CN216374192U - Lithium-carbon capacitor power supply device for sightseeing vehicle and sightseeing vehicle - Google Patents

Abstract

The utility model discloses a lithium-carbon capacitor power supply device for a sightseeing vehicle, wherein the sightseeing vehicle comprises a sightseeing vehicle system and a controller, the lithium-carbon capacitor power supply device comprises a power supply module, a charging interface, a lithium-carbon capacitor module and a power supply management system, the power supply management system acquires and transmits an electric signal in the lithium-carbon capacitor module to the controller of the sightseeing vehicle, one end of the power supply module is connected with the lithium-carbon capacitor module and converts and transmits a power supply in the lithium-carbon capacitor module to the sightseeing vehicle system so as to supply power to the sightseeing vehicle system, and one end of the lithium-carbon capacitor module is connected with the charging interface so as to receive a charging power supply input by the charging interface for charging. Compared with the prior art, the sightseeing bus power unit has the advantages that the lithium-carbon capacitor module is used as the power unit of the sightseeing bus, the capacity of quick charging is realized, the safety and the reliability are high, and the maintenance requirement is low.

Description

Lithium-carbon capacitor power supply device for sightseeing vehicle and sightseeing vehicle

Technical Field

The utility model relates to a power supply of a sightseeing vehicle, in particular to a lithium-carbon capacitor power supply device for the sightseeing vehicle and the sightseeing vehicle.

Background

The sightseeing bus is a ferry bus, a storage battery car is generally used in terms of power, power is generated by batteries, the sightseeing bus is environment-friendly and pollution-free, and resources are effectively utilized. The electric bicycle has the advantages of being provided with a personalized control system, flexible in steering, comfortable in hand feeling, light, smooth, simple to drive, capable of being recycled electrically, long in service life and the like. Sightseeing vehicles are widely used in hotels, scenic spots, buildings, factories, airports, railway stations, bus stations, docks, gymnasiums, parks and other places. At present, lead-acid storage batteries, nickel-chromium batteries and lithium batteries are mostly adopted for storage batteries of sightseeing vehicles.

Although the lead-acid storage battery is low in price, the climbing capability is weak, the maintenance period is short, the battery needs to be replaced within 1 year basically, the low-temperature discharge is poor, and the charging time is mostly 8-10 hours; the nickel-chromium battery has short service life, pollutes the environment, has memory effect and has charging time of 8 to 10 hours; the lithium battery has potential safety hazard and danger of explosion and fire, and the charging time is 3-4 hours.

Therefore, a new power source for a sightseeing vehicle is urgently needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a lithium-carbon capacitor power supply device for a sightseeing vehicle and the sightseeing vehicle.

In order to achieve the purpose, the utility model discloses a lithium-carbon capacitor power supply device for a sightseeing vehicle, wherein the sightseeing vehicle comprises a sightseeing vehicle system and a controller, the lithium-carbon capacitor power supply device comprises a power supply module, a charging interface, a lithium-carbon capacitor module and a power supply management system, the power supply management system acquires and transmits electric signals in the lithium-carbon capacitor module to the controller of the sightseeing vehicle, one end of the power supply module is connected with the lithium-carbon capacitor module and converts and transmits a power supply in the lithium-carbon capacitor module to the sightseeing vehicle system so as to supply power to the sightseeing vehicle system, and one end of the lithium-carbon capacitor module is connected with the charging interface so as to receive a charging power supply input by the charging interface for charging.

Compared with the prior art, the power unit of the sightseeing vehicle adopts the lithium-carbon capacitor module as the power unit of the sightseeing vehicle, has the capability of quick charging, can fully charge the power module of the sightseeing vehicle within 5-15 minutes, has the capability of quick discharging, and can greatly improve the problem of weak climbing capability of the traditional lead-acid and lithium batteries; the safety is high, and explosion and fire cannot happen during short circuit and puncture; the service life of the module can reach 5 ten thousand times; the temperature range is wide, the working temperature can reach-30 ℃ to 65 ℃, the safety and the reliability are high, and the maintenance requirement is less.

Preferably, the electrical signals include voltage, current, temperature and remaining capacity.

Preferably, the power management system is connected with the controller through an RS485 communication signal interface and transmits the electric signal to the controller, so that the operation is fast and convenient. Of course, the power management system may also transmit signals to the controller by other means, such as directly transmitting signals through a plug interface or a signal line.

Preferably, the lithium-carbon capacitor module supplies power to the sightseeing vehicle system through a power supply interface, and the power management system controls the on-off of the power supply interface.

Preferably, the power management system is provided with a comparator, the comparator compares the electric signal with a preset value, the power management system controls the power supply interface to be conducted when the electric signal exceeds the preset value, and outputs an alarm signal to the controller when the electric signal is lower than the preset value, so that the use is safe and reliable. The power management system can compare the electric signal with a preset value through the comparator and connect the output signal with the control end of the power supply interface.

The utility model also discloses a sightseeing vehicle with the lithium-carbon capacitor power supply, which comprises a sightseeing vehicle system, a controller for controlling the sightseeing vehicle system and a power supply device, wherein the power supply device is the lithium-carbon capacitor power supply device and supplies power to the controller, and the controller also controls the power supply to supply power to the sightseeing vehicle system.

Compared with the prior art, the power unit of the sightseeing vehicle adopts the lithium-carbon capacitor module as the power unit of the sightseeing vehicle, has the capability of quick charging, can fully charge the power module of the sightseeing vehicle within 5-15 minutes, has the capability of quick discharging, and can greatly improve the problem of weak climbing capability of the traditional lead-acid and lithium batteries; the safety is high, and explosion and fire cannot happen during short circuit and puncture; the service life of the module can reach 5 ten thousand times; the temperature range is wide, the working temperature can reach-30 ℃ to 65 ℃, the safety and the reliability are high, and the maintenance requirement is less.

Preferably, the sightseeing vehicle system comprises an operating mechanism and a motor, wherein the operating mechanism inputs an operating command, and the controller is connected with the operating mechanism and controls the motor to act.

Specifically, the operating mechanism comprises a brake pedal and an accelerator pedal, the brake pedal is used for inputting a braking command, the controller controls the motor to brake according to the braking command, the accelerator pedal is used for inputting an accelerating command, and the controller controls the motor to accelerate according to the accelerating command.

Preferably, the sightseeing vehicle with the lithium-carbon capacitor power supply further comprises an electric lock switch, the electric lock switch is connected with the controller and inputs a starting signal, and the controller controls the lithium-carbon capacitor module, the power management system and the power module to form a closed loop, so that the lithium-carbon capacitor module supplies power to the sightseeing vehicle system through the power module.

Specifically, the controller controls the lithium-carbon capacitor module and the power management system to be communicated according to the starting signal, obtains an electric signal transmitted by the power management system, compares the electric signal with a preset value, controls the lithium-carbon capacitor module and the power module to be communicated when the electric signal is larger than the preset value, and the power module converts a power supply in the lithium-carbon capacitor module and transmits the power supply to a sightseeing vehicle system so as to supply power to the sightseeing vehicle system.

Preferably, the sightseeing vehicle with the lithium-carbon capacitor power supply further comprises an electric lock switch, and the controller controls the circuit between the lithium-carbon capacitor module and the power supply management system to be conducted according to the starting signal so as to form a closed loop. A control switch is arranged between the lithium-carbon capacitor module and the power management system, and a starting signal can be connected to a control end of the control switch.

Preferably, the sightseeing vehicle with the lithium-carbon capacitor power supply further comprises an indicator, and the controller controls the indicator to display a signal sent by the power management system.

Drawings

Fig. 1 is a block diagram of a lithium carbon capacitor power supply sightseeing vehicle.

Fig. 2 is a block diagram of a lithium-carbon capacitor power supply device.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1, the utility model further discloses a lithium-carbon capacitor power supply sightseeing vehicle 100, which comprises a sightseeing vehicle system 70, a controller 60 and a power supply device 101, wherein the sightseeing vehicle system comprises a motor 74, the controller 60 controls the action of the sightseeing vehicle system 70, and the power supply device 101 is a lithium-carbon capacitor power supply device and directly supplies power to the controller and controls the power supply device to supply power to the sightseeing vehicle system 70.

Referring to fig. 1 and 2, the lithium-carbon capacitor power supply device includes a power supply module 30, a charging interface 11, a lithium-carbon capacitor module 10 and a power supply management system 20, where the power supply management system 20 acquires an electrical signal in the lithium-carbon capacitor module 10 and transmits the electrical signal to a controller 60 of a sightseeing vehicle system, one end of the power supply module 30 is connected to the lithium-carbon capacitor module 10, and converts a power supply in the lithium-carbon capacitor module 10 to transmit the power supply to the sightseeing vehicle system 70 to supply power to the sightseeing vehicle system 70, and one end of the lithium-carbon capacitor module 10 is connected to the charging interface 11 to receive a charging power supply input by the charging interface 11 to charge the lithium-carbon capacitor module. The charging interface 11 may be a magnetic interface, or a plug interface or a wireless inductive interface. The power module 30 converts the electric energy output by the lithium-carbon capacitor module 10 into a constant voltage signal and transmits the constant voltage signal to the controller 60, and transmits the constant voltage signal to the sightseeing vehicle system 70 through the power supply interface 40, so that the controller can still monitor the whole vehicle and the electric signal of the lithium-carbon capacitor module 10 when the sightseeing vehicle system 70 is not started.

Referring to fig. 1, the sightseeing vehicle system 70 further includes an indicator 71, and the controller 60 controls the indicator 71 to display the electric signal. Of course, the indicator 71 may also be used to display other signals, such as fault signals, status signals, and other signals from the power management system 20 of the sightseeing vehicle system 70.

Referring to fig. 1 and 2, the lithium-carbon capacitor module 10 supplies power to the sightseeing vehicle system 70 through a power supply interface 40, and the power management system 20 controls on/off of the power supply interface 40.

The power management system 20 compares the electrical signal with a preset value, controls the power supply interface 40 to be switched on when the electrical signal exceeds the preset value, so that the lithium-carbon capacitor module 10 supplies power to the sightseeing vehicle system 70, outputs an alarm signal to the controller 60 when the electrical signal is lower than the preset value, and the controller 60 controls the indicator 71 to display the alarm signal to remind a driver of returning to charge the charging pile 200.

In the embodiment, the lithium-carbon capacitor module 10 adopts a lithium, carbon and super capacitor mixed structure, has high energy density, high power density, high current charging and discharging capacity, long cycle life and low self-discharge rate, can be placed at 25 ℃ at normal temperature for 3 months, has a voltage drop of less than or equal to 5 percent, has a wide temperature range (-30 ℃ -65 ℃), and has high safety, high reliability and maintenance-free characteristics. Preferably, the electrical signals include voltage, current, temperature and remaining capacity.

The power management system 20 is connected to the controller 60 through an RS485 communication signal interface, and transmits the electric signal to the controller 60, so that the operation is fast and convenient.

Preferably, the sightseeing vehicle system 70 further comprises operating mechanisms 72 and 73 for inputting operating commands, and the controller 60 is connected with the operating mechanisms 72 and 73 and controls the motor 74 to operate according to the operating commands.

Specifically, the operating mechanism includes a brake pedal 72 and an accelerator pedal 73, the brake pedal 72 is used for inputting a braking command, the controller 60 controls the motor 74 to brake according to the braking command, the accelerator pedal 73 is used for inputting an acceleration command, and the controller 60 controls the motor 74 to accelerate according to the acceleration command.

Preferably, the lithium-carbon capacitor power supply sightseeing vehicle 100 further includes an electric lock switch 50, the electric lock switch 50 is connected to the controller 60 and inputs a start signal, and the controller 60 controls the circuit between the lithium-carbon capacitor module 10 and the power supply management system 20 to be conducted according to the start signal to form a closed loop. A circuit switch is arranged between the lithium-carbon capacitor module 10 and the power management system 20, and the controller 61 connects a start signal to a control end of the circuit switch, so that the circuit switch is conducted after receiving the start signal, and the lithium-carbon capacitor module 10 and the power management system 20 are communicated.

After the lithium-carbon capacitor module 10 is communicated with the power management system 20, the power management system 20 obtains an electric signal, compares the electric signal with a preset value, controls the power supply interface 40 to be connected when the electric signal exceeds the preset value, so that the lithium-carbon capacitor module 10 supplies power to the sightseeing vehicle system 70, outputs an alarm signal to the controller 60 when the electric signal is lower than the preset value, and controls the indicator 71 to display the alarm signal to remind a driver of returning to charge the charging pile 200. Wherein the electrical signal is a voltage signal or a residual capacity signal, the power management system 20 has a comparator for comparing the corresponding electrical signal with a preset value.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, therefore, the present invention is not limited by the appended claims.

Claims (10)

1. The utility model provides a lithium carbon electric capacity power supply unit for sightseeing vehicle, sightseeing vehicle includes sightseeing vehicle system and controller, its characterized in that: the lithium-carbon capacitor power supply device comprises a power supply module, a charging interface, a lithium-carbon capacitor module and a power supply management system, wherein the power supply management system acquires an electric signal in the lithium-carbon capacitor module and conveys the electric signal to a controller of a sightseeing vehicle, one end of the power supply module is connected with the lithium-carbon capacitor module and converts a power supply in the lithium-carbon capacitor module to convey the power supply to the sightseeing vehicle system and the controller so as to supply power to the sightseeing vehicle system and the controller, and one end of the lithium-carbon capacitor module is connected with the charging interface so as to receive the charging power input by the charging interface for charging.

2. The lithium-carbon capacitor power supply apparatus for sightseeing vehicles as claimed in claim 1, wherein: the electrical signals include voltage, current, temperature, and remaining capacity.

3. The lithium-carbon capacitor power supply apparatus for sightseeing vehicles as claimed in claim 1, wherein: and the power management system is connected with the controller through an RS485 communication signal interface and transmits the electric signal to the controller.

4. The lithium-carbon capacitor power supply apparatus for sightseeing vehicles as claimed in claim 1, wherein: the power supply module supplies power to the sightseeing vehicle system through a power supply interface, and the power supply management system controls the on-off of the power supply interface.

5. The lithium-carbon capacitor power supply apparatus for sightseeing vehicles as claimed in claim 4, wherein: the power management system is provided with a comparator, the comparator compares the electric signal with a preset value, the power management system controls the power supply interface to be conducted when the electric signal exceeds the preset value, and outputs an alarm signal to the controller when the electric signal is lower than the preset value.

6. The utility model provides a lithium carbon electric capacity power sightseeing vehicle which characterized in that: the sightseeing vehicle comprises a sightseeing vehicle system, a controller for controlling the sightseeing vehicle system, and a power supply device, wherein the power supply device is the lithium-carbon capacitor power supply device for the sightseeing vehicle as claimed in claims 1 to 5 and supplies power to the controller, and the controller also controls the power supply to supply power to the sightseeing vehicle system.

7. The sightseeing vehicle with lithium-carbon capacitor as claimed in claim 6, wherein: the sightseeing vehicle system comprises an operating mechanism and a motor, wherein the operating mechanism inputs an operating command, and the controller is connected with the operating mechanism and controls the motor to act.

8. The sightseeing vehicle with lithium-carbon capacitor as claimed in claim 7, wherein: the operating mechanism comprises a brake pedal and an accelerator pedal, the brake pedal is used for inputting a braking command, the controller controls the motor to brake according to the braking command, the accelerator pedal is used for inputting an accelerating command, and the controller controls the motor to accelerate according to the accelerating command.

9. The sightseeing vehicle with lithium-carbon capacitor as claimed in claim 6, wherein: the lithium-carbon capacitor module further comprises an electric lock switch, the electric lock switch is connected with the controller and inputs a starting signal, and the controller controls the circuit between the lithium-carbon capacitor module and the power management system to be conducted according to the starting signal so as to form a closed loop.

10. The sightseeing vehicle with lithium-carbon capacitor as claimed in claim 6, wherein: the sightseeing vehicle system also comprises an indicator, and the controller controls the indicator to display a signal sent by the power management system.

Images