detecting the actual distance between the distance detection module and the second signal receiving and transmitting module and sending a distance detection signal;
the controller is used for receiving the distance detection signal, a distance threshold is arranged in the controller, when the distance represented by the distance detection signal is larger than the distance threshold, the controller sends out a power-off signal, and the power-off module receives the power-off signal and then performs power-off processing on the scooter.
Through adopting above-mentioned technical scheme, the setting of distance detection module can detect the actual distance between scooter and the second signal transceiver module, and the setting of distance threshold can make the scooter safe the traveling in the certain distance of predetermineeing with the second signal transceiver module.
Optionally, the system also comprises a visibility detection module connected with the controller,
the visibility detection module is used for detecting the visibility of surrounding air and sending out a visibility detection signal;
the controller is configured to receive a visibility detection signal.
When the distance displayed by the distance detection signal is larger than the distance displayed by the visibility detection signal, the controller sends out a power-off signal, and the power-off module receives the power-off signal and then performs power-off processing on the scooter.
Through adopting above-mentioned technical scheme, can make to a certain extent that the distance between scooter and the second signal transceiver module surpasses when the visibility of surrounding environment at that time, outage is carried out to the scooter, can guarantee the use of scooter under the low visibility under a certain extent.
Optionally, the visibility detection module is disposed on a frame of the scooter.
Optionally, the system also comprises an alarm module connected with the controller;
after the controller sends out a power-off signal, the controller sends out an alarm signal;
the alarm module is used for receiving the alarm signal and giving out an alarm.
Through adopting above-mentioned technical scheme, alarm module's setting can send alarm signal when the scooter is outage, reminds the place that second signal transceiver module carrier scooter stayed.
Optionally, the system further comprises a power supply module, wherein the power supply module is used for supplying power to the first signal receiving and transmitting module, the controller, the visibility detection module, the distance detection module, the power-off module and the alarm module.
Through adopting above-mentioned technical scheme, power module's setting can guarantee the normal operating of electronic scooter.
In summary, the present utility model includes at least one of the following beneficial technical effects:
1. when the second signal receiving and transmitting module is disconnected with the first signal receiving and transmitting module, the controller sends out a power-off signal, and when the power-off module receives the power-off signal, the power-off module performs power-off processing on the scooter;
2. the scooter can be used in a connection range between the first signal receiving and transmitting module and the second signal receiving and transmitting module to a certain extent;
3. the use of the scooter under low visibility can be ensured to a certain extent.
Drawings
Fig. 1 is a schematic diagram of an overall structure of an out-of-range power-off device according to an embodiment of the utility model.
Reference numerals illustrate: 1. a first signal transceiver module; 2. a second signal transceiver module; 3. a controller; 4. a visibility detection module; 5. a distance detection module; 6. a power-off module; 7. an alarm module; 8. and a power supply module.
Detailed Description
The present utility model will be described in further detail with reference to fig. 1.
The embodiment of the utility model discloses an out-of-range power-off device. Referring to fig. 1, an out-of-range power-off includes a first signal transceiving module 1, a second signal transceiving module 2, a controller 3, a visibility detection module 4, a distance detection module 5, a power-off module 6, an alarm module 7, and a power supply module 8.
The first signal receiving and transmitting module 1, the controller 3, the visibility detecting module 4, the distance detecting module 5, the power-off module 6, the alarm module 7 and the power supply module 8 are all arranged on the scooter, and the second signal receiving and transmitting module 2 is mastered by an adult.
With continued reference to fig. 1, the first signal transceiver module 1 is wirelessly connected to the second signal transceiver module 2, the second signal transceiver module 2 is configured to transmit a connection signal, the first signal transceiver module 1 is disposed on a scooter, and the first signal transceiver module 1 is capable of receiving the connection signal.
The first signal transceiver module 1 is connected with the controller 3, and the first signal transceiver module 1 is used for sending the received connection signal to the controller 3.
A time threshold is set in the controller 3, when the first signal receiving and transmitting module 1 is disconnected with the second signal receiving and transmitting module 2, and the disconnection time of the first signal receiving and transmitting module 1 and the second signal receiving and transmitting module 2 exceeds the time threshold, the controller 3 sends a power-off signal, and the power-off module 6 receives the power-off signal and then performs power-off processing on the scooter.
When the disconnection time of the first signal transceiver module 1 and the second signal transceiver module 2 does not exceed the time threshold, the battery in the scooter continues to supply power to the scooter, and the setting of the time threshold can reduce the short-term influence on the connection between the second signal transceiver module 2 and the first signal transceiver module 1 caused by equipment problems or surrounding environment to a certain extent, so that the use of the scooter is affected.
The device further comprises a distance detection module 5, wherein the distance detection module 5 is connected with the controller 3, the distance detection module 5 can detect the actual distance between the distance detection module 5 and the second signal receiving and transmitting module 2 and send a distance detection signal, and the controller 3 can receive the distance detection signal.
The controller 3 is internally provided with a distance threshold value, the distance threshold value can be changed through the second signal receiving and transmitting module 2, the second signal receiving and transmitting module 2 is provided with a key or a touch screen, and the distance threshold value can be changed through operating the key or the touch screen.
The controller 3 receives the distance detection signal, when the distance detected by the distance detection signal is greater than the distance threshold, the controller 3 sends out a power-off signal, and the power-off module 6 performs power-off processing on the scooter after receiving the power-off signal.
Obviously, the setting of the distance threshold should not exceed the connection distance between the second signal transceiver module 2 and the first signal transceiver module 1, and when the setting of the distance threshold exceeds the connection distance between the second signal transceiver module 2 and the first signal transceiver module 1, the connection distance between the second signal transceiver module 2 and the first signal transceiver module 1 is subject to.
The system further comprises a visibility detection module 4, wherein the visibility detection module 4 can detect the visibility of surrounding air, namely the visibility of the surrounding environment, and sends out a visibility detection signal, and the controller 3 receives the visibility detection signal.
In the embodiment of the utility model, the controller 3 receives the visibility detection signal, the controller 3 receives the distance detection signal, if the distance displayed by the distance detection signal is greater than the distance displayed by the visibility detection signal, the controller 3 sends a power-off signal, and the power-off module 6 performs power-off processing on the scooter after receiving the power-off signal.
The intelligent power-off control device further comprises an alarm module 7, wherein the alarm module 7 is connected with the controller 3, and after the controller 3 sends out a power-off signal, the controller 3 sends out an alarm signal; the alarm module 7 is used for receiving the alarm signal and giving an alarm.
The second signal transceiver module 2 can send alarm signal, and the wireless receiving module sends the alarm signal to the controller 3 after receiving the alarm signal, and the controller 3 sends out an alarm through the control alarm module 7.
In an embodiment of the present utility model, the alarm may be a buzzer signal for alerting a person in a certain range and the operator of the second signaling module 2 that the scooter has been powered off.
The device further comprises a power supply module 8, wherein the power supply module 8 is connected with the first signal receiving and transmitting module 1, the controller 3, the visibility detection module 4, the distance detection module 5, the power-off module 6 and the alarm module 7 and is used for supplying power to the first signal receiving and transmitting module 1, the controller 3, the visibility detection module 4, the distance detection module 5, the power-off module 6 and the alarm module 7.
The implementation principle of the out-of-range power-off device in the embodiment of the utility model is as follows: the second signal transceiver module 2 is provided with a distance threshold value, the distance detection module 5 can detect the distance between the scooter and the second signal transceiver module 2 and send a distance detection signal, when the distance displayed by the distance detection signal exceeds the distance threshold value, the controller 3 sends out a power-off signal, the power-off module 6 receives the power-off signal and then carries out power-off processing on the scooter, the visibility detection module 4 can detect the visibility of surrounding air and send out a visibility detection signal, when the distance displayed by the visibility detection signal is smaller than the distance threshold value, the controller 3 sends out the power-off signal, and the power-off module 6 receives the power-off signal and then carries out power-off processing on the scooter.
The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.
Claims (4)
1. The out-of-range power-off device is characterized by comprising a first signal receiving-transmitting module (1), a controller (3) and a power-off module (6) which are arranged on a scooter, and further comprising a second signal receiving-transmitting module (2);
the second signal receiving and transmitting module (2) is in wireless connection with the first signal receiving and transmitting module (1), the second signal receiving and transmitting module (2) is used for transmitting a connection signal, and the first signal receiving and transmitting module (1) is used for receiving the connection signal;
the controller (3) is connected with the first signal receiving and transmitting module (1), and the first signal receiving and transmitting module (1) is used for receiving a connection signal and transmitting the connection signal to the controller (3);
the controller (3) sends out a power-off signal when receiving no connection signal;
the power-off module (6) is connected with the controller (3) and is used for carrying out power-off treatment on the scooter when receiving a power-off signal.
2. The out-of-range power-down device according to claim 1, further comprising a visibility detection module (4) connected to the controller (3),
the visibility detection module (4) is used for detecting the visibility of surrounding air and sending out a visibility detection signal.
3. The out-of-range power outage device according to claim 2, wherein said visibility detection module (4) is disposed on a frame of said scooter.
4. The out-of-range power-off device according to claim 2, further comprising a power supply module (8), wherein the power supply module (8) is configured to supply power to the first signal transceiver module (1), the controller (3), the visibility detection module (4), the distance detection module (5), the power-off module (6) and the alarm module (7).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222902637.2U CN219651346U (en) | 2022-11-01 | 2022-11-01 | Out-of-range power-off device |
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CN202222902637.2U CN219651346U (en) | 2022-11-01 | 2022-11-01 | Out-of-range power-off device |
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Publication Number | Publication Date |
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CN219651346U true CN219651346U (en) | 2023-09-08 |
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CN202222902637.2U Active CN219651346U (en) | 2022-11-01 | 2022-11-01 | Out-of-range power-off device |
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2022
- 2022-11-01 CN CN202222902637.2U patent/CN219651346U/en active Active
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