CN112602983A - Lighting slippers and control method thereof - Google Patents

Abstract

The invention discloses an illuminating slipper and a control method thereof, wherein the illuminating slipper comprises the following steps: the sole of the lower slipper comprises a lower slipper sole, a fixing groove is arranged at the front end part of the lower slipper sole, a front end pressure sensor is arranged at the front end edge of the lower slipper sole, a rear end pressure sensor is arranged at the rear end edge of the lower slipper sole, a surface mounted device battery and a control PCB are arranged on two sides of the lower slipper sole, a sole pressure sensor is arranged at the front end of the lower slipper sole, and a heel pressure sensor is arranged at the rear end of the lower slipper sole; the upper slipper sole is provided with a second fixing groove, the front end of the upper slipper sole is provided with a front end LED, the rear end of the upper slipper sole is provided with a rear end LED, and the upper slipper sole is fixedly covered on the lower slipper sole; the upper is provided with a front end photosensitive sensor and a rear end photosensitive sensor, and two ends of the bottom of the upper are fixedly arranged in the fixing grooves; and a corresponding control method. The illumination and the electric energy saving in the dark environment are realized for the convenience of users.

Description

Lighting slippers and control method thereof

Technical Field

The invention relates to the field of shoes, in particular to an illuminating slipper and a control method thereof.

Background

The slippers are often used in daily life of people, particularly when people have a rest at night. Generally, people need to go to bed or go to turn on the light to do other things by using a mobile phone or a flashlight when having a rest. Under the condition of not turning on the light, even if the room is familiar in a dark environment, the slippers are difficult to find.

Generally speaking, two children often will make an alarm together before falling asleep to still probably can make an alarm after the head of a family closes the lamp, at this moment under the dark environment children not only be difficult to see the underfoot situation, the head of a family also need turn on the lamp and can observe more clearly whether children fall asleep moreover.

The existing shoes with the lighting function are generally made of noctilucent materials or provided with LED light sources, and the brightness of the shoes made of the noctilucent materials is insufficient, so that the brightness is reduced due to aging of the materials after long-term use; the shoes with the LED lamp sources need to be manually switched on and off in use, so that the shoes are inconvenient to use and waste of electric energy is easily caused.

Therefore, there is a need for a lighting slipper and a control method thereof that can solve one or more of the above problems.

Disclosure of Invention

In order to solve one or more problems in the prior art, the invention provides a pair of lighting slippers. The technical scheme adopted by the invention for solving the problems is as follows: an illuminated slipper, comprising: the sole of the lower slipper, the both sides of front end of the sole of the lower slipper are symmetrically provided with fixed slots, the edge of front end of the sole of the lower slipper is fixedly provided with a front end pressure sensor, the edge of rear end of the sole of the lower slipper is fixedly provided with a rear end pressure sensor, the both sides of the lower slipper are respectively fixedly provided with a patch battery and a control PCB, the sole pressure sensor is arranged at the stress point of the front sole of the lower slipper, and the heel pressure sensor is arranged at the stress point of the heel at the rear end of the sole of the lower slipper;

the upper slipper sole is provided with a second fixing groove matched with the fixing groove, the edge of the front end of the upper slipper sole is provided with a front end LED, the edge of the rear end of the upper slipper sole is provided with a rear end LED, and the upper slipper sole is fixedly covered on the lower slipper sole;

the upper of a shoe, the upper of a shoe upper surface is provided with two mounting grooves, install front end photosensitive sensor and rear end photosensitive sensor in the mounting groove respectively, the both ends fixed mounting of upper of a shoe bottom the fixed slot in the second fixed slot. This is the basis.

Further, the control PCB and the patch battery are arranged at the rear end of the fixing groove, and the distance from the fixing groove is less than 3 centimeters.

Furthermore, the front end pressure sensor is followed the edge of slipper bottom front end is provided with 3 down, rear end pressure sensor is followed the edge of slipper bottom rear end is provided with 3 down, distance between the front end pressure sensor is more than or equal to 1 centimetre, distance between the rear end pressure sensor is more than or equal to 0.7 centimetre.

Furthermore, the front end LED is provided with 2 along the edge of the front end of the upper slipper sole, the rear end LED is provided with 2 along the edge of the rear end of the upper slipper sole, and middle LEDs are arranged on two sides of a heel stress point at the rear end of the upper slipper sole.

Further, the front end LED, the rear end LED and the middle LED are connected in parallel.

Further, the front photosensitive sensor is inclined towards the front end and forms an angle of 5-60 degrees with the horizontal plane, and the rear photosensitive sensor is inclined towards the rear end and forms an angle of 0-30 degrees with the horizontal plane.

Furthermore, the upper slipper sole is pressed on the lower slipper sole through hot melt adhesive, and the upper is fixed on the upper slipper sole and the lower slipper sole through buckles or screws.

And a control method applying the lighting slippers comprises the following steps:

s01, judging the dark environment, wherein the front end photosensitive sensor receives the optical signal of the front end part of the slipper, the rear end photosensitive sensor receives the optical signal of the rear end part of the slipper, and when the front end photosensitive sensor and the rear end photosensitive sensor do not reach the trigger threshold value, the control PCB judges that the slipper is in the dark environment;

s02, judging a bright environment, and when the front end photosensitive sensor and the rear end photosensitive sensor both reach a trigger threshold value, the control PCB judges that the slipper is in the bright environment;

s03, judging a sheltered environment 1, and when the front-end photosensitive sensor reaches a trigger threshold value and the rear-end photosensitive sensor does not reach the trigger threshold value, the control PCB judges that the slippers are in a rear-end sheltered state;

s03, judging a shielded environment 2, and when the front-end photosensitive sensor does not reach a trigger threshold and the rear-end photosensitive sensor reaches the trigger threshold, the control PCB judges that the slippers are in a front-end shielded state;

s04, a treaded state, when the slipper is in any one of a dark environment, a rear end sheltered state and a front end sheltered state, any one or more of the front end pressure sensor and the rear end pressure sensor reach a trigger threshold, and the sole pressure sensor and the heel pressure sensor do not reach the trigger threshold at the same time, the control PCB judges that the slipper is in the treaded state;

s05, a wearing state, wherein when the slipper is in any one of a dark environment, a rear end shielded state and a front end shielded state, the sole pressure sensor and the heel pressure sensor reach a trigger threshold value simultaneously, and the control PCB judges that the slipper is in the wearing state;

s06, judging that the slippers are in the unmanned state by the control PCB when all the pressure sensors do not reach the trigger threshold value, and continuously detecting whether the slippers enter the treaded state or the wearing state when the slippers are in the unmanned state;

s07, wearing illumination, wherein when the control PCB judges that the slipper is in a treaded state, the control PCB controls the front end LED and/or the rear end LED to carry out short-time lighting illumination, when the short-time lighting illumination is finished, the control PCB receives signals again and judges whether the slipper is in the treaded state, the wearing state or the unmanned state and carries out corresponding switching, and if the slipper is continuously in the treaded state, the control PCB maintains the state;

s08, maintaining illumination, wherein when the control PCB judges that the slipper is in a wearing state, the control PCB controls the front end LED and the rear end LED to maintain illumination for a long time;

s09, changing the state to 1, when the slipper is in a wearing illumination state, the control PCB judges whether the slipper enters the wearing state, if the slipper enters the wearing state, the control PCB is switched to a lighting maintaining state, if the slipper enters an unmanned state, the control PCB is switched to an unmanned state, and if the slipper is in a treaded state, the control PCB continues to maintain the current state;

s09, changing the state 2, when the slipper is in the state of maintaining illumination, the control PCB judges whether the user enters the unmanned state, if the user enters the unmanned state, the control PCB is switched to the state of maintaining the unmanned state, and if the slipper is continuously in the wearing state, the control PCB continuously maintains the current state;

and S010, turning off, wherein when the control PCB is switched to an unmanned state from the state transition 1 or the state transition 2, the front-end LED and the rear-end LED are turned off in a short time.

Further, the method also comprises the step of S011, starting, wherein when the control PCB judges that the environment of the slipper is in a dark state, the control PCB starts all the sensors;

s021, energy is saved, when the control PCB judges that the slipper environment is in a bright environment, the control PCB only starts the front end photosensitive sensor and the rear end photosensitive sensor, and all the pressure sensors and all the LEDs are in a closed state.

Further, S071, half open 1, where the control PCB determines that the rear LED in the lighting state is not lit when the slippers are in the stepped state and the front end is shielded; s072, half open 2, the control PCB judges that the front end LED in the lighting state is not lighted when the slipper is in the treaded state and the rear end is shielded.

The invention has the advantages that the lower slipper sole, the upper, the plurality of sensors and other components are connected together through a smart structure, so that when a user steps on the edge of a shoe in a dark environment, the LED on the shoe can continuously illuminate for a period of time, the user can conveniently find and put on the shoe, the shoe can be continuously illuminated when put on the shoe, and meanwhile, the user can quickly judge whether the shoe is in a put-on state or a not put-on state; the cooperation through each sensor can make things convenient for, discern the state of user's all ring edge borders fast, judge whether need throw light on, extinguish automatically after taking off shoes simultaneously, save the electric energy. The practical value of the invention is greatly improved.

Drawings

FIG. 1 is a schematic view of a pair of lighting slippers according to the present invention;

FIG. 2 is an exploded view of a pair of slippers for illumination according to the present invention;

FIG. 3 is a control flow chart of the lighting slippers of the present invention 1;

FIG. 4 is a control flow chart of a lighting slipper of the present invention 2;

FIG. 5 is a control flow chart of a lighting slipper of the present invention 3;

fig. 6 is a control flow chart 4 of the lighting slippers of the present invention.

[ reference numerals ]

101. bottom slipper sole

102. fixed groove

110. front end pressure sensor

111 · rear end pressure sensing sensor

112. sole pressure sensor

113. heel pressure sensor

120. control PCB

130. paster battery

201. go up slipper sole

202. second fixing groove

210. front end LED

211. rear end LED

212 intermediate LED

301. upper

302. mounting groove

303. front end photosensor

304. rear end photosensor.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

As shown in fig. 1-2, the present invention discloses a pair of lighting slippers, which comprises: the sole assembly comprises a lower slipper sole 101, wherein fixing grooves 102 are symmetrically arranged on two sides of the front end part of the lower slipper sole 101, a front end pressure sensor 110 is fixedly arranged on the edge of the front end of the lower slipper sole 101, a rear end pressure sensor 111 is fixedly arranged on the edge of the rear end of the lower slipper sole 101, a surface mounted battery 130 and a control PCB120 are respectively and fixedly arranged on two sides of the lower slipper sole 101, a sole pressure sensor 112 is arranged at a sole stress point at the front end of the lower slipper sole 101, and a heel pressure sensor 113 is arranged at a heel stress point at the rear end of the lower slipper sole 101;

the upper slipper sole 201 is provided with a second fixing groove 202 matched with the fixing groove 102, the edge of the front end of the upper slipper sole 201 is provided with a front end LED210, the edge of the rear end of the upper slipper sole 201 is provided with a rear end LED211, and the upper slipper sole 201 is fixedly covered on the lower slipper sole 101;

an upper 301, upper 301 upper surface is provided with two mounting grooves 302, install front end photosensor 303 and rear end photosensor 304 in the mounting groove 302 respectively, the both ends fixed mounting of upper 301 bottom in fixed slot 102 in the second fixed slot 202.

It should be noted that the patch battery 130, the control PCB120, the sensor and the LED are electrically connected. The front end pressure sensor 110, the rear end pressure sensor 111, the sole pressure sensor 112, and the heel sensor 113 are provided to comprehensively and accurately identify whether a user steps on or wears a shoe, and the plurality of pressure sensors are distinguished such that parameters of each pressure sensor are inconsistent, and generally, instantaneous stress and long-term stress conditions of the set position are related to each other, in order to improve accuracy. For example, the front end pressure sensor 110 disposed at the edge has a high trigger threshold and receives the reset signal of the control PCB120 for a short time (3 to 5 seconds), while the sole pressure sensor 112 has a low trigger threshold and receives the reset signal of the control PCB120 for a long time (10 to 30 seconds). Similarly, the arrangement of the plurality of LEDs is more convenient for lighting the user, and the front end LED210 and the rear end LED211 are arranged on the upper slipper sole 201, so that the illuminating slipper can illuminate for walking and can illuminate for wearing shoes.

Note that waterproofing is performed when the respective components are attached and connected.

Specifically, as shown in fig. 2, the control PCB120 and the patch battery 130 are disposed at the rear end of the fixing groove 102, and are spaced apart from the fixing groove 102 by a distance of less than 3 cm. The control PCB120 and the patch battery 130 are disposed between the ball of the foot and the heel, so that the user's discomfort when wearing the shoe can be reduced.

Specifically, as shown in fig. 2, the front end pressure sensors 110 are provided with 3 along the edge of the front end of the lower slipper sole 101, the rear end pressure sensors 111 are provided with 3 along the edge of the rear end of the lower slipper sole 101, the distance between the front end pressure sensors 110 is greater than or equal to 1 cm, and the distance between the rear end pressure sensors 111 is greater than or equal to 0.7 cm. The number of the front end LEDs 210 is 2 along the edge of the front end of the upper slipper sole 201, the number of the rear end LEDs 211 is 2 along the edge of the rear end of the upper slipper sole 201, and middle LEDs 212 are arranged on two sides of a heel stress point at the rear end of the upper slipper sole 201. The method has the effect that under the condition of ensuring the identification accuracy, the cost is reduced by reducing the number of sensors.

It is noted that, as shown in fig. 2, the front photosensor 303 is inclined toward the front and forms an angle of 5 to 60 degrees with the horizontal plane, and the rear photosensor 304 is inclined toward the rear and forms an angle of 0 to 30 degrees with the horizontal plane. The effect is, be convenient for photosensitive sensor receives the light signal at slippers both ends to be convenient for judge slippers and be in by the state of sheltering from, and whether the environment is the dark.

As shown in fig. 3-6, and a control method for applying the above lighting slippers, it includes:

s01, judging dark environment, wherein the front end photosensitive sensor 110 receives an optical signal of the front end part of the slipper, the rear end photosensitive sensor 111 receives an optical signal of the rear end part of the slipper, and when both the front end photosensitive sensor 110 and the rear end photosensitive sensor 111 do not reach a trigger threshold value, the control PCB120 judges that the slipper is in the dark environment;

s011, starting, wherein when the control PCB120 judges that the environment of the slippers is in a dark state, the control PCB120 starts all the sensors;

s02, judging a bright environment, and when the front end photosensitive sensor 110 and the rear end photosensitive sensor 111 both reach a trigger threshold, the control PCB120 judges that the slippers are in the bright environment;

s021, energy is saved, when the control PCB120 judges that the slipper environment is in a bright environment, the control PCB120 only starts the front end photosensitive sensor 110 and the rear end photosensitive sensor 111, and all the pressure sensors and all the LEDs are in a closed state;

s03, judging a sheltered environment 1, and when the front-end photosensitive sensor 110 reaches a trigger threshold and the rear-end photosensitive sensor 111 does not reach the trigger threshold, the control PCB120 judges that the slippers are in a rear-end sheltered state;

s03, judging a shielded environment 2, and when the front-end photosensitive sensor 110 does not reach a trigger threshold and the rear-end photosensitive sensor 111 reaches the trigger threshold, the control PCB120 judges that the slippers are in a front-end shielded state;

s04, in a step-on state, when the slippers are in any one of a dark environment, a rear-end blocked state and a front-end blocked state, any one or more of the front-end pressure sensor 110 and the rear-end pressure sensor 111 reach a trigger threshold, and the sole pressure sensor 112 and the heel pressure sensor 113 do not reach the trigger threshold at the same time, the control PCB120 determines that the slippers are in the step-on state;

s05, in a wearing state, when the slippers are in any one of a dark environment, a rear-end blocked state and a front-end blocked state, the sole pressure sensor 112 and the heel pressure sensor 113 reach a trigger threshold simultaneously and last for a period of time (2 seconds to 5 seconds), and the control PCB120 determines that the slippers are in the wearing state;

s06, judging that the slippers are in the unmanned state by the control PCB120 when all the pressure sensors do not reach the trigger threshold value, and continuously detecting whether the slippers enter the treaded state or the wearing state by the control PCB120 when the slippers are in the unmanned state;

s07, wearing illumination, when the control PCB120 determines that the slippers are in the treaded state, the control PCB120 controls the front LEDs 210 and/or the rear LEDs 211 to perform short-time lighting illumination, generally lighting for 5 to 10 seconds, when the short-time lighting illumination is finished, the control PCB120 receives the signal again and determines whether the slippers are in the treaded state, the wearing state, or the unattended state, and performs corresponding switching, and if the slippers are continuously in the treaded state, the control PCB maintains the current state;

s071, half opening 1, wherein the control PCB120 judges that the rear end LED211 in the wearing illumination state is not lighted when the slipper is in the treaded state and the front end is shielded;

s072, half open 2, the control PCB120 determines that the front LED210 in the illuminated state is not lit when the slippers are in the treaded state and the rear-end blocked state;

s08, maintaining illumination, wherein when the control PCB120 determines that the slippers are worn, the control PCB120 controls the front LEDs 210 and the rear LEDs 211 to maintain illumination for a long time, and generally, the LEDs are always turned on in this state;

s09, state change 1, when the slippers are in the wearing illumination state, the control PCB120 determines whether the slippers enter the wearing state, if the slippers enter the wearing state, the control PCB120 switches to the illumination maintaining state, if the slippers enter the no-man state, the control PCB120 switches to the no-man state, and if the slippers are in the treaded state, the control PCB continues to maintain the current state;

s09, changing the state 2, when the slipper is in the state of maintaining illumination, the control PCB120 judges whether the user enters the unmanned state, if the user enters the unmanned state, the control PCB120 is switched to the state of maintaining the unmanned state, and if the slipper is continuously in the wearing state, the control PCB is continuously maintained in the current state;

and S010, turning off, wherein when the control PCB120 is switched to an unattended state from the state transition 1 or the state transition 2, the front end LED210 and the rear end LED211 are turned off in a short time, and all LEDs are generally turned off in 3 seconds to 5 seconds.

It should be noted that any two states of S1, S2, and S3 may be switched with each other.

In summary, the lower slipper sole 101, the upper slipper sole 201, the upper 301, the plurality of sensors and other components are connected together through a smart structure, so that when a user steps on the edge of a shoe in a dark environment, the LED on the shoe can continuously illuminate for a period of time, the user can conveniently find and put on the shoe, the shoe can be continuously illuminated when the user puts on the shoe, and meanwhile, whether the shoe is in a putting-on state or a not-on state can be rapidly judged; the cooperation through each sensor can make things convenient for, discern the state of user's all ring edge borders fast, judge whether need throw light on, extinguish automatically after taking off shoes simultaneously, save the electric energy. The practical value of the invention is greatly improved.

The above-described examples merely represent one or more embodiments of the present invention, which are described in greater detail and detail, but are not to be construed as limiting the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the spirit of the invention, which falls within the scope of the invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An illuminating slipper, comprising: the sole of the lower slipper, the both sides of front end of the sole of the lower slipper are symmetrically provided with fixed slots, the edge of front end of the sole of the lower slipper is fixedly provided with a front end pressure sensor, the edge of rear end of the sole of the lower slipper is fixedly provided with a rear end pressure sensor, the both sides of the sole of the lower slipper are respectively fixedly provided with a patch battery and a control PCB, the sole pressure sensor is arranged at the stress point of the front sole of the lower slipper, and the heel pressure sensor is arranged at the stress point of the rear end of the sole of the lower slipper;

the upper slipper sole is provided with a second fixing groove matched with the fixing groove, the edge of the front end of the upper slipper sole is provided with a front end LED, the edge of the rear end of the upper slipper sole is provided with a rear end LED, and the upper slipper sole is fixedly covered on the lower slipper sole;

the upper of a shoe, the upper of a shoe upper surface is provided with two mounting grooves, install front end photosensitive sensor and rear end photosensitive sensor in the mounting groove respectively, the both ends fixed mounting of upper of a shoe bottom the fixed slot in the second fixed slot.

2. The lighted slipper of claim 1, wherein the control PCB and the patch battery are disposed at a rear end of the securing slot and are less than 3 cm from the securing slot.

3. The lighted slipper of claim 1, wherein there are 3 front pressure sensors along the edge of the front end of the lower slipper sole, 3 rear pressure sensors along the edge of the rear end of the lower slipper sole, the distance between the front pressure sensors being greater than or equal to 1 cm, the distance between the rear pressure sensors being greater than or equal to 0.7 cm.

4. The lighting slippers of claim 1, wherein there are 2 said front LEDs along the edge of the front end of said upper slipper sole, 2 said rear LEDs along the edge of the rear end of said upper slipper sole, and a middle LED on each side of the heel stress point of the rear end of said upper slipper sole.

5. The lighted slippers of claim 4, wherein said front LEDs, said rear LEDs and said middle LEDs are connected in parallel.

6. The lighted slipper of claim 1, wherein the front light sensitive sensor is angled toward the front and at an angle of between 5 degrees and 60 degrees from horizontal, and the rear light sensitive sensor is angled toward the rear and at an angle of between 0 degrees and 30 degrees from horizontal.

7. The lighting slipper of claim 1, wherein the upper slipper sole is laminated to the lower slipper sole by hot melt adhesive, and the upper is fastened to the upper slipper sole and the lower slipper sole by fasteners or screws.

8. A control method using the lighting slippers of any one of claims 1-7, comprising:

s01, judging the dark environment, wherein the front end photosensitive sensor receives the optical signal of the front end part of the slipper, the rear end photosensitive sensor receives the optical signal of the rear end part of the slipper, and when the front end photosensitive sensor and the rear end photosensitive sensor do not reach the trigger threshold value, the control PCB judges that the slipper is in the dark environment;

s02, judging a bright environment, and when the front end photosensitive sensor and the rear end photosensitive sensor both reach a trigger threshold value, the control PCB judges that the slipper is in the bright environment;

s03, judging a sheltered environment 1, and when the front-end photosensitive sensor reaches a trigger threshold value and the rear-end photosensitive sensor does not reach the trigger threshold value, the control PCB judges that the slippers are in a rear-end sheltered state;

s03, judging a shielded environment 2, and when the front-end photosensitive sensor does not reach a trigger threshold and the rear-end photosensitive sensor reaches the trigger threshold, the control PCB judges that the slippers are in a front-end shielded state;

s04, a treaded state, when the slipper is in any one of a dark environment, a rear end sheltered state and a front end sheltered state, any one or more of the front end pressure sensor and the rear end pressure sensor reach a trigger threshold, and the sole pressure sensor and the heel pressure sensor do not reach the trigger threshold at the same time, the control PCB judges that the slipper is in the treaded state;

s05, a wearing state, wherein when the slipper is in any one of a dark environment, a rear end shielded state and a front end shielded state, the sole pressure sensor and the heel pressure sensor reach a trigger threshold value simultaneously, and the control PCB judges that the slipper is in the wearing state;

s06, judging that the slippers are in the unmanned state by the control PCB when all the pressure sensors do not reach the trigger threshold value, and continuously detecting whether the slippers enter the treaded state or the wearing state when the slippers are in the unmanned state;

s07, wearing illumination, wherein when the control PCB judges that the slipper is in a treaded state, the control PCB controls the front end LED and/or the rear end LED to carry out short-time lighting illumination, when the short-time lighting illumination is finished, the control PCB receives signals again and judges whether the slipper is in the treaded state, the wearing state or the unmanned state and carries out corresponding switching, and if the slipper is continuously in the treaded state, the control PCB maintains the state;

s08, maintaining illumination, wherein when the control PCB judges that the slipper is in a wearing state, the control PCB controls the front end LED and the rear end LED to maintain illumination for a long time;

s09, changing the state to 1, when the slipper is in a wearing illumination state, the control PCB judges whether the slipper enters the wearing state, if the slipper enters the wearing state, the control PCB is switched to a lighting maintaining state, if the slipper enters an unmanned state, the control PCB is switched to an unmanned state, and if the slipper is in a treaded state, the control PCB continues to maintain the current state;

s09, changing the state 2, when the slipper is in the state of maintaining illumination, the control PCB judges whether the user enters the unmanned state, if the user enters the unmanned state, the control PCB is switched to the state of maintaining the unmanned state, and if the slipper is continuously in the wearing state, the control PCB continuously maintains the current state;

and S010, turning off, wherein when the control PCB is switched to an unmanned state from the state transition 1 or the state transition 2, the front-end LED and the rear-end LED are turned off in a short time.

9. The control method of the lighting slippers of claim 8, further comprising, S011, turning on, wherein when the control PCB determines that the slipper environment is in a dark state, the control PCB turns on all the sensors;

s021, energy is saved, when the control PCB judges that the slipper environment is in a bright environment, the control PCB only starts the front end photosensitive sensor and the rear end photosensitive sensor, and all the pressure sensors and all the LEDs are in a closed state.

10. The control method of the lighting slippers as claimed in claim 8, further comprising, S071, half open 1, said control PCB determining that the rear end LED in the lighting state is not lit when the slippers are in the treaded state and the front end is blocked;

s072, half open 2, the control PCB judges that the front end LED in the lighting state is not lighted when the slipper is in the treaded state and the rear end is shielded.

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