CN217722799U - Luminous shoes with LED light-emitting component circuit - Google Patents

Abstract

The embodiment of the utility model relates to a luminous shoes with LED light-emitting component circuit, LED light-emitting component circuit includes rechargeable battery, switch, LED lamp, controller, acoustic control switch and the interface that charges, rechargeable battery is the power supply of LED light-emitting component circuit, the interface that charges is connected with rechargeable battery, the interface that charges provides the port that charges for rechargeable battery; the power switch controls the on and off of the LED light-emitting component circuit; the sound control switch is connected with the controller; the controller is connected with the LED lamp and prompts the LED lamp to emit light after the power switch is closed and a trigger signal sent by the voice control switch is received; the power switch is integrated with other components. The utility model provides a luminous shoes with LED light-emitting component circuit is through integrating switch and other parts to can effectively reduce connecting wire quantity, effectively improve the circuit layout situation.

Description

Luminous shoes with LED light-emitting component circuit

Technical Field

The utility model belongs to the technical field of wearing equipment, concretely relates to luminous shoes with LED light-emitting component circuit.

Background

The luminous shoes are deeply loved by parents and children due to the fact that the luminous shoes can generate the visual effect of flicker change by means of the LED lamps, and attract more and more manufacturers to pay attention due to the added value and the market sales volume of the luminous shoes. The LED lamp is generally arranged in the LED light-emitting component circuit, a power supply part, a power switch and a controller, the power supply part supplies power to the whole LED light-emitting component circuit, the power switch controls the LED light-emitting component circuit to be switched on and off, the controller controls the LED lamp to emit light or not, meanwhile, the LED lamp and the environment are interactive, the LED lamp can be matched with the voice control switch to be used, a trigger signal is sent out when the voice control switch collects environmental sounds, and the controller controls the LED lamp to emit light based on the trigger signal. The applicant finds that in the LED light-emitting component circuit of the existing light-emitting shoe, the power switch and the sound control switch are separately arranged, so that the occupied volume is large, and the assembly process is complex; in addition, the LED lamp, the power supply part, the power switch, the controller, the sound control switch and the like need to be connected through a circuit to form a conductive loop, so that the number of connecting wires of the light-emitting shoe is large, and the circuit layout is disordered.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems of more circuits and disordered circuit layout of the luminous shoes, the utility model provides a luminous shoe with an LED luminous component circuit, which effectively reduces the occupied volume and the assembly complexity by integrating a power switch and other components; and the number of connecting wires can be effectively reduced, and the circuit layout condition can be effectively improved.

The embodiment of the utility model provides a luminous shoes with LED light-emitting component circuit, LED light-emitting component circuit includes rechargeable battery, switch, LED lamp, controller, acoustic control switch and the interface that charges, wherein, rechargeable battery is for LED light-emitting component circuit power supply, the interface that charges is connected with rechargeable battery, the interface that charges provides the port that charges for rechargeable battery; the power switch controls the on and off of the LED light-emitting component circuit; the voice control switch is connected with the controller, and the voice control switch collects environmental sounds and sends a trigger signal when the collected environmental sounds reach a set threshold value; the controller is connected with the LED lamp and prompts the LED lamp to emit light after the power switch is closed and the trigger signal sent by the voice control switch is received;

the power switch and the voice-operated switch are integrated in a first sheet switch, and a connecting wire led out of the first sheet switch after integration is used as a connecting wire of the power switch and the voice-operated switch; or the power switch and the charging interface are integrated in a second sheet switch, and a connecting wire led out of the second sheet switch after integration is used as a connecting wire of the power switch and the charging interface; or the power switch, the voice-operated switch and the charging interface are integrated in a third sheet switch, and a connecting wire led out of the third sheet switch after integration is used as a connecting wire of the power switch and the voice-operated switch.

In some embodiments, the second sheet switch and the voice-activated switch can be located in different areas of the lighted shoe.

In some embodiments, the voice-activated switch is a microphone, and the microphone is arranged at a position protruding outwards from the surface of the luminous shoe; and/or the presence of a gas in the gas,

the power switch is a press switch which is arranged at the position of the surface of the luminous shoe, which is concave outwards.

In certain embodiments, the LED lamp is a plurality of LED lamps; the LED lamps are positioned at the position of the luminous shoes corresponding to the heels and are surrounded into a full-surrounding shape or a semi-surrounding shape, and the positions of the luminous shoes corresponding to the heels are made of transparent materials; or the plurality of LED lamps surround the side part of the sole of the luminous shoe and are positioned inside the side part of the sole, and the side part of the sole is made of transparent materials; or the plurality of LED lamps are positioned in the middle of the sole of the luminous shoe and arranged along the front and back direction of the sole, and the sole is made of transparent materials.

In some embodiments, the LED light assembly circuit further comprises a circuit board disposed inside the light emitting shoe and proximate a rear of the light emitting shoe; the LED lamp is electrically connected with the circuit board, the LED lamp is positioned on the circuit board or positioned on the outer side of the circuit board, when the LED lamp is packaged, a first surface, facing the outside of the luminous shoe, of the LED lamp is a light-transmitting surface, and the rest surfaces of the LED lamp are provided with light-shading reflecting layers.

In some embodiments, the light-shielding reflective layer comprises a first light-shielding reflective layer directly on the remaining surface of the LED lamp.

In some embodiments, the LED light emitting assembly further includes a package assembly including an upper package assembly and a lower package assembly, wherein the accommodating space of the upper package assembly matches with the shape of one side of the circuit board and the LED lamp, and the accommodating space of the lower package assembly matches with the shape of the other side of the circuit board and the LED lamp.

In some embodiments, the light-shielding reflection layer includes a second light-shielding reflection layer at a position where the upper package member and the lower package member each correspond to the remaining surface of the LED lamp.

In some embodiments, the light-shielding reflection layer includes a first light-shielding reflection layer and a second light-shielding reflection layer, the second light-shielding reflection layer is located at a position of the lower package component corresponding to the lower surface of the LED lamp, the accommodating space of the lower package component matches with the shapes of the circuit board and the LED lamp, and the first light-shielding reflection layer is directly located on the other surfaces of the LED lamp except the lower surface.

In some embodiments, the thickness of the first light-shielding reflection layer or the second light-shielding reflection layer increases with increasing distance from the first surface, or the light transmittance of the first light-shielding reflection layer or the second light-shielding reflection layer decreases with increasing distance from the first surface;

or,

the first shading reflection layer or the second shading reflection layer is a shading reflection coating, and the shading reflection coating is directly coated on the rest surfaces of the LED lamp; or the first shading reflection layer or the second shading reflection layer is a shading reflection sheet, and the shading reflection sheet is adhered to the rest surfaces of the LED lamp.

In some embodiments, the thickness of the first light shielding reflection layer increases with increasing distance from the first surface, or the light transmittance of the first light shielding reflection layer decreases with increasing distance from the first surface;

or,

the first shading reflection layer is a shading reflection coating which is directly coated on the rest surface of the LED lamp; or the first shading reflection layer is a shading reflection sheet, and the shading reflection sheet is adhered to the rest surfaces of the LED lamp.

In some embodiments, the thickness of the second light-shielding reflection layer increases with increasing distance from the first surface, or the light transmittance of the second light-shielding reflection layer decreases with increasing distance from the first surface;

or,

the second shading reflection layer is a shading reflection coating which is directly coated on the rest surface of the LED lamp; or the second shading reflection layer is a shading reflection sheet, and the shading reflection sheet is adhered to the rest surfaces of the LED lamp.

The utility model has the advantages that: the embodiment of the utility model provides a luminous shoes with LED light-emitting component circuit, through integrating switch and acoustic control switch or other parts to can effectively reduce the volume that occupies, assembly process is simple relatively, and can also effectively reduce connecting wire quantity, effectively improve the circuit layout situation.

Drawings

Fig. 1 is a schematic circuit structure diagram of a circuit of an LED light-emitting assembly of a pair of light-emitting shoes provided by the present invention;

fig. 2a is a schematic partial structural view of a first embodiment of a circuit of an LED light-emitting assembly of a pair of light-emitting shoes according to the present invention;

FIG. 2b is a schematic view of a second embodiment of a circuit of an LED light emitting assembly of the light emitting shoe according to the present invention;

fig. 2c is a schematic partial structural view of a third embodiment of the LED light-emitting module circuit of the light-emitting shoe according to the present invention;

fig. 3a is a schematic partial structural view of a fourth embodiment of the LED light-emitting module circuit of the light-emitting shoe according to the present invention;

fig. 3b is a schematic partial structural diagram of a fifth embodiment of the LED light-emitting assembly circuit of the light-emitting shoe of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. However, those skilled in the art will recognize that the present invention is not limited to the figures and the following examples.

As used herein, the term "include" and its various variants are to be understood as open-ended terms, which mean "including, but not limited to. The term "based on" and the like may be understood as "based at least on". The terms "first", "second", etc. are used merely to distinguish different features and have no essential meaning. The terms "inner", "outer", "left", "right", "front", "rear", "middle", and the like are used only to indicate positional relationships between relative objects. The materials mentioned are all known materials.

As described above, the applicant has found that, in the current LED light emitting module circuit, the power switch and the sound control switch are separately arranged, each component needs to occupy a corresponding space, which results in a large occupied volume, and each component needs to be separately assembled, which results in a complicated assembly process; furthermore, the LED lamp, the power supply component, the power switch, the controller, the sound control switch, and the like need to be connected through connecting wires to form a conductive loop, and these connecting wires need to be laid out in the light-emitting shoe, so that the number of connecting wires of the light-emitting shoe is large, and the circuit layout is disordered.

In view of this, the embodiment of the present invention provides a pair of shoes with LED light-emitting assembly circuit, the LED light-emitting assembly circuit can refer to fig. 1, and includes a rechargeable battery, a power switch, an LED lamp, a controller, a voice-operated switch and a charging interface, wherein the rechargeable battery supplies power to the LED light-emitting assembly circuit, the charging interface is connected to the rechargeable battery, and the charging interface provides a port for charging the rechargeable battery; the power switch controls the on and off of the LED light-emitting component circuit; the voice control switch is connected with the controller, and the voice control switch collects environmental sounds and sends a trigger signal when the collected environmental sounds reach a set threshold value; the controller is connected with the LED lamp, and the LED lamp is enabled to emit light after the power switch is switched on and the trigger signal sent by the voice control switch is received.

In a first embodiment, which can be seen with reference to fig. 2a, said power switch 21 and said voice-activated switch 22 are integrated in the first sheet switch 11. In the first embodiment, the power switch and the voice-operated switch are integrated, so that the occupied volume can be effectively reduced, and the assembly complexity can be reduced. In an alternative embodiment, the first sheet switch 11 leads out integrated connection lines, for example three connection lines 31, as the connection lines for the power switch 21 and the voice-activated switch 22. In this alternative embodiment of the first embodiment, the number of connection lines can be reduced, for example, by reducing the original five connection lines to three connection lines, by integrating the power switch and the voice-operated switch in the same sheet switch.

The applicant further finds that the power switch is generally correspondingly provided with a button which is convenient for a user to operate on the surface of the light-emitting shoe, and is generally not expected to be touched randomly to cause misoperation, so the power switch is arranged at a concave position on the surface of the light-emitting shoe; in order to collect sound, the voice-operated switch is generally arranged on the surface of the luminous shoe and is arranged at a position (such as an arc position on the outer side of the shoe) protruding outwards from the surface of the luminous shoe, and if the power switch and the voice-operated switch are integrated into the same sheet switch according to the scheme of the first embodiment, the placement position of the first sheet switch may be difficult to select. If the first sheet switch is arranged at the position protruding outwards on the surface of the luminous shoe for the convenience of sound collection, but the arrangement has the problem that the power switch is mistakenly operated; if the power switch is prevented from being mistakenly operated, the first sheet switch should be placed at a concave position on the surface of the luminous shoe, but the arrangement can affect the sound collecting effect of the sound control switch to cause the sensitivity to be reduced. Based on this, in the second embodiment, as can be seen with reference to fig. 2b, the power switch 21 and the charging interface 23 are integrated in the second sheet switch 12. In the second embodiment, the power switch and the charging interface are integrated, so that the occupied volume can be effectively reduced, and the assembly complexity can be reduced. In an alternative embodiment, the second sheet switch 12 leads out an integrated connection line, for example two connection lines 32, as the connection lines of the power switch 21 and the charging interface 23. In this alternative embodiment of the second embodiment, the number of connecting wires can be reduced by integrating the power switch and the charging interface into the same sheet switch, for example, the original four connecting wires are reduced to two connecting wires, and the power switch can be prevented from being mistakenly operated, and the sound collecting effect of the voice-operated switch is prevented from being affected. Further, for the convenience of discernment, luminous shoes are corresponding switch with surface position department of acoustic control switch generally can set up the part sign, for example luminous shoes are corresponding switch's surface position department sets up the sign of power button, is corresponding the sign of surface position department setting microphone of acoustic control switch, nevertheless because switch with acoustic control switch is integrated in same slice switch, and the interval distance between each other is less, and the user is very easy mistake will acoustic control switch is regarded as switch operates, leads to user experience to feel relatively poor. Therefore, in an alternative embodiment, the second sheet switch 12 and the voice-operated switch 22 can be located in different areas of the light-emitting shoe, and by locating the second sheet switch and the voice-operated switch in different areas of the light-emitting shoe, the user experience can be effectively improved.

In a third embodiment, which can be seen with reference to fig. 2c, the power switch 21, the voice-operated switch 22 and the charging interface 23 are integrated in the third foil switch 13. In the third embodiment, the power switch, the voice-operated switch and the charging interface are integrated, so that the occupied volume can be effectively reduced, and the assembly complexity can be reduced. In an alternative embodiment, the third sheet switch 13 is led out with integrated connection wires, such as three connection wires 33, as the connection wires of the power switch 21, the voice-operated switch 22 and the charging interface 23. In this alternative embodiment of the third embodiment, the number of connection lines can be reduced by integrating the power switch, the voice-operated switch and the charging interface into the same sheet switch, for example, the original seven connection lines are reduced to three connection lines.

In the embodiment, the power switch is integrated with other components, so that the number of connecting wires can be effectively reduced, and the circuit layout condition can be effectively improved.

In an optional embodiment, the voice-operated switch is a microphone, and the microphone is arranged at a position protruding outwards from the surface of the luminous shoe.

In an optional embodiment, the power switch is a push switch, and the push switch is arranged at a position, inwards concave, of the surface of the light-emitting shoe.

In an optional embodiment, the charging interface is a Type-C interface or a USB interface.

In an optional embodiment, the number of the LED lamps is plural, and the plural LED lamps may emit light according to a certain rule, for example, the plural LED lamps are sequentially turned on, turned off, or individually turned on one by one according to an arrangement order, so as to provide different visual effects. In an optional embodiment, the plurality of LED lamps are positioned at the position, corresponding to the heel, of the luminous shoe and surround the luminous shoe into a full-surrounding shape or a semi-surrounding shape, and the position, corresponding to the heel, of the luminous shoe is made of a transparent material. In another optional embodiment, the plurality of LED lamps surround the side portion of the sole of the light-emitting shoe and are located inside the side portion of the sole, and the side portion of the sole is made of a transparent material, so that light emitted by the LED lamps can be transmitted through the first surface of each LED lamp, and the visual effect that the entire sole is transparent is achieved. In still another optional embodiment, the plurality of LED lamps are located in the middle of the sole of the light-emitting shoe and arranged along the front-back direction of the sole, and the sole is made of transparent material, so that the light emitted by the LED lamps can penetrate through the sole in the front-back, left-right, and left directions, and the visual effect of light transmission of the whole sole can be achieved.

In addition, the applicant also finds that the current luminous shoes have no restriction on the luminous direction of the LED lamp, so that the technical problem of low luminous utilization rate exists. Based on this, in the fourth and fifth embodiments, as shown in fig. 3a and 3b, the LED light emitting assembly circuit further includes a circuit board 41, the circuit board 41 is disposed inside the light emitting shoe and near the rear of the light emitting shoe; the LED lamp 42 is electrically connected to the circuit board 41, the LED lamp 42 is located on the circuit board 41 (as shown in fig. 3 a) or located outside the circuit board 42 (as shown in fig. 3 b), when the LED lamp 42 is packaged, a first surface 421 of the LED lamp 42 facing the outside of the light-emitting shoe is set as a light-transmitting surface, and the rest surfaces of the LED lamp are provided with light-shielding reflection layers. In fig. 3a and 3b, the LED lamp is illustrated as a flat rectangular parallelepiped, and only the surfaces 422 and 423 visible in the rest of the surfaces of the LED lamp are labeled according to the view angle provided by fig. 3a and 3b, and those skilled in the art can understand the surface schematic not labeled in the rest of the surfaces of the LED lamp accordingly. Of course, the shape of the LED lamp is not limited to a flat rectangular parallelepiped shape, and the difference in shape does not affect the understanding of the meaning of the first surface of the LED lamp facing the outside of the light-emitting shoe in the present embodiment.

In this embodiment, the first surface of the light-emitting shoe, which encapsulates the LED lamp to face the outside of the light-emitting shoe, is set as a light-transmitting surface, and the rest surfaces are provided with the light-shielding reflection layer, so that a part of light emitted by the LED lamp is directly emitted through the first surface of the LED lamp, and the other part of light is emitted through the first surface after being reflected by the light-shielding reflection layer, thereby enabling light seen from the outside of the light-emitting shoe to be more concentrated, and the visual effect to be more obvious, and therefore, the light-emitting utilization rate of the LED lamp can be effectively improved. In an alternative embodiment, the light blocking reflector layer comprises a semi-transparent layer and/or an opaque layer. When the semi-transparent layer is arranged on the rest surface of the LED lamp, the intensity of light transmitted by the rest surface of the LED lamp is lower than that of light transmitted by the first surface, so that a circle of light ring can be formed around the periphery of the first surface, and a rich visual effect is presented. When the rest surfaces of the LED lamp are provided with the non-light-pervious layers, the light condensation effect is the best. In order to present more varied visual effects, a part of the rest surfaces of the LED lamp may be provided with a semi-transparent layer, and the other part of the surface is provided with a non-transparent layer.

In one embodiment, the light-shading reflecting layer comprises a first light-shading reflecting layer directly located on the rest surface of the LED lamp. It can be understood that the first light shading reflection layer is arranged on the rest surfaces of the LED, so that light of the LED lamp can be emitted out through the first surface in a concentrated mode, and the light transmittance of the LED lamp can be effectively controlled by changing the thickness or light transmittance of the first light shading reflection layer. In an optional embodiment, the thickness of the first light-shielding reflection layer increases with the distance from the first surface, in another optional embodiment, the light transmittance of the first light-shielding reflection layer decreases with the distance from the first surface, and in both optional embodiments, the intensity of light emitted from the rest surfaces of the LED lamp decreases with the distance from the first surface, so that a vignetting visual effect can be formed around the periphery of the first surface. In an alternative embodiment, the first shading reflective layer is a shading reflective coating which is directly coated on the rest surface of the LED lamp; in another optional embodiment, the first shading and reflecting layer is a shading and reflecting sheet, and the shading and reflecting sheet is adhered to the rest surfaces of the LED lamp.

In one embodiment, the light-emitting assembly part further comprises an encapsulation assembly, the encapsulation assembly comprises an upper encapsulation assembly and a lower encapsulation assembly, wherein the accommodating space of the upper encapsulation assembly is matched with the shape of one side of the circuit board and the LED lamp, the accommodating space of the lower encapsulation assembly is matched with the shape of the other side of the circuit board and the LED lamp, and the other side and the one side are opposite to each other, so that the circuit board and the LED lamp can be encapsulated between the upper encapsulation assembly and the lower encapsulation assembly, and the circuit board and the LED lamp are effectively protected; and the packaging assembly is arranged in the upper packaging assembly and the lower packaging assembly, so that the packaging assembly can be conveniently detached and opened, and the circuit board or the LED lamp can be conveniently replaced when in failure; in addition, the upper and lower packaging assemblies are matched with the circuit board and the LED lamp in shape, so that the circuit board and the LED lamp can be effectively positioned, and the circuit board and the LED lamp are prevented from shaking after being packaged. In an optional embodiment, the light shading reflection layer comprises a second light shading reflection layer, and the second light shading reflection layer is positioned at the position of the upper packaging assembly and the position of the lower packaging assembly corresponding to the rest surfaces of the LED lamp respectively, so that when the LED lamp is packaged between the upper packaging assembly and the lower packaging assembly, the light emitted from the rest surfaces of the LED lamp is totally reflected or partially reflected through the second light shading reflection layer. It can be understood that the second light-shielding reflection layer is arranged on the rest surfaces of the LED, so that light of the LED lamp can be emitted through the first surface in a concentrated manner, and the light transmittance of the LED lamp can be effectively controlled by changing the thickness or light transmittance of the second light-shielding reflection layer. In a further alternative embodiment, the thickness of the second light-shielding reflection layer increases with the distance from the first surface, in a further alternative embodiment, the light transmittance of the second light-shielding reflection layer decreases with the distance from the first surface, and in both alternative embodiments, the intensity of the light transmitted out of the rest of the surface of the LED lamp decreases with the distance from the first surface, so that a vignetting visual effect can be formed around the periphery of the first surface. In a further alternative embodiment, the second shading reflective layer is a shading reflective coating which is directly coated on the rest surface of the LED lamp; in another alternative embodiment, the second light-shielding reflection layer is a light-shielding reflection sheet, and the light-shielding reflection sheet is adhered to the rest surface of the LED lamp. It can be understood that, in an optional embodiment, the second light-shielding reflection layer and the first light-shielding reflection layer may be used simultaneously, the light-shielding reflection layer includes a first light-shielding reflection layer and a second light-shielding reflection layer, the second light-shielding reflection layer is located at a position where the lower package component corresponds to the lower surface of the LED lamp, and the first light-shielding reflection layer is directly located on the other surfaces except the lower surface among the other surfaces of the LED lamp.

In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The embodiments of the present invention have been described above. However, the present invention is not limited to the above embodiment. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. A pair of luminous shoes with LED luminous component circuits is characterized in that the LED luminous component circuits comprise rechargeable batteries, a power switch, an LED lamp, a controller, a voice-operated switch and a charging interface, wherein the rechargeable batteries supply power for the LED luminous component circuits, the charging interface is connected with the rechargeable batteries, and the charging interface is provided with a port for charging the rechargeable batteries; the power switch controls the on and off of the LED light-emitting component circuit; the voice control switch is connected with the controller, and is used for collecting environmental sounds and sending a trigger signal when the collected environmental sounds reach a set threshold value; the controller is connected with the LED lamp and prompts the LED lamp to emit light after the power switch is closed and the trigger signal sent by the voice control switch is received;

the power switch and the voice-operated switch are integrated in a first sheet switch, and a connecting wire led out of the first sheet switch after integration is used as a connecting wire of the power switch and the voice-operated switch; or the power switch and the charging interface are integrated in a second sheet switch, and a connecting wire led out of the second sheet switch after integration is used as a connecting wire of the power switch and the charging interface; or the power switch, the voice-operated switch and the charging interface are integrated in a third sheet switch, and a connecting wire led out of the third sheet switch after integration is used as a connecting wire of the power switch and the voice-operated switch.

2. The lighted shoe having an LED lighting assembly circuit in accordance with claim 1, wherein the second sheet switch and the voice activated switch can be located in different areas of the lighted shoe.

3. The illuminated shoe with LED light assembly circuit according to claim 1, wherein the voice-activated switch is a microphone, and the microphone is disposed at a position protruding outward from the surface of the illuminated shoe; and/or the presence of a gas in the atmosphere,

the power switch is a press switch, and the press switch is arranged at a position, inwards concave, on the surface of the luminous shoe.

4. The illuminated shoe with LED light assembly circuit of claim 1, wherein the LED light is a plurality of LED lights; the LED lamps are positioned at the position of the luminous shoes corresponding to the heels and are surrounded into a full-surrounding shape or a semi-surrounding shape, and the positions of the luminous shoes corresponding to the heels are made of transparent materials; or the plurality of LED lamps surround the side part of the sole of the luminous shoe and are positioned inside the side part of the sole, and the side part of the sole is made of transparent materials; or the plurality of LED lamps are positioned in the middle of the sole of the luminous shoe and arranged along the front-back direction of the sole, and the sole is made of transparent materials.

5. The lighted shoe having an LED lighting assembly circuit in accordance with claim 1, further comprising a circuit board disposed inside the lighted shoe and proximate a rear of the lighted shoe; the LED lamp is electrically connected with the circuit board, the LED lamp is positioned on the circuit board or positioned on the outer side of the circuit board, when the LED lamp is packaged, a first surface, facing the outside of the luminous shoe, of the LED lamp is a light-transmitting surface, and the rest surfaces of the LED lamp are provided with light-shading reflecting layers.

6. The luminescent shoe having an LED light assembly circuit as claimed in claim 5, wherein the light-shielding reflective layer comprises a first light-shielding reflective layer directly on the remaining surface of the LED lamp.

7. The pair of shoes with LED light emitting device circuit as claimed in claim 5, wherein the LED light emitting device further comprises a packaging member, the packaging member comprises an upper packaging member and a lower packaging member, wherein the receiving space of the upper packaging member matches with the shape of one side of the circuit board and the LED lamp, and the receiving space of the lower packaging member matches with the shape of the other side of the circuit board and the LED lamp.

8. The illuminated footwear having LED lighting assembly circuitry according to claim 7, wherein the light-blocking reflector layer includes a second light-blocking reflector layer at a location on the upper package member and the lower package member corresponding to the remaining surface of the LED lamp.

9. The pair of shoes with the LED light emitting assembly circuit of claim 7, wherein the light-shielding layer includes a first light-shielding layer and a second light-shielding layer, the second light-shielding layer is located at a position of the lower package assembly corresponding to the lower surface of the LED lamp, the receiving space of the lower package assembly matches with the shapes of the circuit board and the LED lamp, and the first light-shielding layer is directly located on the other surfaces of the LED lamp except the lower surface.

10. The illuminated shoe with LED light assembly circuit according to claim 9, wherein the thickness of the first or second light shading reflective layer increases with increasing distance from the first surface, or the light transmittance of the first or second light shading reflective layer decreases with increasing distance from the first surface;

or,

the first shading reflection layer or the second shading reflection layer is a shading reflection coating, and the shading reflection coating is directly coated on the rest surfaces of the LED lamp; or the first shading reflection layer or the second shading reflection layer is a shading reflection sheet, and the shading reflection sheet is adhered to the rest surfaces of the LED lamp.

11. The luminescent shoe having the LED light assembly circuit as claimed in claim 6, wherein the first light shading reflective layer has a thickness that increases with increasing distance from the first surface, or a light transmittance that decreases with increasing distance from the first surface;

or,

the first shading reflection layer is a shading reflection coating which is directly coated on the rest surface of the LED lamp; or the first shading reflection layer is a shading reflection sheet, and the shading reflection sheet is adhered to the rest surfaces of the LED lamp.

12. The luminescent shoe having the LED light assembly circuit of claim 8, wherein the second light blocking reflective layer has a thickness that increases with increasing distance from the first surface, or a light transmittance that decreases with increasing distance from the first surface;

or,

the second shading reflection layer is a shading reflection coating which is directly coated on the rest surface of the LED lamp; or the second shading reflection layer is a shading reflection sheet, and the shading reflection sheet is adhered to the rest surfaces of the LED lamp.

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