ES1257876U - Light emitting device and controller (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

A controller for controlling a plurality of light emitting units that are configured to engage an object, the controller comprising: a waterproof cover configured to engage the object; a battery, arranged within the waterproof cover and electrically coupled to the anodes of the light emitting units; a motion actuator, disposed within the waterproof cover and configured to detect movement of the object; and a control circuit, arranged inside the waterproof cover, the control circuit comprising a power plug, an OS plug and a plurality of trigger pins, the power plug is electrically coupled to the battery to receive electrical power, one terminal of the motion actuator is coupled to the OS plug and another terminal of the motion actuator is coupled to the battery, the actuating pins are coupled to the cathodes of the light-emitting units respectively, and all anodes of the light emitting units are coupled to the battery; the control circuit being configured to drive the light emitting units by turning on separately and sequentially, and then flashing simultaneously several times in accordance with the detection result of the motion actuator. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

Light emitting device and controller

Background of the invention

1. Field of the invention

The present invention relates generally to a light emitting device and a controller thereof, and more particularly to a light emitting device for emitting a light in a sequence and a controller for controlling the sequence of light.

2. Description of the state of the art

Poor night lighting is a throwback to nighttime activities. There may be difficult identification and security problems. People who run or bike at night can be hit by cars due to insufficient lighting. It may be necessary to stop the ball game outdoors at night if the street lights are not strong enough. Therefore, it is necessary to find ways to improve the safety and fluidity of night activities.

Footwear with intermittent device is available on the market for the safety reasons described above. Such footwear typically includes at least one light source, such as light emitting diodes (LEDs), a power source, such as a battery, and a switch for connecting the battery to the light sources to illuminate them.

Furthermore, the switch could be a simple manual switch as disclosed, for example, in US Patent No. 4,158,922. The switch could be a mercury switch in which a ball of mercury runs back and forth along a tube between a pair of electrical contacts during movement of the shoe, as disclosed in US Pat. No. 4,848,009. The switch may be a pressure sensitive switch that opens and closes in response to the application of the user's weight on the switch as disclosed, for example, in US Patent No. 5,285,586. The switch may be a spring switch in which a coil-shaped cantilever spring oscillates back and forth to make and break contact with an electrical terminal as, for example, shown in US Pat. No. 5,408,764.

Also, to increase battery life and provide a more attractive and secure display, it is desirable to have the lights turn on and off, rather than keep them illuminated continuously while the switch is closed. This blinking will be interesting and attractive if a striking blink pattern could be demonstrated with the LEDs.

In addition, to prevent the aforementioned device from getting into water and dust and therefore to extend the life of said device, the battery pack system, the sensitive switch and the control circuit of the battery are also desired. LEDs.

Summary of the invention

Accordingly, one aspect of the present invention is to provide a circuit, and more particularly, to provide a controller for controlling a plurality of light-emitting units that is configured to engage an object to emit light in a predetermined sequence. Furthermore, the controller of the present invention is compact and provides intense illumination in an energy-saving way.

In accordance with a preferred embodiment of the invention, the controller includes a waterproof cover, a motion actuator, and a control circuit. The waterproof cover is attached to the object. The motion actuator is disposed within the waterproof cover and configured to detect movement of the object. In addition, the control circuit is arranged inside the waterproof cover and electrically connected to the motion actuator and the light emitting units respectively, to activate the light emitting units which are illuminated in a predetermined way according to the result. motion trigger detection. The default is for the light-emitting units to light up separately and sequentially, and then flash simultaneously several times. In one embodiment, the waterproof cover is made of resin or plastic material formed by injection molding, and the battery, motion actuator, and control circuit are encapsulated in the molded waterproof cover, in which the The control circuit is electrically connected to the light emitting units by a plurality of wires, and the portion of the waterproof cover through which the plurality of wires penetrates is sealed by resin or plastic material.

Another aspect of the present invention is to provide a light emitting device and, more particularly, to provide a light emitting device for an object to emit light in a predetermined sequence.

According to another preferred embodiment of the invention, the light-emitting device includes a plurality of light-emitting units and a controller, wherein the controller further includes a waterproof cover, a motion actuator, and a control circuit. . The waterproof cover is attached to the object. The motion actuator is disposed within the waterproof cover and configured to detect movement of the object. In addition, the control circuit is arranged inside the waterproof cover and electrically connected to the motion actuator and the light emitting units respectively, to activate the light emitting units which are illuminated in a predetermined way according to the result. motion trigger detection. The default is for the light-emitting units to light up separately and sequentially once or twice, and then flash simultaneously several times.

Another aspect of the present invention is to provide a light-emitting device, and more particularly to provide a light-emitting device for an object and to emit light in a predetermined sequence.

According to another preferred embodiment of the invention, the light-emitting device includes a plurality of light-emitting units and a controller, wherein the controller further includes a waterproof cover, a motion actuator, and a control circuit. . The waterproof cover is attached to the object. The motion actuator is disposed within the waterproof cover and configured to detect movement of the object. In addition, the control circuit is arranged inside the waterproof cover and electrically connected to the motion actuator and the light emitting units respectively, to activate the light emitting units which are illuminated in a predetermined way according to the result. motion trigger detection. The default is for the light-emitting units to turn on one by one and then flash simultaneously several times.

According to another embodiment, the light emitting device includes a plurality of light emitting units and a controller comprising a control circuit, a battery, a motion actuator, and a waterproof cover. The control circuit, the battery and the motion actuator are arranged inside the waterproof cover. He The control circuit comprises a power plug, an OS plug and a plurality of trigger pins, the power plug is electrically coupled to the battery to receive electrical power, a terminal of the motion actuator is coupled to the OS plug, and Another terminal of the motion actuator is coupled to the battery, the drive pins are coupled to the cathodes of the light emitting units respectively, and all the anodes of the light emitting units are coupled to the battery.

In another embodiment, the control circuit, according to the motion actuator detection result, is configured to activate the light emitting units turned on one by one so that all the light emitting units are turned on, and then all the light-emitting units flash simultaneously several times.

Without doubt, the object of the present invention will become obvious to those skilled in the art after reading the following detailed description of the preferred embodiment, which is illustrated in the various figures and drawings.

Brief description of the attached drawings

Figure 1A is a schematic diagram illustrating the light emitting device in accordance with one embodiment of the present invention.

Figure 1B is a schematic diagram illustrating the light emitting device in accordance with another embodiment of the present invention.

FIG. 2A is a schematic diagram illustrating the arrangement of the control circuit 16 in FIG. 1A or FIG. 1B.

Figure 2B is a schematic diagram illustrating an illumination sequence in time of the light emitting units in Figure 2A.

Fig. 2C is a schematic diagram illustrating the arrangement of the control circuit in accordance with another embodiment.

Figure 3 is a schematic diagram illustrating the arrangement of the control circuit in accordance with another embodiment of the present invention.

Figure 4 is a schematic diagram illustrating the light emitting device coupled to the object in accordance with another embodiment of the present invention.

Detailed description of the invention

Please refer to figure 1A. Fig. 1A is a schematic diagram illustrating the light emitting device 1 according to an embodiment of the present invention. The light emitting device 1 can be attached to an object (not shown) and emit light in a specific way. As shown in Figure 1A, the light-emitting device 1 includes a controller 10 and a plurality of light-emitting units 20, and the controller 10 includes a waterproof cover 12, a motion actuator 14, a circuit 16 of control. The light emitting units 20 can be placed on the object.

The waterproof cover 12 can be attached to the object. Furthermore, the movement actuator 14 is arranged within the waterproof cover 12 to detect movement, such as vibration, of the object. Furthermore, the control circuit 16 is disposed within the waterproof cover 12, and electrically connected to the motion actuator 14 and the light emitting units 20 respectively, to activate the light emitting units 20 turned on in a predetermined manner when the motion actuator 14 detects the movement of the object and transfers the detection result to the control circuit 16. In one example, the light emitting units 20 comprise at least three LEDs that could generate a striking pattern by blinking. Furthermore, the light-emitting device 1 further comprises a battery 18, which is also arranged inside the waterproof cover 12 to supply electrical power to the units of the light-emitting device 1. In practice, each of the light emitting units is a light emitting diode.

It should be noted that although only one lead wire is shown in Figure 1A for connecting the light emitting units 20 with the controller 10, there may be more sub-lead wires contained in the lead wire to electrically connect the control circuit 16 with the units 20 light emitting units respectively, to control each of the light emitting units respectively to emit light.

In practice, the waterproof cover could prevent the light-emitting device 1 from entering water and dust and thus extend the life of such a circuit. An example of a waterproof cover is resin or plastic material formed by injection molding, and Such a molding waterproof cover will be waterproof because it tightly packages the motion actuator 14, the control circuit 16, and the battery 18 together. Furthermore, the light-emitting device 1 is also free from oxidation due to the molding waterproof cover.

Please refer to figure 1B. Fig. 1B is a schematic diagram illustrating the light emitting device 1 according to another embodiment of the present invention. In this embodiment, the waterproof cover 12 can be formed by fusing a top plastic cover 122 with a plastic container 124 using supersonic waves or laser light. Once the plastic container 124 accommodates the motion actuator 14, the control circuit 16, and the battery 18, the upper plastic cover 122 is fused with the surroundings of the plastic container 124 by supersonic waves or laser light. Since the upper plastic cover 122 is fused with the plastic container 124, the waterproof cover 12 would be waterproof. The hole in the waterproof cover 12 that houses the cables connecting the light emitting units 20 can be sealed with resin or other plastic material.

Please refer to figure 2A. Figure 2A is a schematic diagram illustrating the arrangement of the control circuit 16 in Figure 1A or Figure 1B, while the design and characteristics of the control circuit 16 are summarized below. As shown in Figure 2A, the control circuit 16 may be an integrated circuit chip with a plurality of pins, wherein the OS pin of the control circuit 16 is a one-shot button and is electrically coupled to a terminal of the motion actuator 14, and the actuation pins L1-L6 are electrically coupled to the cathodes of the light emitting units 20 respectively. Furthermore, another terminal of the motion actuator 14 and all the anodes of the light emitting units 20 are coupled to the battery. The working voltage is within the range of 1.35-5.0V DC, while the minimum output electric current is 30mA, the voltage is 3V, and the static electricity is less than 1uA. Trigger pins L1-L6 are configured to send control signals to the light emitting units 20 so that they activate the light emitting light emitting units 20 in the predetermined manner. In addition, the control circuit 16 may comprise a register 160 that includes a pin (or pins) to connect with another electronic device, to receive various codes corresponding to the duration of illumination, the illumination interval or the frequency of flashing of each one of the 20 light emitting units. Therefore, these codes can decide or change the default lighting pattern. In practice, the codes can be a 2-bit code, a 3-bit code or the code with more bits, corresponding to illumination duration, illumination interval, or blink frequency. For example, a 2-bit code may correspond to the duration of the illumination, and the content of the code "00", "01" and "10" may correspond to 0.1 seconds, 0.2 seconds, and 0.3 seconds of illumination duration. It should be noted that the quantities of the light emitting units 20 and the corresponding pins of the control circuit 16 are not limited to 6 in the present invention. For example, there are eight light emitting units 20 shown in Fig. 1A and 1B, and There are also eight corresponding pins (not shown) of the control circuit 16 for connecting to the eight light emitting units 20. In another embodiment, the light emitting device may comprise 3 or 4 light emitting units.

Please refer to figure 2B. Figure 2B is a schematic diagram illustrating an illumination sequence in time of the light emitting units 20 in Figure 2A. As shown in Figure 2B, the drive pins L1-L6 of the control circuit 16 send the control signals to the six light-emitting units 20, so that the light-emitting units 20 are activated first to illuminate separately and sequentially with a first illumination duration T1, or one by one from the first light emitting unit 20 connected to the activation pin L1 to the sixth light emitting unit 20 connected to the activation pin L6 with the duration of lighting T1. After the sixth light emitting unit 20 emits light, all the light emitting units 20 flash simultaneously several times, for example 3 times, with a second illumination duration T2. In addition, after flashing at predetermined times, the light emitting units 20 restart another lighting cycle that includes the aforementioned lighting form or another lighting form.

Furthermore, the intervals between two adjacent emitter units 20 that light up or flash can be controlled by the control circuit. In other words, the frequency of illumination or flickering of the emitting units 20 can be controlled by the control circuit. In detail, the default lighting pattern of the emitting units 20 may be that the emitting units 20 light up one by one with a first illumination interval T3, and then flash simultaneously several times with a second illumination interval T4, such as shown in Figure 2B. In another embodiment, T1 ~ T4 could be decided according to the codes stored in register 160.

In this embodiment, the control circuit can receive and change the predetermined shape from the external electronic device. However, they can also be stored in the control circuit different predetermined ways of switching. Please refer to Fig. 2C, Fig. 2C is a schematic diagram illustrating the arrangement of the control circuit 16 according to another embodiment. The difference between this embodiment and the aforementioned embodiment shown in Fig. 2A is that the control circuit 16 of this embodiment comprises a switch button 162. In this embodiment, various predetermined shapes are stored in the storage cell (not shown here) of the control circuit 16, and the toggle button 162 can be pressed to toggle the predetermined shape. Therefore, a user of the light emitting device can easily change or choose the predetermined lighting pattern.

As mentioned above, the first illumination interval T3 and the second illumination interval T4 can be controlled by the control circuit. In the above embodiments, the first illumination interval T3 and the second illumination interval T4 are fixed values. However, they can be controlled as variables with time in the present invention.

In another embodiment, the control circuit, according to the motion actuator detection result, is configured to activate the light emitting units that turn on one by one so that all the light emitting units are turned on, and then all the light-emitting units flash simultaneously several times.

In the above embodiments, controller 10 controls all of the light emitting units 20 to emit light in different predetermined ways to generate visual effects. However, the controller 10 may control some of the light emitting units 20 to emit light. In one embodiment, the controller further comprises a selector that is electrically coupled to the control circuit. The selector is configured to generate a selection signal for the control circuit, and the control circuit can selectively control a number of light emitting units to emit light in accordance with the selection signal, in which the number may be one. of the total number of light emitting units. In practice, the selector generates the selection signal under a condition (or conditions) such as that the light emitting units 20 complete a lighting cycle, the detection result of the motion actuator changes, or the user of the controller controls the selector. directly.

Please refer to Figure 3, Figure 3 is a schematic diagram illustrating the arrangement of the control circuit 16 in accordance with another embodiment of the present invention. How I know shown in Figure 3, the difference between this embodiment and the aforementioned embodiment is that the control circuit 16 of this embodiment also comprises two registers 164 and 166, to receive various codes to control the lighting stages of the emitting units 20 light respectively.

In another embodiment, the light emitting units 20 are controlled to illuminate separately and sequentially twice and then flash simultaneously several times. The light emitting units 20 are controlled to illuminate separately and sequentially twice, and the first time is that the light emitting units 20 are controlled to illuminate separately and sequentially with a first illumination duration and a first illumination interval, and the second time is that the light emitting units 20 are controlled to illuminate separately and sequentially with a first illumination duration and a gradually increasing second illumination interval. The first illumination duration, the first illumination interval, the second illumination duration, and the second illumination interval in this embodiment could be decided according to the codes stored in the register or registers. In one embodiment, the first illumination duration and the first illumination interval can be controlled according to the codes received by the registers 164 and the second illumination duration and the second illumination interval can be controlled according to the codes received by the registers. 166. Therefore, various lighting patterns are available in the second stage to achieve various visual effects. In practice, various lighting ranges are not limited to the second stage of the present invention. According to another embodiment, the first illumination interval controlled according to the codes received by the registers 164 can also gradually increase, and the rate of increase of the first illumination interval can be different from that of the second illumination interval. Therefore, a specific visual effect can be achieved in the first lighting stage. In addition, the first illumination duration and the second illumination duration can also be variable according to the codes received by registers 164 and 166.

Please refer to Fig. 4, Fig. 4 is a schematic diagram illustrating the light emitting device coupled to the object 3 in accordance with another embodiment of the present invention. As shown in figure 4, object 3 is a shoe. The controller 10 and the light-emitting units 20 of the light-emitting device are arranged in a portion 322 of the heel of the sole 32. When the user walks or runs, the motion actuator in the controller 10 will trigger the control circuit to activate the light emitting units 20 that light up / blink in a predetermined way, such as the ways described previously. Furthermore, the illumination or flickering of the light emitting units 20 provides strong and safety illumination when the user walks or runs at night. Additionally, the object of the present invention can be other shoes, such as a casual or formal shoe, a sandal and a boot; a garment, such as a jacket, raincoat, and pants; an accessory, such as a bag, backpack, belt, watch, and cap.

Obviously, the light emitting device and controller thereof of the present invention are compact, energy efficient, and can be adapted for use on many different objects and items to provide a larger area of illumination / flickering in a sequence and simultaneous flickering of more than once. Furthermore, the light emitting device of the present invention can be applied to various objects to provide intense illumination for night activities.

Although the present invention has been illustrated and described with reference to the preferred embodiment thereof, it should be understood that it is not limited in any way to the details of said embodiment, but is capable of numerous modifications within the scope of the appended claims.

Claims (19)

A controller for controlling a plurality of light emitting units that are configured to engage an object, the controller comprising: a waterproof cover configured to engage the object; a battery, arranged within the waterproof cover and electrically coupled to the anodes of the light emitting units; a motion actuator, disposed within the waterproof cover and configured to detect movement of the object; and a control circuit, arranged inside the waterproof cover, the control circuit comprising a power plug, an OS plug and a plurality of trigger pins, the power plug is electrically coupled to the battery to receive electrical power, one terminal of the motion actuator is coupled to the OS plug and another terminal of the motion actuator is coupled to the battery, the actuating pins are coupled to the cathodes of the light-emitting units respectively, and all anodes of the light emitting units are coupled to the battery; the control circuit being configured to drive the light emitting units by turning on separately and sequentially, and then flashing simultaneously several times according to the detection result of the motion actuator. The controller of claim 1, wherein the waterproof cover is formed by fusing a top plastic cover with a plastic container, and the battery, motion actuator, and control circuit are placed between the cover. plastic top and plastic container. The controller of claim 1, wherein the control circuit further comprises a register that is coupled to an external electronic device to receive at least one code, and the at least one code corresponds to the duration of illumination, the illumination interval or the flashing frequency of the light emitting units. The controller of claim 1, wherein the control circuit further comprises a storage cell and a toggle button, the storage cell is configured to store a plurality of predetermined shapes of illumination patterns of the light emitting units, and the toggle button is configured to be depressed to toggle the predetermined shapes of illumination patterns. The controller of claim 1, wherein the control circuit activates illumination of the light emitting units by illuminating separately and sequentially with a first illumination interval, and then simultaneously flashing several times. The controller of claim 1, wherein the control circuit activates the light emitting units that light up separately and sequentially twice, and then flashing simultaneously several times with a second illumination interval. The controller of claim 6, wherein the control circuit activates the light emitting units by illuminating separately and sequentially with a fixed illumination duration and then with a gradually changed illumination duration, and then simultaneously flashing several times with a second duration of illumination. The controller of claim 6, wherein the controller further comprises a selector electrically coupled to the control circuit, the selector generates a selection signal for the control circuit and the control circuit selectively controls the number of the plurality of light emitting units to emit light according to the selection signal. 9. A light-emitting device for an object, the light-emitting device comprising: a plurality of light emitting units configured to be placed on the object, the light emitting units comprising an anode and a cathode respectively; and a controller coupled to the light emitting units, further comprising: a waterproof cover configured to engage the object; a battery, arranged within the waterproof cover and electrically coupled to the anodes of the light emitting units; a motion actuator, disposed within the waterproof cover and configured to detect movement of the object; and a control circuit, arranged within the waterproof cover, the control circuit being configured to drive the light emitting units by turning on separately and sequentially, and then simultaneously flashing several times according to the detection result of the light actuator movement; wherein the waterproof cover is resin or plastic material formed by injection molding; and the battery, motion actuator, and control circuit are encapsulated in the waterproof molded cover, wherein the control circuit is electrically connected to the light-emitting units by a plurality of wires and the portion of the waterproof cover through which the plurality of penetrating cables is sealed by resin or plastic material. The light emitting device of claim 9, wherein the control circuit comprises a power pin, an OS pin, and a plurality of trigger pins, the power pin being electrically coupled to the battery to receive power. electrical, one terminal of the motion actuator is coupled to the OS plug and another terminal of the motion actuator is coupled to the battery, the actuating pins are coupled to the cathodes of the light emitting units respectively, and all the anodes of the the light emitting units are coupled to the battery The light emitting device of claim 9, wherein the control circuit further comprises a register to be coupled to an external electronic device to receive at least one code, and the at least one code corresponds to the duration of the illumination, illumination interval or flashing frequency of the light emitting units. The light emitting device of claim 9, wherein the control circuitry further comprises a storage cell and a toggle button, the storage cell is configured to store a plurality of predetermined forms of lighting patterns of the light emitting units, and the toggle button is configured to be pressed to change the default shapes of lighting patterns. The light emitting device of claim 9, wherein the control circuit drives the light emitting units that are illuminated separately and sequentially with a first illumination interval, and then flash several times simultaneously. The light emitting device of claim 9, wherein the control circuit operates the light emitting units that are illuminated separately and sequentially twice, and then simultaneously flash several times with a second illumination interval. The light emitting device of claim 14, wherein the control circuit operates the light emitting units that are illuminated separately and sequentially with a fixed illumination duration and then with a gradually changing illumination duration, and then they flash simultaneously several times with a second illumination duration. The light emitting device of claim 9, wherein the controller further comprises a selector electrically coupled to the control circuit, the selector generates a selection signal for the control circuit, and the control circuit selectively controls the number of the plurality of light emitting units for emitting light in accordance with the selection signal. 17. A light-emitting device for an object, the light-emitting device comprising: a plurality of light emitting units configured to be placed on the object, the light emitting units comprising an anode and a cathode respectively; and a controller coupled to the light emitting units, further comprising: a waterproof cover configured to fit on the object; a battery, arranged within the waterproof cover and electrically coupled to the anodes of the light emitting units; a motion actuator, disposed within the waterproof cover and configured to detect movement of the object; and a control circuit, arranged inside the waterproof cover, the control circuit comprising a power plug, an OS plug and a plurality of trigger pins, the power plug is electrically coupled to the battery to receive electrical power, one terminal of the motion actuator is coupled to the OS plug and another terminal of the motion actuator is coupled to the battery, the drives are coupled to the cathodes of the light emitting units respectively, and all the anodes of the light emitting units are coupled to the battery; wherein the control circuit, according to the motion actuator detection result, is configured to drive the light emitting units turned on one by one so that all the light emitting units are turned on, and then all the units light emitters flash simultaneously several times. The light emitting device of claim 17, wherein the control circuit further comprises a register configured to be coupled to an external electronic device to receive at least one code corresponding to the duration of illumination, the interval of lighting or the flicker frequency of the light emitting units. The light emitting device of claim 17, wherein the controller further comprises a selector electrically coupled to the control circuit, the selector generates a selection signal for the control circuit, and the control circuit selectively controls the number of the plurality of light emitting units for emitting light according to the selection signal.