WO2024032019A1 - Building block particle type smart led lamp - Google Patents

Abstract

The present invention relates to the technical field of LED lamp application, research and development in building block toys, in particular, to a building block particle type smart LED lamp and an energy-saving control method. The building block particle type smart LED lamp comprises a lamp box, an LED lamp, and a smart control system; the building block particle type smart LED lamp consisting of the lamp box, the LED lamp, and the smart control system can be directly connected on a building block toy model; the smart control system maintains a periodic dormancy-working mode, can receive and identify a wireless control signal sent by a wireless control device, and according to the identified wireless control signal, controls whether to lighten the LED lamp. The beneficial effects are that: the technical problem that "lamp lines of building block LED lamps affect the conciseness, lightness, and exquisiteness quality of building block toy models" a person skilled in the art desires to solve is effectively solved, and the technical problem of remarkably improving the service life of batteries is also effectively solved, thereby providing a better sense of achievement for users.

Description

A kind of building block particle type intelligent LED lamp Technical field

The present invention relates to the technical field of application research and development of LED lamps in building block toys, and in particular to a building block particle type intelligent LED lamp.

Background technique

The "building block particles" mentioned in the present invention refer to each building block part in the "particle building block toys"; the "particle building block toys" refer to the building block toys represented by "LEGO classic particle building block toys", including "Lego classic particle building block toys", "large particle building block toys", "6 mm particle building block toys", "micro particle building block toys" or "Kadele particle building block toys" (namely "Tourteen-sided building block toys", authorization announcement number It is a building block toy disclosed in the Chinese invention patent document CN104190091B).

In the shape of "particle building block toys", LED lights or light strings play an important role in "the finishing touch" and are therefore widely used. If you enter "building block LED lights" on a website or e-commerce platform to search, you will find a lot of "building block LED lights", whether it is a single LED light or a string of multiple LED lights, and whether the building blocks are simple in shape or Complicated, the LED lights or light strings used have a light cord with a plug. In order to facilitate the layout and control of LED lights or light strings in some complex and large building block toy shapes, the applicant has designed and submitted a Chinese invention patent application titled "An Intelligent Lighting Controller (Invention Publication No. CN113811040A)". The " "Smart Lighting Controller" is equipped with a total of 12 LED light sockets in three rows and four columns. Each LED light socket can be connected to one or a string of LED lights. The light line starts from the position of the "Smart Lighting Controller" and runs along the building blocks. The surface of the shape is laid out towards the installation position of the LED lamp, and then intelligent control is realized through the control program set in the "intelligent lighting controller"; the resulting technical problem is: the light lines of the LED lamp seriously affect the shape of the building block toy Simple, refreshing and beautiful; when the toy shape has a complex structure and many layers, the lighting line layout of the LED lights will make the surface of the building block toy shape more chaotic, and it also makes the building block toy shape unsuitable for local and overall adjustments and changes, and it is not suitable for local and overall adjustments. It is easy to decompose part of the structure as a whole and appreciate the exquisite and small components set inside the shape, such as tables, chairs, sofas, bonsai, etc. in the room.

In order to solve the technical problem of "the light cord of the LED lamp seriously affects the simplicity, refreshing and beautiful appearance of the building block toy", those skilled in the art have made many attempts to improve technology. For example, there is a building block particle LED light without a light cord. , although it has overcome the technical problems caused by the light cord, however, because the control method is manual switch control, you need to manually turn on the switches one by one during use, and cannot achieve intelligent control. Therefore, it cannot satisfy the user's comfortable experience of intelligent control of LED lights.

Another name is "breathing light of spliced building blocks", including two control methods: "manual press control switch control" and "intelligent terminal control"; its description of the technical solution of "intelligent terminal control" is: "several breathing The light building blocks are installed in a matrix on the light box bottom building blocks. The light box bottom building blocks are connected to smart terminals (such as smart watches, smart phones, smart tablets and other smart wearable devices). The smart terminals control the breathing lights to flash and continue in a regular manner. Dimming or always on/off; the neatly arranged breathing light blocks can display letters, symbol combination information or square word information." That is, the "smart terminal" is connected through the "light box bottom board block" to realize the "light box bottom board block" connection. If the "breathing light" is controlled by the "light box floor building block", the "smart terminal" cannot directly control each of the "breathing lights of the spliced building blocks".

There is also a toy building block lamp called "a toy building block lamp". The power supply device of the "toy building block lamp" can be a button battery, which can be arranged in the receiving cavity of the building block body and connected with the circuit board of the light-emitting component. connection, which can be used to power the light-emitting component; the building block body is also provided with an induction switch, which can be set on the side wall of the building block body, and which can be an induction switch. Specifically, it can be a voice-activated switch or a light-activated switch. ; The switch is not limited to an inductive switch, it can be a sliding switch or a key switch; the switch can be connected to the light-emitting component, and it can control the light-emitting component to turn on or off; the remote control can be an infrared remote control, and the light-emitting building block can An infrared receiving module is provided that is inductive to the remote control. The remote control can be connected to each luminous building block, and each luminous building block can be independently controlled by the remote control. The power supply device of this technical solution is a button battery, and the power of a button battery used in a luminous building block is generally 200mAh. A building block particle LED light with an infrared sensing device consumes about 10 to 20 seconds of electricity per hour. About milliamps, if no effective energy-saving technical measures are taken, it can be used for about one day.

To sum up, in the existing technology of "granular building block toys", on the one hand, the lighting system composed of the building block LED lights with light lines connected to the intelligent lighting master controller can achieve intelligent lighting control very well. However, The existing light line seriously affects the simplicity, freshness and beauty of the building block toy's shape. It is a technical problem that people have been eager to solve but have never been successful. On the other hand, people are trying to solve the technical problem of this technical problem. , either there is only manual switch control but no intelligent control; or it needs to use a "light box floor building block" to achieve intelligent control; or it can achieve wireless control through voice control or light control technology, but because there are no energy-saving technical measures, the used Button batteries need to be replaced frequently because they consume power quickly. In short, so far, no technical solution has been found in this technical field to effectively solve this technical problem.

Therefore, if we can overcome the technical problems existing in the existing LED lights in the shape of building block toys and develop an energy-saving wireless intelligent control LED light for building block toys, it will not only solve the technical problems that people have been eager to solve but have never succeeded in , overcoming the existing technical prejudice, a disruptive technological revolution will occur in the technical field of LED lights applied to building block toys.

Contents of the invention

In order to solve the technical problem that technicians in the field of building block toys are eager to solve, "the light line of the LED lamp affects the simple, refreshing and exquisite quality of the building block toy", the present invention proposes a technical solution for a building block particle type intelligent LED lamp as follows:

A building block particle type intelligent LED lamp. The building block particle type intelligent LED lamp includes a light box, an LED lamp, and an intelligent control system; a building block particle splicing structure is provided below the light box, which can be directly spliced on the building block toy shape; The LED lamp is connected to the intelligent control system and packaged in the lamp box; the intelligent control system includes a main control IC and a battery, and the main control IC includes a wireless communication module; the main control of the intelligent control system The IC is provided with a working program that controls the intelligent control system to maintain a periodic sleep working mode. The working program of the periodic sleeping working mode includes: after the intelligent control system sleeps for 3.490 seconds, it works for 0.007 seconds; During operation, the intelligent control system can receive and identify the wireless control signal sent by the wireless control device. When the received wireless control signal does not contain the ID number of the intelligent control system, the intelligent control system continues to sleep; when the received wireless control signal does not contain the ID number of the intelligent control system, the intelligent control system continues to sleep; When the wireless control signal contains the ID number of the intelligent control system, the intelligent control system controls the LED lamp to light up according to the working procedure.

The working procedure of the intelligent control system to maintain the periodic sleep working mode is an energy-saving technical measure developed for the technical solution of the building block particle intelligent LED light festival; a set of experiments on the periodic sleeping working mode The detection data is: the intelligent control system is equipped with a button battery with a voltage of 3 volts and a capacity of 130 mAh. A sleep cycle is 3.497 seconds, of which the sleep time is 3.490 seconds and the working time is 0.007 seconds; in the sleep state, all Most of the functions of the above-mentioned intelligent control system stop working and maintain such a charged sleep state. The average power consumption for one hour is about 47.84 microamps/hour, and the average power consumption for a day is about 47.84 microamps/hour × 24 hours/day = 1148 microamps/day, that is, 1.148 milliamperes/day; the working time of a button battery is approximately 130 milliamperes ÷ 1.148 milliamperes/day = 113 days.

It can be seen that the intelligent control system adopts energy-saving technical measures to maintain periodic sleep working mode, which significantly increases the service life of a button battery, greatly reduces the number of battery replacements, and achieves a better user experience.

Since the above-mentioned building block particle smart LED lamp can be directly spliced at the corresponding position in the building block shape, and relies on its own intelligent control system to achieve intelligent control, it no longer requires light wire connection, and adopts a periodic sleep working mode to save energy. The technical measures have effectively solved the technical problem that those skilled in the art are eager to solve: "the light lines of building block LED lamps affect the simplicity, refreshing and exquisite quality of building block toys". It not only significantly improves the simplicity and refreshing shape of granular building block toys. , exquisite quality, and also effectively solves the technical problem of significantly extending battery life, providing users with a better sense of accomplishment experience.

On the basis of the above-mentioned core technical solutions, according to the actual situation, some technical features of the said building block particle smart LED lamp are further improved and limited, and a variety of optimized practical technical solutions can be obtained.

Description of drawings

Figure 1a is a schematic diagram of the first lamp box structure of a building block type intelligent LED lamp according to the present invention. The lamp board and the lamp box are connected in a detachable slot type;

Figure 1b is a schematic diagram of the exploded structure of the building block particle smart LED lamp described in Figure 1a;

Figure 1c is a bottom view of Figure 1a, showing that the assembly structure provided below the light box is an A-shaped cylindrical bump;

Figure 2 is a schematic diagram of the connection between the intelligent control system and the LED light of the building block type intelligent LED light described in Figure 1a;

Figure 3a is a schematic diagram of the second improved light box structure based on the building block type smart LED lamp described in Figure 1a. The light board is covered on the first veneer of the light box and is non-removable and fixedly connected to the light box;

Figure 3b is a schematic diagram of the exploded structure of the building block particle smart LED lamp described in Figure 3a;

Figure 3c is a bottom view and a rear view of Figure 3a. The bottom view shows that the assembly structure provided below the light box is an A-shaped cylindrical bump; the rear view shows the button battery push rod hole behind the light box;

Figure 4a is a schematic diagram of a third improved light box structure based on the building block type smart LED lamp described in Figure 3a. The light board is covered on the second veneer of the light box and is non-removable and fixedly connected to the light box;

Figure 4b is an exploded view of the structure of the building block type intelligent LED lamp described in Figure 4a;

Figure 5a is a schematic diagram of a fourth improved light box structure based on the building block type smart LED lamp described in Figure 3a. The fourth light box is a circular light box;

Figure 5b is a bottom view and a rear view of Figure 5a. The bottom view shows that the assembly structure provided below the light box is an A-shaped cylindrical bump; the rear view shows the button battery push rod hole behind the light box;

Figure 6a is a schematic structural diagram of the fifth light box of a building block type intelligent LED lamp according to the present invention;

Figure 6b is an exploded view of the structure of the building block type intelligent LED lamp described in Figure 6a;

Figure 6c is a schematic diagram of the lamp box holder in Figure 6b;

Figure 6d is a schematic diagram of the lamp box cover in Figure 6b;

Figure 6e is a schematic diagram of the button battery compartment cover in Figure 6b;

Figure 6f1 is a schematic diagram of the first type of light panel structure in Figure 6b. The light-transmitting part of the first type of light panel is a plane;

Figure 6f2 is a schematic diagram of the second type of light panel structure in Figure 6b. The light-transmitting part of the second type of light panel is provided with groove patterns;

Figure 6f3 is a schematic diagram of the third type of light panel structure in Figure 6b. The light-transmitting part of the third type of light panel is a convex mirror;

Figure 6f4 is a schematic diagram of the fourth type of light panel structure in Figure 6b. The light-transmitting part of the fourth type of light panel is a concave mirror;

Figure 6f5 is a schematic diagram of the fifth light panel structure in Figure 6b. The light-transmitting part of the fifth light panel is provided with a light guide strip socket;

Figure 6g is a schematic diagram of the intelligent control system in Figure 6b;

Figure 6h is a schematic diagram of the connection between the intelligent control system and the LED light in Figure 6g;

Figure 7a is a schematic diagram of the sixth light box structure improved based on the building block type intelligent LED light described in Figure 6a. The LED light is not installed on the main board in the light box, and 5 LED light sockets are added, and the original light board is installed. A second cylindrical protrusion is provided on the light-transmitting part for splicing a lamp box shape, and 5 LED lamps with short lamp cord plugs are correspondingly arranged in the lamp box shape;

Figure 7b is a schematic structural view of the sixth type of lamp box with second cylindrical bumps described in Figure 7a;

Figure 7c is a schematic structural diagram of the light box shape in Figure 7a. The light box shape is pentagonal. Each corner is provided with an LED lamp with a short lamp cord plug. The middle part of the light box shape is provided with a third Two cylindrical bump sockets;

Figure 7d is a schematic structural diagram of the pentagonal light panel in the shape of the light box shown in Figure 7c;

Figure 7e is a schematic diagram of the connection between the intelligent control system and the LED light of the building block type intelligent LED light described in Figure 7a;

Figure 8a is a schematic diagram of the seventh light box structure improved from the building block type intelligent LED light described in Figure 1a. Only LED lights are installed in the seventh light box, and a C1-shaped cylindrical convex is provided below the light box. A chip socket with LED light pins inside;

Figure 8b is an exploded schematic diagram of the seventh lamp box described in Figure 8a;

Figure 8c is a bottom view of the seventh type of light box described in Figure 8a, showing the C1-type cylindrical bump socket and the pins of the LED lamp below;

Figure 8d is a schematic diagram of the system box of the building block type intelligent LED lamp described in Figure 8a. The intelligent control system is packaged in the system box;

Figure 8e is an exploded schematic diagram of the system box described in Figure 8d;

Figure 8f is a bottom view of the system box described in Figure 8a, showing the C1-type cylindrical bumps and positive and negative electrode contacts below;

Figure 8g is a schematic diagram of the connection between the intelligent control system and the LED light of the building block type intelligent LED light described in Figure 8a;

Figure 9 is a schematic diagram of the size and structure of the building block particles of the "Lego Classic Particle Building Block Toy";

Figure 10 is a schematic diagram of the size and structure of the building block particles of the "large particle building block toy";

Figure 11 is a schematic diagram of the size and structure of the building block particles of the "6 mm building block toy";

Figure 12 is a schematic diagram of the size and structure of the building block particles of the "micro-particle building block toy";

Figure 13a is a schematic diagram of the size and structure of a single building block particle of the "Kadele Particle Building Block Toy";

Figure 13b is a schematic structural diagram of the two building block particles shown in Figure 13a assembled together;

Figure 13c is a schematic structural diagram of a "building block particle" composed of the three single-piece building block particles described in Figure 13a;

Figure 14 is a picture of the power consumption test data of a button battery with a voltage of 3V and a capacity of 130 mA that remains charged and in a dormant working state.

Explanation of reference symbols:
1 light box, 11 box body, 111 claw groove, 112 accommodation cavity, 113 first veneer, 114 button battery loading and unloading port, 115
Button battery push rod hole, 116 second veneer, 117 C1 type cylindrical boss socket;
101 box base, 1011 first pin, 1012 second pin hole, 1013 first cylindrical bump bayonet, 1014 battery compartment negative lining plate, 1015 main board lining plate, 1016 light panel first installation half slot, 1017 LED light socket;
102 box body cover, 1021 first pin hole, 1022 second pin, 1023 first cylindrical boss bayonet stop, 1024 first cylindrical boss, 1025 battery compartment mouth, 1026 second installation half slot of light panel;
103 button battery compartment cover, 1031 slide;
12 light panel, 121 light transmitting part, 1211 smooth surface, 1212 pattern groove, 1213 convex mirror, 1214 concave mirror, 1215 light guide strip socket,
122 mounting part, 1221 limit slot, 1222 edge chamfering, 123 claw, 124 LED light receiving cavity, 125 second cylindrical convex grain;
13 light box shape, 131 pentagonal box body, 132 pentagonal light panel, 133 second cylindrical convex socket,
14 system box, 141 system box holder, 142 system box cover, 1411 charging socket,
2 LED lights, 21 LED light pins, 22 short light cord plugs;
3 Intelligent control system, 31 motherboard, 311 battery compartment positive pole, 312 battery compartment negative pole, 313 protective plate, 314 motherboard card slot, 321 button battery, 322 button battery pack, 323 rechargeable battery, 33 LED light socket, 34 LED light lead Pin contacts, 341 LED light motherboard contacts, 35 charging socket;
Type A cylindrical bumps refer to the cylindrical bumps of the building block particles of "LEGO classic particle building block toys", that is, the diameter is 4.8
mm, height is about 1.8 mm;
Type B cylindrical convex bead embedding port refers to the cylindrical convex bead inlay port of the "Lego classic particle building block toy", that is, the diameter is
4.8 mm, height approximately 2.1 mm;
C-type cylindrical bumps refer to the auxiliary cylindrical bumps set up in the "Lego classic particle building block toy" to form the B-type cylindrical bump embedding opening, that is, the diameter is 6.4 mm and the height is the same as the B-type cylindrical bump embedding opening. height equal;
C1 type cylindrical bumps refer to C-type cylindrical bumps with LED light pin contacts;
C1 type cylindrical bump socket refers to a C-type cylindrical bump socket with LED light pins;
P=8 mm, P refers to the center distance between the two cylindrical convex particles of the "Lego classic particle building block toys" building block particles, d=4.8
mm, 2P=2×8-0.2=15.8 mm, h=3.2 mm, h1=1.8 mm;
Pd=16 mm, Pd refers to the center distance between the two cylindrical convex particles of the "large particle building block toy" building block particles, dd=3.6
mm, 2Pd=2×16-0.2=31.8 mm; hd=9.6 mm;
P6 = 6 mm, P6 refers to the center distance between the two cylindrical convex particles of the "6 mm particle building block toy" building block particles, d6 = 6
mm, 2P6=2×6-0.2=11.8 mm, d6=3.6 mm;
Pw=4 mm, Pw refers to the center distance between the two cylindrical convex particles of the building block particles of the "micro-particle building block toy", dw=2.5
mm, 2Pw=2×4-0.2=7.8 mm;
Pk = 8 mm, Pk refers to the center distance between the two cylindrical convex particles of the building block particles of "Kadele Particle Building Block Toy",
dk=2.5 mm, h3 is the height dimension of the cylindrical bump, h3≤2.5 mm; h4 is the height dimension of the cylindrical bump socket, h4≥2.5 mm.

Detailed ways

The technical solution of the building block particle type intelligent LED lamp according to the present invention will be further described below in conjunction with the specific implementation:

Example 1:

As shown in Figure 1a, Figure 1b, Figure 1c, and Figure 2, a building block particle type intelligent LED lamp includes a lamp box 1, an LED lamp 2, and an intelligent control system 3; the lamp box 1 is provided with a building block particle splicing structure below, which can be directly spliced on the building block toy shape; the LED lamp 2 is connected to the intelligent control system 3 and is packaged in the light box 1; the intelligent control system 3 includes a main Control IC and battery, the main control IC includes a wireless communication module; the main control IC of the intelligent control system is provided with a working program that controls the intelligent control system to maintain a periodic sleep working mode, and the periodic sleep working mode The working procedure of the mode includes: the intelligent control system sleeps for 3.490 seconds every time, that is, it works for 0.007 seconds; during the operation, the intelligent control system can receive and identify the wireless control signal sent by the wireless control device. When the received wireless control signal When there is no ID number of the intelligent control system in the wireless control signal, the intelligent control system continues to sleep; when the received wireless control signal contains the ID number of the intelligent control system, the intelligent control system controls the LED lamp according to the working procedure. Light up.

The building block particle smart LED lamp is the same as an ordinary building block particle. It is spliced to the placement point as required. Since it maintains a periodic sleep working mode, when it needs to be lit, it can be lit by transmitting the corresponding wireless control signal through the wireless control device. ; It can be used alone as a ceiling lamp, wall lamp, floor lamp, table lamp, etc. in the interior of building toy building shapes, or as a decorative lamp for outdoor natural landscapes, streetscape decorative lamps, street lamps, stars in the sky, fishing fires in the distance, etc. , and can also be grouped into various lighting shapes; therefore, it brings a good application experience to the majority of building block enthusiasts.

Example 2:

As shown in Figures 1a to 1c and Figure 2, compared with Embodiment 1, the difference in this embodiment is that the battery matched with the intelligent control system 3 is a button battery 321. The supporting lamp box 1 is a first square lamp box; the building block particle splicing structure below the first square lamp box is an A-shaped cylindrical convex particle; the left and right side plates of the box body 11 Provided with a claw groove 111, the lamp panel 12 of the first square lamp box includes a light-transmitting portion 121, Installation part 122; the installation part 122 is two side plates provided with claws 123; the claws 123 are engaged with the claw grooves 111, so that the box body 11 and the light panel 12 are detachably and fixedly connected.

Embodiment three:

As shown in Figures 3a, 3b, and 3c, compared with Embodiment 2, the difference in this embodiment is that the light box 1 matched with the intelligent control system 3 is a second type of square light box. The front side panel of the box body 11 of the second type of square light box is provided with a button battery loading and unloading port 114, and the rear side panel (as shown in Figure 3c) is provided with a button battery push rod hole 115. The accommodation cavity 112 of the box body 11 A first veneer 113 is provided; accordingly, the light panel 12 of the second square lamp box is a flat plate, and the mounting portion 122 of the light panel 12 is fixedly connected to the first veneer 113 in a non-detachable manner.

In this embodiment, when replacing the button battery, the old button battery can be removed through the button battery push rod hole, and then a new button battery can be installed through the button battery loading and unloading port. There is no need to disassemble the entire intelligent control system 3. Out, simple and convenient.

Embodiment 4:

As shown in Figure 4a and Figure 4b, compared with Embodiment 3, the difference of this embodiment is that: the intelligent control system 3 also includes a guard plate 313; correspondingly, the lamp box 1 is a third type of square lamp box, the box body 11 of the third square lamp box is provided with a second veneer 116; the mounting portion 122 of the lamp panel 12 of the third square lamp box is non-detachably attached to the box body 11 On the second veneer 116.

The function of the protective plate 313 is to prevent the insulating protective film of the components on the intelligent control system from being scratched when the button battery is replaced.

Embodiment five:

As shown in Figures 5a to 5b, compared with Embodiment 3, the difference in this embodiment is that the light box 1 matched with the intelligent control system 3 is a fourth type of light box, and the fourth type of light box The box body 11 of the box is a circular box body. Correspondingly, the first veneer 113 and the lamp panel 12 of the fourth lamp box body 11 are both circular.

Embodiment 6:

As shown in Figures 6a to 6h, compared with Embodiment 2, the difference of this embodiment is that: the intelligent control system 3 also includes an LED light socket 33; correspondingly, the battery matched with the intelligent control system 3 It is a button battery pack 322; the light box 1 matched with the intelligent control system 3 is the fifth type of light box, and the fifth type of light box is a split structure, including a box base 101 and a box cover 102; The box base 101 includes a first pin 1011, a second pin hole 1012, a first cylindrical protrusion bayonet 1013, a battery compartment negative lining 1014, a mainboard lining 1015, a first half-slot for installing the light panel 1016, LED lamp socket 1017; the box cover 102 includes a first pin hole 1021, a second pin 1022, a first cylindrical protrusion bayonet stop 1023, a first cylindrical protrusion 1024, a battery compartment opening 1025, and a light panel The second installation half-slot 1026; the light-transmitting part of the light panel 12 of the fifth type of light box is a flat surface 1211, and the light panel 12 of the fifth type of light box also includes an LED light receiving cavity 124 and a limiting slot 1221 , give way and trim 1222; the corresponding parts of the lamp panel 12, the box base 101 and the box cover 102 are aligned and plugged into one body, and the intelligent control system 3 is packaged in the lamp box 1.

The building block particle type smart LED lamp described in this embodiment has the added function of being able to connect one LED lamp in parallel. It can be used alone or with one more LED lamp in parallel. Since one more LED lamp can be connected in parallel, the above-mentioned The power consumption of a building block type smart LED lamp will also increase when it is working. Therefore, at least two button battery packs need to be configured to ensure the power supply time. In some scenarios, when one of the building block smart LED lights is used alone, The brightness will appear weaker, so you can use this kind of building block smart LED light with an LED light socket, and connect an external LED light with a light cord and plug to effectively increase the local brightness.

Embodiment 7:

As shown in Figures 7a to 7e, compared with Embodiment 6, the difference of this embodiment is that: the intelligent control system 3 also includes 5 LED light sockets 33, and no LED lights are installed in the intelligent control system 3. The lamp panel 12 is provided with a second cylindrical protrusion 125. Correspondingly, the lamp box 1 matched with the intelligent control system 3 is the sixth type of lamp box, and the sixth type of lamp box also includes a supporting The lamp box shape 13; the lamp box shape 13 is pentagonal, including a pentagonal box body 131 and a pentagonal light panel 132. An LED lamp 2 with a short light cord plug 22 is installed on each corner of the pentagonal box body 131. , a second cylindrical convex socket 133 is provided in the lower middle of the pentagonal box 131; the pentagonal light panel 132 is fixedly sealed on the pentagonal box 131, and the second cylindrical convex socket 133 is connected to the second cylindrical socket 133. Two cylindrical protrusions 125 are spliced together, and the short lamp cord plug 22 of the LED lamp 2 is plugged into an LED lamp socket 33 respectively.

This embodiment provides an example of a pentagonal light box shape. Based on this technical concept, various exquisite light box shapes can also be produced to enrich the decorative effect of the building block toy shape.

Embodiment 8:

As shown in Figures 8a to 8c, compared with Embodiment 2, the difference of this embodiment is that the light box 1 is a seventh type of light box, and only LEDs are installed in the box 11 of the seventh type of light box. Lamp 2, correspondingly, a C1-type cylindrical bump socket 117 is provided on the bottom of the box 11, and the pin 21 of the LED lamp 2 is arranged in the C1-type cylindrical bump socket 117;

As shown in Figures 8d to 8g, the battery matched with the intelligent control system 3 is a rechargeable battery 323. The intelligent control system 3 also includes a charging socket 35. Correspondingly, the intelligent control system 3 Matched with the rechargeable battery 323 is a system box 14. The system box 14 includes a system box holder 141 and a system box cover 142; the system box holder 141 is provided with A-shaped cylindrical bumps on the bottom and a charging pad on the front. Socket port 1411; the system box cover 142 is provided with C1-type cylindrical bumps, and the C1-type cylindrical bumps are provided with LED lamp pin contacts 34 led from the intelligent control system 3; the seventh type The lamp box is connected to the C1-type cylindrical bumps on the system box 14 through the C1-type cylindrical bump socket 117, and can realize power supply connection with the intelligent control system 3.

The beneficial effect of this embodiment is that since the battery of the intelligent control system can be recharged, the building block-type intelligent LED lamp is easier and faster to use.

Embodiment 9:

Compared with any of the embodiments described in Embodiment 1 to Embodiment 6 and Embodiment 8, the difference of this embodiment is that the surface of the light-transmitting part 121 of the lamp panel 12 in the lamp box 1 also includes pattern grooves 1212, such as As shown in Figure 6f2; or the light-transmitting part 121 of the lamp panel 12 in the lamp box 1 is a convex mirror 1213, as shown in Figure 6f3. Correspondingly, the material of the lamp panel 12 on the lamp box is an acrylic plate or glass; Or the light-transmitting part 121 of the lamp panel 12 in the lamp box 1 is a concave mirror 1214, as shown in Figure 6f4. Correspondingly, the material of the lamp panel 12 is an acrylic plate or glass; or the lamp in the lamp box 1 The light-transmitting part 121 of the plate 12 is provided with a light guide strip socket 1215, which can insert a light guide strip, as shown in Figure 6f5. Correspondingly, the material of the lamp plate 12 on the lamp box is light-shielding plastic. The shape change of the light-transmitting part of the light panel on the light box can produce different lighting effects, thereby enriching the artistic creation space of toy shapes.

Embodiment 10

As shown in Figures 10 to 12 and 13a, compared with any of the embodiments described in Embodiment 1 to Embodiment 9, the difference in this embodiment is: the lower surface of the light box 1 matched with the intelligent control system 3 The assembly structure also includes the splicing structure of "large particle building block toys", "6 mm particle building block toys", "micro particle building block toys" or "Kadele particle building block toys".

The "large particle building block toys", "6 mm particle building block toys", "micro particle building block toys" or "Kadele particle building block toys" are also based on the "hole and column insertion principle", using cylindrical convex particles and cylindrical convex particles. The embedding ports adopt an interference fit, and the cylindrical convex particles of one building block particle are squeezed into the cylindrical convex particles of another building block particle for splicing. As shown in Figure 9, it is the size specification of the building block particles and the splicing structure of the "LEGO Classic Particle Building Block Toy"; as shown in Figure 10, it is the size specification of the building block particles and the splicing structure of the "Large Particle Building Block Toy" ; As shown in Figure 11, it is the size specifications of the building block particles and the splicing structure of the "6 mm particle building block toy"; as shown in Figure 12, it is the size of the building block particles and the splicing structure of the "micro particle building block toy" Specifications: As shown in Figures 13a to 13c, they are the size specifications of the building block particles and splicing structure of the "Kadele Particle Building Block Toy".

Embodiment 11:

Compared with any of the embodiments described in Embodiment 1 to Embodiment 10, the difference in this embodiment is that the wireless control signals received and recognized by the intelligent control system 3 include broadcast Bluetooth signals sent by wireless control devices, 2.4G control signal; the wireless control device includes a smart mobile terminal, a remote control or a main controller.

The main controller refers to an intelligent control device provided in the shape of an intelligent building block toy, which can store and execute the control instructions of the building block particle type intelligent LED lamp according to the present invention.

Embodiment 12:

Compared with Embodiment 11, the difference of this embodiment is that the smart mobile terminal can also send and store the wireless control signal to the remote control, and send the signal to the building block particle smart LED lamp through the buttons of the remote control. The intelligent control system 3 sends a wireless control signal; or the intelligent mobile terminal can also send and store the wireless control signal to the main controller, and then send the wireless control signal to the intelligent control system of the building block particle smart LED lamp through the main controller. 3Send wireless control signals.

The beneficial effects of the building block particle type intelligent LED lamp of the present invention are: first, because the building block particle type intelligent LED lamp can be directly spliced at the corresponding position in the building block shape, intelligent control can be realized by relying on its own intelligent control system. , no longer requires a light cord connection, and has adopted energy-saving technical measures to maintain a charged dormant state that regularly receives wireless control signals. It not only significantly improves the simplicity, refreshing and exquisite quality of granular building block toys, but also effectively solves this problem. The technical problem that technicians in the field are eager to solve is "the light lines of building block LED lights affect the simple, refreshing and exquisite quality of building block toys". It also effectively solves the technical problem of significantly increasing the battery life, providing users with better achievements. second, the building block particle type light box structure allows each of the building block particle type smart LED lights to be easily installed on the building block toy shape, and can be used individually or in groups; third, Because there is no interference from light wires, it is easy to assemble a new overall shape using the overall shape of each part of a building block toy with a complex structure and rich modeling layers.

The above are only preferred specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto. Any person familiar with the technical field can, within the technical scope disclosed in the present invention, implement the technical solutions of the present invention. Equivalent substitutions or changes to the concepts of the embodiments shall be included within the protection scope of the present invention.

Claims (12)

1. A building block particle type intelligent LED lamp. The building block particle type intelligent LED lamp includes a light box (1), an LED lamp (2), and an intelligent control system (3); the light box (1) is provided with building block particles below. The splicing structure can be directly spliced on the building block toy shape; the LED lamp (2) is connected to the intelligent control system (3) and is packaged in the light box (1); the intelligent control system (3) includes Main control IC and battery. The main control IC includes a wireless communication module. It is characterized in that: the main control IC of the intelligent control system (3) is provided with a device to control the intelligent control system (3) to maintain periodic sleep operation. The working program of the periodic sleep working mode includes: the intelligent control system (3) sleeps for 3.490 seconds, that is, it works for 0.007 seconds; during the working period, the intelligent control system (3) can receive And identify the wireless control signal sent by the wireless control device. When the ID number of the intelligent control system (3) is not included in the received wireless control signal, the intelligent control system (3) continues to sleep; when the received wireless control signal does not contain the ID number of the intelligent control system (3), When there is the ID number of the intelligent control system (3), the intelligent control system (3) controls the LED lamp (2) to light up according to the working program.
2. A building block particle type intelligent LED lamp according to claim 1, characterized in that: the battery matched with the intelligent control system (3) is a button battery (321), and the battery matched with the intelligent control system (3) The matching light box (1) is a first square light box; the building block particle splicing structure below the first square light box is an A-shaped cylindrical convex particle; the left and right sides of the box (11) A claw groove (111) is provided on each side plate. The lamp panel (12) of the first square lamp box includes a light-transmitting part (121) and a mounting part (122); the mounting part (122) is composed of two There is a side plate provided with claws (123); the claws (123) are engaged with the claw grooves (111), so that the box body (11) and the light panel (12) are removably and fixedly connected.
3. A building block particle type intelligent LED lamp according to claim 2, characterized in that: the lamp box (1) matched with the intelligent control system (3) is a second type of square lamp box, and the second The front side panel of the box body (11) of a square light box is provided with a button battery loading and unloading port (114), the rear side panel is provided with a button battery push rod hole (115), and the accommodation cavity (112) of the box body (11) ) is provided with a first veneer (113); correspondingly, the light panel (12) of the second square light box is a flat plate, and the mounting portion (122) of the light panel (12) is in contact with the first veneer. (113) is a non-detachable fixed connection.
4. A building block type intelligent LED lamp according to claim 3, characterized in that: the intelligent control system (3) further includes a guard plate (313); correspondingly, the lamp box (1) is a third A square light box, the box body (11) of the third square light box is provided with a second veneer (116); the mounting portion (122) of the light panel (12) of the third square light box cannot The detachable one is attached to the second surface (116) of the box (11).
5. A building block particle type intelligent LED lamp according to claim 3, characterized in that: the lamp box (1) matched with the intelligent control system (3) is the fourth type of lamp box, and the fourth type The box body (11) of the lamp box is a circular box. Correspondingly, the first veneer (113) and the lamp panel (12) of the fourth lamp box body (11) are both circular.
6. A building block type intelligent LED lamp according to claim 2, characterized in that: the intelligent control system (3) also includes an LED lamp socket (33); correspondingly, the intelligent control system (3) The matching battery is a button battery pack (322); the light box (1) matching the intelligent control system (3) is a fifth type light box, and the fifth type light box is a split structure, including a box. Body base (101), box body cover (102); the box body base (101) includes a first pin (1011), a second pin hole (1012), a first cylindrical convex bayonet (1013), Battery compartment negative pole Lining plate (1014), mainboard lining plate (1015), light panel first installation half groove (1016), LED light socket (1017); the box cover (102) includes a first pin hole (1021), The second pin (1022), the first cylindrical boss bayonet stop (1023), the first cylindrical boss (1024), the battery compartment mouth (1025), the second installation half groove (1026) of the light panel; the second The light board (12) of the five kinds of light boxes also includes an LED light receiving cavity (124), a limiting slot (1221), and a clearance edge (1222); the light board (12) and the box base (101) All parts of the box cover (102) are aligned and plugged into one body, and the intelligent control system (3) is packaged in the light box (1).
7. A building block particle type intelligent LED lamp according to claim 6, characterized in that: the intelligent control system (3) also includes 5 LED lamp sockets (33), and no installation is required in the intelligent control system (3). LED lamp, the lamp panel (12) is provided with a second cylindrical bump (125), correspondingly, the lamp box (1) matched with the intelligent control system (3) is the sixth type of lamp box, The sixth type of lamp box also includes a matching lamp box shape (13); the lamp box shape (13) is pentagonal, including a pentagonal box body (131) and a pentagonal light panel (132). The pentagonal box body An LED lamp (2) with a short light cord plug (22) is installed on each corner of (131), and a second cylindrical convex socket (133) is provided in the lower middle of the pentagonal box (131); The pentagonal light panel (132) is fixedly covered on the pentagonal box (131), the second cylindrical convex socket (133) is spliced with the second cylindrical convex (125), and the LED lamp (2 )'s short light cord plugs (22) are respectively plugged into an LED light socket (33).
8. A building block particle-type intelligent LED lamp according to claim 2, characterized in that: the lamp box (1) is a seventh type of lamp box, and only the box body (11) of the seventh type of lamp box is installed LED lamp (2), correspondingly, a C1-type cylindrical bump socket (117) is provided below the box (11), and the pins (21) of the LED lamp (2) are arranged on the C1-type Inside the cylindrical bump socket (117);

   The battery matched with the intelligent control system (3) is a rechargeable battery (323). The intelligent control system (3) also includes a charging socket (35). Correspondingly, the intelligent control system (3) ) and the rechargeable battery (323) are matched with a system box (14). The system box (14) includes a system box holder (141) and a system box cover (142); the system box holder (141) There is an A-type cylindrical bump on the bottom and a charging socket (1411) on the front; there is a C1-type cylindrical bump on the system box cover (142), and there is a C1-type cylindrical bump on the top of the system box cover (142). The LED lamp pin contacts (34) led out by the control system (3); the seventh type of lamp box is spliced with the C1-type cylindrical bumps on the system box (14) through the C1-type cylindrical bump socket (117). Then the power supply connection can be realized with the intelligent control system (3).
9. A building block particle type intelligent LED lamp according to any one of claims 1 to 6 or 8, characterized in that: the light panel (12) in the light box (1) matched with the intelligent control system (3) ) also includes grooves (1212) on the surface; or the light-transmitting portion (121) of the lamp panel (12) in the lamp box (1) is a convex mirror (1213), correspondingly, so The material of the lamp panel (12) is an acrylic plate or glass; or the light-transmitting part (121) of the lamp panel (12) in the lamp box (1) is a concave mirror (1214). Correspondingly, the lamp panel (12) The material of the lamp panel (12) is an acrylic plate or glass; or the light-transmitting part (121) of the lamp panel (12) in the lamp box (1) is provided with a light guide strip socket (1215), which can be inserted into the light guide strip. Correspondingly, the material of the light panel (12) is light-shielding plastic.
10. A building block particle type intelligent LED lamp according to any one of claims 1 to 9, characterized in that: the assembly structure below the light box (1) matched with the intelligent control system (3) also includes " The splicing structure of "large particle building block toys", "6 mm particle building block toys", "micro particle building block toys" or "Kadele particle building block toys".
11. A building block particle type intelligent LED lamp according to any one of claims 1 to 10, characterized in that: the wireless control signal received and recognized by the intelligent control system (3) includes a broadcast Bluetooth signal sent by a wireless control device, 2.4G control signal; the wireless control device includes a smart mobile terminal, a remote control or a main controller.
12. A building block particle smart LED lamp according to claim 11, characterized in that: the smart mobile terminal can also send and store the wireless control signal to the remote control, and send the signal to the building block through the buttons of the remote control. The intelligent control system (3) of the granular smart LED lamp sends a wireless control signal; or the smart mobile terminal can also send and store the wireless control signal to the main controller, and send the wireless control signal to the building block granular lamp through the main controller. The intelligent control system (3) of the intelligent LED lamp sends wireless control signals.