CN106422364B

CN106422364B - LED building block

Info

Publication number: CN106422364B
Application number: CN201610857047.9A
Authority: CN
Inventors: 卢伟红
Original assignee: Zhejiang Springan Import & Export Co ltd
Current assignee: Zhejiang Springan Import & Export Co ltd
Priority date: 2016-09-28
Filing date: 2016-09-28
Publication date: 2021-12-21
Anticipated expiration: 2036-09-28
Also published as: CN106422364A

Abstract

The LED building block comprises a building block, wherein the surface of the building block is provided with a protrusion and a hole; an LED lamp configured inside the building block; and the power supply module is connected with the LED lamp through the switch module. The LED lamps are arranged in the building blocks, the control system is connected through the air line, and the LED lamps can be divided into sound size induction switches or touch induction switch control, or are connected with a network to control the on and off of light in the building blocks through wifi, and the size of LED light, so that the common building blocks can achieve various light-emitting effects, the intelligence-benefiting function of the building blocks is enhanced after the building blocks are assembled, and the LED light can be emitted to illuminate the surroundings.

Description

LED building block

Technical Field

The invention relates to a toy, in particular to a luminous building block.

Background

Currently, the building blocks on the market are divided into two types:

the 1 st: ordinary plastic building blocks, ordinary plastic building blocks are by following two basic component: the protruding points on the upper part of the building blocks and the holes in the building blocks. The protruding points and the holes of the two building blocks are in interference fit. The material of the block is resilient and retains its original shape so that the side walls and the holes will jam against the protruding points. Furthermore, the rated friction between the building blocks plays a role, and the two building blocks are prevented from sliding away. The 1 st building blocks are large-particle building blocks and small-particle building blocks.

The 2 nd: the plastic electric building block is additionally provided with an electric device on the basis of a common plastic building block, and the movement of the plastic electric building block can be remotely controlled after the plastic electric building block is assembled.

With the expansion of the masses of building block players, more adults join the masses, the number of MOC players is further increased, and the requirements on building block works are higher and higher. Ordinary plastic building blocks and plastic electric building blocks can not meet the requirements of players, and the assembly completion is equal to the end of the building block toy.

The building blocks on the market are the 1 st common plastic building blocks in the above examples, and the 2 nd plastic electric building blocks are fewer. Although the common plastic building blocks are interesting for players in the assembling process, the assembly is the end of a toy, the playability is common, and the usability is not strong after the assembly is finished.

Therefore, there is a need for a building block that can be assembled and still has high value and high playability.

Disclosure of Invention

The invention aims to provide the LED building block which is simple in structure, low in cost, simple and convenient to operate, high in available value and strong in playability.

The invention relates to an LED building block, which comprises a building block, wherein the surface of the building block is provided with a protrusion and a hole; an LED lamp configured inside the building block; and the power supply module is connected with the LED lamp through the switch module.

According to the LED building block, the switch module is connected with the user terminal through the server.

According to the LED building block, the switch module is a voice control switch module, the switch module is provided with the sound detection module, when the sound detection module detects sound exceeding 80 decibels, the switch module adjusts the conducting wire into a passage, and the voice control switch can control the intensity of light emitting of the LED lamp according to the detected sound.

According to the LED building block, the switch module is provided with the external touch induction switch.

According to the LED building block, the switch module is connected with the user terminal through Bluetooth and/or WIFI, and the user terminal can switch the switch module at regular time.

According to the LED building block, the LED lamp is connected with the power module through the wire, the wire is connected with the switch module, the wire is an aerial line, the tail end of the wire is provided with the USB connector, and the power module is a computer with a USB interface or a charger or a battery pack with a USB interface.

According to the LED building block, the switch module is provided with the light ray detection module, and when the light ray detection module detects light rays exceeding 300nit, the switch module adjusts the conducting wires into the paths.

The LED building block is characterized in that the LED lamp is fixed inside the building block through the moving frame, and the moving frame comprises a first frame rod, a first guide rail, a second guide rail, a third guide rail, a first sliding block, a second sliding block, an L-shaped rod, a fourth guide rail, a first connecting rod and a first telescopic part;

the first hack lever is fixed with the inside of a building block, the first hack lever is fixed with the left end of a first guide rail, the right end of the first guide rail is fixed with a second guide rail, the left part of the first guide rail is fixed with the lower end of a third guide rail, the third guide rail is provided with a first sliding block which moves along the third guide rail, the first sliding block is fixed with one end of an L-shaped rod, the other end of the L-shaped rod moves along the left part of a fourth guide rail, the middle part of the fourth guide rail is hinged with one end of a first connecting rod, the other end of the first connecting rod is hinged with the middle part of the first guide rail, the right part of the fourth guide rail is hinged with a first telescopic part, the first telescopic part is hinged with the second sliding block, and the second sliding block moves along the second guide rail;

the first connecting rod is fixed with the LED lamp;

the second sliding block is provided with a second motor and a second gear, and the second guide rail is provided with a second rack meshed with the second gear;

the first telescopic part comprises a first sleeve, a first motor, a first telescopic rod, a first lead screw and a first nut, the first sleeve is hinged with the second sliding block, the first sleeve is internally fixed with the first motor, the first motor is fixed with the end part of the first lead screw, the first lead screw is in threaded connection with the first nut, a bayonet lock is arranged on the outer circumferential surface of the first nut, a clamping groove matched with the bayonet lock is arranged on the inner circumferential surface of the first sleeve, the first nut is fixed with the first telescopic rod, the first telescopic rod is hinged with the fourth guide rail, and the first motor and the second motor are connected with the user terminal through a server;

the LED building block is characterized in that the first frame rod is fixed with the interior of the building block through a twisting mechanism, and the twisting mechanism comprises a first twisting plate, a second rack, a second telescopic mechanism, a second connecting rod and a locking mechanism;

the first torsion plate is fixed with the inside of the building block, the first torsion plate is fixed with a second torsion plate through a support column, the second torsion plate is fixed with a third motor, an output shaft of the third motor is fixed with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the second bevel gear is fixed with a third gear through a shaft, the third gear is meshed with a fourth gear, a shaft of the fourth gear is installed on the second torsion plate through a bearing, the fourth gear is fixed with a second rack, the end part of the second rack is hinged with the first rack rod, the locking mechanism moves along the second rack, the locking mechanism comprises a locking sliding block, a locking rod, a fourth motor and a reset spring, the locking sliding block is provided with an arc-shaped waist-shaped circular hole, and the locking rod is arranged in the arc-shaped waist-shaped circular hole, the clamping rod can be clamped with a tooth groove of the second rack or move along the arc-shaped waist circular hole to be separated from clamping, the clamping groove sliding block is fixed with the fourth motor, an output shaft of the fourth motor is fixed with the cam, the cam is fixed with the clamping rod, the output shaft of the fourth motor is positioned at the circle center of the arc-shaped waist circular hole, a reset spring is arranged between the clamping rod and the clamping sliding block, the clamping sliding block is hinged with the second connecting rod, and the second connecting rod is hinged with the middle part of the first rack rod;

the clamping slide block is connected with the end part of the second rack through a second telescopic mechanism, the second telescopic mechanism comprises a fifth telescopic rod, a fifth motor, a fifth sleeve, a fifth crank connecting rod and a fifth slide block, one end of the fifth sleeve is fixed with the end part of the second rack, the fifth sleeve is internally fixed with the fifth motor, an output shaft of the fifth motor is fixed with the fifth crank, the fifth crank is hinged with the fifth crank connecting rod, the fifth crank connecting rod is hinged with the fifth slide block, the fifth slide block is provided with a slide block bayonet lock, a slide block guide groove matched with the slide block bayonet lock is arranged in the fifth sleeve, the fifth slide block is fixed with the fifth telescopic rod, and the fifth telescopic rod is hinged with the clamping slide block;

the third motor, the fourth motor and the fifth motor are connected with the user terminal through a server.

The LED building block is characterized in that a sound acquisition module is arranged in the building block, the sound acquisition module sends acquired sound data G to a server, the server compares the size of the sound data G with a preset sound threshold H, if G is less than H, the server controls a switch module to adjust a wire into a path, and if G is less than H, the server controls the switch module to adjust the wire into a broken circuit;

the server is used for collecting sound data G according to the number A of the building blocks, the total volume B of the spliced building blocks and the average value of the sound data G collected in the previous day

Outputting a preset sound threshold H according to the following formula;

wherein, the number of the building blocks A is in unit, the total volume B of the spliced building blocks is in unit of cubic decimeter, and the sound data G and the average value

The unit of the preset sound threshold H is decibels.

The LED building block comprises a server, a switch module and a plurality of building blocks, wherein the server outputs recommended light-emitting brightness F of an LED lamp according to a following formula according to the number A of the building blocks, the total volume B of the spliced building blocks, the ornamental distance C of the spliced building blocks, the area D of a house where the building blocks are located and the illumination intensity E of the position of the house where the building blocks are located, and the switch module adjusts the brightness of the LED lamp according to the recommended light-emitting brightness F;

the unit of the number of the building blocks A is one, the unit of the total volume B of the spliced building blocks is cubic decimeter, the unit of the ornamental distance C of the spliced building blocks is meter, the unit of the area D of the house is square meter, the unit of the illumination intensity E of the position of the house is nit, and the unit of the recommended brightness F is nit.

The LED building block is different from the prior art in that the LED lamp is arranged in the building block, so that the common building block can realize the light-emitting effect, the intelligence-benefiting function of the building block is enhanced after the building block is assembled, and the LED building block can emit light to illuminate the surroundings.

The LED building block of the present invention will be further described with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of an LED building block;

FIG. 2 is a schematic structural view of a movable rack of LED building blocks;

fig. 3 is a schematic structural diagram of a twisting mechanism of the LED block.

Detailed Description

As shown in FIG. 1, the LED building block of the present invention comprises

The surface of the building block is provided with a protrusion and a hole;

an LED lamp configured inside the building block;

and the power supply module is connected with the LED lamp through the switch module.

According to the invention, the LED lamp is arranged in the building block, so that the common building block can realize the light-emitting effect, the intelligence-benefiting function of the building block is enhanced after the building block is assembled, and the building block can emit light to illuminate the surroundings.

Preferably, the switch module is connected with the user terminal through a server.

The switch module of the LED lamp is connected with the user terminal through the server, so that the remote control of light can be realized, the convenience is provided for the light control, and the spliced building blocks are prevented from scattering by shifting the switch module.

Preferably, the switch module is provided with an external touch inductive switch.

Preferably, the switch module is connected with the user terminal through bluetooth and/or WIFI, and the user terminal can switch the switch module at regular time.

Preferably, the LED lamp passes through the wire with power module connects, the wire is connected with switch module, the wire is the air wire, the end of wire is equipped with the USB joint, power module is for the computer that has the USB interface or have the treasured or the group battery that charges of USB interface.

The circuit configured in the mode can supply power to the LED lamp, so that the trouble that the traditional LED lamp with a battery needs to be disassembled to replace the battery is avoided.

Preferably, the switch module is the acoustic control switch module, the switch module is equipped with sound detection module, when sound detection module detected the sound that exceeds 80 decibels, the switch module will the wire adjustment is the route, and the luminous power of LED lamp is controlled to the acoustic control switch according to the size of the sound that detects.

Preferably, the switch module is provided with a light detection module, and when the light detection module detects light exceeding 300nit, the switch module adjusts the conducting wire to be a passage.

The LED adopts a 4000K natural light source, and does not hurt eyes even if stared for a long time.

The guide wire is an imported aviation wire, the aviation wire is an ultra-thin plate, and the wire can be easily clamped into gaps of the building blocks without affecting the aesthetic feeling of the building blocks.

Wherein, the LED lamp can be lamp pearl, also can be lamp area.

Preferably, referring to fig. 2, the LED lamp is fixed inside the building block by a moving frame 500, the moving frame 500 includes a first frame bar 501, a first rail 502, a second rail 503, a third rail 504, a first slider 505, a second slider 506, an L-shaped bar 507, a fourth rail 508, a first link 509, and a first telescopic part 510;

the first frame bar 501 is fixed with the inner part of the building block, the first frame bar 501 is fixed with the left end of the first guide rail 502, the right end of the first guide rail 502 is fixed to the second guide rail 503, the left end of the first guide rail 502 is fixed to the lower end of the third guide rail 504, a first sliding block 505 moving along the third guide rail 504 is arranged on the third guide rail 504, the first sliding block 505 is fixed with one end of an L-shaped rod 507, the other end of the L-shaped bar 507 moves along the left portion of the fourth rail 508, the middle portion of the fourth rail 508 is hinge-connected to one end of the first link 509, the other end of the first link 509 is hinge-connected to the middle of the first rail 502, the right part of the fourth guide rail 508 is hinged to the first telescopic part 510, the first telescopic part 510 is hinged to the second slider 506, and the second slider 506 moves along the second guide rail 503;

wherein the first connecting rod 509 is fixed with the LED lamp;

the second sliding block 506 is provided with a second motor and a second gear, and the second guide rail 503 is provided with a second rack engaged with the second gear;

the first telescopic portion 510 includes a first sleeve, a first motor, a first telescopic rod, a first lead screw, and a first nut, the first sleeve is hinged to the second slider 506, the first sleeve is fixed to the first motor, the first motor is fixed to an end of the first lead screw, the first lead screw is in threaded connection with the first nut, a bayonet lock is arranged on an outer circumferential surface of the first nut, a slot matched with the bayonet lock is arranged on an inner circumferential surface of the first sleeve, the first nut is fixed to the first telescopic rod, the first telescopic rod is hinged to the fourth guide rail, and the first motor and the second motor are connected to the user terminal through a server;

according to the invention, the orientation posture of the LED lamp can be twisted through the extension and retraction of the first extension part 510 through the movable frame 500, so that the angle of the LED lamp in each building block can be freely adjusted through the user terminal by a user, and the practicability and the playability of the spliced building blocks are improved.

Preferably, referring to fig. 3, the first frame rod 501 is fixed with the inside of the building block by a twisting mechanism 600, the twisting mechanism 600 comprises a first twisting plate 601, a second twisting plate 602, a second rack 603, a second telescoping mechanism 605, a second connecting rod 606, a latch mechanism 607;

the first torsion plate 601 is fixed with the inside of the building block, the first torsion plate 601 is fixed with a second torsion plate 602 through a support column, the second torsion plate 602 is fixed with a third motor, an output shaft of the third motor is fixed with a first bevel gear, the first bevel gear is engaged with a second bevel gear, the second bevel gear is fixed with a third gear through a shaft, the third gear is engaged with a fourth gear, the shaft of the fourth gear is installed on the second torsion plate 602 through a bearing, the fourth gear is fixed with the second rack 603, the end of the second rack 603 is hinged with the first rack bar 501, the locking mechanism 607 moves along the second rack bar 603, the locking mechanism 607 comprises a locking slider, a locking rod, a fourth motor and a return spring, the locking slider is provided with an arc-shaped oval hole, and the locking rod is arranged in the arc-shaped oval hole, the clamping rod can be clamped with the tooth socket of the second rack 603 or move along the arc-shaped waist-round hole to be separated from clamping, the clamping groove sliding block is fixed with the fourth motor, the output shaft of the fourth motor is fixed with the cam, the cam is fixed with the clamping rod, the output shaft of the fourth motor is positioned at the circle center of the arc-shaped waist-round hole, a return spring is arranged between the clamping rod and the clamping sliding block, the clamping sliding block is hinged with the second connecting rod 606, and the second connecting rod 606 is hinged with the middle part of the first frame rod 501;

the clamping slide block is connected with the end part of the second rack 603 through a second telescopic mechanism 605, the second telescopic mechanism 605 comprises a fifth telescopic rod, a fifth motor, a fifth sleeve, a fifth crank connecting rod and a fifth slide block, one end of the fifth sleeve is fixed with the end part of the second rack 603, the fifth sleeve is internally fixed with the fifth motor, an output shaft of the fifth motor is fixed with the fifth crank, the fifth crank is hinged with the fifth crank connecting rod, the fifth crank connecting rod is hinged with the fifth slide block, the fifth slide block is provided with a slide block bayonet lock, a slide block guide groove matched with the slide block bayonet lock is arranged in the fifth sleeve, the fifth slide block is fixed with the fifth telescopic rod, and the fifth telescopic rod is hinged with the clamping slide block;

According to the invention, the position of the locking mechanism can be controlled through the second telescopic mechanism 605, the locking mechanism can be fixed or moved at any position of the second rack 603, and the locking mechanism adjusts the rotating position of the first rack bar 501 through the second connecting rod 606, so that the position of the LED lamp can be adjusted through the rotation of the first rack bar 501, and the spliced building blocks have more usability and playability.

Preferably, a sound collection module is arranged in the building block and sends collected sound data G to a server, the server compares the size of the sound data G with a preset sound threshold H, if G is less than H, the server controls a switch module to adjust the conducting wire to be a closed circuit, and if G is less than H, the server controls the switch module to adjust the conducting wire to be an open circuit;

Outputting a preset sound threshold H according to the following formula;

The unit of the preset sound threshold H is decibels.

The invention uses the average value of the sound data G of the previous day

As the judgment basis of the preset sound threshold H, the sound acquisition module can be more adaptive to the environmentThe sensitivity of the LED lamp can be kept for different occasions, and the sound hole of the LED lamp is more intelligent.

Preferably, the server outputs recommended brightness F of the LED lamp according to a following formula according to the number A of the building blocks, the total volume B of the spliced building blocks, the ornamental distance C of the spliced building blocks, the area D of a house where the building blocks are located and the illumination intensity E of the position of the house where the building blocks are located, and the switch module adjusts the brightness of the LED lamp according to the recommended brightness F;

The server outputs the recommended luminous brightness according to the specific position of the building block, so that the luminous intensity of the building block is not too dark or too bright, and a user can watch the building block more comfortably.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims

1. An LED building block, its characterized in that: comprises that

The surface of the building block is provided with a protrusion and a hole;

an LED lamp configured inside the building block;

the power supply module is connected with the LED lamp through the switch module;

the LED lamp is fixed inside the building block through a moving frame (500), and the moving frame (500) comprises a first frame rod (501), a first guide rail (502), a second guide rail (503), a third guide rail (504), a first sliding block (505), a second sliding block (506), an L-shaped rod (507), a fourth guide rail (508), a first connecting rod (509) and a first telescopic part (510);

the first frame rod (501) is fixed with the interior of a building block, the first frame rod (501) is fixed with the left end of a first guide rail (502), the right end of the first guide rail (502) is fixed with a second guide rail (503), the left part of the first guide rail (502) is fixed with the lower end of a third guide rail (504), the third guide rail (504) is provided with a first sliding block (505) moving along the third guide rail, the first sliding block (505) is fixed with one end of an L-shaped rod (507), the other end of the L-shaped rod (507) moves along the left part of a fourth guide rail (508), the middle part of the fourth guide rail (508) is hinged with one end of a first connecting rod (509), the other end of the first connecting rod (509) is hinged with the middle part of the first guide rail (502), and the right part of the fourth guide rail (508) is hinged with a first telescopic part (510), the first telescopic part (510) is hinged with the second sliding block (506), and the second sliding block (506) moves along the second guide rail (503);

wherein the first connecting rod (509) is fixed with the LED lamp;

the second sliding block (506) is provided with a second motor and a second gear, and the second guide rail (503) is provided with a second rack meshed with the second gear;

the first telescopic part (510) comprises a first sleeve, a first motor, a first telescopic rod, a first lead screw and a first nut, the first sleeve is hinged to the second slider (506), the first sleeve is fixed to the first motor, the first motor is fixed to the end of the first lead screw, the first lead screw is in threaded connection with the first nut, a bayonet lock is arranged on the outer circumferential surface of the first nut, a clamping groove matched with the bayonet lock is arranged on the inner circumferential surface of the first sleeve, the first nut is fixed to the first telescopic rod, the first telescopic rod is hinged to the fourth guide rail, and the first motor and the second motor are connected with a user terminal through a server.

2. The LED building block of claim 1, wherein: the switch module is connected with the user terminal through the server.

3. The LED building block of claim 1, wherein: the switch module is the acoustic control switch module, the switch module is equipped with sound detection module, when sound detection module detected the sound that surpasss 80 decibels, the switch module was adjusted the wire into the route, and the acoustic control switch can be according to the size of the sound that detects, the luminous power of control LED lamp.

4. The LED building block of claim 1, wherein: the switch module is provided with an external touch inductive switch.

5. The LED building block of claim 1, wherein: the switch module is connected with the user terminal through Bluetooth and/or WIFI, and the user terminal can be switched on and off at regular time for the switch module.

6. The LED building block of claim 1, wherein: the LED lamp pass through the wire with power module connects, the wire is connected with switch module, the wire is the air wire, the end of wire is equipped with the USB and connects, power module is for the computer that has the USB interface or the treasured or the group battery that charges that has the USB interface.

7. The LED building block of claim 3, wherein: the switch module is provided with a light ray detection module, and when the light ray detection module detects light rays exceeding 300nit, the switch module adjusts the conducting wires into a passage.

8. The LED building block of claim 1, wherein: the first frame rod (501) is fixed with the interior of the building block through a twisting mechanism (600), and the twisting mechanism (600) comprises a first twisting plate (601), a second twisting plate (602), a second rack (603), a second telescopic mechanism (605), a second connecting rod (606) and a locking mechanism (607);

the first torsion plate (601) is fixed with the inside of the building block, the first torsion plate (601) is fixed with a second torsion plate (602) through a support column, the second torsion plate (602) is fixed with a third motor, an output shaft of the third motor is fixed with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the second bevel gear is fixed with a third gear through a shaft, the third gear is meshed with a fourth gear, the shaft of the fourth gear is installed on the second torsion plate (602) through a bearing, the fourth gear is fixed with the second rack (603), the end of the second rack (603) is hinged with the first rack rod (501), the locking mechanism (607) moves along the second rack rod (603), and the locking mechanism (607) comprises a locking slider, a locking rod, a fourth motor and a return spring, the clamping slide block is provided with an arc-shaped oval hole, a clamping rod is arranged in the arc-shaped oval hole, the clamping rod can be clamped with a tooth groove of the second rack (603) or can move along the arc-shaped oval hole to be separated from clamping, the clamping slide block is fixed with the fourth motor, an output shaft of the fourth motor is fixed with a cam, the cam is fixed with the clamping rod, the output shaft of the fourth motor is positioned at the circle center of the arc-shaped oval hole, a reset spring is arranged between the clamping rod and the clamping slide block, the clamping slide block is hinged with the second connecting rod (606), and the second connecting rod (606) is hinged with the middle part of the first rack rod (501);

the clamping slide block is connected with the end part of the second rack (603) through a second telescopic mechanism (605), the second telescopic mechanism (605) comprises a fifth telescopic rod, a fifth motor, a fifth sleeve, a fifth crank connecting rod and a fifth slide block, one end of the fifth sleeve is fixed with the end part of the second rack (603), the fifth sleeve is internally fixed with the fifth motor, an output shaft of the fifth motor is fixed with the fifth crank, the fifth crank is hinged with the fifth crank connecting rod, the fifth crank connecting rod is hinged with the fifth slide block, the fifth slide block is provided with a slide block clamping pin, a slide block guide groove matched with the slide block clamping pin is arranged in the fifth sleeve, the fifth slide block is fixed with the fifth slide block, and the fifth telescopic rod is hinged with the clamping slide block;

9. The LED building block of claim 8, wherein: the building block is internally provided with a sound acquisition module, the sound acquisition module sends acquired sound data G to a server, the server compares the size of the sound data G with a preset sound threshold H, if G is less than H, the server controls the switch module to adjust the wire to be a path, and if G is less than H, the server controls the switch module to adjust the wire to be a broken circuit;

Outputting a preset sound threshold H according to the following formula;

Presetting a unit of a sound threshold H as decibels;

the server outputs recommended brightness F of the LED lamp according to the following formula according to the number A of the building blocks, the total volume B of the spliced building blocks, the ornamental distance C of the spliced building blocks, the area D of a house where the building blocks are located and the illumination intensity E of the position of the house where the building blocks are located, and the switch module adjusts the brightness of the LED lamp according to the recommended brightness F;