LAWN MOWER

Abstract

The present invention provides a lawn mower comprising a battery system, a walking system and a cutter system. The lawn mower further comprises: a fault detection module, configured to detect if at least one of the battery system, walking system and cutter system has a fault ; a fault determination module, configured to judge the fault level of the detected fault; and a control module, to control the current-limiting or outage of the corresponding battery system, the slowdown or stop of the walking system, as well as the slowdown or stop of the cutter system according to the fault level; compared with the prior art, the invention not only makes the fault detection more intelligent, but also the lawn mower can adjust the working state in real time according to the fault level, thereby improving the working efficiency.

Description

TECHNICAL FIELD

The present invention relates to a lawn mower.

BACKGROUND ART

Lawn mower is a dedicated equipment for mechanically mowing the lawn. Because it is a dedicated equipment, so the lawn mower will have a sharp blade. The sharp blade is in a high-speed rotation state when working. Therefore, in order to ensure safety, the lawn mower must be checked if there is a failure in real time manner, in case the sharp blade is still in high-speed rotation when a fault occurs, and this will cause a danger which is difficult to predict.

At present, when the mower experiences a failure, it is displayed through the instrument panel, reminding the operator to shut down for fault diagnosis, and shutting down directly in serious cases, without automatically detecting the fault and making corresponding actions, the intelligence of the lawn mower is poor.

In view of this, it is indeed necessary to make further improvements to the existing lawn mower to solve the above problems.

SUMMARY OF INVENTION

The object of the present invention is to provide a novel lawn mower which can detect faults and classify the detects faults into different level automatically in order to make corresponding actions based on the fault level.

To achieve the above objectives, the invention provides a lawn mower comprising a battery system, a walking system and a cutter system, and the lawn mower further comprising: a fault detection module, configured to detect if at least one of the battery system, walking system and cutter system has a fault respectively; a fault determination module, configured to judge the fault level of the detected fault; a control module, configured to control the current-limiting or outage of the corresponding battery system, the slowdown or stop of the walking system, as well as the slowdown or stop of the cutter system according to the fault level.

In some embodiments, said lawn mower further comprises a main controller, and said fault determination module and said control module are disposed on said main controller, fault detection module comprises a plurality of fault detection module provided in the battery system, the walking system and the cutter system respectively, to detect faults thereof respectively.

In some embodiments, when said fault detection module detects that said walking system has a fault, said fault detection module sends a fault code to the fault determination module through CAN communication to determine a fault level, and said control module sends a control command to the walking system through CAN communication according to the fault level to control said walking system to slow down or stop.

In some embodiments, when a minor fault occurs in the walking system, said control module sends a speed down command to said walking system through CAN communication to slow down the walking speed; when a severe fault occurs in the walking system, said control module sends a stop command to said cutter system through CAN communication, and simultaneously sends a throttle supply shutdown signal to said walking system, so that the lawn mower is in the mode: stop walking, and the cutter is not running

In some embodiments, when said fault detection module detects that said cutter system has a fault, said fault detection module sends a fault code to the fault determination module through CAN communication to determine a fault level, and said control module sends a control command to the cutter system through CAN communication according to the fault level to control said cutter system to slow down or stop.

In some embodiments, when a minor fault occurs in the cutter system, said control module sends a speed down command to said cutter system through CAN communication to slow down the revolving speed of the cutter; when a severe fault occurs in the cutter system, said control module sends a stop command to said cutter system through CAN communication, so that the lawn mower is in the mode: normal walking, and the cutter is not running.

In some embodiments, said battery system is connected to said main controller through CAN communication to realize real-time transmission of a fault code and a control command, and said battery system has a discharge mode and a charging mode.

In some embodiments, when a minor fault occurs in said battery system in the discharge mode, said control module sends a current limiting command to said battery system, simultaneously sends a speed down command to said walking system, sends a stop command to the cutter system, to make the lawn mower in the mode: low speed walking, and the cutter is not running; when said battery system experiences a severe fault in the discharge mode, said control module sends a power-off command to the battery system, and simultaneously sends a stop command to said cutter system, and sends a throttle supply shutdown signal to said walking system, so that the mower is in the mode: stop walking, and the cutter is not running.

In some embodiments, when said battery system experiences a minor fault in the charging mode, said control module sends a current limiting command to the battery system, and controls a battery to continue charging; when said battery system experiences a severe fault in the charging mode, said control module sends a power-off command to said battery system, and cuts off the charging relay to stop a battery from charging.

In some embodiments, failures of said battery system in the discharge mode include the individual voltage is too low, the individual voltage difference is too high, the discharge temperature is too low, the discharge current is too high, the insulation resistance is too low, the master-slave MCU communication failure, the master-slave MCU hardware failure, and the feedback current is too high; failures of the battery system in the charging mode include the individual voltage is too high, the individual voltage difference is too high, the charging temperature is too high, the charging temperature is too low, the insulation resistance is too low, the master-slave MCU communication failure, and the master-slave MCU hardware failure.

The beneficial effects of the present invention are: as the lawn mower in the invention is provided with a fault detection module, a fault determination module and a control module, so that the lawn mower in the invention can perform automatic detection through a fault detection module, then perform a fault level determination through a fault determination module when the battery system, the walking system or the cutter system of the lawn mower have a fault, so that the control module can control the current-limiting or outage of the corresponding battery system, the slowdown or stop of the walking system, as well as the slowdown or stop of the cutter system; compared with the prior art, the invention not only makes the fault detection more intelligent, but also the lawn mower can adjust the working state in real time according to the fault level, thereby improving the working efficiency.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a control system diagram of the lawn mower of the present invention.

FIG. 2 is a control system diagram of the lawn mower in discharge mode.

FIG. 3 is a control system diagram of the lawn mower in low power mode.

FIG. 4 is a flow diagram of the lawn mower in charging mode.

DESCRIPTION OF EMBODIMENTS

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

The invention provides a lawn mower comprising a battery system, a walking system, a cutter system, and a control system for controlling the walking system and the cutter system. The battery system is configured to provide power to a lawn mower; said walking system is configured to drive the lawn mower to perform self-propelling ,and the walking system comprises a walking wheel and a self-propelled motor for driving the walking wheel to self-propelled; said cutter system includes a cutter and a cutter motor for driving the cutter to rotate. Of course, said lawn mower further comprises other structures, such as a switch system, a control lever, a casing, etc., and since these structures are prior art, they will not be described in detail herein.

The lawn mower further comprises a fault detection module, a fault determination module and a control module, and the fault detection module, the fault determination module and the control module are electrically connected by CAN communication. The fault detection module is configured to detect if at least one of the battery system, walking system and cutter system has a fault respectively; the fault determination module is configured to judge the fault level of the detected fault; and the control module is configured to control the current-limiting or outage of the corresponding battery system, the slowdown or stop of the walking system, as well as the slowdown or stop of the cutter system according to the fault level.

It should be noted that, in this embodiment, the fault level is divided into a minor fault and a severe fault. Under a minor fault, the control module controls the battery system to limit the current, the walking system to reduce the speed by 20-80%, and the cutter system to reduce the speed by 20-80%. However, it does not affect the work of the entire mower; under severe faults, the control module controls the battery system to be powered off, the walking system to stop, the cutter system to stop, and the entire mower to stop working. Of course, the fault level may also include a medium fault. In this case, the working state of the lawn mower can be adjusted only by limiting the control command issued by the control module; at the same time, the ratio of the speed reduction of the walking system and the cutter system can be arbitrarily selected. There are no restrictions here.

Preferably, fault detection module comprises a plurality of fault detection module provided in the battery system, the walking system and the cutter system respectively, to detect faults thereof respectively; The fault determination module and the control module are provided in the control system to adjust/control the working state of the battery system, the walking system, and the cutter system.

Referring to FIG. 1, the control system comprises a main controller, a slave controller and a cutter controller respectively connected to the main controller through CAN communication, and the fault determination module and the control module are disposed on the main controller. Specifically, the slave controller corresponds to the walking system, and the slave controller is configured to collect the state of the first self-propelled motor and the fault of the walking system in real time , and send the fault information to the control module in real time. The cutter controller corresponds to the cutter system, and the cutter controller is configured to collect the state of the cutter motor and the fault of the cutter system in real time, and send the fault information to the control module in real time. As the control core of the mower, the main controller is responsible for real-time acquisition of the state of the second self-propelled motor and the failure of the walking system, and on the other hand, collecting information of the battery system, the slave controller and the cutter controller, and the main controller will send the control command and status information to the cutter controller, the slave controller and the instrument after processing, to realize the running or stopping of the walking system and the cutter system, and also realize the real-time display of the whole machine state, and then realize the systematic protection of the whole machine.

When the fault detection module detects that the walking system has a fault, the fault detection module sends a fault code to the fault determination module through CAN communication to determine a fault level, and said control module sends a control command to the walking system through CAN communication according to the fault level to control the walking system to slow down or stop. Specifically, when a minor fault occurs in the walking system, the control module sends a speed down command to the walking system through CAN communication, the walking system reduces the walking speed by 20-80% according to the speed down command; when a severe fault occurs in the walking system, the control module sends a stop command to the cutter controller through CAN communication, the main controller and the slave controller close the throttle supply signal respectively, so that the walking speed of the mower is reduced to 0, and the electromagnetic brake 1 and electromagnetic brake 2 are released, at this time, the mower is in the mode: stop walking, and the cutter is not running

The faults of the walking system include the failure of the main controller and/or the slave controller and the fault of the self-propelled motor. The faults of the self-propelled motor mainly include the over temperature of the motor, the stall of the motor, the abnormality of the encoder of the motor, and the open circuit of the motor; The main controller fault is the same as the slave controller fault, which mainly includes the controller's own fault and the user-defined fault. The controller's own fault mainly includes the working voltage abnormality, the working temperature abnormality, the motor overcurrent, the precharge abnormality, the input abnormality, the output abnormality and the communication abnormality; user-defined faults are mainly the additional protection functions based on the needs of the whole machine.

When the fault detection module detects that the cutter system has a fault, the fault detection module sends a fault code to the fault determination module through CAN communication to determine a fault level, and said control module sends a control command to the cutter system through CAN communication according to the fault level to control the cutter system to slow down or stop. Specifically, when a minor fault occurs in the cutter system, the control module sends a speed down command to the cutter system through CAN communication, the cutter system reduces revolving speed of the cutter by 20-80% according to the speed down command; when a severe fault occurs in the cutter system, the control module sends a stop command to the cutter controller through CAN communication, so that the lawn mower is in the mode: the walking system works normally and the cutter system does not work. At the same time, the meter displays a fault message to alert the user to troubleshooting.

The faults of the cutter system include the cutter motor fault, the cutter fault and the cutter controller fault. The cutter motor fault mainly includes the motor over temperature, the motor stall, the motor encoder abnormality, the circuit phase open circuit, etc.; the cutter controller fault mainly includes working voltage abnormality, working temperature abnormality, motor overcurrent, MOS tube abnormality, precharge abnormality, CAN communication abnormality and so on.

Since there are a plurality of cutters in the lawn mower, the cutter controller is also provided in plurality so that one cutter controller corresponds to one cutter. When any cutter fails (such as over temperature), the cutter controller can automatically detect and send the fault code to the fault determination module through CAN communication, after which the control module sends a stop command to all cutter controllers, controlling all cutters to stop working, to avoid the situation that the cutters does not work at the same time. At this time, the lawn mower is in the mode: the walking system works normally and the cutter system does not work.

In addition, under normal circumstances, the cutter controller will monitor the cutter speed, current, voltage and other information in real time, and send the information to the main controller in real time. If the main controller doesn't receive the message sent from the cutter controller in 2 s, the main controller can determine that the cutter controller is abnormal in communication, and the control module controls the lawn mower to enter the mode: the walking system works normally and the cutter system does not work.

The battery system is connected to said main controller through CAN communication to realize real-time transmission of a fault code and a control command. Because the battery system is the link between the battery and the user, the main purpose is to improve the utilization of the battery and prevent the battery from being overcharged and over-discharged. Therefore, the battery system has a discharge mode and a charging mode. Because the battery system has a fault self-detection function, so after the battery system receives the power-on signal/charge signal, the fault detection and level determination are automatically performed, and then the fault code is sent to the control module through the CAN communication, and the control module issues a corresponding control command.

Please refer to FIG. 2, in discharge mode, when a minor fault occurs in the battery system, the control module sends a current limiting command to the battery system, simultaneously sends a speed down command to the walking system, sends a stop command to the cutter system, to make the lawn mower in the mode: low speed walking, and the cutter is not running; when a severe fault occurs in the battery system, control module sends a power-off command to the battery system, and simultaneously sends a stop command to the cutter system, and sends a throttle supply shutdown signal to the walking system, so that the mower is in the mode: stopwalking, and the cutter is not running.

Specifically, when a minor fault occurs, the battery system sends a minor fault to the control module of the main controller through CAN communication. After receiving the fault, the control module sends the fault to the slave controller, and then the slave controller controls the corresponding first self-propelled motor and the main controller controls the corresponding second self-propelled motor, and controls the running speeds of the two self-propelled motors to the low speed mode, and the control module sends a stop command to the cutter controller to make the mower in the mode: low-speed walking, and the cutter is not running, thereby reducing the discharge current and preventing other abnormalities from been raised due to the a large discharge current when the battery has a failure.

When a severe fault occurs, the battery system sends the severe fault to the control module of the main controller through CAN communication. After receiving the fault, the control module sends the fault to the slave controller. At this time, the master controller and the slave controller respectively close the throttle supply signal to reduce the walking speed of the mower to 0, release the electromagnetic brake 1 and the electromagnetic brake 2, and the control module sends a stop command to the cutter controller, so that the mower is in the mode: stop walking, and the cutter is not running. And after 15 s, the relay inside the battery is cut off, so that the battery stops outputting.

Failures of said battery system in the discharge mode mainly include the individual voltage is too low, the individual voltage difference is too high, the discharge temperature is too low, the discharge current is too high, the insulation resistance is too low, the master-slave MCU communication failure, the master-slave MCU hardware failure, and the feedback current over high and other major failures; of course, it includes but not limiting to the above failures.

Please refer to FIG. 3, in the discharge mode, the battery system also has low-power protection function. Low-power protection mainly means that when the battery is in low power status, the mower reduces the operation power, and meter displays the battery power and flashes to remind the user to charge in time to prevent the mower from unable to walk due to excessive use, and prevent the battery from over-discharging, which affects the service life.

Low power of the battery is mainly divided into two grades, the high grade is 5% rated capacity of the battery, and the low grade is 2% of the rated capacity of the battery. When the remaining capacity of the battery is ≤5%, the control module of the main controller sends a low speed command to the cutter controller through CAN communication to slow down the cutter, and simultaneously sends a low speed command to the slave controller to reduce the walking speed. At the moment, the meter is flashing and the mower is in low power mode. When the remaining capacity of the battery is ≤2%, the control module of the main controller sends a low speed command to the slave controller through CAN communication to make the walking system remain in low speed status, and simultaneously sends a stop running command to the cutter controller to make the cutter stall. Thereby, the power consumption of the mower is further reduced, and the meter power is flashing, and the mower is in a charging preparation state.

Please refer to FIG. 4, in the charging mode, when said battery system experiences a minor fault, the control module sends a current limiting command to the battery system, and controls a battery to continue charging; when the battery system experiences a severe fault, the control module sends a power-off command to the battery system, and cuts off the charging relay to stop a battery from charging.

Failures of said battery system in the charging mode mainly include the individual voltage is too high, the individual voltage difference is too high, the charging temperature is too high, the charging temperature is too low, the insulation resistance is too low, the master-slave MCU communication failure, the master-slave MCU hardware failure and other major failures.

In the charging mode, the battery system also has a heating protection function at low temperatures. The heating protection at low temperature is mainly to improve the temperature inside the battery by the heating module to reduce damage to the battery core due to low temperature charging, thereby prolonging the service life of the battery core. When the battery is ready to be charged, if the battery system detects that the lowest temperature in the battery box is higher than 2° C., the battery system sends a charging command to the charger, the charger starts to work, and the battery enters the charging mode; If the battery system detects that the lowest temperature in the battery box is lower than 2° C., the battery system sends a heating command to the charger, and at the same time closes the heating relay, and the battery enters the heating mode; when the temperature inside the battery box reaches 5° C., the battery system sends a charging command to the charger, and the battery enters a mode of charging while heating; when the temperature inside the battery box reaches 10° C., the charger enters the charging mode, the battery system disconnects the heating relay, closes the negative relay and the charging relay, and the battery enters the charging mode.

It should be noted that when the battery is ready to be charged, if it is detected that the lowest temperature in the battery box is higher than 2° C., it means that the external temperature at this time is suitable, and the charging mode can be directly entered. If it is detected that the lowest temperature in the battery box is lower than 2° C., it means that the external temperature at this time is very low, such as minus ten degrees, so the charger needs to be heated first, and the charger does not enter the charging mode at this time; when the temperature in the battery box reaches 2° C. (or 5° C.), if the heating is stopped at this time, the temperature in the battery box will directly drop below 2° C., thereby damaging the life of the battery, so it is necessary to continue heating the charger to ensure that the temperature does not drop, at this time the charger is charged while heating; when the temperature in the battery box reaches 10° C., it means that the temperature of the battery at this time is balanced with the external temperature. It is not necessary to continue heating, and the battery directly enters the charging mode.

In the present invention, taking the battery system as an example, for the level determination of minor faults and severe faults, please refer to the following table. When the battery status reaches the alarm threshold of each level and continues to exceed the “alarm delay”, the battery system will report the corresponding level of alarm; when reporting the first level alarm (corresponding to a severe fault) and continues to exceed the “cutoff delay”, the battery system will turn off the corresponding relay; when the parameter is configured as “/”, the corresponding alarm and cut-off functions are disabled.

Serial		Set	Restore		Alarm	Cutout	Fault
Number	Project	Value	Value	Requirements	Delay	Delay	Level
1	Upper Limit	52	47	Set the upper	2S	/	Minor
	of Discharge			limit of			Fault
	Temperature			temperature
	1 (° C.)			threshold 1,
				alarm, the
				maximum
				discharge
				power is
				reduced to 50%
2	Upper Limit	56	/	Set the upper	2S	15S	Severe
	of Discharge			limit of			Fault
	Temperature			temperature
	2 (° C.)			threshold 2,
				alarm, the
				maximum
				discharge
				power is
				reduced to 0%,
				cut off the high
				voltage after
				15s delay
3	Upper Limit	50	45	Set the upper	2S	/	Minor
	of Charging			limit of			Fault
	Temperature			temperature
	1 (° C.)			threshold 1,
				alarm
4	Upper Limit	56	/	Set the upper	2S	15S	Severe
	of Charging			limit of			Fault
	Temperature			temperature
	2 (° C.)			threshold 2,
				alarm, the
				maximum
				feedback
				power is
				reduced to 0%
5	Lower Limit	−15	−10	Set the lower	2S	/	Minor
	of Discharge			limit of			Fault
	Temperature			temperature
	1 (° C.)			threshold 1,
				alarm, the
				maximum
				discharge
				power is
				reduced to 50%
6	Lower Limit	−20	/	Set the lower	2S	15S	Severe
	of Discharge			limit of			Fault
	Temperature			temperature
	2 (° C.)			threshold 2,
				alarm, the
				maximum
				discharge
				power is
				reduced to 0%,
				cut off the high
				voltage after
				15s delay
7	Lower Limit	5	10	Set the lower	5S	/	Minor
	of Charging			limit of			Fault
	Temperature			temperature
	1 (° C.)			threshold 1,
				alarm
8	Lower Limit	2	/	Set the lower	5S	1S	Severe
	of Charging			limit of			Fault
	Temperature			temperature
	2 (° C.)			threshold 2,
				alarm, the
				maximum
				charging power
				is reduced to
				0%, cut off the
				charging loop
				after 1s delay
9	Individual	0.5	0.3	The maximum	2S	/	Minor
	voltage			voltage			Fault
	difference is			imbalance
	too high 1			value allowed
	(V)			between all
				cabinets 1,
				alarm, the
				maximum
				discharge
				power is
				reduced to
				50%.
10	Individual	0.7	/	The maximum	2S	15S	Severe
	Voltage			voltage			Fault
	difference is			imbalance
	too high 2			value allowed
	(V)			between all
				cabinets 2,
				alarm, the
				maximum
				discharge
				power is
				reduced to 0%,
				cut off the high
				voltage after
				15s delay
11	Battery	12	7	The maximum	2S	/	Minor
	temperature			temperature			Fault
	difference is			imbalance
	too large 1			value allowed
	(° C.)			between all
				cabinets 1,
				alarm, the
				maximum
				discharge
				power is
				reduced to
				50%.
12	Battery	15	/	Alarm, the	2S	15S	Severe
	temperature			maximum			Fault
	difference is			discharge
	too large 2			power is
	(° C.)			reduced to 0%,
				cut off the high
				voltage after
				15s delay
13	Individual	3.65	3.6	The maximum	2S	/	Minor
	voltage is			individual			Fault
	too high 1			voltage
	(V)			allowed in the
				battery 1,
				alarm, the
				maximum
				discharge
				power is
				reduced to 50%
14	Individual	3.7	/	The maximum	2S	5S	Severe
	voltage is			individual			Fault
	too high 2			voltage
	(V)			allowed in the
				battery 2,
				alarm, the
				maximum
				discharge
				power is
				reduced to 0%,
				cut off the high
				voltage after 5s
				delay
15	Individual	2.8	/	The minimum	2S	15S	Severe
	voltage is			individual			Fault
	too low 2			voltage
	(V)			allowed in the
				battery 2,
				alarm, the
				maximum
				discharge
				power is
				reduced to 0%,
				cut off the high
				voltage after
				15s delay
16	Charging	35	30	The maximum	2S	/	Minor
	current is too			current allowed			Fault
	high 1 (A)			when charging
				1, alarm, the
				maximum
				charging power
				is reduced to
				50%.
17	Charging	40	/	The maximum	2S	15S	Severe
	current is too			current allowed			Fault
	high 2 (A)			when charging
				2, alarm, the
				maximum
				charging power
				is reduced to
				0%, cut off the
				high voltage
				after 15s delay
18	Discharge	250	200	The maximum	2S	/	Minor
	current is too			current allowed			Fault
	high 1 (A)			when
				discharging 1,
				alarm, the
				maximum
				discharging
				power and
				feedback
				power are
				reduced to
				50%.
19	Discharge	270	/	The maximum	2S	3S	Severe
	current is too			current allowed			Fault
	high 2 (A)			when
				discharging 2,
				alarm, the
				maximum
				discharging
				power is
				reduced to 0%,
				cut off the high
				voltage after 3s
				delay
20	Minor	40	100	Alarm, the	60S	/	Minor
	insulation			maximum			Fault
	faults (KΩ)			discharging
				power and
				feedback
				power are
				reduced to
				80%.
21	Severe	10	/	Alarm, the	60S	15S	Severe
	insulation			maximum			Fault
	fault (KΩ)			discharge
				power and
				feedback
				power is
				reduced to 0%,
				cut off the high
				voltage after
				15s delay, if
				the power is
				being self-
				tested, high
				voltage is not
				allowed.
22	Battery	5s	/	Alarm, the	5S	30S	Severe
	system			maximum			Fault
	internal			discharge
	master-slave			power and
	communication			feedback
	fault			power is
				reduced to 0%,
				cut off the high
				voltage after
				30s delay
23	Battery	2s	/	Alarm, the	2S	15S	Severe
	system self-			maximum			Fault
	test			discharge
	hardware			power and
	fault			feedback
				power is
				reduced to 0%,
				cut off the high
				voltage after
				15s delay
24	Feedback	80	50	The maximum	2S	/	Minor
	current is too			feedback			Fault
	high 1 (A)			current allowed
				when
				discharging 1,
				alarm, the
				maximum
				discharging
				power and
				feedback
				power are
				reduced to
				50%.
25	Feedback	100	/	The maximum	2S	15S	Severe
	current is too			feedback			Fault
	high 2 (A)			current allowed
				when
				discharging 2,
				alarm, the
				maximum
				discharging
				power is
				reduced to 0%,
				cut off the high
				voltage after
				15s delay

Of course, for the determination rules of the fault level of the walking system and the cutter system, please set by referring to the above table, which is not limited herein.

In conclusion, the beneficial effects of the present invention are: as the lawn mower in the invention is provided with a fault detection module, a fault determination module and a control module, so that the lawn mower in the invention can perform automatic detection through a fault detection module, then perform a fault level determination through a fault determination module when the battery system, the walking system or the cutter system of the lawn mower have a fault, so that the control module can control the current-limiting or outage of the corresponding battery system, the slowdown or stop of the walking system, as well as the slowdown or stop of the cutter system; compared with the prior art, the invention not only makes the fault detection more intelligent, but also the lawn mower can adjust the working state in real time according to the fault level, thereby improving the working efficiency.

The above embodiments are only used to illustrate the technical solutions of the present invention, not for limitation. Although the present invention is described in detail with reference to the preferred embodiments, ordinary technicians in the field should understand that the technical solutions of the present invention may be modified or substituted without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. A lawn mower comprising: a battery system including a battery, a battery box housing the battery, and a battery fault detection module configured to detect faults in the battery system;a walking system including a walking system fault detection module configured to detect faults in the walking system;a cutter system including a cutter system fault detection module configured to detect faults in the cutter system;a fault determination module, communicatively connected to the battery system, walking system, and cutter system fault detection modules, and configured to receive fault codes from the fault detection modules and make fault level determinations; anda control module communicatively connected to the battery system, the walking system, the cutter system, and the fault determination module;wherein, the control module is configured to control the battery system to limit current, to control the walking system to reduce speed by 20-80%, and to control the cutter system to reduce speed by 20-80% when the fault determination module determines that the fault level is minor,the control module is configured to issue control instructions to adjust the speed reduction ratio of the walking system and the cutter system when the fault determination module determines that the fault level is moderate, andthe control module is configured to control the battery system to power off, to control the walking system to stop, and to control the cutter system to stop when the fault determination module determines that the fault level is a serious fault.

2. The lawn mower according to claim 1, wherein the battery system comprises a discharge mode in which the lawn mower is in a low power state when the remaining battery power is less than a first threshold, the lawn mower is in a charge ready state when the remaining battery power is less than a second threshold, and the first threshold is greater than the second threshold.

3. The lawn mower according to claim 1, wherein the battery system comprises a discharge mode in which the lawn mower is in a low power state when the remaining battery power is <5% of rated capacity and the lawn mower is in a charge ready state when the remaining battery power is <2% of rated capacity.

4. The lawn mower according to claim 1, wherein the battery system comprises a charging mode, and when the battery system is in the charging mode, the battery system is in a normal charging mode state when the battery system detects that the minimum temperature inside the battery box is higher than a first temperature preset value.

5. The lawn mower according to claim 4, wherein the first temperature preset value is 2° C.

6. The lawn mower according to claim 1, wherein the battery system further comprises a charging mode with a heating protection function; wherein when the battery is ready to be charged: (i) when the battery system detects that the lowest temperature inside the battery box is lower than a first temperature preset value, the battery enters a heating mode,(ii) when the temperature inside the battery box reaches a second temperature preset value, the second temperature preset value being higher than the first temperature preset value, the battery enters a heating and charging mode, and(iii) when the temperature inside the battery box reaches a third temperature preset value, the third temperature preset value being higher than the second temperature preset value, the battery enters a charging mode.

7. The lawn mower according to claim 6, wherein the first temperature preset value is 2° C. and the third temperature preset value is 10° C.

8. The lawn mower according to claim 1, wherein the cutter system comprises a plurality of cutters, each cutter is configured with a cutter controller, each cutter controller is configured to send fault codes to the fault determination module and to receive control instructions from the control module.

9. A lawn mower comprising: a battery system;a walking system;a cutter system;a fault detection module configured to detect faults in the battery system, the walking system and the cutter system;a fault determination module configured to receive a fault code from the fault detection module and to make a fault level determination; anda control module;wherein the control module is configured to control the battery system to limit current, to control the walking system to reduce speed by 20-80%, and to control the cutter system to reduce speed by 20-80% when the fault determination module determines that the fault level is minor, andthe control module is configured to control the battery system to power off, to control the walking system to stop, and to control the cutter system to stop when the fault determination module determines that the fault level is a serious fault.

10. The lawn mower according to claim 9, wherein the cutter system comprises a plurality of cutters, each cutter is configured with a cutter controller, each cutter controller is configured to send fault codes to the fault determination module and to receive control instructions from the control module.

11. The lawn mower according to claim 9, wherein the battery system comprises a discharge mode in which the lawn mower is in a low power state when the remaining battery power is <5% of rated capacity and the lawn mower is in a charge ready state when the remaining battery power is <2% of rated capacity.

12. The lawn mower according to claim 9, wherein the battery system comprises a charging mode, and when the battery system is in the charging mode, the battery system is in a normal charging mode state when the battery system detects that the minimum temperature inside the battery box is higher than 2° C.

13. The lawn mower according to claim 9, wherein the battery system further comprises a charging mode with a heating protection function; wherein when the battery is ready to be charged: (i) when the battery system detects that the lowest temperature inside the battery box is lower than a first temperature preset value, the battery enters a heating mode,(ii) when the temperature inside the battery box reaches a second temperature preset value, the second temperature preset value being higher than the first temperature preset value, the battery enters a heating and charging mode, and(iii) when the temperature inside the battery box reaches a third temperature preset value, the third temperature preset value being higher than the second temperature preset value, the battery enters a charging mode.

14. The lawn mower according to claim 13, wherein the first temperature preset value is 2° C. and the third temperature preset value is 10° C.

15. A lawn mower comprising: a battery system;a walking system;a cutter system;a fault detection module configured to detect faults and fault levels in the battery system, walking system and cutter system;a fault determination module configured to report an alarm at a corresponding level when an alarm threshold is reached at each fault level of the battery system, the walking system, and the cutter system, and an alarm delay time is continuously exceeded; anda control module configured to control the battery system, the walking system and the cutter system, to cut off corresponding relays when the corresponding alarm level is a serious fault and a cut-off delay time is continuously exceeded.

16. The lawn mower according to claim 15, wherein the serious fault comprises a serious insulation fault of the battery system, and if the serious insulation fault is during a power-up self-test, no high voltage is provided by the battery system.

17. The lawn mower according to claim 15, wherein the serious fault comprises a serious insulation fault of the battery system, and if the serious insulation fault is not during a power-up self-test and the serious insulation fault exceeds a preset continuous cut-off delay time, high voltage is cut off.

18. The lawn mower according to claim 15, wherein the cutter system comprises a plurality of cutters, each the cutter is configured with a cutter controller, each cutter is controller configured to send fault codes to the fault determination module and to receive control instructions from the control module.