MODULAR EDUCATION, ENTERTAINMENT AND TOY BLOCK

Abstract

The invention relates to a modular education and toy block having at least one piece 10 having a body (11), a jointer (20) working with comb fitting principle (finger joint), having recesses and/or protrusions that each of them is in triangular on at least one surface of the joinder (20) which is appropriate to form new pieces (10) by combining the piece (10) with another piece (10).

Claims

1. A modular education and toy block (1) comprising at least one piece (10) having a body (11), characterized by comprising a jointer (20) which is suitable for creating new pieces (10) by combining the piece (10) with another piece (10), which has recesses and/or protrusions that each of them is in triangular form on at least one surface of the jointer (20), which works with the comb fitting principle (i.e.: finger joint).

2. A modular education and toy block (1) according to claim 1 characterized by comprising a jointer (20) having teeth (21) in elastic and/or non-elastic form which the recesses and protrusions create.

3. A modular education and toy block (1) according to claim 1 characterized by comprising a jointer (20) having teeth (21) in the form of inner tooth (210) created by the recesses formed inwards from the body (11) and/or in the form of outer tooth (211) created by the protrusions formed outwards from the body (11).

4. A modular education and toy block (1) according to claim 3 characterized by comprising a jointer (20) providing smooth combination of at least one teeth (21) row comprising inner teeth (210) and another at least one teeth (21) row having outer teeth (211) with each other.

5. A modular education and toy block (1) according to claim 3 characterized by comprising a jointer (20) providing smooth combination of at least one teeth (21) row comprising outer teeth (211) and another at least one teeth (21) row comprising outer teeth (211) with each other.

6. A modular education and toy block (1) according to claim 4 characterized by comprising different jointers (20) having an inner teeth (210) row and an outer teeth (211) on the same body (11).

7. A modular education and toy block (1) according to claim 1 characterized by comprising a jointer (20) having teeth (21) made of a material different from the body (11).

8. A modular education and toy block (1) according to claim 7 characterized by comprising a jointer (20) made of a material softer than the body (11) on the purpose of obtaining a more elastic combination.

9. A modular education and toy block (1) according to claim 1 characterized by comprising a jointer (20) having the teeth (21) which is fixed onto the surface of the piece (10) which the part of the jointer (20) that is the base of the recesses and protrusions in triangular form creating the teeth (21) belongs to and where the ends of the triangular form are free.

10. A modular education and toy block (1) according to claim 9 characterized by comprising at least one jointer (20) whose free ends comprise sharp teeth (21).

11. A modular education and toy block (1) according to claim 10 characterized by comprising a jointer (20) comprising at least one teeth (21) row.

12. A modular education and toy block (1) according to claim 11 characterized by comprising a jointer (20) comprising teeth (21) rowed in linear form.

13. A modular education and toy block (1) according to claim 11 characterized by comprising a jointer (20) comprising teeth (21) rowed in circular and/or spiral form.

14. A modular education and toy block (1) according to claim 11 characterized by comprising a jointer (20) where the teeth (21) rows are parallel to each other.

15. A modular education and toy block (1) according to claim 14 characterized by comprising a jointer (20) comprising teeth (21) having protrusions with the same depth lengths.

16. A modular education and toy block (1) according to claim 15 characterized by comprising a jointer (20) comprising the teeth (21) row whose widths between each of two consecutive protrusions are same with each other.

17. A modular education and toy block (1) according to claim 16 characterized by comprising a jointer (20) where the tooth (21) widths included by teeth (21) rows are different from each other for each piece (10).

18. A modular education and toy block (1) according to claim 17 characterized by comprising a jointer (20) comprising teeth (21) rows where the pieces (10) can be combined to the same direction or different directions on the same plane.

19. A modular education and toy block (1) according to claim 18 characterized by comprising a jointer (20) comprising teeth (21) rows where the pieces (10) can be combined in different directions and on different planes.

20. A modular education and toy block (1) according to claim 19 characterized by comprising a jointer (20) and a piece (10) positioned as a single piece.

21. A modular education and toy block (1) according to claim 20 characterized by comprising a jointer (20) having teeth (21) made of plastic, wood, metal and composite materials.

22. A modular education and toy block (1) according to claim 21 characterized by comprising a jointer (20) having teeth (21) produced with the technique of flaring with knife or production with mold.

23. A modular education and toy block (1) according to claim 1 characterized by comprising at least one piece (10) comprising at least one jointer (20) in the form that provides combination from all surfaces of the piece (10) with another piece (10).

24. A modular education and toy block (1) according to claim 23 characterized by comprising a piece (10) comprising jointer (20) on all surfaces of the piece (10) continuously.

25. A modular education and toy block (1) according to claim 24 characterized by comprising cylindrical, spherical and circular pieces (10) in the form that can intertwine comprising jointer (20) on all surfaces of the pieces (10) continuously.

26. A modular education and toy block (1) according to claim 1 characterized by comprising an inter combination unit (30) combining a toothed (21) jointer (20) with a female recessed tab.

27. A modular education and toy block (1) according to claim 26 characterized by comprising an inter combination unit (30) combining two tabs having recesses.

28. A modular education and toy block (1) according to claim 27 characterized by comprising an inter combination unit (30) combining two tabs having protrusions.

29. A modular education and toy block (1) according to claim 26 characterized by comprising an inter combination unit (30) which is in a suitable form for tooth widths and whose lateral surfaces are in rough form to provide a better combination.

Description

DETAILED DESCRIPTION OF THE INVENTION

Description of the Figures

[0031] FIG. 1—It is the schematic view of the units comprising the toothed jointers where the pieces that construct the disclosed modular education and toy block of the invention are combined in one dimension.

[0032] FIG. 2—It is the schematic view of an embodiment where the toothed jointers in different widths are combined in the disclosed modular education and toy block of the invention.

[0033] FIG. 3—It is the schematic view of the toothed jointers in the disclosed modular education and toy block of the invention.

[0034] FIG. 4—It is the schematic view of the toothed structures which are perpendicular to each other in the disclosed modular education and toy block of the invention.

[0035] FIG. 5—It is the schematic view of the inter combination unit in the disclosed modular education and toy block of the invention.

[0036] FIG. 6—It is the schematic view of the structure with multidirectional toothed jointer in an embodiment of the disclosed modular education and toy block of the invention.

[0037] FIG. 7—It is the schematic view of a jointer of the disclosed modular education and toy block of the invention comprising outer teeth which provide combination to every direction.

[0038] FIG. 8—It is the schematic view of an embodiment of the disclosed modular education and toy block of the invention which is constructed with the toothed jointers.

[0039] FIG. 9—It is the schematic view of the pieces in circular form in an embodiment of the disclosed modular education and toy block of the invention.

[0040] FIG. 10—It is the three dimensional schematic view of the pieces in circular form in an embodiment of the disclosed modular education and toy block of the invention.

[0041] FIG. 11—It is the schematic view of the pieces in spherical form in another embodiment of the disclosed modular education and toy block of the invention.

[0042] FIG. 12—It is the schematic view of the disclosed modular education and toy block of the invention in an embodiment of it where inner toothed and outer toothed jointers are combined.

[0043] FIG. 13—It is the schematic view where the pieces in cylindrical form in an embodiment of the disclosed modular education and toy block of the invention are combined.

[0044] The numbers of the parts in the disclosed modular education and toy group of the invention in the figures are shown below: [0045] 1. Modular education and toy group [0046] 10. Piece [0047] 11. Body [0048] 20. Jointer [0049] 21. Teeth [0050] 210. Inner tooth [0051] 211. Outer tooth [0052] 30. Inter combination unit

[0053] The disclosed modular education and toy block (1) of the invention comprises toy pieces (10) in various shapes and sizes and a jointer (20) in tooth (21) form having recesses and protrusions in triangular form providing that these pieces (10) are combined in every direction and shape and an inter combination unit (30) used to combine female-female surfaces.

[0054] The pieces (10) included by the disclosed modular education and toy block (1) of the invention comprise toothed (21) jointers (20) and a body (11). In the main embodiment of the invention, a unit (10) comprises at least one jointer (20) positioned as a single piece and a body (11).

[0055] In an embodiment of the invention, the pieces (10) can comprise both toothed (21) jointers (20) and tabs.

[0056] The disclosed tabs comprise protrusions in male form or recesses in female form.

[0057] The jointer (20) comprises at least one teeth row. The teeth (21) row can be linear or circular or spiral. The teeth (21) comprise protrusions in triangular form and recesses formed between these protrusions.

[0058] The teeth (21) row comprises two types of tooth (21) such as inner teeth (210) and outer teeth (211).

[0059] The inner teeth (210) are the teeth (21) created by the recesses formed inwards from the body (11).

[0060] The outer teeth (211) are the teeth (21) created by the protrusions formed outwards from the body (11).

[0061] The teeth (21) are in a form that they are fixed onto the surface of the piece (10) which the part which is the base of its triangular form belongs to and that the ends of the triangular form are free. The free ends of the disclosed teeth (21) are in a form that gets narrow and/or pointed according to the part where they are fixed.

[0062] The teeth (21) which fit to each other are in the same geometry and angle with each other.

[0063] The jointer (20) can be produced from a material softer than the body (11) on the purpose of obtaining a better combination. Therefore, a more elastic combination is provided between the pieces (10).

[0064] The toy pieces (10) in various shapes comprising the jointer (20) on at least one edge of the toy piece (10) and the teeth (21) included by the disclosed jointers (20) can be combined with each other in every direction and shape.

[0065] A jointer (20) comprising inner teeth (210) and another jointer having outer teeth (211) are combined in every shape from any desired region of the toy piece (10) to every direction one or multi dimensionally. Combining of a teeth (21) row comprising inner teeth (210) with another teeth (21) row having outer teeth (211) provides combination of two toy pieces (10) with each other smoothly without remaining any space between them.

[0066] Also, it is provided that the toy blocks (1) are created in every direction and shape by combining two pieces (10) comprising outer teeth (211) row with each other.

[0067] The body (11) can comprise both single and/or multi tooth (21) rowed jointers (20) having inner teeth (210) and single and/or multi tooth (21) rowed jointers (20) having outer teeth (210).

[0068] Therefore, comb fittings (finger joint) with different properties can be carried out with the jointers (20) having different tooth (21) row on the same body (11).

[0069] The inter combination unit (30) is an interconnection component. The disclosed inter combination unit (30) is used to combine the recessed structures (female-female) formed between protrusions that the teeth (21) have in the inner tooth (210) and/or outer tooth (211) rows.

[0070] In addition, the circularly rowed tooth structures (21) that can combine with each other also can combine with the tooth structures (21) that are not circularly rowed as well due to the inter combination unit (30).

[0071] The lateral surface of the inter combination unit (30) is in a rough form increasing friction. Also, the inter combination unit (30) is in an appropriate width for tooth (21) widths.

[0072] The distance between teeth (21) and the depth of teeth (21) are determined equally on the purpose of providing fitting of every piece (10) to each other. The tooth (21) widths of the toy piece (10) in itself are same but the tooth (21) widths in different pieces can be different from each other. In addition, the pieces (10) comprising the jointer (20) that has tooth (21) rows with different widths can be combined with each other.

[0073] Two toy pieces (10) with the jointer (20) having wider and narrower tooth (21) structures can be combined due to the teeth (21) with the same depths.

[0074] In another embodiment of the invention in the FIG. 4, it is provided that new toy pieces (10) which is created grow three dimensionally due to the jointers (20) comprising teeth structures (21) perpendicular to each other. Thus, it is aimed that users create the structures that they imagine without adhering two dimensions.

[0075] The jointers (20) having multi teeth (21) rows and a piece (10) can be connected to the other pieces (10) from a desired tooth (21) row as well as the jointers (20) may have a single teeth (21) row. Therefore, a chance of combination with more sensitive measurement is provided during construction of the units (10) to each other and the construction independence of the user increases on behalf of the measurement. An example of this is shown in the FIG. 6. Also, the combinations which are 90 degrees perpendicular to the toy piece (10) are provided by creating these tooth rows (21) diagonally. Thus, a piece (10) can be used as a multidirectional connection point. The pieces (10) which grow to different directions can be fitted to this connection point.

[0076] In the disclosed modular education and toy block (1) of the invention, one directional tooth (21) row systems also give chance for the connection of more than one piece (10). One directional tooth (21) row is a toothed (21) structure allowing combination in only one direction; however, it is provided that the toy pieces (10) are combined very diversely in every direction by using the advantage of the teeth (21) with different width.

[0077] Creating a new piece (10) is seen as a result of combination of the toy piece (10) in rectangular prism form comprising jointers (20) on four sides of the toy piece (10) which is an example of an embodiment of the invention in the FIG. 1 with another toy piece (10) in pentagonal form comprising jointers (20) on all edges of the toy piece (10) again on the same plane. Additions can be made to this new piece (10) created with idle jointers (20) which are not combined with any units (10).

[0078] In another embodiment of the invention in the FIG. 7, a block (1) created by combining lots of different toy pieces (10) is shown. A new piece (10) in star form is created by fitting triangular pieces (10) to a pentagonal toy piece (10). A level difference between these pieces (10) combined with the toothed (21) jointers (20) does not occur after they are combined. Therefore, more natural and regular structures develop. The systems provided due to the pieces (10) that allow big and many multiple connections; the construction of new blocks (1) are provided via attaching many pieces (10) with regard to the central piece (10).

[0079] In another embodiment of the invention in the FIGS. 8 and 9, new pieces (10) in various shapes can be created also with pieces in oval form except of the pieces (10) in cornered geometry due to the toothed (21) jointer (20). The jointers (20) with rowed teeth (21) in circular form included by the toy pieces (10) in semicircular or full circular form on their outer surfaces comprising rowed teeth (21) can be combined with the pieces (10) in semicircular form with rowed teeth (21) whose inner edge is in circular form.

[0080] In the example of an embodiment of the invention in the FIG. 10, it is shown that a toy piece (10) in cylindrical form whose all surfaces comprise jointers (20) and another toy piece (10) whose all inner surface comprises a continuous jointer (20) can be combined in the form that they can intertwine.

[0081] In alternative embodiments of the invention, the toy pieces (10) in semispherical or full spherical form comprising rowed teeth (21) structures which are outwards or embedded inwards on the axis of the toy pieces can be combined with each other. These tooth (21) rows can surround all around the sphere and also they are positioned on a specific region of it. An example of these embodiments where circular pieces (10) and spherical pieces (10) can be combined with each other is shown in the FIG. 10.

[0082] The ends of the teeth (21) are in the form that they do not damage to human body and possible injuries are prevented by avoiding sharp structures. In addition, the teeth (21) are in a robust and elastic form such that it prevents breaking.

[0083] The teeth (21) included by the disclosed modular education and toy block (1) of the invention are made of plastic, wood, metal and composite materials.

[0084] The teeth (21) can be produced with technique of flaring with knife or production with mold.

[0085] The toothed (21) jointer (20) allows the combination of not only geometrical figures but also any object having a teeth (21) structure. For example, the units (10) that human models having a tooth (21) structure are created can be combined with each other.

[0086] The invention is not limited with the embodiments disclosed above and a skilled person in the art can perform different embodiments of the invention easily. They should be evaluated within the scope of the invention protection demanded with claims.