CN115175397A - Building blocks granule formula intelligence LED lamp - Google Patents

Abstract

The invention relates to the technical field of application research and development of LED lamps in building block toys, in particular to a building block particle type intelligent LED lamp and an energy-saving control method; the building block particle type intelligent LED lamp comprises a lamp box, an LED lamp and an intelligent control system; building blocks granule formula intelligence LED lamp that lamp box, LED lamp, intelligence control system assembled can directly splice on building blocks toy molding, intelligence control system keeps periodic dormancy mode, can receive and discern the wireless control signal that wireless control equipment sent to whether light the LED lamp according to the wireless control signal control of discerning. The beneficial effects are that: the technical problem that the lamp line of the building block LED lamp influences the concise, refreshing and exquisite quality of the building block toy, which is desired to be solved by technical personnel in the field, is effectively solved, the technical problem of obviously prolonging the service life of the battery is effectively solved, and better achievement experience is provided for users.

Description

Building blocks granule formula intelligence LED lamp

Technical Field

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

Background

The building block particles refer to each building block part in a particle type building block toy; the particle type building block toy is a building block toy represented by a 'Legao classical particle building block toy', and comprises a 'Legao classical particle building block toy', 'large particle building block toy', '6 mm particle building block toy', 'micro particle building block toy' or 'Kadele particle building block toy' (namely, a building block toy disclosed by Chinese patent invention document named as 'fourteen-surface building block' with the authorization publication number of CN 104190091B).

In the modeling of particle type building block toys, the LED lamp or the lamp string has the important function of drawing dragon points, so that the LED lamp or the lamp string is generally applied. When building block LED lamps are input to a website or an e-commerce platform for searching, a plurality of building block LED lamps can be found, no matter the building block LED lamps are single LED lamps or lamp strings consisting of a plurality of LED lamps, no matter the building block is simple or complex in shape, and the used LED lamps or lamp strings are provided with lamp wires with plugs. In order to facilitate the arrangement and control of LED lamps or lamp strings in some complicated and large building block toy models, the applicant designs and submits a Chinese invention patent application named as 'an intelligent light controller (with the invention publication number of CN 113811040A)', wherein the 'intelligent light controller' is provided with 12 LED lamp sockets in three rows and four columns, each LED lamp socket can be connected with one or one string of LED lamps, lamp wires are arranged from the position of the 'intelligent light controller' to the installation positions of the LED lamps along the surface of the building block model, and then intelligent control is realized through a control program set in the 'intelligent light controller'; the technical problems that arise from this are: the lamp wires of the LED lamps seriously influence the simplicity, the freshness and the beauty of the modeling of the building block toy; when the toy modeling structure is complex and has more layers, the arrangement of the lamp wires of the LED lamps can lead the surface of the building block toy modeling to be more disordered, and the building block toy modeling is not suitable for local integral adjustment and change, and is not easy to integrally decompose part of the structure, and appreciate exquisite and small components arranged in the toy modeling, such as tables, chairs, sofas, bonsais and the like in rooms.

In order to solve the technical problem that the lamp wires of the LED lamps seriously affect the conciseness, refreshment and beauty of the modeling of the building block toy, a plurality of technical improvement attempts are made by the technical personnel in the field, such as: there is a building blocks granule formula LED lamp that does not take light line, has overcome the technical problem that the light line brought, however, because the control mode is manual on-off control, need manually open the switch one by one during the use, can not realize intelligent control, consequently, can not satisfy the user and carry out intelligent control's comfortable experience to the LED lamp.

The other breathing lamp named as 'splicing building block' comprises two control modes of 'manual pressing control switch control' and 'intelligent terminal control'; the technical scheme about the intelligent terminal control is as follows: the method comprises the following steps of installing a plurality of breathing lamp building blocks on a light box bottom plate building block in a matrix mode, connecting the light box bottom plate building block with an intelligent terminal (such as an intelligent watch, an intelligent mobile phone, an intelligent panel and other intelligent wearing equipment), and controlling the breathing lamps to flicker, continuously darken or normally light/normally off in a regular mode by the intelligent terminal; the breathing lamp building blocks arranged in order can display letter, symbol combination information or square character information. "namely: the intelligent terminal is used for controlling the breathing lamp through the connection of the lamp box bottom plate building blocks, and the intelligent terminal cannot directly control each breathing lamp of the spliced building blocks under the condition of separating from the lamp box bottom plate building blocks.

The power supply device of the toy building block lamp can be a button battery, can be arranged in the accommodating cavity of the building block body, is connected with the circuit board of the light-emitting component and can be used for supplying power to the light-emitting component; the building block body is also provided with an inductive switch which can be arranged on the side wall of the building block body and can sense the switch, and particularly can be a sound control switch or a light control switch; the switch may not be limited to the inductive switch, and may be a slide switch or a push switch; the switch can be connected with the light-emitting component and can control the light-emitting component to be switched on or switched off; the remote controller can be an infrared remote controller, an infrared receiving module which is inducted by the remote controller can be arranged in the light-emitting building blocks, the remote controller can be connected with each light-emitting building block, and each light-emitting building block can be independently controlled by the remote controller. The power supply device of the technical scheme is a button battery, the electric quantity of one button battery used in the luminous building block is generally 200mAh, the power consumption of a building block particle type LED lamp with an infrared sensing device is about 10-20 milliamperes in one hour, and the building block particle type LED lamp can be used for about one day without adopting effective energy-saving technical means.

In summary, in the prior art of the particle-type building block toy, on one hand, a lighting system formed by connecting a building block LED lamp with a light wire and an intelligent light main controller can well realize intelligent light control, but the existing light wire seriously affects the technical problems of simplicity, freshness and beauty of the building block toy shape, and is a technical problem which people are eagerly to solve but never succeed; on the other hand, people try to solve the technical problem, namely, only manual switch control is adopted, and intelligent control is not adopted; or intelligent control is realized by means of a 'lamp box bottom plate building block'; or wireless control can be realized through a sound control or light control technology, but the used button battery needs frequent battery replacement due to fast electric energy consumption because of no energy-saving technical measures. In summary, so far, no technical solution for effectively solving the technical problem has been found in the technical field.

Therefore, if the technical problem of the LED lamp in the prior art in the building block toy model can be overcome, an energy-saving wireless intelligent control LED lamp is developed for the building block toy, the technical problem that people are eagerly to solve but can not achieve success all the time is solved, the existing technical bias is overcome, and a technical revolution with subversive significance is generated in the technical field of applying the LED lamp to the building block toy.

Disclosure of Invention

In order to solve the technical problem that 'the lamp line of an LED lamp influences the concise, refreshing and exquisite quality of the building block toy' which is eagerly solved by technical personnel in the field of building block toys, the invention provides the technical scheme of the building block particle type intelligent LED lamp as follows:

a building block particle type intelligent LED lamp comprises a lamp box, an LED lamp and an intelligent control system; building block particle splicing structures are arranged below the lamp boxes and can be directly spliced on the building block toy models; the LED lamp is connected with the intelligent control system and is packaged in the lamp box; the intelligent control system comprises a main control IC and a battery, wherein the main control IC comprises a wireless communication module; in the main control IC of the intelligent control system, a working program for controlling the intelligent control system to maintain a periodic sleep working mode is arranged, and the working program of the periodic sleep working mode comprises: the intelligent control system works for 0.007 seconds after each dormancy 3.490 seconds; the intelligent control system can receive and identify a wireless control signal sent by wireless control equipment during working, and when the received wireless control signal does not have the ID number of the intelligent control system, the intelligent control system continues to sleep; and when the received wireless control signal contains the ID number of the intelligent control system, the intelligent control system controls the LED lamp to be lightened according to the working program.

The intelligent control system maintains a working program of a periodic dormant working mode, and is an energy-saving technical measure developed aiming at the technical scheme of the building block particle type intelligent LED lamp section; one set of experimental test data for the periodic sleep mode of operation is: the intelligent control system is provided with a button cell with 3V voltage and 130 mA electric quantity, 3.497 s is used as a sleep cycle, the sleep time is 3.490 s, and the work time is 0.007 s; in the sleep state, most functions of the intelligent control system stop working, and the charged sleep state is maintained, so that the average power consumption of one hour is 47.84 microamperes/hour, and the average power consumption of one day is 47.84 microamperes/hour multiplied by 24 hours/day =1148 microamperes/day, namely 1.148 milliamperes/day; the operating time of one button cell is approximately 130 milliamps/1.148 milliamps/day =113 days.

Therefore, the intelligent control system adopts an energy-saving technical measure for keeping the periodic dormant working mode, so that the service life of one button battery is obviously prolonged, the times for replacing the battery are greatly reduced, and a better user experience effect is achieved.

Because the building block particle type intelligent LED lamp and the corresponding position in the building block shape can be spliced directly, intelligent control is realized by an intelligent control system of the building block particle type intelligent LED lamp, lamp line connection is not needed any more, and energy-saving technical measures in a periodic dormant working mode are taken, so that the technical problem that the lamp line of the building block LED lamp influences the concise, refreshing and exquisite quality of the building block toy, which is eagerly solved by technical personnel in the field, is effectively solved, the quality that the particle type building block toy keeps concise, refreshing and exquisite is remarkably improved, the technical problem that the service life of a battery is remarkably prolonged is also effectively solved, and better achievement experience is provided for users.

On the basis of the core technical scheme, according to the actual situation, some technical characteristics of the building block particle type intelligent LED lamp are further improved and limited, and various optimized practical technical schemes can be obtained.

Drawings

Fig. 1a is a schematic diagram of a first lamp box structure of a building block particle type intelligent LED lamp according to the present invention, wherein a lamp panel and a lamp box are detachably connected in a slot type;

FIG. 1b is a schematic diagram of an exploded structure of the building block particle type intelligent LED lamp shown in FIG. 1 a;

FIG. 1c is a bottom view of FIG. 1a, showing that the assembly structure provided under the lamp box is an A-shaped cylindrical protrusion;

FIG. 2 is a schematic diagram of the connection between the intelligent control system of the building block particle type intelligent LED lamp and the LED lamp in FIG. 1 a;

fig. 3a is a schematic view of a second improved structure of the building block particle type intelligent LED lamp according to fig. 1a, wherein a lamp panel covers a first attaching surface of the lamp box and is fixedly connected with the lamp box in a non-detachable manner;

FIG. 3b is a schematic diagram of an exploded structure of the building block particle type intelligent LED lamp shown in FIG. 3 a;

FIG. 3c is a bottom view and a rear view of FIG. 3a, the bottom view showing that the assembly structure provided under the lamp box is an A-shaped cylindrical protruding particle; the rear view picture reaches a push rod hole of the button battery behind the lamp box;

fig. 4a is a schematic view of a third modified light box structure of the building block particle type intelligent LED lamp shown in fig. 3a, wherein the lamp panel covers the second attaching surface of the light box and is fixedly connected with the light box in a non-detachable manner;

FIG. 4b is an exploded view of the construction of the building block pellet type intelligent LED lamp shown in FIG. 4 a;

FIG. 5a is a schematic diagram of a fourth modified structure of a light box of the building block particle type intelligent LED lamp in FIG. 3a, wherein the fourth light box is a circular light box;

FIG. 5b is a bottom view and a rear view of FIG. 5a, the bottom view showing that the assembly structure provided under the lamp box is an A-shaped cylindrical protruding particle; the rear view chart is used for expressing a button battery push rod hole at the back of the lamp box;

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

FIG. 6b is an exploded view of the construction of the building block pellet type intelligent LED lamp shown in FIG. 6 a;

FIG. 6c is a schematic view of the light housing socket of FIG. 6 b;

FIG. 6d is a schematic view of the cap of the light box of FIG. 6 b;

FIG. 6e is a schematic view of the button cell compartment cover of FIG. 6 b;

FIG. 6f1 is a schematic view of the first lamp panel structure in FIG. 6b, in which a light-transmitting portion of the first lamp panel is a plane;

fig. 6f2 is a schematic view of a second lamp panel structure in fig. 6b, where a light-transmitting portion of the second lamp panel is provided with a groove pattern;

FIG. 6f3 is a schematic view of the third lamp panel structure in FIG. 6b, where a light-transmitting portion of the third lamp panel is a convex lens;

FIG. 6f4 is a schematic diagram of a fourth lamp panel structure in FIG. 6b, where a light-transmitting portion of the fourth lamp panel is a concave mirror;

fig. 6f5 is a schematic view of a fifth lamp panel structure in fig. 6b, in which a light guide bar insertion opening is formed on a light transmission portion of the fifth lamp panel;

FIG. 6g is a schematic diagram of the intelligent control system of FIG. 6 b;

FIG. 6h is a schematic diagram of the connection of the intelligent control system of FIG. 6g to an LED lamp;

fig. 7a is a schematic diagram of a sixth improved structure of a light box of the building block particle type intelligent LED lamp according to fig. 6a, where no LED lamp is installed on a main board in the light box, 5 LED lamp sockets are additionally provided, and a second cylindrical protrusion is provided on a light transmission portion of an original light panel to splice a light box model, and 5 LED lamps with short light wire plugs are correspondingly provided in the light box model;

FIG. 7b is a schematic structural view of the sixth light box with the second cylindrical protrusions in FIG. 7 a;

FIG. 7c is a schematic structural view of the shape of the lamp box in FIG. 7a, the shape of the lamp box is a pentagonal shape, each corner is provided with an LED lamp with a short lamp wire plug, and the middle part of the shape of the lamp box is provided with a second cylindrical convex particle socket;

fig. 7d is a schematic structural view of the pentagonal lamp panel shaped as the lamp box in fig. 7 c;

FIG. 7e is a schematic diagram of the intelligent control system of the building block granule type intelligent LED lamp in FIG. 7a connected to the LED lamp;

FIG. 8a is a schematic diagram of a seventh modified light box structure of the building block particle type intelligent LED lamp shown in FIG. 1a, wherein only the LED lamp is installed in the seventh light box, a C1-shaped cylindrical convex particle socket is arranged below the light box, and pins of the LED lamp are arranged in the socket;

fig. 8b is an exploded view of the seventh light cartridge of fig. 8 a;

FIG. 8C is a bottom view of the seventh light box of FIG. 8a showing the lower C1-shaped cylindrical nub-socket and the pins of the LED light;

FIG. 8d is a schematic diagram of the system box of the building block granular intelligent LED lamp shown in FIG. 8a, wherein the intelligent control system is packaged in the system box;

FIG. 8e is an exploded view of the system box of FIG. 8 d;

FIG. 8f is a bottom view of the system box of FIG. 8a showing the lower C1-shaped cylindrical protrusions and positive and negative electrode contacts;

FIG. 8g is a schematic diagram of the connection between the intelligent control system of the building block particle type intelligent LED lamp and the LED lamp in FIG. 8 a;

FIG. 9 is a schematic diagram of the size structure of building particles of the classic granular building block toy of Legao;

FIG. 10 is a schematic diagram of the size structure of the "large particle block toy" block particles;

FIG. 11 is a schematic diagram of the size structure of a "6 mm block toy" block pellet;

FIG. 12 is a schematic diagram of the size structure of "microparticle building block toy" building block particles;

FIG. 13a is a schematic view of the size structure of a single piece of building block particles of the "Kadele particle building block toy";

FIG. 13b is a schematic view of the two building blocks of FIG. 13a assembled together;

FIG. 13c is a schematic view of the structure of a "brick granule" of the three single-piece brick granules of FIG. 13 a;

fig. 14 is a power consumption test data picture of a button cell with the specification of voltage 3V and electric quantity 130 milliampere for keeping a charged dormant working state.

Description of reference numerals:

1, a lamp box, 11, 111 a claw groove, 112 an accommodating cavity, 113 a first facing, 114 a button battery assembling and disassembling port, 115 a button battery push rod hole, 116 a second facing and 117 a C1 cylindrical convex particle inserting port;

101 box body seat, 1011 first pin, 1012 second pin hole, 1013 first cylindrical convex particle bayonet, 1014 battery compartment cathode lining plate, 1015 main board lining plate, 1016 lamp plate first mounting half slot and 1017LED lamp socket port;

102 box body cover, 1021 first pin hole, 1022 second pin, 1023 first cylindrical convex particle bayonet stop, 1024 first cylindrical convex particle, 1025 battery bin opening and 1026 lamp panel second mounting half groove;

103 button cell compartment cover, 1031 slide;

12 lamp panel, 121 light transmission part, 1211 light surface, 1212 riffled groove, 1213 convex lens, 1214 concave lens, 1215 light guide strip socket,

122 mounting parts, 1221 limiting clamping grooves, 1222 abdicating and trimming edges, 123 clamping jaws, 124LED lamp accommodating cavities and 125 second cylindrical convex particles;

13 lamp box model, 131 pentagon box body, 132 pentagon lamp panel, 133 second cylindrical convex particle socket,

14 system box, 141 system box holder, 142 system box cover, 1411 charging receptacle port,

2LED lamp, 21LED lamp pins and 22 short lamp wire plugs;

3 intelligent control system, 31 main board, 311 battery compartment positive pole, 312 battery compartment negative pole, 313 guard plate, 314 main board card slot, 321 button battery, 322 button battery pack, 323 rechargeable battery, 33LED lamp socket, 34LED lamp pin contact, 341LED lamp main board contact, 35 charging socket;

the A-shaped cylindrical convex grains refer to cylindrical convex grains of building block grains of 'Legao classical grain building block toys', namely, the diameter is 4.8 mm, and the height is about 1.8 mm;

the B-shaped cylindrical convex grain embedding opening is the cylindrical convex grain embedding opening of the Legao classical particle building block toy, namely the diameter is 4.8 mm, and the height is about 2.1 mm;

the C-shaped cylindrical convex particles are auxiliary cylindrical convex particles which are arranged in the Legao classical particle building block toy for forming a B-shaped cylindrical convex particle embedding opening, namely the diameter is 6.4 mm, and the height is equal to the height of the B-shaped cylindrical convex particle embedding opening;

the C1-shaped cylindrical convex particle is a C-shaped cylindrical convex particle with an LED lamp pin contact;

the C1-type cylindrical convex particle socket is a C-type cylindrical convex particle socket with an LED lamp pin;

p =8 mm, P is the center distance between two cylindrical convex grains of the building grain of the "le gao classic granular building block toy", d =4.8 mm, 2p =2 × 8-0.2=15.8 mm, h =3.2 mm, h1=1.8 mm;

pd =16 mm, pd is the center distance of two cylindrical convex grains of the building block grains of the large-grain building block toy, dd =3.6 mm, 2pd =2 × 16-0.2=31.8 mm; hd =9.6 mm;

p6=6 mm, P6 is the center distance between two cylindrical convex grains of the building grains of the 6 mm grain building block toy, 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 two cylindrical convex particles of the building particles of the "microparticle building toy", dw =2.5 mm, 2pw =2 × 4-0.2=7.8 mm;

pk =8 mm, pk means the center distance between two cylindrical convex particles of the building block particles of the 'Kadele particle building block toy', dk =2.5 mm, h3 is the height size of the cylindrical convex particles, and h3 is less than or equal to 2.5 mm; h4 is the height size of the cylindrical convex particle socket, and h4 is more than or equal to 2.5 mm.

Detailed Description

The technical scheme of the building block particle type intelligent LED lamp is further explained by combining a specific embodiment as follows:

the first embodiment is as follows:

as shown in fig. 1a, 1b, 1c and 2, the building block granular intelligent LED lamp comprises a lamp box 1, an LED lamp 2 and an intelligent control system 3; a building block particle splicing structure is arranged below the lamp box 1 and can be directly spliced on a building block toy model; the LED lamp 2 is connected with the intelligent control system 3 and is packaged in the lamp box 1; the intelligent control system 3 comprises a main control IC and a battery, wherein the main control IC comprises a wireless communication module; in the main control IC of the intelligent control system, a working program for controlling the intelligent control system to maintain a periodic sleep working mode is arranged, and the working program of the periodic sleep working mode comprises: the intelligent control system works for 0.007 seconds after each dormancy 3.490 seconds; the intelligent control system can receive and identify a wireless control signal sent by wireless control equipment during working, and when the received wireless control signal does not have the ID number of the intelligent control system, the intelligent control system continues to sleep; and when the received wireless control signal contains the ID number of the intelligent control system, the intelligent control system controls the LED lamp to be lightened according to the working program.

The building block particle type intelligent LED lamp is spliced to a mounting point as common building block particles as required, and can be lightened by transmitting a corresponding wireless control signal through wireless control equipment when the building block particle type intelligent LED lamp needs to be lightened because the building block particle type intelligent LED lamp keeps a periodic dormant working mode; the building block can be independently used as an indoor ceiling lamp, a wall lamp, a floor lamp, a table lamp and the like in the building shape of the building block toy, can also be used as a decorative lamp, a street view decorative lamp, a street lamp, a sky star, a distant fishing fire and the like in the outdoor natural landscape, and can be grouped to form various light shapes; therefore, the building block system brings good application experience to a large number of building block enthusiasts.

The second embodiment:

as shown in fig. 1a to 1c and fig. 2, compared with the first embodiment, the present embodiment is different in that: the battery matched with the intelligent control system 3 is a button battery 321, and the lamp box 1 matched with the intelligent control system 3 is a first square lamp box; the building block particle splicing structure below the first square lamp box is 1A-shaped cylindrical convex particle; the left side plate and the right side plate of the box body 11 are provided with clamping claw grooves 111, and the lamp panel 12 of the first square lamp box comprises a light-transmitting part 121 and an installation part 122; the mounting part 122 is two side plates provided with clamping jaws 123; the jack catch 123 is clamped with the jack catch groove 111, so that the box body 11 and the lamp panel 12 are detachably and fixedly connected.

Example three:

as shown in fig. 3a, 3b, and 3c, the present embodiment is different from the present embodiment in that: the lamp box 1 matched with the intelligent control system 3 is a second square lamp box, a button battery assembling and disassembling port 114 is arranged on a front side plate of a box body 11 of the second square lamp box, a button battery push rod hole 115 is arranged on a rear side plate (as shown in fig. 3 c), and a first veneering 113 is arranged in an accommodating cavity 112 of the box body 11; correspondingly, lamp plate 12 of the square lamp box of the second kind is a flat plate, and installation portion 122 and first wainscot 113 of lamp plate 12 are non-detachable fixed connection.

In the embodiment, when the button battery is replaced, the old button battery can be detached through the button battery push rod hole, and then the new button battery is loaded into the button battery loading and unloading port, so that the intelligent control system 3 does not need to be detached integrally, and the operation is simple and convenient.

Example four:

as shown in fig. 4a and 4b, compared with the three phases of the embodiment, the present embodiment is different in that: the intelligent control system 3 further comprises a guard plate 313; correspondingly, the lamp box 1 is a third square lamp box, and a box body 11 of the third square lamp box is provided with a second adhesive surface 116; the installation part 122 of the lamp panel 12 of the third square lamp box is detachably attached to the second attaching surface 116 of the box body 11.

The guard plate 313 is used for preventing an insulating protective film of an element on the intelligent control system from being scratched when the button battery is replaced.

Example five:

as shown in fig. 5a to 5b, the present embodiment is different from the embodiment in three phases: with intelligence control system 3 is supporting lamp box 1 is the fourth kind of lamp box, the box body 11 of fourth kind of lamp box is circular box body, and is corresponding, first wainscot 113 and lamp plate 12 of fourth kind of lamp box body 11 are circular.

Example six:

as shown in fig. 6a to 6h, the present embodiment is different from the embodiment in that: the intelligent control system 3 further comprises an LED lamp socket 33; correspondingly, the battery matched with the intelligent control system 3 is a button battery pack 322; the lamp box 1 matched with the intelligent control system 3 is a fifth type of lamp box which is of a split structure and comprises a box body base 101 and a box body cover 102; the box body base 101 comprises a first pin 1011, a second pin 1012, a first cylindrical bump bayonet 1013, a battery compartment cathode lining plate 1014, a mainboard lining plate 1015, a lamp plate first mounting half slot 1016 and an LED lamp socket 1017; the box body cover 102 comprises a first pin hole 1021, a second pin 1022, a first cylindrical convex particle bayonet stop 1023, a first cylindrical convex particle 1024, a battery bin opening 1025 and a lamp panel second mounting half-groove 1026; the light transmission part of the lamp panel 12 of the fifth lamp box is a plane 1211, and the lamp panel 12 of the fifth lamp box further comprises an LED lamp accommodating cavity 124, a limiting clamping groove 1221 and an abdicating chamfered edge 1222; the lamp panel 12, the box body base 101 and the box body cover 102 are inserted into a whole in an aligned and inserted mode at corresponding positions, and the intelligent control system 3 is packaged in the lamp box 1.

The building block particle type intelligent LED lamp has the advantages that the function of connecting an LED lamp in parallel is added, and the building block particle type intelligent LED lamp can be used independently or can be used together with a plurality of LED lamps in parallel; because can connect an LED lamp in parallel more, the power consumption of a building blocks granule formula intelligence LED lamp during operation also can increase, consequently, need dispose more than 2 button battery packs at least to guarantee that the power supply is long. In some scenes, when one building block particle type intelligent LED lamp is used independently, the brightness is weak, so that the building block particle type intelligent LED lamp with the LED lamp socket can be used, and the LED lamp with the lamp wire and the plug is externally connected, so that the local brightness can be effectively increased.

Example seven:

as shown in fig. 7a to 7e, the present embodiment is different from the sixth embodiment in that: the intelligent control system 3 further comprises 5 LED lamp sockets 33, no LED lamp is installed in the intelligent control system 3, a second cylindrical protrusion 125 is arranged on the lamp panel 12, correspondingly, the lamp box 1 matched with the intelligent control system 3 is a sixth lamp box, and the sixth lamp box further comprises a matched lamp box model 13; the lamp box model 13 is pentagonal, and comprises a pentagonal box body 131 and a pentagonal lamp panel 132, wherein each corner of the pentagonal box body 131 is provided with an LED lamp 2 with a short lamp wire plug 22, and the middle part of the lower surface of the pentagonal box body 131 is provided with a second cylindrical convex particle socket 133; the fixed closing cap of pentagonal lamp plate 132 is in on the pentagonal box body 131, the protruding grain socket of second cylinder 133 splices with the protruding grain 125 of second cylinder, the short lamp line plug 22 of LED lamp 2 pegs graft with an LED lamp socket 33 respectively.

The embodiment provides an example of a pentagonal lamp box model, and on the basis of the technical concept, various exquisite lamp box models can be manufactured to enrich the decorative effect of the building block toy model.

Example eight:

as shown in fig. 8a to 8c, the present embodiment is different from the embodiment in that: the lamp box 1 is a seventh lamp box, only the LED lamp 2 is installed in a box body 11 of the seventh lamp box, correspondingly, a C1-shaped cylindrical convex particle socket 117 is arranged below the box body 11, and a pin 21 of the LED lamp 2 is arranged in the C1-shaped cylindrical convex particle socket 117;

as shown in fig. 8d to 8g, the battery associated with the intelligent control system 3 is a rechargeable battery 323, the intelligent control system 3 further includes a charging socket 35, and correspondingly, the intelligent control system 3 and the rechargeable battery 323 are associated with a system box 14, and the system box 14 includes a system box seat 141 and a system box cover 142; an A-shaped cylindrical convex particle is arranged below the system box seat 141, and a charging socket port 1411 is arranged in front of the system box seat; c1-shaped cylindrical convex particles are arranged on the system box cover 142, and LED lamp pin contacts 34LED out of the intelligent control system 3 are arranged on the C1-shaped cylindrical convex particles; the seventh kind of lamp box is spliced with the C1 type cylindrical protruding grain on the system box 14 through the C1 type cylindrical protruding grain socket 117, and can be connected with the intelligent control system 3 for power supply.

The beneficial effect of this embodiment is: because the battery of intelligent control system can charge and continue a journey, building blocks granule formula intelligence LED lamp uses more simple and efficient.

Example nine:

compared with any one of the first to sixth embodiments and the eighth embodiment, the difference of the present embodiment is that: the surface of the light-transmitting part 121 of the lamp panel 12 in the lamp box 1 further includes a pattern groove 1212, as shown in fig. 6f 2; or the light-transmitting portion 121 of the lamp panel 12 in the lamp box 1 is a convex lens 1213, as shown in fig. 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 fig. 6f4, and correspondingly, the lamp panel 12 is made of acrylic plate or glass; or a light guide strip inserting hole 1215 is formed in the light transmission part 121 of the lamp panel 12 in the lamp box 1, and a light guide strip can be inserted into the light guide strip, as shown in fig. 6f5, correspondingly, the material of the lamp panel 12 on the lamp box is light-shading plastic. The shape of the light transmission part of the lamp plate on the lamp box is changed, different light effects can be generated, and therefore the artistic creation space of the toy model is enriched.

Example ten

As shown in fig. 10 to 12 and 13a, compared with any one of the first to ninth embodiments, the present embodiment is different in that: with intelligence control system 3 is supporting the structure of assembling below the lamp box 1 still includes the mosaic structure of "large granule building blocks toy", "6 millimeter granule building blocks toy", "microparticle building blocks toy" or "Kadele granule building blocks toy".

"large granule building blocks toy", "6 millimeter granule building blocks toy", "microparticle building blocks toy" or "kadele granule building blocks toy", also according to "cave, post grafting principle", utilize the protruding grain of cylinder and the protruding grain of cylinder to inlay and take interference fit's form between the entry, the protruding grain extrusion of cylinder of a building blocks granule goes into the protruding grain of cylinder of another building blocks granule and inlays and enter the entry and splice. As shown in fig. 9, the building particles and the splicing structures of the 'le gao classic particle building block toy' are in the size specification; as shown in fig. 10, the building blocks and the splicing structures of the "large-particle building block toy" are in the size specification; as shown in fig. 11, the building block particles and the splicing structures of the 6 mm particle building block toy have the size specification; as shown in fig. 12, the building particles and the splicing structures of the "microparticle building block toy" are in the size specification; as shown in fig. 13a to 13c, the dimension specifications of the building block particles and the splicing structures of the "kadele particle building block toy" are shown.

Example eleven:

compared with any one of the first to tenth embodiments, the present embodiment is different in that: the wireless control signals received and identified by the intelligent control system 3 comprise broadcast Bluetooth signals and 2.4G control signals sent by wireless control equipment; the wireless control equipment comprises an intelligent mobile terminal, a remote controller or a main controller.

The master controller is an intelligent control device arranged in the intelligent building block toy model and can store and execute the control instruction of the intelligent building block particle type LED lamp.

Example twelve:

compared with the eleventh embodiment, the difference of the present embodiment is that: the intelligent mobile terminal can also send and store the wireless control signal into a remote controller, and send the wireless control signal to an intelligent control system 3 of the building block particle type intelligent LED lamp through a key of the remote controller; or the intelligent mobile terminal can also send and store the wireless control signal to the master controller, and the master controller sends the wireless control signal to the intelligent control system 3 of the building block particle type intelligent LED lamp.

The building block particle type intelligent LED lamp has the beneficial effects that: firstly, the building block particle type intelligent LED lamp can be directly spliced at a corresponding position in a building block shape, intelligent control is realized by means of an intelligent control system of the building block particle type intelligent LED lamp, lamp line connection is not needed, and an energy-saving technical measure for keeping an electrified dormant state of regularly receiving wireless control signals is adopted, so that the quality of keeping the particle type building block toy shape concise, fresh and exquisite is remarkably improved, the technical problem that the lamp line of the building block LED lamp influences the quality of the building block toy shape concise, fresh and exquisite, which is eagerly solved by technical personnel in the field, is effectively solved, the technical problem of remarkably prolonging the service life of a battery is effectively solved, and better achievement experience is provided for users; secondly, the building block particle type lamp box structure enables each building block particle type intelligent LED lamp to be conveniently installed on a building block toy model and can be used singly or in groups; thirdly, because of no interference of light lines, the building block toy with complex structure and rich modeling levels can be conveniently assembled by using the overall modeling of each part.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and embodiments of the present invention disclosed in the present invention, and equivalent substitutions or changes should be covered by the scope of the present invention.

Claims (12)

1. A building block particle type intelligent LED lamp comprises a lamp box (1), an LED lamp (2) and an intelligent control system (3); a building block particle splicing structure is arranged below the lamp box (1) and can be directly spliced on a building block toy model; the LED lamp (2) is connected with the intelligent control system (3) and packaged in the lamp box (1); the intelligent control system (3) comprises a master control IC and a battery, wherein the master control IC comprises a wireless communication module; the method is characterized in that: in the main control IC of the intelligent control system (3), a working program for controlling the intelligent control system (3) to keep a periodic sleep working mode is arranged, and the working program of the periodic sleep working mode comprises: the intelligent control system (3) works for 0.007 seconds after each dormancy 3.490 seconds; the intelligent control system (3) can receive and identify a wireless control signal sent by wireless control equipment during working, and when the received wireless control signal does not have the ID number of the intelligent control system (3), the intelligent control system (3) continues to sleep; and when the received wireless control signal contains the ID number of the intelligent control system (3), the intelligent control system (3) controls the LED lamp (2) to be turned on according to the working program.

2. The building block particle type intelligent LED lamp as claimed in claim 1, wherein: the battery matched with the intelligent control system (3) is a button battery (321), and the lamp box (1) matched with the intelligent control system (3) is a first square lamp box; the building block particle splicing structure below the first square lamp box is 1A-shaped cylindrical convex particle; the left side plate and the right side plate of the box body (11) are provided with clamping claw grooves (111), and the lamp panel (12) of the first square lamp box comprises a light-transmitting part (121) and an installation part (122); the mounting part (122) is two side plates provided with clamping jaws (123); jack catch (123) and jack catch groove (111) joint make box body (11) and lamp plate (12) are for dismantling fixed connection.

3. The building block particle type intelligent LED lamp as claimed in claim 2, wherein: the lamp box (1) matched with the intelligent control system (3) is a second square lamp box, a button battery assembling and disassembling port (114) is formed in the front side plate of a box body (11) of the second square lamp box, a button battery push rod hole (115) is formed in the rear side plate, and a first attaching surface (113) is arranged in an accommodating cavity (112) of the box body (11); correspondingly, lamp plate (12) of the square lamp box of the second kind is a flat plate, installation department (122) and first wainscot (113) of lamp plate (12) are non-detachable fixed connection.

4. The building block particle type intelligent LED lamp as claimed in claim 3, wherein: the intelligent control system (3) further comprises a guard board (313); correspondingly, the lamp box (1) is a third square lamp box, and a box body (11) of the third square lamp box is provided with a second veneering (116); the installation department (122) of lamp plate (12) of the square lamp box of the third kind is not detachable and is laminated on second wainscot (116) of box body (11).

5. The building block particle type intelligent LED lamp as claimed in claim 3, wherein: with intelligence control system (3) is supporting lamp box (1) is the fourth kind of lamp box, the box body (11) of fourth kind of lamp box is circular box body, and is corresponding, first wainscot (113) and lamp plate (12) of fourth kind of lamp box body (11) are circular.

6. The building block particle type intelligent LED lamp as claimed in claim 2, wherein: the intelligent control system (3) also comprises an LED lamp socket (33); correspondingly, a battery matched with the intelligent control system (3) is a button battery pack (322); the lamp box (1) matched with the intelligent control system (3) is a fifth type of lamp box which is of a split structure and comprises a box body base (101) and a box body cover (102); the box body seat (101) comprises a first pin (1011), a second pin hole (1012), a first cylindrical convex particle bayonet (1013), a battery compartment negative electrode lining plate (1014), a main board lining plate (1015), a first lamp panel mounting half groove (1016) and an LED lamp socket port (1017); the box body cover (102) comprises a first pin hole (1021), a second pin (1022), a first cylindrical convex particle bayonet stop (1023), a first cylindrical convex particle (1024), a battery bin opening (1025) and a second lamp panel mounting half groove (1026); the lamp panel (12) of the fifth lamp box further comprises an LED lamp accommodating cavity (124), a limiting clamping groove (1221) and a abdicating trimming (1222); lamp plate (12), box body seat (101) and box body lid (102) each position are adjusted well and are pegged graft synthetic an organic whole, will intelligence control system (3) encapsulate in lamp box (1).

7. The building block particle type intelligent LED lamp as claimed in claim 6, wherein: the intelligent control system (3) further comprises 5 LED lamp sockets (33), LED lamps are not installed in the intelligent control system (3), second cylindrical convex particles (125) are arranged on the lamp panel (12), correspondingly, the lamp box (1) matched with the intelligent control system (3) is a sixth lamp box, and the sixth lamp box further comprises a matched lamp box model (13); the lamp box model (13) is pentagonal and comprises a pentagonal box body (131) and a pentagonal lamp panel (132), each corner of the pentagonal box body (131) is provided with one LED lamp (2) with a short lamp wire plug (22), and the middle part of the lower surface of the pentagonal box body (131) is provided with a second cylindrical convex particle socket (133); pentagon lamp plate (132) is fixed the closing cap and is in on the pentagon box body (131), protruding grain socket of second cylinder (133) and the concatenation of the protruding grain of second cylinder (125), the short lamp line plug (22) of LED lamp (2) are pegged graft with a LED lamp socket (33) respectively.

8. The building block particle type intelligent LED lamp as claimed in claim 2, wherein: the lamp box (1) is a seventh lamp box, only the LED lamp (2) is installed in a box body (11) of the seventh lamp box, correspondingly, a C1-shaped cylindrical convex particle socket (117) is arranged below the box body (11), and a pin (21) of the LED lamp (2) is arranged in the C1-shaped cylindrical convex particle socket (117);

the battery matched with the intelligent control system (3) is a rechargeable battery (323), the intelligent control system (3) further comprises a charging socket (35), correspondingly, the system box (14) matched with the intelligent control system (3) and the rechargeable battery (323) is a system box (14), and the system box (14) comprises a system box seat (141) and a system box cover (142); a-shaped cylindrical convex particles are arranged below the system box base (141), and a charging socket port (1411) is arranged in front of the system box base; a C1-shaped cylindrical convex particle is arranged on the system box cover (142), and an LED lamp pin contact (34) LED out from the intelligent control system (3) is arranged on the C1-shaped cylindrical convex particle; the seventh lamp box is spliced with the C1-type cylindrical convex particles on the system box (14) through a C1-type cylindrical convex particle socket (117), and power supply connection can be achieved with the intelligent control system (3).

9. The building block granular intelligent LED lamp as claimed in any one of claims 1 to 6 or 8, wherein: the surface of a light-transmitting part (121) of a lamp panel (12) in the lamp box (1) matched with the intelligent control system (3) also comprises a pattern groove (1212); or the light-transmitting part (121) of the lamp panel (12) in the lamp box (1) is a convex lens (1213), and correspondingly, the lamp panel (12) is made of acrylic plates 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) is made of acrylic plates or glass; or a light guide strip inserting opening (1215) is formed in the light transmission part (121) of the lamp panel (12) in the lamp box (1), a light guide strip can be inserted into the light guide strip, correspondingly, the lamp panel (12) is made of shading plastic.

10. The building block particle type intelligent LED lamp as claimed in any one of claims 1 to 9, wherein: with intelligent control system (3) is supporting the mosaic structure below lamp box (1) still includes the mosaic structure of "large granule building blocks toy", "6 millimeter granule building blocks toy", "microparticle building blocks toy" or "kadele granule building blocks toy".

11. The building block particle type intelligent LED lamp as claimed in any one of claims 1 to 10, wherein: the wireless control signals received and identified by the intelligent control system (3) comprise broadcast Bluetooth signals and 2.4G control signals sent by wireless control equipment; the wireless control equipment comprises an intelligent mobile terminal, a remote controller or a main controller.

12. The building block particle type intelligent LED lamp as claimed in claim 11, wherein: the intelligent mobile terminal can also send and store the wireless control signal into a remote controller, and send the wireless control signal to an intelligent control system (3) of the building block particle type intelligent LED lamp through keys of the remote controller; or the intelligent mobile terminal can also send and store the wireless control signal into the master controller, and the master controller sends the wireless control signal to the intelligent control system (3) of the building block particle type intelligent LED lamp.

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