CN116729165A - Fill electric pile with lamp language function - Google Patents

Abstract

The invention discloses a charging pile with a lamp language function, which comprises the following components: a fault detection module that detects a fault type and outputs a fault status signal; a charging power detection module that detects a charging power of the charging pile and outputs a charging power state signal; a network state detection module that detects a network state and outputs a network state signal; the indicator lamp comprises a first indicator lamp, a second indicator lamp and a third indicator lamp; a lamp language setting module which is provided with a fault lamp language corresponding to the fault type, a power lamp language corresponding to the charging power and a network lamp language corresponding to the network state; and the lamp language control module is used for calling the corresponding fault lamp language, power lamp language and network lamp language according to the fault state signal, the charging power state signal and the network state signal to respectively drive the first indicator lamp, the second indicator lamp and the third indicator lamp to flash. The invention can intuitively and rapidly represent the fault type, the charging power and the network state.

Description

Fill electric pile with lamp language function

Technical Field

The invention relates to a charging pile, in particular to a charging pile with a lamp language function.

Background

The charging pile is used for charging the electric automobile, a red indicator light and a green indicator light are arranged on the charging pile generally, the red indicator light indicates that the charging pile is abnormal when the red indicator light is on, and the green indicator light indicates that the charging pile is normal when the green indicator light is on. When the red indicator lights are on, maintenance is needed, but the red indicator lights only indicate that the charging pile is abnormal, but cannot indicate what problem the charging pile has, and maintenance personnel are required to determine the fault position according to experience or by using instrument detection, so that the maintenance is very inconvenient.

Disclosure of Invention

The invention provides a charging pile with a lamp language function, which aims to solve the technical problem that the charging pile indicator lamp in the prior art cannot indicate what problem is caused by the charging pile, so that the maintenance is very inconvenient.

In order to solve the technical problems, the technical scheme adopted by the invention is to design a charging pile with a lamp language function, comprising:

the fault detection module detects a fault type and outputs a fault state signal according to the detected fault type;

the charging power detection module is used for detecting the charging power of the charging pile and outputting a charging power state signal according to the detected charging power;

a network state detection module which detects a network state and outputs a network state signal according to the detected network state;

the indicator lamp comprises a first indicator lamp, a second indicator lamp and a third indicator lamp;

a lamp language setting module which is provided with a fault lamp language corresponding to the fault type, a power lamp language corresponding to the charging power and a network lamp language corresponding to the network state;

the fault lamp language, the power lamp language and the network lamp language all comprise the time of the lamp language period, the time of the flicker half area, the time of the extinction half area and the flicker times, each lamp language period comprises the flicker half area and the extinction half area, and the flicker half area comprises a plurality of flicker periods; the flashing period comprises flashing light time and flashing light-off time; the number of the flicker times is the number of the flicker periods in one lamp language period;

the lamp language control module is connected with the fault detection module, the charging power detection module, the network state detection module and the lamp language setting module; and receiving the fault state signal, the charging power state signal and the network state signal, and calling corresponding fault lamp languages, power lamp languages and network lamp languages according to the fault state signal, the charging power state signal and the network state signal to respectively drive the first indicator lamp, the second indicator lamp and the third indicator lamp to flash.

The first indicator light is a red indicator light, the second indicator light is a green indicator light, and the third indicator light is a blue indicator light.

The pilot lamp is the trichromatic lamp strip, first pilot lamp is the red lamp strip, the second pilot lamp is the green lamp strip, the third pilot lamp is the blue lamp strip.

The first indicator light, the second indicator light and the third indicator light flash only one at the same time, and the first indicator light, the third indicator light and the second indicator light are arranged from high to low according to the priority.

The pilot lamp is the three-color lamp pearl, first pilot lamp is red lamp pearl, the second pilot lamp is green lamp pearl, the third pilot lamp is blue lamp pearl, just first pilot lamp, second pilot lamp and third pilot lamp can independently flash simultaneously.

The flashing lighting time, the flashing lighting-off time and the lighting-off half-zone time are all not zero and are used for designating the flashing times.

The first indicator lamp always flashes, and the fault type is an emergency stop fault; when the flicker frequency of the first indicator lamp is 1 to 11, the fault types are respectively corresponding to a grounding fault, a CP fault, a leakage fault, an over-temperature fault, an over-voltage fault, an over-current fault, an under-voltage fault, a short circuit fault, a relay adhesion fault, other faults and a metering chip fault.

When the charging pile is an alternating current slow charging pile, the flicker frequency of the second indicator lamp is 1 to 9 hours, which respectively and correspondingly indicates that the charging power is less than or equal to 1 kw, more than 1 kw and less than or equal to 2 kw, more than 2 kw and less than or equal to 3 kw, more than 3 kw and less than or equal to 4 kw, more than 4 kw and less than or equal to 5 kw, more than 5 kw and less than or equal to 6 kw, more than 6 kw and less than or equal to 7 kw, more than 7 kw and less than or equal to 11 kw and more than 11 kw and less than or equal to 21 kw.

When the charging pile is an alternating current quick charging pile, the flicker frequency of the second indicator lamp is 1 to 9 hours, which respectively and correspondingly indicates that the charging power is less than or equal to 10 kilowatts, more than 10 kilowatts and less than or equal to 20 kilowatts, more than 20 kilowatts and less than or equal to 30 kilowatts, more than 30 kilowatts and less than or equal to 40 kilowatts, more than 40 kilowatts and less than or equal to 50 kilowatts, more than 50 kilowatts and less than or equal to 60 kilowatts, more than 60 kilowatts and less than or equal to 70 kilowatts, more than 70 kilowatts and less than or equal to 110 kilowatts and less than or equal to 210 kilowatts.

And when the flashing times of the third indicator lamp are 1 to 8, the network states are respectively corresponding to the connecting platform, the SIM card registration failure, the registration platform non-response, the 4G non-module, the SIM card non-activation failure and other faults.

The invention utilizes the fault detection module to detect the fault type and outputs a fault state signal according to the detected fault type by arranging the fault detection module, the charging power detection module, the network state detection module, the indicator light, the lamp language setting module and the lamp language control module; the charging power detection module detects the charging power of the charging pile and outputs a charging power state signal according to the detected charging power; the network state detection module detects a network state and outputs a network state signal according to the detected network state; the indicator lamp comprises a first indicator lamp, a second indicator lamp and a third indicator lamp; the fault lamp language corresponding to the fault type, the power lamp language corresponding to the charging power and the network lamp language corresponding to the network state are set by using a lamp language setting module; the fault lamp language, the power lamp language and the network lamp language all comprise the time of the lamp language period, the time of the flicker half area, the time of the extinction half area and the flicker times, each lamp language period comprises the flicker half area and the extinction half area, and the flicker half area comprises a plurality of flicker periods; the flashing period comprises flashing light time and flashing light-off time; the number of the flicker times is the number of the flicker periods in one lamp language period; and then the lamp language control module is used for receiving the fault state signal, the charging power state signal and the network state signal, and calling the corresponding fault lamp language, the power lamp language and the network lamp language according to the fault state signal, the charging power state signal and the network state signal to respectively drive the first indicator lamp, the second indicator lamp and the third indicator lamp to flash, so that the fault type, the charging power and the network state can be known according to the flash of the first indicator lamp, the second indicator lamp and the third indicator lamp, and the fault type, the charging power and the network state are expressed very intuitively and rapidly, and the maintenance is very convenient.

Drawings

The invention is described in detail below with reference to examples and figures, wherein:

fig. 1 is a schematic diagram of a charging pile with a lamp function according to the present invention;

fig. 2 is an exemplary view of the present invention having a lamp function of blinking 2 times of the charging pile.

Detailed Description

Specific embodiments of the invention are further described below with reference to the accompanying drawings:

please refer to fig. 1-2 together. The charging pile with the lamp language function comprises a fault detection module 1, a charging power detection module 2, a network state detection module 3, an indicator lamp 4, a lamp language setting module 5 and a lamp language control module 6. Wherein:

the fault detection module 1 detects a fault type and outputs a fault status signal according to the detected fault type. The fault types detected by the fault detection module mainly comprise emergency stop faults, grounding faults, CP faults, leakage faults, over-temperature faults, overvoltage faults, overcurrent faults, under-voltage faults, short circuit faults, relay adhesion faults, other faults and metering chip faults. The fault detection module comprises different sensors according to different fault types, and the fault detection module can adopt the existing sensor composition for detecting corresponding faults.

The charging power detection module 2 detects the charging power of the charging pile and outputs a charging power state signal according to the detected charging power.

The network state detection module 3 detects a network state and outputs a network state signal according to the detected network state. Network status includes normal network connection, connecting platform, SIM card registration failure, registration platform unresponsiveness, 4G-free modules, SIM card-free, activation failure, and other failures. The network state detection module may also employ existing sensor compositions that detect network state.

The indicator lamp 4 includes a first indicator lamp 41, a second indicator lamp 42, and a third indicator lamp 43. In this embodiment, the first indicator light is a red indicator light, the second indicator light is a green indicator light, and the third indicator light is a blue indicator light.

The lamp language setting module 5 is provided with a fault lamp language corresponding to the fault type, a power lamp language corresponding to the charging power, and a network lamp language corresponding to the network state.

The fault lamp language, the power lamp language and the network lamp language all comprise the time of the lamp language period, the time of the flicker half area, the time of the extinction half area and the flicker times, each lamp language period comprises the flicker half area and the extinction half area, and the flicker half area comprises a plurality of flicker periods; the flashing period comprises flashing light time and flashing light-off time; the number of flashing times is the number of flashing periods in one lamp language period.

Referring to fig. 2, two lamp periods T are shown, each lamp period includes a blinking half area T1 and a extinguishing half area T2, each blinking half area includes two blinking periods T, each blinking period includes a blinking time T1 and a blinking time T2, and in this schematic diagram, the number of blinking periods is 2, that is, the number of blinking times is 2. In this embodiment, the blinking time t1 and the blinking time t2 are the same.

The lamp language control module 6 is connected with the fault detection module, the charging power detection module, the network state detection module and the lamp language setting module; and receiving the fault state signal, the charging power state signal and the network state signal, and calling corresponding fault lamp languages, power lamp languages and network lamp languages according to the fault state signal, the charging power state signal and the network state signal to respectively drive the first indicator lamp, the second indicator lamp and the third indicator lamp to flash.

The indicator light can be a tri-color light bar or a tri-color light bead. When the indicator light is a three-color light bar, the first indicator light is a red light bar, the second indicator light is a green light bar, and the third indicator light is a blue light bar. At this time, the first indicator light, the second indicator light and the third indicator light flash only one at the same time, and the first indicator light, the third indicator light and the second indicator light are arranged from high to low according to the priority. I.e. the type of failure is preferentially displayed, secondly the network state, and finally the charging power. That is, when there is a failure, only the red light bar is displayed, and the blue light bar and the green light bar are not displayed.

When the pilot lamp is the three-color lamp pearl, first pilot lamp is red lamp pearl, the second pilot lamp is green lamp pearl, the third pilot lamp is blue lamp pearl, just first pilot lamp, second pilot lamp and third pilot lamp can independently flash simultaneously.

According to the different time of the flicker half area and the extinction half area, 8 control methods can be set, and the specific table is as follows:

wherein:

the first control mode is that the flashing light-on time, the flashing light-off time and the light-off half-zone time are all 0, at this time, the indicator light is not controlled, and the indicator light is kept in an initial state.

The second controllable mode is that the flashing on time and the flashing off time are 0, the off half-time is not 0, and the indicator lamp is in a normally off state.

The third controllable mode is that the flashing lighting time is 0, the flashing lighting time is not 0, the lighting-off half time is 0, and the indicator lamp is in a normally-off state.

And in a fourth controllable mode, the flashing lighting time is 0, the flashing lighting-off time is not 0, the lighting-off half-time is not 0, and the indicator lamp is in a normally-off state.

In a fifth controllable mode, the flashing on time is not 0, the flashing off time is 0, the half-off time is 0, and the indicator lamp is in a normally-on state.

The sixth controllable mode is that the flashing lighting time is not 0, the lighting-off half-time is not 0, the indicator lights are turned on and off alternately to flash, the lamp language period can not be distinguished through observation, and then the flashing times of the indicator lights in one lamp language period can not be counted, so that the flashing times can not be distinguished.

Seventh controllable mode, the time of flashing on is not 0, the time of flashing off is not 0, the time of turning off half area is 0, the indicator lights are turned on and off alternately and flashing, the lamp language period can not be distinguished through observing, and then the number of times of flashing of the indicator lights in one lamp language period can not be counted, so that the number of times of flashing can not be distinguished.

Eighth controllable mode, the time of flashing on is not 0, the time of flashing off is not 0, the time of turning off half-zone is not 0, the indicator lights are turned on and off alternately and flashing, at this moment, the lamp language period can be distinguished through observing, and then the number of times of flashing of the indicator lights in a lamp language period can be counted.

Therefore, when the blinking light-on time, blinking light-off time, and light-off half time are all not zero, the number of blinking times is specified.

In this specific embodiment, when the first indicator light blinks and is normally off, the fault type is no fault; when the first indicator lamp always flashes, the fault type is an emergency stop fault; when the flicker frequency of the first indicator lamp is 1 to 11, the fault types are respectively corresponding to a grounding fault, a CP fault, a leakage fault, an over-temperature fault, an over-voltage fault, an over-current fault, an under-voltage fault, a short circuit fault, a relay adhesion fault, other faults and a metering chip fault.

In this embodiment, when the charging pile is an ac slow charging pile, the number of times of blinking of the second indicator light is 1 to 9 hours, which respectively indicates that the charging power is less than or equal to 1 kw, greater than 1 kw, less than or equal to 2 kw, greater than 2 kw, less than or equal to 3 kw, greater than 3 kw, less than or equal to 4 kw, greater than 4 kw, less than or equal to 5 kw, greater than 5 kw, less than or equal to 6 kw, greater than 6 kw, less than or equal to 7 kw, greater than 7 kw, less than or equal to 11 kw, and greater than 11 kw, less than or equal to 21 kw.

In this embodiment, when the charging pile is an ac fast charging pile, the number of times of blinking of the second indicator light is 1 to 9 hours, which respectively indicates that the charging power is less than or equal to 10 kw, greater than 10 kw, less than or equal to 20 kw, greater than 20 kw, less than or equal to 30 kw, greater than 30 kw, less than or equal to 40 kw, greater than 40 kw, less than or equal to 50 kw, greater than 50 kw, less than or equal to 60 kw, greater than 60 kw, less than or equal to 70 kw, greater than 70 kw, less than or equal to 110 kw, and greater than 110 kw, less than or equal to 210 kw.

In this embodiment, when the third indicator light is normally on, the network state is normal network connection, and when the number of flashes of the third indicator light is 1 to 8, the network state corresponds to a connecting platform, a registration failure of the SIM card, a registration platform failure, a registration platform non-response, a non-4G module, a non-SIM card, an activation failure, and other faults, respectively.

The invention utilizes the fault detection module to detect the fault type and outputs a fault state signal according to the detected fault type by arranging the fault detection module, the charging power detection module, the network state detection module, the indicator light, the lamp language setting module and the lamp language control module; the charging power detection module detects the charging power of the charging pile and outputs a charging power state signal according to the detected charging power; the network state detection module detects a network state and outputs a network state signal according to the detected network state; the indicator lamp comprises a first indicator lamp, a second indicator lamp and a third indicator lamp; the fault lamp language corresponding to the fault type, the power lamp language corresponding to the charging power and the network lamp language corresponding to the network state are set by using a lamp language setting module; the fault lamp language, the power lamp language and the network lamp language all comprise the time of the lamp language period, the time of the flicker half area, the time of the extinction half area and the flicker times, each lamp language period comprises the flicker half area and the extinction half area, and the flicker half area comprises a plurality of flicker periods; the flashing period comprises flashing light time and flashing light-off time; the number of the flicker times is the number of the flicker periods in one lamp language period; and then the lamp language control module is used for receiving the fault state signal, the charging power state signal and the network state signal, and calling the corresponding fault lamp language, the power lamp language and the network lamp language according to the fault state signal, the charging power state signal and the network state signal to respectively drive the first indicator lamp, the second indicator lamp and the third indicator lamp to flash, so that the fault type, the charging power and the network state can be known according to the flash of the first indicator lamp, the second indicator lamp and the third indicator lamp, and the fault type, the charging power and the network state are expressed very intuitively and rapidly, and the maintenance is very convenient.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. Fill electric pile with lamp language function, its characterized in that includes:

the fault detection module detects a fault type and outputs a fault state signal according to the detected fault type;

the charging power detection module is used for detecting the charging power of the charging pile and outputting a charging power state signal according to the detected charging power;

a network state detection module which detects a network state and outputs a network state signal according to the detected network state;

the indicator lamp comprises a first indicator lamp, a second indicator lamp and a third indicator lamp;

a lamp language setting module which is provided with a fault lamp language corresponding to the fault type, a power lamp language corresponding to the charging power and a network lamp language corresponding to the network state;

the fault lamp language, the power lamp language and the network lamp language all comprise the time of the lamp language period, the time of the flicker half area, the time of the extinction half area and the flicker times, each lamp language period comprises the flicker half area and the extinction half area, and the flicker half area comprises a plurality of flicker periods; the flashing period comprises flashing light time and flashing light-off time; the number of the flicker times is the number of the flicker periods in one lamp language period;

the lamp language control module is connected with the fault detection module, the charging power detection module, the network state detection module and the lamp language setting module; and receiving the fault state signal, the charging power state signal and the network state signal, and calling corresponding fault lamp languages, power lamp languages and network lamp languages according to the fault state signal, the charging power state signal and the network state signal to respectively drive the first indicator lamp, the second indicator lamp and the third indicator lamp to flash.

2. The charging pile with a lamp language function according to claim 1, wherein: the first indicator light is a red indicator light, the second indicator light is a green indicator light, and the third indicator light is a blue indicator light.

3. The charging pile with a lamp language function according to claim 2, wherein: the pilot lamp is the trichromatic lamp strip, first pilot lamp is the red lamp strip, the second pilot lamp is the green lamp strip, the third pilot lamp is the blue lamp strip.

4. A charging post with a whistle function according to claim 3, characterized in that: the first indicator light, the second indicator light and the third indicator light flash only one at the same time, and the first indicator light, the third indicator light and the second indicator light are arranged from high to low according to the priority.

5. The charging pile with a lamp language function according to claim 2, wherein: the pilot lamp is the three-color lamp pearl, first pilot lamp is red lamp pearl, the second pilot lamp is green lamp pearl, the third pilot lamp is blue lamp pearl, just first pilot lamp, second pilot lamp and third pilot lamp can independently flash simultaneously.

6. The charging pile with a lamp language function according to claim 1, wherein: the flashing lighting time, the flashing lighting-off time and the lighting-off half-zone time are all not zero and are used for designating the flashing times.

7. The charging pile with a lamp language function according to claim 1, wherein: the first indicator lamp always flashes, and the fault type is an emergency stop fault; when the flicker frequency of the first indicator lamp is 1 to 11, the fault types are respectively corresponding to a grounding fault, a CP fault, a leakage fault, an over-temperature fault, an over-voltage fault, an over-current fault, an under-voltage fault, a short circuit fault, a relay adhesion fault, other faults and a metering chip fault.

8. The charging pile with a lamp language function according to claim 1, wherein: when the charging pile is an alternating current slow charging pile, the flicker frequency of the second indicator lamp is 1 to 9 hours, which respectively and correspondingly indicates that the charging power is less than or equal to 1 kw, more than 1 kw and less than or equal to 2 kw, more than 2 kw and less than or equal to 3 kw, more than 3 kw and less than or equal to 4 kw, more than 4 kw and less than or equal to 5 kw, more than 5 kw and less than or equal to 6 kw, more than 6 kw and less than or equal to 7 kw, more than 7 kw and less than or equal to 11 kw and more than 11 kw and less than or equal to 21 kw.

9. The charging pile with a lamp language function according to claim 1, wherein: when the charging pile is an alternating current quick charging pile, the flicker frequency of the second indicator lamp is 1 to 9 hours, which respectively and correspondingly indicates that the charging power is less than or equal to 10 kilowatts, more than 10 kilowatts and less than or equal to 20 kilowatts, more than 20 kilowatts and less than or equal to 30 kilowatts, more than 30 kilowatts and less than or equal to 40 kilowatts, more than 40 kilowatts and less than or equal to 50 kilowatts, more than 50 kilowatts and less than or equal to 60 kilowatts, more than 60 kilowatts and less than or equal to 70 kilowatts, more than 70 kilowatts and less than or equal to 110 kilowatts and less than or equal to 210 kilowatts.

10. The charging pile with a lamp language function according to claim 1, wherein: and when the flashing times of the third indicator lamp are 1 to 8, the network states are respectively corresponding to the connecting platform, the SIM card registration failure, the registration platform non-response, the 4G non-module, the SIM card non-activation failure and other faults.