CN213599277U - Light emitting assembly and wearable device comprising same - Google Patents

Abstract

The utility model relates to a light-emitting component and wearable equipment comprising the same, wherein the light-emitting component comprises a control chip, a LED light-emitting lamp group, a motion detection device and a timer, and the timer, the motion detection device and the LED light-emitting lamp group are respectively connected with the control chip; wherein the motion detection means is arranged to detect a state of motion and, in response to detecting motion, to generate a motion trigger signal; the control chip is used for generating a timing trigger signal and a light-emitting control signal when the motion trigger signal is obtained, wherein the timing trigger signal carries set duration information, and the light-emitting control signal carries target LED light-emitting lamp information; the LED light-emitting lamp group comprises a plurality of LED light-emitting lamps which are used for simulating traffic signal lamps in real scenes. The embodiment of the utility model provides a can simulate the traffic signal lamp in the real scene, can provide the teaching scene of traffic lights, add the immersive of scene and experience.

Description

Light emitting assembly and wearable device comprising same

Technical Field

The utility model belongs to the technical field of light emitting device, concretely relates to light emitting component and wearable equipment including light emitting component.

Background

Wearable equipment is also called intelligent wearing, and is a general name for applying a wearing technology to intelligently design daily wearing and developing wearable equipment, such as clothes, hats, shoes and the like. Through these devices, users can obtain customized services. Luminous wearable equipment, especially luminous shoes, are favored by parents and children because can show luminous visual effect, therefore have wide market prospect. With the advent of the information society and the intelligent age, children can be undoubtedly beneficiaries and consumers of electronic products, so that diversified and internationalized views of the electronic products can be shaped, and the electronic products tend to be fashionable, fresh, intelligent and cool. The light emitting component used by the current wearable device mainly has a single function on the aspect of light emitting color change.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem that the current light-emitting component function is comparatively single, the utility model provides a light-emitting component and wearable equipment including light-emitting component.

In a first aspect of the present invention, there is provided a light emitting device, including: the LED lamp comprises a control chip, an LED light-emitting lamp group, a motion detection device and a timer, wherein the timer, the motion detection device and the LED light-emitting lamp group are respectively connected with the control chip;

wherein the motion detection means is arranged to detect a state of motion and, in response to detecting motion, to generate a motion trigger signal;

the control chip is used for generating a timing trigger signal and a light-emitting control signal when the motion trigger signal is obtained, wherein the timing trigger signal carries set duration information, and the light-emitting control signal carries target LED light-emitting lamp information;

the timer is used for starting a timing function when the timing trigger signal is acquired, and executing one of the following operations: i. when the timer reaches the set time length, stopping the timing function, resetting the timing, and feeding back timing information to the control chip, ii, when the timer acquires a new timing trigger signal again, stopping the timing, resetting the timing, and restarting the timing function;

the LED light-emitting lamp group comprises a plurality of LED light-emitting lamps for simulating traffic signal lamps in a real scene, and in response to the motion detection device detecting motion or the timer reaching a set time length, the control chip controls the LED light-emitting lamps corresponding to the target LED light-emitting lamps to emit light until the control chip acquires the time-up information or the control chip generates a new light-emitting control signal.

In some embodiments, the plurality of LED light emitting lamps are packaged in one lamp bead, or the plurality of LED light emitting lamps are sequentially arranged at set intervals.

In some embodiments, the plurality of LED light lamps includes a first LED light lamp simulating a green light in the traffic signal, a second LED light lamp simulating a yellow light in the traffic signal, and a third LED light lamp simulating a red light in the traffic signal; when the motion detection device detects motion, the control chip controls the first LED light-emitting lamp to emit light; when the motion detection device detects that the motion stops, after the first LED luminescent lamp emits light for a first set time, the control chip controls the second LED luminescent lamp to emit light, after the second LED luminescent lamp emits light for a second set time, the control chip controls the third LED luminescent lamp to emit light, and after the third LED luminescent lamp emits light for a third set time or is powered off, the third LED luminescent lamp stops emitting light.

In some embodiments, the plurality of LED light lamps includes a first LED light lamp simulating a green light in a traffic signal lamp and a third LED light lamp simulating a red light in a traffic signal lamp; when the motion detection device detects motion, the control chip controls the first LED light-emitting lamp to emit light; when the motion detection device detects that the motion stops, after the first LED light-emitting lamp emits light for a first set time, the control chip controls the third LED light-emitting lamp to emit light, and the third LED light-emitting lamp emits light for a third set time or stops emitting light after being powered off.

In some embodiments, the dwell time is set when the LED light emitting lamps of different colors are switched to emit light.

In some embodiments, the first LED light emitting lamp is a green LED lamp, the second LED light emitting lamp is a yellow LED lamp, and the third LED light emitting lamp is a red LED lamp.

In some embodiments, the first LED light emitting lamp is a green LED lamp and the third LED light emitting lamp is a red LED lamp.

In some embodiments, there are a plurality of LED lights of each color, and a plurality of LED lights of the same color form a pattern.

In a second aspect of the present invention, there is provided a wearable device comprising a light emitting assembly as described above.

In some embodiments, the wearable device comprises a shoe.

In some embodiments, the plurality of LED light emitting lamps are sequentially arranged at a predetermined interval on a lateral surface or a front surface of the shoe.

In some embodiments, the plurality of LED light-emitting lamps are arranged at positions where convex structures are formed or matched patterns are formed;

or the plurality of LED luminous lamps are arranged on the shoe buckles or the shoe uppers in a left-right or front-back arrangement mode;

or the LED light-emitting lamps are arranged at the positions matched with the brand marks of the shoes or the pattern elements of the shoes.

The utility model has the advantages that: the embodiment of the utility model provides a light emitting component and wearable equipment including light emitting component can simulate the traffic signal lamp in the real scene, outside the function that satisfies normal shoes, can provide the teaching scene of traffic lights, has added the immersive of scene and has experienced, has not only expanded light emitting component's function, can educate in happy again.

Drawings

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

fig. 2 is another schematic structural diagram of a light emitting module according to an 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.

The embodiment of the utility model provides a light-emitting component, as shown in fig. 1, light-emitting component 10 includes control chip 101, the luminous banks of LED 102, motion detection device 103 and time-recorder 104, motion detection device 103 and the luminous banks of LED 102 are connected with control chip 101 respectively.

Wherein the motion detection means 103 is arranged to detect a motion state and to generate a motion trigger signal in response to detecting motion. In fig. 1, the motion detection device 103 is denoted by TG 1.

The control chip 101 is configured to generate a timing trigger signal and a light-emitting control signal when the motion trigger signal is obtained, where the timing trigger signal carries set duration information, and the light-emitting control signal carries target LED light-emitting lamp information. In one embodiment, the set time period is associated with the target LED light, assuming that the plurality of LED lights is 3, wherein the set time period of the first LED light is 3 seconds, the set time period of the second LED light is 2 seconds, and the set time period of the third LED light is 3 seconds. In another embodiment, the set time period is a fixed time period, such as 3 seconds, and the set time period does not vary from target LED lighting lamp to target LED lighting lamp.

The timer 104 is configured to start a timing function when the timing trigger signal is acquired, and perform one of the following operations: i. and ii, stopping timing, resetting the timing and restarting the timing function when the timer 104 acquires a new timing trigger signal again when the timer 104 acquires the new timing trigger signal. In an embodiment, the logic level of the motion trigger signal is higher than that of the timing trigger signal, specifically, in the working process, no matter whether the control chip 101 acquires the time-out information, as long as the control chip 101 acquires the motion trigger signal, a new timing trigger signal and a new light-emitting control signal are generated again, correspondingly, the timer 104 clears the current timing according to the new timing trigger signal and restarts the timing (or is referred to as a restart timing function), and the plurality of LED light-emitting lamps emit light according to the new light-emitting control signal.

The LED light group 102 includes a plurality of LED lights for simulating traffic lights in a real scene, and in response to the motion detection device 103 detecting motion or the timer 104 reaching a set time, the control chip 101 controls the LED lights corresponding to the target LED light among the plurality of LED lights to emit light until the control chip 101 obtains the arrival time information, or the control chip 101 generates a new light emission control signal. The LED luminescent lamps can emit light continuously or in a flickering mode, and the flickering mode can be a flickering mode which can be supported by each LED luminescent lamp such as running water flickering. The utility model provides a when light-emitting component was used to wearable equipment such as shoes, clothes, cap, knapsack, a plurality of LED luminescent light were arranged in order on the surface of shoes with visible mode.

In order to better simulate various arrangement modes of traffic lights in a real scene, in one embodiment, the plurality of LED light-emitting lamps can be packaged in one lamp bead to simulate the situation that only one signal light is arranged in the real scene; in another embodiment, the plurality of LED light emitting lamps may be sequentially arranged at a predetermined interval, for example, the plurality of LED light emitting lamps may be arranged in a front-back or left-right arrangement from the perspective of the wearer.

The plurality of LED light-emitting lamps include a first LED light-emitting lamp simulating a green light in the traffic signal lamp, a second LED light-emitting lamp simulating a yellow light in the traffic signal lamp, and a third LED light-emitting lamp simulating a red light in the traffic signal lamp. When the motion detection device 103 detects motion, the control chip 101 controls the first LED light-emitting lamp to emit light; when motion detection device 103 detects the motion and stops, after first LED luminescent light sends out light for first settlement duration, control chip 101 control second LED luminescent light is luminous, after second LED luminescent light sends out light for second settlement duration, control chip 101 control third LED luminescent light is luminous, send out light for third LED luminescent light after third settlement duration and stop luminous, third LED luminescent light also can continuously give out light certainly, until third LED luminescent light is cut off the power supply, can simulate the luminous chronogenesis of traffic signal lamp in the real scene from this. It can be understood that if the plurality of LED light-emitting lamps emit light, only one of the LED light-emitting lamps emits light, and the rest of the LED light-emitting lamps do not emit light. The first set time length, the second set time length and the third set time length are related to the corresponding LED luminescent lamps, or are unrelated to the LED luminescent lamps and are fixed time lengths. The values of the first set time, the second set time and the third set time are not limited to 2 seconds or 3 seconds as examples, and in actual use, the values may be set by the user according to habits of the user, or may be set to other values, such as 1 second or 4 seconds, even the third set time may not be set, and the length of the third set time is determined by turning off the power switch (refer to the following description). In one embodiment, a pause time may be set when the LED light emitting lamps of different colors are switched to emit light, for example, a pause time may be set between the first LED light emitting lamp stopping emitting light and the second LED light emitting lamp starting emitting light, and the pause time may be, for example, 1 second or 2 seconds. In some application scenes, the second LED light emitting lamp may be omitted, only the first LED light emitting lamp and the third LED light emitting lamp are provided, and after the first LED light emitting lamp stops emitting light, the third LED light emitting lamp emits light.

In one embodiment, the first LED light emitting lamp is a green LED lamp, and the third LED light emitting lamp is a red LED lamp, and the two LED light emitting lamps are of two colors. In another embodiment, the first LED lamp is a green LED lamp, the second LED lamp is a yellow LED lamp, and the third LED lamp is a red LED lamp, and the three LED lamps are LED lamps of three colors. The number of LED lamps of each color may be one or more, and in one embodiment, when there are a plurality of LED lamps of each color, the plurality of LED lamps of the same color may form a pattern, such as a circle or an arrow, to simulate the pattern presented by a traffic signal lamp in a real scene.

The light-emitting component provided by the utility model can be applied to shoes, clothes, hats, backpacks or other ornaments. Taking the light-emitting assembly as an example for application to a shoe, in one embodiment, the plurality of LED light-emitting lamps are arranged on a side surface or a front surface of the shoe in a set interval sequence, the plurality of LED light-emitting lamps are arranged on the side surface of the shoe to be more convenient for people around a wearer to see to a certain extent, and the plurality of LED light-emitting lamps are arranged on the front surface of the shoe to be convenient for the wearer and people around the wearer to see. In response to the plurality of LED lights being disposed on the side surface of the shoe, the plurality of LED lights may be disposed on the rear side of the shoe in a front-to-back or side-to-side arrangement, which in an alternative embodiment may be adapted to be formed with a raised structure or a matching pattern, such as a rectangular, traffic signal light-like appearance pattern (e.g., to simulate the overall appearance of a signal light post and a signal light sign mounted thereon). The plurality of LED light-emitting lamps can be arranged on the shoe buckles or the shoe uppers in a left-right or front-back arrangement mode in response to the plurality of LED light-emitting lamps being arranged on the front surface of the shoe. In another embodiment, the plurality of LED light-emitting lamps are disposed at a position to cooperate with the brand logo or pattern elements of the shoe, for example, in the brand logo or pattern elements, or above or below the brand logo or pattern elements, preferably, to present an aesthetic sense. For example, in the case that the brand mark or the pattern element is three vertical lines, the red LED lamp, the yellow LED lamp and the green LED lamp each correspond to one of the vertical lines, and the red LED lamp, the yellow LED lamp and the green LED lamp may be located above or below the three vertical lines, and in some cases, the red LED lamp, the yellow LED lamp and the green LED lamp may also be located in the three vertical lines.

The control logic of the light-emitting assembly will be described below by taking as an example that the initial state of the light-emitting assembly is a static state, and the plurality of LED light-emitting lamps include a green LED lamp, a yellow LED lamp, and a red LED lamp, where the principle of the control logic is that when the motion detection device 103 detects motion, the control chip 101 controls the green LED lamp to emit light (at this time, the yellow LED lamp and the red LED lamp do not emit light); when the motion detection device 103 detects that the motion is stopped, after the green LED lamp emits light for a first set time period (for example, the set time period for the green LED lamp is 3 seconds), the control chip 101 controls the yellow LED lamp to emit light (at this time, the green LED lamp and the red LED lamp do not emit light), and after the yellow LED lamp emits light for a second set time period (for example, the set time period for the yellow LED lamp is 2 seconds), the control chip 101 controls the red LED lamp to emit light (at this time, the green LED lamp and the yellow LED lamp do not emit light) and stops after a third set time period (for example, the set time period for the red LED lamp is 3 seconds), so that the light emission timing sequence of the traffic signal lamp in the real scene is simulated.

The light-emitting assembly is in a static state, the motion detection device 103 does not detect motion, the timer 104 is not triggered to perform a timing function, and the green LED lamp, the yellow LED lamp and the red LED lamp cannot emit light; when the motion detection device 103 detects motion, a motion trigger signal is generated, and a process of emitting light by the green LED lamp is started until the timer 104 reaches a set time length; when receiving the motion trigger signal, the control chip 101 generates a timing trigger signal carrying set duration information and a light-emitting control signal carrying green LED lamp information, and respectively prompts the timer 104 to start timing and the green LED lamp to start emitting light. Then, two possible situations occur, one of the possible situations is that the timer 104 detects the movement again by the movement detection device 103 before the set time length is reached, and a new movement trigger signal is generated; when receiving the new motion trigger signal, the control chip 101 generates a new timing trigger signal carrying set duration information (for example, for a green LED lamp, the set duration is 3 seconds) and a new light-emitting control signal carrying green LED lamp information, respectively prompts the timer 104 to restart timing and the green LED lamp to restart light emission (or visually, the green LED lamp may be considered to continuously emit light), and the motion detection device 103 continuously detects a motion state. Another possible situation is that the motion detection device 103 does not detect motion again before the timer 104 counts the set time length, at this time, the timer 104 stops the timing function and feeds back the time-up information to the control chip 101 when the set time length is reached, when the control chip 101 acquires the time-up information, generating a new timing trigger signal carrying set time length information (for example, for a yellow LED lamp, the set time length is 2 seconds) and a new light-emitting control signal carrying yellow LED lamp information, respectively prompting the timer 104 to restart timing and the yellow LED lamp to start emitting light (or visually, it can be considered that the green LED lamp stops emitting light and the yellow LED lamp starts emitting light), stopping emitting light until the timer 104 reaches the set time length or the motion detection device 103 detects motion, and returning to the flow of emitting light of the green LED lamp to start a new cycle in response to the motion detection device 103 detecting motion; in response to that the timer 104 reaches the set time length for the yellow LED lamp, the timer 104 stops the timing function and feeds back the time-up information to the control chip 101, and when the control chip 101 acquires the time-up information, a new timing trigger signal carrying the set time length information (for example, for the red LED lamp, the set time length is 3 seconds) and a new light-emitting control signal carrying the red LED lamp information are generated, so that the timer 104 is respectively prompted to restart timing and the red LED lamp starts to emit light (or visually, the yellow LED lamp stops emitting light and the red LED lamp starts to emit light) until the timer 104 reaches the set time length or the motion detection device 103 detects motion, and if the timer 104 reaches the set time length, the LED light-emitting lamp set 102 does not emit light any more unless the motion detection device 103 detects motion; if the motion detection device 103 detects motion, the flow of returning to the green LED light starts a new cycle.

The light emitting assembly 10 further includes a power supply assembly (not shown) and a pulse generating circuit (not shown), both of which are connected to the control chip 101, wherein the pulse generating circuit generates a pulse control signal under the control of the control chip 101 to control the power supply assembly to supply power to the plurality of LED light emitting lamps. In some application scenarios, the pulse generation circuit may be integrated in the control chip 101.

Referring to fig. 2, the light emitting assembly 10 may further include a power switch 104, and when the power switch 104 is turned on, the power transmission path of the power supply assembly is cut off, and the light emitting assembly 10 stops emitting light; when the power switch 104 is closed, the power supply component energy delivery path is opened. In fig. 2, the motion detection device 103 is denoted by TG1, and the power switch 104 is denoted by TG 2.

The embodiment of the utility model provides a wearable equipment is still provided, wearable equipment includes light emitting component. For brevity, reference is made to the foregoing description for the details of the light-emitting assembly, which is not repeated herein.

The wearable device may be a shoe, a garment, a hat, a backpack, or the like.

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 (12)

1. A light emitting assembly, comprising: the LED lamp comprises a control chip, an LED light-emitting lamp group, a motion detection device and a timer, wherein the timer, the motion detection device and the LED light-emitting lamp group are respectively connected with the control chip;

wherein the motion detection means is arranged to detect a state of motion and, in response to detecting motion, to generate a motion trigger signal;

the control chip is used for generating a timing trigger signal and a light-emitting control signal when the motion trigger signal is obtained, wherein the timing trigger signal carries set duration information, and the light-emitting control signal carries target LED light-emitting lamp information;

the timer is used for starting a timing function when the timing trigger signal is acquired, stopping the timing function when the timer reaches the set duration in response to the timer, resetting the timing, and feeding time-out information back to the control chip; or in response to the fact that the timer stops timing when a new timing trigger signal is acquired again, the timing is cleared, and the timing function is restarted;

the LED light-emitting lamp group comprises a plurality of LED light-emitting lamps for simulating traffic signal lamps in a real scene, and in response to the motion detection device detecting motion or the timer reaching a set time length, the control chip controls the LED light-emitting lamps corresponding to the target LED light-emitting lamps to emit light until the control chip acquires the time-up information or the control chip generates a new light-emitting control signal.

2. The lighting assembly according to claim 1, wherein the plurality of LED lights are packaged in a single bead or are arranged in a sequence at set intervals.

3. The lighting assembly of claim 1, wherein the plurality of LED lights comprises a first LED light simulating a green light in a traffic signal, a second LED light simulating a yellow light in a traffic signal, and a third LED light simulating a red light in a traffic signal; when the motion detection device detects motion, the control chip controls the first LED light-emitting lamp to emit light; when the motion detection device detects that the motion stops, after the first LED luminescent lamp emits light for a first set time, the control chip controls the second LED luminescent lamp to emit light, after the second LED luminescent lamp emits light for a second set time, the control chip controls the third LED luminescent lamp to emit light, and after the third LED luminescent lamp emits light for a third set time or is powered off, the third LED luminescent lamp stops emitting light.

4. The lighting assembly of claim 1, wherein the plurality of LED lights includes a first LED light simulating a green light in a traffic signal and a third LED light simulating a red light in a traffic signal; when the motion detection device detects motion, the control chip controls the first LED light-emitting lamp to emit light; when the motion detection device detects that the motion stops, after the first LED light-emitting lamp emits light for a first set time, the control chip controls the third LED light-emitting lamp to emit light, and the third LED light-emitting lamp emits light for a third set time or stops emitting light after being powered off.

5. The lighting assembly according to claim 3 or 4, wherein the dwell time is set when the different color LED lights are switched to emit light.

6. The lighting assembly according to claim 3, wherein the first LED light is a green LED light, the second LED light is a yellow LED light, and the third LED light is a red LED light.

7. The lighting assembly of claim 4, wherein the first LED light is a green LED light and the third LED light is a red LED light.

8. The lighting assembly according to claim 6 or 7, wherein the number of the LED lights of each color is plural, and the plural LED lights of the same color form a pattern.

9. A wearable device comprising the light emitting assembly of any of claims 1-8.

10. The wearable device of claim 9, wherein the wearable device comprises a shoe.

11. The wearable device according to claim 10, wherein the plurality of LED light emitting lamps are sequentially arranged at a set interval on a lateral surface or a front surface of the shoe.

12. The wearable device according to claim 11, wherein the plurality of LED light-emitting lamps are arranged in positions formed with a convex structure or formed with a matching pattern;

or the plurality of LED luminous lamps are arranged on the shoe buckles or the shoe uppers in a left-right or front-back arrangement mode;

or the LED light-emitting lamps are arranged at the positions matched with the brand marks of the shoes or the pattern elements of the shoes.

Images