CN219478169U

CN219478169U - Dynamic rotary flickering shoe lamp device

Info

Publication number: CN219478169U
Application number: CN202320626603.7U
Authority: CN
Inventors: 何金椿; 何志强; 欧仲平; 苏仁汉; 欧元琴
Original assignee: Putian Chengxiang Furui Technology Electronic Co ltd
Current assignee: Putian Chengxiang Furui Technology Electronic Co ltd
Priority date: 2023-03-27
Filing date: 2023-03-27
Publication date: 2023-08-04
Anticipated expiration: 2033-03-27

Abstract

The utility model discloses a dynamic rotary flashing shoe lamp device, which comprises a control box, a switch board and a display box, wherein the switch board and the display box are connected with the control box through electronic wires; a main control PCB and a power supply battery are arranged in the control box, the main control PCB is integrated with a singlechip, a display driving circuit and a motor driving circuit, and the power supply battery, the display driving circuit and the motor driving circuit are all in control connection with the singlechip; an LED lamp panel and a brushless motor are arranged in the display box, and the LED lamp panel and the brushless motor are electrically connected with a display driving circuit and a motor driving circuit through electronic wires; the LED lamp panel is fixed on the brushless motor. According to the utility model, the LED lamp panel in the display box is driven to perform light display by integrating the display driving circuit and the motor driving circuit in the control box, and the brushless motor drives the LED lamp panel to rotate, so that the shoe has a dynamic rotating flickering effect, and meanwhile, the brushless motor enables the noise of the whole shoe lamp device to be small, the cost is effectively reduced, and the user experience is improved.

Description

Dynamic rotary flickering shoe lamp device

Technical Field

The utility model relates to the technical field of shoe and clothing accessories, in particular to a dynamic rotary flickering shoe lamp device.

Background

Currently, shoe lamp products on the market are popular, and lamp shoes with shoe lamps can be seen at any time and any place.

The existing shoes capable of dynamically displaying the light effect usually have the defects of high noise and high LED lamp demands, are high in cost, need to provide a power supply battery with large reserve, occupy the volume of the shoes and cause poor user experience.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the shoe lamp device capable of dynamically rotating and flashing is capable of effectively reducing cost and improving user experience.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a dynamic rotary flashing shoe lamp device comprises a control box, a switch board and a display box, wherein the switch board and the display box are connected with the control box through electronic wires;

a main control PCB and a power supply battery are arranged in the control box, the main control PCB is integrated with a single chip microcomputer, a display driving circuit and a motor driving circuit, and the power supply battery, the display driving circuit and the motor driving circuit are all in control connection with the single chip microcomputer;

an LED lamp panel and a brushless motor are arranged in the display box, and the LED lamp panel and the brushless motor are electrically connected with the display driving circuit and the motor driving circuit through the electronic wires;

the LED lamp panel is fixed on the brushless motor and can rotate under the drive of the brushless motor.

Further, the display box is composed of a base and an upper shell which are connected in a bayonet and buckle mode to form a closed and transparent shell structure.

Further, a bottom mounting hole is formed in the middle of the base, and a hollow motor fixing column axially extends towards one end of the upper shell from the bottom mounting hole;

the brushless motor comprises a stator component, a shaft component and a rotor component which are sequentially connected, the shaft component comprises a rotating shaft and a shaft clamping ring, the stator component is sleeved and fixed on the motor fixing column, one end of the rotating shaft is fixedly connected with a rotating shaft mounting hole of the rotor component, the other end of the rotating shaft is inserted into the motor fixing column and is clamped with the bottom mounting hole through the shaft clamping ring, and the rotating shaft can relatively rotate with the stator component and the base under the driving of the rotor component;

the LED lamp panel is fixed on one side of the rotor component, which is far away from the base, through screw locking.

Further, the brushless motor also comprises a copper sleeve and a magnetic ring sleeve, and the stator component comprises a motor PCB, a magnetic steel sheet and a coil;

the motor PCB, the magnetic steel sheet and the coil are sequentially connected, a stator mounting hole is formed in the middle of the motor PCB, and the stator component is sleeved and mounted on the motor fixing column through the stator mounting hole;

the motor PCB is also integrated with a Hall device, and is electrically connected with the main control PCB in the control box through the electronic wire;

the copper sleeve is sleeved on the rotating shaft and is inserted into the motor fixing column together with the rotating shaft, and two ends of the copper sleeve in the axial direction are respectively provided with a circle of oil sealing rings;

the magnetic ring sleeve comprises an outer iron ring and an inner magnetic ring, the inner magnetic ring is sleeved on the coil, and the outer iron ring is inserted into the shell of the rotor component.

Further, the LED lamp panel is integrated with a display PCB and a display LED lamp;

the LED lamp panel is provided with a lamp panel mounting hole, and the rotor part is provided with a lamp panel mounting column which is screwed with the lamp panel mounting hole;

the display LED lamp is welded on the display PCB, and the display PCB is electrically connected with the main control PCB in the control box through the electronic wire.

Further, the LED lamp also comprises a side light-emitting plate;

a side plate mounting opening is formed in the position, close to the edge, of the LED lamp panel, and the side light-emitting plate is vertically and fixedly mounted on one side, facing the base, of the LED lamp panel through the side plate mounting opening;

the side light-emitting plate is integrated with a side PCB and a side LED lamp, the side LED lamp is welded on the side PCB, and the side PCB is electrically connected with the main control PCB in the control box through the electronic wire.

Further, a circle of spring mounting groove is formed in one side, facing the upper shell, of the base;

the spring mounting groove and the bottom mounting hole are concentric circles, and the diameter of the spring mounting groove is larger than that of the bottom mounting hole;

and a lamp panel conductive spring and a control signal spring are also fixedly welded in the spring mounting groove.

Further, the switch board comprises an ON/OFF tact switch and a 5V charging connector;

and the main control PCB is also integrated with a charging reverse protection circuit, a charging management circuit and a charging and discharging protection circuit.

Further, a vibration switch is integrated on the main control PCB.

Further, outlets for allowing the electronic wires to pass through are formed in the control box and the display box;

and the wire outlet is filled with resin.

The utility model has the beneficial effects that: the utility model provides a dynamic rotary flickering shoe lamp device, which comprises a control box, a switch board and a display box, wherein the switch board is electrically controlled and connected with the control box, the switch board is used as a switch of the shoe lamp device, a main control PCB board and a power supply battery are arranged in the control box, and a display driving circuit and a motor driving circuit are integrated on the main control PCB board, so that the LED lamp board in the display box is driven to perform light display, the brushless motor drives the LED lamp board to rotate, the shoe is enabled to have a dynamic rotary flickering effect, namely, a circle of dynamic effect can be displayed on the basis of a small quantity of LED lamps, the brushless motor is adopted to enable the noise of the whole shoe lamp device to be small, the whole shoe lamp device is light and thin, the cost is effectively reduced, and the user experience is improved.

Drawings

FIG. 1 is a schematic diagram of a dynamic rotary flashing shoe lamp device according to an embodiment of the present utility model;

FIG. 2 is an exploded view of a display case in the shoe lamp apparatus;

FIG. 3 is a schematic circuit diagram of a dynamic rotary flashing shoe light device according to an embodiment of the present utility model;

fig. 4 is an application diagram of a dynamic rotation flashing shoe lamp device according to an embodiment of the present utility model.

Description of the reference numerals:

01. a control box; 011. a main control PCB board; 012. a charge reverse protection circuit; 013. a charge management circuit; 014. a charge-discharge protection circuit; 015. a vibration switch; 016. a power supply battery; 017. a single chip microcomputer; 018. a motor driving circuit; 019. a display driving circuit; 010. a control housing;

02. an electron beam;

03. a switch board; 031. an ON/OFF tact switch; 032. a 5V charging connector;

04. a display box; 041. a base; 041A, lamp panel conductive spring; 041B, control signal spring; 0411. a bayonet; 0412. a display outlet; 0413. a motor fixing column; 0414. a spring mounting groove; 0415. a bottom mounting hole; 042. a stator component; 0421. a motor PCB board; 0422. a magnetic steel sheet; 0423. a Hall device; 0424. a coil; 0425. a stator mounting hole; 043. a shaft member; 0431. an oil seal ring; 0432. a rotating shaft; 0433. a shaft snap ring; 044. a copper sleeve; 045. a magnetic ring sleeve; 0451. an iron ring; 0452. a magnetic ring; 046. a rotor component; 0461. a lamp panel mounting post; 0462. a shaft mounting hole; 047. a side light emitting panel; 0471. a side PCB board; 0472. a side LED lamp; 048. an LED lamp panel; 0481. displaying a PCB; 0482. displaying an LED lamp; 0483. a lamp panel mounting hole; 0484. a side plate mounting port; 049. an upper case; 0491. a buckle;

05. a shoe body; 051. and (5) silk screen printing of the pattern.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 4, a dynamic rotary flashing shoe lamp device comprises a control box, a switch board and a display box, wherein the switch board and the display box are connected with the control box through electronic wires;

From the above description, the beneficial effects of the utility model are as follows: including control box and the switch board and the display box of being connected with control box electrical control, regard as the switch of shoe lamp device through the switch board, through installation master control PCB board and power supply battery in the control box, and integrated display drive circuit and motor drive circuit on master control PCB board, thereby carry out light display as the LED lamp plate in the drive display box, brushless motor drive LED lamp plate rotates, and then make shoes present the effect that a dynamic rotation was flicked, also can demonstrate round dynamic effect on the basis of a small amount of LED lamps promptly, adopt brushless motor make whole shoe lamp device's noise little, and whole shoe lamp device frivolous, effective reduce cost and improvement user's experience.

According to the description, the display box adopts the mode that the base and the upper shell which are mutually clamped by the bayonet and the buckle are combined to form the shell, so that the convenience in disassembly and assembly of the display box is ensured, and after-sales maintenance is facilitated.

According to the description, the brushless motor is composed of the stator, the shaft and the rotor which are sequentially connected, the motor foundation structure is met, meanwhile, the brushless motor is sleeved with the motor fixing column of the base through the stator part and is fixed, the brushless motor is connected with the motor fixing column in a rotatable clamping mode through the insertion of the rotating shaft, and then the brushless motor is driven by the rotor part to rotate relative to the base, so that the LED lamp panel is driven to display a dynamic rotating flickering effect.

As can be seen from the above description, the brushless motor is provided with the coil and the magnetic steel sheet on the stator, the copper sleeve and the magnetic ring sleeve are matched, the stator component is used as a coil winding center, the rotor component is used as a permanent magnet, and the rotor component is matched with current to generate a uniformly-changed rotating magnetic field, so that the rotation of the motor is realized, the dynamic rotating and flickering effect of the shoe lamp device is more stable and smooth, and the user experience is improved; wherein, when the copper bush is sleeved on the rotating shaft, two ends are respectively sleeved with a circle of oil seal rings, so that the lubricating oil on the copper bush can be effectively prevented from leaking.

According to the description, the LED lamp panel is fixed by screw locking through the mounting hole and the mounting column of the rotor component, so that the LED lamp panel is prevented from falling off in the rotation process driven by the rotor component, meanwhile, the display PCB of the LED lamp panel is electrically controlled and connected with the main control PCB of the control box, and then the display LED lamp is driven to be turned on and off under the display driving circuit in the control box.

Further, the LED lamp also comprises a side light-emitting plate;

According to the above description, the shoe lamp device further comprises the side light-emitting plate, so that the light effect is improved, the user experience is improved, meanwhile, the side light-emitting plate is electrically controlled and connected with the main control PCB in the control box through the side PCB, and the side LED lamp is driven to be turned on and off under the display driving circuit in the control box.

According to the description, the base is further provided with the spring mounting groove for mounting the lamp panel conductive spring and the control signal spring, so that an electronic wire led out from the control box can be directly connected to the two springs under the action of the lamp panel conductive spring and the control signal spring, the lamp panel is further driven to be displayed, and wiring in the display box is reduced.

Further, a vibration switch is integrated on the main control PCB.

As can be seen from the above description, the switch board is composed of an ON/OFF tact switch and a 5V charging connector, wherein the ON/OFF tact switch is used as a main switch to control the operation of the shoe lamp device, and the 5V charging connector can charge the power supply battery in the control box under the actions of the charging reverse protection circuit, the charging management circuit and the charging and discharging protection circuit, so that the shoe lamp device is ensured to be used; in addition, the control box is internally provided with a vibration switch, so that the on-off of the lamp panel in the display box can be controlled through the moving vibration in the walking process of a user, and the experience of the user is further improved.

and the wire outlet is filled with resin.

It can be seen from the above description that, because each circuit on the main control PCB board in the control box needs to be connected with the brushless motor and the LED lamp panel in the display box by an electronic wire, the control box and the display box need to be provided with a wire outlet for wire routing, and meanwhile, the wire outlet is encapsulated by resin, so as to ensure the sealing and protecting effects of the control box and the display box.

The utility model relates to a dynamic rotary flashing shoe lamp device, which is suitable for the scene of lamp effect decoration or embellishment on the surfaces of shoes, clothes and bags, and provides a dynamic rotary flashing lamp effect for the shoes, clothes and bags, and is described below with reference to specific embodiments:

referring to fig. 1 to 4, a first embodiment of the present utility model is as follows:

a dynamic rotary flashing shoe lamp device, as shown in fig. 1 or 3, comprises a control box 01, a switch board 03 connected with the control box 01 through an electronic wire 02 and a display box 04.

In this embodiment, as shown in fig. 1, a main control PCB 011 and a power supply battery 016 are installed in a control box 01, the main control PCB 011 is integrated with a single chip microcomputer 017, a display driving circuit 019 and a motor driving circuit 018, and the power supply battery 016, the display driving circuit 019 and the motor driving circuit 018 are all in control connection with the single chip microcomputer 017; as shown in fig. 2, the display box 04 is internally provided with an LED lamp panel 048 and a brushless motor, the LED lamp panel 048 and the brushless motor are electrically connected with the display driving circuit 019 and the motor driving circuit 018 through the electronic wires 02, and the LED lamp panel 048 is fixed on the brushless motor and can rotate under the drive of the brushless motor.

That is, in this embodiment, through the switch board 03 as the switch of the shoe lamp device, through installing main control PCB 011 and power supply battery 016 in control box 01, and integrated display driving circuit 019 and motor driving circuit 018 on main control PCB 011, thereby as the LED lamp board 048 in the drive display box 04 carry out light display, brushless motor drives LED lamp board 048 and rotates, and then make shoes present a dynamic rotatory flickering effect, namely also can present round dynamic effect on the basis of a small amount of LED lamps, adopt brushless motor make the noise of whole shoe lamp device little, and whole shoe lamp device frivolous, effectively reduce cost and improve user's experience.

As shown in fig. 4, a shoe with a shoe lamp device is shown, wherein the control box 01 can be installed at the bottom of the shoe body 05, and is connected with the display box 04 and the switch board 03 installed on the side surface and the upper surface of the shoe body 05 through the electronic wire 02, so that in the process of using the shoe, a user can conveniently start the power supply battery 016 in the control box 01 to output current through the switch board 03, the control box 01 displays the work of the driving circuit 019 and the motor driving circuit 018 to drive the LED lamp board 048 and the brushless motor, and further presents a dynamic rotary flickering light effect for the shoe body 05, meanwhile, the shoe body 05 is positioned around the display box 04, a plurality of silk-screen patterns 051 can be printed, the cool effect of the shoe body 05 is further increased, and the user experience is improved.

Referring to fig. 1 to 3, a second embodiment of the present utility model is as follows:

in this embodiment, as shown in fig. 2, the display box 04 is combined into a closed and transparent shell structure by connecting a base 041 and an upper shell 049 through a bayonet 0411 and a buckle 0491.

That is, in this embodiment, the display box 04 adopts a manner that the base 041 and the upper shell 049, which are mutually clamped by the bayonet 0411 and the buckle 0491, are combined to form a shell, so that the convenience in dismounting and after-sales maintenance of the display box 04 is ensured.

Wherein, a bottom mounting hole 0415 is arranged in the middle of the base 041, and a hollow motor fixing column 0413 axially extends from the bottom mounting hole 0415 towards one end of the upper shell 049.

Meanwhile, in the present embodiment, the brushless motor includes a stator part 042, a shaft part 043, a copper sleeve 044, a magnetic ring set 045, and a rotor part 046, which are sequentially connected.

As shown in fig. 2, the stator component 042 comprises a motor PCB 0421, a magnetic steel sheet 0422 and a coil 0424, the motor PCB 0421, the magnetic steel sheet 0422 and the coil 0424 are sequentially connected, a stator mounting hole 0425 is formed in the middle of the motor PCB 0421, the magnetic steel sheet 0422 and the coil 0424, the stator component 042 is sleeved on a motor fixing column 0413 through the stator mounting hole 0425, and when in installation, yellow glue can be coated on the surface of the motor fixing column 0413 first, and then the stator component 042 is sleeved in the stator component 042, so that permanent fixation is achieved; in addition, a hall device 0423 is integrated on the motor PCB 0421, and the motor PCB 0421 is electrically connected with a main control PCB 011 in the control box 01 through an electronic wire 02.

The shaft component 043 comprises a rotating shaft 0432 and a shaft snap ring 0433, one end of the rotating shaft 0432 is fixedly connected with a rotating shaft mounting hole 0462 of the rotor component 046, the other end of the rotating shaft 0432 is inserted into the motor fixing column 0413 and is clamped with the bottom mounting hole 0415 through the shaft snap ring 0433, and the rotating shaft 0432 can relatively rotate with the stator component 042 and the base 041 under the driving of the rotor component 046.

The copper bush 044 is inserted into the motor fixing column 0413 together with the rotating shaft 0432 in a mode of being sleeved on the rotating shaft 0432, and two ends of the copper bush 044 in the axial direction are respectively provided with a circle of oil seal rings 0431 so as to prevent lubricating oil on the copper bush 044 from leaking.

The magnetic ring set 045 is composed of an outer iron ring 0451 and an inner magnetic ring 0452, the inner magnetic ring 0452 is sleeved on the coil 0424, the outer iron ring 0451 is inserted into the shell of the rotor component 046, and when the magnetic ring set 045 is installed, yellow glue can be coated on the surface of the outer iron ring 0451, and then the magnetic ring set 045 is inserted into the rotor component 046 to be permanently fixed in the body.

In this embodiment, the brushless motor is composed of a stator, a rotating shaft 0432 and a rotor which are sequentially connected, so as to conform to a motor basic structure, meanwhile, the brushless motor is sleeved with a motor fixing column 0413 of a base 041 through a stator component 042 and is rotatably clamped with the motor fixing column 0413 through the insertion of the rotating shaft 0432, and then the brushless motor rotates relative to the base 041 under the drive of a rotor component 046, so that an LED lamp panel 048 is driven to present a dynamic rotation flickering effect; simultaneously, the brushless motor passes through coil 0424, magnet steel piece 0422 on the stator, cooperation copper sheathing 044 and magnetic ring external member 045, and stator part 042 is as coil 0424 winding hub, and rotor part 046 is as the permanent magnet, and cooperation electric current produces the rotating magnetic field of uniform variation to realize the rotation of motor, make the dynamic rotation of shoe lamp device flash effect more stable smooth and easy, improve user's experience.

Finally, the LED lamp panel 048 is fixed on one side of the rotor component 046 far away from the base 041 by being provided with a lamp panel mounting hole 0483 corresponding to the lamp panel mounting hole 0483 in position on the rotor component 046 and connected by screw locking, meanwhile, the LED lamp panel 048 is integrated with a display PCB 0481 and a display LED lamp 0482, the display LED lamp 0482 is welded on the display PCB 0481, and the display PCB 0481 is electrically connected with a main control PCB 011 in the control box 01 through an electronic wire 02, so that a lamplight effect is displayed under the control of the singlechip 017.

That is, the LED lamp panel 048 is fixed by screw locking through the mounting hole and the mounting post of the rotor component 046, so that the LED lamp panel 048 is ensured not to fall off in the rotation process driven by the rotor component 046, and meanwhile, the display PCB 0481 of the LED lamp panel 048 is electrically controlled and connected with the main control PCB 011 of the control box 01, and then the display LED lamp 0482 is driven to be turned on or off under the display driving circuit 019 in the control box 01.

In addition, as shown in fig. 2, a circle of spring mounting groove 0414 is further formed on one side of the base 041 facing the upper shell 049, the spring mounting groove 0414 and the bottom mounting hole 0415 are concentric circles, the diameter of the spring mounting groove 0414 is larger than that of the bottom mounting hole 0415, and meanwhile, the lamp panel conductive spring 041A and the control signal spring 041B are welded and fixed in the spring mounting groove 0414.

Namely, the base 041 is also provided with a spring mounting groove 0414 for mounting the lamp panel conductive spring 041A and the control signal spring 041B, so that an electronic wire 02 led out from the control box 01 can be directly connected to the lamp panel conductive spring 041A and the control signal spring 041B under the action of the two springs to further display and drive the lamp panel, and wiring in the display box 04 is reduced.

To secure the lamp panel conductive springs 041A and the control signal springs 041B, they may also be secured in the spring mounting slots 0414 by yellow glue and the electrical wires 02 soldered to the LED lamp panels 048 and side-emitting panels 047.

Referring to fig. 1 to 3, a third embodiment of the present utility model is as follows:

in this embodiment, as shown in fig. 2, the shoe lamp device further includes a side light 047 based on the second embodiment.

In the embodiment, a side plate mounting opening 0484 is formed in a position, close to the edge, of the LED lamp panel 048, and the side light-emitting plate 047 is vertically and fixedly arranged on one side, facing the base 041, of the LED lamp panel 048 through the side plate mounting opening 0484; meanwhile, the side light-emitting plate 047 is integrated with a side PCB 0471 and a side LED lamp 0472, the side LED lamp 0472 is welded on the side PCB 0471, and the side PCB 0471 is electrically connected with a main control PCB 011 in the control box 01 through an electronic wire 02, so that a light effect is displayed under the control of the singlechip 017.

That is, in this embodiment, the shoe lamp device further includes a side light-emitting board 047, so as to increase the light effect, improve the user experience, and meanwhile, the side light-emitting board 047 is electrically controlled and connected by the side PCB 0471 and the main control PCB 011 in the control box 01, so that the side LED lamp 0472 is driven to be turned on and off under the display driving circuit 019 in the control box 01.

Meanwhile, in the present embodiment, as shown in fig. 1 and 3, the switch board 03 includes an ON/OFF tact switch 031 and a 5V charging connector 032, and a charging reverse protection circuit 012, a charging management circuit 013, a charging/discharging protection circuit 014 and a vibration switch 015 are also integrated ON the main control PCB 011.

That is, in the present embodiment, the switch board 03 is composed of an ON/OFF tact switch 031 and a 5V charging connector 032, wherein the ON/OFF tact switch 031 controls the operation of the shoe lamp device as a main switch, and the 5V charging connector 032 can charge the power supply battery 016 in the control box 01 under the action of the charge reverse protection circuit 012, the charge management circuit 013 and the charge/discharge protection circuit 014, thereby ensuring the use of the shoe lamp device; in addition, the control box 01 is additionally provided with a vibration switch 015, so that the on-off of the lamp panel in the display box 04 can be controlled through the moving vibration in the walking process of a user, and the experience of the user is further improved.

In addition, in this embodiment, the control box 01 and the display box 04 are both provided with outlets for the electronic wire 02 to pass through, wherein the outlets on the control housing 010 of the control box 01 are not shown in the figure, the outlets on the display box 04 are shown in fig. 2, and a display outlet 0412 is provided on the base 041 to lead out the LED lamp panel 048, the side light-emitting panel 047 and the electronic wire 02 of the brushless motor of the display box 04 into the control box 01 to be connected with the main control PCB.

Meanwhile, in the embodiment, the outlets of the control box 01 and the display box 04 are filled with resin. Namely, as each circuit on the main control PCB 011 in the control box 01 needs to be connected with the brushless motor and the LED lamp panel 048 in the display box 04 through the electronic wire 02, the control box 01 and the display box 04 need to be provided with a wire outlet for wiring, and meanwhile, resin filling and sealing are adopted at the wire outlet, so that the sealing and protecting effects of the control box 01 and the display box 04 are ensured.

It should be noted that, because the control box 01 is installed at the bottom of the shoe, the resin glue can be filled in the control box 01 to increase the anti-impact capability of the control box 01 and prolong the service life of the shoe lamp device.

On this basis, the overall assembly structure sequence in the display case 04 is described as follows:

first, the rotation shaft 0432 and the rotation shaft mounting hole 0462 are mounted and fixed in place;

then, the magnet ring sleeve 045 and the outer shell of the rotor component 046 are installed and fixed in place;

then, the side light-emitting plate 047 and the LED lamp panel 048 are installed;

then, the rotor component 046 with the magnetic ring set 045 and the LED lamp panel 048 with the side light-emitting plate 047 are locked and fixed by screws;

then, the stator component 042 and the electronic wire 02 are welded and then sleeved and fixed on a motor fixing column 0413 on a base 041 of the display box 04;

then, the lamp panel conductive springs 041A and control signal springs 041B are soldered in spring mounting slots 0414 on the base 041 to which the stator component 042 has been mounted;

then, sequentially sleeving an oil seal ring 0431, a copper sleeve 044 and another oil seal ring 0431 on the rotating shaft 0432, finally inserting the rotating shaft 0432 sleeved with the copper sleeve 044 and the two oil seal rings 0431 into a motor fixing column 0413 provided with a stator part 042, a lamp panel conductive spring 041A and a control signal spring 041B, then clamping with a bottom mounting hole 0415 of the base 041 through a shaft clamping ring 0433, and performing a rotating structure test;

finally, after the test of the rotating structure is completed, the clamping buckles 0491 of the upper shell 049 are aligned with the clamping bayonets 0411 of the base 041 for clamping, and the integral installation of the display box 04 is completed.

In summary, the shoe lamp device capable of dynamically rotating and flashing has the following beneficial effects:

1. a small number of LED lamps display a circle of dynamic effect through the rotation of the brushless motor;

2. the motor adopts a brushless motor scheme, so that the noise is low;

3. the device is light and thin, the thickness can be less than 8mm, so the device can be placed on the sole, the shoe side or the vamp and can be made into an independent luminous toy.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims

1. The dynamic rotary flashing shoe lamp device is characterized by comprising a control box, a switch board and a display box, wherein the switch board and the display box are connected with the control box through electronic wires;

2. The dynamic rotating flashing shoe light device of claim 1, wherein the display case is formed by a base and an upper shell combined into a closed and transparent housing structure by means of bayonet and snap connection.

3. The dynamic rotary flashing shoe lamp device according to claim 2, wherein a bottom mounting hole is formed in the middle of the base, and a hollow motor fixing column axially extends from the bottom mounting hole towards one end of the upper shell;

4. A dynamic rotating flashing shoe lamp device according to claim 3, wherein the brushless motor further comprises a copper sleeve and a magnetic ring kit, and the stator component comprises a motor PCB board, magnetic steel sheets and coils;

5. A dynamic rotary flashing shoe light device according to claim 3, wherein the LED light board is integrated with a display PCB board and a display LED light;

6. The dynamic rotating flashing shoe light device of claim 5, further comprising a side light;

7. The dynamic rotating and flashing shoe lamp device according to claim 3, wherein a circle of spring mounting grooves are further formed in one side of the base, which faces the upper shell;

8. A dynamic rotating flashing shoe light device according to claim 1, wherein the switch board comprises an ON/OFF tact switch and a 5V charging connector;

9. The dynamic rotating flashing shoe lamp device according to claim 1, wherein the main control PCB board is further integrated with a vibration switch.

10. The dynamic rotary flashing shoe lamp device according to claim 1, wherein the control box and the display box are provided with outlets for the electronic wire to pass through;

and the wire outlet is filled with resin.