CN211631951U - Interactive luminous shoes - Google Patents

Abstract

The utility model relates to an interactive luminous shoes, include light-emitting component (10) and be detected device (11), light-emitting component (10) include control chip (101), LED luminescence banks (102) and be close detection device (103), light-emitting component (10) with be set up respectively on two shoes of a pair of shoes by detection device (11), it is connected with control chip (101) respectively to be close detection device (103) and LED luminescence banks (102), control chip (101) respond to it detects being close by detection device (11) to be close detection device (103), control is to the power supply of LED luminescence banks (102). The embodiment of the utility model provides an interactive luminous shoes, whether detect being close by detection device based on being close detection device, control is to the power supply of LED luminous banks, can bring for user's good user experience.

Description

Interactive luminous shoes

Technical Field

The utility model belongs to the technical field of luminescent device, concretely relates to interactive luminous shoes.

Background

Intelligent wearable equipment is a general name for applying wearable technology to intelligently design daily wearable equipment and developing wearable equipment, such as glasses, gloves, watches, clothes and the like. Through these devices, users can obtain customized services.

On clothes, shoes and hats, small, light and thin light-emitting devices such as light-emitting diodes (LEDs) can be configured, and besides the lighting function, the light-emitting devices can twinkle. When the user wears corresponding dress, shoes and hats, through the light scintillation above that, can play the suggestion effect to other people evening to through the light scintillation mode of difference, can improve the interest that the user wore.

The utility model has the advantages that: the embodiment of the utility model provides an interactive luminous shoes detects being close by detection device through being close detection device, and control shoes lamp scintillation can bring good user experience for the user.

SUMMERY OF THE UTILITY MODEL

In order to make the user need not to bow and open and close the shoe lamp at any time at the in-process of marcing, the utility model provides an interactive luminous shoes, including light-emitting component and the shoes body, light-emitting component sets up in the shoes body, light-emitting component includes control chip, the luminous banks of LED and is close detection device, it is connected with control chip respectively to be close detection device and the luminous banks of LED, control chip responds to it detects the trigger signal that produces by being close of detection device to be close to detection device, to the luminous banks of LED sends the pulse control signal based on luminous control information, the luminous banks of LED is in give out light under pulse control signal's the excitation.

Further, the control chip of the light emitting assembly comprises a first IO terminal, one or more control terminals, a pulse generating circuit and a processor,

the proximity detection device is connected to the processor through a first IO end;

the processor is connected with the pulse generating circuit and can send light-emitting control information to the pulse generating circuit, and the pulse generating circuit responds to the light-emitting control information to generate the pulse control signal;

the pulse generating circuit is connected to the LED light-emitting lamp group through the one or more control terminals and sends a pulse control signal based on light-emitting control information to the LED light-emitting lamp group.

Further, the light-emitting assembly further comprises a storage device which stores one or more pieces of light-emitting control information, and the storage device is connected with the control chip.

Further, the light-emitting assembly further comprises a vibration detection device, the vibration detection device is connected with the control chip, and the control chip responds to a trigger signal generated when the proximity detection device detects the proximity of the detected device and the vibration detection device detects the vibration and sends a pulse control signal based on the light-emitting control information to the LED light-emitting lamp group (102).

Further, the control chip of the light emitting assembly further comprises a second IO end and a third IO end, the vibration detection device is connected to the processor through the second IO end, and the storage device is connected to the processor through the third IO end.

Further, the control chip of the light emitting assembly further comprises a third IO terminal, a counting circuit and a timing circuit,

the timing circuit is connected with the processor;

the counting circuit is connected with the processor and used for counting the trigger signals received by the processor;

the processor is connected with the storage device through a third IO terminal, and retrieves the light-emitting control information from the storage device according to the number of the trigger signals in the set time.

Further, the control chip of the light-emitting component also comprises a communication circuit, and the communication circuit is connected with the processor.

Further, the communication circuit is a bluetooth module or a near field communication module.

Furthermore, the detected device is magnetic steel, and the approach detection device is a Hall element or a reed switch. The utility model has the advantages that: the embodiment of the utility model provides an interactive luminous shoes, whether detect being close by detection device based on being close detection device, control is to the power supply of LED luminous banks, can bring for user's good user experience.

Drawings

Fig. 1 is a schematic circuit diagram of a light emitting device according to an embodiment of the present invention;

fig. 2 is a block diagram of a light emitting device according to an embodiment of the present invention;

FIG. 3 is an exemplary diagram of one application of an embodiment of the present invention;

FIG. 4 is another illustration in one application of an embodiment of the invention;

fig. 5 is an exemplary diagram of another application of an embodiment of the present invention;

FIG. 6 is a schematic circuit diagram of a light assembly of an interactive lighting shoe according to another embodiment of the present invention;

fig. 7 is a schematic structural view of a light-emitting assembly of an interactive light-emitting shoe according to still another embodiment 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. Those skilled in the art will appreciate that the present invention is not limited to the drawings and the following embodiments.

In the embodiments of the present invention, unless otherwise specified, the use of directional terms such as "upper" and "lower" is generally directed to the orientation shown in the drawings, or to the vertical, or gravitational orientation; likewise, for ease of understanding and description, "left and right" are generally to the left and right as shown in the drawings; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself, but the above directional terms are not intended to limit the present invention.

Example 1:

the embodiment of the utility model provides an interactive luminous shoes, as shown in fig. 1, fig. 2, interactive luminous shoes include light-emitting component 10 and the shoes body, light-emitting component 10 sets up in the shoes body, light-emitting component 10 includes control chip 101, LED luminous banks 102 and approaches detection device 103, it is connected with control chip 101 respectively to approach detection device 103 and LED luminous banks 102, it produces trigger signal to approach detection device 103 and detect being close by detection device, and control chip 101 respond to trigger signal, to LED luminous banks sends the pulse control signal based on luminous control information, LED luminous banks 102 is in it is luminous under pulse control signal's the excitation.

Specifically, the control chip 101 of the light emitting assembly 10 includes a first IO terminal IO1, one or more control terminals L1 … … Ln, a pulse generation circuit, a communication circuit, and a processor. The proximity detection device 103 is connected to a processor through a first IO terminal IO1, the processor is connected to a pulse generation circuit, the pulse generation circuit is connected to the LED light emitting lamp set through a control terminal, and the processor can send light emitting control information to the pulse generation circuit, and the pulse generation circuit generates the pulse control signal in response to the light emitting control information. The pulse generating circuit sends a pulse control signal based on the lighting control information to the LED lighting group 102 through the control terminals L1-Ln. The communication circuit is connected to the processor and is capable of communicating with other devices, such as receiving lighting control information from the outside or sending lighting control information to a second lighting assembly on the other shoe. The light-emitting control information is information for limiting the light-emitting duration, sequence, light-emitting mode and the like of each LED lamp bead in the LED light-emitting lamp group, and the communication circuit is a Bluetooth module or a near field communication module.

The LED lamp beads in the LED light-emitting lamp group 102 of the light-emitting component 10 are arranged on the surface of the interactive light-emitting shoe and embedded into the sole and other positions, so that a good visual effect is obtained.

In an embodiment of the present invention, the approach detection device 103 is a magnetic detection device, and can detect the approach of the magnetic member as a detected device. Preferably, the proximity detection device 103 is a hall element or a reed switch, and the detected device is magnetic steel.

In one application of the embodiment of the present invention, as shown in fig. 3, the proximity detection device 103 of the light emitting assembly 10 is disposed inside the front portion of a shoe (right shoe), either on the upper or on the side portion or side lower portion of the sole. Accordingly, the device to be detected 11 is disposed inside the front portion of the other shoe (left shoe) corresponding to the proximity detection device 103 of the light emitting module 10. When a user wears two shoes and the feet of the user are closed, the approach detection device 103 on one shoe and the detected device 11 on the other shoe are close to each other, and the approach detection device 103 of the light-emitting assembly 10 can detect the approach of the detected device 11 and generate an electromagnetic signal. After the processor of the control chip 101 detects the electromagnetic signal, the processor sends the light-emitting control information to the pulse generating circuit, the pulse generating circuit generates a pulse control signal based on the light-emitting control information, and sends the generated pulse control signal to the LED light-emitting lamp set 102 through the control terminal L1-Ln, so that the LED light-emitting lamp set 102 emits light.

Furthermore, the location of the detected device 11 and the proximity detection device 103 on both shoes of a pair of shoes is not limited to the manner of fig. 3, and any arrangement that enables the detected device to be close to the proximity detection device 103 when the user wears the interactive light-emitting shoe is within the scope of the present invention. For example, the detected device and the proximity detecting device 103 may be disposed on the heel side portions of the two shoes, respectively, on the front inner side of one shoe and the middle inner side of the other shoe, respectively, and may also be disposed on the front end portion of one shoe and the rear end portion of the other shoe, respectively, as shown in fig. 4.

In another application of the embodiment of the present invention, as shown in fig. 5, the proximity detecting device 103 of the light emitting module 10 is disposed on the front outer side of one shoe (right shoe) of the user. Accordingly, the device under test 11 is positioned on the lateral front portion of one shoe (left shoe) of the second user. When two users meet, the shoe of the user provided with the proximity detection device 103 and the shoe of the second user provided with the detected device 11 are close to each other, the proximity detection device 103 of the user detects the proximity of the detected device 11 of the second user, an electromagnetic signal is generated, interaction is formed, and the LED light-emitting lamp set 102 of the user emits light. More specific application scenario is that a parent-child pair of shoes are respectively worn by parents and children, and the children wear the interactive luminous shoes, the parents have detected devices in the shoes, and under the conditions that the parents give rewards, encourages and celebrates to the children, the parents ' shoes are close to the children's interactive luminous shoes, so that the children's interactive luminous shoes are luminous.

Example 2:

as shown in fig. 6, another example of the light emitting assembly 10 according to the embodiment of the present invention is provided, and the shock detection device 104 and the storage device 105 are added as compared with the light emitting assembly shown in fig. 1.

The lighting assembly 10 comprises a control chip 101, a group of LED lighting lamps 102, a proximity detection device 103, a shock detection device 104 and a storage device 105, the shock detection device 104 being, for example, a shock sensor. The LED light group 102, the proximity detection device 103, the vibration detection device 104 and the storage device 105 are respectively connected to the control chip 101, the control chip 101 sends a pulse control signal based on the light emission control information to the LED light group in response to the proximity detection device 103 detecting the proximity of the detected device and the vibration detection device 104 detecting the vibration, and the LED light group 102 emits light in response to the received pulse control signal.

The control chip 101 of the light emitting assembly 10 includes a first IO terminal IO1, a second IO terminal IO2, a third IO terminal IO3, one or more control terminals L1 … … Ln, a pulse generating circuit, and a processor. The proximity detection device 103 is connected to the processor through a first IO end IO1, the shock detection device 104 is connected to the processor through a second IO end IO2, the storage device 105 is connected to the processor through a third IO end, the storage device 105 stores one or more pieces of light emission control information, the processor is connected to the pulse generation circuit, the pulse generation circuit is connected to the LED light emitting lamp set through a control end, the processor retrieves the light emission control information from the storage device 105 and sends the light emission control information to the pulse generation circuit, and the pulse generation circuit sends pulse control signals based on the light emission control information to the LED light emitting lamp set 102 through control ends L1-Ln.

In this embodiment, taking fig. 3 as an example, the proximity detection device 103 of the light emitting assembly 10 is disposed on the inner side of the front portion of one shoe (right shoe), and correspondingly, the detected device corresponding to the proximity detection device 103 of the light emitting assembly 10 is disposed on the inner side of the front portion of the other shoe (left shoe). When a user wears the interactive luminous shoe comprising the light-emitting assembly shown in fig. 6, when the interactive luminous shoe is expected to emit light, only the feet need to be closed and collided, so that the approach detection device 103 on one shoe detects the approach of the detected device 11 on the other shoe, the approach detection device 103 generates an electromagnetic signal, and the vibration detection device 104 detects vibration and generates a vibration signal. After the processor of the control chip 101 detects the electromagnetic signal and the vibration signal, the processor retrieves the light emitting control information from the storage device 105, and controls the pulse generating circuit to send a pulse control signal to the LED light emitting lamp set 102, so that the LED light emitting lamp set emits light based on the light emitting control information.

In this embodiment, when the storage device 105 stores a plurality of pieces of light-emitting control information, after the interactive light-emitting shoe starts to emit light, the processor can separately respond to the vibration signal detected by the vibration detection device 104 to retrieve another piece of light-emitting control information from the storage device 105, and control the LED light-emitting lamp set 102 to emit light, so as to change the light-emitting mode of the current interactive light-emitting shoe, provide a selection of light-emitting modes with more following for the user, and improve the interest.

Example 3:

as shown in fig. 7, another example of the light emitting assembly 10 according to the embodiment of the present invention is provided, and compared with the light emitting assemblies shown in fig. 1 and fig. 2, a storage device is added, and a timing device and a counting device are added to the control chip.

The light-emitting component comprises a control chip, an LED light-emitting lamp set, a storage device and an approach detection device, wherein the LED light-emitting lamp set, the approach detection device and the storage device are respectively connected with the control chip. The storage device stores a plurality of pieces of light-emitting control information.

The control chip of the light emitting assembly includes a first IO terminal IO1, a third IO terminal IO3, one or more control terminals L1 … … Ln, a pulse generating circuit, a counting circuit, a timing circuit, and a processor.

The proximity detection device is connected to the processor through a first IO (input/output) end 1 and sends a trigger signal to the processor;

the timing circuit is connected with the processor;

the counting circuit is connected with the processor and used for counting the trigger signals received by the processor;

the processor is connected with the storage device through a third IO terminal IO3, and the processor calls the light-emitting control information from the storage device according to the number of the trigger signals in the specified time;

the processor sends the lighting control information to the pulse generating circuit, and the pulse generating circuit sends pulse control signals based on the lighting control information to the LED lighting lamp group through the control terminals L1-Ln.

In the present embodiment, a plurality of pieces of light emission control information may be stored in the storage device. The approach detection device can detect the approach of the detected device for a plurality of times within the set time, and the processor calls different light-emitting control information, such as light-emitting control information of running water flash, horse race flash, forward flash and reverse flash, from the memory according to different quantities of trigger signals within the set time so as to control the light-emitting of the LED light-emitting lamp group.

In one application of the embodiment, when the approach detection device of the light emitting assembly is arranged on one shoe of a child and the detected device is arranged on one shoe of a parent, when the child needs encouragement, the two shoes approach twice within 5s, and the processor on the child shoes retrieves the light emitting control information for expressing celebration, such as the light emitting control information of a horse race flash, arranged at the second position from the memory for the light emitting of the LED light emitting lamp group; when the children need criticizing, the two shoes approach to each other three times within 5s, and the processor on the children shoes retrieves the lighting control information which is arranged at the third position and used for showing criticizing and negativity, such as the lighting control information of the reverse flash, and is used for lighting the LED lighting lamp group, so that interaction can be formed.

More specific application scenario is that a parent-child pair of shoes are respectively worn by parents and children, and the children wear the interactive luminous shoes, the parents have detected devices in the shoes, and under the conditions that the parents give rewards, encourages and celebrates to the children, the parents ' shoes are close to the children's interactive luminous shoes, so that the children's interactive luminous shoes are luminous.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean 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 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, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. An interactive luminous shoes, includes light emitting component (10) and the shoes body, light emitting component (10) set up in the shoes body, its characterized in that: the light-emitting component (10) comprises a control chip (101), an LED light-emitting lamp set (102) and a proximity detection device (103), wherein the proximity detection device (103) and the LED light-emitting lamp set (102) are respectively connected with the control chip (101), the control chip (101) responds to a trigger signal generated by the proximity detection device (103) detecting the proximity of a detected device, and sends a pulse control signal based on light-emitting control information to the LED light-emitting lamp set (102), and the LED light-emitting lamp set (102) emits light under the excitation of the pulse control signal.

2. The interactive lighting shoe of claim 1, wherein: the control chip (101) of the light-emitting component (10) comprises a first IO terminal (IO1), one or more control terminals, a pulse generation circuit and a processor,

the proximity detection device (103) is connected to the processor through a first IO terminal (IO 1);

the processor is connected with the pulse generating circuit and can send light-emitting control information to the pulse generating circuit, and the pulse generating circuit responds to the light-emitting control information to generate the pulse control signal;

the pulse generating circuit is connected to the LED light-emitting lamp group through the one or more control terminals, and sends a pulse control signal based on light-emitting control information to the LED light-emitting lamp group (102).

3. The interactive lighting shoe of claim 2, wherein: the light-emitting assembly (10) further comprises a storage device (105) storing one or more pieces of light-emitting control information, and the storage device (105) is connected with the control chip (101).

4. The interactive lighting shoe of claim 3, wherein: the light-emitting assembly (10) further comprises a vibration detection device (104), the vibration detection device (104) is connected with a control chip (101), and the control chip (101) responds to a trigger signal generated when the proximity detection device (103) detects the proximity of the detection device (11) and the vibration detection device (104) detects vibration, and sends a pulse control signal based on light-emitting control information to the LED light-emitting lamp group (102).

5. The interactive lighting shoe of claim 4, wherein: the control chip (101) of the light emitting component (10) further comprises a second IO end (IO2) and a third IO end (IO3), the vibration detection device (104) is connected to the processor through the second IO end (IO2), and the storage device (105) is connected to the processor through the third IO end (IO 3).

6. The interactive lighting shoe of claim 3, wherein: the control chip (101) of the light-emitting component (10) further comprises a third IO terminal (IO3), a counting circuit and a timing circuit,

the timing circuit is connected with the processor;

the counting circuit is connected with the processor and used for counting the trigger signals received by the processor;

the processor is connected with the storage device (105) through a third IO terminal (IO3), and retrieves the light emitting control information from the storage device (105) according to the number of trigger signals in a specified time.

7. The interactive lighting shoe of claim 1, wherein: the control chip (101) of the light-emitting assembly (10) further comprises a communication circuit, and the communication circuit is connected with the processor.

8. The interactive lighting shoe of claim 7, wherein: the communication circuit is a Bluetooth module or a near field communication module.

9. The interactive lighting shoe of claim 1, wherein: the detected device (11) is magnetic steel, and the approach detection device (103) is a Hall element or a reed switch.

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