KR101605017B1

KR101605017B1 - Assembling block toy

Info

Publication number: KR101605017B1
Application number: KR1020150098470A
Authority: KR
Inventors: 허종승
Original assignee: (주)우드브릭스
Priority date: 2015-07-10
Filing date: 2015-07-10
Publication date: 2016-03-21
Also published as: WO2017010746A1

Abstract

The present invention relates to a prefabricated block toy, and more particularly, to a prefabricated block toy that is assembled by a simple combination of a stud and a stud groove, and an electric element is added to the prefabricated block toy to detect a light emitting portion such as an LED and a lamp, The problem is solved by the fact that the simple assembly of the block toys does not give any more pleasure after the assembly of the block toys is completed and the children lose interest.
That is, the present invention provides a prefabricated block toy in which studs and stud grooves are formed so as to be mutually connectable, the prefabricated block toy being composed of a nonconductive block, a conductive block, a power supply block, a switch block, a sensor block and a lamp block, And an electrically conductive block in which a conductive wire is provided in the insulating resin. The conductive block is formed of an insulating resin.
The insulator block is composed of a housing formed of insulating resin, and a stud and a stud groove.
The conductive resin block may include a housing formed of a conductive resin, a stud and a stud groove, and a connection conductive resin block having one or two studs and stud grooves for electrical connection between the conductive resin blocks, And a distribution conductive resin block in which at least three studs and stud grooves are formed in order to distribute electric power.
The insert block includes a housing formed of an insulating resin, a stud and a stud groove formed of a conductive resin, and a stud and a stud groove are connected to each other so that the stud of the block and the stud groove can be electrically connected to each other. A connecting insert block in which studs and stud grooves are respectively formed for electrical connection between the insert blocks, at least two studs and stud grooves for distributing the power are formed, and the studs and the studs or the studs And a distribution insert block in which the groove and the stud groove are electrically connected to each other.
The conductive wire rod block may include a housing formed of an insulating resin, a stud and a stud groove, and connected to each other from both side surfaces of the stud to the inside of the stud groove so that mutually coupled blocks are electrically connected to each other. A connecting conductive wire rod block 230a in which studs and stud grooves are respectively formed for electrical connection between the conductive wire rod blocks, at least two studs and at least two studs for distributing electric power, And a distribution conductive wire rod block constituted by a stud groove and bridges respectively provided in the stud and the stud groove are electrically connected to each other to correspond to each other.
The power supply block may include one of an insert type power supply block and a bridge type power supply block. The insert type power supply block may include a housing formed of insulating resin, two or more studs and a stud groove formed of a conductive resin, And a positive terminal of a power connection port formed at one side of the housing is electrically connected to a different stud or a stud groove.
The bridge type power supply block may include a housing formed of an insulating resin and at least one stud and a stud groove formed of an insulating resin. The bridged type power supply block may include a pair of conductive portions formed from both side surfaces of the stud to the inside of the stud groove, And a positive terminal of a power connection port formed at one side of the housing is electrically connected to the pair of bridges.
The switch block includes a housing formed of an insulating resin and two or more studs and stud grooves made of a conductive resin. The switch block has an on / off switch formed inside the housing and electrically connected to both side surfaces of the housing. Off switch is formed inside the housing and the positive terminal is electrically connected to a different stud or stud groove.
In addition, the sensor block is constituted by a sensor unit which operates by sensing a human body inside the housing, and the lamp block is constituted by a light emitting unit which emits to the outside by power supplied to the inside of a housing formed of a light transmitting insulating resin.
The power supply unit may further include a battery accommodating part accommodating the battery and a power supply connector electrically connected to the battery accommodating part and connected to the power supply connector.
In addition, an electrode display protrusion for preventing an electrical connection of the bridge from being erroneously coupled to one side of the conductive wire rod block, and an electrode display groove corresponding to the electrode display protrusion are further included.
Further, a solar cell plate for converting solar energy into electric energy is provided on the upper side, and a power supply device in which a battery for storing electric energy generated in the solar cell plate is formed.
As described above, by using the prefabricated block toy according to the present invention, it is possible to manufacture various assemblies which are free from the manufacturing cost and realized in the conventional prefabricated block toys, Such as an LED and a lamp, and a sensor, which operates by sensing a human body, are constructed so that the simple assembly of the block toys does not give any more pleasure after the assembly of the block toys, By solving the problem of losing and making various attempts to stimulate and interest the child even after the assembly is completed, it is also helpful for children to have fun and improve their creativity.

Description

Assembling block toy {Assembling block toy}

The present invention relates to a prefabricated block toy, and more particularly, to a prefabricated block toy that is assembled by a simple combination of a stud and a stud groove, and an electric element is added to the prefabricated block toy to detect a light emitting portion such as an LED and a lamp, It is possible to solve the problem that the children do not feel any more joy after the assembly of the block toys is completed due to the simple assembly of the block toys and solve the problem that the children lose their interest and can stimulate and interest the child even after the assembly is completed By making various attempts, it is also helpful to children's fun and creativity.

A variety of prefabricated block toys are used, including Lego blocks, for children and infant play and intelligence development and creativity education.

Such block toys generally include a plurality of blocks made of individual members having the same or different shapes, and a plurality of studs (engaging projections) are formed on the front face of the blocks, and a stud groove And a plurality of models are formed by successive interconnection of the blocks by the engagement of the stud and the stud groove.

And it is a toy that can make creativity education by combining play such as animals or objects by combining these blocks with children or infants as they want.

However, most of the assembled toys or components of the prefabricated blocks are made in a simple form and do not give a dynamic feeling overall, and when the assembly is completed, there is no longer any joy, so children are easily lost interest.

Korean Patent No. 0946794

According to the conventional 0946794 (self-assembled type light emitting block device), a unit block having a hexahedron shape capable of mutual stacking and a power supply body capable of supplying power to the unit block are provided, A light emitting diode which is mounted inside and which emits light to the outside by the supplied power; a plurality of relay devices formed of a magnetic material having conductivity and formed to be exposed on the surface of the unit block so as to supply electric power to the light emitting diode, The power supply body is provided with a magnetic electrode so that power supplied from the power supply can be supplied to the unit block. The power supply body is electrically conductive with respect to the relay magnetic electrode forming pattern of the unit block, And a main body provided with a plurality of main magnetic electrodes formed of a magnetic material Values are provided.

According to such a self-assembled type light-emitting block device, since the unit blocks are assembled to a magnetic force and electrically connected to each other, they can emit light, which can further enhance interest in block assembly when used for a toy, It is possible to assemble easily.

However, since the magnetic material having conductivity is used to make electrical connection, the manufacturing cost is inconvenient, and by providing a restriction that the child or infant must match the magnetic electrode in assembling the block, There is a problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a prefabricated block toy in which studs and stud grooves are formed to be mutually engageable, Wherein the conductive block is made of a conductive resin block formed of a conductive resin and an insert block having a conductor inserted in the center of the insulating resin and a conductive wire rod block having a conductive wire inside the insulating resin, Respectively.

The insulator block is composed of a housing formed of insulating resin, and a stud and a stud groove.

The conductive resin block may include a housing formed of a conductive resin, a stud and a stud groove, and a connection conductive resin block having one or two studs and stud grooves for electrical connection between the conductive resin blocks, And a distribution conductive resin block in which at least three studs and stud grooves are formed in order to distribute electric power.

The insert block includes a housing formed of an insulating resin, a stud and a stud groove formed of a conductive resin, and a stud and a stud groove are connected to each other so that the stud of the block and the stud groove can be electrically connected to each other. A connecting insert block in which studs and stud grooves are respectively formed for electrical connection between the insert blocks, at least two studs and stud grooves for distributing the power are formed, and the studs and the studs or the studs And a distribution insert block in which the groove and the stud groove are electrically connected to each other.

The conductive wire rod block may include a housing formed of an insulating resin, a stud and a stud groove, and connected to each other from both side surfaces of the stud to the inside of the stud groove so that mutually coupled blocks are electrically connected to each other. A connecting conductive wire rod block 230a in which studs and stud grooves are respectively formed for electrical connection between the conductive wire rod blocks, at least two studs and at least two studs for distributing electric power, And a distribution conductive wire rod block constituted by a stud groove and bridges respectively provided in the stud and the stud groove are electrically connected to each other to correspond to each other.

The power supply block may include one of an insert type power supply block and a bridge type power supply block. The insert type power supply block may include a housing formed of insulating resin, two or more studs and a stud groove formed of a conductive resin, And a positive terminal of a power connection port formed at one side of the housing is electrically connected to a different stud or a stud groove.

The bridge type power supply block may include a housing formed of an insulating resin and at least one stud and a stud groove formed of an insulating resin. The bridged type power supply block may include a pair of conductive portions formed from both side surfaces of the stud to the inside of the stud groove, And a positive terminal of a power connection port formed at one side of the housing is electrically connected to the pair of bridges.

The switch block includes a housing formed of an insulating resin and two or more studs and stud grooves made of a conductive resin. The switch block has an on / off switch formed inside the housing and electrically connected to both side surfaces of the housing. Off switch is formed inside the housing and the positive terminal is electrically connected to a different stud or stud groove.

In addition, the sensor block is constituted by a sensor unit which operates by sensing a human body inside the housing, and the lamp block is constituted by a light emitting unit which emits to the outside by power supplied to the inside of a housing formed of a light transmitting insulating resin.

The power supply unit may further include a battery accommodating part accommodating the battery and a power supply connector electrically connected to the battery accommodating part and connected to the power supply connector.

In addition, an electrode display protrusion for preventing an electrical connection of the bridge from being erroneously coupled to one side of the conductive wire rod block, and an electrode display groove corresponding to the electrode display protrusion are further included.

Further, a solar cell plate for converting solar energy into electric energy is provided on the upper side, and a power supply device in which a battery for storing electric energy generated in the solar cell plate is formed.

As described above, by using the prefabricated block toy according to the present invention, it is possible to manufacture various assemblies which are free from the manufacturing cost and realized in the conventional prefabricated block toys, Such as an LED and a lamp, and a sensor, which operates by sensing a human body, are constructed so that the simple assembly of the block toys does not give any more pleasure after the assembly of the block toys, By solving the problem of losing and making various attempts to stimulate and interest the child even after the assembly is completed, it is also helpful for children to have fun and improve their creativity.

1 is a schematic perspective view showing an insulated block of a prefabricated block toy according to the present invention.
Figure 2 is a schematic rear perspective view of Figure 1;
3 is a schematic perspective view showing a conductive resin block of a prefabricated block toy according to the present invention.
4 is a schematic cross-sectional view showing an insert block of a prefabricated block toy according to the present invention.
5 is a schematic view showing a conductive wire rod block of a prefabricated block toy according to the present invention.
6 is a schematic view showing a power supply block of a prefabricated block toy according to the present invention.
7 is a schematic view showing a switch block of a prefabricated block toy according to the present invention.
8 is a schematic view showing a sensor block of a prefabricated block toy according to the present invention.
9 is a schematic view showing a lamp block of a prefabricated block toy according to the present invention.
10 is a schematic view showing a power supply device of a prefabricated block toy according to the present invention.
11 is a view showing an embodiment of a conductive wire rod block of the assembled block toy according to the present invention.
12 is a schematic view showing another embodiment of the power supply device of the assembled block toy according to the present invention.
13 is a use state diagram showing an embodiment of a prefabricated block toy according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic perspective view showing a non-conductive block of a prefabricated block toy according to the present invention, Fig. 2 is a schematic rear perspective view of Fig. 1, and Fig. 3 is a perspective view showing a conductive resin block of a prefabricated block toy according to the present invention Fig. 4 is a schematic cross-sectional view showing an insert block of a prefabricated block toy according to the present invention. Fig.

Fig. 5 is a schematic view showing a conductive wire rod block of a prefabricated block toy according to the present invention, wherein the first drawing is a sectional view showing a connecting conductive wire rod block and the second drawing is a bottom view showing a distributed conductive wire rod block.

FIG. 6 is a schematic view showing a power supply block of the assembled block toy according to the present invention, FIG. 7 is a schematic view showing a switch block of the assembled block toy according to the present invention, Fig. 9 is a schematic view showing a sensor block of a block toy, and Fig. 9 is a schematic view showing a lamp block of a prefabricated block toy according to the present invention.

11 is a view showing an embodiment of a conductive wire rod block of a prefabricated block toy according to the present invention, and Fig. 12 is a view showing an embodiment of the power supply apparatus of the prefabricated block toy according to the present invention, FIG. 13 is a schematic view showing another embodiment of a power supply device of a prefabricated block toy according to the present invention, and FIG. 13 is a state diagram showing an embodiment of a prefabricated block toy according to the present invention.

A conductive block 200, a power supply block 300, and a switch block 400. The stud block 20 includes a stud 20 and a stud groove 30, A sensor block 500 and a lamp block 600. The conductive block 200 includes a conductive resin block 210 formed of a conductive resin and an insert block 220 ), And a conductive wire rod block 230 having a conductive wire inside the insulating resin.

The non-conductor block 100 includes a housing 10 formed of an insulating resin, a stud 20, and a stud groove 30.

The conductive resin block 210 includes a housing 10 formed of a conductive resin and a stud 20 and a stud groove 30. The conductive resin block 210 is electrically connected to the studs 20, A connecting conductive resin block 210a in which at least three studs 20 and stud grooves 30 are formed in order to distribute electric power, And a conductive resin block 210b.

The insert block 220 includes a housing 10 formed of insulating resin, a stud 20 formed of a conductive resin and a stud groove 30, and the stud 20 and the stud 20, The stud 20 and the stud groove 30 are connected to each other so that the groove 30 can be electrically connected to the stud block 20 and the stud 20 and the stud groove 30 are electrically connected to each other. A connection insert block 220a formed of one each,

At least two studs 20 and a stud groove 30 are formed in order to distribute the power and the stud 20 and the stud 20 or the stud groove 30 and the stud groove 30 are electrically connected to each other And a distribution insert block 220b constituted by a plurality of discs.

The conductive wire rod block 230 includes a housing 10 formed of an insulating resin and a stud 20 and a stud groove 30. The conductive wire rod block 230 includes a stud 20 and a stud groove 30, A pair of bridges 231 formed to be connected to the inside of the stud groove 30 from both sides of the stud groove 30 and electrically connected to the stud groove 20 are provided in order to electrically connect the conductive wire rod blocks 230 to each other. At least two studs 20 and stud grooves 30 are formed to distribute the power and at least two studs 20 and stud grooves 30 are formed in the studs 20 and the stud grooves 30, 30 and the bridges 231 are electrically connected to each other so as to correspond to each other.

The power supply block 300 includes one of an insert type power supply block 310 and a bridge type power supply block 320. The insert type power supply block 310 includes a housing 10 formed of insulating resin, Wherein the positive terminal of the power supply connector 301 formed on one side of the housing 10 is formed of two or more studs 20 formed of resin and a stud groove 30, As shown in FIG.

The bridge type power supply block 320 includes a housing 10 formed of insulating resin and one or more studs 20 formed of insulating resin and a stud groove 30, A pair of bridges 231 formed to be connected to the inner side of the stud groove 30 and having electrical conductivity and a positive terminal of the power connection port 301 formed at one side of the housing 10 are connected to the pair of bridges (Not shown).

The switch block 400 includes an on / off switch 410 formed inside the housing 10 to be electrically connected to both side surfaces of the housing 10, a housing 10 formed of insulating resin, Off switch 410 is formed on the inner side of the housing 10 so that the positive terminal is connected to the stud 20 or the stud groove 30, And electrically connected to the first switch 30.

The sensor block 500 includes a sensor unit 510 that senses a human body inside the housing 10 and the lamp block 600 is supplied to the inside of the housing 10 formed of a light- Emitting portion 610 that emits light to the outside by the power that is generated.

The power supply 700 includes a battery accommodating portion 710 accommodating a battery and a power connector 720 electrically connected to the power receptacle 301 and electrically connected to the battery accommodating portion 710 .

An electrode display protrusion 232 for preventing the electrical connection of the bridge 231 from being erroneously coupled to one side of the conductive wire rod block 230 and the electrode display protrusion 232 And the corresponding electrode indication groove 233 is further included.

A power supply 700 includes a solar battery 730 for converting solar energy into electric energy and a battery 740 for storing electric energy generated in the solar battery 730. The power supply 700 includes a battery 730, Can be implemented.

The process of using the present invention will now be described.

1 and 2, the housing 10, the stud 20, and the stud groove 30 are all formed of insulating resin, so that the blocks are simply fixedly coupled in the assembling process And are connected between the conductive resin blocks 210 so that no current flows between the blocks.

3, the housing 10, the stud 20, and the stud groove 30 are entirely formed of a conductive resin, so that the conductive resin block 210 can be mounted not only in the vertical direction but also in the left- And electrical connection in all adjacent directions, such as the front and back directions.

Therefore, a child can construct an electrical connection by simply connecting the non-conductive block 100 and the conductive resin block 210 by a simple connection.

3, the connection conductive resin block 210a may be divided into a connection conductive resin block 210a and a distribution conductive resin block 210b. The connection conductive resin block 210a may include a stud 20, And the stud grooves 30 are formed only by one or two each, and are used for electrical connection between blocks only.

At least three or more studs 20 and stud grooves 30 are formed in the distribution conductive resin block 210b to be used for power distribution.

The insert block 220 includes a housing 10 formed of an insulating resin, a stud 20 formed of a conductive resin, and an insert block 220 formed of a conductive resin so that the stud 20 can be coupled to the inside of the housing 10 The stud 20 and the stud groove 30 are connected to each other so that the stud 20 of the block and the stud groove 30 can be electrically connected to each other and the insert block 220 A connecting insert block 220a in which the stud 20 and the stud groove 30 are each formed as one for electrical connection between the stud 20 and the stud groove 30,

4, the insert block 220 includes a housing 10 formed of insulating resin, a stud 20 formed of a conductive resin and a stud groove 30 electrically connected to each other, As shown in Fig.

Accordingly, when the insert block 220 is stacked in the vertical direction, the lower stud 20 formed of a conductive resin is fitted and coupled to the upper stud groove 30 formed of a conductive resin, thereby being electrically connected between the upper and lower blocks .

Here, the housing 10 of the insert block 220 is formed of insulating resin so that no current flows between the insert blocks 220 that are laterally adjacent to each other.

In other words, unlike the conductive resin block 210, it is also possible to construct the insulated block 220 by connecting the insert blocks 220 adjacent to each other without assembling the insulator block 100, and assembling them by vertically coupling them.

4, the insert block 220 can be divided into a connection insert block 220a and a distribution insert block 220b. The connection insert block 220a includes a stud 20 and a stud groove 30 ) Are used for electrical connection between blocks only.

At least two or more studs 20 and stud grooves 30 are formed in the distribution insert block 220b to be used for distribution of power.

5, the housing 10, the stud 20, and the stud groove 30 are formed of insulating resin and have a pair of conductive bridges 231, so that the studs 20, To the inside of the stud groove (30).

As a result, when the blocks are mutually coupled and the stud 20 and the stud groove 30 of the other block are engaged with each other, a current can flow simultaneously through a pair of bridges 231 separated from each other .

5, the connecting conductive wire rod block 230a may be divided into a connecting conductive wire rod block 230a and a distributed conductive wire rod block 230b. The connecting conductive wire rod block 230a may include a stud 20, Each of the stud grooves 30 is composed of only one and a pair of bridges 231 are provided so as to be used for electrical connection between blocks only.

5, at least two studs 20 and stud grooves 30 are formed in each of the distribution conductive wire rod blocks 230b. Each of the studs 20 and the stud grooves 30 And the bridges 231 are electrically connected to each other to correspond to each other.

As a result, the connection conductive wire rod block 230a is coupled to each stud 20 of the distribution conductive wire rod block 230b to enable power distribution in various directions.

6, the insert-type power supply block 310 includes two or more studs 20 formed of insulating resin and a plurality of studs 20 formed of a conductive resin, similar to the insert block 220 described above. And the positive terminal of the power connector 301 is connected to the power source connector 30 separately.

Thus, the insert block 220 is coupled to the stud 20 to which the electrode is connected, so that current can flow through the block after power is connected to the power connector 301.

The bridge type power supply block 320 includes a housing 10 formed of insulating resin, one or more studs 20 formed of insulating resin and a stud groove 30, A pair of bridges 231 formed to be connected to the inner side of the stud groove 30 and having electrical conductivity and a positive terminal of the power connection port 301 formed at one side of the housing 10 are connected to the pair of bridges (Not shown).

That is, the bridge-type power supply block 320 has a structure similar to that of the conductive wire block 230, and the power supply connector 301 is electrically connected to the power supply connector 301 at one side.

Thus, by connecting the conductive wire rod block 230 to the stud 20 to which the electrode is connected, it is possible to simultaneously flow a current through the anode.

7, the on / off switch 410 is formed on the inside of the housing 10 to electrically connect the both side surfaces of the housing 10 to each other. As a result, It is possible to control the flow of current by adjusting the switch 410 between the switches 210.

The housing 10 is made of insulating resin and two or more studs 20 and a stud groove 30 formed of a conductive resin. Among the studs 20 and the stud groove 30, Off switch 410 is configured to couple the insert block 220 to the stud 20 and the stud groove 30 connected to the on-off switch 410 and to adjust the switch 410 so that the flow of current It is possible to control.

8, the sensor unit 510 may be disposed inside the housing 10 to electrically connect to both side surfaces of the housing 10, thereby electrically connecting the conductive resin blocks (not shown) formed on both sides of the sensor block 500 210 can constitute various block toys through the operation of the sensor unit 510.

The housing 10 is made of insulating resin and two or more studs 20 and a stud groove 30 formed of a conductive resin. Among the studs 20 and the stud groove 30, The sensor unit 510 is configured so that the insert block 220 is coupled to the stud 20 and the stud groove 30 connected to the sensor unit 510 and the motion of the various block toys It becomes possible to configure.

As shown in FIG. 9, the housing 10 is formed of a light-transmitting insulating resin so that light can be emitted to the outside, and is connected to the inside of the stud groove 30 from both side surfaces of the stud 20 formed of insulating resin And a light emitting portion 610 such as an LED or a light emitting diode is formed between a pair of bridges 231 having conductivity and having conductivity.

A light emitting portion 610 is formed inside the housing 10 formed of a translucent resin and electrically connected to both side surfaces of the housing 10 so that the conductive resin blocks 210 formed on both sides of the lamp block 600 The light emitting unit 610 can be operated in the same manner as the above embodiment.

The housing 10 is made of insulating resin and two or more studs 20 and a stud groove 30 formed of a conductive resin. Among the studs 20 and the stud groove 30, The light emitting portion 610 is formed so that the insert block 220 is coupled to the stud 20 and the stud groove 30 connected to the light emitting portion 610 and the light emitting portion 610 is configured to emit light You can do it.

10, a power supply connector 720, which is electrically connected to the battery accommodating portion 710 and connected to the power connector 301, includes a battery accommodating portion 710 in which a battery is accommodated, Device 700 is further included.

As shown in FIG. 11, an electrode display protrusion 232 is provided at one side of the conductive wire rod block 230 to prevent an erroneous electrical connection of the bridge 231 due to an incorrect combination of directions of the blocks. And an electrode display groove 233 corresponding to the electrode display protrusion 232 is further included.

That is, in the case of the conductive wire rod block 230, a pair of bridges 231 are formed on both side surfaces of the stud 20 on the inside of the block, so that a current flows through the anode.

Therefore, if the block is joined in the wrong direction, the electrical connection will not be made properly.

In order to prevent this, in the case of the conductive wire rod block 230, the electrode display protrusions 232 and the electrode display recesses 232, which correspond to the electrode display protrusions 232, 233 to prevent the blocks from being joined in the wrong direction.

On the other hand, as shown in FIG. 12, a solar cell plate 730 for converting solar energy into electric energy is formed on the upper side, and a battery 740 for storing electric energy generated in the solar cell plate 730 is formed on the inner side A power supply 700 may be further included.

That is, solar energy is converted into electric energy by the solar panel 730 formed on the upper side of the power supply device 700, and the electric power including the lamp block 600 configured in the present invention is driven will be.

A battery 740 is formed in the battery accommodating portion 710 in which the battery is accommodated to store the electric energy generated by the solar panel 730 or a battery 740 May be electrically arranged in parallel.

This makes it possible to manufacture various assemblies realized in conventional assembled block toys without the burden of the manufacturing cost and solves the problem that the infant or child can lose interest by simple assembly of the blocks and can visually By making various attempts to stimulate children, it is also helpful to improve the creativity of children.

10: housing 20: stud
30: stud groove 100: non-conductive block
200: conductive block 210: conductive resin block
210a: connection conductive resin block 210b: distributed conductive resin block
220: insert block 220a: connection insert block
220b: distribution insert block 230: conductive wire block
230a: connection conductive wire rod block 230b: distributed conductive wire rod block
231: Bridge 232: Electrode indicating projection
233: electrode display groove 300: power supply block
301: Power connector 310: Insert type power block
320: Bridge type power supply block 400: Switch block
410: switch 500: sensor block
510: Sensor part 600: Lamp block
610: light emitting unit 700: power supply unit
710: Battery compartment 720: Power connector
730: Solar panel 740: Storage battery

Claims

In the assembled block toy in which the stud 20 and the stud groove 30 are formed so as to be mutually engageable,
A power supply block 300, a switch block 400, a sensor block 500, and a lamp block 600, and blocks are connected to the housing 10 And a stud groove (30) is formed on the other side of the stud (20).
The conductive block 200 is composed of a conductive resin block 210 made of a conductive resin and an insert block 220 having a conductor inserted in the center of the insulating resin. And a wire rod block 230. In order to electrically connect between the conductive resin blocks 210, the stud 20 and the stud groove 30 are formed by one or two connection conductors A resin block 210a and a distribution conductive resin block 210b in which at least three studs 20 and stud grooves 30 are formed in order to distribute power, respectively;

The insert block 220 includes a housing 10 formed of insulating resin, a stud 20 formed of a conductive resin and a stud groove 30, and the stud 20 and the stud groove The stud 20 and the stud groove 30 are connected to each other so that the stud 20 and the stud groove 30 can be electrically connected to each other. At least two studs 20 and stud grooves 30 are formed at least to distribute the power and the stud 20 and the stud 20 or the stud groove 30 are formed, And a distribution insert block (220b) in which the stud groove (30) is electrically connected to each other;

The conductive wire rod block 230 includes a housing 10 formed of insulating resin, a stud 20 and a stud groove 30, and the conductive wire rod block 230 is formed on both side surfaces of the stud 20, A pair of bridges 231 formed to be connected to the inner side of the stud groove 30 and electrically connected to the stud groove 20 and the stud groove 30 are provided for electrical connection between the conductive wire rod blocks 230. [ And at least two studs 20 and a stud groove 30 are formed to distribute the power and the stud 20 and the stud groove 30 are formed. And a distribution conductive wire block 230b electrically connected to the bridges 231 corresponding to the bridges 231, respectively.

An electrode display protrusion 232 for preventing the electrical connection of the bridge 231 from being erroneously coupled to one side of the conductive wire rod block 230 and an electrode display protrusion 232 corresponding to the electrode display protrusion 232 And an electrode display groove (233) is formed in the electrode block.

The method according to claim 1,
Wherein the power supply block (300) comprises one of an insert type power supply block (310) and a bridge type power supply block (320).

3. The method of claim 2,
The insert-type power supply block 310 includes a housing 10 formed of insulating resin, two or more studs 20 formed of a conductive resin, and a stud groove 30, and is formed on one side of the housing 10 Wherein the positive terminal of the power connector (301) is electrically connected to the stud (20) or the stud groove (30) which are different from each other.

The method of claim 3,
The bridge type power supply block 320 includes a housing 10 formed of insulating resin and one or more studs 20 and a stud groove 30 formed of an insulating resin. A pair of bridges 231 formed to be connected to the inner side of the groove 30 and having conductivity are provided and the positive terminal of the power connection port 301 formed at one side of the housing 10 is connected to the pair of bridges 231 , Respectively, of the block toy.

The method according to claim 1,
The switch block 400 includes an on-off switch 410 formed inside the housing 10 and electrically connected to both side surfaces of the housing 10,
A housing 10 formed of insulating resin, two or more studs 20 formed of a conductive resin and a stud groove 30, and an on / off switch 410 is formed inside the housing 10, Are electrically connected to studs (20) or stud grooves (30) which are different from each other.

The method according to claim 1,
Wherein the sensor block (500) comprises a sensor part (510) which senses a human body inside the housing (10) and operates.

The method according to claim 6,
Wherein the lamp block (600) comprises a light emitting portion (610) emitting light to the outside by power supplied to the inside of the housing (10) formed of a light transmitting insulating resin.

5. The method of claim 4,
The power supply 700 may further include a battery accommodating portion 710 accommodating the battery and a power connector 720 electrically connected to the power accommodating portion 710 and connected to the power connector 301 Wherein the block toy is a toy.

9. The method of claim 8,
A solar battery 730 for converting solar energy into electric energy is formed on the upper side of the power supply 700 and a battery 740 for storing electric energy generated in the solar battery 730 is formed inside Wherein the block toy is a toy.

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